WIN $150 GIFT VOUCHERS: ALADDIN'S GOLD

Close Notification

Your cart does not contain any items

$247.95

Paperback

Not in-store but you can order this
How long will it take?

QTY:

English
Elsevier Science Publishing Co Inc
07 August 2019
The Fossil Fuel Revolution: Shale Gas and Tight Oil describes the remarkable new energy resources being obtained from shale gas and tight oil through a combination of directional drilling and staged hydraulic fracturing, opening up substantial new energy reserves for the 21st Century.

The book includes the history of shale gas development, the technology used to economically recover hydrocarbons, and descriptions of the ten primary shale gas resources of the United States. International shale resources, environmental concerns, and policy issues are also addressed.

This book is intended as a reference on shale gas and tight oil for industry members, undergraduate and graduate students, engineers and geoscientists.
By:   , , ,
Imprint:   Elsevier Science Publishing Co Inc
Country of Publication:   United States
Dimensions:   Height: 235mm,  Width: 191mm, 
Weight:   720g
ISBN:   9780128153970
ISBN 10:   0128153970
Pages:   354
Publication Date:  
Audience:   College/higher education ,  Primary
Format:   Paperback
Publisher's Status:   Active
PART I: GEOLOGY OF TIGHT OIL AND GAS SHALES1. Petroleum geology concepts2. Unconventional tight oil and shale gas resources3. The revolutionary U.S. shale plays4. The evolutionary U.S. shale plays5. International shale plays PART II. THE FUTURE OF FOSSIL FUELS 6. Environmental concerns7. Energy economics PART III. ENERGY POLICY8. Energy security9. The politics of energy

Daniel J. Soeder has been the director of the Energy Resources Initiative at the South Dakota School of Mines & Technology in Rapid City, South Dakota since 2017. He brought to this position 25 years of experience as a research scientist for the federal government, beginning with the U.S. Geological Survey (USGS) on the Yucca Mountain Project in Nevada, where he coordinated USGS hydrologic and geologic fieldwork, and in the Mid-Atlantic region where he researched coastal hydrology, wetlands, water supply, and groundwater contamination, and for 3 years chaired the Scientific and Technical Advisory Committee for the Delaware Estuary Program. He also spent seven years at the U.S. Department of Energy (DOE) National Energy Technology Laboratory in Morgantown, West Virginia performing energy and environmental research on gas shale and other unconventional fossil energy resources. Prior to joining the USGS in 1991, Soeder spent a decade carrying out studies of the geology of unconventional natural gas resources at the Institute of Gas Technology (now GTI) in Chicago, and worked as a contractor for DOE in Morgantown from 1979 to 1981, collecting and characterizing drill cores on the Eastern Gas Shales Project. He has authored multiple reports and scientific papers on shale properties, including a special paper published by the Geological Society of America in 2017 chronicling the development of natural gas resources in the Marcellus Shale. He has also investigated and written about the impacts of shale gas development on the environment. Raised in Cleveland, Ohio he received a B.S. degree in geology from Cleveland State University in 1976, and an M.S. degree in geology from Bowling Green State University (Ohio) in 1978. Dr. Scyller J. Borglum currently serves as a geomechanical engineer at RESPEC, a consulting and lab testing company in Rapid City as well as State Representative for South Dakota House District 32. She completed her doctorate in Geology and Geological Engineering in 2018 at South Dakota School of Mines & Technology. During her doctoral studies, Borglum worked as a research engineer at the National Energy Technology Laboratory (NETL) in Morgantown, West Virginia, and for the Energy Resources Initiative on SD Mines’ campus. Prior to her time in Rapid City, she worked as a petroleum engineer for Packer’s Plus Energy Services, Anadarko Petroleum Corp., and Marathon Oil Company in Texas, Oklahoma, Colorado, Wyoming, and finally in the Bakken in North Dakota.

See Also