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The AAPG/Datapages Combined Publications Database

Environmental Geosciences (DEG)

Abstract

DOI: 10.1306/eg.03101413009

Parametric analysis of CO2 geologic sequestration in closed volumes

Srikanta Mishra,1 Yagna Deepika Oruganti,2 and Joel Sminchak3

1Battelle Memorial Institute, 505 King Avenue, Columbus, Ohio 43201; [email protected]
2Battelle Memorial Institute, 505 King Avenue, Columbus, Ohio 43201; Presently at Baker Hughes Inc., 2929 Allen Parkway, Houston, Texas 77019; [email protected]
3Battelle Memorial Institute, 505 King Avenue, Columbus, Ohio 43201; [email protected]

ABSTRACT

EG13009eq1 geologic sequestration has been recognized as a potential greenhouse gas mitigation strategy. Regional EG13009eq2 geologic storage in deep saline formations will likely involve the injection of EG13009eq3 to 100 million metric tons (11 to 110 million tons) of EG13009eq4 per year using a network of EG13009eq5 to 50 wells over an area covering EG13009eq6 sq. miles (EG13009eq7). Some of the wells will be injecting into closed volumes because of symmetry, thus providing the bounding case in terms of pressurization and brine efflux. This study describes a parametric analysis of the problem using characteristics typical of the Arches Province in the United States Midwest where Paleozoic rocks form broad arch and platform structures. Two-dimensional radial-cylindrical models developed with the numerical simulator STOMP (Subsurface Transport Over Multiple Phases) are utilized to investigate the impact of well spacing, injection depth, and reservoir characteristics of the injection zone (Mount Simon) and cap rock (Eau Claire) on system performance. Multiple linear regression analysis is then used to develop correlation equations between these design variables and performance metrics, such as cumulative EG13009eq8-mass injected and EG13009eq9-plume extent. The correlations are tested on new synthetic test sites, and are found to predict the performance metrics quite accurately. These results serve as a proxy simulator to quickly evaluate various design options, instead of having to run time-consuming numerical simulations, and can therefore be applied for developing optimal injection strategies for regional EG13009eq10 storage in the Arches Province.

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