Petroleum Reservoir Simulations [With CDROM] Contributor(s): Abou-Kassem, J. H. (Author), Farouq-Ali, S. M. (Author), Islam, M. R. (Author) |
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ISBN: 0976511363 ISBN-13: 9780976511366 Publisher: Gulf Publishing Company OUR PRICE: $183.15 Product Type: Hardcover Published: March 2006 Annotation: In this highly anticipated volume, the world-renowned authors take a basic approach to present the principles of petroleum reservoir simulation in an easy-to-use and accessible format. Applicable to any oil and gas recovery method, this book uses the block-centered grid and a point-distributed grid. It treats various boundary conditions as fictitious wells, gives algebraic equations for their flowrates and presents an elaborate treatment of radial grid for single-well simulation to analyze well test results and to create well pseudo-functions necessary in conducting a practical reservoir simulation study. This book is accompanied by a CD that includes a single-phase simulator, a user's manual and data and output files for four solved problems. The simulator is easy to use for students, readers and educators to make up new problems and get their solutions. |
Additional Information |
BISAC Categories: - Technology & Engineering | Petroleum - Technology & Engineering | Mining - Science | Earth Sciences - Geology |
Dewey: 553.280 |
LCCN: 2005029674 |
Physical Information: 1.36" H x 6.36" W x 9.28" (1.99 lbs) 445 pages |
Descriptions, Reviews, Etc. |
Publisher Description: In this highly anticipated volume, the world-renowned authors take a basic approach to present the principles of petroleum reservoir simulation in an easy-to-use and accessible format. Applicable to any oil and gas recovery method, this book uses a block-centered grid and a point-distributed grid. It treats various boundary conditions as fictitious wells, gives algebraic equations for their flowrates and presents an elaborate treatment of radial grid for single-well simulation to analyze well test results and to create well pseudo-functions necessary in conducting a practical reservoir simulation study. |