Lecture 1 - Discussion on the background of Reservoir Geophysics in the Upstream Oil and Gas Sector
Lecture 2 - Lecture on the requirements of advancement of Seismic Data Interpretation towards Reservoir Geophysics study related to the Integrated workflow to describe the Reservoir
Lecture 3 - Lecture on the basic understanding of Borehole Geophysics and establishment of the Requirements related to the Exploratory Data Analysis
Lecture 4 - Discussion related to the basic understanding of Geocellular Modelling in line with High Resolution Geological Model
Lecture 5 - Lecture on the Integrated workflow for Development of Geocellular Modelling
Lecture 6 - The key components of Integrated Reservoir Engineering for Reservoir Geophysics study
Lecture 7 - Discussion on the fundamental concept and applications of Petrophysical in Reservoir
Lecture 8 - Lecture on comprehensive analysis of Petrophysical Properties of the various Reservoir
Lecture 9 - Lecture on the understanding on Geomechanically property of the reservoir and Reservoir
Lecture 10 - Lecture on Hydrocarbon Phase behavior and Flow Dynamics: Key Principles and Diagrams
Lecture 11 - Discussion on Reservoir Geophysics uses advanced seismic methods to identify reservoirs
Lecture 12 - Lecture on advancements seismic studies Reservoir Geophysics and quantitative analysis
Lecture 13 - Studies Reservoir Geophysics based on AVO/AVA analysis multicomponent seismic techniques
Lecture 14 - Comparative discussion between conventional and multicomponent seismic on wave properties
Lecture 15 - Lecture on multicomponent seismic: Processing Challenges, Binning, and Techniques
Lecture 16 - Lecture on the Advanced Seismic Techniques for Reservoir Characterization
Lecture 17 - Discussion on the Applications of Multicomponent the Purpose of Seismic Attribute Study
Lecture 18 - Lecture on Seismic Attribute Study: Types, Post-Stack Examples, and Applications
Lecture 19 - Lecture on Seismic Attribute Applications
Lecture 20 - Lecture on Inversion: Workflow, QC, Case Studies, Challenges, of P-Elastic Parameters
Lecture 21 - Lecture on Introduction to Vertical Seismic Profile (VSP): Basics and Beyond
Lecture 22 - Lecture on Exploring Vertical Seismic Profile (VSP): Methods, Applications, and Equipment
Lecture 23 - Lecture on Examples and Techniques in Vertical Seismic Profile (VSP) Data Acquisition
Lecture 24 - Lecture on Vertical Seismic Profile (VSP) Data Processing and Interpretation Techniques
Lecture 25 - Lecture on Comprehensive Guide to Passive Seismic Imaging: Techniques, Applications
Lecture 26 - Discussion on VSP Techniques towards Reservoir Characterization
Lecture 27 - Lecture on VSP data acquisition workflow and its interpretation
Lecture 28 - Discussion of Walkaway VSP technique in complex geological structure
Lecture 29 - Lecture on 3D and Far Offset VSP in connection with Advantages and Disadvantages
Lecture 30 - Discussion on Passive Seismic Data and its application towards the study of Reservoir
Lecture 31 - Discussion on basic understanding of Crosswell Seismic Tomography
Lecture 32 - Lecture on Crosswell Seismic Tomography for Reservoir Characterization and Management
Lecture 33 - Discussion AVO Analysis and Tomography for Enhanced Reservoir Characterization (EOR)
Lecture 34 - Implication of Crosswell Seismic Tomography and AVO for Reservoir Imaging
Lecture 35 - Lecture on AVO Analysis: Seismic Signatures, Techniques, and Case Study
Lecture 36 - Discussion on Approach and Principal Causes of Low-Resistivity and (LRLC) Reservoirs
Lecture 37 - Lecture on LRLC Reservoirs: Causes, Traits, Challenges, Evaluation and Solutions
Lecture 38 - Discussion on Clay Distribution Modes and Core-Well Log Integration in LRLC Reservoirs
Lecture 39 - Discussion on Wireline Logging and Petrophysical Techniques for LRLC Reservoirs
Lecture 40 - Lecture on Gas Condensate Reservoirs: Properties, Sampling, Production and Performance
Lecture 41 - Discussion on 4D Seismic: Requirements, Planning, and Reservoir Monitoring
Lecture 42 - Lecture on 4D Seismic: Acquisition, Processing, Interpretation, and History Matching
Lecture 43 - Discussion on The Marlim field: A case study
Lecture 44 - Discussion on Reservoir Modeling: Importance, Pore-Scale Mechanisms, and Carbonate Rocks
Lecture 45 - Discussion on Pore-Scale Displacement Mechanism in Carbonate Reservoirs: A Case Study
Lecture 46 - Discussion on Comprehensive Overview of Deepwater, and Production Implications
Lecture 47 - Lecture on Deepwater Depositional Systems: Architecture, and Exploration Challenges
Lecture 48 - Discussion on Deepwater Exploration: Importance, Challenges, Frontiers, Global Impact
Lecture 49 - Discussion on Deepwater Exploration and Sedimentation: Trends, Sustainable Approaches
Lecture 50 - Discussion on Deepwater Exploration: Challenges, Innovations, Strategies for Advancement
Lecture 51 - Discussion on Comprehensive Overview of Seismic Imaging and Data Processing in Deep
Lecture 52 - Lecture on Challenges in Deep-Water Seismic Imaging: Data Acquisition, Geological
Lecture 53 - Discussion on Sediment Variability, Technological Innovations, Seismic Exploration
Lecture 54 - Discussion on Risk Identification, Assessment, and Management in Deepwater Exploration
Lecture 55 - Discussion on Risk Analysis and Management in Deepwater the Macondo Blowout Case Study
Lecture 56 - Discussion on Clastic Reservoirs: Pore Structure, Challenges, and Depletion Effects
Lecture 57 - Lecture on Enhanced Recovery and Characterization of Deep Clastic Reservoirs
Lecture 58 - Discussion on a Case Study of Depleted Clastic Reservoirs
Lecture 59 - Discussion on Basalt Formation, Sub-Basalt Exploration, and Seismic Challenges
Lecture 60 - Discussion on Case Study: Use of Converted Waves for Sub-Basalt Imaging