Carbon sequestration in the Mt. Simon Sandstone saline reservoir

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Bibliographic Details
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doi: 10.1306/13171243St592566
Authors:Leetaru, H.E.; Frailey, S.; Morse, D.; Finley, R.J.; Rupp, J.A.; Drahozval, J.A.; McBride, J.H.
Volume Title:Carbon dioxide sequestration in geological media; state of the science
Volume Authors:Grobe, M., editor
Source:Carbon dioxide sequestration in geological media; state of the science, edited by M. Grobe, J.C. Pashin and R.L. Dodge. AAPG Studies in Geology, Vol.59, p.261-277. Publisher: American Association of Petroleum Geologists, Tulsa, OK, United States. ISSN: 0271-8510. ISBN: 978-0-89181-066-7
Publication Date:2009
Note:In English. 16 refs.; illus., incl. strat. col., sects., 1 table, geol. sketch maps
Subjects:Aquifers; Arkose; Brines; Cambrian; Carbon dioxide; Carbon sequestration; Clastic rocks; Coal; Devonian; Eau Claire Formation; Gas injection; Gas storage; Ground water; Lithofacies; Maquoketa Formation; Mount Simon Sandstone; New Albany Shale; Oil and gas fields; Ordovician; Paleozoic; Permeability; Porosity; Power plants; Reservoir properties; Reservoir rocks; Salinity; Sandstone; Sealing; Sedimentary rocks; Shale; Siltstone; Site exploration; Upper Cambrian; Upper Ordovician; Volume; Waste disposal; Champaign County Illinois; Illinois; Illinois Basin; Midwest; United States; Loudon Field; Manlove Field
Coordinates:N395200 N402300 W0875400 W0882700
Record ID:2013086058
Copyright Information:GeoRef, Copyright 2020 American Geosciences Institute.
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