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DOI	10.1306/03061918066
	Multimineral diagenetic forward modeling for reservoir quality prediction in complex siliciclastic reservoirs
	Esch W.L.
发表日期	2019
ISSN	0149-1423
起始页码	2807
结束页码	2834
卷号	103期号:12
英文摘要	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 treated on a kinetic basis using independent Arrhenius-style rate equations, and nonmodeled cements are constrained by empirical observations and data from analog rocks. The nonmodeled cements pose a significant modeling challenge in complex lithic and arkosic sandstones that contain carbonate, clay, or zeolite cements when analog data are not available for constraint. Twenty-nine samples covering a broad range of sandstone compositions were selected from four fields in four different sedimentary basins to investigate the potential of using modern reactive transport models (RTM) to simulate a more comprehensive suite of minerals involved in sandstone diagenesis. A commercially available RTM, GWB® X1t, was configured to model chemical diagenesis in a time-temperature burial framework conceptually similar to that employed in standard industry RQ forward models. Strategies were developed to consistently constrain kinetic parameters, fluid compositions, and fluid fluxes with the goal of standardizing these parameters to reduce configuration and calibration time. Results show that RTM using such standardized parameters can reproduce relative timing and volume changes caused by mineral dissolution and precipitation that are accurate within the uncertainty of the petrographic data constraint. The results suggest that incorporation of RTM into current industry models could provide a valuable improvement to siliciclastic RQ prediction in frontier plays with complex mineralogies wherever calibration data are sparse or unavailable. © 2019 The American Association of Petroleum Geologists. All rights reserved.
语种	英语
scopus关键词	Calibration; Cementing (shafts); Cements; Forecasting; Gas industry; Minerals; Petroleum industry; Sandstone; Sedimentology; Zeolites; Aluminosilicate minerals; Mechanical compaction; Mineral dissolution and precipitations; Oil and Gas Industry; Reactive transport models; Sandstone composition; Sandstone diagenesis; Siliciclastic reservoirs; Mineral industry; complexity; diagenesis; forward modeling; groundwater exploration; hydrocarbon reservoir; parameterization; porosity; prediction; siliciclastic deposit; surface temperature
来源期刊	AAPG Bulletin
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/143747
作者单位	ExxonMobil Upstream Integrated Solutions Company, Houston, TX, United States
推荐引用方式 GB/T 7714	Esch W.L.. Multimineral diagenetic forward modeling for reservoir quality prediction in complex siliciclastic reservoirs[J],2019,103(12).
APA	Esch W.L..(2019).Multimineral diagenetic forward modeling for reservoir quality prediction in complex siliciclastic reservoirs.AAPG Bulletin,103(12).
MLA	Esch W.L.."Multimineral diagenetic forward modeling for reservoir quality prediction in complex siliciclastic reservoirs".AAPG Bulletin 103.12(2019).

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