Advanced Reservoir Characterization
In this 1-hour webinar, we will dive into the topic of advanced reservoir characterization, focusing on three key aspects: permeability prediction, reservoir rock typing, and saturation height modeling.
We will start by discussing the importance of permeability prediction in reservoir characterization and explore various methods used for this purpose, including laboratory measurements and modeling techniques. We will also cover the challenges involved in accurately predicting permeability and ways to mitigate them.
Webinar Objectives
In this 1-hour webinar, we will dive into the topic of advanced reservoir characterization, focusing on three key aspects: permeability prediction, reservoir rock typing, and saturation height modeling.
We will start by discussing the importance of permeability prediction in reservoir characterization and explore various methods used for this purpose, including laboratory measurements and modeling techniques. We will also cover the challenges involved in accurately predicting permeability and ways to mitigate them.
Next, we will move on to reservoir rock typing, which is crucial for understanding the heterogeneity of reservoirs. We will discuss the different approaches to rock typing, such as statistical clustering and geological classification, and their advantages and limitations.
Finally, we will explore saturation height modeling, which is used to predict the distribution of fluids in the reservoir. We will cover the different types of saturation height models, including the Brooks-Corey and van Genuchten models, and their applications in reservoir engineering.
Throughout the webinar, we will use real-world examples and case studies to illustrate the concepts and techniques discussed. By the end of the webinar, attendees will have a better understanding of advanced reservoir characterization and how to apply these techniques in their work.
About the Presenter
Muhammad Nur Ali Akbar (Reservoir Engineer and Petrophysicist)
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Time : 7:30 Pm Indian Time | Duration : 60 Mins