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Chemical kinetic model of hydrocarbon generation from the Bakken Formation, Williston Basin, North Dakota.

机译：北达科他州威利斯顿盆地巴肯组生烃的化学动力学模型。

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This report describes a model of hydrocarbon generation and expulsion in the North Dakota portion of the Williston Basin. The modeling incorporates kinetic methods to simulate chemical reactions and 1-dimensional conductive heat flow models to simulate thermal histories of the Mississippian-Devonian Bakken Formation source rock. We developed thermal histories of the source rock for 53 wells in the basin using stratigraphic and heat flow data obtained by the University of North Dakota. Chemical kinetics for hydrocarbon generation, determined from Pyromat pyrolysis, were, then used with the diennal histories to calculate the present day value of the Rock-Eval T(sub max) for each well. The calculated Rock-Eval T(sub max) values agreed with measured values within amounts attributable to uncertainties in the chemical kinetics and the heat flow. These optimized thermal histories were then used with a more detailed chemical kinetic model of hydrocarbon generation and expulsion, modified from a model developed for the Cretaceous La Luna shale, to simulate pore pressure development and detailed aspects of the hydrocarbon chemistry. When compared to values estimated from sonic logs, the pore pressure calculation underestimates the role of hydrocarbon generation and overestimates the role of compaction disequilibrium, but it matches well the general areal extent of pore pressures of 0.7 times lithostatic and higher. The simulated chemistry agrees very well with measured values of HI, PI, H/C atomic ratio of the kerogen, and Rock-Eval S1. The model is not as successful in simulating the amount of extracted bitumen and its saturate content, suggesting that detailed hydrous pyrolysis experiments will probably be needed to further refine the chemical model.

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作者
Sweeney, J. J.; Braun, R. L.; Burnham, A. K.; Gosnold, W. D.;
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年度 1992
页码 1-60
总页数 60
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Hydrocarbons; North Dakota; Chemical Reaction Kinetics; Heat Flow; Kerogen; Maturation; Migration; Petroleum Geology; Pore Pressure; Pyrolysis; Source Rocks; Stratigraphy; EDB/020200; EDB/030200; EDB/040200;

机译：碳氢化合物;北达科他州;化学反应动力学;热流;干酪根;成熟;迁移;石油地质;孔隙压力;热解;烃源岩;地层学; EDB / 020200; EDB / 030200; EDB / 040200;

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1. Integrated data-driven 3D shale lithofacies modeling of the Bakken Formation in the Williston basin, North Dakota, United States [J] . Bhattacharya Shuvajit, Carr Timothy R. Journal of Petroleum Science & Engineering . 2019,第期

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4. CO2 storage and utilization in tight hydrocarbon-bearing formations: a case study of the Bakken Formation in the Williston Basin [C] . James A. Sorensen, Jason R. Braunberger, Guoxiang Liu International Conference on Greenhouse Gas Control Technologies . 2015

机译：CO2储存和利用紧密碳氢化合物的地层：威尔斯顿盆地Bakken形成的案例研究
5. Chemostratigraphy and geochemical constraints on the deposition of the Bakken Formation, Williston Basin, eastern Montana and western North Dakota. [D] . Maldonado, David Nyrup. 2012

机译：对巴肯组，威利斯顿盆地，蒙大拿州东部和北达科他州西部沉积的化学地层学和地球化学约束。
6. Organic compounds in produced waters from the Bakken Formation and Three Forks Formation in the Williston Basin North Dakota [O] . Matthew S. Varonka, Tanya J. Gallegos, Anne L. Bates, 2020

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7. Developing an oil generation model for resource assessment of the Bakken Formation, U.S. portion of the Williston Basin, North Dakota and Montana [O] . K.B. Krystinik, Ronald R. Charpentier 1984

机译：开发用于资源评估的油生成模型，美国威尔斯顿盆地，北达科他州和蒙大拿州的部分
8. Modelling of Hydrocarbon Generation Patterns in the Egersund Sub-Basin, North Sea. [R] . Ritter, U. 1988

机译：北海艾格松子流域油气生成模式模拟。

Chemical kinetic model of hydrocarbon generation from the Bakken Formation, Williston Basin, North Dakota.

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