Zobrazeno 1 - 8
of 8
pro vyhledávání: '"William L. Esch"'
Autor:
Fermín Fernández-Ibáñez, Gareth D. Jones, Jordan G. Mimoun, Melanie G. Bowen, J.A.(Toni) Simo, Virginia Marcon, William L. Esch
Publikováno v:
AAPG Bulletin. 106:701-738
Autor:
William L. Esch
Publikováno v:
AAPG Bulletin. 103:2807-2834
Reservoir quality (RQ) prediction models for sandstones in use by the oil and gas industry primarily emulate mechanical compaction, quartz cementation, and cementation by a few select aluminosilicate minerals during burial. The modeled cements are tr
Autor:
William L. Esch, Patrick J. Mickler, Wanjoo Choi, Roxana Darvari, Jiemin Lu, Jean-Philippe Nicot
Publikováno v:
AAPG Bulletin. 101:1567-1597
Geochemical interactions between shale and hydraulic fracturing fluid may affect produced-water chemistry and rock properties. It is important to investigate the rock–water reactions to understand the impacts. Eight autoclave experiments reacting M
Publikováno v:
AAPG Bulletin. 96:1553-1578
Porosity, permeability, and total organic carbon (TOC) in a heterogeneous suite of 21 high-maturity samples (vitrinite reflectance 1.52–2.15%) from the Barnett Shale in the eastern Fort Worth Basin display few correlations with parameters of rock t
Publikováno v:
AAPG Bulletin. 94:1189-1227
We have developed process-based models for early grain coats and their impact on deep reservoir quality in the Jurassic eolian Norphlet Formation, Alabama, with implications for exploration and development in other conventional and tight-gas continen
Autor:
Shreerang S. Chhatre, William L. Esch, Timothy E. Zirkle, Ryan A. Kudva, Quinn R. Passey, Edward M. Braun, Sergio Leonardi, Jeff A. Boros, Somnath Sinha, Matthew D. Determan, Alexander C. Wood
Publikováno v:
Proceedings of the 2nd Unconventional Resources Technology Conference.
Effect of Stress, Creep, and Fluid Type on Steady State Permeability Measurements in Tight Liquid Unconventional Reservoirs Shreerang S. Chhatre, Somnath Sinha, Edward M. Braun, William L. Esch, Matthew D. Determan, Quinn R. Passey, Sergio A. Leonard
Publikováno v:
All Days.
Abstract A spectrum of combinations of rock and hydrocarbon properties in fine-grained rocks can result in significant production, effectively spanning 'conventional' tight oil to fractured 'shale' gas reservoirs, in four main families based on domin
Publikováno v:
All Days.
Many currently producing shale-gas reservoirs are overmature oil-prone source rocks. Through burial and heating these reservoirs evolve from organic-matter-rich mud deposited in marine, lacustrine, or swamp environments. Key characterization paramete