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Advanced Chemical Reaction Engineering (PG) |
Lecture 1 - Course Overview - I |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 2 - Course Overview - II |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 3 - Design Equations - I |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 4 - Design Equations - Illustrative Examples |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 5 - Design Equations - II : Plug Flow Recycle Reactors |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 6 - Illustrative Examples : 1) Plug Flow Recycle 2) Multiple reactions - I |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 7 - Illustrative Examples : 1) Recycle Reactor with Condenser 2) CSTR with Recycle |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 8 - Multiple Reactions - II |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 9 - Modelling Multiple Reactions in Soil Environment - III |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 10 - Semi Continuous Reactor Operation |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 11 - Catalyst Deactivation - I |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 12 - Catalyst Deactivation - II |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 13 - Illustrative Example : 1) Determination of deactivation Parameters 2) Design for Deactivating Catalyst |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 14 - Energy Balance - I |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 15 - Energy Balance - II |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 16 - Reacting Fluids as Energy Carrier |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 17 - Illustrative Example : Energy Balance in Stirred Vessels |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 18 - Energy Balance - III : Design for Constant T Operation |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 19 - Energy Balance - IV : Temperature Effects on Rate & Equilibria |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 20 - Energy Balance - V : Stability Analysis of Exothermic Stirred Tank |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 21 - Illustrative Example : Stability of Exothermic Stirred Tank |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 22 - Energy Balance - VI : 1) Tubular Reactor Heated/Cooled from Wall 2) Transient Behavior of CSTR |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 23 - Illustrative Example : 1) Plug Flow with Heat Effects 2) Multiple Reactions |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 24 - Illustrative Example : 1) Further Considerations in Energy Balance 2) Multiple Reactions |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 25 - Illustrative Example : 1) Hot Spot as Design Basis 2) Design for Instantaneous Reactions |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 26 - Residence Time Distribution Methods |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 27 - Residence Time Distribution Models |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 28 - Shrinking core Gas-Solid reactions Model |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 29 - Shrinking core Ash Diffusion Model & Combination of Resistances |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 30 - 1) Gas Solid Reactions Temperature Effects on Rate & Equilibria 2) Introduction to Population Balance - I |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 31 - Illustrative Example : Temperature Effects on Rate & Equilibria |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 32 - Population Balance Modelling - II |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 33 - Population Balance Modelling - III |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 34 - Illustrative Examples : Population Balance Models |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 35 - Introduction to Environmental Reactions |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 36 - Reaction Engineering Examples in Biochemical & Environmental Engineering |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 37 - Illustrative Examples : 1) Biomethanation 2) Alcohol via Fermentation 3) Natural Selection |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 38 - Illustrative Examples : 1) Enzyme Reaction 2) Microbial Reaction 3) Waste Treatment |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 39 - Oxygen Sag Analysis in Rivers |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 40 - Illustrative Examples : 1) Oxygen Sag Analysis 2) Population Balance Modelling of Forest 3) Sponge Iron Process |
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Advanced Chemical Reaction Engineering (PG) |
Lecture 41 - Illustrative Example : Gas- Solid Reaction RTD Models Reaction Network |
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Advanced Process Control |
Lecture 1 - Introduction and Motivation |
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Advanced Process Control |
Lecture 2 - Linearization of Mechanistic Models |
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Advanced Process Control |
Lecture 3 - Linearization of Mechanistic Models (Continued...) |
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Advanced Process Control |
Lecture 4 - Introduction to z-transforms and Development of Grey-box models |
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Advanced Process Control |
Lecture 5 - Introduction to Stability Analysis and Development of Output Error Models |
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Advanced Process Control |
Lecture 6 - Introduction to Stochastic Processes |
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Advanced Process Control |
Lecture 7 - Introduction to Stochastic Processes (Continued...) |
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Advanced Process Control |
Lecture 8 - Development of ARX models |
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Advanced Process Control |
Lecture 9 - Statistical Properties of ARX models and Development of ARMAX models |
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Advanced Process Control |
Lecture 10 - Development of ARMAX models (Continued...) and Issues in Model Development |
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Advanced Process Control |
Lecture 11 - Model Structure Selection and Issues in Model Development (Continued...) |
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Advanced Process Control |
Lecture 12 - Issues in Model Development (Continued...) and State Realizations of Transfer Function Models |
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Advanced Process Control |
Lecture 13 - Stability Analysis of Discrete Time Systems |
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Advanced Process Control |
Lecture 14 - Lyapunov Functions and Interaction Analysis and Multi-loop Control |
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Advanced Process Control |
Lecture 15 - Interaction Analysis and Multi-loop Control (Continued...) |
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Advanced Process Control |
Lecture 16 - Multivariable Decoupling Control and Soft Sensing and State Estimation |
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Advanced Process Control |
Lecture 17 - Development of Luenberger Observer |
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Advanced Process Control |
Lecture 18 - Development of Luenberger Observer (Continued...) and Introduction to Kalman Filtering |
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Advanced Process Control |
Lecture 19 - Kalman Filtering |
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Advanced Process Control |
Lecture 20 - Kalman Filtering (Continued...) |
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Advanced Process Control |
Lecture 21 - Kalman Filtering (Continued...) |
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Advanced Process Control |
Lecture 22 - Pole Placement State Feedback Control Design and Introduction to Linear Quadratic Gaussian (LQG) Control |
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Advanced Process Control |
Lecture 23 - Linear Quadratic Gaussian (LQG) Regulator Design |
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Advanced Process Control |
Lecture 24 - Linear Quadratic Gaussian (LQG) Controller Design |
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Advanced Process Control |
Lecture 25 - Model Predictive Control (MPC) |
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Advanced Process Control |
Lecture 26 - Model Predictive Control (Continued...) |
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Chemical Reaction Engineering II |
Lecture 1 - Introduction to catalysts and catalysis |
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Chemical Reaction Engineering II |
Lecture 2 - Steps in catalytic reaction: adsorption, desorption and reaction |
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Chemical Reaction Engineering II |
Lecture 3 - Derivation of the rate equation |
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Chemical Reaction Engineering II |
Lecture 4 - Heterogenous data analysis for reactor design - I |
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Chemical Reaction Engineering II |
Lecture 5 - Heterogenous data analysis for reactor design - II |
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Chemical Reaction Engineering II |
Lecture 6 - Catalyst deactivation and accounting for it in design - I |
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Chemical Reaction Engineering II |
Lecture 7 - Catalyst deactivation and accounting for it in design - II |
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Chemical Reaction Engineering II |
Lecture 8 - Synthesize the rate equation |
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Chemical Reaction Engineering II |
Lecture 9 - Introduction to intraparticle diffusion |
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Chemical Reaction Engineering II |
Lecture 10 - Intraparticle diffusion: Thiele modulus and effectiveness factor Part - I |
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Chemical Reaction Engineering II |
Lecture 11 - Intraparticle diffusion: Thiele modulus and effectiveness factor Part - II |
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Chemical Reaction Engineering II |
Lecture 12 - Intraparticle diffusion: Thiele modulus and effectiveness factor Part - III |
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Chemical Reaction Engineering II |
Lecture 13 - Effectiveness factor and Introduction to external mass transfer |
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Chemical Reaction Engineering II |
Lecture 14 - External Mass Transfer |
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Chemical Reaction Engineering II |
Lecture 15 - Implications to rate data interpretation and design - I |
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Chemical Reaction Engineering II |
Lecture 16 - Implications to rate data interpretation and design - II |
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Chemical Reaction Engineering II |
Lecture 17 - Packed-bed reactor design |
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Chemical Reaction Engineering II |
Lecture 18 - Fluidized bed reactor design - I |
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Chemical Reaction Engineering II |
Lecture 19 - Fluidized bed reactor design - II |
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Chemical Reaction Engineering II |
Lecture 20 - Gas-liquid reactions-1: Theories of mass transfer into agitated liquids |
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Chemical Reaction Engineering II |
Lecture 21 - GLR-2: Effect of chemical reaction on mass transfer: the slow reaction regime |
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Chemical Reaction Engineering II |
Lecture 22 - GLR-3: Transition to fast reaction, and the Fast reaction regime |
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Chemical Reaction Engineering II |
Lecture 23 - GLR-4: Fast reaction example; Instantaneous reaction regime |
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Chemical Reaction Engineering II |
Lecture 24 - GLR-5: Transition to Instantaneous reaction; Reaction regimes in surface renewal theories |
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Chemical Reaction Engineering II |
Lecture 25 - GLR-6: Reaction regimes in surface renewal theories (Continued..) |
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Chemical Reaction Engineering II |
Lecture 26 - GLR-7: Surface renewal theories: Instantaneous reaction and Summing up |
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Chemical Reaction Engineering II |
Lecture 27 - Fluid-solid non-catalytic reactions - I |
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Chemical Reaction Engineering II |
Lecture 28 - Fluid-solid non-catalytic reactions - II |
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Chemical Reaction Engineering II |
Lecture 29 - Fluid-solid non-catalytic reactions - III |
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Chemical Reaction Engineering II |
Lecture 30 - Distribution of residence time |
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Chemical Reaction Engineering II |
Lecture 31 - Measurement of residence time distribution |
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Chemical Reaction Engineering II |
Lecture 32 - Residence time distribution function |
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Chemical Reaction Engineering II |
Lecture 33 - Reactor diagnostics and troubleshooting |
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Chemical Reaction Engineering II |
Lecture 34 - Modeling non-ideal reactors |
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Chemical Reaction Engineering II |
Lecture 35 - Residence time distribution: Performance of non-ideal reactors |
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Chemical Reaction Engineering II |
Lecture 36 - Non-ideal Reactors: Tanks-in-series model |
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Chemical Reaction Engineering II |
Lecture 37 - Non-ideal Reactors: Dispersion model |
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Chemical Reaction Engineering II |
Lecture 38 - Non-ideal Reactors: Dispersion model and introduction to multiparameter models |
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Chemical Reaction Engineering II |
Lecture 39 - Non-ideal Reactors: Multiparameter models |
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Advanced Numerical Analysis |
Lecture 1 - Introduction and Overview |
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Advanced Numerical Analysis |
Lecture 2 - Fundamentals of Vector Spaces |
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Advanced Numerical Analysis |
Lecture 3 - Basic Dimension and Sub-space of a Vector Space |
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Advanced Numerical Analysis |
Lecture 4 - Introduction to Normed Vector Spaces |
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Advanced Numerical Analysis |
Lecture 5 - Examples of Norms,Cauchy Sequence and Convergence, Introduction to Banach Spaces |
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Advanced Numerical Analysis |
Lecture 6 - Introduction to Inner Product Spaces |
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Advanced Numerical Analysis |
Lecture 7 - Cauchy Schwaz Inequality and Orthogonal Sets |
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Advanced Numerical Analysis |
Lecture 8 - Gram-Schmidt Process and Generation of Orthogonal Sets |
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Advanced Numerical Analysis |
Lecture 9 - Problem Discretization Using Appropriation Theory |
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Advanced Numerical Analysis |
Lecture 10 - Weierstrass Theorem and Polynomial Approximation |
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Advanced Numerical Analysis |
Lecture 11 - Taylor Series Approximation and Newton's Method |
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Advanced Numerical Analysis |
Lecture 12 - Solving ODE - BVPs Using Firute Difference Method |
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Advanced Numerical Analysis |
Lecture 13 - Solving ODE - BVPs and PDEs Using Finite Difference Method |
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Advanced Numerical Analysis |
Lecture 14 - Finite Difference Method (Continued...) and Polynomial Interpolations |
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Advanced Numerical Analysis |
Lecture 15 - Polynomial and Function Interpolations,Orthogonal Collocations Method for Solving ODE -BVPs |
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Advanced Numerical Analysis |
Lecture 16 - Orthogonal Collocations Method for Solving ODE - BVPs and PDEs |
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Advanced Numerical Analysis |
Lecture 17 - Least Square Approximations, Necessary and Sufficient Conditions for Unconstrained Optimization |
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Advanced Numerical Analysis |
Lecture 18 - Least Square Approximations -Necessary and Sufficient Conditions for Unconstrained Optimization Least Square Approximations ( Continued....) |
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Advanced Numerical Analysis |
Lecture 19 - Linear Least Square Estimation and Geometric Interpretation of the Least Square Solution |
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Advanced Numerical Analysis |
Lecture 20 - Geometric Interpretation of the Least Square Solution (Continued...) and Projection Theorem in a Hilbert Spaces |
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Advanced Numerical Analysis |
Lecture 21 - Projection Theorem in a Hilbert Spaces (Continued...) and Approximation Using Orthogonal Basis |
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Advanced Numerical Analysis |
Lecture 22 - Discretization of ODE-BVP using Least Square Approximation |
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Advanced Numerical Analysis |
Lecture 23 - Discretization of ODE-BVP using Least Square Approximation and Gelarkin Method |
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Advanced Numerical Analysis |
Lecture 24 - Model Parameter Estimation using Gauss-Newton Method |
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Advanced Numerical Analysis |
Lecture 25 - Solving Linear Algebraic Equations and Methods of Sparse Linear Systems |
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Advanced Numerical Analysis |
Lecture 26 - Methods of Sparse Linear Systems (Continued...) and Iterative Methods for Solving Linear Algebraic Equations |
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Advanced Numerical Analysis |
Lecture 27 - Iterative Methods for Solving Linear Algebraic Equations |
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Advanced Numerical Analysis |
Lecture 28 - Iterative Methods for Solving Linear Algebraic Equations: Convergence Analysis using Eigenvalues |
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Advanced Numerical Analysis |
Lecture 29 - Iterative Methods for Solving Linear Algebraic Equations: Convergence Analysis using Matrix Norms |
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Advanced Numerical Analysis |
Lecture 30 - Iterative Methods for Solving Linear Algebraic Equations: Convergence Analysis using Matrix Norms (Continued...) |
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Advanced Numerical Analysis |
Lecture 31 - Iterative Methods for Solving Linear Algebraic Equations: Convergence Analysis (Continued...) |
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Advanced Numerical Analysis |
Lecture 32 - Optimization Based Methods for Solving Linear Algebraic Equations: Gradient Method |
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Advanced Numerical Analysis |
Lecture 33 - Conjugate Gradient Method, Matrix Conditioning and Solutions of Linear Algebraic Equations |
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Advanced Numerical Analysis |
Lecture 34 - Matrix Conditioning and Solutions and Linear Algebraic Equations (Continued...) |
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Advanced Numerical Analysis |
Lecture 35 - Matrix Conditioning (Continued...) and Solving Nonlinear Algebraic Equations |
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Advanced Numerical Analysis |
Lecture 36 - Solving Nonlinear Algebraic Equations: Wegstein Method and Variants of Newton's Method |
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Advanced Numerical Analysis |
Lecture 37 - Solving Nonlinear Algebraic Equations: Optimization Based Methods |
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Advanced Numerical Analysis |
Lecture 38 - Solving Nonlinear Algebraic Equations: Introduction to Convergence analysis of Iterative Solution Techniques |
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Advanced Numerical Analysis |
Lecture 39 - Solving Nonlinear Algebraic Equations: Introduction to Convergence analysis (Continued...) and Solving ODE-IVPs |
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Advanced Numerical Analysis |
Lecture 40 - Solving Ordinary Differential Equations - Initial Value Problems (ODE-IVPs) : Basic Concepts |
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Advanced Numerical Analysis |
Lecture 41 - Solving Ordinary Differential Equations - Initial Value Problems (ODE-IVPs) : Runge Kutta Methods |
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Advanced Numerical Analysis |
Lecture 42 - Solving ODE-IVPs : Runge Kutta Methods (Continued...) and Multi-step Methods |
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Advanced Numerical Analysis |
Lecture 43 - Solving ODE-IVPs : Generalized Formulation of Multi-step Methods |
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Advanced Numerical Analysis |
Lecture 44 - Solving ODE-IVPs : Multi-step Methods (Continued...) and Orthogonal Collocations Method |
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Advanced Numerical Analysis |
Lecture 45 - Solving ODE-IVPs: Selection of Integration Interval and Convergence Analysis of Solution Schemes |
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Advanced Numerical Analysis |
Lecture 46 - Solving ODE-IVPs: Convergence Analysis of Solution Schemes (Continued...) |
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Advanced Numerical Analysis |
Lecture 47 - Solving ODE-IVPs: Convergence Analysis of Solution Schemes (Continued...) and Solving ODE-BVP using Single Shooting Method |
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Advanced Numerical Analysis |
Lecture 48 - Methods for Solving System of Differential Algebraic Equations |
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Advanced Numerical Analysis |
Lecture 49 - Methods for Solving System of Differential Algebraic Equations (Continued...) and Concluding Remarks |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 1 - History of the theory of Natural Selection - 1 |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 2 - History of the theory of Natural Selection - 2 |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 3 - Exponential growth models |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 4 - Logistic Growth Models - 1 |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 5 - Logistic Growth Models - 2 |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 6 - Modelling selection - 1 |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 7 - Modelling Selection - 2 : Two species |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 8 - Modelling Selection - 3 : Two and more species |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 9 - Modelling Mutations - 1 |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 10 - Modelling Mutations - 2 |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 11 - Modelling Mutations - 3 |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 12 - Genetic Code and Sequence Spaces |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 13 - Sequence Spaces as Networks |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 14 - Sequence Space to Fitness Landscape |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 15 - Properties of Fitness Landscapes and Quasi-species |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 16 - Integrating Reproduction, Selection and Mutation |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 17 - Obtaining Fitness Landscapes Experimentally |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 18 - NK Model of Fitness Landscape |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 19 - Modelling Evolution on Fitness Landscapes - 1 |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 20 - Modelling Evolution on Fitness Landscapes - 2 |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 21 - Modelling Evolution on Fitness Landscapes - 3 |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 22 - Role of Randomness in Evolution |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 23 - Genetic Drift in Evolution of Microbial Populations |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 24 - Dynamics of a Moran Process without Selection |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 25 - Dynamics of a Moran Process without Selection |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 26 - Evolution, Selection, and Genetic Drift |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 27 - Representing Microbial Evolution |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 28 - Estimating Timescales of Evolution |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 29 - Estimating the Speed of Microbial Evolution |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 30 - Evolutionary Dynamics when Mutations are Rare |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 31 - Evolutionary Dynamics when Mutations are Rapid - 1 |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 32 - Evolutionary Dynamics when Mutations are Rapid - 2 |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 33 - Evolutionary Dynamics when Mutations are Rapid - 3 |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 34 - Evolutionary Game Theory - 1 |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 35 - Evolutionary Game Theory - 2 |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 36 - Evolutionary Game Theory - 3 |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 37 - Evolutionary Game Theory - 4 |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 38 - Evolutionary Game Theory Applied to Moran Process |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 39 - Evolutionary Games During Weak Selection |
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NOC:Introduction to Evolutionary Dynamics |
Lecture 40 - Evolutionary Dynamics of HIV |
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NOC:Heat Transfer |
Lecture 1 - Introduction |
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NOC:Heat Transfer |
Lecture 2 - Introduction to Conduction |
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NOC:Heat Transfer |
Lecture 3 - Energy Balance |
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NOC:Heat Transfer |
Lecture 4 - 1D Steadystate Conduction - Resistance Concept |
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NOC:Heat Transfer |
Lecture 5 - Resistances in Composite Wall Case |
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NOC:Heat Transfer |
Lecture 6 - Resistances in Radial Systems |
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NOC:Heat Transfer |
Lecture 7 - Heat Generation - I Plane and Cylindrical Wall |
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NOC:Heat Transfer |
Lecture 8 - Heat Generation - II Problem; Introduction to Extended Surfaces |
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NOC:Heat Transfer |
Lecture 9 - Extended Surfaces I - General Formulation |
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NOC:Heat Transfer |
Lecture 10 - Extended Surfaces II - Fixed Cross-section Area |
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NOC:Heat Transfer |
Lecture 11 - Extended Surfaces III - Varying Cross-section Area |
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NOC:Heat Transfer |
Lecture 12 - 2D Plane Wall |
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NOC:Heat Transfer |
Lecture 13 - Transient Analyses I : Lumped Capacitance Method |
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NOC:Heat Transfer |
Lecture 14 - Transient Analyses II : Full Method |
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NOC:Heat Transfer |
Lecture 15 - Transient Analyses : Semi-infinite Case |
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NOC:Heat Transfer |
Lecture 16 - Introduction to Convective Heat Transfer |
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NOC:Heat Transfer |
Lecture 17 - Heat and Mass Transport Coefficients |
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NOC:Heat Transfer |
Lecture 18 - Boundary Layer : Momentum, Thermal and Concentration |
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NOC:Heat Transfer |
Lecture 19 - Laminar and Turbulent Flows; Momentum Balance |
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NOC:Heat Transfer |
Lecture 20 - Energy and Mass Balances; Boundary Layer Approximations |
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NOC:Heat Transfer |
Lecture 21 - Order of Magnitude Analysis |
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NOC:Heat Transfer |
Lecture 22 - Transport Coefficients |
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NOC:Heat Transfer |
Lecture 23 - Relationship between Momentum, Thermal and Concentration Boundary Layer |
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NOC:Heat Transfer |
Lecture 24 - Reynolds and Chilton-Colburn Analogies |
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NOC:Heat Transfer |
Lecture 25 - Forced Convection : Introduction |
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NOC:Heat Transfer |
Lecture 26 - Flow Past Flat Plate I - Method of Blasius |
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NOC:Heat Transfer |
Lecture 27 - Flow Past Flat Plate II - Correlations for Heat and Mass Transport |
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NOC:Heat Transfer |
Lecture 28 - Flow Past Cylinders |
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NOC:Heat Transfer |
Lecture 29 - Flow through Pipes - I |
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NOC:Heat Transfer |
Lecture 30 - Flow through Pipes - II |
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NOC:Heat Transfer |
Lecture 31 - Flow through Pipes - III |
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NOC:Heat Transfer |
Lecture 32 - Flow through Pipes - IV - Mixing-cup Temperature |
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NOC:Heat Transfer |
Lecture 33 - Flow through Pipes - V - Log mean Temperature Difference |
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NOC:Heat Transfer |
Lecture 34 - Flow through Pipes - VI - Correlations for Laminar and Turbulent Conditions |
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NOC:Heat Transfer |
Lecture 35 - Example problems : Forced Convection |
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NOC:Heat Transfer |
Lecture 36 - Introduction to Free/Natural Convection |
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NOC:Heat Transfer |
Lecture 37 - Heated Plate in a Quiescent Fluid - I |
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NOC:Heat Transfer |
Lecture 38 - Heated Plate in a Quiescent Fluid - II |
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NOC:Heat Transfer |
Lecture 39 - Boiling - I |
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NOC:Heat Transfer |
Lecture 40 - Boiling - II |
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NOC:Heat Transfer |
Lecture 41 - Condensation - I |
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NOC:Heat Transfer |
Lecture 42 - Condensation - II |
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NOC:Heat Transfer |
Lecture 43 - Radiation : Introduction |
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NOC:Heat Transfer |
Lecture 44 - Spectral Intensity |
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NOC:Heat Transfer |
Lecture 45 - Radiation : Spectral properties, Blackbody |
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NOC:Heat Transfer |
Lecture 46 - Properties of a Blackbody |
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NOC:Heat Transfer |
Lecture 47 - Surface Adsorption |
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NOC:Heat Transfer |
Lecture 48 - Kirchoff’s Law |
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NOC:Heat Transfer |
Lecture 49 - Radiation Exchange - View Factor |
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NOC:Heat Transfer |
Lecture 50 - View Factor Examples |
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NOC:Heat Transfer |
Lecture 51 - View Factor - Inside Sphere Method, Blackbody Radiation Exchange |
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NOC:Heat Transfer |
Lecture 52 - Diffuse, Gray Surfaces in an Enclosure |
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NOC:Heat Transfer |
Lecture 53 - Resistances - Oppenheim Matrix Method |
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NOC:Heat Transfer |
Lecture 54 - Resistances - Examples |
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NOC:Heat Transfer |
Lecture 55 - More Examples: Volumetric Radiation |
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NOC:Heat Transfer |
Lecture 56 - Introduction and Examples |
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NOC:Heat Transfer |
Lecture 57 - Parallel Flow Heat Exchangers |
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NOC:Heat Transfer |
Lecture 58 - LMTD I |
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NOC:Heat Transfer |
Lecture 59 - Shell and Tube Heat Exchangers |
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NOC:Heat Transfer |
Lecture 60 - Epsilon-NTU Method |
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NOC:Chemical Reaction Engineering-II |
Lecture 1 - Introduction |
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NOC:Chemical Reaction Engineering-II |
Lecture 2 - Introduction to catalysis and catalytic processes |
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NOC:Chemical Reaction Engineering-II |
Lecture 3 - Catalyst properties and classification |
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NOC:Chemical Reaction Engineering-II |
Lecture 4 - Steps in catalysis |
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NOC:Chemical Reaction Engineering-II |
Lecture 5 - Adsorption isotherm |
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NOC:Chemical Reaction Engineering-II |
Lecture 6 - Surface reaction |
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NOC:Chemical Reaction Engineering-II |
Lecture 7 - Rate controlling steps and Rate law |
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NOC:Chemical Reaction Engineering-II |
Lecture 8 - Rate law: Pseudo-steady state hypothesis |
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NOC:Chemical Reaction Engineering-II |
Lecture 9 - Heterogeneous data analysis for reactor design - I |
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NOC:Chemical Reaction Engineering-II |
Lecture 10 - Heterogeneous data analysis for reactor design - II |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 11 - Design of reactors: PBR and CSTR |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 12 - Case study: Chemical Vapor Deposition |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 13 - Catalyst deactivation - I |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 14 - Catalyst deactivation - II |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 15 - Catalyst deactivation - III |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 16 - Catalyst deactivation - IV : Reactor design |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 17 - Diffusional effects: Introduction |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 18 - Internal diffusion effects: Model development |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 19 - Non-dimensionalization: Thiele modulus |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 20 - Concentration profile |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 21 - Internal effectiveness factor - I |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 22 - Internal effectiveness factor - II |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 23 - Internal effectiveness factor - III: Exothermic and endothermic reactions |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 24 - Falsification of kinetics |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 25 - External mass transport limitations: Mass transfer coefficient |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 26 - Estimation of mass transfer coefficient |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 27 - Mass transfer to a single particle with reaction |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 28 - Packed-bed reactor design: External mass transfer limitations |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 29 - Mass transfer coefficient in Packed-beds |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 30 - Estimation of conversion in Packed-bed reactor: Example problem |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 31 - Overall effectiveness factor - I |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 32 - Overall effectiveness factor - II |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 33 - Identification of internal diffusion and reaction-limited regimes |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 34 - Packed-bed reactor design |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 35 - Generalized criterion for diffusion and reaction-limited conditions |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 36 - Network of first order reactions |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 37 - Use of experimental data |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 38 - Packed-bed reactor design: External and Internal resistances |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 39 - Fluidized bed reactor design - I |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 40 - Fluidized bed reactor design - II |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 41 - Fluidized bed reactor design - III |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 42 - Fluidized bed reactor design - IV |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 43 - Fluid-solid noncatalytic reactions - I |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 44 - Fluid-solid noncatalytic reactions - II |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 45 - Fluid-solid noncatalytic reactions - III |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 46 - Fluid-solid noncatalytic reactions - IV |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 47 - Fluid-solid noncatalytic reactions - V |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 48 - Fluid-solid noncatalytic reactions - VI |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 49 - Residence time distribution (RTD): Introduction |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 50 - RTD: Non-ideal reactors |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 51 - Measurement of RTD - I |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 52 - Measurement of RTD - II |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 53 - RTD function |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 54 - Properties of RTD function |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 55 - Reactor diagnostics and troubleshooting - I |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 56 - Reactor diagnostics and troubleshooting - II |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 57 - Modeling nonideal reactors - I |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 58 - Modeling nonideal reactors - II |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 59 - Non-ideal reactors: Zero parameter models - I |
Link |
NOC:Chemical Reaction Engineering-II |
Lecture 60 - Non-ideal reactors: Zero parameter models - II |
Link |
NOC:Chemical Process Control |
Lecture 1 - Motivation for process control |
Link |
NOC:Chemical Process Control |
Lecture 2 - Functions of process control system |
Link |
NOC:Chemical Process Control |
Lecture 3 - Common control strategies |
Link |
NOC:Chemical Process Control |
Lecture 4 - Components of process control system |
Link |
NOC:Chemical Process Control |
Lecture 5 - Introduction to process dynamics |
Link |
NOC:Chemical Process Control |
Lecture 6 - First principle dynamic models |
Link |
NOC:Chemical Process Control |
Lecture 7 - Empirical and gray box models |
Link |
NOC:Chemical Process Control |
Lecture 8 - Degree of freedom analysis |
Link |
NOC:Chemical Process Control |
Lecture 9 - Introduction to first order dynamical systems |
Link |
NOC:Chemical Process Control |
Lecture 10 - Linearization of process dynamics |
Link |
NOC:Chemical Process Control |
Lecture 11 - Response to step input |
Link |
NOC:Chemical Process Control |
Lecture 12 - Response to sinusoidal input |
Link |
NOC:Chemical Process Control |
Lecture 13 - Introduction to second order dynamical systems |
Link |
NOC:Chemical Process Control |
Lecture 14 - Examples of second order dynamical systems |
Link |
NOC:Chemical Process Control |
Lecture 15 - Response to step input |
Link |
NOC:Chemical Process Control |
Lecture 16 - Effect of damping coefficient |
Link |
NOC:Chemical Process Control |
Lecture 17 - Higher order dynamics |
Link |
NOC:Chemical Process Control |
Lecture 18 - Approximation as FOPDT model |
Link |
NOC:Chemical Process Control |
Lecture 19 - Numerator dynamics |
Link |
NOC:Chemical Process Control |
Lecture 20 - Prediction of step response |
Link |
NOC:Chemical Process Control |
Lecture 21 - Block diagram representation |
Link |
NOC:Chemical Process Control |
Lecture 22 - ON-OFF control |
Link |
NOC:Chemical Process Control |
Lecture 23 - Proportional control |
Link |
NOC:Chemical Process Control |
Lecture 24 - Proportional-Integral control |
Link |
NOC:Chemical Process Control |
Lecture 25 - PID control |
Link |
NOC:Chemical Process Control |
Lecture 26 - Limitations of PID controllers |
Link |
NOC:Chemical Process Control |
Lecture 27 - Stability of dynamical processes |
Link |
NOC:Chemical Process Control |
Lecture 28 - Laplace domain analysis - Part I |
Link |
NOC:Chemical Process Control |
Lecture 29 - Laplace domain analysis - Part II |
Link |
NOC:Chemical Process Control |
Lecture 30 - Frequency response |
Link |
NOC:Chemical Process Control |
Lecture 31 - Frequency domain analysis |
Link |
NOC:Chemical Process Control |
Lecture 32 - Synthesis problem |
Link |
NOC:Chemical Process Control |
Lecture 33 - Selection problem |
Link |
NOC:Chemical Process Control |
Lecture 34 - Criteria-based controller tuning |
Link |
NOC:Chemical Process Control |
Lecture 35 - Heuristics-based controller tuning |
Link |
NOC:Chemical Process Control |
Lecture 36 - Direct synthesis-based controller tuning |
Link |
NOC:Chemical Process Control |
Lecture 37 - Frequency response-based controller tuning |
Link |
NOC:Chemical Process Control |
Lecture 38 - Cascade control |
Link |
NOC:Chemical Process Control |
Lecture 39 - Split range control and override control |
Link |
NOC:Chemical Process Control |
Lecture 40 - Auctioneering, ratio and inreferential control |
Link |
NOC:Chemical Process Control |
Lecture 41 - Openloop control and Internal model control |
Link |
NOC:Chemical Process Control |
Lecture 42 - Dynamic Matrix and Model predictive control |
Link |
NOC:Chemical Process Control |
Lecture 43 - Introduction to multivariable control |
Link |
NOC:Chemical Process Control |
Lecture 44 - Input-output pairing |
Link |
NOC:Chemical Process Control |
Lecture 45 - Tuning of multi-loop SISO controller |
Link |
NOC:Chemical Process Control |
Lecture 46 - Introduction to batch process control |
Link |
NOC:Chemical Process Control |
Lecture 47 - Programmable logic control |
Link |
NOC:Chemical Process Control |
Lecture 48 - Batch to batch control |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 1 - Introduction |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 2 - Coupled, linear, spring-mass systems |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 3 - Coupled, linear, spring-mass systems (Continued...) |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 4 - Coupled, linear, spring-mass systems (Continued...) |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 5 - Coupled, linear, spring-mass system: continuum limit |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 6 - Normal modes of a string fixed at both ends |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 7 - Vibrations of clamped membranes |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 8 - Vibrations of clamped membranes (Continued...) |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 9 - Introduction to Jacobian elliptic functions |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 10 - The non-linear pendulum |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 11 - The non-linear pendulum (Continued...) |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 12 - Time period of the non-linear pendulum |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 13 - Introduction to perturbation methods |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 14 - Perturbation methods (Continued...) |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 15 - Non-dimensionalisation |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 16 - Perturbative solution to the projectile equation |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 17 - Perturbative solution to the nonlinear pendulum |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 18 - Lindstedt-Poincare technique |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 19 - Method of multiple scales |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 20 - Method of multiple scales (Continued...) |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 21 - Multiple scale analysis for damped-harmonic oscillator |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 22 - Duffing equation using multiple scales |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 23 - Duffing equation (Continued...) |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 24 - Kapitza pendulum |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 25 - Introduction to Floquet theory |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 26 - Floquet theorem (Continued...) |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 27 - Floquet analysis of the Mathieu equation |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 28 - Introduction to waves on an interface |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 29 - Linearized wave equations in deep water |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 30 - Linearized wave equations in deep water: dispersion relation |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 31 - Linearised deep-water surface gravity waves (Continued...) |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 32 - Standing and travelling waves in deep water |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 33 - Cauchy-Poisson initial value problem for surface-gravity waves in deep water |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 34 - Cauchy-Poisson problem (Continued...) |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 35 - Cauchy-Poisson problem in cylindrical geometry |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 36 - Cauchy-Poisson problem in cylindrical geometry (Continued...) |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 37 - Group-velocity and the Cauchy-Poisson problem |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 38 - Cauchy-Poisson problem for delta function initial condition |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 39 - Cauchy-Poisson problem for delta function initial condition (Continued...) |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 40 - Capillary-gravity waves |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 41 - Waves on a pool of finite depth |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 42 - Axisymmetric Cauchy-Poisson problem visualisation: the pebble in the deep pond problem |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 43 - Rayleigh-Plateau capillary instability |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 44 - Rayleigh-Plateau capillary instability (Continued...) |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 45 - Rayleigh-Plateau capillary instability on thin film coating a rod |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 46 - Rayleigh-Plateau capillary instability of a cylindrical air column in a liquid |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 47 - Mechanism of the Rayleigh-Plateau instability |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 48 - Shape oscillations of a spherical interface |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 49 - Shape oscillations of a spherical interface (Continued...) |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 50 - Shape oscillations of a spherical interface (Continued...) |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 51 - Analysis of l=0 and l=1 modes for a spherical drop |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 52 - Faraday waves on an interface - stability of time dependent base states |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 53 - Mathieu equation for Faraday waves |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 54 - Applications of Faraday waves - atomisation and spray formation |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 55 - Waves and instability on density stratified shear flows - the KH model |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 56 - Limits of KH dispersion relation: Rayleigh-Taylor instability |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 57 - KH dispersion relation : model of wind wave generation |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 58 - Helmholtz instability of a vortex sheet and summary |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 59 - Derivation of the Stokes travelling wave |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 60 - Derivation of the Stokes travelling wave (Continued...) |
Link |
NOC:Introduction to Interfacial Waves |
Lecture 61 - Derivation of the Stokes travelling wave (Continued...) |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 1 - Properties of Hydrogen |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 2 - Status of Hydrogen Supply and Demand |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 3 - Methods of Hydrogen Production |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 4 - Steam Methane Reforming - Part 1 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 5 - Steam Methane Reforming - Part 2 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 6 - Steam Reforming of Higher Hydrocarbons |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 7 - Tutorial-1 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 8 - Advanced Methods of Steam Reforming |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 9 - Partial Oxidation Method for Hydrogen Production |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 10 - Autothermal Reforming |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 11 - Combined, Dry, Bi and Tri Reforming |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 12 - Reforming using Alternate Energy Sources |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 13 - Tutorial-2 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 14 - Hydrogen Production by Methane Decomposition |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 15 - Hydrogen Production from Biomass - Part 1 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 16 - Hydrogen Production from Biomass - Part 2 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 17 - Hydrogen Production from Biomass - Part 3 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 18 - Hydrogen Production from Coal |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 19 - Tutorial-3 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 20 - Hydrogen Separation and Purification - Part 1 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 21 - Hydrogen Separation and Purification - Part 2 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 22 - Thermochemical Cycles for Hydrogen Production |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 23 - Electrolysis of Water for Hydrogen Production |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 24 - Fundamental of Electrolysis of Water |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 25 - Electrolytic Cell Components and Electrolyzer stack |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 26 - Different Types of ElectrolyzerTechnologies |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 27 - Photoelectrochemical Hydrogen Production |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 28 - Tutorial-4 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 29 - Technical Comparison of Various Hydrogen Production Routes |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 30 - Economics and Status of Various Hydrogen Production Routes |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 31 - Introduction to Hydrogen Storage |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 32 - Underground Hydrogen Storage |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 33 - Fundamentals of Hydrogen Compression and Expansion |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 34 - Thermodynamics of Hydrogen Compression - Part 1 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 35 - Thermodynamics of Hydrogen Compression - Part 2 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 36 - Reciprocating and Diaphragm compressors for Hydrogen Compression |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 37 - Linear and Liquid Hydrogen Compressors |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 38 - Cryogenic and Metal Hydride based Hydrogen Compressors |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 39 - Electrochemical and Adsorption based Compressors |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 40 - Compressed Hydrogen Tanks |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 41 - Tutorial-5 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 42 - Hydrogen Liquefaction |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 43 - Liquid State Hydrogen Storage |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 44 - Fundamentals of Adsorption based Materials for Hydrogen Storage |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 45 - Adsorption based Solid State Hydrogen Storage Materials |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 46 - Metal Hydrides for Solid State Hydrogen Storage - Part 1 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 47 - Fundamentals of Metal hydrides for Solid State Hydrogen Storage - Part 1 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 48 - Fundamentals of Metal Hydrides for Solid State Hydrogen Storage - Part 2 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 49 - Different Types of Hydrides for Hydrogen Storage |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 50 - Tailoring Metal Hydrides for Practical Applications: Nanostructure - Part 1 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 51 - Tailoring Metal Hydrides for Practical Applications: Nanostructure - Part 2 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 52 - MH System Design and Experimental Facilities on SolidState Hydrogen Storage |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 53 - Tutorial-6 (MH systems design) |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 54 - Novel Materials and Overall Storage |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 55 - Overview of Storage Methods and Economics |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 56 - Hydrogen Transportation via H2 Pipelines |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 57 - Other Options for Long Distance Hydrogen Transmission |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 58 - Hydrogen Transport via Road |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 59 - Hydrogen Refuelling Stations |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 60 - Use of Hydrogen in Internal Combustion Engines - Part 1 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 61 - Use of Hydrogen in Internal Combustion Engines - Part 2 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 62 - Use of Hydrogen in Fuel Cells |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 63 - Hydrogen Sensing - Part 1 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 64 - Hydrogen Sensing - Part 2 |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 65 - Properties of Hydrogen Associated with Accidents |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 66 - Classification of Hydrogen related Hazards |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 67 - Compressed and Liquid Hydrogen Related Hazards |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 68 - Regulations, Codes and Standards |
Link |
NOC:Hydrogen Energy: Production, Storage, Transportation and Safety |
Lecture 69 - Utilisation in Different Sectors, Global Status and Future Directions |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 1 - Stirling's Approximation |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 2 - Fourier Transforms and characteristic function |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 3 - Dirac Delta function |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 4 - Applications of delta function and Generating functions |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 5 - Laplace Transforms and Convolution theorem |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 6 - Generating function for discrete variables and Binomial distribution |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 7 - Bernoulli and Poisson distributions |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 8 - Waiting time distributions; Gaussian approximation to Poisson distribution |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 9 - Introduction to Central Limit Theorem |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 10 - Proof of Central Limit Theorem (CLT) |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 11 - Universality of Normal distribution and Exceptions |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 12 - Introduction to Random Walk: Extension of Central Limit Theorem |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 13 - Random walk and Diffusion coefficient: Conditional and Transition |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 14 - Characteristics of Stochastic Phenomena: Markov Processes |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 15 - Propagating Markov processes via Transition Probability Matrix with |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 16 - Chapman-Kolmogorov Equation for Multistep Transition probability and solution |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 17 - Transient solutions and Continuous time Markov process |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 18 - Exact solution to Symmetric (or unbiased) one-dimensional Random walk (1-D RW) |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 19 - Properties of the solution for 1-D unbiased RW |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 20 - 1-D unbiased RW: Asymptotic form of occupancy probability and transition |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 21 - Solution to the problem of 1-D Random Walk with Bias |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 22 - Generalized Random Walk with Bias and Pausing |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 23 - Effect of Pausing on Mean and Variance of Random walk |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 24 - Random-walk in the presence of reflecting barrier |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 25 - Boundary conditions for reflected Random-Walk and formulating absorbing |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 26 - The survival probability and first-passage time distribution for Random walker |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 27 - Random Walk with Bias and Absorber |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 28 - Drift and Survival probability for Random walk with bias and absorber |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 29 - Introduction to gambler's ruin problem |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 30 - Solution for ultimate winning probability in Gambler's ruin problem |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 31 - Solution to gambler's ruin problem with site dependent jump probabilities |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 32 - Fourier transform method of solving lattice Random walks |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 33 - Two and higher dimensional Random walks |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 34 - Formulating the problem of Probability of Return to the origin |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 35 - Relationship between occupancy probability and first-time-return probability |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 36 - Proof of Polya’s theorem on the probability of return |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 37 - Return probability estimates in various dimensions and effect of bias in 1-D |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 38 - Dependence of first time return probability (Fk) on steps |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 39 - Equilibrium solutions in lattice random walk models |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 40 - Equilibrium solution to Ehrenfest's flea model |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 41 - Differential equation formulation of stochastic phenomena |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 42 - Derivation of Fokker-Planck equation |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 43 - Generalized transition probability functions for Fokker-Planck equation |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 44 - Solution to 1-D Fokker-Planck equation for free particle: Method of Fourier |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 45 - General non-gaussian solution to translationally invariant Chapman-Kolmogorov |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 46 - Cauchy distribution, power-law and other non-gaussian solutions |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 47 - Wiener process and solution to absorbing barrier problems from Fokker-Planck |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 48 - Application of Fourier Sine transform for single absorber problem |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 49 - Setting up Langevin equation for velocity fluctuations of Brownian particles |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 50 - Understanding the origin of systematic and random parts of force from kinetic |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 51 - Kinetic derivation of a formula for delta-correlated random force |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 52 - Mean square velocity, thermal equilibrium and relationship between relaxation |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 53 - Velocity autocorrelation in Brownian motion |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 54 - Derivation of Stokes-Einstein relationship between diffusion coefficient and |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 55 - Alternative derivation of Stokes-Einstein relationship and Brownian motion with |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 56 - Numerical simulation of the Langevin equation |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 57 - Derivation of Klein-Kramers equation from Langevin equation for joint |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 58 - Illustrative solutions to the Klein-Kramers equation |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 59 - Numerical simulation: Sampling from general distributions and Central |
Link |
NOC:Modeling Stochastic Phenomena for Engineering Applications: Part-1 |
Lecture 60 - Numerical simulation of Random walk trajectories and method of solving Fokker |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 1 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 2 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 3 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 4 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 5 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 6 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 7 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 8 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 9 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 10 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 11 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 12 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 13 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 14 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 15 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 16 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 17 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 18 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 19 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 20 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 21 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 22 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 23 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 24 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 25 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 26 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 27 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 28 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 29 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 30 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 31 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 32 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 33 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 34 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 35 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 36 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 37 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 38 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 39 |
Link |
Heterogeneous Catalysis and Catalytic Processes |
Lecture 40 |
Link |
Interfacial Engineering |
Lecture 1 - General Introduction Definitions |
Link |
Interfacial Engineering |
Lecture 2 - General Introduction, Definitions, Surface Tension |
Link |
Interfacial Engineering |
Lecture 3 - Surface Tension Free Energies and Adsorption |
Link |
Interfacial Engineering |
Lecture 4 - Properties over Curved Surfaces |
Link |
Interfacial Engineering |
Lecture 5 - Total Surface Energy |
Link |
Interfacial Engineering |
Lecture 6 - Interfacial Tension Entropy, Cohesion, Adhesion |
Link |
Interfacial Engineering |
Lecture 7 - Cohesion, Adhesion and Spreading |
Link |
Interfacial Engineering |
Lecture 8 - Spreading from Liquids and Solids |
Link |
Interfacial Engineering |
Lecture 9 - Spreading, Interfacial Tensions, Surface Tensions |
Link |
Interfacial Engineering |
Lecture 10 - Spreading, Contact Angles Free Energies |
Link |
Interfacial Engineering |
Lecture 11 - Spreading/Contact Angles Rough Surfaces, Free Energies |
Link |
Interfacial Engineering |
Lecture 12 - Spreading/Contact Angles Work of Adhesion, De-wetting |
Link |
Interfacial Engineering |
Lecture 13 - Work of Adhesion, Surface and Interfacial Tensions |
Link |
Interfacial Engineering |
Lecture 14 - Surface and Interfacial Tensions: Drop Weight and Wilhelmy Plate Methods |
Link |
Interfacial Engineering |
Lecture 15 - Surface and Interfacial Tensions: Wilhelmy Plate, Pendant Drop and Maximum Bubble Pressure Methods |
Link |
Interfacial Engineering |
Lecture 16 - Wetting Balance Method Spreading Coefficient Work of Adhesion Sessile Drop Method, Positive S |
Link |
Interfacial Engineering |
Lecture 17 - Indirect and Direct Methods for Positive S, Adhesion Energies Interfacial Potentials |
Link |
Interfacial Engineering |
Lecture 18 - Surface and Interfacial Potentials Distribution and Contact Potentials |
Link |
Interfacial Engineering |
Lecture 19 - Diffusion Potential Surface and Interfacial Potentials Components of Contact Potential |
Link |
Interfacial Engineering |
Lecture 20 - Electrically Charged Monolayers Gouy Theory |
Link |
Interfacial Engineering |
Lecture 21 - Equations of State, Cohesion Repulsion, Limiting Area |
Link |
Interfacial Engineering |
Lecture 22 - Condensed and Liquid Expanded Monolayers Phase Transformations |
Link |
Interfacial Engineering |
Lecture 23 - Films of Polymers Molecular Weight, Surface Viscosity Drag, Canal Method |
Link |
Interfacial Engineering |
Lecture 24 - Canal Method Joly's Semi-Empirical Correction Rotational Torsional Surface Viscometer Compressional Moduli |
Link |
Interfacial Engineering |
Lecture 25 - Magnitudes of Surface Compressional Moduli Surface Waves and Ripples |
Link |
Interfacial Engineering |
Lecture 26 - Surface waves and Ripples, Velocity Effect of Surface Tension and Surface Compressional Modulus Rates of adsorption and absorption Damping |
Link |
Interfacial Engineering |
Lecture 27 - Surface waves and ripples,velocity effect of surface tension and surface compressional modulus damping for clean and contaminated,surfaces,fiber from monolayers |
Link |
Interfacial Engineering |
Lecture 28 - Shear Elastic Moduli,Yield Stress Fibres from MLs, Surface Reactions |
Link |
Interfacial Engineering |
Lecture 29 - Surface Reactions, Comparison with Bulk-Phase Reactions Steric Factors, Inhibition |
Link |
Interfacial Engineering |
Lecture 30 - Hydrolyses of Esters by Alkali Acid or Enzyme Photochemical Reactions in Monolayers Polymerization in MLs, Lactonization |
Link |
Interfacial Engineering |
Lecture 31 - Catalytic Effects Reactions in Emulsions Complex Formation |
Link |
Interfacial Engineering |
Lecture 32 - Complex Formation Penetration into Monolayers Thermodynamics of Penetration Adsorption from Vapour Phase Mass Transfer |
Link |
Interfacial Engineering |
Lecture 33 - Introductory Concepts Resistances and their Magnitudes Evaporation and its Retardation |
Link |
Interfacial Engineering |
Lecture 34 - Evaporation and its Retardation Resistances and their Analysis Diffusional Resistance in Gas Phase |
Link |
Interfacial Engineering |
Lecture 35 - Resistances in Liquid Phase and Interface and Their Importance Some Effects and Applications, Theory |
Link |
Interfacial Engineering |
Lecture 36 - Surface Instability Theories of Mass Transfer Experiments on static and Dynamic Systems |
Link |
Interfacial Engineering |
Lecture 37 - Colloida, Aerosols, Emulsions Foams, Coagulation Smoluchowski's Theory |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 1 (1) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 2 (1A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 3 (2) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 4 (2A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 5 (3) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 6 (3A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 7 (4) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 8 (4A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 9 (5) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 10 (5A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 11 (6) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 12 (6A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 13 (7) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 14 (7A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 15 (8) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 16 (8A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 17 (8B) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 18 (9) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 19 (9A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 20 (10) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 21 (10A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 22 (10B) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 23 (11) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 24 (12) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 25 (12A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 26 (12B) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 27 (13) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 28 (13A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 29 (14) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 30 (14A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 31 (15) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 32 (15A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 33 (16) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 34 (16A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 35 (17) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 36 (17A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 37 (18) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 38 (18A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 39 (19) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 40 (19A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 41 (20) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 42 (20A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 43 (20B) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 44 (21) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 45 (21A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 46 (22) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 47 (22A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 48 (23) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 49 (23A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 50 (24) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 51 (24A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 52 (25) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 53 (25A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 54 (26) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 55 (26A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 56 (25) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 57 (27) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 58 (28) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 59 (28A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 60 (29) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 61 (29A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 62 (30) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 63 (30A) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 64 (31) |
Link |
NOC:Fluid Mechanics and its Applications |
Lecture 65 (31A) |
Link |
NOC:Computational Process Design |
Lecture 1 - Flowsheet Synthesis - I |
Link |
NOC:Computational Process Design |
Lecture 2 - Flowsheet Synthesis - II |
Link |
NOC:Computational Process Design |
Lecture 3 - Mass Balance - I |
Link |
NOC:Computational Process Design |
Lecture 4 - Mass Balance - II |
Link |
NOC:Computational Process Design |
Lecture 5 - Mass and Energy Balance of Complete Flowsheet |
Link |
NOC:Computational Process Design |
Lecture 6 - Equipment Sizing and Costing |
Link |
NOC:Computational Process Design |
Lecture 7 - Economic Evaluation |
Link |
NOC:Computational Process Design |
Lecture 8 - Design of Batch Plants |
Link |
NOC:Computational Process Design |
Lecture 9 - Simulations for Process Flowsheet |
Link |
NOC:Computational Process Design |
Lecture 10 - Optimization Methods used for Designing |
Link |
NOC:Computational Process Design |
Lecture 11 - Heat Exchanger Network Design - 1 |
Link |
NOC:Computational Process Design |
Lecture 12 - Heat Exchanger Network Design - 2 |
Link |
NOC:Computational Process Design |
Lecture 13 - Geometric Methods for Reactor Network Synthesis |
Link |
NOC:Computational Process Design |
Lecture 14 - Optimization Methods for Process Design - 1 |
Link |
NOC:Computational Process Design |
Lecture 15 - Optimization Methods for Process Design - 2 |
Link |
NOC:Computational Process Design |
Lecture 16 - Quantifying Sustainability for Design |
Link |
NOC:Computational Process Design |
Lecture 17 - Process Network Analysis and Footprint Assessment |
Link |
NOC:Computational Process Design |
Lecture 18 - Energy, Exergy and Emergy |
Link |
NOC:Computational Process Design |
Lecture 19 - Ecosystems in Sustainability Assessment |
Link |
Heat Transfer |
Lecture 1 - Introduction to heat transfer |
Link |
Heat Transfer |
Lecture 2 - General heat conduction equation |
Link |
Heat Transfer |
Lecture 3 - One dimensional steady state conduction in rectangular coordinate |
Link |
Heat Transfer |
Lecture 4 - One dimensional steady state conduction in cylindrical and spherical coordinate |
Link |
Heat Transfer |
Lecture 5 - Critical and optimum insulation |
Link |
Heat Transfer |
Lecture 6 - Extended surface heat transfer - 1 |
Link |
Heat Transfer |
Lecture 7 - Extended surface heat transfer - 2 |
Link |
Heat Transfer |
Lecture 8 - Analysis of lumped parameter model |
Link |
Heat Transfer |
Lecture 9 - Transient heat flow in semi infinite solid |
Link |
Heat Transfer |
Lecture 10 - Infinite body subjected to sudden convective |
Link |
Heat Transfer |
Lecture 11 - Graphical solutions of unsteady state heat conduction problem |
Link |
Heat Transfer |
Lecture 12 - Dimensional analysis for forced convection |
Link |
Heat Transfer |
Lecture 13 - Dimensional analysis for free convection |
Link |
Heat Transfer |
Lecture 14 - Heat transfer co-relations for laminar and internal flows |
Link |
Heat Transfer |
Lecture 15 - Heat transfer co-relations for turbulent and internal flows |
Link |
Heat Transfer |
Lecture 16 - Co-relation for turbulent and external flows |
Link |
Heat Transfer |
Lecture 17 - Heat transfer co-relations for flow across tube banks |
Link |
Heat Transfer |
Lecture 18 - Momentum and heat transfer analogies |
Link |
Heat Transfer |
Lecture 19 - Boundary layer heat transfer |
Link |
Heat Transfer |
Lecture 20 - Boundary layer equations |
Link |
Heat Transfer |
Lecture 21 - Approximate analysis in boundary layer |
Link |
Heat Transfer |
Lecture 22 - Theoretical concepts of natural / free convention heat transfer |
Link |
Heat Transfer |
Lecture 23 - Emperical relations for free convention heat transfer |
Link |
Heat Transfer |
Lecture 24 - Condensation heat transfer over vertical plate |
Link |
Heat Transfer |
Lecture 25 - Condensation heat transfer for various conditions and geometries |
Link |
Heat Transfer |
Lecture 26 - Fundamentals of boiling heat transfer |
Link |
Heat Transfer |
Lecture 27 - Boiling heat transfer co-relations |
Link |
Heat Transfer |
Lecture 28 - Classification of heat exchangers |
Link |
Heat Transfer |
Lecture 29 - Various types of shell and tube heat exchangers |
Link |
Heat Transfer |
Lecture 30 - Various types of compact heat exchangers |
Link |
Heat Transfer |
Lecture 31 - Effectiveness-NTU, method of heat exchanger analysis |
Link |
Heat Transfer |
Lecture 32 - Design of double pipe heat exchanger |
Link |
Heat Transfer |
Lecture 33 - Design of shell and tube heat exchanger |
Link |
Heat Transfer |
Lecture 34 - Introduction to evaporation and evaporators |
Link |
Heat Transfer |
Lecture 35 - Evaporation principles and evaporator performance |
Link |
Heat Transfer |
Lecture 36 - Evaporator calculations |
Link |
Heat Transfer |
Lecture 37 - Introduction to radiation heat transfer |
Link |
Heat Transfer |
Lecture 38 - Radiation intensity and radiation view factor |
Link |
Heat Transfer |
Lecture 39 - Radiation heat exchange |
Link |
Heat Transfer |
Lecture 40 - Radiation shield and gas radiation |
Link |
Mass Transfer Operations I |
Lecture 1 - Introduction to Mass Transfer |
Link |
Mass Transfer Operations I |
Lecture 2 - Molecular Diffusion |
Link |
Mass Transfer Operations I |
Lecture 3 - Fick’s Law of Diffusion |
Link |
Mass Transfer Operations I |
Lecture 4 - Steady state molecular diffusion in fluids - Part I |
Link |
Mass Transfer Operations I |
Lecture 5 - Steady state molecular diffusion in fluids - Part II |
Link |
Mass Transfer Operations I |
Lecture 6 - Diffusion coefficient: Measurement and Prediction - Part I |
Link |
Mass Transfer Operations I |
Lecture 7 - Diffusion Coefficient: Measurement and Prediction - Part II |
Link |
Mass Transfer Operations I |
Lecture 8 - Multicomponent Diffusion and Diffusivity in Solids |
Link |
Mass Transfer Operations I |
Lecture 9 - Concept of Mass Transfer Coefficient |
Link |
Mass Transfer Operations I |
Lecture 10 - Dimensionless Groups and Co-relations for Convective |
Link |
Mass Transfer Operations I |
Lecture 11 - Mass Transfer co-efficient in Laminar Flow Condition |
Link |
Mass Transfer Operations I |
Lecture 12 - Boundary Layer Theory and Film Theory in Mass Transfer |
Link |
Mass Transfer Operations I |
Lecture 13 - Mass Transfer Coefficients in Terbulant Flow |
Link |
Mass Transfer Operations I |
Lecture 14 - Interphase Mass Transfer and Mass Transfer Theories - Part I |
Link |
Mass Transfer Operations I |
Lecture 15 - Interphase Mass Transfer and Mass Transfer Theories - Part II |
Link |
Mass Transfer Operations I |
Lecture 16 - Interphase Mass Transfer and Mass Transfer Theories - Part III |
Link |
Mass Transfer Operations I |
Lecture 17 - Agitated and Sparged Vassels |
Link |
Mass Transfer Operations I |
Lecture 18 - Tray Column - Part I |
Link |
Mass Transfer Operations I |
Lecture 19 - Tray Column - Part II |
Link |
Mass Transfer Operations I |
Lecture 20 - Packed Tower |
Link |
Mass Transfer Operations I |
Lecture 21 - Introduction to Absorption and Solvent selection |
Link |
Mass Transfer Operations I |
Lecture 22 - Packed Tower Design - Part I |
Link |
Mass Transfer Operations I |
Lecture 23 - Packed Tower Design - Part II |
Link |
Mass Transfer Operations I |
Lecture 24 - Packed Tower Design - Part III |
Link |
Mass Transfer Operations I |
Lecture 25 - Mass Transfer Coefficients Correlation and HETP Concept |
Link |
Mass Transfer Operations I |
Lecture 26 - Tray Tower Design and Introduction to Multicomponent System |
Link |
Mass Transfer Operations I |
Lecture 27 - Introduction to Distillation and Phas diagrams |
Link |
Mass Transfer Operations I |
Lecture 28 - Azeotropes and Enthalpy Concentration Diagrams |
Link |
Mass Transfer Operations I |
Lecture 29 - Flash Distillation |
Link |
Mass Transfer Operations I |
Lecture 30 - Batch and Steam Distillation |
Link |
Mass Transfer Operations I |
Lecture 31 - Fractional Distillation |
Link |
Mass Transfer Operations I |
Lecture 32 - Fractional Distillation: McCabe Thiele Method |
Link |
Mass Transfer Operations I |
Lecture 33 - Fractional Distillation: Minimum Reflux and Pinch Point |
Link |
Mass Transfer Operations I |
Lecture 34 - Fractional Distillation: Subcooled Reflux ,Tray Efficiency and Use of Open Steam |
Link |
Mass Transfer Operations I |
Lecture 35 - Fractional Distillation: Multiple Feeds and Side Stream |
Link |
Mass Transfer Operations I |
Lecture 36 - Multistage Batch Distillation with Reflux |
Link |
Mass Transfer Operations I |
Lecture 37 - Fractional Distillation: Ponchan and Savarit Method |
Link |
Mass Transfer Operations I |
Lecture 38 - Ponchan and Savarit Method and Packed Tower Distillation |
Link |
Mass Transfer Operations I |
Lecture 39 - Multicomponent Distillation |
Link |
Process Design Decisions and Project Economics |
Lecture 1 - General Introduction to the Course and Syllabus |
Link |
Process Design Decisions and Project Economics |
Lecture 2 - Hierarchical Approach to Process Design - I |
Link |
Process Design Decisions and Project Economics |
Lecture 3 - Hierarchical Approach to Process Design - Examples |
Link |
Process Design Decisions and Project Economics |
Lecture 4 - Input Information and Design Aspects of Batch vs. Continuous Process |
Link |
Process Design Decisions and Project Economics |
Lecture 5 - Input / Output Structure of Flowsheet - Part I |
Link |
Process Design Decisions and Project Economics |
Lecture 6 - Input / Output Structure of Flowsheet - Part II |
Link |
Process Design Decisions and Project Economics |
Lecture 7 - Input / Output Structure of Flowsheet - Part III and Recycle Structure of Flowsheet - Part I |
Link |
Process Design Decisions and Project Economics |
Lecture 8 - Recycle Structure of Flowsheet - Part II |
Link |
Process Design Decisions and Project Economics |
Lecture 9 - Recycle Structure of Flowsheet - Part III |
Link |
Process Design Decisions and Project Economics |
Lecture 10 - Recycle Structure of Flowsheet - Part IV and Tutorial - Part I |
Link |
Process Design Decisions and Project Economics |
Lecture 11 - Tutorial - Part II |
Link |
Process Design Decisions and Project Economics |
Lecture 12 - Tutorial - Part III |
Link |
Process Design Decisions and Project Economics |
Lecture 13 - Algorithm and Basic Principles of Reactor Design |
Link |
Process Design Decisions and Project Economics |
Lecture 14 - Reactor Non-ideality, Residence Time Distribution (RTD) and Types of Chemical Reactions & Catalysts |
Link |
Process Design Decisions and Project Economics |
Lecture 15 - Types of Reactors and Selection Criteria |
Link |
Process Design Decisions and Project Economics |
Lecture 16 - Tutorial on Reactor Design and Cost Estimation |
Link |
Process Design Decisions and Project Economics |
Lecture 17 - General Introduction (Types of Separation Processes and Criteria for Selection of the Processes) |
Link |
Process Design Decisions and Project Economics |
Lecture 18 - Guidelines for Design of Separation Systems |
Link |
Process Design Decisions and Project Economics |
Lecture 19 - Design of Distillation Columns - Part I (Sequencing of Columns, Energy Integration / Thermal Coupling of the Columns) |
Link |
Process Design Decisions and Project Economics |
Lecture 20 - Design of Distillation Columns - Part II (Plate and Packed Towers, Number of Plates, Diameter and Height of the Column) |
Link |
Process Design Decisions and Project Economics |
Lecture 21 - Tutorial - Part I (Design of Absorption Column) |
Link |
Process Design Decisions and Project Economics |
Lecture 22 - Tutorial - Part II (Design of Distillation Column) |
Link |
Process Design Decisions and Project Economics |
Lecture 23 - Concepts and Basic Principles of Energy (or Heat) Integration - Part 1 (Composite Curves and ?Tmin) |
Link |
Process Design Decisions and Project Economics |
Lecture 24 - Concepts and Basic Principles of Heat Integration - Part 2 (Problem Table Algorithm and Identification of Energy Targets) |
Link |
Process Design Decisions and Project Economics |
Lecture 25 - Identification of Area and Cost Targets |
Link |
Process Design Decisions and Project Economics |
Lecture 26 - Pinch Technology for Heat Exchanger Network Design |
Link |
Process Design Decisions and Project Economics |
Lecture 27 - Tutorial - I (Composite Curves, Problem Table Algorithm and Enthalpy Intervals) |
Link |
Process Design Decisions and Project Economics |
Lecture 28 - Tutorial - II (Heat Exchanger Network Synthesis Using Pinch Technology) |
Link |
Process Design Decisions and Project Economics |
Lecture 29 - Selection of Process, Design of Flowsheet and Materials Balance |
Link |
Process Design Decisions and Project Economics |
Lecture 30 - Energy Balance, Process Alternatives and Design of the Absorber |
Link |
Process Design Decisions and Project Economics |
Lecture 31 - Rules of Thumb & Their Limitations and Tutorial |
Link |
Process Design Decisions and Project Economics |
Lecture 32 - General Concepts & Principles and Cost Allocation Procedure |
Link |
Process Design Decisions and Project Economics |
Lecture 33 - Lumped Cost Diagram and Cost Allocation Diagram (Case Study of Hydro-dealkylation Process) |
Link |
Process Design Decisions and Project Economics |
Lecture 34 - Assessment of Process Alternatives with Cost Allocation Diagram (Case Study of Hydrodealkylation Process) |
Link |
Process Design Decisions and Project Economics |
Lecture 35 - Tutorial on Lumped Cost Diagram and Cost Allocation Diagram |
Link |
Process Design Decisions and Project Economics |
Lecture 36 - Introduction to Chemical Projects and Their Economic Aspects |
Link |
Process Design Decisions and Project Economics |
Lecture 37 - Selection of the Process and Project Site - Part I |
Link |
Process Design Decisions and Project Economics |
Lecture 38 - Selection of the Process and Project Site - Part II |
Link |
Process Design Decisions and Project Economics |
Lecture 39 - Project Cost Estimation - Part I |
Link |
Process Design Decisions and Project Economics |
Lecture 40 - Project Cost Estimation - Part II |
Link |
Process Design Decisions and Project Economics |
Lecture 41 - Simplified Cost Model and Depreciation |
Link |
Process Design Decisions and Project Economics |
Lecture 42 - Time Value of Money |
Link |
Process Design Decisions and Project Economics |
Lecture 43 - Measures of Profitability and Project Evaluation - Part I |
Link |
Process Design Decisions and Project Economics |
Lecture 44 - Measures of Profitability and Project Evaluation - Part II |
Link |
Process Design Decisions and Project Economics |
Lecture 45 - Tutorial on Project Economics - Part I |
Link |
Process Design Decisions and Project Economics |
Lecture 46 - Tutorial on Project Economics - Part II |
Link |
NOC:Fluidization Engineering |
Lecture 1 - Introduction |
Link |
NOC:Fluidization Engineering |
Lecture 2 - Particle properties |
Link |
NOC:Fluidization Engineering |
Lecture 3 - Particle / Powder Classifications |
Link |
NOC:Fluidization Engineering |
Lecture 4 - Minimum Fluidization Velocity: Fluid-solid System |
Link |
NOC:Fluidization Engineering |
Lecture 5 - Minimum Fluidization Velocity: Liquid-solid and gas-liquid-solid System |
Link |
NOC:Fluidization Engineering |
Lecture 6 - Flow regime and its map: Gas-solid Fluidization |
Link |
NOC:Fluidization Engineering |
Lecture 7 - Flow regime and its map: Liquid-solid and Gas-liquid-solid Fluidization |
Link |
NOC:Fluidization Engineering |
Lecture 8 - Frictional pressure drop in fluidized bed-fluid-solid system |
Link |
NOC:Fluidization Engineering |
Lecture 9 - Frictional pressure drop in fluidized Bed-Gas-liquid-solid system |
Link |
NOC:Fluidization Engineering |
Lecture 10 - Analysis of Frictional Pressure Drop in Fluidized Bed By Different Models |
Link |
NOC:Fluidization Engineering |
Lecture 11 - Gas Distribution Through Distributor |
Link |
NOC:Fluidization Engineering |
Lecture 12 - Calculation of gas pumping power consumption in fluidized bed |
Link |
NOC:Fluidization Engineering |
Lecture 13 - Bubbling Fluidization Part 1: Bubble Characteristics |
Link |
NOC:Fluidization Engineering |
Lecture 14 - Bubbling Fluidization Part 2: Bubble Characteristics (Continued...) |
Link |
NOC:Fluidization Engineering |
Lecture 15 - Bubbling Fluidization Part 3: Bubble coalescence in three-phase fluidization |
Link |
NOC:Fluidization Engineering |
Lecture 16 - Bubbling Fluidization Part 4: Bubble breakup in three-phase fluidization |
Link |
NOC:Fluidization Engineering |
Lecture 17 - Bubbling Fluidization Part 5: Gas and solid movements at bubble |
Link |
NOC:Fluidization Engineering |
Lecture 18 - Bubbling Fluidization Part 6: Slugging Bed |
Link |
NOC:Fluidization Engineering |
Lecture 19 - Entrainment Characteristics (Part 1) : Entrainment Characteristics |
Link |
NOC:Fluidization Engineering |
Lecture 20 - Entrainment Characteristics (Part 2) : Fast fluidization condition |
Link |
NOC:Fluidization Engineering |
Lecture 21 - Entrainment Characteristics (Part 2) : Elutriation Characteristics |
Link |
NOC:Fluidization Engineering |
Lecture 22 - Entrainment Characteristics (Part 2) : Attrition in Fluidized Bed (Part 1) |
Link |
NOC:Fluidization Engineering |
Lecture 23 - Attrition in Fluidized Bed (Part 2) |
Link |
NOC:Fluidization Engineering |
Lecture 24 - Solid movement, mixing: Gas-fluidized Bed |
Link |
NOC:Fluidization Engineering |
Lecture 25 - Solid segregation: Gas-fluidized bed |
Link |
NOC:Fluidization Engineering |
Lecture 26 - Solid mixing and segregation: Liquid-solid fluidized bed |
Link |
NOC:Fluidization Engineering |
Lecture 27 - Gas Dispersion and Interchange |
Link |
NOC:Fluidization Engineering |
Lecture 28 - Mass transfer in fluidized Bed-Gas-solid system |
Link |
NOC:Fluidization Engineering |
Lecture 29 - Mass transfer in fluidized Bed-Gas-liquid-solid system (Continued...) |
Link |
NOC:Fluidization Engineering |
Lecture 30 - Heat transfer Characteristics |
Link |
NOC:Fluidization Engineering |
Lecture 31 - Fluidized bed reactor design and its performance |
Link |
NOC:An Introduction to Cardiovascular Fluid Mechanics |
Lecture 1 - An Introduction |
Link |
NOC:An Introduction to Cardiovascular Fluid Mechanics |
Lecture 2 - Fluid Mechanics: A Review |
Link |
NOC:An Introduction to Cardiovascular Fluid Mechanics |
Lecture 3 - Solid Mechanics: A Review |
Link |
NOC:An Introduction to Cardiovascular Fluid Mechanics |
Lecture 4 - Rheology of blood |
Link |
NOC:An Introduction to Cardiovascular Fluid Mechanics |
Lecture 5 - Blood morphology |
Link |
NOC:An Introduction to Cardiovascular Fluid Mechanics |
Lecture 6 - Blood flow in a channel |
Link |
NOC:An Introduction to Cardiovascular Fluid Mechanics |
Lecture 7 - Viscometers and Rheometers |
Link |
NOC:An Introduction to Cardiovascular Fluid Mechanics |
Lecture 8 - Viscoelasticity |
Link |
NOC:An Introduction to Cardiovascular Fluid Mechanics |
Lecture 9 - Flow Bifurcation |
Link |
NOC:An Introduction to Cardiovascular Fluid Mechanics |
Lecture 10 - Pulsatile Flow 1 |
Link |
NOC:An Introduction to Cardiovascular Fluid Mechanics |
Lecture 11 - Pulsatile Flow 2 |
Link |
NOC:An Introduction to Cardiovascular Fluid Mechanics |
Lecture 12 - Flow in Elastic Tubes |
Link |
NOC:Multiphase Microfluidics |
Lecture 1 - An Introduction |
Link |
NOC:Multiphase Microfluidics |
Lecture 2 - Interface and Surface Tension |
Link |
NOC:Multiphase Microfluidics |
Lecture 3 - Flow Regimes 1 |
Link |
NOC:Multiphase Microfluidics |
Lecture 4 - Flow Regimes 2 |
Link |
NOC:Multiphase Microfluidics |
Lecture 5 - Taylor Flow 1 |
Link |
NOC:Multiphase Microfluidics |
Lecture 6 - Taylor Flow 2 |
Link |
NOC:Multiphase Microfluidics |
Lecture 7 - Computational Techniques |
Link |
NOC:Multiphase Microfluidics |
Lecture 8 - Bubble and Droplet Generation |
Link |
NOC:Multiphase Microfluidics |
Lecture 9 - Interface and Surface tension 2 |
Link |
NOC:Multiphase Microfluidics |
Lecture 10 - Void Fraction and Pressure Drop |
Link |
NOC:Multiphase Microfluidics |
Lecture 11 - Liquid-Liquid Flow: Flow Regimes |
Link |
NOC:Multiphase Microfluidics |
Lecture 12 - Ideal annular Flow |
Link |
NOC:Multiphase Microfluidics |
Lecture 13 - Taylor Flow : Heat transfer 1 |
Link |
NOC:Multiphase Microfluidics |
Lecture 14 - Taylor Flow : Heat transfer 2 |
Link |
NOC:Multiphase Microfluidics |
Lecture 15 - Taylor Flow : Meat Transfer 1 |
Link |
NOC:Multiphase Microfluidics |
Lecture 16 - Taylor Flow : Meat Transfer 2 |
Link |
NOC:Multiphase Microfluidics |
Lecture 17 - Flow boiling in microchannels |
Link |
NOC:Multiphase Microfluidics |
Lecture 18 - Flow boiling in microchannels (Continued...) |
Link |
NOC:Multiphase Microfluidics |
Lecture 19 - Flow Measurement Techniques |
Link |
NOC:Multiphase Microfluidics |
Lecture 20 - Particle image Velocimetry |
Link |
NOC:Multiphase Microfluidics |
Lecture 21 - Inertial Microfluidics |
Link |
NOC:Multiphase Microfluidics |
Lecture 22 - Microfluidic applications |
Link |
NOC:Multiphase Microfluidics |
Lecture 23 - Microfluidic applications (Continued...) |
Link |
NOC:Multiphase Microfluidics |
Lecture 24 - Concluding Remarks |
Link |
NOC:Measurement Technique in Multiphase Flows |
Lecture 1 - Introduction to Multiphase flow Measurement Techniques |
Link |
NOC:Measurement Technique in Multiphase Flows |
Lecture 2 - Invasive and Non-invasive Techniques |
Link |
NOC:Measurement Technique in Multiphase Flows |
Lecture 3 - Hot Wire Anemometry |
Link |
NOC:Measurement Technique in Multiphase Flows |
Lecture 4 - Optical Fiber Probe |
Link |
NOC:Measurement Technique in Multiphase Flows |
Lecture 5 - Laser Doppler Anemometry (LDA) |
Link |
NOC:Measurement Technique in Multiphase Flows |
Lecture 6 - LDA Post Processing and Particle Image Velocimetry (PIV) |
Link |
NOC:Measurement Technique in Multiphase Flows |
Lecture 7 - PIV and Positron Emission Particle Tracking |
Link |
NOC:Measurement Technique in Multiphase Flows |
Lecture 8 - Radioactive Particle Tracking - I |
Link |
NOC:Measurement Technique in Multiphase Flows |
Lecture 9 - Radioactive Particle Tracking - II |
Link |
NOC:Measurement Technique in Multiphase Flows |
Lecture 10 - Capacitance Probe, Optical Fiber Probe and ECT |
Link |
NOC:Measurement Technique in Multiphase Flows |
Lecture 11 - Gamma-ray and X-ray Tomography, MRI |
Link |
NOC:Measurement Technique in Multiphase Flows |
Lecture 12 - Summary |
Link |
NOC:Multiphase Flows |
Lecture 1 - Multiphase flow introduction |
Link |
NOC:Multiphase Flows |
Lecture 2 - Fundamental definitions and terminology used in Multiphase - I |
Link |
NOC:Multiphase Flows |
Lecture 3 - Fundamental definitions and terminology used in Multiphase - II |
Link |
NOC:Multiphase Flows |
Lecture 4 - Flow Regime Map for Gas-Liquid System |
Link |
NOC:Multiphase Flows |
Lecture 5 - Flow Regime Map for Fluid-Solid System |
Link |
NOC:Multiphase Flows |
Lecture 6 - Pneumatic Conveying |
Link |
NOC:Multiphase Flows |
Lecture 7 - Momentum Equation through Reynolds Transport Theorem |
Link |
NOC:Multiphase Flows |
Lecture 8 - Lockhart Martinelli Correlation |
Link |
NOC:Multiphase Flows |
Lecture 9 - Pressure Drop Calculation for Homogeneous Flow |
Link |
NOC:Multiphase Flows |
Lecture 10 - Pressure Drop Calculation for Separated and Annular Flow Regime |
Link |
NOC:Multiphase Flows |
Lecture 11 - Lagrangian Tracking of Single Particle Under Different Forces |
Link |
NOC:Multiphase Flows |
Lecture 12 - Multiphase Interactions: Drag Force |
Link |
NOC:Multiphase Flows |
Lecture 13 - Multiphase Interactions: Multi-particle Drag, Virtual Mass Force, Basset Force and Lift Force |
Link |
NOC:Multiphase Flows |
Lecture 14 - Introduction to Multiphase Flow Modeling |
Link |
NOC:Multiphase Flows |
Lecture 15 - Algebraic Slip Method and Euler-Euler Method |
Link |
NOC:Multiphase Flows |
Lecture 16 - KTGF and Euler-Lagrangian Model |
Link |
NOC:Multiphase Flows |
Lecture 17 - Measurement Techniques: Velocity Measurement |
Link |
NOC:Multiphase Flows |
Lecture 18 - Measurement Techniques: Phase Fraction Measurement |
Link |
NOC:Multiphase Flows |
Lecture 19 - Bubble Column |
Link |
NOC:Multiphase Flows |
Lecture 20 - Packed Bed Reactor |
Link |
NOC:Multiphase Flows |
Lecture 21 - Fluidized Bed Reactor |
Link |
NOC:Multiphase Flows |
Lecture 22 - Summary |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 1 - Introduction to Polymers |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 2 - Ideal Chain Models |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 3 - Ideal and Real Chains |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 4 - Thermodynamics of Polymer Solutions - I |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 5 - Thermodynamics of Polymer Solutions - II |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 6 - Thermodynamics of Polymer Solutions - III |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 7 - Phase Behaviour of Polymer Solutions and Blends |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 8 - Phase Behaviour of Polymer Blends and Copolymers |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 9 - Determination of Polymer Molar Mass: Osmometry |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 10 - Determination of Polymer Molar Mass: Static Light Scattering - I |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 11 - Determination of Polymer Molar Mass: Static Light Scattering - II |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 12 - Determination of Polymer Molar Mass: Viscometry and GPC |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 13 - Branching: Hyperbranched Polymers |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 14 - Branching, Network Formation and Gelation |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 15 - Gelation and Swelling of Network Polymers |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 16 - Amorphous State of Polymers |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 17 - Crystalline State of Polymers |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 18 - Mechanical Properties of Polymers |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 19 - Viscoelasticity: Mechanical Models |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 20 - Viscoelasticity, Dynamic Mechanical Analysis and Rheology |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 21 - Rubber Elasticity |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 22 - Unentangled Polymer Dynamics |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 23 - Entangled Polymer Dynamics |
Link |
NOC:Introduction to Polymer Physics (IIT-G) |
Lecture 24 - Review |
Link |
NOC:Natural Gas Engineering |
Lecture 1 - Introduction to Natural Gas - I |
Link |
NOC:Natural Gas Engineering |
Lecture 2 - Introduction to Natural Gas - II |
Link |
NOC:Natural Gas Engineering |
Lecture 3 - Introduction to Natural Gas - III |
Link |
NOC:Natural Gas Engineering |
Lecture 4 - Properties of Natural Gas-I |
Link |
NOC:Natural Gas Engineering |
Lecture 5 - Properties of Natural Gas-II |
Link |
NOC:Natural Gas Engineering |
Lecture 6 - Properties of Reservoir |
Link |
NOC:Natural Gas Engineering |
Lecture 7 - Inflow Performance Relationship (IPR) - I |
Link |
NOC:Natural Gas Engineering |
Lecture 8 - Inflow Performance Relationship (IPR) - II |
Link |
NOC:Natural Gas Engineering |
Lecture 9 - Gas Well Testing |
Link |
NOC:Natural Gas Engineering |
Lecture 10 - Wellbore Performance Relationship (WPR) |
Link |
NOC:Natural Gas Engineering |
Lecture 11 - Choke Performance Relationship (CPR) |
Link |
NOC:Natural Gas Engineering |
Lecture 12 - Nodal Analysis |
Link |
NOC:Natural Gas Engineering |
Lecture 13 - Natural Gas Separation - I |
Link |
NOC:Natural Gas Engineering |
Lecture 14 - Natural Gas Separation - II |
Link |
NOC:Natural Gas Engineering |
Lecture 15 - Dehydration of Natural Gas |
Link |
NOC:Natural Gas Engineering |
Lecture 16 - Sweeting of Natural Gas |
Link |
NOC:Natural Gas Engineering |
Lecture 17 - Compressor Design |
Link |
NOC:Natural Gas Engineering |
Lecture 18 - Measurement of Natural Gas |
Link |
NOC:Natural Gas Engineering |
Lecture 19 - Transportation of Natural Gas - I |
Link |
NOC:Natural Gas Engineering |
Lecture 20 - Transportation of Natural Gas - II |
Link |
NOC:Natural Gas Engineering |
Lecture 21 - Unconventional production of Natural Gas |
Link |
NOC:Natural Gas Engineering |
Lecture 22 - Review: Concluding Remarks |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 1 - Introduction |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 2 - First law for closed systems |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 3 - First law for open systems |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 4 - Simple processes |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 5 - Processes involving liquids and ideal gases |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 6 - Temperature dependency of Cp in an ideal gas |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 7 - Efficiency of Heat engines and Statement of Second Law |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 8 - Entropy |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 9 - Lost Work |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 10 - Maxwell's Relations |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 11 - Thermodynamic Diagrams |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 12 - Thermodynamic Tables, Residual Properties |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 13 - Virial Equation of State |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 14 - Residual property relations from EoS |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 15 - Cubic Equation of State |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 16 - Cubic Equation of State |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 17 - Thermodynamic Tables |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 18 - Correlations for Liquids |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 19 - Process Involving Phase Changes |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 20 - Chemical potential |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 21 - Partial molar properties |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 22 - Examples |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 23 - Ideal Solutions |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 24 - Excess Properties |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 25 - Fugacity |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 26 - Calculation of Fugacity using EoS - Part 1 |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 27 - Calculation of Fugacity using EoS - Part 2 |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 28 - Calculation of Fugacity in Mixtures using Cubic EoS |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 29 - Fugacity in Liquids, Activity Coeffcient |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 30 - Models for Excess Gibbs free energy - Part 1 |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 31 - Models for Excess Gibbs free energy - Part 2 |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 32 - Vapor Liquid Equilibrium - Part 1 |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 33 - Vapor Liquid Equilibrium - Part 2 |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 34 - Azeotropes |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 35 - Gamma/Phi Formulation |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 36 - LLE |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 37 - VLLE |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 38 - Enthalpy changes upon reaction |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 39 - Reaction coordinate |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 40 - Equilibrium constant |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 41 - Examples |
Link |
NOC:Chemical Engineering Thermodynamics |
Lecture 42 - Conclusion |
Link |
NOC:Mass Transfer Operations-I |
Lecture 1 - Introduction and Overview of Mass Transfer Operation |
Link |
NOC:Mass Transfer Operations-I |
Lecture 2 - Molecular and Eddy Diffusion, Diffusion Velocities and Fluxes |
Link |
NOC:Mass Transfer Operations-I |
Lecture 3 - Fick's First and Second Law |
Link |
NOC:Mass Transfer Operations-I |
Lecture 4 - Steady State Molecular Diffusion in fluids under stagnant and laminar flow conditions |
Link |
NOC:Mass Transfer Operations-I |
Lecture 5 - Diffusion through variable cross-sectional area |
Link |
NOC:Mass Transfer Operations-I |
Lecture 6 - Gas Phase Diffusion Coefficient measurement |
Link |
NOC:Mass Transfer Operations-I |
Lecture 7 - Gas Phase Diffusion Coefficient prediction and liquid phase diffusion coefficient measurement and prediction |
Link |
NOC:Mass Transfer Operations-I |
Lecture 8 - Multicomponent diffusion and diffusivity in solids |
Link |
NOC:Mass Transfer Operations-I |
Lecture 9 - Mass transfer coefficient concept and classifications |
Link |
NOC:Mass Transfer Operations-I |
Lecture 10 - Dimensionless groups and correlations for convective mass transfer coefficients |
Link |
NOC:Mass Transfer Operations-I |
Lecture 11 - Mass transfer coefficient in laminar flow |
Link |
NOC:Mass Transfer Operations-I |
Lecture 12 - Boundary Layer Theory and mass transfer coefficients in turbulent flow |
Link |
NOC:Mass Transfer Operations-I |
Lecture 13 - Mass transfer theories |
Link |
NOC:Mass Transfer Operations-I |
Lecture 14 - Interphase mass transfer |
Link |
NOC:Mass Transfer Operations-I |
Lecture 15 - Interphase mass transfer and material balance for operating line |
Link |
NOC:Mass Transfer Operations-I |
Lecture 16 - Number of ideal stages in counter current operation: graphical and algebraic methods |
Link |
NOC:Mass Transfer Operations-I |
Lecture 17 - Introduction, classification, Sparged and agitated vessels design |
Link |
NOC:Mass Transfer Operations-I |
Lecture 18 - Gas dispersed: Tray tower |
Link |
NOC:Mass Transfer Operations-I |
Lecture 19 - Sieve Tray |
Link |
NOC:Mass Transfer Operations-I |
Lecture 20 - Liquid dispersed: Venture scrubber, wetted wall column, Packed tower |
Link |
NOC:Mass Transfer Operations-I |
Lecture 21 - Introduction to absorption, Equilibrium in gas-liquid system, and minimum liquid rate |
Link |
NOC:Mass Transfer Operations-I |
Lecture 22 - Design of packed column absorber based on the Individual Mass Transfer Coefficient |
Link |
NOC:Mass Transfer Operations-I |
Lecture 23 - Design of packed column absorber based on the Overall Mass Transfer Coefficient |
Link |
NOC:Mass Transfer Operations-I |
Lecture 24 - Height Equivalent to a Theoretical Plate (HETP), Design of packed column absorber for dilute and concentrated gases |
Link |
NOC:Mass Transfer Operations-I |
Lecture 25 - Absorption in plate column: Method of McCabe and Thiele-graphical determination of ideal trays and Introduction to multicomponent absorption |
Link |
NOC:Mass Transfer Operations-I |
Lecture 26 - Introduction to distillation, binary equilibrium diagrams and concept of relative volatility |
Link |
NOC:Mass Transfer Operations-I |
Lecture 27 - Distillation in non-ideal systems and concept of enthalpy-concentration diagram |
Link |
NOC:Mass Transfer Operations-I |
Lecture 28 - Flash distillation |
Link |
NOC:Mass Transfer Operations-I |
Lecture 29 - Batch and steam distillation |
Link |
NOC:Mass Transfer Operations-I |
Lecture 30 - Continuous multistate fractionation |
Link |
NOC:Mass Transfer Operations-I |
Lecture 31 - Number of trays by McCabe and Thiele for distillation |
Link |
NOC:Mass Transfer Operations-I |
Lecture 32 - Pinch Points and minimum reflux |
Link |
NOC:Mass Transfer Operations-I |
Lecture 33 - Reflux below its bubble point: Sub-cooled reflux and use of open steam |
Link |
NOC:Mass Transfer Operations-I |
Lecture 34 - Multiple feeds, multiple product withdrawal or side streams |
Link |
NOC:Mass Transfer Operations-I |
Lecture 35 - Multistage batch distillation with reflux |
Link |
NOC:Mass Transfer Operations-I |
Lecture 36 - The Ponchon-Savarit method |
Link |
NOC:Mass Transfer Operations-I |
Lecture 37 - The Ponchon-Savarit method |
Link |
NOC:Mass Transfer Operations-I |
Lecture 38 - Packed Distillation |
Link |
NOC:Mass Transfer Operations-I |
Lecture 39 - Introduction to multicomponent distillation and multicomponent flash distillation |
Link |
NOC:Mass Transfer Operations-I |
Lecture 40 - Minimum stages and minimum reflux in multicomponent distillation |
Link |
NOC:Mass Transfer Operations-I |
Lecture 41 - Multicomponent batch distillation |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 1 - Introduction and Basic Concepts |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 2 - Classification of Non-Newtonian Fluids |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 3 - Mathematical Models for Non-Newtonian Fluids |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 4 - Viscoelastic Non-Newtonian Fluids |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 5 - Capillary Viscometers: Sources of Errors and Correction Methods |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 6 - Rotational Viscometers |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 7 - Capillary Viscometers - Errors and Corrections II |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 8 - Equation of Change for Non-Isothermal Systems |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 9 - Rotational Viscometers - II |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 10 - Rotational Viscometers - III |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 11 - Transition from Laminar to Turbulent Flow in Pipes for GNF |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 12 - Equations of Change for Isothermal Systems |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 13 - Equations of Change for Non-Isothermal Systems |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 14 - Power-law Fluids Flow in Concentric Annulus |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 15 - Power-law and Ellis Model Fluids Flow Through Pipes |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 16 - Bingham Plastic Fluids Flow through Pipes |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 17 - Herschel Bulkley Fluids Flow through Pipes |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 18 - Transition and Turbulent Flow of GNF in Pipes - I |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 19 - Transition and Turbulent Flow of GNF in Pipes - II |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 20 - Laminar flow of GNFs between Parallel Plates and along Inclined Surface |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 21 - Laminar flow of GNFs along Inclined Surface and Concentric Annulus |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 22 - Flow of Non-Newtonian Fluids through Packed Beds |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 23 - Dispersion in Packed Beds: Non-Newtonian Effects |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 24 - Liquid-Solid Fluidization by Power-law Liquids |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 25 - Free Convection between Two Vertical Plates |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 26 - Viscous Heat Generation |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 27 - Temperature distribution in fluids confined between co-axial cylinders |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 28 - Temperature distribution for FDF of Newtonian fluids in tubes |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 29 - Heat Transfer Combined with Chemical Reactions |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 30 - Transpiration Cooling |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 31 - Basics of MT; Diffusion Through Stagnant Gas Film |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 32 - Non-Isothermal Diffusive MT and Forced Convective MT |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 33 - Simultaneous Heat and Mass Transfer |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 34 - Mass Transfer Combined with Chemical Reactions |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 35 - Quasi-Steady Analysis of Simultaneous HT, MT and Chemical Reaction |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 36 - Quasi-Steady Analysis of Simultaneous HT and MT - I |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 37 - Quasi-Steady Analysis of Simultaneous HT and MT - II |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 38 - Quasi-Steady Analysis of Simultaneous HT and MT - III |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 39 - Momentum and Thermal Boundary Layer Flows |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 40 - Momentum Boundary Layer Thickness of Non-Newtonian Fluids |
Link |
NOC:Transport Phenomena of Non-Newtonian Fluids |
Lecture 41 - Thermal and Concentration Boundary Layer Thickness of Non-Newtonian Fluids |
Link |
NOC:Fluid Flow Operations |
Lecture 1 - Introduction |
Link |
NOC:Fluid Flow Operations |
Lecture 2 - Characteristics of fluid (Continued...) |
Link |
NOC:Fluid Flow Operations |
Lecture 3 - Fluid Statics |
Link |
NOC:Fluid Flow Operations |
Lecture 4 - Fluid Statics (Continued...) |
Link |
NOC:Fluid Flow Operations |
Lecture 5 - Fundamentals of flow - Part 1 |
Link |
NOC:Fluid Flow Operations |
Lecture 6 - Fundamentals of flow - Part 2 |
Link |
NOC:Fluid Flow Operations |
Lecture 7 - One dimensional flow - Part 1 |
Link |
NOC:Fluid Flow Operations |
Lecture 8 - One dimensional flow - Part 2 |
Link |
NOC:Fluid Flow Operations |
Lecture 9 - One dimensional flow - Part 3 |
Link |
NOC:Fluid Flow Operations |
Lecture 10 - Flow of Viscous fluid - Introduction |
Link |
NOC:Fluid Flow Operations |
Lecture 11 - Velocity distribution in laminar flow |
Link |
NOC:Fluid Flow Operations |
Lecture 12 - Velocity distribution in turbulent flow |
Link |
NOC:Fluid Flow Operations |
Lecture 13 - Boundary layer theory |
Link |
NOC:Fluid Flow Operations |
Lecture 14 - Theory of lubrication |
Link |
NOC:Fluid Flow Operations |
Lecture 15 - Frictional resistance |
Link |
NOC:Fluid Flow Operations |
Lecture 16 - Losses in gematric change |
Link |
NOC:Fluid Flow Operations |
Lecture 17 - Losses in geometric change (Continued...) |
Link |
NOC:Fluid Flow Operations |
Lecture 18 - Flow Velocity and Optimum Shape |
Link |
NOC:Fluid Flow Operations |
Lecture 19 - Equation of Energy and Discharge of Water Channel |
Link |
NOC:Fluid Flow Operations |
Lecture 20 - Drag |
Link |
NOC:Fluid Flow Operations |
Lecture 21 - Lift and Cavitation |
Link |
NOC:Fluid Flow Operations |
Lecture 22 - Dimensional Analysis |
Link |
NOC:Fluid Flow Operations |
Lecture 23 - Dimensional Analysis: Buckingham’s PI Theorem |
Link |
NOC:Fluid Flow Operations |
Lecture 24 - Law of Similarity and Significant Dimensionless Number |
Link |
NOC:Fluid Flow Operations |
Lecture 25 - Compressible Flow - Part 1 |
Link |
NOC:Fluid Flow Operations |
Lecture 26 - Compressible Flow - Part 2 |
Link |
NOC:Fluid Flow Operations |
Lecture 27 - Measurement of Flow - Part 1 |
Link |
NOC:Fluid Flow Operations |
Lecture 28 - Measurement of Flow - Part 2 |
Link |
NOC:Fluid Flow Operations |
Lecture 29 - Measurement of Flow - Part 3 |
Link |
NOC:Fluid Flow Operations |
Lecture 30 - Introduction to multiphase flow |
Link |
NOC:Fluid Flow Operations |
Lecture 31 - Hydrodynamics in multiphase flow |
Link |
NOC:Fluid Flow Operations |
Lecture 32 - Hydrodynamics in multiphase flow (Continued...) |
Link |
NOC:Fluid Flow Operations |
Lecture 33 - Applications of multiphase flow |
Link |
NOC:Chemical Process Intensification |
Lecture 1 - History, Philosophy and Concept |
Link |
NOC:Chemical Process Intensification |
Lecture 2 - Principle Features |
Link |
NOC:Chemical Process Intensification |
Lecture 3 - Strategies and domain based techniques |
Link |
NOC:Chemical Process Intensification |
Lecture 4 - Intensification by fluid flow process |
Link |
NOC:Chemical Process Intensification |
Lecture 5 - Mechanism of Intensification by mixing |
Link |
NOC:Chemical Process Intensification |
Lecture 6 - Intensification in Reactive system |
Link |
NOC:Chemical Process Intensification |
Lecture 7 - Problems leading to sustainable development |
Link |
NOC:Chemical Process Intensification |
Lecture 8 - Concept, Issues and Challenges |
Link |
NOC:Chemical Process Intensification |
Lecture 9 - Strategies in process design |
Link |
NOC:Chemical Process Intensification |
Lecture 10 - Scales and stages of process intensification |
Link |
NOC:Chemical Process Intensification |
Lecture 11 - Methods and Tools for Achieving sustainable design |
Link |
NOC:Chemical Process Intensification |
Lecture 12 - Multi-level Computer aided tools |
Link |
NOC:Chemical Process Intensification |
Lecture 13 - Introduction on Stochastic Optimization |
Link |
NOC:Chemical Process Intensification |
Lecture 14 - Optimization Algorithms |
Link |
NOC:Chemical Process Intensification |
Lecture 15 - Applications of Optimization Algorithms |
Link |
NOC:Chemical Process Intensification |
Lecture 16 - Introduction and Mechanism of Cavitation-based PI |
Link |
NOC:Chemical Process Intensification |
Lecture 17 - Cavitational Reactor Configurations and activity |
Link |
NOC:Chemical Process Intensification |
Lecture 18 - Parametric effects on cavitation |
Link |
NOC:Chemical Process Intensification |
Lecture 19 - Introduction of monolith reactor |
Link |
NOC:Chemical Process Intensification |
Lecture 20 - Preparation of monolithic catalyst |
Link |
NOC:Chemical Process Intensification |
Lecture 21 - Application of monolithic catalyst |
Link |
NOC:Chemical Process Intensification |
Lecture 22 - Hydrodynamics, transport of monolithic reactor |
Link |
NOC:Chemical Process Intensification |
Lecture 23 - Overview of interfacial area based processes |
Link |
NOC:Chemical Process Intensification |
Lecture 24 - Ejector induced downflow system for PI |
Link |
NOC:Chemical Process Intensification |
Lecture 25 - Hydrodynamics and transport in downflow system |
Link |
NOC:Chemical Process Intensification |
Lecture 26 - Introduction and Principles |
Link |
NOC:Chemical Process Intensification |
Lecture 27 - Types of Intensified Distillation Units |
Link |
NOC:Chemical Process Intensification |
Lecture 28 - Design of membrane-assisted distillation |
Link |
NOC:Chemical Process Intensification |
Lecture 29 - Introduction and Principles |
Link |
NOC:Chemical Process Intensification |
Lecture 30 - Supercritical extraction for process intensification |
Link |
NOC:Chemical Process Intensification |
Lecture 31 - Introduction to membrane and its principles |
Link |
NOC:Chemical Process Intensification |
Lecture 32 - Membrane engineering in process intensification |
Link |
NOC:Chemical Process Intensification |
Lecture 33 - Introduction to microprocess technology |
Link |
NOC:Chemical Process Intensification |
Lecture 34 - Process Intensification by Microreactors |
Link |
NOC:Chemical Process Intensification |
Lecture 35 - Hydrodynamics and transport in microchannel based microreactor |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 1 - Introduction and Overview on Reaction Engineering |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 2 - Kinetics of Homogeneous Reactions |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 3 - Kinetic Model and Temperature Dependency |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 4 - Introduction and Stoichiometry for the Batch System |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 5 - Stoichiometry for Constant Volume Flow and Variable Volume Batch Systems |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 6 - Stoichiometry for Variable Volume Flow System |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 7 - Analysis of Batch Reactor Kinetic Data |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 8 - Intregal Method of Analysis of Batch Reactor Data - Part 1 |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 9 - Intregal Method of Analysis of Batch Reactor Data - Part 2 |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 10 - Differential Method of Analysis and Variable Volume Batch Reactor Data |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 11 - Introduction and Ideal Batch Reactor Design |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 12 - Ideal Mixed Flow Reactor Design |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 13 - Ideal Plug Flow Reactor Design |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 14 - Size Comparisn of Single and Multiple Reactors |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 15 - Size Comaprison Multiple Reactors |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 16 - Recycle and Autocatalytic Reactors |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 17 - Design for Parallel Reactions |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 18 - Design for Series Reactions |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 19 - Design for Series-Parallel Reactions |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 20 - Denbigh Reactions and Their Special Cases |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 21 - Heats of Reaction and Equilibrium Conversion from Thermodynamics |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 22 - General Graphical Reactor Design Procedure |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 23 - Material and Energy Balances in Batch Reactor |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 24 - Optimum Temperature Progression in Batch Reactor |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 25 - Material and Energy Balances in Flug Flow and Mixed Flow Reactors |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 26 - Ideal and Non-Ideal Mixed Flow Reactor Design and Multiple Steady States |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 27 - Non-Ideal Reactors and Residence Time Distribution |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 28 - RTD Measurement and Moments of RTD |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 29 - RTD in Ideal Reactors |
Link |
NOC:Chemical Reaction Engineering-I |
Lecture 30 - Reactor Modeling using the RTD |
Link |
NOC:Mass Transfer Operations-II |
Lecture 1 - Basic concepts, Adiabatic saturation temperature |
Link |
NOC:Mass Transfer Operations-II |
Lecture 2 - Design calculations of cooling tower |
Link |
NOC:Mass Transfer Operations-II |
Lecture 3 - Design of cooling tower |
Link |
NOC:Mass Transfer Operations-II |
Lecture 4 - Design of cooling tower |
Link |
NOC:Mass Transfer Operations-II |
Lecture 5 - Air conditioning, Example problems on dehumidification |
Link |
NOC:Mass Transfer Operations-II |
Lecture 6 - Mechanism of drying and drying equilibria, drying rate curve |
Link |
NOC:Mass Transfer Operations-II |
Lecture 7 - Drying: rate of drying for batch dryers |
Link |
NOC:Mass Transfer Operations-II |
Lecture 8 - Drying: rate of drying for continuous dryers |
Link |
NOC:Mass Transfer Operations-II |
Lecture 9 - Drying time calculation from drying rate curve |
Link |
NOC:Mass Transfer Operations-II |
Lecture 10 - Introduction to liquid-liquid extraction, liquid-liquid equilibria |
Link |
NOC:Mass Transfer Operations-II |
Lecture 11 - Effect of temperature on LLE and Design of single stage extraction |
Link |
NOC:Mass Transfer Operations-II |
Lecture 12 - Design Calculation of Multistage Operation |
Link |
NOC:Mass Transfer Operations-II |
Lecture 13 - Design calculation of multistage cross-current extraction |
Link |
NOC:Mass Transfer Operations-II |
Lecture 14 - Design calculation of multistage counter-current extraction, Selection of extractors |
Link |
NOC:Mass Transfer Operations-II |
Lecture 15 - Leaching: single stage operation |
Link |
NOC:Mass Transfer Operations-II |
Lecture 16 - Leaching: multistage operation |
Link |
NOC:Mass Transfer Operations-II |
Lecture 17 - Supercritical Fluid Extraction, equipmet for leaching |
Link |
NOC:Mass Transfer Operations-II |
Lecture 18 - Fundamentals of membrane separation processes |
Link |
NOC:Mass Transfer Operations-II |
Lecture 19 - Manufacturing of membranes,advantages and limitations |
Link |
NOC:Mass Transfer Operations-II |
Lecture 20 - Various models and applications: design aspects |
Link |
NOC:Mass Transfer Operations-II |
Lecture 21 - Various models and applications: design aspects |
Link |
NOC:Mass Transfer Operations-II |
Lecture 22 - Electric field enhanced membrane separation processes |
Link |
NOC:Mass Transfer Operations-II |
Lecture 23 - Micellar-enhanced ultrafiltration |
Link |
NOC:Mass Transfer Operations-II |
Lecture 24 - Adsorption: types and nature, isotherm |
Link |
NOC:Mass Transfer Operations-II |
Lecture 25 - Stage wise and continuous adsorption |
Link |
NOC:Mass Transfer Operations-II |
Lecture 26 - Fluidized bed and teeter bed |
Link |
NOC:Mass Transfer Operations-II |
Lecture 27 - Unsteady state fixed bed adsorbers, ion exchange |
Link |
NOC:Mass Transfer Operations-II |
Lecture 28 - Crystallization, types of crystal geometry |
Link |
NOC:Mass Transfer Operations-II |
Lecture 29 - Solid-liquid phase equilibrium, Theory of crystallization |
Link |
NOC:Mass Transfer Operations-II |
Lecture 30 - Design of crystallizer, crystallization equipment |
Link |
NOC:Mass Transfer Operations-II |
Lecture 31 - Concluding remarks - Part 1 |
Link |
NOC:Mass Transfer Operations-II |
Lecture 32 - Concluding remarks - Part 2 |
Link |
NOC:Mechanical Unit Operations |
Lecture 1 - Introduction of Particulate Solids |
Link |
NOC:Mechanical Unit Operations |
Lecture 2 - Particle Size |
Link |
NOC:Mechanical Unit Operations |
Lecture 3 - Particle Shape and Density |
Link |
NOC:Mechanical Unit Operations |
Lecture 4 - Screening |
Link |
NOC:Mechanical Unit Operations |
Lecture 5 - Size Analysis by Screening |
Link |
NOC:Mechanical Unit Operations |
Lecture 6 - Screening Equipment, Effectiveness and Capacity |
Link |
NOC:Mechanical Unit Operations |
Lecture 7 - Methods of Size Reduction |
Link |
NOC:Mechanical Unit Operations |
Lecture 8 - Equipment for Size Reduction - Crushers |
Link |
NOC:Mechanical Unit Operations |
Lecture 9 - Equipment for Size Reduction - Gridners |
Link |
NOC:Mechanical Unit Operations |
Lecture 10 - Equipment for Size Reduction - Ultrafine Grinders and Cutting Machines |
Link |
NOC:Mechanical Unit Operations |
Lecture 11 - Storage of Bulk Solids |
Link |
NOC:Mechanical Unit Operations |
Lecture 12 - Solids Flow Out and their Flow Patterns |
Link |
NOC:Mechanical Unit Operations |
Lecture 13 - Conveying of Bulk Solids |
Link |
NOC:Mechanical Unit Operations |
Lecture 14 - Size Enlargement Methods |
Link |
NOC:Mechanical Unit Operations |
Lecture 15 - Size Enlargement Equipment - 1 |
Link |
NOC:Mechanical Unit Operations |
Lecture 16 - Size Enlargement Equipment - 2 |
Link |
NOC:Mechanical Unit Operations |
Lecture 17 - Flow past Immersed Solid Objects |
Link |
NOC:Mechanical Unit Operations |
Lecture 18 - Motion of Particles through Fluids - 1 |
Link |
NOC:Mechanical Unit Operations |
Lecture 19 - Motion of Particles through Fluids - 2 |
Link |
NOC:Mechanical Unit Operations |
Lecture 20 - Motion of Particles through Fluids - 3 |
Link |
NOC:Mechanical Unit Operations |
Lecture 21 - Flow through Beds of Solids - 1 |
Link |
NOC:Mechanical Unit Operations |
Lecture 22 - Flow through Beds of Solids - 2 |
Link |
NOC:Mechanical Unit Operations |
Lecture 23 - Flow through Fluidized Beds - 1 |
Link |
NOC:Mechanical Unit Operations |
Lecture 24 - Flow through Fluidized Beds - 2 |
Link |
NOC:Mechanical Unit Operations |
Lecture 25 - Filtration |
Link |
NOC:Mechanical Unit Operations |
Lecture 26 - Principles of Cake Filtration - 1 |
Link |
NOC:Mechanical Unit Operations |
Lecture 27 - Principles of Cake Filtration - 2 |
Link |
NOC:Mechanical Unit Operations |
Lecture 28 - Filtration Equipment |
Link |
NOC:Mechanical Unit Operations |
Lecture 29 - Cross Flow Filtration - 1 |
Link |
NOC:Mechanical Unit Operations |
Lecture 30 - Cross Flow Filtration - 2 |
Link |
NOC:Mechanical Unit Operations |
Lecture 31 - Gravity Sedimentation - Classifiers |
Link |
NOC:Mechanical Unit Operations |
Lecture 32 - Gravity Sedimentation - Design of Thickeners - 1 |
Link |
NOC:Mechanical Unit Operations |
Lecture 33 - Gravity Sedimentation - Design of Thickeners - 2 |
Link |
NOC:Mechanical Unit Operations |
Lecture 34 - Centrifugal Separations - 1 |
Link |
NOC:Mechanical Unit Operations |
Lecture 35 - Centrifugal Separations - 2 |
Link |
NOC:Mechanical Unit Operations |
Lecture 36 - Floatation - 1 |
Link |
NOC:Mechanical Unit Operations |
Lecture 37 - Floatation - 2 |
Link |
NOC:Advanced Thermodynamics |
Lecture 1 - Introduction of Phase Equilibrium |
Link |
NOC:Advanced Thermodynamics |
Lecture 2 - Classical Thermodynamics of Phase Equilibria - 1 |
Link |
NOC:Advanced Thermodynamics |
Lecture 3 - Classical Thermodynamics of Phase Equilibria - 2 |
Link |
NOC:Advanced Thermodynamics |
Lecture 4 - Thermodynamic Properties from Volumetric Data |
Link |
NOC:Advanced Thermodynamics |
Lecture 5 - Fugacity from Volumetric Data - 1 |
Link |
NOC:Advanced Thermodynamics |
Lecture 6 - Fugacity from Volumetric Data - 2 |
Link |
NOC:Advanced Thermodynamics |
Lecture 7 - Intermolecular Forces and Non-Ideal Behaviour |
Link |
NOC:Advanced Thermodynamics |
Lecture 8 - Intermolecular Forces-Potential Energy Functions |
Link |
NOC:Advanced Thermodynamics |
Lecture 9 - Molecular Theory of Corresponding States - 1 |
Link |
NOC:Advanced Thermodynamics |
Lecture 10 - Molecular Theory of Corresponding States - 2 |
Link |
NOC:Advanced Thermodynamics |
Lecture 11 - Intermolecular Potential and EoS |
Link |
NOC:Advanced Thermodynamics |
Lecture 12 - Virial Coefficients from Potential Functions |
Link |
NOC:Advanced Thermodynamics |
Lecture 13 - Virial Coefficients from Corresponding States Theory |
Link |
NOC:Advanced Thermodynamics |
Lecture 14 - Fugacities in Gaseous Mixtures - 1 |
Link |
NOC:Advanced Thermodynamics |
Lecture 15 - Fugacities in Gaseous Mixtures - 2 |
Link |
NOC:Advanced Thermodynamics |
Lecture 16 - Fugacities in Gaseous Mixtures - 3 |
Link |
NOC:Advanced Thermodynamics |
Lecture 17 - Liquid Mixtures and Excess Functions |
Link |
NOC:Advanced Thermodynamics |
Lecture 18 - Excess Functions and Activity Coefficients |
Link |
NOC:Advanced Thermodynamics |
Lecture 19 - Activity Coefficients and Thermodynamic Consistency |
Link |
NOC:Advanced Thermodynamics |
Lecture 20 - Models for Excess Gibbs Energy - 1 |
Link |
NOC:Advanced Thermodynamics |
Lecture 21 - Models for Excess Gibbs Energy - 2 |
Link |
NOC:Advanced Thermodynamics |
Lecture 22 - Models for Excess Gibbs Energy - 3 |
Link |
NOC:Advanced Thermodynamics |
Lecture 23 - Vapour-Liquid Equilibrium - 1 |
Link |
NOC:Advanced Thermodynamics |
Lecture 24 - Vapour-Liquid Equilibrium - 2 |
Link |
NOC:Advanced Thermodynamics |
Lecture 25 - Vapour-Liquid Equilibrium - 3 |
Link |
NOC:Advanced Thermodynamics |
Lecture 26 - Liquid-Liquid Equilibrium - 1 |
Link |
NOC:Advanced Thermodynamics |
Lecture 27 - Liquid-Liquid Equilibrium - 2 |
Link |
NOC:Advanced Thermodynamics |
Lecture 28 - Vapour-Liquid-Liquid Equilibrium - 1 |
Link |
NOC:Advanced Thermodynamics |
Lecture 29 - Vapour-Liquid-Liquid Equilibrium - 2 |
Link |
NOC:Advanced Thermodynamics |
Lecture 30 - Solid-Liquid Equilibrium - 1 |
Link |
NOC:Advanced Thermodynamics |
Lecture 31 - Solid-Liquid Equilibrium - 2 |
Link |
NOC:Membrane Technology |
Lecture 1 - Separation Processes, Historical Development, Definition and Types of Membranes |
Link |
NOC:Membrane Technology |
Lecture 2 - Membrane Processes and Classifications, Advantages, Disadvantages, Applications |
Link |
NOC:Membrane Technology |
Lecture 3 - Polymer Basics, Polymers used in Membrane Preparation and their Properties |
Link |
NOC:Membrane Technology |
Lecture 4 - Inorganic Materials for Membrane Preparation, their Advantages and Disadvantages |
Link |
NOC:Membrane Technology |
Lecture 5 - Membrane Modules and Selection, Flow Types |
Link |
NOC:Membrane Technology |
Lecture 6 - Preparation of Synthetic Membrane, Phase Inversion Membranes |
Link |
NOC:Membrane Technology |
Lecture 7 - Composite membranes: Interfacial polymerization, dip-coating, plasma polymerization |
Link |
NOC:Membrane Technology |
Lecture 8 - Inorganic membranes: Sol-Gel process, ceramic membrane preparation, membrane modification |
Link |
NOC:Membrane Technology |
Lecture 9 - Porous and non-porous membranes, characterization of porous membranes and MF membrane |
Link |
NOC:Membrane Technology |
Lecture 10 - MF membrane characterization: Bubble point,Mercury intrusion, Permeability method |
Link |
NOC:Membrane Technology |
Lecture 11 - UF membrane characterization: Gas adsorption-desorption, Thermoporometry, MWCO method |
Link |
NOC:Membrane Technology |
Lecture 12 - Passive transport, active transport, description of transport process |
Link |
NOC:Membrane Technology |
Lecture 13 - Transport through porous membrane and nonporus membrane |
Link |
NOC:Membrane Technology |
Lecture 14 - Concept of osmosis and reverse osmosis, thermodynamic analysis |
Link |
NOC:Membrane Technology |
Lecture 15 - Revision of concepts and fundaments |
Link |
NOC:Membrane Technology |
Lecture 16 - HP and LP RO, membrane materials, modules, models for RO transport |
Link |
NOC:Membrane Technology |
Lecture 17 - Advantages of RO, fouling, RO applications, Pressure retarded osmosis |
Link |
NOC:Membrane Technology |
Lecture 18 - Nanofiltration basics, transport mechanism, fouling model and applications |
Link |
NOC:Membrane Technology |
Lecture 19 - Basic principles of UF, membranes and modules, UF configurations |
Link |
NOC:Membrane Technology |
Lecture 20 - Models for UF transport, mass transfer coefficient, membrane rejection and sieving coefficient |
Link |
NOC:Membrane Technology |
Lecture 21 - Factors affecting UF performance, fouling and permeate flux enhancement, UF applications1 |
Link |
NOC:Membrane Technology |
Lecture 22 - Micellar-enhanced UF, affinity UF, UF based bioseparation |
Link |
NOC:Membrane Technology |
Lecture 23 - Basic principles, advantages of MF, cross-flow and dead-end MF, membranes and modules |
Link |
NOC:Membrane Technology |
Lecture 24 - Models for MF transport, plugging and throughput, fouling in MF, MF applications |
Link |
NOC:Membrane Technology |
Lecture 25 - Problems and solutions based on RO and MF |
Link |
NOC:Membrane Technology |
Lecture 26 - Problems and solutions based on UF |
Link |
NOC:Membrane Technology |
Lecture 27 - Dialysis, membranes and modules, mass transport in dialysis, diffusion analysis, applications |
Link |
NOC:Membrane Technology |
Lecture 28 - Ion-exchange membranes, ED process, energy requirement, applications, reverse ED |
Link |
NOC:Membrane Technology |
Lecture 29 - PV principle, advantages, mass transfer and applications, hybrid distillation/PV |
Link |
NOC:Membrane Technology |
Lecture 30 - Problems and solutions based on ED and PV |
Link |
NOC:Membrane Technology |
Lecture 31 - Concept, types of LM, mechanism of mass transfer in LM, choice of solvent and carrier, applications |
Link |
NOC:Membrane Technology |
Lecture 32 - Basic principle of gas separation, transport mechanism, factors affecting gas separation, applications |
Link |
NOC:Membrane Technology |
Lecture 33 - Basic principle of MD, mechanism, process parameters, membranes, applications |
Link |
NOC:Membrane Technology |
Lecture 34 - Mechanism, coupled transport, carrier agent, active and passive transport, applications |
Link |
NOC:Membrane Technology |
Lecture 35 - Gas-liquid and liquid-liquid contactors, membrane reactors and bioreactors, PEM hydrogen fuel cell |
Link |
NOC:Membrane Technology |
Lecture 36 - Perstraction, membrane chromatography and controlled drug delivery |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 1 - Introduction to Optimization |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 2 - Linear Regression |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 3 - Multiple, Polynomial and General Linear Least Square Regression |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 4 - Nonlinear Regression |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 5 - Regression : MATLAB Implementation |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 6 - Teaching Learning Based Optimization |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 7 - Implementation of TLBO in MATLAB |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 8 - Supplementary: Preliminary Statistical analysis for metaheuristic techniques |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 9 - Supplementary: Preliminary Statistical analysis - MATLAB implementation |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 10 - Particle Swarm Optimization |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 11 - Implementation of Particle Swarm Optimization using MATLAB |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 12 - Differential Evolution |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 13 - Implementation of Differential Evolution using MATLAB |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 14 - Binary Coded Genetic Algorithm |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 15 - Real Coded Genetic Algorithm |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 16 - Implementation of Real Coded Genetic Algorithm using MATLAB |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 17 - Artificial Bee Colony Algorithm |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 18 - Working of Artificial Bee Colony Algorithm |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 19 - Implementation of Artificial Bee Colony using MATLAB |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 20 - Comparison of Variation Operators and Survival Strategies |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 21 - Black-Box Optimization Problems |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 22 - Constraint-Handling in Metaheuristic Techniques |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 23 - Case Study: Production planning |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 24 - Case Study: Production planning MATLAB Implementation |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 25 - Parallelization and Vectorization of Fitness Function |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 26 - Constraint-Handling using Correction Approach |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 27 - MATLAB inbuilt functions: Linear and Mixed Integer Linear Programming |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 28 - MATLAB inbuilt functions: Nonlinear and Mixed Integer Nonlinear Programming |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 29 - MATLAB Optimization Tool: Options, Output Function, Vectorization, Parallelization |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 30 - MATLAB inbuilt functions: Multi-objective Optimization |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 31 - Simplex Method for LP |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 32 - Branch and Bound Method for MILP |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 33 - MILP formulation of Production Planning Problem |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 34 - Generalized Algebraic Modelling System |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 35 - Solution of Production Planning Problem using GAMS and NEOS, MIRO |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 36 - IBM ILOG CPLEX Optimization Studio |
Link |
NOC:Computer Aided Applied Single Objective Optimization |
Lecture 37 - Constraint Programming Applications in IBM ILOG CPLEX Optimization Studio |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 1 - Definition, History, Role of Chemical Engineer |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 2 - Basic Features of Chemical Process |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 3 - Unit systems and dimensions |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 4 - Variables and Properties of Material in System |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 5 - Pressure and Temperature of Flow Process |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 6 - Rate of Process |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 7 - Principles of material balance and calculation |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 8 - Material Balances on Processes with Recycle and Bypass |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 9 - Material balances on reactive processes |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 10 - Material balances on combustion reactions |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 11 - State Equation of Ideal Gas and Calculation |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 12 - State Equation of non-Ideal Gas and Calculation |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 13 - Phase equilibrium |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 14 - Equilibrium Laws, Humidity and Saturation |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 15 - Humidity, Saturation Psychrometric chart |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 16 - Process of phase change: Condensation and vaporization |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 17 - Principles of Energy |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 18 - Laws and properties of thermodynamics |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 19 - Standard Heat of Formation |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 20 - The mechanical energy balance |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 21 - Enthalpy balances without reaction |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 22 - Energy balance with multiplle streams without reaction |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 23 - Energy balance on heat of solution |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 24 - Energy balance with heat of reaction |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 25 - Energy balance with heat of reaction (Continued...) |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 26 - Energy balance with heat of combustion |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 27 - Material balance of transient process |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 28 - Unsteady state energy balance |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 29 - Least Square Method Linear equation fitting |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 30 - Non-linear algebraic equation system |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 31 - Numerical Integration |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 32 - Process Degrees of Freedom |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 33 - Process Flowsheeting and codes |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 34 - Case Study: Cumene Production |
Link |
NOC:Basic Principles and Calculations in Chemical Engineering |
Lecture 35 - Case Study: Cumene Production (Continued...) |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 1 - Solar Energy: An overview of thermal applications |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 2 - Solar radiation |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 3 - Practice problems - Part I |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 4 - Practice problems - Part II |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 5 - Non-concentrating solar collectors - Part I |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 6 - Non-concentrating solar collectors - Part II |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 7 - Non-concentrating solar collectors - Part III |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 8 - Practice problems - Part I |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 9 - Practice problems - Part II |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 10 - Practice problems - Part III |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 11 - Parabolic solar collectors |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 12 - Practice problems |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 13 - Thermal energy storage systems - Part I |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 14 - Thermal energy storage systems - Part II |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 15 - Solar energy utilization methods |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 16 - Classification of energy resources |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 17 - Broad classification and compositional analysis |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 18 - Characteristics and properties of biomass |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 19 - Properties and structural components of biomass |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 20 - Biomass residues and energy conversion routes |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 21 - Utilisation of biomass through bio-chemical and thermo-chemical routes |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 22 - Conversion mechanism of biomass to biogas and its properties |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 23 - Classification of biogas plants |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 24 - Practice problems - I |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 25 - Practice problems - II |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 26 - Practice problems - III |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 27 - Bioconversion of substrates into alcohol |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 28 - Thermo-chemical conversion, torrefaction and combustion processes |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 29 - Thermo-chemical conversion of biomass to solid, liquid and gaseous fuels |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 30 - Gasification process |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 31 - Thermo-chemical conversion processes: pyrolysis, liquefaction and conversion processes |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 32 - Practice problems - I |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 33 - Practice problems - II |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 34 - Turbine terms, types and theories - Part I |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 35 - Turbine terms, types and theories - Part II |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 36 - Characteristics and Power Generation from Wind Energy - Part I |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 37 - Characteristics and Power Generation from Wind Energy - Part II |
Link |
NOC:Renewable Energy Engineering: Solar, Wind and Biomass Energy Systems |
Lecture 38 - Practice problems |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 1 - Energy and Environment scenario |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 2 - Need for biomass based industries |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 3 - Biomass basics |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 4 - Dedicated energy crops |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 5 - Oil cropns and microalgae |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 6 - Enhancing biomass properties |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 7 - Basic concepts and types |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 8 - Feedstocks and properties |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 9 - Economics and LCA |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 10 - Barriers and Types |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 11 - Dilute acid, alkali, ozone |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 12 - Hybrid methods |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 13 - Physical Processes |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 14 - Gasification and Pyrolysis |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 15 - Products and Commercial Success Stories |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 16 - Types, fundamentals, equipments, applications |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 17 - Details of various processes |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 18 - Products and Commercial Success Stories |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 19 - Diesel from vegetable oils, microalgae and syngas |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 20 - Transesterification; FT process, catalysts |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 21 - Biodiesel purification, fuel properties |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 22 - Biooil and biochar production, reactors |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 23 - Factors affecting biooil, biochar production, fuel properties characterization |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 24 - Biooil upgradation technologies |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 25 - Microorganisms, current industrial ethanol production technology |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 26 - Cellulase production, SSF and CBP |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 27 - ABE fermentation pathway and kinetics, product recovery technologies |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 28 - Biohydrogen production, metabolics, microorganisms |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 29 - Biogas technology, fermenter designs, biogas purification |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 30 - Methanol production and utilization |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 31 - Biomass as feedstock for synthetic organic chemicals, lactic acid, polylactic acid |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 32 - Succinic acid, propionic acid, acetic acid, butyric acid |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 33 - 1,3-propanediol, 2,3-butanedioil, PHA |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 34 - Concept, lignocellulosic biorefinery |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 35 - Aquaculture and algal biorefinery, waste biorefinery |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 36 - Techno-economic evaluation |
Link |
NOC:Biomass Conversion and Biorefinery |
Lecture 37 - Life-cycle assessment |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 1 - Significance of software with example - Simulation on pen and paper vs simulation on Aspen Plus |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 2 - Understanding Resources and My Exchange, Start using Aspen Plus |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 3 - Overview of setting up of property environment |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 4 - Using Model Pallete - Mixers/Splitters, Separators |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 5 - Using Model Pallete - Exchangers |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 6 - Using Model Pallete - Columns |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 7 - Using Model Palette - Reactors |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 8 - Using Model Palette - Pressure Changers |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 9 - Example: Hydrocarbon Treatment - Part 1 |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 10 - Example: Hydrocarbon Treatment - Part 2 |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 11 - Setup, Components |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 12 - Property Methods |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 13 - Property Methods and Propeety Sets with example |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 14 - Analysis tools (Pure Components and Binary mixtures) |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 15 - Analysis tools (Ternary mixtures), Data and Regression (Part 1) |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 16 - Data and Regression (Part 2), Property Estimation |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 17 - Practice problems on pure components |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 18 - Practice problems on binary mixtures |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 19 - Miscellaneous practice problems and case studies |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 20 - Model Analysis Tools |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 21 - Separation of Hydrocarbon Mixture |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 22 - Synthesis of Acetaldehyde from Ethanol |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 23 - BTX Separation through Distillation |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 24 - Synthesis of Methanol from Syngas |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 25 - Synthesis of Dimethyl Ether from Carbon Dioxide and Hydrogen |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 26 - Synthesis of Ammonia in Cryogenic Process |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 27 - Production of Cumene |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 28 - Design, Rating and Simulation of Heat Exchanger |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 29 - Absorption and Distillation - Part 1 |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 30 - Absorption and Distillation - Part 2 |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 31 - Hydrodealkylation of Toluene |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 32 - Isobutene Production Plant |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 33 - Nitric Oxide Production Plant |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 34 - Plant Economy and Utilities |
Link |
NOC:Aspen Plus® Simulation Software - A basic course for beginners |
Lecture 35 - Plant Dynamics and Control |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 1 - Introduction of Characterization Techniques - Part 1 |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 2 - Introduction to Characterization Techniques - Part 2 |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 3 - Infrared Spectroscopy: Fundamentals |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 4 - Infrared Spectroscopy: IR Bands and Applications |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 5 - Infrared Spectrophotometer Instrumentation |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 6 - Raman Spectroscopy |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 7 - NMR: Concepts and Fundamentals​ |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 8 - Chemical Shifts |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 9 - Factors Affecting Chemical Shift and 2D NMR​ |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 10 - Physisorption: Surface Area and Pore Analysis |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 11 - Physisorption Measurements |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 12 - Chemisorption |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 13 - Surface Tension and its Measurement - Part 1 |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 14 - Surface Tension and its Measurement - Part 2 |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 15 - Interfacial Tension and its Application |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 16 - Interfacial Tension and Influence of Surface Curvature​ |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 17 - Rheology: Fundamentals and Principles​ |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 18 - Complex Fluids and their Properties​ |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 19 - Rheology: Case Study on Hydrogel Synthesis |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 20 - Electron Spectroscopy for Surface Analysis​ |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 21 - Quantification in XRF and XPS Spectroscopy​ |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 22 - XPS Instrument and Application​ |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 23 - Introduction to Electrochemical Characterization Techniques​ |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 24 - Electrode Potential, Kinetics and Mass Transfer Resistance​ |
Link |
NOC:Physical and Electrochemical Characterizations in Chemical Engineering |
Lecture 25 - Voltammetry and Galvanostatic Charge-Discharge​ |
Link |
NOC:Chemical Process Technology |
Lecture 1 - Important Steps for Process Development |
Link |
NOC:Chemical Process Technology |
Lecture 2 - Structure of Chemical Industry |
Link |
NOC:Chemical Process Technology |
Lecture 3 - Safety and Loss Prevention |
Link |
NOC:Chemical Process Technology |
Lecture 4 - Sulfuric Acid: Reactions and Thermodynamics |
Link |
NOC:Chemical Process Technology |
Lecture 5 - SO2 Conversion Reactor and Sulfuric Acid Production Process |
Link |
NOC:Chemical Process Technology |
Lecture 6 - Sulfur Production: Claus Process |
Link |
NOC:Chemical Process Technology |
Lecture 7 - Synthesis Gas Production |
Link |
NOC:Chemical Process Technology |
Lecture 8 - Coal Gasification |
Link |
NOC:Chemical Process Technology |
Lecture 9 - Coal Gasifiers |
Link |
NOC:Chemical Process Technology |
Lecture 10 - Gasification Technology and Applications |
Link |
NOC:Chemical Process Technology |
Lecture 11 - Thermodynamics of Ammonia Synthesis |
Link |
NOC:Chemical Process Technology |
Lecture 12 - Integrated Ammonia Plant and Hydrogen Recovery - I |
Link |
NOC:Chemical Process Technology |
Lecture 13 - Integrated Ammonia Plant and Hydrogen Recovery - II |
Link |
NOC:Chemical Process Technology |
Lecture 14 - Urea Production |
Link |
NOC:Chemical Process Technology |
Lecture 15 - Nitric acid: Reactions and Thermodynamics |
Link |
NOC:Chemical Process Technology |
Lecture 16 - Production of Phosphoric Acid: Dihydrate Process |
Link |
NOC:Chemical Process Technology |
Lecture 17 - Production of Phosphoric Acid: Hemihydrate Process |
Link |
NOC:Chemical Process Technology |
Lecture 18 - Emission Abatement in Phosphoric Acid Plants |
Link |
NOC:Chemical Process Technology |
Lecture 19 - Chlorine Production |
Link |
NOC:Chemical Process Technology |
Lecture 20 - Soda Ash Process |
Link |
NOC:Chemical Process Technology |
Lecture 21 - Heterogeneous Catalysis |
Link |
NOC:Chemical Process Technology |
Lecture 22 - Catalysis with Zeolites and production of Iso-butene |
Link |
NOC:Chemical Process Technology |
Lecture 23 - Production of Ethylbenzene |
Link |
NOC:Chemical Process Technology |
Lecture 24 - Periodic Flow Reversal and Production of Styrene |
Link |
NOC:Chemical Process Technology |
Lecture 25 - Selective Oxidation Processes and Ethene Production |
Link |
NOC:Chemical Process Technology |
Lecture 26 - Monolith Reactors for Automotive Emission |
Link |
NOC:Chemical Process Technology |
Lecture 27 - Methanol Production |
Link |
NOC:Chemical Process Technology |
Lecture 28 - Methanol and Formaldehyde Production |
Link |
NOC:Chemical Process Technology |
Lecture 29 - Fischer-Tropsch Synthesis |
Link |
NOC:Chemical Process Technology |
Lecture 30 - Fischer Tropsch Process: SASOL and SDMS |
Link |
NOC:Chemical Process Technology |
Lecture 31 - Methanol to Gasoline: Haldor Topsoe and TIGAS |
Link |
NOC:Chemical Process Technology |
Lecture 32 - Fuel Additives |
Link |
NOC:Chemical Process Technology |
Lecture 33 - Homogenous Catalysis |
Link |
NOC:Chemical Process Technology |
Lecture 34 - Methanol Carbonylation for Acetic Acid Production |
Link |
NOC:Chemical Process Technology |
Lecture 35 - Hydroformylation Reactions |
Link |
NOC:Chemical Process Technology |
Lecture 36 - Hydroformylation of Propene and Higher Alkenes |
Link |
NOC:Chemical Process Technology |
Lecture 37 - Ethene Oligomerization |
Link |
NOC:Chemical Process Technology |
Lecture 38 - Dimethyl Terephthalate and Terephthalic Acid Production |
Link |
NOC:Chemical Process Technology |
Lecture 39 - Bio-refinery products and Process Design |
Link |
NOC:Chemical Process Technology |
Lecture 40 - Optimal Synthesis of Sustainable Bio-refineries |
Link |
NOC:Chemical Process Technology |
Lecture 41 - Bio-based Fuels |
Link |
NOC:Chemical Process Technology |
Lecture 42 - Bio-based Chemicals |
Link |
NOC:Chemical Process Technology |
Lecture 43 - Bio-refinery Feedstock: Food Waste as a Renewable Raw Material |
Link |
NOC:Inorganic Chemical Technology |
Lecture 1 - Introduction and Unit Processes |
Link |
NOC:Inorganic Chemical Technology |
Lecture 2 - Introduction of Unit Operations |
Link |
NOC:Inorganic Chemical Technology |
Lecture 3 - Unit Operations and Other General Principles |
Link |
NOC:Inorganic Chemical Technology |
Lecture 4 - General Principles and Chemical Plant Design |
Link |
NOC:Inorganic Chemical Technology |
Lecture 5 - Fuel Gases |
Link |
NOC:Inorganic Chemical Technology |
Lecture 6 - Natural Gas, LPG and Syngas |
Link |
NOC:Inorganic Chemical Technology |
Lecture 7 - Synthesis gas |
Link |
NOC:Inorganic Chemical Technology |
Lecture 8 - Industrial Gases |
Link |
NOC:Inorganic Chemical Technology |
Lecture 9 - Industrial Gases - Carbon Dioxide |
Link |
NOC:Inorganic Chemical Technology |
Lecture 10 - Industrial Gases - Hydrogen |
Link |
NOC:Inorganic Chemical Technology |
Lecture 11 - Sulfur Industry |
Link |
NOC:Inorganic Chemical Technology |
Lecture 12 - Sulfur and sulfuric acid |
Link |
NOC:Inorganic Chemical Technology |
Lecture 13 - Sulfuric Acid |
Link |
NOC:Inorganic Chemical Technology |
Lecture 14 - Nitrogen Industries - Ammonia |
Link |
NOC:Inorganic Chemical Technology |
Lecture 15 - Nitrogen Industries - Nitric Acid |
Link |
NOC:Inorganic Chemical Technology |
Lecture 16 - Nitrogen Industries - Urea |
Link |
NOC:Inorganic Chemical Technology |
Lecture 17 - Nitrogen Industries - Ammonium Nitrate |
Link |
NOC:Inorganic Chemical Technology |
Lecture 18 - Phosphorus Industries - Phosphorus and Phosphoric Acid Production |
Link |
NOC:Inorganic Chemical Technology |
Lecture 19 - Phosphorus Industries - Phosphoric Acid Production by Wet Processes |
Link |
NOC:Inorganic Chemical Technology |
Lecture 20 - Phosphorus Industries - Phosphates |
Link |
NOC:Inorganic Chemical Technology |
Lecture 21 - Potassium Industries - 1 |
Link |
NOC:Inorganic Chemical Technology |
Lecture 22 - Potassium Industries - 2 |
Link |
NOC:Inorganic Chemical Technology |
Lecture 23 - Chlor-Alkali Industry - Soda Ash |
Link |
NOC:Inorganic Chemical Technology |
Lecture 24 - Chlor-Alkali Industry - Chlorine and Caustic Soda |
Link |
NOC:Inorganic Chemical Technology |
Lecture 25 - Cement and Lime Industry - Cement |
Link |
NOC:Inorganic Chemical Technology |
Lecture 26 - Cement and Lime Industry - Lime |
Link |
NOC:Inorganic Chemical Technology |
Lecture 27 - Glass Industries |
Link |
NOC:Inorganic Chemical Technology |
Lecture 28 - Surface Coating Industry |
Link |
NOC:Inorganic Chemical Technology |
Lecture 29 - Paints and Pigments |
Link |
NOC:Inorganic Chemical Technology |
Lecture 30 - Varnishes, Lacquers and Industrial Coatings |
Link |
NOC:Inorganic Chemical Technology |
Lecture 31 - Raw Materials and Basic Ceramic Chemistry |
Link |
NOC:Inorganic Chemical Technology |
Lecture 32 - Whitewares and Structural Clay Products |
Link |
NOC:Inorganic Chemical Technology |
Lecture 33 - Refractories, Specialized Ceramic Products and Vitreous Enamel |
Link |
NOC:Inorganic Chemical Technology |
Lecture 34 - Metallurgical Industries - I |
Link |
NOC:Inorganic Chemical Technology |
Lecture 35 - Metallurgical Industries - II |
Link |
NOC:Organic Chemical Technology |
Lecture 1 - Introduction to Organic Chemical Technology |
Link |
NOC:Organic Chemical Technology |
Lecture 2 - Basic Unit Processes and Unit Operations of OCT |
Link |
NOC:Organic Chemical Technology |
Lecture 3 - Introduction to Chemical Plant Design |
Link |
NOC:Organic Chemical Technology |
Lecture 4 - Edible and Essential Oils |
Link |
NOC:Organic Chemical Technology |
Lecture 5 - Vegetable Oils and Processing |
Link |
NOC:Organic Chemical Technology |
Lecture 6 - Processing of Oils and Waxes |
Link |
NOC:Organic Chemical Technology |
Lecture 7 - Soaps and Glycerine Manufacture |
Link |
NOC:Organic Chemical Technology |
Lecture 8 - Detergents Manufacture |
Link |
NOC:Organic Chemical Technology |
Lecture 9 - Carbohydrates Industry - Sugar |
Link |
NOC:Organic Chemical Technology |
Lecture 10 - Carbohydrates Industry - Refined Sugar |
Link |
NOC:Organic Chemical Technology |
Lecture 11 - Carbohydrates Industry - Beet Sugar and Starch |
Link |
NOC:Organic Chemical Technology |
Lecture 12 - Fermentation Industry |
Link |
NOC:Organic Chemical Technology |
Lecture 13 - Fermentation Industry – Ethanol |
Link |
NOC:Organic Chemical Technology |
Lecture 14 - Fermentation Industry – Citric Acid and Penicillin |
Link |
NOC:Organic Chemical Technology |
Lecture 15 - Pulp and Paper Industry |
Link |
NOC:Organic Chemical Technology |
Lecture 16 - Pulp and Paper Industry - 2 |
Link |
NOC:Organic Chemical Technology |
Lecture 17 - Pulp and Paper Industry - 3 |
Link |
NOC:Organic Chemical Technology |
Lecture 18 - Petroleum Industry |
Link |
NOC:Organic Chemical Technology |
Lecture 19 - Petroleum Refinery Products, Characteristics and Processes |
Link |
NOC:Organic Chemical Technology |
Lecture 20 - Petroleum Refinery Processes |
Link |
NOC:Organic Chemical Technology |
Lecture 21 - Petroleum Refinery Processes - 2 |
Link |
NOC:Organic Chemical Technology |
Lecture 22 - Chemicals from C1 Compounds: Methanol and Formaldehyde |
Link |
NOC:Organic Chemical Technology |
Lecture 23 - Chemicals from C1 and C2 Compounds |
Link |
NOC:Organic Chemical Technology |
Lecture 24 - Chemicals from C2 Compounds |
Link |
NOC:Organic Chemical Technology |
Lecture 25 - Chemicals from C2 Compounds - 2 |
Link |
NOC:Organic Chemical Technology |
Lecture 26 - Chemicals from C3 Compounds |
Link |
NOC:Organic Chemical Technology |
Lecture 27 - Chemicals from C3 Compounds - 2 |
Link |
NOC:Organic Chemical Technology |
Lecture 28 - Chemicals from C4 Compounds |
Link |
NOC:Organic Chemical Technology |
Lecture 29 - Chemicals from Aromatic Compounds |
Link |
NOC:Organic Chemical Technology |
Lecture 30 - Chemicals from Aromatic Compounds - Phenol |
Link |
NOC:Organic Chemical Technology |
Lecture 31 - Chemicals from Aromatic Compounds - 3 |
Link |
NOC:Organic Chemical Technology |
Lecture 32 - Polymer Industry |
Link |
NOC:Organic Chemical Technology |
Lecture 33 - Polymer Industry - 2 |
Link |
NOC:Organic Chemical Technology |
Lecture 34 - Rubber Industry |
Link |
NOC:Organic Chemical Technology |
Lecture 35 - Rubber Industry - 2 |
Link |
NOC:Solid-Fluid Operations |
Lecture 1 - Introduction to Solid-Fluid Operations |
Link |
NOC:Solid-Fluid Operations |
Lecture 2 - Characteristics of Single particle |
Link |
NOC:Solid-Fluid Operations |
Lecture 3 - Particle size and Its distribution in mixture |
Link |
NOC:Solid-Fluid Operations |
Lecture 4 - Mechanism of Size Reduction |
Link |
NOC:Solid-Fluid Operations |
Lecture 5 - General Machines for Size Reduction |
Link |
NOC:Solid-Fluid Operations |
Lecture 6 - Laws of Energy for Size Reduction |
Link |
NOC:Solid-Fluid Operations |
Lecture 7 - Introduction on Size Enlargement |
Link |
NOC:Solid-Fluid Operations |
Lecture 8 - Mechanism of Size Enlargement |
Link |
NOC:Solid-Fluid Operations |
Lecture 9 - Equipment for Size Enlargement |
Link |
NOC:Solid-Fluid Operations |
Lecture 10 - Flow Past a Cylinder and Spherical Particle |
Link |
NOC:Solid-Fluid Operations |
Lecture 11 - Terminal velocity of single particle |
Link |
NOC:Solid-Fluid Operations |
Lecture 12 - Multiple particle Interaction/Sedimentation: Hindered settling velocity |
Link |
NOC:Solid-Fluid Operations |
Lecture 13 - Basic law and terminology of flow through granular bed |
Link |
NOC:Solid-Fluid Operations |
Lecture 14 - General expressions for flow through packed beds-Ergun Equation |
Link |
NOC:Solid-Fluid Operations |
Lecture 15 - Two-phase flow through packed bed |
Link |
NOC:Solid-Fluid Operations |
Lecture 16 - Mixing of Solids: Introduction |
Link |
NOC:Solid-Fluid Operations |
Lecture 17 - Degree of mixing and Its Assessment |
Link |
NOC:Solid-Fluid Operations |
Lecture 18 - Mixing and agitation of fluids/slurries |
Link |
NOC:Solid-Fluid Operations |
Lecture 19 - Basic understandings and applications of fluidization |
Link |
NOC:Solid-Fluid Operations |
Lecture 20 - Minimum Fluidization Velocity |
Link |
NOC:Solid-Fluid Operations |
Lecture 21 - Basic understanding of froth flotation |
Link |
NOC:Solid-Fluid Operations |
Lecture 22 - Separation of particles by Screening |
Link |
NOC:Solid-Fluid Operations |
Lecture 23 - Particulate Matter Separation by Gravity Settling Chamber |
Link |
NOC:Solid-Fluid Operations |
Lecture 24 - Particle Separation by Cyclone and Centrifuge |
Link |
NOC:Solid-Fluid Operations |
Lecture 25 - Particle Separation by Electrostatic Precipitator |
Link |
NOC:Solid-Fluid Operations |
Lecture 26 - Separation by Industrial Fabric (Bag) Filters |
Link |
NOC:Solid-Fluid Operations |
Lecture 27 - Wet Scrubber for Particle Removal |
Link |
NOC:Solid-Fluid Operations |
Lecture 28 - Filtration |
Link |
NOC:Solid-Fluid Operations |
Lecture 29 - Dead-End and Continuous Filtration |
Link |
NOC:Solid-Fluid Operations |
Lecture 30 - Reverse Osmosis |
Link |
NOC:Solid-Fluid Operations |
Lecture 31 - Introduction to Nanoparticles |
Link |
NOC:Solid-Fluid Operations |
Lecture 32 - Synthesis of Nanoparticles - Physical Method |
Link |
NOC:Solid-Fluid Operations |
Lecture 33 - Synthesis of Nanoparticles (Chemical Methods) |
Link |
NOC:Solid-Fluid Operations |
Lecture 34 - Adsorption: Principle and Applications |
Link |
NOC:Solid-Fluid Operations |
Lecture 35 - Analysis of Adsorption by Isotherms |
Link |
NOC:Solid-Fluid Operations |
Lecture 36 - Adsorption Kinetics |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 1 - Sources of energy |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 2 - Sources of energy |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 3 - Energy scenario |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 4 - Environmental aspects of energy |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 5 - Environmental aspects of energy |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 6 - Environmental aspects of energy |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 7 - Environmental aspects of energy |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 8 - Solid fuels - Part I |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 9 - Solid fuels - Part II |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 10 - Liquid fuels - Part I |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 11 - Liquid fuels - Part II |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 12 - Practice problems - Part I |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 13 - Practice problems - Part II |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 14 - Energy from Bio-based Feedstock |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 15 - Thermal/Thermochemcial processes |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 16 - Practice problems (Pelletization) |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 17 - Practice problems (Torrefaction Mass and Energy Yield) |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 18 - Pyrolysis and Hydrothermal Liquefaction |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 19 - Gasification |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 20 - Practice examples (Pyrolysis, Gasification) |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 21 - Biochemical conversion processes - Anaerobic Digestion in Landfills |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 22 - Bioethanol Production |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 23 - Practice examples (Biogas and Bio-ethanol production) |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 24 - Chemical Conversion Processes - Types of Feedstock and Pretreatment |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 25 - Mechanism of trans-esterification and biodiesel production |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 26 - Green diesel synthesis from bio-based feedstocks |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 27 - Energy from Coal (Carbonization, Gasification and Liquefaction) |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 28 - Practice Example (Combustion of Biomass and Coal) |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 29 - Combustion Process (Biomass and Coal) |
Link |
NOC:Energy Conversion Technologies (Biomass and Coal) |
Lecture 30 - Concept of integration of energy system |
Link |
NOC:Petroleum Reservoir Engineering |
Lecture 1 - Introduction to Petroleum Reservoir Engineering |
Link |
NOC:Petroleum Reservoir Engineering |
Lecture 2 - Petroleum Reserves |
Link |
NOC:Petroleum Reservoir Engineering |
Lecture 3 - Petroleum Geology |
Link |
NOC:Petroleum Reservoir Engineering |
Lecture 4 - Well Drilling Methods |
Link |
NOC:Petroleum Reservoir Engineering |
Lecture 5 - Thermodynamics of Hydrocarbons |
Link |
NOC:Petroleum Reservoir Engineering |
Lecture 6 - Natural Gas Properties |
Link |
NOC:Petroleum Reservoir Engineering |
Lecture 7 - Properties of Crude Oil |
Link |
NOC:Petroleum Reservoir Engineering |
Lecture 8 - Reservoir Rock Properties |
Link |
NOC:Petroleum Reservoir Engineering |
Lecture 9 - Relative Permeability |
Link |
NOC:Petroleum Reservoir Engineering |
Lecture 10 - Primary Drive Mechanisms |
Link |
NOC:Petroleum Reservoir Engineering |
Lecture 11 - General Material (Volumetric) Balance |
Link |
NOC:Petroleum Reservoir Engineering |
Lecture 12 - Volumetric Balance in Oil and Gas Reservoir |
Link |
NOC:Petroleum Reservoir Engineering |
Lecture 13 - Fundamentals of Reservoir Fluid Flow |
Link |
NOC:Petroleum Reservoir Engineering |
Lecture 14 - General Equations for radial Flow in Reservoir |
Link |
NOC:Petroleum Reservoir Engineering |
Lecture 15 - Inflow Performance Relationship for Reservoir Fluids |
Link |
NOC:Petroleum Reservoir Engineering |
Lecture 16 - Well Testing and Performance - I |
Link |
NOC:Petroleum Reservoir Engineering |
Lecture 17 - Well Testing and Performance - II |
Link |
NOC:Petroleum Reservoir Engineering |
Lecture 18 - Secondary Oil Recovery Methods |
Link |
NOC:Petroleum Reservoir Engineering |
Lecture 19 - Enhanced Oil Recovery Methods |
Link |
NOC:Petroleum Reservoir Engineering |
Lecture 20 - Introduction to Reservoir Simulation |
Link |
NOC:Petroleum Reservoir Engineering |
Lecture 21 - Unconventional Natural Gas Production |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 1 - Introduction to Statistical Thermodynamics |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 2 - Postulates and Boltzmann Distribution |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 3 - Properties of Canonical Partition Function |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 4 - Canonical Partition Function and Thermodynamic Properties |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 5 - Thermodynamic Properties of Ideal Monoatomic Gases |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 6 - Monoatomic Gases and Gibbs Entropy Equation |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 7 - Energy Fluctuations for Monoatomic Gases |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 8 - Partition Function for Diatomic Gases |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 9 - Vibrational Partition Function |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 10 - Partition Function for Ideal Polyatomic Gas |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 11 - Normal Mode Analysis |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 12 - Illustrations |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 13 - Non-reacting Ideal Gas Mixture |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 14 - Chemically Reacting Gas Mixture |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 15 - Degree of Ionization of Gas Molecules |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 16 - Problems on Ionization of Gas Molecules |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 17 - Microcanonical and Grand Canonical Ensemble |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 18 - Isobaric Isothermal Ensemble |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 19 - Fluctuations in Grand canonical and Isothermal Isobaric Ensembles |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 20 - Semi Grand Canonical Ensemble and Comparison of Ensembles |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 21 - Problems and Adsorbtion Isotherms |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 22 - Virial Equation of State for Polyatomic Molecules |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 23 - Virial Equation of State |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 24 - Virial Equation of State with Higher Order Terms |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 25 - Thermodynamic Properties from Virial Equation of State |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 26 - Interaction Potentials for Spherical Molecules |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 27 - Inferences from Intermolecular Potentials |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 28 - Engineering Application of Virial Equation of State |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 29 - Einstein Model |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 30 - Einstein Model (Continued...) |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 31 - Debye Model |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 32 - Sublimation Pressure and Enthalpy of Crystals |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 33 - Flory Huggin's Model |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 34 - Ising Model |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 35 - Radial Distribution Function |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 36 - Radial Distribution Function |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 37 - Molecular Dynamics Simulations |
Link |
NOC:Applied Statistical Thermodynamics |
Lecture 38 - Square well Potential and Barker Henderson Pertubation Theory |
Link |
Fluid Mechanics |
Lecture 1 |
Link |
Fluid Mechanics |
Lecture 2 |
Link |
Fluid Mechanics |
Lecture 3 |
Link |
Fluid Mechanics |
Lecture 4 |
Link |
Fluid Mechanics |
Lecture 5 |
Link |
Fluid Mechanics |
Lecture 6 |
Link |
Fluid Mechanics |
Lecture 7 |
Link |
Fluid Mechanics |
Lecture 8 |
Link |
Fluid Mechanics |
Lecture 9 |
Link |
Fluid Mechanics |
Lecture 10 |
Link |
Fluid Mechanics |
Lecture 11 |
Link |
Fluid Mechanics |
Lecture 12 |
Link |
Fluid Mechanics |
Lecture 13 |
Link |
Fluid Mechanics |
Lecture 14 |
Link |
Fluid Mechanics |
Lecture 15 |
Link |
Fluid Mechanics |
Lecture 16 |
Link |
Fluid Mechanics |
Lecture 17 |
Link |
Fluid Mechanics |
Lecture 18 |
Link |
Fluid Mechanics |
Lecture 19 |
Link |
Fluid Mechanics |
Lecture 20 |
Link |
Fluid Mechanics |
Lecture 21 |
Link |
Fluid Mechanics |
Lecture 22 |
Link |
Fluid Mechanics |
Lecture 23 |
Link |
Fluid Mechanics |
Lecture 24 |
Link |
Fluid Mechanics |
Lecture 25 |
Link |
Fluid Mechanics |
Lecture 26 |
Link |
Fluid Mechanics |
Lecture 27 |
Link |
Fluid Mechanics |
Lecture 28 |
Link |
Fluid Mechanics |
Lecture 29 |
Link |
Fluid Mechanics |
Lecture 30 |
Link |
Fluid Mechanics |
Lecture 31 |
Link |
Fluid Mechanics |
Lecture 32 |
Link |
Fluid Mechanics |
Lecture 33 |
Link |
Fluid Mechanics |
Lecture 34 |
Link |
Fluid Mechanics |
Lecture 35 |
Link |
Fluid Mechanics |
Lecture 36 |
Link |
Fluid Mechanics |
Lecture 37 |
Link |
Fluid Mechanics |
Lecture 38 |
Link |
Fluid Mechanics |
Lecture 39 |
Link |
Fluid Mechanics |
Lecture 40 |
Link |
Mass Transfer II |
Lecture 1 |
Link |
Mass Transfer II |
Lecture 2 |
Link |
Mass Transfer II |
Lecture 3 |
Link |
Mass Transfer II |
Lecture 4 |
Link |
Mass Transfer II |
Lecture 5 |
Link |
Mass Transfer II |
Lecture 6 |
Link |
Mass Transfer II |
Lecture 7 |
Link |
Mass Transfer II |
Lecture 8 |
Link |
Mass Transfer II |
Lecture 9 |
Link |
Mass Transfer II |
Lecture 10 |
Link |
Mass Transfer II |
Lecture 11 |
Link |
Mass Transfer II |
Lecture 12 |
Link |
Mass Transfer II |
Lecture 13 |
Link |
Mass Transfer II |
Lecture 14 |
Link |
Mass Transfer II |
Lecture 15 |
Link |
Mass Transfer II |
Lecture 16 |
Link |
Mass Transfer II |
Lecture 17 |
Link |
Mass Transfer II |
Lecture 18 |
Link |
Mass Transfer II |
Lecture 19 |
Link |
Mass Transfer II |
Lecture 20 |
Link |
Mass Transfer II |
Lecture 21 |
Link |
Mass Transfer II |
Lecture 22 |
Link |
Mass Transfer II |
Lecture 23 |
Link |
Mass Transfer II |
Lecture 24 |
Link |
Mass Transfer II |
Lecture 25 |
Link |
Mass Transfer II |
Lecture 26 |
Link |
Mass Transfer II |
Lecture 27 |
Link |
Mass Transfer II |
Lecture 28 |
Link |
Mass Transfer II |
Lecture 29 |
Link |
Mass Transfer II |
Lecture 30 |
Link |
Mass Transfer II |
Lecture 31 |
Link |
Mass Transfer II |
Lecture 32 |
Link |
Mass Transfer II |
Lecture 33 |
Link |
Mass Transfer II |
Lecture 34 |
Link |
Mass Transfer II |
Lecture 35 |
Link |
Mass Transfer II |
Lecture 36 |
Link |
Mass Transfer II |
Lecture 37 |
Link |
Mass Transfer II |
Lecture 38 |
Link |
Mass Transfer II |
Lecture 39 |
Link |
Mass Transfer II |
Lecture 40 |
Link |
Plantwide Control of Chemical Processes |
Lecture 1 - Introduction to the course |
Link |
Plantwide Control of Chemical Processes |
Lecture 2 - Process Dynamics and Negative Feedback |
Link |
Plantwide Control of Chemical Processes |
Lecture 3 - PID control |
Link |
Plantwide Control of Chemical Processes |
Lecture 4 - Common Industrial Control Loops and advanced loops |
Link |
Plantwide Control of Chemical Processes |
Lecture 5 - Advanced loops (Continued...) and multivariable systems |
Link |
Plantwide Control of Chemical Processes |
Lecture 6 - Systematic Tuning Using Frequency Domain Analysis |
Link |
Plantwide Control of Chemical Processes |
Lecture 7 - Frequency Domain Analysis |
Link |
Plantwide Control of Chemical Processes |
Lecture 8 - Multivariable Systems |
Link |
Plantwide Control of Chemical Processes |
Lecture 9 - RGA and dynamic decoupling |
Link |
Plantwide Control of Chemical Processes |
Lecture 10 - Model based control |
Link |
Plantwide Control of Chemical Processes |
Lecture 11 - Dynamic Matrix Control |
Link |
Plantwide Control of Chemical Processes |
Lecture 12 - Control of Distillation Columns |
Link |
Plantwide Control of Chemical Processes |
Lecture 13 - Temperature inferential distillation control |
Link |
Plantwide Control of Chemical Processes |
Lecture 14 - Considerations in temperature inferential control |
Link |
Plantwide Control of Chemical Processes |
Lecture 15 - Control of Complex Column Configurations |
Link |
Plantwide Control of Chemical Processes |
Lecture 16 - Control of Heat Integrated Columns |
Link |
Plantwide Control of Chemical Processes |
Lecture 17 - Homogenous extractive distillation |
Link |
Plantwide Control of Chemical Processes |
Lecture 18 - More on complex columns and reactive distillation |
Link |
Plantwide Control of Chemical Processes |
Lecture 19 - Control of reactors |
Link |
Plantwide Control of Chemical Processes |
Lecture 20 - PFR controls (Continued..) & CSTRs |
Link |
Plantwide Control of Chemical Processes |
Lecture 21 - CSTR heat management |
Link |
Plantwide Control of Chemical Processes |
Lecture 22 - Heat Exchangers and Miscellaneous Systems |
Link |
Plantwide Control of Chemical Processes |
Lecture 23 - Degrees of freedom analysis |
Link |
Plantwide Control of Chemical Processes |
Lecture 24 - Degrees of freedom (Continued...) |
Link |
Plantwide Control of Chemical Processes |
Lecture 25 - Illustration of considerations in control structure synthesis |
Link |
Plantwide Control of Chemical Processes |
Lecture 26 - Two column recycle process |
Link |
Plantwide Control of Chemical Processes |
Lecture 27 - Throughput manipulator selection |
Link |
Plantwide Control of Chemical Processes |
Lecture 28 - Plantwide control structure design |
Link |
Plantwide Control of Chemical Processes |
Lecture 29 - Systematizing plantwide control design |
Link |
Plantwide Control of Chemical Processes |
Lecture 30 - The Luyben design procedure |
Link |
Plantwide Control of Chemical Processes |
Lecture 31 - Role of equipment capacity constraints |
Link |
Plantwide Control of Chemical Processes |
Lecture 32 - Recycle process case study |
Link |
Plantwide Control of Chemical Processes |
Lecture 33 - Recycle process case study (Continued...) |
Link |
Plantwide Control of Chemical Processes |
Lecture 34 - C4 isomerization process case study |
Link |
Plantwide Control of Chemical Processes |
Lecture 35 - C4 isomerization process case study (Continued...) |
Link |
Plantwide Control of Chemical Processes |
Lecture 36 - C4 isomerization process case study |
Link |
Plantwide Control of Chemical Processes |
Lecture 37 - Systematic economic plantwide control design procedure |
Link |
Plantwide Control of Chemical Processes |
Lecture 38 - Ethyl benzene process case study |
Link |
Plantwide Control of Chemical Processes |
Lecture 39 - C4 isomerization process revisited |
Link |
Plantwide Control of Chemical Processes |
Lecture 40 - Contrasting conventional and top-down approach |
Link |
Plantwide Control of Chemical Processes |
Lecture 41 - Cumene process plantwide control |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 1 - Review - 1 |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 2 - Review - Temperature and Pressure |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 3 - Review - Energy Conservation |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 4 - Properties - Part 1 |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 5 - Properties - Part 2 |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 6 - Mass-energy analysis of open system |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 7 - Energy analysis of closed system |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 8 - The Second Law of Thermodynamics |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 9 - Entropy |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 10 - Thermodynamic Calculus - 1 |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 11 - Thermodynamic Calculus - 2 |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 12 - Thermodynamic Calculus - 3 |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 13 - Thermodynamic Calculus - 4 |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 14 - Legendre Transformation and Free-energy |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 15 - Criteria for phase equilibria |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 16 - Maxwell Relation |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 17 - Stability Criteria |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 18 - Thermodynamics of phase equilibrium |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 19 - Chemical potential and fugacity |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 20 - General discussion on fugacity |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 21 - Ideal Gas Mixture - Part 1 |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 22 - Ideal Gas Mixture - Part 2 |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 23 - Partial Molar Properties |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 24 - Partial Molar Properties from experimental data |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 25 - Thermodynamics properties from volumetric data - 1 |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 26 - Thermodynamics properties from volumetric data - 2 |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 27 - Fugacity of pure liquids and solids |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 28 - Thermodynamics properties from volumetric data: effect of V and T |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 29 - Approaches to phase equilibria calculation |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 30 - Traditional Approaches to phase equilibria calculations |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 31 - Algorithms for vapor-liquid equilibria |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 32 - Probability and Multiplicity |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 33 - Multiplicity and maximising the multiplicity |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 34 - Introduction to statistical mechanics |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 35 - Partition function for independent particles |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 36 - Intermolecular Forces |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 37 - Models of Molecular Pair Potentials |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 38 - Molecular Theory of Corresponding States |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 39 - Molecular Interactions in Dense Fluid Media |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 40 - Models for Electrolyte Systems |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 41 - Membrane Osmometry |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 42 - Fugacity of liquid mixture - 1 |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 43 - Fugacity of liquid mixture - 2 |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 44 - Models for fugacity of liquid mixtures - 1 |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 45 - Models for fugacity of liquid mixtures - 2 |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 46 - Examples of Fugacity of liquids |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 47 - Stability of the Fluid Phases |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 48 - Theories of Solution - I |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 49 - Theories of Solution - II |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 50 - Polymer Solutions |
Link |
NOC:Thermodynamics Of Fluid Phase Equilibria |
Lecture 51 - Example Problems on Polymer Solutions |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 1 - Introduction |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 2 - Measurability and controllability of energy |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 3 - Postulates of thermodynamics - I |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 4 - Postulates of thermodynamics - II |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 5 - Definition of intensive variables and driving forces for temperature and pressure flow |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 6 - Driving force for the matter flow |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 7 - Basic properties, phase diagram, and thermodynamic table |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 8 - Work, and heat |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 9 - First law of thermodynamics for closed system: Ideal gas behavior |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 10 - First law of thermodynamics: Example 1 |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 11 - First law of thermodynamics for open system |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 12 - First law of thermodynamics: Example 2 |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 13 - The second law of the thermodynamics: Review |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 14 - Carnot cycle and thermodynamic temperature |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 15 - The concept of entropy |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 16 - Maximum work and entropy of ideal gas |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 17 - Power cycles and examples |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 18 - Mathematical properties of fundamental equations |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 19 - Generalized thermodynamic potential - I |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 20 - Generalized thermodynamic potential - II |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 21 - Multivariable Calculus |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 22 - Maxwell's relations and examples |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 23 - Jacobian method and its applications |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 24 - Equilibrium and stability - I |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 25 - Equilibrium and stability - II |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 26 - Stability criteria |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 27 - Intrinsic stability of thermodynamic system |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 28 - Phase transitions |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 29 - Clapeyron Equation and Vapour Pressure Correlations |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 30 - Equation of state |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 31 - Equation of state (Continued...) |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 32 - Repulsive Interaction |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 33 - Fugacity |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 34 - Thermodynamics of mixtures |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 35 - Partial molar properties and examples |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 36 - Examples of partial molar properties for real processes |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 37 - Obtaining the partial molar properties from experimental data |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 38 - Partial molar properties of ideal gas mixtures |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 39 - Chemical potential of ideal gas mixtures |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 40 - Fugacity coefficient in terms of measurable properties |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 41 - Fugacity coefficient for mixtures |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 42 - Fugacity coefficient for ideal mixtures |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 43 - Activity coefficient for mixtures |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 44 - Gibbs - Duhem relations and its impacts on the activity |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 45 - Excess Gibbs free energy model - I |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 46 - Two suffix Margules equation |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 47 - Excess Gibbs free energy model - II |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 48 - Vapor Liquid Equilibria |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 49 - Vapor Liquid Equilibria (examples) |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 50 - Vapor Liquid Equilibria (non-ideal mixtures - I) |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 51 - Vapor Liquid Equilibria (non-ideal mixtures - II) |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 52 - Azeotropes |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 53 - Azeotrope (binary mixture) |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 54 - Liquid-Liquid equilibria - 1 |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 55 - liquid-liquid equilibria (Continued...) and solid-liquid equilibria |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 56 - Solid-liquid equilibria (Continued...) |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 57 - Solid-liquid equilibria examples and properties |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 58 - Examples of boiling point elevation |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 59 - Solubility of gases in the liquid |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 60 - Chemical reaction equilibria - I |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 61 - Chemical reaction equilibria - II |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 62 - Chemical reaction equilibria - III |
Link |
NOC:Chemical Engineering Thermodynamics (2019) |
Lecture 63 - Chemical reaction equilibria - IV |
Link |
Biochemical Engineering |
Lecture 1 - Fundamentals of Biology & Biotechnology |
Link |
Biochemical Engineering |
Lecture 2 - Glimpses of Microbial World - Bacteria |
Link |
Biochemical Engineering |
Lecture 3 - Virus and Cell Organelles |
Link |
Biochemical Engineering |
Lecture 4 - Carbohydrate |
Link |
Biochemical Engineering |
Lecture 5 - Nucleic Acid |
Link |
Biochemical Engineering |
Lecture 6 - Lipids |
Link |
Biochemical Engineering |
Lecture 7 - Proteins |
Link |
Biochemical Engineering |
Lecture 8 - Biochemistry & Thermodynamics of Enzymes |
Link |
Biochemical Engineering |
Lecture 9 - Enzyme Kinetics : Michealis-Menten Kinetics |
Link |
Biochemical Engineering |
Lecture 10 - Regulation of Enzyme Activity : Inhibition |
Link |
Biochemical Engineering |
Lecture 11 - Regulation of Enzyme Activity : Inhibition (Continued...) |
Link |
Biochemical Engineering |
Lecture 12 - Effects of Substrate and Inhibition, pH and Temperature on Enzyme Activity |
Link |
Biochemical Engineering |
Lecture 13 - Immobilized Enzymes |
Link |
Biochemical Engineering |
Lecture 14 - Immobilized Enzymes (Continued...) |
Link |
Biochemical Engineering |
Lecture 15 - Interphase Mass Transfer and Reaction in Immobilized Enzymes |
Link |
Biochemical Engineering |
Lecture 16 - Interphase Mass Transfer and Reaction in Immobilized Enzymes (Continued...) |
Link |
Biochemical Engineering |
Lecture 17 - Effectiveness Factor in Immobilized Enzymes |
Link |
Biochemical Engineering |
Lecture 18 - Bioenergetics and Glycolysis |
Link |
Biochemical Engineering |
Lecture 19 - TCA Cycle |
Link |
Biochemical Engineering |
Lecture 20 - Electron Transport Chain & Oxidative Phosphorylation |
Link |
Biochemical Engineering |
Lecture 21 - Pentose Phosphate Pathways Glycogenesis & Glycogenolysis |
Link |
Biochemical Engineering |
Lecture 22 - Urea Cycle, Gluconeogenesis and Glyoxalate Cycle |
Link |
Biochemical Engineering |
Lecture 23 - Microbial Growth : Phases and Models |
Link |
Biochemical Engineering |
Lecture 24 - Effect of Mass Transfer on Microbial & Fungal Growth |
Link |
Biochemical Engineering |
Lecture 25 - Effect of Multiple Substrates and Inhibition on Microbial Growth |
Link |
Biochemical Engineering |
Lecture 26 - Design of Bioreactors |
Link |
Biochemical Engineering |
Lecture 27 - Design of Chemostats |
Link |
Biochemical Engineering |
Lecture 28 - Stability of Bioreactors |
Link |
Biochemical Engineering |
Lecture 29 - Stability of Bioreactors (Continued...) |
Link |
Biochemical Engineering |
Lecture 30 - Introduction to Receptor - Ligand Binding |
Link |
Biochemical Engineering |
Lecture 31 - Effects of Ligand Depletion and Multiple Receptors on Binding Kinetics |
Link |
Biochemical Engineering |
Lecture 32 - Effects of Ligand Depletion and Multiple Receptors on Binding Kinetics (Continued...) |
Link |
Biochemical Engineering |
Lecture 33 - Receptors-Mediated Endocytosis |
Link |
Biochemical Engineering |
Lecture 34 - Kinetics of Receptor-Mediated Endocytosis |
Link |
Biochemical Engineering |
Lecture 35 - General Model for Receptor-Mediated Endocytosis |
Link |
Biochemical Engineering |
Lecture 36 - Multiple Interacting Microbial Population: Prey-Predator Models |
Link |
Biochemical Engineering |
Lecture 37 - Manufacture of Biochemicals |
Link |
Biochemical Engineering |
Lecture 38 - Manufacture of Biochemicals (Continued...) & Strategies for Biomolecules Separation |
Link |
Biochemical Engineering |
Lecture 39 - Strategies for Biomolecules Separation (Continued...) |
Link |
Biochemical Engineering |
Lecture 40 - Strategies for Biomolecules Separation (Continued...) |
Link |
Microscale Transport Processes |
Lecture 1 - Introduction |
Link |
Microscale Transport Processes |
Lecture 2 - Introduction (Continued...) |
Link |
Microscale Transport Processes |
Lecture 3 - Lab on Chip |
Link |
Microscale Transport Processes |
Lecture 4 - Lab on Chip (Continued...) |
Link |
Microscale Transport Processes |
Lecture 5 - Microscale manufacturing practices |
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Microscale Transport Processes |
Lecture 6 - Photolithography |
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Microscale Transport Processes |
Lecture 7 - Photolithography (Continued...) |
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Microscale Transport Processes |
Lecture 8 - Deposition |
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Microscale Transport Processes |
Lecture 9 - Plastic microfluidic devices |
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Microscale Transport Processes |
Lecture 10 - Mixing |
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Microscale Transport Processes |
Lecture 11 - Micro Heat Pipes |
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Microscale Transport Processes |
Lecture 12 - Mixing (Continued...) |
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Microscale Transport Processes |
Lecture 13 - Mixing (Continued...) |
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Microscale Transport Processes |
Lecture 14 - Micro Heat Pipes (Continued...) |
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Microscale Transport Processes |
Lecture 15 - Mixing (Continued...) |
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Microscale Transport Processes |
Lecture 16 - Dispersion |
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Microscale Transport Processes |
Lecture 17 - Dispersion (Continued...) |
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Microscale Transport Processes |
Lecture 18 - Dispersion (Continued...) |
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Microscale Transport Processes |
Lecture 19 - Electrowetting |
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Microscale Transport Processes |
Lecture 20 - Electro osmosis |
Link |
Microscale Transport Processes |
Lecture 21 - Electrowetting (Continued...) |
Link |
Microscale Transport Processes |
Lecture 22 - Electro osmosis (Continued...) |
Link |
Microscale Transport Processes |
Lecture 23 - Dielectrophoresis |
Link |
Microscale Transport Processes |
Lecture 24 - Dielectrophoresis (Continued...) |
Link |
Microscale Transport Processes |
Lecture 25 - Dielectrophoresis (Continued...) |
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Microscale Transport Processes |
Lecture 26 - Scaling dimension and issues |
Link |
Microscale Transport Processes |
Lecture 27 - Slip flow |
Link |
Microscale Transport Processes |
Lecture 28 - Microstructured reactor |
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Microscale Transport Processes |
Lecture 29 - Immiscible flow in microchannel |
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Microscale Transport Processes |
Lecture 30 - Immiscible flow in microchannel (Continued...) |
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Microscale Transport Processes |
Lecture 31 - Immiscible flow in microchannel (Continued...) |
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Microscale Transport Processes |
Lecture 32 - Scaling dimension and issues (Continued...) |
Link |
Microscale Transport Processes |
Lecture 33 - Immiscible flow in microchannel (Continued...) |
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Microscale Transport Processes |
Lecture 34 - Plastic device making |
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Microscale Transport Processes |
Lecture 35 - Transport processes and their descriptions |
Link |
Microscale Transport Processes |
Lecture 36 - Convective fluid dynamics in microchannels |
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Microscale Transport Processes |
Lecture 37 - Microfluidic networks |
Link |
Microscale Transport Processes |
Lecture 38 - Electrohydrodynamic atomization |
Link |
Microscale Transport Processes |
Lecture 39 - Electrohydrodynamic atomization (Continued...) |
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Microscale Transport Processes |
Lecture 40 - Interfacial phenomena in thin liquid films |
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Multiphase Flow |
Lecture 1 - Introduction |
Link |
Multiphase Flow |
Lecture 2 - Estimation of Flow Patterns |
Link |
Multiphase Flow |
Lecture 3 - Estimation of Flow Patterns (Continued...) |
Link |
Multiphase Flow |
Lecture 4 - Flow Pattern Maps Fascinating Taylor Bubbles |
Link |
Multiphase Flow |
Lecture 5 - Definitions and Common Terminologies |
Link |
Multiphase Flow |
Lecture 6 - Definitions and Common Terminologies (Continued...) |
Link |
Multiphase Flow |
Lecture 7 - Simple Analytical Models |
Link |
Multiphase Flow |
Lecture 8 - The Homogeneous Flow Theory |
Link |
Multiphase Flow |
Lecture 9 - The Homogeneous Flow Theory (Continued...) |
Link |
Multiphase Flow |
Lecture 10 - Compressible Flow A Recapitulation |
Link |
Multiphase Flow |
Lecture 11 - Compressible Flow A Recapitulation (Continued...) |
Link |
Multiphase Flow |
Lecture 12 - Choked Flow Condition for Homogeneous Flow |
Link |
Multiphase Flow |
Lecture 13 - Drift Flux Model |
Link |
Multiphase Flow |
Lecture 14 - Drift Flux Model (Continued...) |
Link |
Multiphase Flow |
Lecture 15 - Drift Flux Model (Continued...) |
Link |
Multiphase Flow |
Lecture 16 - Drift Flux Model (Continued...) |
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Multiphase Flow |
Lecture 17 - Separated Flow Model |
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Multiphase Flow |
Lecture 18 - Separated Flow Model (Continued...) |
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Multiphase Flow |
Lecture 19 - Separated Flow Model (Continued...) |
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Multiphase Flow |
Lecture 20 - Separated Flow Model - Condition of Choking |
Link |
Multiphase Flow |
Lecture 21 - Separated Flow Model - Condition of Choking (Continued...) |
Link |
Multiphase Flow |
Lecture 22 - Separated Flow Model - Estimation of Frictional Pressure Drop and Void Fraction |
Link |
Multiphase Flow |
Lecture 23 - Separated Flow Model - Estimation of Frictional Pressure Drop and Void Fraction (Continued...) |
Link |
Multiphase Flow |
Lecture 24 - Separated Flow Model - Estimation of Frictional Pressure Drop and Void Fraction (Continued...) |
Link |
Multiphase Flow |
Lecture 25 - Separated Flow Model - Estimation of Frictional Pressure Drop and Void Fraction (Continued...) |
Link |
Multiphase Flow |
Lecture 26 - Analysis of Specific Flow Regimes |
Link |
Multiphase Flow |
Lecture 27 - Analysis of Specific Flow Regimes (Continued...) |
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Multiphase Flow |
Lecture 28 - Analysis of Specific Flow Regimes - Slug Flow (Continued...) |
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Multiphase Flow |
Lecture 29 - Two Phase Flow with Phase Change - An Introduction to Boiling Heat Transfer |
Link |
Multiphase Flow |
Lecture 30 - Bubble Growth |
Link |
Multiphase Flow |
Lecture 31 - Different Types of Nucleation |
Link |
Multiphase Flow |
Lecture 32 - Ibullition from Hot Surfaces |
Link |
Multiphase Flow |
Lecture 33 - Cycle of Bubble Growth and Departure |
Link |
Multiphase Flow |
Lecture 34 - Heat Transfer in Different Regimes of Boiling |
Link |
Multiphase Flow |
Lecture 35 - Heat Transfer in Different Regimes of Boiling (Continued...) |
Link |
Multiphase Flow |
Lecture 36 - Critical Heat Flux, Film Boiling |
Link |
Multiphase Flow |
Lecture 37 - Measurement Techniques for Two Phase flow Parameters |
Link |
Multiphase Flow |
Lecture 38 - Measurement Techniques for Two Phase flow Parameters - Void Fraction Measurement |
Link |
Multiphase Flow |
Lecture 39 - Measurement Techniques for Two Phase flow Parameters - Void Fraction Measurement (Continued...) |
Link |
Multiphase Flow |
Lecture 40 - Measurement Techniques for Two Phase flow Parameters - Estimation of Flow Patterns |
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Novel Separation Processes |
Lecture 1 - Fundamentals of Separation Processes |
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Novel Separation Processes |
Lecture 2 - Identification of Novel Separation Processes |
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Novel Separation Processes |
Lecture 3 - Membrane Separation Processes |
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Novel Separation Processes |
Lecture 4 - Membrane Separation Processes (Continued...1) |
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Novel Separation Processes |
Lecture 5 - Membrane Separation Processes (Continued...2) |
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Novel Separation Processes |
Lecture 6 - Membrane Separation Processes (Continued...3) |
Link |
Novel Separation Processes |
Lecture 7 - Membrane Separation Processes (Continued...4) |
Link |
Novel Separation Processes |
Lecture 8 - Membrane Separation Processes (Continued...5) |
Link |
Novel Separation Processes |
Lecture 9 - Membrane Separation Processes (Continued...6) |
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Novel Separation Processes |
Lecture 10 - Membrane Separation Processes (Continued...7) |
Link |
Novel Separation Processes |
Lecture 11 - Membrane Separation Processes (Continued...8) |
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Novel Separation Processes |
Lecture 12 - Membrane Separation Processes (Continued...9) |
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Novel Separation Processes |
Lecture 13 - Membrane Separation Processes (Continued...10) |
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Novel Separation Processes |
Lecture 14 - Membrane Separation Processes (Continued...11) |
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Novel Separation Processes |
Lecture 15 - Membrane Separation Processes (Continued...12) |
Link |
Novel Separation Processes |
Lecture 16 - Membrane Separation Processes (Continued...13) |
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Novel Separation Processes |
Lecture 17 - Membrane Separation Processes (Continued...14) |
Link |
Novel Separation Processes |
Lecture 18 - Membrane Separation Processes (Continued...15) |
Link |
Novel Separation Processes |
Lecture 19 - Membrane Separation Processes (Continued...16) |
Link |
Novel Separation Processes |
Lecture 20 - Membrane Separation Processes (Continued...17) |
Link |
Novel Separation Processes |
Lecture 21 - Membrane Separation Processes (Continued...18) |
Link |
Novel Separation Processes |
Lecture 22 - External Field Induced Membrane Separation Processes |
Link |
Novel Separation Processes |
Lecture 23 - External Field Induced Membrane Separation Processes (Continued...1) |
Link |
Novel Separation Processes |
Lecture 24 - External Field Induced Membrane Separation Processes (Continued...2) |
Link |
Novel Separation Processes |
Lecture 25 - External Field Induced Membrane Separation Processes (Continued...3) |
Link |
Novel Separation Processes |
Lecture 26 - External Field Induced Membrane Separation Processes (Continued...4) |
Link |
Novel Separation Processes |
Lecture 27 - Gas Separation |
Link |
Novel Separation Processes |
Lecture 28 - Gas Separation (Continued...) |
Link |
Novel Separation Processes |
Lecture 29 - Surfactant Based Separation Processes |
Link |
Novel Separation Processes |
Lecture 30 - Surfactant Based Separation Processes (Continued...) |
Link |
Novel Separation Processes |
Lecture 31 - Micellar Enhanced Ultrafiltration |
Link |
Novel Separation Processes |
Lecture 32 - Micellar Enhanced Ultrafiltration (Continued...) |
Link |
Novel Separation Processes |
Lecture 33 - Liquid Membranes |
Link |
Novel Separation Processes |
Lecture 34 - Liquid Membranes (Continued...) |
Link |
Novel Separation Processes |
Lecture 35 - Centrifugal Separation Processes |
Link |
Novel Separation Processes |
Lecture 36 - Chromatographic Separation Processes |
Link |
Novel Separation Processes |
Lecture 37 - Chromatographic Separation Processes (Continued...) |
Link |
Novel Separation Processes |
Lecture 38 - Ion Exchange Processes |
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Novel Separation Processes |
Lecture 39 - Electrophoretic Separation Methods |
Link |
Novel Separation Processes |
Lecture 40 - Electrophoretic Separation Methods (Continued...) |
Link |
Novel Separation Processes |
Lecture 41 - Supercritical Fluid Extraction |
Link |
Process Control and Instrumentation |
Lecture 1 - Introduction to Process Control |
Link |
Process Control and Instrumentation |
Lecture 2 - Introduction to Process Control (Continued...) |
Link |
Process Control and Instrumentation |
Lecture 3 - Mathematical Modeling (Continued...1) |
Link |
Process Control and Instrumentation |
Lecture 4 - Mathematical Modeling (Continued...2) |
Link |
Process Control and Instrumentation |
Lecture 5 - Mathematical Modeling (Continued...3) |
Link |
Process Control and Instrumentation |
Lecture 6 - Dynamic Behavior of Chemical Processes |
Link |
Process Control and Instrumentation |
Lecture 7 - Dynamic Behavior of Chemical Processes (Continued...1) |
Link |
Process Control and Instrumentation |
Lecture 8 - Dynamic Behavior of Chemical Processes (Continued...2) |
Link |
Process Control and Instrumentation |
Lecture 9 - Dynamic Behavior of Chemical Processes (Continued...3) |
Link |
Process Control and Instrumentation |
Lecture 10 - Dynamic Behavior of Chemical Processes (Continued...4) |
Link |
Process Control and Instrumentation |
Lecture 11 - Dynamic Behavior of Chemical Processes (Continued...5) |
Link |
Process Control and Instrumentation |
Lecture 12 - Dynamic Behavior of Chemical Processes (Continued...6) |
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Process Control and Instrumentation |
Lecture 13 - Dynamic Behavior of Chemical Processes (Continued...7) |
Link |
Process Control and Instrumentation |
Lecture 14 - Dynamic Behavior of Chemical Processes (Continued...8) |
Link |
Process Control and Instrumentation |
Lecture 15 - Feedback Control Schemes |
Link |
Process Control and Instrumentation |
Lecture 16 - Feedback Control Schemes (Continued...1) |
Link |
Process Control and Instrumentation |
Lecture 17 - Feedback Control Schemes (Continued...2) |
Link |
Process Control and Instrumentation |
Lecture 18 - Feedback Control Schemes (Continued...3) |
Link |
Process Control and Instrumentation |
Lecture 19 - Feedback Control Schemes (Continued...4) |
Link |
Process Control and Instrumentation |
Lecture 20 - Feedback Control Schemes (Continued...5) |
Link |
Process Control and Instrumentation |
Lecture 21 - Feedback Control Schemes (Continued...6) |
Link |
Process Control and Instrumentation |
Lecture 22 - Feedback Control Schemes (Continued...7) |
Link |
Process Control and Instrumentation |
Lecture 23 - Feedback Control Schemes (Continued...8) |
Link |
Process Control and Instrumentation |
Lecture 24 - Feedback Control Schemes (Continued...9) |
Link |
Process Control and Instrumentation |
Lecture 25 - Feedback Control Schemes (Continued...10) |
Link |
Process Control and Instrumentation |
Lecture 26 - Feedback Control Schemes (Continued...11) |
Link |
Process Control and Instrumentation |
Lecture 27 - Feedback Control Schemes (Continued...12) |
Link |
Process Control and Instrumentation |
Lecture 28 - Feedback Control Schemes (Continued...13) |
Link |
Process Control and Instrumentation |
Lecture 29 - Feedback Control Schemes (Continued...14) |
Link |
Process Control and Instrumentation |
Lecture 30 - Advanced Control Schemes |
Link |
Process Control and Instrumentation |
Lecture 31 - Advanced Control Schemes (Continued...1) |
Link |
Process Control and Instrumentation |
Lecture 32 - Advanced Control Schemes (Continued...2) |
Link |
Process Control and Instrumentation |
Lecture 33 - Advanced Control Schemes (Continued...3) |
Link |
Process Control and Instrumentation |
Lecture 34 - Advanced Control Schemes (Continued...4) |
Link |
Process Control and Instrumentation |
Lecture 35 - Instrumentation: General Principles of Measurement Systems |
Link |
Process Control and Instrumentation |
Lecture 36 - Instrumentation: General Principles of Measurement Systems (Continued...1) |
Link |
Process Control and Instrumentation |
Lecture 37 - Instrumentation: General Principles of Measurement Systems (Continued...2) |
Link |
Process Control and Instrumentation |
Lecture 38 - Instrumentation: General Principles of Measurement Systems (Continued...3) |
Link |
Process Control and Instrumentation |
Lecture 39 - Instrumentation: General Principles of Measurement Systems (Continued...4) |
Link |
Process Control and Instrumentation |
Lecture 40 - Instrumentation: General Principles of Measurement Systems (Continued...5) |
Link |
Process Control and Instrumentation |
Lecture 41 - Transducer Elements |
Link |
Process Control and Instrumentation |
Lecture 42 - Pressure Measurement |
Link |
Process Control and Instrumentation |
Lecture 43 - Pressure Measurement (Continued...1) |
Link |
Process Control and Instrumentation |
Lecture 44 - Pressure Measurement (Continued...2) |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 1 - Introduction |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 2 - Introduction (Continued...) |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 3 - Some Fundamental Surface Related Concepts - I |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 4 - Surface Tension (in terms of molecular interactions) |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 5 - Effect Surface Tension : Laplace Pressure |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 6 - Young Laplace Equation |
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Instability and Patterning of Thin Polymer Films |
Lecture 7 - Rayleish Instability |
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Instability and Patterning of Thin Polymer Films |
Lecture 8 - Meso Scale Fabrication Approaches |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 9 - Photo Lithography - I |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 10 - Photo Lithography - II |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 11 - Photo Lithography - III |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 12 - Photo Lithography - IV |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 13 - Photo Lithography - V |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 14 - Nano Imprint Lithography |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 15 - Nano Imprint Lithography (Continued...) |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 16 - Soft Lithography - I |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 17 - Soft Lithography - II |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 18 - Soft Lithography - III |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 19 - Soft Lithography - IV |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 20 - Soft Lithography - V |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 21 - Soft Lithography - VI |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 22 - Atomic Force Microscope - I |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 23 - Atomic Force Microscope - II |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 24 - Atomic Force Microscope - III |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 25 - Atomic Force Microscope - IV |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 26 - Atomic Force Microscope - V |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 27 - Intermolecular Forces between Particles and Surfaces - I |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 28 - Intermolecular Forces between Particles and Surfaces - II |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 29 - Intermolecular Forces between Particles and Surfaces - III |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 30 - Intermolecular Forces between Particles and Surfaces - IV |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 31 - Spontaneous instability and dwetting of thin polymer film - I |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 32 - Spontaneous instability and dwetting of thin polymer film - II |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 33 - Spontaneous instability and dwetting of thin polymer film - III |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 34 - Spontaneous instability and dwetting of thin polymer film - IV |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 35 - Spontaneous instability and dwetting of thin polymer film - V |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 36 - Spontaneous instability and dwetting of thin polymer film - VI |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 37 - Spontaneous instability and dwetting of thin polymer film - VII |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 38 - Template Guided Dewetting |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 39 - Elastic Contact Instability and Lithography |
Link |
Instability and Patterning of Thin Polymer Films |
Lecture 40 - Gradient Surfaces |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 1 - Introduction to vector space |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 2 - Introduction to vector space (Continued...) |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 3 - Onto, into, one to one function |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 4 - Vectors |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 5 - Vectors (Continued...) |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 6 - Contraction Mapping |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 7 - Contraction Mapping (Continued...) |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 8 - Matrix, Determinant |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 9 - Eigenvalue Problem in Discrete Domain |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 10 - Eigenvalue Problem in Discrete Domain (Continued...) |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 11 - Eigenvalue Problem in Discrete Domain (Continued...) |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 12 - Eigenvalue Problem in Discrete Domain (Continued...) |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 13 - Stability Analysis |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 14 - Stability Analysis (Continued...) |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 15 - Stability Analysis (Continued...) |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 16 - More Examples |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 17 - Partial Differential Equations |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 18 - Partial Differential Equations (Continued...) |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 19 - Eigenvalue Problem in Continuous Domain |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 20 - Special ODEs |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 21 - Adjoint Operator |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 22 - Theorems of Eigenvalues and Eigenfunction |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 23 - Solution PDE : Separation of Variables Method |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 24 - Solution of Parabolic PDE : Separation of variables method |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 25 - Solution of Parabolic PDE : Separation of Variables Method (Continued...) |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 26 - Solution of Higher Dimensional PDEs |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 27 - Solution of Higher Dimensional PDEs (Continued...) |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 28 - Four Dimensional Parabolic PDE |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 29 - Solution of Elliptic and Hyperbolic PDE |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 30 - Solution of Elliptic and Hyperbolic PDE (Continued...) |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 31 - PDE in Cylindrical and Spherical Coordinate |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 32 - Solution of non-homogeneous PDE |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 33 - Solution of non-homogeneous PDE (Continued...) |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 34 - Solution of non-homogeneous Parabolic PDE |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 35 - Solution of non-homogeneous Elliptic PDE |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 36 - Solution of non-homogeneous Elliptic PDE (Continued...) |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 37 - Similarity Solution |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 38 - Similarity Solution (Continued...) |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 39 - Integral Method |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 40 - Laplace Transform |
Link |
Advanced Mathematical Techniques in Chemical Engineering |
Lecture 41 - Fourier Transform |
Link |
NOC:Introduction to Process Modeling in Membrane Separation Process |
Lecture 1 - Fundamentals of Separation Processes and Introduction of Membrane System |
Link |
NOC:Introduction to Process Modeling in Membrane Separation Process |
Lecture 2 - Fundamentals of Separation Processes and Introduction of Membrane System (Continued...) |
Link |
NOC:Introduction to Process Modeling in Membrane Separation Process |
Lecture 3 - Fundamentals of Separation Processes and Introduction of Membrane System (Continued...) |
Link |
NOC:Introduction to Process Modeling in Membrane Separation Process |
Lecture 4 - Fundamentals of Separation Processes and Introduction of Membrane System (Continued...) |
Link |
NOC:Introduction to Process Modeling in Membrane Separation Process |
Lecture 5 - Modeling of Reverse Osmosis |
Link |
NOC:Introduction to Process Modeling in Membrane Separation Process |
Lecture 6 - Concentration Polarization |
Link |
NOC:Introduction to Process Modeling in Membrane Separation Process |
Lecture 7 - Osmotic Pressure Controlling Filtration |
Link |
NOC:Introduction to Process Modeling in Membrane Separation Process |
Lecture 8 - Osmotic Pressure Controlling Filtration (Continued...) |
Link |
NOC:Introduction to Process Modeling in Membrane Separation Process |
Lecture 9 - Osmotic Pressure Controlling Filtration (Continued...) |
Link |
NOC:Introduction to Process Modeling in Membrane Separation Process |
Lecture 10 - Osmotic Pressure Controlling Filtration (Continued...) |
Link |
NOC:Introduction to Process Modeling in Membrane Separation Process |
Lecture 11 - Osmotic Pressure Controlling Filtration (Continued...) |
Link |
NOC:Introduction to Process Modeling in Membrane Separation Process |
Lecture 12 - Osmotic Pressure Controlling Filtration (Continued...) |
Link |
NOC:Introduction to Process Modeling in Membrane Separation Process |
Lecture 13 - Modeling of Gel Layer Controlling Filtration |
Link |
NOC:Introduction to Process Modeling in Membrane Separation Process |
Lecture 14 - Modeling of Gel Layer Controlling Filtration (Continued...) |
Link |
NOC:Introduction to Process Modeling in Membrane Separation Process |
Lecture 15 - Modeling of Gel Layer Controlling Filtration (Continued...) and Resistance in Series Models |
Link |
NOC:Introduction to Process Modeling in Membrane Separation Process |
Lecture 16 - Design of Membrane Module |
Link |
NOC:Introduction to Process Modeling in Membrane Separation Process |
Lecture 17 - Design of Membrane Module (Continued...) |
Link |
NOC:Introduction to Process Modeling in Membrane Separation Process |
Lecture 18 - Design of Membrane Module (Continued...) |
Link |
NOC:Introduction to Process Modeling in Membrane Separation Process |
Lecture 19 - Modeling of Dialysis |
Link |
NOC:Introduction to Process Modeling in Membrane Separation Process |
Lecture 20 - Modeling of Dialysis (Continued...) |
Link |
NOC:Soft Nano Technology |
Lecture 1 - Introduction - 1 |
Link |
NOC:Soft Nano Technology |
Lecture 2 - Introduction - 2 |
Link |
NOC:Soft Nano Technology |
Lecture 3 - Introduction - 3 |
Link |
NOC:Soft Nano Technology |
Lecture 4 - Fundamental Concepts Related to Surface Tension - 1 |
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NOC:Soft Nano Technology |
Lecture 5 - Fundamental Concepts Related to Surface Tension - 2 |
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NOC:Soft Nano Technology |
Lecture 6 - Fundamental Concepts Related to Surface Tension - 3 |
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NOC:Soft Nano Technology |
Lecture 7 - Fundamental Concepts Related to Surface Tension - 4 |
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NOC:Soft Nano Technology |
Lecture 8 - Components of Surface Tension - 1 |
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NOC:Soft Nano Technology |
Lecture 9 - Components of Surface Tension - 2 |
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NOC:Soft Nano Technology |
Lecture 10 - Sell Assembly of Surfactant Molecules |
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NOC:Soft Nano Technology |
Lecture 11 - Laplace Pressure |
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NOC:Soft Nano Technology |
Lecture 12 - Photo Lithography - 1 |
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NOC:Soft Nano Technology |
Lecture 13 - Photo Lithography - 2 |
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NOC:Soft Nano Technology |
Lecture 14 - Photo Lithography - 3 |
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NOC:Soft Nano Technology |
Lecture 15 - Photo Lithography - 4 |
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NOC:Soft Nano Technology |
Lecture 16 - Photo Lithography - 5 |
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NOC:Soft Nano Technology |
Lecture 17 - Photo Lithography - 6 |
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NOC:Soft Nano Technology |
Lecture 18 - Soft Lithography - I |
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NOC:Soft Nano Technology |
Lecture 19 - Soft Lithography - 2 |
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NOC:Soft Nano Technology |
Lecture 20 - Soft Lithography - 3 |
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NOC:Soft Nano Technology |
Lecture 21 - Soft Lithography - 4 |
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NOC:Soft Nano Technology |
Lecture 22 - Soft Lithography - 5 |
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NOC:Soft Nano Technology |
Lecture 23 - Soft Lithography - 6 |
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NOC:Soft Nano Technology |
Lecture 24 - Atomic Force Microscope - 1 |
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NOC:Soft Nano Technology |
Lecture 25 - Atomic Force Microscope - 2 |
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NOC:Soft Nano Technology |
Lecture 26 - Atomic Force Microscope - 3 |
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NOC:Soft Nano Technology |
Lecture 27 - Atomic Force Microscope - 4 |
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NOC:Soft Nano Technology |
Lecture 28 - Atomic Force Microscope - 5 |
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NOC:Soft Nano Technology |
Lecture 29 - Atomic Force Microscope - 6 |
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NOC:Soft Nano Technology |
Lecture 30 - Dewetting - 1 |
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NOC:Soft Nano Technology |
Lecture 31 - Dewetting - 2 |
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NOC:Soft Nano Technology |
Lecture 32 - VdW Interaction Between Two Surfaces |
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NOC:Soft Nano Technology |
Lecture 33 - Interaction Between Two Surfaces - 2 |
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NOC:Soft Nano Technology |
Lecture 34 - Interaction Between Two Surfaces - 3 |
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NOC:Soft Nano Technology |
Lecture 35 - Dewetting - 3 |
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NOC:Soft Nano Technology |
Lecture 36 - Pattern Directed Dewetting - I |
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NOC:Soft Nano Technology |
Lecture 37 - Pattern Directed Dewetting - II |
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NOC:Soft Nano Technology |
Lecture 38 - Spin Dewetting |
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NOC:Soft Nano Technology |
Lecture 39 - Elastic Contact Instability - I |
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NOC:Soft Nano Technology |
Lecture 40 - Elastic Contact Instability - II |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 1 - Brief Introduction to Multiphase Flow |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 2 - Brief Introduction to Multiphase Flow (Continued...) |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 3 - Two Phase Flow through Micro Channels |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 4 - Two Phase Flow through Micro Channels (Continued...) |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 5 - Criteria for Confinement for in Case of Two Phase Flow |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 6 - Pertinent Dimensionless Numbers in Two Phase |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 7 - Flow Pattern Maps for Milli and Micro Systems |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 8 - Pattern Transition from Energy Minimisation Principle |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 9 - Experimental Identification of Flow Regimes |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 10 - Experimental Identification of Flow Regimes (Continued...) |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 11 - Flow Regimes and Void Fraction Estimation |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 12 - Influence of Operating Parameter on Flow Patterns |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 13 - Influence of Operating Parameter on Flow Patterns (Continued...) |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 14 - Influence of Operating Parameter on Flow Patterns (Continued...) |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 15 - Influence of Operating Parameter on Flow Patterns (Continued...) |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 16 - Void Fraction Characteristic Mini and Micro Channel |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 17 - Void Fraction and Pressure Drop in Reduced Dimensions - Experimental results |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 18 - Void Fraction and Pressure Drop in Reduced Dimensions - Experimental results (Continued...) |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 19 - Theoretical Analysis of Two Phase Flow in Reduced Dimensions |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 20 - Theoretical Analysis of Two Phase Flow in Reduced Dimensions (Continued...) |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 21 - Flow Pattern based Analysis in Micro Systems - Drift Flux Model |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 22 - Flow Pattern based Modelling - Slug Flow Model |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 23 - Flow Boiling in Microchannels |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 24 - Tutorial - I |
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NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel |
Lecture 25 - Tutorial - II |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 1 - Introduction |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 2 - Introduction (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 3 - First Law of Thermodynamics |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 4 - Second Law of Thermodynamics |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 5 - Second Law of Thermodynamics (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 6 - Entropy Change during Spontaneous Processes |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 7 - Criteria of Spontaneity |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 8 - Criteria of Spontaneity (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 9 - Thermodynamic Network |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 10 - Thermodynamic Network (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 11 - Tutorial 1 |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 12 - Gibbs free energy as a function of temperature and pressure |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 13 - P-v-T behaviour of gases |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 14 - P-v-T behaviour (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 15 - P-v-T behaviour (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 16 - P-v-T behaviour (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 17 - Tutorial 2 |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 18 - Property estimation from P-v-T behaviour |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 19 - Property estimation (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 20 - Concept of chemical potential |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 21 - Chemical potential (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 22 - Homogeneous open systems |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 23 - Homogeneous open systems (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 24 - Heterogeneous Closed Systems |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 25 - Tutorial 3 |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 26 - Concept of fugacity |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 27 - Fugacity (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 28 - Estimation of fugacity coefficients |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 29 - Fugacity of condensed phase |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 30 - Mixtures |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 31 - Mixtures (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 32 - Tutorial 4 |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 33 - Partial molar properties |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 34 - Partial molar properties (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 35 - Partial molar fugacity |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 36 - Ideal solutions |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 37 - Ideal solutions (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 38 - Ideal solutions (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 39 - Ideal solutions (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 40 - Non-ideal solutions |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 41 - Non-ideal solutions (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 42 - Non-ideal solutions (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 43 - Non-ideal solutions (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 44 - Non-ideal solutions (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 45 - Deviations from ideal dilute solutions |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 46 - Tutorial 5 |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 47 - Tutorial 6 |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 48 - Thermodynamics Consistency Test of VLE Data |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 49 - Retrograde Condensation |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 50 - Partial and Complete Immiscibility of Liquid Mixtures |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 51 - Partial and Complete Immiscibility of Liquid Mixtures (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 52 - Phase Equilibrium for Mass Transfer Processes |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 53 - Control Mass Analysis of Transient process |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 54 - Control Volume Analysis |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 55 - Throttling and problem |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 56 - Tutorial 7 |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 57 - First Law for reacting systems |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 58 - Estimation of standard heat of reaction |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 59 - Effect of operating variables on heat of reaction |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 60 - Chemical Reaction Equilibrium |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 61 - Equilibrium constant and its estimation |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 62 - Relation of Equilibrium constant to composition |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 63 - Effect of operating conditions on equilibrium conversion |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 64 - Relation of Equilibrium constant to composition (Continued...) |
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NOC:Phase Equilibrium Thermodynamics |
Lecture 65 - Miscellaneous concepts on Reaction Equilibrium |
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NOC:Transport Phenomena |
Lecture 1 - Introduction : Newton's Law of Viscosity |
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NOC:Transport Phenomena |
Lecture 2 - Fourier and Fick's Laws |
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NOC:Transport Phenomena |
Lecture 3 - Shell Momentum Balance |
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NOC:Transport Phenomena |
Lecture 4 - Example of Shell Momentum Balance |
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NOC:Transport Phenomena |
Lecture 5 - Example of Shell Momentum Balance (Continued...) |
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NOC:Transport Phenomena |
Lecture 6 - Example of Shell Momentum Balance (Continued...) |
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NOC:Transport Phenomena |
Lecture 7 - Example of Shell Momentum Balance (Continued...) |
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NOC:Transport Phenomena |
Lecture 8 - Example of Shell Momentum Balance (Continued...) |
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NOC:Transport Phenomena |
Lecture 9 - Equations of Change for Isothermal Systems |
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NOC:Transport Phenomena |
Lecture 10 - Equations of Change for Isothermal Systems (Continued...) |
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NOC:Transport Phenomena |
Lecture 11 - Equations of Change for Isothermal Systems (Continued...) |
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NOC:Transport Phenomena |
Lecture 12 - Equations of Change for Isothermal Systems (Continued...) |
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NOC:Transport Phenomena |
Lecture 13 - Equations of Change for Isothermal Systems (Continued...) |
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NOC:Transport Phenomena |
Lecture 14 - Equations of Change for Isothermal Systems (Continued...) |
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NOC:Transport Phenomena |
Lecture 15 - Unsteady Flow |
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NOC:Transport Phenomena |
Lecture 16 - Boundary Layers |
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NOC:Transport Phenomena |
Lecture 17 - Boundary Layers (Continued...) |
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NOC:Transport Phenomena |
Lecture 18 - Boundary Layers (Continued...) |
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NOC:Transport Phenomena |
Lecture 19 - Boundary Layers (Continued...) |
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NOC:Transport Phenomena |
Lecture 20 - Boundary Layers (Continued...) |
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NOC:Transport Phenomena |
Lecture 21 - Boundary Layers (Continued...) |
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NOC:Transport Phenomena |
Lecture 22 - Boundary Layers (Continued...) |
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NOC:Transport Phenomena |
Lecture 23 - Boundary Layers (Continued...) |
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NOC:Transport Phenomena |
Lecture 24 - Boundary Layers (Continued...) |
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NOC:Transport Phenomena |
Lecture 25 - Turbulent Boundary Layers |
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NOC:Transport Phenomena |
Lecture 26 - Turbulent Boundary Layers (Continued...) |
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NOC:Transport Phenomena |
Lecture 27 - Turbulent Boundary Layers (Continued...) |
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NOC:Transport Phenomena |
Lecture 28 - Drag |
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NOC:Transport Phenomena |
Lecture 29 - Drag (Continued...) |
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NOC:Transport Phenomena |
Lecture 30 - Heat Transfer Basics |
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NOC:Transport Phenomena |
Lecture 31 - Heat Transfer Basics (Continued...) |
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NOC:Transport Phenomena |
Lecture 32 - 1-D Heat Conduction - Temperature Distributions |
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NOC:Transport Phenomena |
Lecture 33 - 1-D Heat Conduction - Shell Heat Balance |
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NOC:Transport Phenomena |
Lecture 34 - Shell Heat Balance |
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NOC:Transport Phenomena |
Lecture 35 - Viscous Dissipation |
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NOC:Transport Phenomena |
Lecture 36 - Transient Conduction |
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NOC:Transport Phenomena |
Lecture 37 - Transient Conduction (Continued...) |
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NOC:Transport Phenomena |
Lecture 38 - Forced Convection |
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NOC:Transport Phenomena |
Lecture 39 - Energy Equation |
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NOC:Transport Phenomena |
Lecture 40 - Energy Equation (Continued...) |
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NOC:Transport Phenomena |
Lecture 41 - Free Convection |
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NOC:Transport Phenomena |
Lecture 42 - Thermal Boundary Layer |
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NOC:Transport Phenomena |
Lecture 43 - Mass Transfer |
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NOC:Transport Phenomena |
Lecture 44 - Mass Transfer (Continued...) |
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NOC:Transport Phenomena |
Lecture 45 - Mass Transfer (Continued...) |
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NOC:Transport Phenomena |
Lecture 46 - Mass Transfer (Continued...) |
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NOC:Transport Phenomena |
Lecture 47 - Mass Transfer (Continued...) |
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NOC:Transport Phenomena |
Lecture 48 - Mass Transfer (Continued...) |
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NOC:Transport Phenomena |
Lecture 49 - Mass Transfer (Continued...) |
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NOC:Transport Phenomena |
Lecture 50 - Mass Transfer (Continued...) |
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NOC:Transport Phenomena |
Lecture 51 - Convection Transfer Equations |
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NOC:Transport Phenomena |
Lecture 52 - Boundary Layer Similarity |
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NOC:Transport Phenomena |
Lecture 53 - Boundary Layer - Analogy |
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NOC:Transport Phenomena |
Lecture 54 - Analogy - Tutorial I |
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NOC:Transport Phenomena |
Lecture 55 - Analogy - Tutorial II |
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NOC:Transport Phenomena |
Lecture 56 - Analogy - Tutorial III |
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NOC:Transport Phenomena |
Lecture 57 - Analogy - Tutorial IV and V |
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NOC:Transport Phenomena |
Lecture 58 - Tutorial on Displacement Thickness |
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NOC:Transport Phenomena |
Lecture 59 - Tutorial on Momentum Integral Equation |
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NOC:Transport Phenomena |
Lecture 60 - Summary of the Course |
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NOC:Chemical Process Instrumentation |
Lecture 1 - General Principles and Representation of Instruments |
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NOC:Chemical Process Instrumentation |
Lecture 2 - General Principles and Representation of Instruments (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 3 - General Principles and Representation of Instruments (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 4 - General Principles and Representation of Instruments (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 5 - General Principles and Representation of Instruments (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 6 - Performance Characteristics of Instruments and Data Analysis - I |
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NOC:Chemical Process Instrumentation |
Lecture 7 - Performance Characteristics of Instruments and Data Analysis - I (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 8 - Performance Characteristics of Instruments and Data Analysis - I (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 9 - Performance Characteristics of Instruments and Data Analysis - I (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 10 - Performance Characteristics of Instruments and Data Analysis - I (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 11 - Performance Characteristics of Instruments and Data Analysis - II |
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NOC:Chemical Process Instrumentation |
Lecture 12 - Performance Characteristics of Instruments and Data Analysis - II (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 13 - Performance Characteristics of Instruments and Data Analysis - II (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 14 - Performance Characteristics of Instruments and Data Analysis - II (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 15 - Performance Characteristics of Instruments and Data Analysis - II (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 16 - Transducer Elements |
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NOC:Chemical Process Instrumentation |
Lecture 17 - Transducer Elements (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 18 - Transducer Elements (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 19 - Transducer Elements (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 20 - Transducer Elements (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 21 - Pressure Measurement: Moderate and High Pressure Measuring Instruments |
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NOC:Chemical Process Instrumentation |
Lecture 22 - Pressure Measurement: Moderate and High Pressure Measuring Instruments (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 23 - Pressure Measurement: Moderate and High Pressure Measuring Instruments (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 24 - Pressure Measurement: Moderate and High Pressure Measuring Instruments (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 25 - Pressure Measurement: Moderate and High Pressure Measuring Instruments (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 26 - High Vacuum Measurement |
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NOC:Chemical Process Instrumentation |
Lecture 27 - High Vacuum Measurement (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 28 - High Vacuum Measurement (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 29 - High Vacuum Measurement (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 30 - Pressure Measurement |
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NOC:Chemical Process Instrumentation |
Lecture 31 - Temperature Measurement |
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NOC:Chemical Process Instrumentation |
Lecture 32 - Temperature Measurement (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 33 - Temperature Measurement (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 34 - Temperature Measurement (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 35 - Temperature Measurement (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 36 - Temperature Measurement (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 37 - Temperature Measurement (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 38 - Temperature Measurement (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 39 - Temperature Measurement (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 40 - Temperature Measurement (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 41 - Flow Measurement |
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NOC:Chemical Process Instrumentation |
Lecture 42 - Flow Measurement (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 43 - Flow Measurement (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 44 - Flow Measurement (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 45 - Flow Measurement (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 46 - Level Measurement |
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NOC:Chemical Process Instrumentation |
Lecture 47 - Level Measurement (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 48 - Level Measurement (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 49 - Level Measurement (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 50 - Level Measurement (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 51 - Miscellaneous Measurements : Composition |
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NOC:Chemical Process Instrumentation |
Lecture 52 - Miscellaneous Measurements : Composition (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 53 - Miscellaneous Measurements : Composition (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 54 - Miscellaneous Measurements : Composition (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 55 - Miscellaneous Measurements : Composition (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 56 - Pneumatic Control Valve |
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NOC:Chemical Process Instrumentation |
Lecture 57 - Pneumatic Control Valve (Continued...) |
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NOC:Chemical Process Instrumentation |
Lecture 58 - Pneumatic Control Valve (Continued...) and P&ID |
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NOC:Chemical Process Instrumentation |
Lecture 59 - GATE Questions |
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NOC:Chemical Process Instrumentation |
Lecture 60 - GATE Questions (Continued...) |
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NOC:Optimization in Chemical Engineering |
Lecture 1 - Introduction to Optimization |
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NOC:Optimization in Chemical Engineering |
Lecture 2 - Introduction to Optimization (Continued...) |
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NOC:Optimization in Chemical Engineering |
Lecture 3 - Introduction to Optimization (Continued...) |
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NOC:Optimization in Chemical Engineering |
Lecture 4 - Introduction of Optimization (Continued...) |
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NOC:Optimization in Chemical Engineering |
Lecture 5 - Introduction of Optimization (Continued...) |
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NOC:Optimization in Chemical Engineering |
Lecture 6 - Optimization Problem Formulation |
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NOC:Optimization in Chemical Engineering |
Lecture 7 - Optimization Problem Formulation (Continued...) |
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NOC:Optimization in Chemical Engineering |
Lecture 8 - Optimization Problem Formulation (Continued...) |
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NOC:Optimization in Chemical Engineering |
Lecture 9 - Optimization Problem Formulation (Continued...) |
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NOC:Optimization in Chemical Engineering |
Lecture 10 - Optimization Problem Formulation (Continued...) |
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NOC:Optimization in Chemical Engineering |
Lecture 11 - Basic Concepts of Optimization - I |
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NOC:Optimization in Chemical Engineering |
Lecture 12 - Basic Concepts of Optimization - I (Continued...) |
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NOC:Optimization in Chemical Engineering |
Lecture 13 - Basic Concepts of Optimization - I (Continued...) |
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NOC:Optimization in Chemical Engineering |
Lecture 14 - Basic Concepts of Optimization - I (Continued...) |
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NOC:Optimization in Chemical Engineering |
Lecture 15 - Basic Concepts of Optimization - I (Continued...) |
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NOC:Optimization in Chemical Engineering |
Lecture 16 - Basic Concepts of Optimization - II |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 17 - Basic Concepts of Optimization - II (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 18 - Basic Concepts of Optimization - II (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 19 - Basic Concepts of Optimization - II (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 20 - Basic Concepts of Optimization - II (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 21 - Unconstrained Single Variable Optimization: Methods and Applications (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 22 - Unconstrained Single Variable Optimization: Methods and Applications (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 23 - Unconstrained Single Variable Optimization: Methods and Applications (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 24 - Unconstrained Single Variable Optimization: Methods and Applications (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 25 - Unconstrained Single Variable Optimization: Methods and Applications (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 26 - Unconstrained Multivariable Optimization: Direct Search Methods |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 27 - Unconstrained Multivariable Optimization: Direct Search Methods (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 28 - Unconstrained Multivariable Optimization: Direct Search Methods (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 29 - Unconstrained Multivariable Optimization: Direct Search Methods (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 30 - Unconstrained Multivariable Optimization: Direct Search Methods (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 31 - Unconstrained Multivariable Optimization: Gradient Based Methods |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 32 - Unconstrained Multivariable Optimization: Gradient Based Methods (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 33 - Unconstrained Multivariable Optimization: Gradient Based Methods (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 34 - Unconstrained Multivariable Optimization: Gradient Based Methods (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 35 - Unconstrained Multivariable Optimization: Gradient Based Methods (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 36 - Introduction to Linear Programming |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 37 - Introduction to Linear Programming (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 38 - Introduction to Linear Programming (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 39 - Introduction to Linear Programming (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 40 - Introduction to Linear Programming (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 41 - Linear Programming - The Simplex Method |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 42 - Linear Programming - The Simplex Method (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 43 - Linear Programming - The Simplex Method (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 44 - Linear Programming - The Simplex Method (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 45 - Linear Programming - The Simplex Method (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 46 - Constrained Nonlinear Programming |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 47 - Constrained Nonlinear Programming (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 48 - Constrained Nonlinear Programming (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 49 - Constrained Nonlinear Programming (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 50 - Constrained Nonlinear Programming (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 51 - Applications of Optimization |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 52 - Applications of Optimization (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 53 - Applications of Optimization (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 54 - Applications of Optimization (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 55 - Applications of Optimization (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 56 - Software Tools for Optimization |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 57 - Software Tools for Optimization (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 58 - Software Tools for Optimization (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 59 - Software Tools for Optimization (Continued...) |
Link |
NOC:Optimization in Chemical Engineering |
Lecture 60 - Software Tools for Optimization (Continued...) |
Link |
NOC:Heat Transfer (2018) |
Lecture 1 - Introduction to Heat Transfer |
Link |
NOC:Heat Transfer (2018) |
Lecture 2 - Introduction to Heat Transfer |
Link |
NOC:Heat Transfer (2018) |
Lecture 3 - Heat Diffusion Equation |
Link |
NOC:Heat Transfer (2018) |
Lecture 4 - Relevant Boundary Conditions in Conduction |
Link |
NOC:Heat Transfer (2018) |
Lecture 5 - One Dimensional Steady State Conduction |
Link |
NOC:Heat Transfer (2018) |
Lecture 6 - Temperature Distribution in Radial Systems |
Link |
NOC:Heat Transfer (2018) |
Lecture 7 - Tutorial Problem on Critical Insulation Thickness |
Link |
NOC:Heat Transfer (2018) |
Lecture 8 - Heat Source Systems |
Link |
NOC:Heat Transfer (2018) |
Lecture 9 - Tutorial Problems of Heat Generating Systems |
Link |
NOC:Heat Transfer (2018) |
Lecture 10 - Transient Conduction |
Link |
NOC:Heat Transfer (2018) |
Lecture 11 - Lumped Capacitance (Continued...) and Tutorial Problem |
Link |
NOC:Heat Transfer (2018) |
Lecture 12 - Transient heat Conduction |
Link |
NOC:Heat Transfer (2018) |
Lecture 13 - Transient Conduction - Heisler Chart |
Link |
NOC:Heat Transfer (2018) |
Lecture 14 - Heat Transfer from Extended Surface |
Link |
NOC:Heat Transfer (2018) |
Lecture 15 - Fins and General Conduction Analysis |
Link |
NOC:Heat Transfer (2018) |
Lecture 16 - Fundamentals of Convection |
Link |
NOC:Heat Transfer (2018) |
Lecture 17 - Equations of Change for Non-isothermal Systems |
Link |
NOC:Heat Transfer (2018) |
Lecture 18 - Equations of Change for Non-isothermal Systems (Continued...) |
Link |
NOC:Heat Transfer (2018) |
Lecture 19 - Tutorial on the Application of Energy Equation |
Link |
NOC:Heat Transfer (2018) |
Lecture 20 - Nusselt Number of a heated sphere in Stagnant Air |
Link |
NOC:Heat Transfer (2018) |
Lecture 21 - Momentum and Thermal Boundary Layers |
Link |
NOC:Heat Transfer (2018) |
Lecture 22 - The Flat Plate in Parallel Flow - Hydrodynamics and Momentum Transfer |
Link |
NOC:Heat Transfer (2018) |
Lecture 23 - The Flat Plate in Parallel Flow - Heat Transfer |
Link |
NOC:Heat Transfer (2018) |
Lecture 24 - The Effects of Turbulence |
Link |
NOC:Heat Transfer (2018) |
Lecture 25 - Turbulent External Flow |
Link |
NOC:Heat Transfer (2018) |
Lecture 26 - Heat and Momentum Transfer Analogy |
Link |
NOC:Heat Transfer (2018) |
Lecture 27 - Mixed Boundary Layers |
Link |
NOC:Heat Transfer (2018) |
Lecture 28 - Tutorial Problem on External Flow and Behavior of Heat Transfer Coefficient |
Link |
NOC:Heat Transfer (2018) |
Lecture 29 - Tutorial Problem in External Flow and Convection |
Link |
NOC:Heat Transfer (2018) |
Lecture 30 - Tutorial Problem in External Flow and Convection |
Link |
NOC:Heat Transfer (2018) |
Lecture 31 - Tutorial Problem in External Flow and Convection |
Link |
NOC:Heat Transfer (2018) |
Lecture 32 - Internal Flow Heat Transfer |
Link |
NOC:Heat Transfer (2018) |
Lecture 33 - Internal Flow Heat Transfer (Continued...) |
Link |
NOC:Heat Transfer (2018) |
Lecture 34 - Internal Flow Heat Transfer (Continued...) |
Link |
NOC:Heat Transfer (2018) |
Lecture 35 - Internal Flow and Heat Transfer (Continued...) |
Link |
NOC:Heat Transfer (2018) |
Lecture 36 - Internal Flow and Heat Transfer (Tutorial) |
Link |
NOC:Heat Transfer (2018) |
Lecture 37 - Free Convection |
Link |
NOC:Heat Transfer (2018) |
Lecture 38 - Heat Exchangers |
Link |
NOC:Heat Transfer (2018) |
Lecture 39 - Heat Exchangers |
Link |
NOC:Heat Transfer (2018) |
Lecture 40 - Heat Exchangers |
Link |
NOC:Heat Transfer (2018) |
Lecture 41 - Tutorial Problems on Heat Exchanger Calculations |
Link |
NOC:Heat Transfer (2018) |
Lecture 42 - Tutorial Problem on LMTD and Dirt Factor |
Link |
NOC:Heat Transfer (2018) |
Lecture 43 - Epsilon-NTU Method - 1 |
Link |
NOC:Heat Transfer (2018) |
Lecture 44 - Epsilon-NTU Method - 1 (Continued...) |
Link |
NOC:Heat Transfer (2018) |
Lecture 45 - Tutorial Problems on Epsilon - NTU Methods |
Link |
NOC:Heat Transfer (2018) |
Lecture 46 - Tutorial Problems on Epsilon - NTU Methods |
Link |
NOC:Heat Transfer (2018) |
Lecture 47 - Boiling, Evaporation and Evaporators |
Link |
NOC:Heat Transfer (2018) |
Lecture 48 - Radiation - Fundamental Concepts |
Link |
NOC:Heat Transfer (2018) |
Lecture 49 - Spectral Blackbody Radiation Intesity and Emissive Power |
Link |
NOC:Heat Transfer (2018) |
Lecture 50 - Wein's Law, Stephen Boltzmann Law, Blackbody Radiation Function, Tutorial Problem |
Link |
NOC:Heat Transfer (2018) |
Lecture 51 - Kirchhoff's Law |
Link |
NOC:Heat Transfer (2018) |
Lecture 52 - Tutorial on Emissivity, Absroptivity and Blackbody Radiation Functions |
Link |
NOC:Heat Transfer (2018) |
Lecture 53 - Solar Radiation and the Concept of View Factors |
Link |
NOC:Heat Transfer (2018) |
Lecture 54 - Determination of View Factors |
Link |
NOC:Heat Transfer (2018) |
Lecture 55 - Radiosity Blackbody Radiation Exchanges, Relevant Problem |
Link |
NOC:Heat Transfer (2018) |
Lecture 56 - Network Method for Radiation Exchange in an Enclosure |
Link |
NOC:Heat Transfer (2018) |
Lecture 57 - Network Method - Two and Three Zone Enclosures |
Link |
NOC:Heat Transfer (2018) |
Lecture 58 - Tutorial Problem on Radiation Exhange using the Network Method |
Link |
NOC:Heat Transfer (2018) |
Lecture 59 - Radiation Shields |
Link |
NOC:Heat Transfer (2018) |
Lecture 60 - Gaseous Radiation (Participating Medium) |
Link |
NOC:Flow through Porous Media |
Lecture 1 - Introduction (Definition Of Porous Media) |
Link |
NOC:Flow through Porous Media |
Lecture 2 - Introduction (Conceptual Flow Models) |
Link |
NOC:Flow through Porous Media |
Lecture 3 - Introduction (Applications) |
Link |
NOC:Flow through Porous Media |
Lecture 4 - Mass Continuity (Introduction) |
Link |
NOC:Flow through Porous Media |
Lecture 5 - Mass Continuity (Cartesian Coordinates) |
Link |
NOC:Flow through Porous Media |
Lecture 6 - Mass Continuity (Cylindrical Coordinates) |
Link |
NOC:Flow through Porous Media |
Lecture 7 - Mass Continuity (Radial Flow) |
Link |
NOC:Flow through Porous Media |
Lecture 8 - Mass Continuity (Non-Uniform Permeability) |
Link |
NOC:Flow through Porous Media |
Lecture 9 - Mass Continuity (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 10 - Mass Continuity (Streamlines And Potential Lines) |
Link |
NOC:Flow through Porous Media |
Lecture 11 - Mass Continuity (Elementary Flow) |
Link |
NOC:Flow through Porous Media |
Lecture 12 - Mass Continuity (Source/Sink) |
Link |
NOC:Flow through Porous Media |
Lecture 13 - Mass Continuity (Superposition Of Elementary Flow) |
Link |
NOC:Flow through Porous Media |
Lecture 14 - Mass Continuity (Superposition Of Elementary Flow) (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 15 - Transport Mechanisms (Introduction) |
Link |
NOC:Flow through Porous Media |
Lecture 16 - Transport Mechanisms (Combined Mode) |
Link |
NOC:Flow through Porous Media |
Lecture 17 - Transport Mechanisms (Adsorption/Pore Condensation) |
Link |
NOC:Flow through Porous Media |
Lecture 18 - Transport Mechanisms (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 19 - Flow Equation (Introduction) |
Link |
NOC:Flow through Porous Media |
Lecture 20 - Flow Equations (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 21 - Flow Equations (Viscous Flow in Capillary) |
Link |
NOC:Flow through Porous Media |
Lecture 22 - Flow Equations (Packed Bed) |
Link |
NOC:Flow through Porous Media |
Lecture 23 - Flow Equations (Fluidized Bed) |
Link |
NOC:Flow through Porous Media |
Lecture 24 - Miscible Displacement (Uniform Velocity Over Capillary Cross-Section) |
Link |
NOC:Flow through Porous Media |
Lecture 25 - Miscible Displacement (Laminar Flow in Capillary) |
Link |
NOC:Flow through Porous Media |
Lecture 26 - Miscible Displacement (Movement of Concentration Pulse) |
Link |
NOC:Flow through Porous Media |
Lecture 27 - Miscible Displacement (Step Change in Concentration) |
Link |
NOC:Flow through Porous Media |
Lecture 28 - Miscible Displacement (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 29 - Miscible Displacement (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 30 - Miscible Displacement (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 31 - Miscible Displacement (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 32 - Miscible Displacement (Fractured Porous Media) |
Link |
NOC:Flow through Porous Media |
Lecture 33 - Miscible Displacement (Viscous Front) |
Link |
NOC:Flow through Porous Media |
Lecture 34 - Immiscible Flow |
Link |
NOC:Flow through Porous Media |
Lecture 35 - Immiscible Flow (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 36 - Immiscible Flow (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 37 - Immiscible Flow (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 38 - Immiscible Flow (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 39 - Immiscible Flow (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 40 - Immiscible Flow (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 41 - IMMISCIBLE FLOW (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 42 - Immiscible Flow (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 43 - Immiscible Flow (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 44 - Immiscible Flow (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 45 - Immiscible Flow (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 46 - Immiscible Flow (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 47 - Interception Of Suspended Solids |
Link |
NOC:Flow through Porous Media |
Lecture 48 - Interception Of Suspended Solids (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 49 - Interception Of Suspended Solids (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 50 - Interception Of Suspended Solids (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 51 - Interception Of Suspended Solids (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 52 - Interception Of Suspended Solids (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 53 - Deformable Porous Media |
Link |
NOC:Flow through Porous Media |
Lecture 54 - Deformable Porous Media (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 55 - Deformable Porous Media (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 56 - Heat Transfer With Fluid Flow |
Link |
NOC:Flow through Porous Media |
Lecture 57 - Heat Transfer With Fluid Flow (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 58 - Heat Transfer With Fluid Flow (Continued...) |
Link |
NOC:Flow through Porous Media |
Lecture 59 - Characterization |
Link |
NOC:Flow through Porous Media |
Lecture 60 - Characterization (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 1 - Solid particle characterization |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 2 - Solid particle characterization (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 3 - Particle size distribution |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 4 - Particle size distribution (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 5 - Particle size distribution (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 6 - Fluid - particle mechanics |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 7 - Fluid - particle mechanics (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 8 - Fluid - particle mechanics (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 9 - Fluid - particle mechanics (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 10 - Fluid - particle mechanics (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 11 - Fluid - particle mechanics (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 12 - Fluid - particle mechanics (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 13 - Fluid - particle mechanics (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 14 - Fluid - particle mechanics (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 15 - Fluid - particle mechanics (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 16 - Flow through packed beds |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 17 - Flow through packed beds (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 18 - Flow through packed beds (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 19 - Flow through packed beds (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 20 - Flow through packed beds (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 21 - Fluidization |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 22 - Fluidization (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 23 - Fluidization (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 24 - Fluidization (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 25 - Fluidization (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 26 - Sedimentation |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 27 - Sedimentation (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 28 - Sedimentation (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 29 - Sedimentation (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 30 - Sedimentation (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 31 - Filtration |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 32 - Filtration (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 33 - Filtration (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 34 - Filtration (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 35 - Filtration (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 36 - Centrifugal Separation |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 37 - Centrifugal Separation (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 38 - Centrifugal Separation (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 39 - Centrifugal Separation (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 40 - Centrifugal Separation (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 41 - Particle size reduction |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 42 - Particle size reduction (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 43 - Particle size reduction (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 44 - Particle size reduction (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 45 - Particle size reduction (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 46 - Particle size reduction (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 47 - Particle size enlargement |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 48 - Particle size enlargement (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 49 - Particle size enlargement (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 50 - Particle size enlargement (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 51 - Fluid - solid transport |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 52 - Fluid - solid transport (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 53 - Fluid - solid transport (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 54 - Fluid - solid transport (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 55 - Fluid - solid transport (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 56 - Colloids and nanoparticles |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 57 - Colloids and nanoparticles (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 58 - Colloids and nanoparticles (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 59 - Colloids and nanoparticles (Continued...) |
Link |
NOC:Fundamentals of Particle and Fluid Solid Processing |
Lecture 60 - Colloids and nanoparticles (Continued...) |
Link |
NOC:Plant Design and Economics |
Lecture 1 - Introduction |
Link |
NOC:Plant Design and Economics |
Lecture 2 - Typical Design Steps |
Link |
NOC:Plant Design and Economics |
Lecture 3 - Flow Diagram |
Link |
NOC:Plant Design and Economics |
Lecture 4 - Flow Diagram - Mass and Energy Balance |
Link |
NOC:Plant Design and Economics |
Lecture 5 - Piping and Instrumentation Diagram |
Link |
NOC:Plant Design and Economics |
Lecture 6 - Selection of Process Equipment |
Link |
NOC:Plant Design and Economics |
Lecture 7 - Process Utilities |
Link |
NOC:Plant Design and Economics |
Lecture 8 - Plant Location |
Link |
NOC:Plant Design and Economics |
Lecture 9 - Site and Plant Layout |
Link |
NOC:Plant Design and Economics |
Lecture 10 - Heuristics in Process Synthesis and Design |
Link |
NOC:Plant Design and Economics |
Lecture 11 - Capital Investment |
Link |
NOC:Plant Design and Economics |
Lecture 12 - Capital Cost Estimates |
Link |
NOC:Plant Design and Economics |
Lecture 13 - Cost Components in Capital Investments |
Link |
NOC:Plant Design and Economics |
Lecture 14 - Methods of Capital Cost Estimates |
Link |
NOC:Plant Design and Economics |
Lecture 15 - Estimation of Total Product Cost |
Link |
NOC:Plant Design and Economics |
Lecture 16 - Different Types of Interest |
Link |
NOC:Plant Design and Economics |
Lecture 17 - Continuous Interest, Cash Flow Diagram, Time Value of Money |
Link |
NOC:Plant Design and Economics |
Lecture 18 - Uniform Cash Flows and Continuous Flows |
Link |
NOC:Plant Design and Economics |
Lecture 19 - Income Tax and Depreciation |
Link |
NOC:Plant Design and Economics |
Lecture 20 - Depreciation |
Link |
NOC:Plant Design and Economics |
Lecture 21 - Cumulative Cash Flow and Profitability Standards |
Link |
NOC:Plant Design and Economics |
Lecture 22 - Profitability Analysis |
Link |
NOC:Plant Design and Economics |
Lecture 23 - Profitability Analysis (Continued...) |
Link |
NOC:Plant Design and Economics |
Lecture 24 - Profitability Analysis (Continued...) |
Link |
NOC:Plant Design and Economics |
Lecture 25 - Alternative Investment, Replacement and Sensitivity Analysis |
Link |
NOC:Plant Design and Economics |
Lecture 26 - Introduction to Process Synthesis |
Link |
NOC:Plant Design and Economics |
Lecture 27 - Hierarchical Approach to Process Synthesis - I |
Link |
NOC:Plant Design and Economics |
Lecture 28 - Hierarchical Approach to Process Synthesis - II |
Link |
NOC:Plant Design and Economics |
Lecture 29 - Hierarchical Approach to Process Synthesis - III |
Link |
NOC:Plant Design and Economics |
Lecture 30 - Hierarchical Approach to Process Synthesis - IV |
Link |
NOC:Plant Design and Economics |
Lecture 31 - Basic Reactor Principles |
Link |
NOC:Plant Design and Economics |
Lecture 32 - Reactor Synthesis for Complex Reactions by Attainable Region: Fundamentals |
Link |
NOC:Plant Design and Economics |
Lecture 33 - Reactor Synthesis for Complex Reactions by Attainable Region: Example-1 |
Link |
NOC:Plant Design and Economics |
Lecture 34 - Reactor Synthesis for Complex Reactions by Attainable Region: Example-2 |
Link |
NOC:Plant Design and Economics |
Lecture 35 - General Procedure for Reactor Design and Cost Estimation |
Link |
NOC:Plant Design and Economics |
Lecture 36 - Introduction to Separation Systems |
Link |
NOC:Plant Design and Economics |
Lecture 37 - Selection Criteria for Separation Processes |
Link |
NOC:Plant Design and Economics |
Lecture 38 - Design of Multi-component Distillation Column: Short Cut Method |
Link |
NOC:Plant Design and Economics |
Lecture 39 - Design of Multi-component Distillation Column: Short Cut Method - Example |
Link |
NOC:Plant Design and Economics |
Lecture 40 - Introduction to Sequencing of Ordinary Distillation Columns |
Link |
NOC:Plant Design and Economics |
Lecture 41 - Sequences for Simple Nonintegrated Distillation Columns |
Link |
NOC:Plant Design and Economics |
Lecture 42 - Distillation Sequencing using Columns with Sidestreams |
Link |
NOC:Plant Design and Economics |
Lecture 43 - Distillation Sequencing using Thermal Coupling |
Link |
NOC:Plant Design and Economics |
Lecture 44 - Azeotropic Distillation: Residue Curve Maps |
Link |
NOC:Plant Design and Economics |
Lecture 45 - Azeotropic Distillation Methods and Cost Estimation |
Link |
NOC:Plant Design and Economics |
Lecture 46 - Introduction to Pinch Technology |
Link |
NOC:Plant Design and Economics |
Lecture 47 - Composite Curves |
Link |
NOC:Plant Design and Economics |
Lecture 48 - The Problem Table Method |
Link |
NOC:Plant Design and Economics |
Lecture 49 - The Heat Recovery Pinch and The Grand Composite Curve |
Link |
NOC:Plant Design and Economics |
Lecture 50 - Heat Exchanger Network Design |
Link |
NOC:Plant Design and Economics |
Lecture 51 - Introduction |
Link |
NOC:Plant Design and Economics |
Lecture 52 - Fires and Explosions: Flammability Characteristics |
Link |
NOC:Plant Design and Economics |
Lecture 53 - Fires and Explosions: Prevention |
Link |
NOC:Plant Design and Economics |
Lecture 54 - Toxic Release, Hazard Identification and MSDS |
Link |
NOC:Plant Design and Economics |
Lecture 55 - Inherently Safer Design |
Link |
NOC:Plant Design and Economics |
Lecture 56 - Optimality Criteria for Unconstrained Functions |
Link |
NOC:Plant Design and Economics |
Lecture 57 - Examples |
Link |
NOC:Plant Design and Economics |
Lecture 58 - Equality Constrained Problems: Langrange Multipliers |
Link |
NOC:Plant Design and Economics |
Lecture 59 - Linear Programming Problems |
Link |
NOC:Plant Design and Economics |
Lecture 60 - Batch Process Scheduling |
Link |
NOC:Material and Energy Balance Computations |
Lecture 1 - Introduction to Engineering Calculations |
Link |
NOC:Material and Energy Balance Computations |
Lecture 2 - Introduction to Engineering Calculations (Continued...) |
Link |
NOC:Material and Energy Balance Computations |
Lecture 3 - Introduction to Engineering Calculations (Continued...) |
Link |
NOC:Material and Energy Balance Computations |
Lecture 4 - Introduction to Processes and Process Variables |
Link |
NOC:Material and Energy Balance Computations |
Lecture 5 - Introduction to Processes and Process Variables (Continued...) |
Link |
NOC:Material and Energy Balance Computations |
Lecture 6 - Fundamentals of Material Balance |
Link |
NOC:Material and Energy Balance Computations |
Lecture 7 - Fundamentals of Material Balance (Continued...) |
Link |
NOC:Material and Energy Balance Computations |
Lecture 8 - Fundamentals of Material Balance (Continued...) |
Link |
NOC:Material and Energy Balance Computations |
Lecture 9 - Fundamentals of Material Balance (Continued...) |
Link |
NOC:Material and Energy Balance Computations |
Lecture 10 - Material Balance of Single-unit |
Link |
NOC:Material and Energy Balance Computations |
Lecture 11 - Material Balance of Multiple Units |
Link |
NOC:Material and Energy Balance Computations |
Lecture 12 - Material Balance of Multiple Units (Continued...) |
Link |
NOC:Material and Energy Balance Computations |
Lecture 13 - Material Balance of Multiple Units (Continued...) |
Link |
NOC:Material and Energy Balance Computations |
Lecture 14 - Material Balance of Multiple Units (Continued...) |
Link |
NOC:Material and Energy Balance Computations |
Lecture 15 - Material Balance of Multiple Units - Recycle |
Link |
NOC:Material and Energy Balance Computations |
Lecture 16 - Material Balance of Recycle and Bypass Units |
Link |
NOC:Material and Energy Balance Computations |
Lecture 17 - Material Balance of Recycle and Bypass Units (Continued...) |
Link |
NOC:Material and Energy Balance Computations |
Lecture 18 - Introduction |
Link |
NOC:Material and Energy Balance Computations |
Lecture 19 - Introduction (Continued...) |
Link |
NOC:Material and Energy Balance Computations |
Lecture 20 - Introduction (Continued...) |
Link |
NOC:Material and Energy Balance Computations |
Lecture 21 - Multiple reactions and reactive process balance |
Link |
NOC:Material and Energy Balance Computations |
Lecture 22 - Reactive process balance |
Link |
NOC:Material and Energy Balance Computations |
Lecture 23 - Multiple reactions and reactive process balance |
Link |
NOC:Material and Energy Balance Computations |
Lecture 24 - Reactive process balance (Continued...) |
Link |
NOC:Material and Energy Balance Computations |
Lecture 25 - Reactive process balance (Continued...) |
Link |
NOC:Material and Energy Balance Computations |
Lecture 26 - Combustion reactions balance |
Link |
NOC:Material and Energy Balance Computations |
Lecture 27 - Combustion reactions balance (Continued...) |
Link |
NOC:Material and Energy Balance Computations |
Lecture 28 - Single-phase systems |
Link |
NOC:Material and Energy Balance Computations |
Lecture 29 - Single phase systems (Continued...) |
Link |
NOC:Material and Energy Balance Computations |
Lecture 30 - Single-phase problems and concept of multi-phase system |
Link |
NOC:Material and Energy Balance Computations |
Lecture 31 - Introduction to Energy Balance - I |
Link |
NOC:Material and Energy Balance Computations |
Lecture 32 - Introduction to Energy Balance - II |
Link |
NOC:Material and Energy Balance Computations |
Lecture 33 - Introduction to Energy Balance - III |
Link |
NOC:Material and Energy Balance Computations |
Lecture 34 - Introduction to Energy Balance - IV |
Link |
NOC:Material and Energy Balance Computations |
Lecture 35 - Introduction to Energy Balance - V |
Link |
NOC:Material and Energy Balance Computations |
Lecture 36 - Introduction to Energy Balance - VI |
Link |
NOC:Material and Energy Balance Computations |
Lecture 37 - Introduction to Energy Balance - VII |
Link |
NOC:Material and Energy Balance Computations |
Lecture 38 - Introduction to Energy Balance - VIII |
Link |
NOC:Material and Energy Balance Computations |
Lecture 39 - Introduction to Energy Balance - IX |
Link |
NOC:Material and Energy Balance Computations |
Lecture 40 - Introduction to Energy Balance - X |
Link |
NOC:Material and Energy Balance Computations |
Lecture 41 - Introduction to Energy Balance - XI |
Link |
NOC:Material and Energy Balance Computations |
Lecture 42 - Estimation of Physical Properties - I |
Link |
NOC:Material and Energy Balance Computations |
Lecture 43 - Estimation of Physical Properties - II |
Link |
NOC:Material and Energy Balance Computations |
Lecture 44 - Estimation of Physical Properties - III |
Link |
NOC:Material and Energy Balance Computations |
Lecture 45 - Tutorial - I |
Link |
NOC:Material and Energy Balance Computations |
Lecture 46 - Tutorial - II |
Link |
NOC:Material and Energy Balance Computations |
Lecture 47 - Tutorial - III |
Link |
NOC:Material and Energy Balance Computations |
Lecture 48 - Tutorial - IV |
Link |
NOC:Material and Energy Balance Computations |
Lecture 49 - Estimation of Physical Parameters - IV |
Link |
NOC:Material and Energy Balance Computations |
Lecture 50 - Estimation of Physical Parameters - V |
Link |
NOC:Material and Energy Balance Computations |
Lecture 51 - Energy Balance with Chemical Reactions - I |
Link |
NOC:Material and Energy Balance Computations |
Lecture 52 - Energy Balance with Chemical Reactions - II |
Link |
NOC:Material and Energy Balance Computations |
Lecture 53 - Energy Balance with Chemical Reactions - III |
Link |
NOC:Material and Energy Balance Computations |
Lecture 54 - Energy Balance with Chemical Reactions - IV |
Link |
NOC:Material and Energy Balance Computations |
Lecture 55 - Energy Balance with Chemical Reactions - V |
Link |
NOC:Material and Energy Balance Computations |
Lecture 56 - Energy Balance with Chemical Reactions - VI |
Link |
NOC:Material and Energy Balance Computations |
Lecture 57 - Humidity and Psychrometric Chart - I |
Link |
NOC:Material and Energy Balance Computations |
Lecture 58 - Humidity and Psychrometric Chart - II |
Link |
NOC:Material and Energy Balance Computations |
Lecture 59 - Humidity and Psychrometric Chart - III |
Link |
NOC:Material and Energy Balance Computations |
Lecture 60 - Humidity and Psychrometric Chart - IV |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 1 - Introduction |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 2 - Introduction (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 3 - Optimum design and design documentation |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 4 - Introduction to Mass Transfer Processes |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 5 - Phase Equillibrium |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 6 - Phase Equillibrium (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 7 - Phase Equillibrium (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 8 - Distillation |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 9 - Flash Distillation and Design problem |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 10 - Fractionation |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 11 - Fractionation (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 12 - McCabe-Thiele construction for number of ideal stages |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 13 - Optimum Design |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 14 - Multi-component fractionation design |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 15 - Batch Distillation |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 16 - Practical issues in desigining distillation processes |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 17 - Design of absorbers |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 18 - Design of absorbers (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 19 - Design of absorbers (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 20 - Tower and Tower internals |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 21 - Tower and Tower internals (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 22 - Tower and Tower internals (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 23 - Sieve Tray Design |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 24 - Sieve Tray Design (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 25 - Sieve Tray Design (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 26 - Bubble Cap Tray Design |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 27 - Bubble Cap Tray Design (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 28 - Bubble Cap Tray Design (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 29 - Tower and Tower internals (Packed Tower Design) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 30 - Tower and Tower internals (Packed Tower Design) (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 31 - Adsorption |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 32 - Packed bed adsorption |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 33 - Packed bed adsorber design |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 34 - Packed bed adsorber design (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 35 - Liquid-liquid extraction (LLE) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 36 - Liquid-liquid extraction (L2) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 37 - Liquid-liquid extraction (L3) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 38 - Liquid-liquid extraction (L4) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 39 - Liquid-liquid extraction (L5) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 40 - Design of Mass Transfer Processes (Review) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 41 - Design of Heat Transfer Processes - Introduction |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 42 - Double Pipe Heat exchanger |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 43 - Double Pipe Heat exchanger (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 44 - Double Pipe Heat exchanger (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 45 - Design of Shell and Tube Heat Exchangers - a general overview |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 46 - Design of Shell and Tube Heat Exchangers - a general overview (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 47 - Shell and Tube Heat Exchanger - Design |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 48 - Shell and Tube Heat Exchanger - Design |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 49 - Heat exchanger Network Analysis |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 50 - Heat exchanger Network Analysis (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 51 - Heat exchanger Network Analysis (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 52 - Heat exchanger Network Analysis (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 53 - Heat exchanger Network Analysis (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 54 - Plant Hydraulics |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 55 - Plant Hydraulics (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 56 - Plant Hydraulics (Continued...) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 57 - Plant Hydraulics (End) |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 58 - Process Vessels |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 59 - Process Instrumentation and Control |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 60 - Engineered Safety |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 61 - Process Utilities |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 62 - Process Design using Simulators |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 63 - Process Packages |
Link |
NOC:Principles and Practices of Process Equipment and Plant Design |
Lecture 64 - Design of a 10 TPD Mono-nitrotoluene plant |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 1 - Introduction |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 2 - Introduction (Continued...) |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 3 - Constitutive relations |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 4 - Constitutive relations - Mass transfer and thermodynamics |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 5 - Process diagrams |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 6 - Special functions |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 7 - Partial differential equations |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 8 - Partial differential equations - Separation of variables |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 9 - PDE - Separation of variables (Continued...) |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 10 - PDE - Integral transforms |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 11 - Numerical techniques of solving PDE - Discretization |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 12 - Stability of finite difference schemes |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 13 - Numerical solution of PDE - Method of lines |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 14 - Numerical solution of implicit formulation - Tridiagonal matrix |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 15 - Numerical solution of PDE - Finite volume method |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 16 - Perturbation methods |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 17 - Asymptotics |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 18 - Matched Asymptotics |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 19 - Stability of dynamical systems |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 20 - Stability of dynamical systems (Continued...) |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 21 - Modelling transport phenomena problems - Part 1 |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 22 - Modelling transport phenomena problems - Part 2 |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 23 - Modelling transport phenomena problems - Part 3 |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 24 - Modelling transport phenomena problems - Part 4 |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 25 - Modelling transport phenomena problems - Part 5 |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 26 - Modelling reaction systems - Packed bed catalytic reactor |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 27 - Modelling intraparticle transport and catalysis |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 28 - Modelling pore diffusion and reaction |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 29 - Modelling enzymatic reactions |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 30 - Demonstration of COMSOL Multiphysics |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 31 - Modelling of multistage distillation process |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 32 - FUG method of stage calculations |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 33 - MESH equations and DOF analysis |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 34 - Tearing method |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 35 - Bubble point method stage calculations |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 36 - Simultaneous correction method |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 37 - Block tridiagonal matrix |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 38 - Simple binary batch distillation |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 39 - Multistage batch distillation |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 40 - Heat exchanger network design pinch analysis |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 41 - Pinch point temperature |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 42 - Heat exchanger network synthesis |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 43 - Solving a distillation column using Aspen plus |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 44 - Solving two unit operations using Aspen Plus |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 45 - Solving multiple units using Aspen Plus |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 46 - Dispersed phase modelling - Introduction |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 47 - Population balance equation |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 48 - Dispersed phase modelling - Breakage process |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 49 - Drop size distribution in lean mixtures |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 50 - Mass transfer in lean liquid-liquid dispersion |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 51 - Dispersed phase modelling - Aggregation |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 52 - Dispersed phase modelling - Aerosol dynamics |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 53 - Dispersed phase modelling - Aerosol dynamics (Continued...) |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 54 - Solution of the population balance equation |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 55 - Numerical solution of the population balance equation |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 56 - Kinetic monte carlo simulation |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 57 - Response surface methodology |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 58 - Design of experiments |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 59 - Artificial neural network |
Link |
NOC:Mathematical Modelling and Simulation of Chemical Engineering Process |
Lecture 60 - Supervised training |
Link |
NOC:Advanced Process Dynamics |
Lecture 1 - Introduction and motivation |
Link |
NOC:Advanced Process Dynamics |
Lecture 2 - Dynamics of linear first order autonomous systems |
Link |
NOC:Advanced Process Dynamics |
Lecture 3 - Dynamics of linear first order autonomous systems (Continued...) |
Link |
NOC:Advanced Process Dynamics |
Lecture 4 - Lumped parameter analysis of cooling of a body |
Link |
NOC:Advanced Process Dynamics |
Lecture 5 - Lumped parameter analysis of cooling of a body (Continued...) |
Link |
NOC:Advanced Process Dynamics |
Lecture 6 - Introduction to higher order systems |
Link |
NOC:Advanced Process Dynamics |
Lecture 7 - Phase plane analysis of linear autonomous second order systems |
Link |
NOC:Advanced Process Dynamics |
Lecture 8 - Phase plane analysis of linear autonomous second order systems (Continued...) |
Link |
NOC:Advanced Process Dynamics |
Lecture 9 - Analysis of a free spring-mass system |
Link |
NOC:Advanced Process Dynamics |
Lecture 10 - Analysis of a free spring-mass system (Continued...) |
Link |
NOC:Advanced Process Dynamics |
Lecture 11 - Dynamics of non-autonomous systems |
Link |
NOC:Advanced Process Dynamics |
Lecture 12 - Similarity solution for non-autonomous higher order dynamics |
Link |
NOC:Advanced Process Dynamics |
Lecture 13 - Similarity solution for non-autonomous higher order dynamics (Continued...) |
Link |
NOC:Advanced Process Dynamics |
Lecture 14 - Analysis of a forced spring-mass system |
Link |
NOC:Advanced Process Dynamics |
Lecture 15 - Analysis of a forced spring-mass system (Continued...) |
Link |
NOC:Advanced Process Dynamics |
Lecture 16 - Phase portraits of linear autonomous systems of order three and higher |
Link |
NOC:Advanced Process Dynamics |
Lecture 17 - Phase portraits of linear autonomous systems of order three and higher (Continued...) |
Link |
NOC:Advanced Process Dynamics |
Lecture 18 - Analysis of complex reaction systems |
Link |
NOC:Advanced Process Dynamics |
Lecture 19 - Analysis of complex reaction systems (Continued...) |
Link |
NOC:Advanced Process Dynamics |
Lecture 20 - Analysis of complex reaction systems (Continued...) |
Link |
NOC:Advanced Process Dynamics |
Lecture 21 - Introduction to non-linear systems |
Link |
NOC:Advanced Process Dynamics |
Lecture 22 - Logistic population growth model |
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NOC:Advanced Process Dynamics |
Lecture 23 - Logistic population growth model (Continued...) |
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NOC:Advanced Process Dynamics |
Lecture 24 - Logistic population growth with harvesting |
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NOC:Advanced Process Dynamics |
Lecture 25 - Logistic population growth with harvesting (Continued...) |
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NOC:Advanced Process Dynamics |
Lecture 26 - Logistic population growth with threshold population |
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NOC:Advanced Process Dynamics |
Lecture 27 - Logistic population growth with threshold population (Continued...) |
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NOC:Advanced Process Dynamics |
Lecture 28 - Analysis of population dynamics in discrete domain |
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NOC:Advanced Process Dynamics |
Lecture 29 - Analysis of fixed points and bifurcation in discrete domain |
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NOC:Advanced Process Dynamics |
Lecture 30 - Analysis of fixed points and bifurcation in discrete domain (Continued...) |
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NOC:Advanced Process Dynamics |
Lecture 31 - More on bifurcations in non-linear systems |
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NOC:Advanced Process Dynamics |
Lecture 32 - Non-linear systems in higher dimensions |
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NOC:Advanced Process Dynamics |
Lecture 33 - Reactor stability analysis |
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NOC:Advanced Process Dynamics |
Lecture 34 - Reactor stability analysis (Continued...) |
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NOC:Advanced Process Dynamics |
Lecture 35 - Reactor stability analysis (Continued...) |
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NOC:Advanced Process Dynamics |
Lecture 36 - Analysis of infectious disease dynamics |
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NOC:Advanced Process Dynamics |
Lecture 37 - Analysis of infectious disease dynamics (Continued...) |
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NOC:Advanced Process Dynamics |
Lecture 38 - Analysis of infectious disease dynamics (Continued...) |
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NOC:Advanced Process Dynamics |
Lecture 39 - Analysis of atmosphere dynamics using Lorenz equations |
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NOC:Advanced Process Dynamics |
Lecture 40 - Analysis of atmosphere dynamics using Lorenz equations (Continued...) |
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NOC:Advanced Process Dynamics |
Lecture 41 - Analysis of system dynamics in transform domain |
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NOC:Advanced Process Dynamics |
Lecture 42 - Analysis of first order system subjected to ideal forcing functions |
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NOC:Advanced Process Dynamics |
Lecture 43 - Analysis of first order system subjected to ideal forcing functions (Continued...) |
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NOC:Advanced Process Dynamics |
Lecture 44 - Analysis of response of second order systems |
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NOC:Advanced Process Dynamics |
Lecture 45 - Analysis of response of second order systems (Continued...) |
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NOC:Advanced Process Dynamics |
Lecture 46 - Analysis of (p,q) order systems |
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NOC:Advanced Process Dynamics |
Lecture 47 - Analysis of (p,q) order systems (Continued...) |
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NOC:Advanced Process Dynamics |
Lecture 48 - Analysis of multiple input - multiple output systems |
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NOC:Advanced Process Dynamics |
Lecture 49 - Block diagrams and inter-conversion of state-space and transform domain models |
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NOC:Advanced Process Dynamics |
Lecture 50 - Analysis of inverse response systems |
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NOC:Advanced Process Dynamics |
Lecture 51 - Analysis of dynamics of discrete-time systems |
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NOC:Advanced Process Dynamics |
Lecture 52 - Sampling and reconstruction of continuous signals |
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NOC:Advanced Process Dynamics |
Lecture 53 - Conversion of continuous models to discrete-time models |
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NOC:Advanced Process Dynamics |
Lecture 54 - Introduction to z-transforms |
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NOC:Advanced Process Dynamics |
Lecture 55 - z-transforms Continued |
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NOC:Advanced Process Dynamics |
Lecture 56 - Response of discrete-time systems |
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NOC:Advanced Process Dynamics |
Lecture 57 - Response of discrete-time systems (Continued...) |
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NOC:Advanced Process Dynamics |
Lecture 58 - Response of discrete-time systems (Continued...) |
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NOC:Advanced Process Dynamics |
Lecture 59 - Stability analysis in transform domain |
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NOC:Advanced Process Dynamics |
Lecture 60 - Review of the course |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 1 - A Brief Introduction to Polymers |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 2 - A Brief Introduction to Polymers (Continued...) |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 3 - Polyethylene and Polypropylene: Chemical structure and properties |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 4 - Polyethylene and Polypropylene: Chemical structure and properties (Continued...) |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 5 - Common polymerization protocol and mechanism |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 6 - Common polymerization protocol and mechanism (Continued...) |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 7 - Common polymerization protocol and mechanism: Controlled Polymerization |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 8 - Anionic living polymerization and Coordination polymerization |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 9 - Transition metal/Organometallic complexes: Unique reactions |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 10 - Metallocene compounds: Structure and Bonding |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 11 - Metallocene compounds: Structure and Bonding (Continued...) |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 12 - Bonding in Metallocene, MOT and Electronic nature |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 13 - Bonding and Electronic nature in Bent Metallocene |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 14 - Bonding and Electronic nature in Bent Metallocene (Continued...) |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 15 - General Synthetic Strategies for Metallocenes (Parallel and Bent) |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 16 - Properties and Unique Reactivities of parallel and bent Metallocenes |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 17 - Unique Reactivities of bent Metallocenes |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 18 - Unique Reactivities of bent Metallocenes (Continued...) |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 19 - Coordination polymerization of olefin and stereoregularity |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 20 - Olefin polymerization by Zeigler Natta Catalyst: Important features |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 21 - Coordination polymerization of olefin by Metallocene Catalysts: A new avenue in polyolefin catalysts |
Link |
NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 22 - Coordination polymerization of olefin by Metallocene Catalysts: A new avenue in polyolefin catalysts (Continued...) |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 23 - Symmetry of metallocene and Stereoregularity in polyolefin |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 24 - Symmetry of metallocene and Stereoregularity in polyolefin (Continued...) |
Link |
NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 25 - Metallocene to Post-metallocene catalysts for olefin polymerization |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 26 - Metallocene to Post-metallocene catalysts for olefin polymerization (Continued...) |
Link |
NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 27 - Polymerization strategy for industrial preparation of LLDPE |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 28 - Polymerization strategy for industrial preparation of LLDPE (Continued...) |
Link |
NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 29 - Metallocene and Post-metallocene Catalysts: Homogeneous to Heterogeneous and Lab to Industry |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 30 - Metallocene and Post-metallocene Catalysts: Homogeneous to Heterogeneous and Lab to Industry (Continued...) |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 31 - Depolymerization of synthetic polymers: Role of organometallic and metallocene based catalysts |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 32 - Depolymerization of synthetic polymers: Role of organometallic and metallocene based catalysts |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 33 - Metal-carbene complexes as versatile catalysts for multiple useful reactions: A short introduction |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 34 - Metal-carbene complexes as versatile catalysts for multiple useful reactions: A short introduction (Continued...) |
Link |
NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 35 - Bonding and Electronic properties in Metal-carbene complexes |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 36 - General synthetic protocol of Metal-carbene complexes |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 37 - N-Heterocyclic carbene (NHC) complex: Bonding and General synthetic protocol |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 38 - Alkene metathesis by metal-carbene catalysts and its mechanism |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 39 - Utility of metal-carbene catalysts in alkene polymerization |
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NOC:Metallocene and Metal-Carbene based Organometallic Compounds as Industrially Important Advanced Polyolefin Catalysts |
Lecture 40 - Industrially important polymers by ROMP: Recent development and scope; Overall summary of this course |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 1 - Introduction Basic Concepts and Kinematics - 1 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 2 - Kinematics - 2 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 3 - Kinematics - 3 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 4 - Kinematics - 4 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 5 - Kinematics - 5 - Shear Stress |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 6 - Kinematics - 6 and Conservation Equation - 1 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 7 - Conservation Equation - 2 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 8 - Conservation Equation - 3 - Conservation of Momentum |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 9 - Conservation Equation - 4 - Conservation of Momentum - 2 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 10 - Conservation Equation - 5 - Conservation of Momentum - 3 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 11 - Exact Solution - 1 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 12 - Exact Solution - 2 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 13 - Exact Solution - 3 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 14 - Exact Solution - 4 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 15 - Boundary Layer Analysis - 1 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 16 - Boundary Layer Analysis - 2 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 17 - Boundary Layer Analysis - 3 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 18 - Boundary Layer Analysis - 4: Blasius Solution - 1 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 19 - Boundary Layer Analysis - 4: Blasius Solution - 2 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 20 - Boundary Layer Analysis - 5: Momentum Integral Method - 1 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 21 - Boundary Layer Analysis - 6: Momentum Integral Method - 2 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 22 - Boundary Layer Analysis - 6: Momentum Integral Method - 3 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 23 - Turbulence - 1 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 24 - Turbulence - 2 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 25 - Turbulence - 3 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 26 - Turbulence - 4 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 27 - Turbulence - 5 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 28 - Turbulence - 6 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 29 - Turbulence - 7 |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 30 - Turbulence - 8 and Final Wrap-up |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 31 - Fundamentals and Mechanism of Heat Transfer |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 32 - Fundamentals and Mechanism of Heat Transfer (Continued...) |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 33 - Fundamentals and Mechanism of Heat Transfer (Continued...) |
Link |
NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 34 - Fundamentals and Mechanism of Heat Transfer (Continued...) |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 35 - Fundamentals and Mechanism of Heat Transfer (Continued...) |
Link |
NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 36 - One-dimensional Heat Conduction |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 37 - One-dimensional Heat Conduction (Continued...) |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 38 - One-dimensional Heat Conduction (Continued...) |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 39 - One-dimensional Heat Conduction (Continued...) |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 40 - One-dimensional Heat Conduction (Continued...) |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 41 - One-dimensional Heat Conduction (Continued...) |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 42 - One-dimensional Heat Conduction (Continued...) |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 43 - Transient Heat Conduction |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 44 - Transient Heat Conduction (Continued...) |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 45 - Transient Heat Conduction (Continued...) |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 46 - Forced Convection |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 47 - Forced Convection (Continued...) |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 48 - Forced Convection (Continued...) |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 49 - Forced Convection (Continued...) |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 50 - Forced Convection (Continued...) |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 51 - Internal Forced Convection |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 52 - Internal Forced Convection (Continued...) |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 53 - Internal Forced Convection (Continued...) |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 54 - Internal Forced Convection (Continued...) |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 55 - Internal Forced Convection (Continued...) |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 56 - Natural Convection |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 57 - Natural Convection (Continued...) |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 58 - Boiling and Condensation |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 59 - Radiation |
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NOC:Chemical Engineering Fluid Dynamics and Heat Transfer |
Lecture 60 - Radiation (Continued...) |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 1 - Introduction of Structure-Property-Process Correlation of Polymer, Elastomer and Composite - 1 |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 2 - Introduction of Structure-Property-Process Correlation of Polymer, Elastomer and Composite - 1 |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 3 - Introduction of Structure-Property-Process Correlation of Polymer, Elastomer and Composite - 1 |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 4 - Introduction of Structure-Property-Process Correlation of Polymer, Elastomer and Composite - 1 |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 5 - Introduction of Structure-Property-Process Correlation of Polymer, Elastomer and Composite - 1 |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 6 - Introduction of Structure-Property-Process Correlation of Polymer, Elastomer and Composite - 2 |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 7 - Introduction of Structure-Property-Process Correlation of Polymer, Elastomer and Composite - 2 |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 8 - Introduction of Structure-Property-Process Correlation of Polymer, Elastomer and Composite - 2 |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 9 - Introduction of Structure-Property-Process Correlation of Polymer, Elastomer and Composite - 2 |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 10 - Introduction of Structure-Property-Process Correlation of Polymer, Elastomer and Composite - 2 |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 11 - Identification by Chemical Techniques, Implication of National and International Standards alongwith Practical Demonstration |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 12 - Identification by Chemical Techniques, Implication of National and International Standards alongwith Practical Demonstration (Continued...) |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 13 - Identification by Chemical Techniques, Implication of National and International Standards alongwith Practical Demonstration (Continued...) |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 14 - Identification by Chemical Techniques, Implication of National and International Standards alongwith Practical Demonstration (Continued...) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 15 - Identification by Chemical Techniques, Implication of National and International Standards alongwith Practical Demonstration (Continued...) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 16 - Introduction of UV-Vis and infrared spectroscopy for polymers, elastomers and composites |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 17 - Introduction of UV-Vis and infrared spectroscopy for polymers, elastomers and composites (Continued...) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 18 - Introduction of UV-Vis and infrared spectroscopy for polymers, elastomers and composites (Continued...) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 19 - Introduction of UV-Vis and infrared spectroscopy for polymers, elastomers and composites (Continued...) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 20 - Introduction of UV-Vis and infrared spectroscopy for polymers, elastomers and composites (Continued...) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 21 - Application of infrared spectroscopy for blends, modification of polymers, compatibilizaion, coupling etc. |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 22 - Application of infrared spectroscopy for blends, modification of polymers, compatibilizaion, coupling etc. |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 23 - Application of infrared spectroscopy for blends, modification of polymers, compatibilizaion, coupling etc. |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 24 - Practical demonstration on UV-Visible spectroscopy |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 25 - Practical demonstration on FTIR spectroscopy and Sulphur analyzer |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 26 - Introduction to Photoacoustic spectroscopy (PA), Raman spectroscopy, Atomic absorption spectroscopy and Electron spin response (ESR) spectroscopy |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 27 - Introduction to Photoacoustic spectroscopy (PA), Raman spectroscopy, Atomic absorption spectroscopy and Electron spin response (ESR) spectroscopy (Continued...) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 28 - Introduction to Photoacoustic spectroscopy (PA), Raman spectroscopy, Atomic absorption spectroscopy and Electron spin response (ESR) spectroscopy (Continued...) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 29 - Introduction to Photoacoustic spectroscopy (PA), Raman spectroscopy, Atomic absorption spectroscopy and Electron spin response (ESR) spectroscopy (Continued...) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 30 - Introduction to Photoacoustic spectroscopy (PA), Raman spectroscopy, Atomic absorption spectroscopy and Electron spin response (ESR) spectroscopy (Continued...) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 31 - NMR Spectroscopy- principles and fundamentals. Application of NMR in polymer, elastomer and composites |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 32 - NMR Spectroscopy- principles and fundamentals. Application of NMR in polymer, elastomer and composites (Continued...) |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 33 - NMR Spectroscopy- principles and fundamentals. Application of NMR in polymer, elastomer and composites (Continued...) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 34 - NMR Spectroscopy- principles and fundamentals. Application of NMR in polymer, elastomer and composites (Continued...) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 35 - NMR Spectroscopy- principles and fundamentals. Application of NMR in polymer, elastomer and composites (Continued...) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 36 - Thermal analysis techniques and application in polymer, elastomer and composites |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 37 - Thermal analysis techniques and application in polymer, elastomer and composites (Continued...) |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 38 - Thermal analysis techniques and application in polymer, elastomer and composites (Continued...) |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 39 - Practical demostration on TGA, DSC and DMA |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 40 - XRD, XPS and XRF. Principles, Fundamentals and Application in Polymer, Elastomer and Composites |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 41 - XRD, XPS and XRF. Principles, Fundamentals and Application in Polymer, Elastomer and Composites (Continued...) |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 42 - XRD, XPS and XRF. Principles, Fundamentals and Application in Polymer, Elastomer and Composites (Continued...) |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 43 - XRD, XPS and XRF. Principles, Fundamentals and Application in Polymer, Elastomer and Composites (Continued...) |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 44 - XRD, XPS and XRF. Principles, Fundamentals and Application in Polymer, Elastomer and Composites (Continued...) |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 45 - Introduction to microscopy (Optical, AFM) with special reference to electron microscopy (SEM, FESEM and HRTEM) |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 46 - Introduction to microscopy (Optical, AFM) with special reference to electron microscopy (SEM, FESEM and HRTEM) (Continued...) |
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NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 47 - Introduction to microscopy (Optical, AFM) with special reference to electron microscopy (SEM, FESEM and HRTEM) (Continued...) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 48 - Introduction to microscopy (Optical, AFM) with special reference to electron microscopy (SEM, FESEM and HRTEM) (Continued...) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 49 - Introduction to microscopy (Optical, AFM) with special reference to electron microscopy (SEM, FESEM and HRTEM) (Continued...) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 50 - Applications of microscopy in polymers, elastomers and composites |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 51 - Applications of microscopy in polymers, elastomers and composites (Continued...) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 52 - Practical demonstration on optical microscopy |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 53 - Practical demonstration on atomic force microscopy (AFM) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 54 - Practical demonstration on image processing using standard software (Image) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 55 - Chromatography, DETA, Quantification from Rate Dependent Methods, Reverse Engineering and Recent Advances |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 56 - Chromatography, DETA, Quantification from Rate Dependent Methods, Reverse Engineering and Recent Advances (Continued...) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 57 - Chromatography, DETA, Quantification from Rate Dependent Methods, Reverse Engineering and Recent Advances (Continued...) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 58 - Chromatography, DETA, Quantification from Rate Dependent Methods, Reverse Engineering and Recent Advances (Continued...) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 59 - Chromatography, DETA, Quantification from Rate Dependent Methods, Reverse Engineering and Recent Advances (Continued...) |
Link |
NOC:Characterization of Polymers, Elastomers and Composites |
Lecture 60 - Chromatography, DETA, Quantification from Rate Dependent Methods, Reverse Engineering and Recent Advances (Continued...) |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 1 - Motivation for the Lab Course |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 2 - Analysis of the Need of Computers in Process Industries |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 3 - Analysis of the Need of Computers in Process Industries (Continued...) |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 4 - Discussion on Computational Tools available to Chemical Engineers |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 5 - Analysis and Comparison of different Programming Languages |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 6 - MATLAB Primer - Basic Features |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 7 - MALTAB Primer - Writing Codes |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 8 - MATLAB Primer - Coding (Continued...) |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 9 - MATLAB Primer - Coding (Continued...) |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 10 - MATLAB Primer - Plotting and Presentation of Results |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 11 - LAB 1 - Analysis of Frictional Losses in Pipe Flows Problem Definition and Analysis |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 12 - LAB 1 - Analysis of Frictional Losses in Pipe Flows Theory and Solution Strategy |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 13 - LAB 1 - Analysis of Frictional Losses in Pipe Flows Solution of the Problem under ... |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 14 - LAB 1 - Analysis of Frictional Losses in Pipe Flows Solution of the Problem under ... |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 15 - LAB 1 - Analysis of Frictional Losses in Pipe Flows Presentation and Interpretation ... |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 16 - LAB 2 - Steady-state Operation of a Diabatic CSTR Problem Definition and Analysis |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 17 - LAB 2 - Steady-state Operation of a Diabatic CSTR Theory and Solution Strategy |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 18 - LAB 2 - Steady-state Operation of a Diabatic CSTR Solution of the Problem under ... |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 19 - LAB 2 - Steady-state Operation of a Diabatic CSTR Solution of the Problem under ... |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 20 - LAB 2 - Steady-state Operation of a Diabatic CSTR Analysis and Presentation ... |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 21 - LAB 3 - Analysis of multicomponent distillation Problem definition and analysis |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 22 - LAB 3 - Analysis of Multicomponent Distillation Theory and Solution Strategy |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 23 - LAB 3 - Analysis of Multicomponent Distillation Solution of the Problem under Various ... |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 24 - LAB 3 - Analysis of Multicomponent Distillation Solution of the Problem under Various ... |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 25 - LAB 3 - Analysis of Multicomponent Distillation Presentation and Analysis of Results |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 26 - LAB 4 - Analysis of Cooling of a Solid Body in a Reservoir Problem Definition ... |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 27 - LAB 4 - Analysis of Cooling of a Solid Body in a Reservoir Theory and Solution ... |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 28 - LAB 4 - Analysis of Cooling of a Solid Body in a Reservoir Solution of the Problem ... |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 29 - LAB 4 - Analysis of Cooling of a Solid Body in a Reservoir Solution of the Problem ... |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 30 - LAB 4 - Analysis of cooling of a solid body in a reservoir Presentation ... |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 31 - LAB 5 - Analysis of unsteady-state operation of cascade CSTR's Problem Definition ... |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 32 - LAB 5 - Analysis of unsteady-state operation of cascade CSTR's Theory and Solution ... |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 33 - LAB 5 - Analysis of unsteady-state operation of cascade CSTR's Solution of the Problem |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 34 - LAB 5 - Analysis of unsteady-state operation of cascade CSTR's Solution of the problem |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 35 - LAB 5 - Analysis of unsteady-state operation of cascade CSTR's Presentation ... |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 36 - LAB 6 - Analysis of Steady-state Heat Conduction in a 1-D rod |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 37 - LAB 6 - Analysis of Steady-state Heat Conduction in a 1-D rod |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 38 - LAB 6 - Analysis of steady-state Heat Conduction in a 1-D rod |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 39 - LAB 6 - Analysis of steady-state Heat Conduction in a 1-D rod |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 40 - LAB 6 - Analysis of steady-state Heat Conduction in a 1-D rod |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 41 - LAB 7 - Reaction-diffusion in a spherical catalyst pallet Problem definition and ... |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 42 - LAB 7 - Reaction-diffusion in a spherical catalyst pallet Theory and solution strategy |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 43 - LAB 7 - Reaction-diffusion in a spherical catalyst pallet Solution of the problem ... |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 44 - LAB 7 - Reaction-diffusion in a spherical catalyst pallet Solution of the problem ... |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 45 - LAB 7 - Reaction-diffusion in a spherical catalyst pallet Analysis and interpretation ... |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 46 - LAB 8 - Heat conduction in higher dimensions Problem definition and analysis |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 47 - LAB 8 - Heat conduction in higher dimensions Background theory and solution strategy |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 48 - LAB 8 - Heat conduction in higher dimensions Problem solution |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 49 - LAB 8 - Heat conduction in higher dimensions Problem solution (Continued...) |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 50 - LAB 8 - Heat conduction in higher dimensions Problem solution and analysis |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 51 - LAB 9 - Process economics and optimisation Problem definition and analysis |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 52 - LAB 9 - Process economics and optimisation Theory and solution strategy |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 53 - LAB 9 - Process economics and optimisation Solution of the problem |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 54 - LAB 9 - Process economics and optimisation Solution of the problem (Continued...) |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 55 - LAB 9 - Process economics and optimisation Solution of the problem and analysis of ... |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 56 - LAB 10 - Regression and curve - fitting of data Problem definition and analysis |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 57 - LAB 10 - Regression and curve - fitting of data Background theory and solution strategy |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 58 - LAB 10 - Regression and curve - fitting of data Problem solution |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 59 - LAB 10 - Regression and curve - fitting of data Problem solution (Continued...) |
Link |
NOC:Matlab-Based Programming Lab in Chemical Engineering |
Lecture 60 - Review of the course |
Link |
NOC:Petroleum Technology |
Lecture 1 - What is Petroleum How it is stored under the earth Exploration of petroleum underground |
Link |
NOC:Petroleum Technology |
Lecture 2 - Concept of Seismic Reflection, Introduction to Drilling |
Link |
NOC:Petroleum Technology |
Lecture 3 - Drilling Mud and Mechanisms of Recovery of Petroleum |
Link |
NOC:Petroleum Technology |
Lecture 4 - Composition of Crude Petroleum and Evaluation of Oil Stocks |
Link |
NOC:Petroleum Technology |
Lecture 5 - Evaluation of Oil Stocks: Vaporization Characteristics |
Link |
NOC:Petroleum Technology |
Lecture 6 - Primary Processing of Crude Oil: Desalting |
Link |
NOC:Petroleum Technology |
Lecture 7 - Primary Processing of Crude Oil: Atmospheric Distillation Unit (ADU) |
Link |
NOC:Petroleum Technology |
Lecture 8 - Primary Processing of Crude Oil: Reflux Systems, Vacuum Distillation Unit (VDU) |
Link |
NOC:Petroleum Technology |
Lecture 9 - Products and Process Utilities in Primary Processing, Pipe Still Heater |
Link |
NOC:Petroleum Technology |
Lecture 10 - Refinery Units |
Link |
NOC:Petroleum Technology |
Lecture 11 - Secondary Processing: Decomposition of Residues: Thermal Cracking |
Link |
NOC:Petroleum Technology |
Lecture 12 - Coking, Gasification and Steam Cracking |
Link |
NOC:Petroleum Technology |
Lecture 13 - Secondary Processing: Decomposition of Residues: Hydrocracking |
Link |
NOC:Petroleum Technology |
Lecture 14 - Secondary Processing: Decomposition of Residues: Catalytic Cracking |
Link |
NOC:Petroleum Technology |
Lecture 15 - Secondary Processing: Decomposition of Residues: Process description of FCC |
Link |
NOC:Petroleum Technology |
Lecture 16 - Properties and Testing of Petroleum Products |
Link |
NOC:Petroleum Technology |
Lecture 17 - Properties and Testing of Petroleum Products (Continued...) |
Link |
NOC:Petroleum Technology |
Lecture 18 - Properties and Testing of Petroleum Products (Continued...) |
Link |
NOC:Petroleum Technology |
Lecture 19 - Properties and Testing of Petroleum Products (Continued...) |
Link |
NOC:Petroleum Technology |
Lecture 20 - Properties and Testing of Petroleum Products (Continued...) |
Link |
NOC:Petroleum Technology |
Lecture 21 - Petroleum fractions from distillation units |
Link |
NOC:Petroleum Technology |
Lecture 22 - Petroleum fractions from distillation units (Continued...) |
Link |
NOC:Petroleum Technology |
Lecture 23 - Petroleum fractions from distillation units (Continued...) |
Link |
NOC:Petroleum Technology |
Lecture 24 - Petroleum fractions from distillation units (Continued...) |
Link |
NOC:Petroleum Technology |
Lecture 25 - Petroleum fractions from distillation units (Continued...) |
Link |
NOC:Petroleum Technology |
Lecture 26 - Upgradation of straight run cuts from atmospheric distillation unit |
Link |
NOC:Petroleum Technology |
Lecture 27 - Upgradation of straight run cuts from atmospheric distillation unit (Continued...) |
Link |
NOC:Petroleum Technology |
Lecture 28 - Upgradation of straight run cuts from atmospheric distillation unit (Continued...) |
Link |
NOC:Petroleum Technology |
Lecture 29 - Upgradation of straight run cuts from atmospheric distillation unit (Continued...) |
Link |
NOC:Petroleum Technology |
Lecture 30 - Upgradation of straight run cuts from distillation unit |
Link |
NOC:Petroleum Technology |
Lecture 31 - Purification processes |
Link |
NOC:Petroleum Technology |
Lecture 32 - Purification processes (Continued...) |
Link |
NOC:Petroleum Technology |
Lecture 33 - Bitumen preparation processes |
Link |
NOC:Petroleum Technology |
Lecture 34 - Grease: preparation, description and application |
Link |
NOC:Petroleum Technology |
Lecture 35 - Emission control and effluent treatment in refinery |
Link |
NOC:Petroleum Technology |
Lecture 36 - Fundamentals of thermochemistry: Combustion |
Link |
NOC:Petroleum Technology |
Lecture 37 - Fundamentals of thermochemistry: Flame |
Link |
NOC:Petroleum Technology |
Lecture 38 - Fundamentals of thermochemistry: Adiabatic flame temperature |
Link |
NOC:Petroleum Technology |
Lecture 39 - Fundamentals of thermochemistry: Burner |
Link |
NOC:Petroleum Technology |
Lecture 40 - Fundamentals of thermochemistry: Internal Combustion engine |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 1 - Basic Introduction to Polymer |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 2 - Structure Process Correlation |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 3 - Basic Rheology |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 4 - Classification of Fluids |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 5 - Flow of Liquids Through Various Channels - 1 |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 6 - Flow of Liquids Through Various Channels - 2 |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 7 - Flow of Liquids Through Various Channels - 3 |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 8 - Introduction to Viscometers and Rheometers |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 9 - Ostwald Viscometer, Brookfield Viscometer, Falling Piston Viscometers |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 10 - ODR, MDR, RPA, PPR |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 11 - DMA -In-Light of rheology |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 12 - Master Curve and its Implications |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 13 - Capillary Rheometer |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 14 - Introduction to Paints and importance of rheology in paints |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 15 - Rheology of paints - 1 |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 16 - Rheology of paints - 2 |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 17 - Rheology of Adhesives and Sealants |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 18 - Rheology of Fiber and Plastics |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 19 - Practical demonstration on Brookfield viscometer and Oswald viscometer |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 20 - Practical demonstration on Mooney viscometer, ODR and MDR |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 21 - Practical demonstration on RPA |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 22 - Practical demonstration on PPR and DMA |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 23 - Practical demonstration on Capillary Rheometer |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 24 - Numeriacal Problems related to basic rhelogy |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 25 - Importance of compounding and introduction to various compounding ingredients |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 26 - Properties and role of various compounding ingredients |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 27 - Surface treatment of reinforcing elements |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 28 - Rhelogy of Elastomers |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 29 - Importance of die swell (correlating with normal force differences) |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 30 - Melt Fracture and other ectrudate instabilities |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 31 - Introduction to plastic and rubber mixing and blending |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 32 - Various mixing equipment and their importance |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 33 - Introduction to Two-Roll Mill and Mixing on Two - Roll Mill 1 |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 34 - Introduction to Two-Roll Mill and Mixing on Two - Roll Mill 2 |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 35 - Introduction to Internel mixture Kneaders and Mixing using Internel mixture and Kneaders |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 36 - Practical demonstration of Rubber mixing on a two roll and using an internal mixer |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 37 - Molding Techniques |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 38 - Calendering |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 39 - Extrusion |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 40 - Rheology of Injection moulding process |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 41 - Plastic and fiber-related processing |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 42 - Numerical problems related to various processing techniques |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 43 - Wire coating, Garvey die, Profile Extrusion |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 44 - Introduction to FEA based computationalfluid mechanics on extrusion - 1 |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 45 - Introduction to FEA based computationalfluid mechanics on extrusion - 2 |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 46 - Introduction to FEA based computationalfluid mechanics on extrusion - 3 |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 47 - Practical demonstartion on FEA |
Link |
NOC:Rheology and Processing of Paints, Plastic and Elastomer Based Composites |
Lecture 48 - Concluding remarks and commentson applied rheology for advanced learners |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 1 - Petroleum Formation Evaluation |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 2 - Mud Logging |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 3 - Mud Logging (Continued...) |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 4 - Coring Operations |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 5 - Coring Operations (Continued...) |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 6 - Wireline Logging |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 7 - Resistivity Log |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 8 - Resistivity Log (Continued...) |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 9 - Resistivity Log (Continued...) |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 10 - Resistivity Log (Continued...) |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 11 - Resistivity Log (Continued...) |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 12 - Resistivity Log (Continued...) |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 13 - Resistivity Log (Continued...) |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 14 - Resistivity Log (Continued...) |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 15 - Resistivity Log (Continued...) |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 16 - Spontaneous Potential Log |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 17 - Spontaneous Potential Log (Continued...) |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 18 - Petrophysical Model |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 19 - Petrophysical Model (Continued...) |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 20 - Gamma Ray Log |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 21 - Gamma Ray Log (Continued...) |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 22 - Gamma Ray Log (Continued...) |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 23 - Caliper Log |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 24 - Porosity Logs |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 25 - Density Porosity Log |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 26 - Density Porosity Log (Continued...) |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 27 - Density Porosity Log (Continued...) |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 28 - Density Porosity Log (Continued...) |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 29 - Density Porosity Log (Continued...) |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 30 - Neutron Porosity Log |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 31 - Neutron Porosity Log (Continued...) |
Link |
NOC:Petroleum Formation Evaluation |
Lecture 32 - Neutron Porosity Log (Continued...) |