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Unconventional shale systems: A comparative study of the "in-source sweet spot" developed in the lacustrine Chang 7 Shale and the marine Barnett Shale.

Authors :
Pan, Songqi
Zou, Caineng
Li, Jian
Yang, Zhi
Liu, Entao
Han, Yuanjia
Source :
Marine & Petroleum Geology. Feb2019, Vol. 100, p540-550. 11p.
Publication Year :
2019

Abstract

Abstract The Upper Triassic Chang 7 Shale and the Mississippian Barnett Shale, two remarkable shale systems that are considered promising unconventional shale oil/gas targets in China and the USA, respectively, have different kerogen types that formed under lacustrine and marine environments. In this study, seventy-six and ninety-seven drilled core samples were collected separately from the Zhang 22 Well (Ordos Basin) and the Mesquite #1 well (Fort Worth Basin), respectively, for determining the hydrocarbon generation, retention and migration behaviors as well as the intrasource fractionation in the two shale successions. Geochemical indications of potentially producible oil as indicated by the oil crossover effect and the T max shift phenomenon as well as the geochemical and molecular compositions of retained hydrocarbon suggest two categories of intervals in the Chang 7 and Barnett shale systems, namely, the "in-source sweet spot" and the "generative unit". Oils retained in the "in-source sweet spot" have migrated from the adjacent "generative unit" and have been subjected to stratigraphic fractionation over geological time. These oils are proportionally rich in aliphatic fraction and moderate chain length moieties, which significantly improve the fluid mobility and producibility. The oil quality improved by fractionation, the weak adsorptive affinity of oil to organic matter, and the good shale frackability all provide promise for the exploration and production potential of shale oil from the Chang 7 and the Barnett Shale systems. Highlights • 76 and 97 samples are collected from Zhang 22 well in Ordos Basin and Mesquite #1 well in Fort Worth Basin. • They are analyzed in the same laboratory to compare the differences and similarities in hydrocarbon retention. • "Generated units" and "in-source sweet spots" are identified using geochemical approach. • Oils in "in-source sweet spots" contain more mobile fractions which increase shale oil productivity. • "In-source sweet spots" are promising targets for shale oil exploitation from a geochemical perspective. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
02648172
Volume :
100
Database :
Academic Search Index
Journal :
Marine & Petroleum Geology
Publication Type :
Academic Journal
Accession number :
134322880
Full Text :
https://doi.org/10.1016/j.marpetgeo.2018.12.015