Lithologic Reservoirs ›› 2009, Vol. 21 ›› Issue (4): 130-134.doi: 10.3969/j.issn.1673-8926.2009.04.027

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Progress in the research of “continuous” petroleum accumulations abroad

GONG Yanjie,ZOU Caineng,YUAN xuanjun,TAO Shizhen,ZHU Rukai,WANG Lan   

  1. Research Institute of Petroleum Exploration & Development, PetroChina, Beijing 100083, China
  • Online:2009-12-16 Published:2009-12-16

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Abstract:

The exploration and development of unconventional oil and gas abroad have made significant progress, some unconventional oil and gas reservoirs have continuous geological features. It is meaningful to summarize the geologic features of continuous petroleum accumulations for guiding domestic hydrocarbon exploration. The background, definition and characteristics of the “continuous” petroleumaccumulations were depicted through studying a number of related foreign papers. It shows that “continuous” petroleumaccumulations have large spatial dimensions and indistinctly defined boundaries, and exist more or less independent water column, and can be assessed with FORSPAN methods different from conventional accumulations resource-assessment.

Key words: volcanic rock, diagenesis and diagenetie evolution, origin mechanism, evaluation forecasting technique, volcanic reservoir geology

[1] Attanasi E D,Root D H. The enigma of oil and gas field growth[J].AAPG Bulletin,1994,78(3):321-332.
[2] Roen J B,Kepferle R C. Petroleum geology of the Devonian and Mississippian black shale of eastern North America[J]. USGS Bulletin,1990b,7(1):1-20.
[3] Charpentier,Wallace. Estimates of unconventional natural gas resources of the Devonian shales of the Appalachian basin [J]. USGS Bulletin,1993,8(3):21-68.
[4] McCabe P J. Energy resources-cornucopia or empty barrel[J]. AAPG Bulletin,1998,82(11):2 110-2 134.
[5] Kuuskraa V A,Schmoker J W. Koperna Barnett Shale rising star in Fort Worth basin[J]. Oil & Gas Journal,1998,96(21):67-76.
[6] 张厚福,徐兆辉.从油气藏研究的历史论地层-岩性油气藏勘探[J].岩性油气藏,2008,20(1):114-123.
[7] Masters JA.Deep Basin Gas Trap,Western Canada[J].AAPG Bulletin,1979,63(2):152-181.
[8] Law B E,Dickinson WW. Conceptual model for origin of abnormally pressured gas accumulation in low-permeability reservoirs [J].AAPG Bulletin,1985,69(8):1 295-1 304.
[9] Law B E, Spencer WC. Gas in tight reservoirs—an emerging energy [J]. USGS Professional Paper,1993,12(1):233-252.
[10] Rose P R. Possible basin centered gas accumulation,Roton basin,Southern Colorado[J]. Oil & Gas Journal,1986,82(10):190-197.
[11] Schmoker J W. Resource-assessment perspectives for unconventional gas systems[J]. AAPG Bulletin,2002,86(11):1 993-1 999.
[12] Johnson R C,Crovelli R A,Spencer C W. An assessment of gas resources in low-permeability sandstones of the Upper Cretaceous Mesaverde Group, Piceance basin, Colorado [J]. USGS Open-File Report,1987,8(3):87-357.
[13] Johnson R C,Finn T M,Crovelli R A. An assessment of in-place gas resources in low-permeability Upper Cretaceous and lower Tertiary sandstone reservoirs,Wind River basin,Wyoming[J]. USGS Open-File Report,1996,8(6):96-264.
[14] Klett T R. USGS assessment model for undiscovered conventional oil,gas,and NGL resources—the seventh approximation[J]. USGS Bulletin 2165,1999,6(4):11-67.
[15] Schmoker J W. U. S. Geological Survey assessment model for continuous (unconventional) oil and gas accumulations—the “FORSPAN”Model[J]. USGS Bulletin,1999,36(1):81-192.
[16] Schmoker J W. Resource-assessment perspectives for unconventional gas systems[J]. AAPG Bulletin,2002,86(11):1 993-1 999.
[17] Schmoker J W,Quinn J C,Crovelli R A. Production characteristics and resource assessment of the Barnett Shale continuous (unconventional)gas accumulation,Fort Worth basin,Texas[J]. USGS Open-File Report,1996b,33(4):96-254.
[18] Klett T R,Charpentier R R. FORSPAN Model Users Guide [J].USGS Open-File Report,2003,4(3):3-354.
[19] Crovelli R A. Probabilistic method for subdividing petroleum resources into depth slices[J]. USGS Open-File Report,1999,9(1):99-343.
[20] Crovelli R A. Analytic resource assessment method for continuous(unconventional) oil and gas accumulations—The “ACCESS”method[J]. USGS Open-File Report,2000,11(3):1-44.
[21] Robert C M. Assessment of undiscovered natural gas resources in Devonian black shale Appalachian Basin, Eastern U.S.A.[J]. USGS Open-File Report,2005,9(1):1 268-2 005.
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