Applied Petroleum Reservoir Engineering
3rd Edition
Published on 21. August 2014
Book
Hardback
528 pages
978-0-13-315558-7 (ISBN)
Description
The Definitive Guide to Petroleum Reservoir Engineering-Now Fully Updated to Reflect New Technologies and Easier Calculation Methods
Craft and Hawkins' classic introduction to petroleum reservoir engineering is now fully updated for new technologies and methods, preparing students and practitioners to succeed in the modern industry. In Applied Petroleum Reservoir Engineering, Third Edition, renowned expert Ronald E. Terry and project engineer J. Brandon Rogers review the history of reservoir engineering, define key terms, carefully introduce the material balance approach, and show how to apply it with many types of reservoirs.
Next, they introduce key principles of fluid flow, water influx, and advanced recovery (including hydrofracturing). Throughout, they present field examples demonstrating the use of material balance and history matching to predict reservoir performance. For the first time, this edition relies on Microsoft Excel with VBA to make calculations easier and more intuitive.
This edition features
Extensive updates to reflect modern practices and technologies, including gas condensate reservoirs, water flooding, and enhanced oil recovery
Clearer, more complete introductions to vocabulary and concepts- including a more extensive glossary
Several complete application examples, including single-phase gas, gas-condensate, undersaturated oil, and saturated oil reservoirs
Calculation examples using Microsoft Excel with VBA throughout
Many new example and practice problems using actual well data
A revamped history-matching case study project that integrates key topics and asks readers to predict future well production
Craft and Hawkins' classic introduction to petroleum reservoir engineering is now fully updated for new technologies and methods, preparing students and practitioners to succeed in the modern industry. In Applied Petroleum Reservoir Engineering, Third Edition, renowned expert Ronald E. Terry and project engineer J. Brandon Rogers review the history of reservoir engineering, define key terms, carefully introduce the material balance approach, and show how to apply it with many types of reservoirs.
Next, they introduce key principles of fluid flow, water influx, and advanced recovery (including hydrofracturing). Throughout, they present field examples demonstrating the use of material balance and history matching to predict reservoir performance. For the first time, this edition relies on Microsoft Excel with VBA to make calculations easier and more intuitive.
This edition features
Extensive updates to reflect modern practices and technologies, including gas condensate reservoirs, water flooding, and enhanced oil recovery
Clearer, more complete introductions to vocabulary and concepts- including a more extensive glossary
Several complete application examples, including single-phase gas, gas-condensate, undersaturated oil, and saturated oil reservoirs
Calculation examples using Microsoft Excel with VBA throughout
Many new example and practice problems using actual well data
A revamped history-matching case study project that integrates key topics and asks readers to predict future well production
More details
Other editions
Additional editions
Ronald Terry | J. Rogers
Applied Petroleum Reservoir Engineering
E-Book
08/2014
3rd Edition
Pearson
€153.99
Available for download
Ronald E. Terry | J. Brandon Rogers
Applied Petroleum Reservoir Engineering
E-Book
07/2014
3rd Edition
Pearson
€134.99
Available for download
Previous edition
B. Craft | M. Hawkins | Ronald Terry
Applied Petroleum Reservoir Engineering
Book
03/1991
2nd Edition
Addison Wesley
€113.88
Article exhausted; check for reprint
Persons
Ronald E. Terry has taught chemical and petroleum engineering at the University of Kansas; petroleum engineering at the University of Wyoming; and chemical engineering and technology and engineering education at Brigham Young University, earning teaching awards at each university. He has served as acting department chair, associate dean, and in BYU's central administration. He researched enhanced oil recovery processes at Phillips Petroleum and is past president of the American Society for Engineering Education's Rocky Mountain Section.
J. Brandon Rogers, project engineer at Murphy Oil Corporation, holds a degree in chemical engineering from Brigham Young University. There, he studied reservoir engineering using this text's second edition.
J. Brandon Rogers, project engineer at Murphy Oil Corporation, holds a degree in chemical engineering from Brigham Young University. There, he studied reservoir engineering using this text's second edition.
Content
Chapter 1: Introduction to Petroleum Reservoirs and Reservoir Engineering
Chapter 2: Review of Rock and Fluid Properties
Chapter 3: The General Material Balance Equation
Chapter 4: Single-Phase Gas Reservoirs
Chapter 5: Gas-Condensate Reservoirs
Chapter 6: Undersaturated Oil Reservoirs
Chapter 7: Saturated Oil Reservoirs
Chapter 8: Single-Phase Fluid Flow in Reservoirs
Chapter 9: Water Influx
Chapter 10: The Displacement of Oil and Gas
Chapter 11: Enhanced Oil Recovery
Chapter 12: History Matching
Glossary
Index
Chapter 2: Review of Rock and Fluid Properties
Chapter 3: The General Material Balance Equation
Chapter 4: Single-Phase Gas Reservoirs
Chapter 5: Gas-Condensate Reservoirs
Chapter 6: Undersaturated Oil Reservoirs
Chapter 7: Saturated Oil Reservoirs
Chapter 8: Single-Phase Fluid Flow in Reservoirs
Chapter 9: Water Influx
Chapter 10: The Displacement of Oil and Gas
Chapter 11: Enhanced Oil Recovery
Chapter 12: History Matching
Glossary
Index