46 CHARACTERIZATION OF GEOLOGIC SEQUESTRATION OPPORTUNITIES IN THE <strong>MRCSP</strong> REGION REFERENCES CITED Adams, M.A., Eddy, G.E., Hewitt, J.L., Kirr, J.N., and Rightmire, C.T., 1984, <strong>Geologic</strong>al overview, coal resources, and potential methane recovery from coalbeds of the Northern Appalachian Coal Basin—Pennsylvania, Ohio, Maryland, West Virginia, and Kentucky, in Rightmire, C.T., Eddy, G.E., and Kirr, J.N., (Eds.) Coalbed methane resources of the United States: American Association of Petroleum Geologists, AAPG Studies in Geology #17, Tulsa, Oklahoma, p. 15-71. American Association of Petroleum Geologists, 1994, AAPG DataRom (CSDE, COSUNA, GSNA): AAPG, 1 CD-ROM. Ammerman, M.L., and Keller, G.R., 1979, Delineation of the Rome trough in eastern Kentucky by gravity and deep drilling data: AAPG Bulletin, v. 63, p. 341-353. Bachu, S., and Adams, J.J., 2003, Sequestration of CO 2 in geological media in response to climate change: capacity of deep saline aquifers to sequester CO 2 in solution: Energy Conversion and Management, v. 44, p. 3151-3175. Ball, D.C., 2005, Managing Climate Change and Securing a Future for the <strong>Midwest</strong>’s Industrial Base: presentation to the Ohio Gas Association—2005 Technical Seminar, March 31, 2005. Available at . Barton, K.E., Howell, D.G., and Vigil, J.F., 2003, The North American Tapestry of Time and Terrain: U.S. <strong>Geologic</strong>al Survey <strong>Geologic</strong> Investigations Series I-2781, 1 plate. . Beecy, D.A., Kuuskraa, V.A., and Schmidt, C., 2002, A perspective on the potential role of geologic options in a national carbon management strategy: Journal of Energy and Environmental Research, v. 2, no. 1. p. 47-53. (from U.S. Department of Energy, National Energy Technology Laboratory, First National Conference on Carbon Sequestration, 2001). Bentham, M., and Kirby, G., 2005, CO 2 Storage in Saline Aquifers: Oil & Gas Science and Technology—Rev. IFP, v. 60, No. 3, p. 559-567. Bergman, P.D., and Winter, E.M., 1995, Disposal of carbon dioxide in aquifers in the US: Energy Conversion and Management, v. 36, p. 523-526. Blackwell, D.D., and Richards, M.C., 2004a, Calibration of the AAPG Geothermal Survey of North America BHT Data Base: AAPG Bulletin, v. 88, no. 13 (Supplement), . Blackwell, D.D., and Richards, M.C., 2004b, Geothermal map of North America: AAPG Map, scale 1:6,500,000, 1 sheet. Blatt, H., Middleton, G., and Murray, R., 1980, Origin of sedimentary rocks, 2 nd edition: Englewood Cliffs, New Jersey, Prentice-Hall, Inc., 782 p. Blomberg, J.R., 1994, Ohio Fields Have Waterflood Potential: The American Oil & Gas <strong>Report</strong>er, November 1994, p. 107-111. Brennan, S.T. and Burruss, R.C., 2003, Specific sequestration volumes: a useful tool for CO 2 storage capacity assessment: U.S. <strong>Geologic</strong>al Survey Open-File <strong>Report</strong> 03-452, 12 p. Brown, K., Jazrawi, W., Moberg, R., and Wilson, M., 2001, Role of enhanced oil recovery in carbon sequestration—The Weyburn monitoring project, a case study, in First National Conference on Carbon Sequestration, 2001: U.S. Department of Energy, National Energy Technology Laboratory, 8 p. Carr, T. R., Wickstrom, L. H., Korose, C. P., Fisher, R. S., Solano-Acosta, W., and Eaton, N., 2003, Online tools to evaluate saline aquifers for CO 2 sequestration: Kansas <strong>Geologic</strong>al Survey Open-File <strong>Report</strong> 2003-33 . Dooley, J.J., Dahowski, R.T., Davidson, C.L., Bachu, S., Gupta, N., and Gale, J., 2004, A CO 2 storage supply curve for North America and its implications for the deployment of carbon dioxide capture and storage systems, in Rubin, E.S., Keith, D.W., and Gilboy, C.F., eds., Proceedings of GHGT7, Volume 1: Cheltenham, UK, IEA Greenhouse Gas Programme. Drahovzal, J.A., Harris, D.C., Wickstrom, L.H., Walker, Dan, Baranoski, M.T., Keith, B.D., and Furer, L.C., 1992, The East Continent Rift Basin: A new discovery: Kentucky <strong>Geologic</strong>al Survey, ser. 11, Special Publication 18, 25 p. Drobniak, A., Korose, C., Mastalerz, M., Moore, T.R., and Rupp, J. 2005, Sequestration of CO 2 in various geological media: An assessment of potential volumes in Indiana using GIS tools, in 2005 Eastern Section AAPG Meeting, September 18-20, 2005, Morgantown, WV: AAPG Search and Discovery Article #90044 . ESRI, 2005, Redlands, California, ESRI . Fisher, J.H., Barratt, M.W., Droste, J.S., and Shaver, R.H., 1988, Michigan Basin, in Sloss, L.L., ed., Sedimentary Cover-North American Craton, U.S.: Decade of North American Geology, The Geology of North America, v. D-2, p. 361-382. Gale, J., Christensen, N. P., Cutler, A., and Torp, T.A., 2001, Demonstrating the Potential for <strong>Geologic</strong>al Storage of CO 2: The Sleipner and GESTCO Projects. Environmental Geosciences, v. 8, no.3, p. 160-165. Gale, J., and Freund, P., 2001, Coal-bed methane enhancement with CO 2 sequestration worldwide potential: Environmental Geosciences, v. 8, no. 3, p. 210-217. Gao, D., Shumaker, R.C., and Wilson, T.H., 2000, Along-axis segmentation and growth history of the Rome trough in the central Appalachian basin: AAPG Bulletin, v. 84, p. 75-98. geoPLUS, Inc., 2005, PETRA geological software . Gluskoter, H., Mastalerz, M., and Stanton, R., 2002, The potential for carbon dioxide sequestration in coal beds: New evidence from methane and carbon dioxide adsorption analyses of coals from lignite to anthracite, in North-Central Section (36th) and Southeastern Section (51st), GSA Joint Annual Meeting (April 3-5, 2002): <strong>Geologic</strong>al Society of America Abstracts with Programs, v. 34, no. 2. p. 37. Gupta, N. and Bair, E.S., 1997, Variable-density flow in the midcontinent basin and arches region of the United States: Water Resources Research, v. 33, p. 1785-1802. Gupta, N., Sass, B., Sminchak, J., and Naymik, T., 1999, Hydrodynamics of CO 2 disposal in a deep saline formation in the midwestern United States, in Proceedings of the Fourth International Conference on Greenhouse Gas Control Technologies (GHGT-4), Eliasson, B., Riemer, P.W.F., and Wokaun, A., (Eds.), 30 August to 2 September 1998: Interlaken, Switzerland, Pergamon, p. 157-162. Gupta, N., Wang, P., Sass, B., Bergman, P., and Byrer, C., 2001, Regional and site-specific hydrogeologic constraints on CO 2 sequestration in the midwestern United States saline formations, in Proceedings of GHGT5, August 14-16, 2000.: Cairns, Australia. Gupta, N., Sass, B.M., Chattopadhyay, S., Sminchak, J., Wang, P., and Espie, T., 2004a, <strong>Geologic</strong> storage of CO 2 from refining and chemical facilities in the midwestern U.S.: Energy, v. 29, no. 9-10, p. 1599-1609. Gupta, N., Jagucki, P., Sminchak, J., Meggyesy, D., Spane, F., Ramakrishnan, T.S., and Boyd, A, 2004b, Determining carbon sequestration reservoir potential at a site-specific location within the Ohio River Valley Region, in Rubin, E.S., Keith, D.W., and Gilboy, C.F., (Eds.) Proceedings of GHGT7, Volume 1: Cheltenham, UK, IEA Greenhouse Gas Programme. Harper, J.A., and Laughrey, C.D., 1987, Geology of the oil and gas fields of southwestern Pennsylvania: Pennsylvania <strong>Geologic</strong>al Survey, Mineral Resource <strong>Report</strong> 87, 166 p. Hendriks, C.A and Blok, K., 1993, Underground storage of carbon dioxide: Energy Conversion and Management, v. 34, p. 949-957. Hinze, W.J., Kellogg, R.L., and O’Hara, N.W., 1975, Geophysical studies of basement geology of southern peninsula of Michigan: American Association of Petroleum Geologists Bulletin, v. 59, p. 1562-1584. Holt, T., Jensen, J.I., and Lindeberg, E., 1995, Underground storage of CO 2 in aquifers and oil reservoirs: Energy Conversion and Management, v. 36, p. 535-538. Houghton, J. T., Filho, L.G.M., Callander, B.A., Harris, N., Kattenberg, A., and Maskell, K., 1996, Climate Change 1995: The Science of Climate Change: Cambridge, England, Intergovernmental Panel on Climate Change, Cambridge University Press, 572 p. Houghton, J.T., Ding, Y., Griggs, D.J., Noguer, M., van der Linden, P.J., Dai, X., and Maskell, K., 2001, Climate change 2001: A scientific basis: Cambridge, England, Intergovernmental Panel on Climate Change, Cambridge University Press, 881 p. Hovorka, S.D., Doughty, C., Knox, P.R., Green, C.T., Pruess, K., and Benson, S.M., 2001, Evaluation of brine-bearing sands of the Frio Formation, Upper Texas Gulf Coast for geological sequestration of CO 2, in First
REFERENCES CITED 47 National Conference on Carbon Sequestration, 2001: U.S. Department of Energy, National Energy Technology Laboratory, 13 p. Hutchinson, M.F. and Gallant, J.C. 2000, Digital elevation models and representation of terrain shape, in Wilson, J.P. and Gallant, J.C., (Eds.) Chapter 2, Terrain Analysis: New York, Wiley, p. 29-50. Jarrell, P.M., Fox, C.E., Stein, M.H., and Webb, S.L., 2002, Practical aspects of CO 2 flooding: SPE Monograph 22, 220 p. Lemmon, E.W., McLinden, M.O., and Friend, D.G., 2003, Thermophysical Properties of Fluid Systems, in NIST Chemistry WebBook, NIST Standard Reference Database Number 69, eds. Linstrom, P.J. and Mallard, W.G., March 2003: Gaithersburg MD, National Institute of Standards and Technology, . Martin, R., 2002, Kinder-Morgan CO 2 Company: <strong>Geologic</strong>al sequestration and EOR, presentation given at Interstate Oil and Gas Compact Commission (IOGCC) Meeting on long-term storage of CO 2 in geologic formations, July 17-19, 2002, Alta, Utah: Interstate Oil and Gas Compact Commission . Mastalerz, M., Gluskoter, H., and Rupp, J., 2004, Carbon dioxide and methane sorption in high volatile bituminous coals from Indiana, USA: International Journal of Coal Geology, v. 60, p. 43-55. Mavor, M. and Nelson, C.R., 1997, Coalbed reservoir gas-in-place analysis: Gas Research Institute GRI-97/0263, 148 p. McGuire, W.H., and Howell, P., 1963, Oil and gas possibilities of the Cambrian and lower Ordovician in Kentucky: Lexington, Kentucky, Spindletop Research Center for the Kentucky Department of Commerce, 216 p. Michigan Oil and Gas Association, 1999, The facts about Michigan’s oil and gas industry: Michigan Oil and Gas Association, 14 p. . Milici, R.C., 2004, Assessment of Appalachian basin Oil and Gas Resources: Carboniferous Coal-bed Gas Total Petroleum System; U.S. <strong>Geologic</strong>al Survey Open-file <strong>Report</strong> 2004-1272, 59 p. National Aeronautics and Space Administration (NASA), 2002, Shuttle Radar Topography Mission: data distributed by U.S. <strong>Geologic</strong>al Survey- EROS Data Center. Natural Gas Monthly: Energy Information Administration, U.S. Department of Energy . NOAA, 2000, Normal daily mean temperature, degrees F, 1971-2000: NOAA . Nuttall, B. C., Drahovzal, J.A., Eble, C. F., and Bustin, R. M., 2005a, CO 2 Sequestration in Gas Shales of Kentucky [abs]: Abstracts Volume AAPG 2005 Annual Convention, June 19-22, 2005, p. A101-A102. Nuttall, B.C., Drahovzal, J.A., Eble, C.F., and Bustin, R.M., 2005b, Analysis of the Devonian black shale in Kentucky for potential carbon dioxide sequestration and enhanced natural gas production, Quarterly <strong>Report</strong>: Kentucky <strong>Geologic</strong>al Survey, report of research in progress, 83 p. . Pashin, J.C., Carroll, R.E., Groshong Jr., R.H., Raymond, D.E., McIntyre, M.R., Payton, W.J., 2003, <strong>Geologic</strong> screening criteria for sequestration of CO 2 in coal: quantifying potential of the Black Warrior coalbed methane fairway, Alabama: Annual Technical Progress <strong>Report</strong>, U.S. Department of Energy, National Energy Technology Laboratory, contract DE-FC- 00NT40927, 190 p. Quinlan, G.M., and Beaumont, C., 1984, Appalachian thrusting, lithospheric flexure, and the Paleozoic stratigraphy of the Eastern Interior of North America: Canadian Journal of Earth Sciences, v. 21, p. 973-996. Radhakrishnan, P., Solano-Acosta, W., and Rupp, J.A., 2004, Sequestration of CO 2 in various geological media: An assessment of potential volumes in Indiana using GIS tools, in 2004 Eastern Section AAPG Meeting, October 3-5, 2004, Columbus, Ohio: AAPG Search and Discovery Article #90031 . Reichle, D., and 19 coauthors, 1999, Carbon Sequestration Research and Development: Washington, D.C., U.S. Department of Energy, Offices of Science and Fossil Energy, 1999, 289 p. . Reznik, A., Singh, P.K., and Foley, W.L., 1982, An analysis of the effect of carbon dioxide injection on the recovery of in-situ methane from bituminous coal: An experimental simulation: Society of Petroleum Engineers/ U.S. Department of Energy 10822. Rice, D.D., 1995, <strong>Geologic</strong> framework and description of coal-bed gas plays, in Gautier, D.L., Dolton, G.L., Takahaski, K.I., and Varnes, K.L., (Eds.) National Assessment of United States Oil and Gas Resrouces: Results, methodology, and supporting data: U.S. <strong>Geologic</strong>al Survey Digital Data Series DDS-30, 103 p., maps. Russell, W.L., 1972, Pressure-depth relations in Appalachian region. AAPG Bulletin, v. 56, p. 528-536. Schmoker, J.W., 1993, Use of formation-density logs to determine organiccarbon content in Devonian shales of the western Appalachian Basin and an additional example based on the Bakken Formation of the Williston Basin, in Roen, J.B. and Kepferle, R.C., (Eds.) Petroleum geology of the Devonian and Mississippian black shale of eastern North America: U. S. <strong>Geologic</strong>al Survey Bulletin 1909, p. J1-J14. Schoeling, L., 1999, Enhanced coalbed methane production with carbon dioxide injection: New Orleans, LA, Interstate Oil and Gas Compact Commission Annual Meeting Presentation Notes, December 14. Schrider, L.A., 1993, Marlboro reservoir management study, East Canton oil field, Ohio, presented at Independent Oil and Gas Producers meeting in Santa Fe, New Mexico, June 23, 1993. Schroeder, K., Ozdemir, E., and Morsi, B.I., 2002, Sequestration of carbon dioxide in coal seams: Journal of Energy and Environmental Research, v. 2, no. 1. p. 54-63. (from U.S. Department of Energy, National Energy Technology Laboratory, First National Conference on Carbon Sequestration, 2001). Schruben, P.G., Arndt, R.E., and Bawiec, W.J., 1997, Geology of the Conterminous United States at 1:2,500,000 scale - A Digital Representation of the 1974 P.B. King and H.M. Beikman Map: U.S. <strong>Geologic</strong>al Survey Digital Data Series DDS-11, release 2. . Shrake, D.L., Carlton, R.W., Wickstrom, L.H., Potter, P.E., Richard, B.H., Wolfe, P.J., and Sitler, G.W., 1991, Pre-Mount Simon Basin under the Cincinnati Arch: Geology, v. 19, p. 139-142. Shumaker, R.C., 1996, Structural history of the Appalachian Basin, in Roen, J.B., and Walker, B.J., (Eds.) Atlas of Major Appalachian Gas Plays: Gas Research Institute, West Virginia <strong>Geologic</strong>al and Economic Survey Publication v. 25, p. 8-22. Tankard, A.J., 1986, Depositional response to foreland deformation in the Carboniferous of eastern Kentucky: AAPG Bulletin, v. 70, p. 853-868. Thomas, W.A., 1995, Diachronous thrust loading and fault partitioning of the Black Warrior foreland basin within the Alabama recess of the Late Paleozoic Appalachian-Ouachita thrust belt, in Dorobek, S.L., and Ross, G.M. (Eds.) Stratigraphic Evolution of Foreland Basins: SEPM Special Publication, v. 52, p. 111-126. U.S. Department of Energy, 1999, Carbon sequestration research and development: Office of Fossil Energy, Office of Science, Washington, D.C., December, 195 p. U.S. Department of Energy, 2002, CO 2 capture and storage in geologic formations: Office of Fossil Energy, NCCTI Energy Technologies Group, CO 2 Capture and Storage Working Group, Washington, D.C., White paper prepared for the National Climate Change Technology Institute, 34 p. . U.S. Department of Energy, 2004, Carbon sequestration technology roadmap and program plan: National Energy Technology Laboratory, 24 p. . U.S. Department of Energy, 2005, Carbon sequestration, technology roadmap and program plan 2005: National Energy Technology Laboratory, 26 p. . van der Meer, L.G.H., 1995, The CO 2 storage efficiency of aquifers: Energy Conversion and Management, v. 36, p. 513-518. van der Straten, J., 1996, CO 2 storage equation, in Holloway, S., (Eds.), The Underground Disposal of Carbon Dioxide, Final <strong>Report</strong> of the JOULE II Project: British <strong>Geologic</strong>al Survey, Contract No. JOU2 CT92 0031. Venteris, E.R., Solis, M.P., Carter, K.M., and McDonald, J., 2005, Uncertainty and grid-resolution analysis for regional-scale geologic maps, in
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