Application of Fiber-optic Temperature Data Analysis in Hydraulic Fracturing Evaluation: A Case Study in Marcellus Shale
Shohreh Amini*, Payam Kavousi, Timothy R Carr, West Virginia University
Shohreh Amini*, Payam Kavousi, Timothy R Carr, West Virginia University
Timothy R Carr*, Thomas H. Wilson, Payam Kavousi, Shohreh Amini, Shikha Sharma, West Virginia University: Jay Hewitt, Ian Costello, B. J. Carney, Emily Jordon, Northeast Natural Energy LLC: Malcolm Yates, Keith MacPhail, Natalie Uschner, Mandy Thomas, Si Akin, Oluwaseun Magbagbeola, Adrian Morales, Asbjoern Johansen, Leah Hogarth, Olatunbosun Anifowoshe, Kashif Naseem, Schlumberger: Richard Hammack, Abhash Kumar, Erich Zorn, Robert Vagnetti, and Dustin Crandall, National Energy Technology Laboratory, US Department of Energy.
J. Alexandra Hakala*, National Energy Technology Laboratory Dustin Crandall, National Energy Technology Laboratory Johnathan Moore, AECOM National Energy Technology Laboratory Thai Phan, ORISE National Energy Technology Laboratory Shikha Sharma, West Virginia University Christina Lopano, National Energy Technology Laboratory
J. Alexandra Hakala*, National Energy Technology Laboratory Thai Phan, ORISE National Energy Technology Laboratory Mengling Stuckman, AECOM National Energy Technology Laboratory Harry M. Edenborn, National Energy Technology Laboratory Christina L. Lopano, National Energy Technology Laboratory
Abhash Kumar, Erich Zorn1, Richard Hammack1, William Harbert1, National Energy Technology Laboratory, Department of Energy, Pittsburgh, PA; AECOM; Department of Geology and Environmental Science, University of Pittsburgh, Pittsburgh, PA
Shikha Sharma1, Timothy R. Carr, Paula J. Mouser, Kelly Wrighton, David Cole, Michael Wilkins, Thomas Darrah, Alexandra Hakala
Liaosha Song, Tom Paronish, Vikas Agrawal, Brittany Hupp, Shikha Sharma, Timothy Carr; Department of Geology and Geography, West Virginia University, Morgantown, WV, USA
Paul F. Ziemkiewicz
Erich Zorn, William Harbert, Richard Hammack, Abhash Kumar
Invited Presentation at Panel entitled: Geosustainability: Opportunities and Threats, Geo-Institute of the American Society of Civil Engineers (ASCE), Chicago, IL, http://www.geoenvironmentconference.org
8/17/2016
Geological Society of America Northeastern/North-Central Joint Meeting, Pittsburgh, PA.
3/19/2017
Contains technical presentations such as fiber optic, microseismic, and petrophysical presentations.
11/15/2017
The objective of the MSEEL project is to gain a better understanding of the unconventional shale reservoirs through advanced reservoir characterization and monitoring of horizontal wells. Research will also focus on societal and envrionmental impacts of shale gas development.
Contains safety information and meeting sign in sheets.
11/15/2017
Contains dust data for April and May of 2015.
11/15/2017
Contains well data including microseismic, fiber optic, and production data.
Contains sidewall coring data of the Marcellus Shale and the Onondaga and Tully Limestones.
11/15/2017
Contains coring data for Lower Marcellus at depth of 7543’.
11/15/2017
Contains coring data for Mahantango formation at depth of 7440’.
11/15/2017
Contains coring data for Marcellus and Onondaga at depth of 7552’.
11/15/2017
Contains coring data for Marcellus Top at depth of 7451’.
11/15/2017
Contains coring data for Middle Marcellus at depth of 7509’.
11/15/2017
Contains coring data for Onondaga Limestone at depth of 7554’.
11/15/2017
Contains coring data for Tully Limestone at depth of 7200’.
11/15/2017
Contains coring data for Upper Marcellus at depth of 7467’.
11/15/2017
Contains MIP 3H completions, drilling, fiber optic, and reservoir engineering data.
Contains MIP 3H Pilot drilling and reservoir engineering data.
Contains MIP 4H completions, drilling, fiber optic, and reservoir engineering data.
Contains MIP 4H Pilot Data
Contains MIP 5H completions, drilling, fiber optic, and reservoir engineering data.
Contains MIP 6H completions, drilling, fiber optic, and reservoir engineering data.
Contains drilling and reservoir engineering data for MIP SW.