Reservoir Geomechanics Fundamentals
Master the principles of reservoir geomechanics for oil and gas exploitation through Stanford's comprehensive course.
Master the principles of reservoir geomechanics for oil and gas exploitation through Stanford's comprehensive course.
Explore the interdisciplinary field of reservoir geomechanics through Stanford's comprehensive course. Learn how rock mechanics, structural geology, earthquake seismology, and petroleum engineering intersect to solve critical challenges in oil and gas reservoir exploitation. Study practical applications including pore pressure prediction, well trajectory optimization, and reservoir performance analysis. Gain hands-on experience through real-world problems and develop expertise in managing geomechanical issues in resource extraction.
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What you'll learn
Master fundamental principles of reservoir geomechanics
Predict and analyze pore pressure in reservoir systems
Evaluate hydrocarbon column heights and fault seal potential
Optimize well trajectories and mud weight calculations
Assess reservoir performance during resource depletion
Analyze production-induced faulting and subsidence
Skills you'll gain
This course includes:
PreRecorded video
8 homework assignments, Discussion forums
Access on Mobile, Tablet, Desktop
Limited Access access
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Module Description
This interdisciplinary course combines elements of rock mechanics, structural geology, earthquake seismology, and petroleum engineering to address geomechanical challenges in oil and gas reservoir exploitation. Students learn to predict pore pressure, estimate hydrocarbon column heights, determine stable well trajectories, and analyze reservoir performance during depletion. The course emphasizes practical applications while building a strong theoretical foundation, making it valuable for both industry professionals and researchers.
Fee Structure
Instructor
1 Course
A Pioneering Geophysicist Advancing Earth Science and Energy Research
Mark D. Zoback, the Benjamin M. Page Professor of Geophysics, Emeritus at Stanford University, has revolutionized our understanding of geomechanics and subsurface energy systems. After earning his degrees from the University of Arizona and Stanford University, he built an illustrious career spanning academia and industry. His groundbreaking research focuses on in situ stress, fault mechanics, and reservoir geomechanics, particularly in shale gas, tight gas, and CO2 sequestration. As Director of the Stanford Natural Gas Initiative and Co-Director of the Stanford Center for Induced and Triggered Seismicity, he has led crucial research into sustainable energy development. His contributions include over 400 technical papers, two influential textbooks including "Reservoir Geomechanics," and five patents. His expertise has been sought for critical national investigations, including the Deepwater Horizon accident and shale gas development safety. His achievements have earned him numerous prestigious honors, including election to the U.S. National Academy of Engineering, the Einstein Chair Professorship of the Chinese Academy of Sciences, and most recently, the 2024 Maurice Ewing medal from the Society of Exploration Geophysicists. His online course in Reservoir Geomechanics has educated over 12,000 students worldwide, demonstrating his commitment to sharing knowledge beyond traditional academic boundaries.
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4.9 course rating
20 ratings
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