收稿日期: 2005-11-29
修回日期: 2005-12-28
网络出版日期: 2006-02-20
基金资助
国家自然科学基金项目(编号:40073022)资助.
THE COUPLING AND DIFFERENCES BETWEEN DEEP OIL-GAS AND ABIOGENIC OIL/GAS
Received date: 2005-11-29
Revised date: 2005-12-28
Online published: 2006-02-20
妥进才;王先彬; . 深层油气和非生物成因天然气的耦合与差异[J]. 天然气地球科学, 2006 , 17(1) : 36 -41 . DOI: 10.11764/j.issn.1672-1926.2006.01.36
This paper deal with the advances and research status, exploration expectation, the coupling and differences of deep oil/gas and abiogenic oil/gas. Deep oil/gas and abiogenic oil/gas researches are the important research and exploration are a in oil and gas exploration domain and will be of important theoretical signifi cance and extensive exploration expectation in the future. Deep oil/gas and abio genic oil/gas are fundamentality different in their formation mechanism, but they also have much similarity in their physical and chemical conservation environm ent. Both deep oil/gas and abiogenic oil/gas were also going through much simila r thermal maturity process in the deep higher temperature and higher pressure en vironments. We need also pay some attention on the abiogenic oil/gas during the deep oil/gas exploration process.
Key words: Deep oil; gas; Abiogenic oil; gas; Coupling and differences; Exploration expectation.
[1]马克西莫夫 С П.深层油气的形成与分布[M].胡征钦译.北京:石 油工业出版社,1988:1-285.
[2] 刘淑萱.深层油气藏储集层与相态预测[M].北京:石油工业出版社,1992.
[3] DYMAN T S, RICE D D, SCHMOKER J W, et al.Geologic studies of d eep natural gas resource[C]//HOWELL D G, WIESE K, FANELLI M, et al.The fut ure of energy gases.US Geological Survey Professional Paper 1570. United States Government Printing Office, Washington,1993:171-203.
[4] 李小地.中国深部油气藏的形成与分布初探[J].石油勘探与开发,1994,21 (1):34-39.
[5] 妥进才,王先彬,周世新,等.深层油气勘探现状与研究进展[J].天然气地 球科学,1999,10(6):1-8.
[6] 王先彬.开发能源的思考与选择[J].科学通报,1999,44(5):550-560.
[7] 妥进才.深层油气研究现状及进展[J].地球科学进展,2002,17(4):565- 571.
[8]PRICE L C. Thermal stability of hydrocarbons in nature: Limit s, evidence, characteristics, and possible controls[J]. Geochim Cosmochim Acta , 1993,57:3261-3280.
[9] PRICE L C. Aqueous solubility of crude oil to 400℃, 2000 bars pres sure in the presence of gas[J].J Petrol Geol,1981,(4):195-223.
[10] PRICE L C, CLAYTON J L, RUMEN L L. Organic geochemistry of the 9.6 km Bertha Rogers No.1 well, Oklahoma[J]. Org Geochem, 1981,3:59-77.
[11] PRICE L C. Organic geochemistry of core samples from an ultradeep ho t well (300℃,7 km)[J]. Chemical Geology, 1982,37:215-228.
[12] TAKACH N E, BARKER C, KEMP M K. Stability of natural gas in th e deep subsurface: Thermodynamic calculation of equibrium composition[J]. AAPG Bulletin, 1987, 71(3): 322-333.
[13] BURRUSS R C.Stability and flux of methane in the deep crust: a review[C]//HOWELL D G, WIESE K, FANELLI M, et al. The Future of Energy Ga ses. US Geological Survey Professional Paper 1570. United States Government Prin ting Office, Washington, 1990:21-29.
[14] 王先彬,李春园,陈践发,等.论非生物成因天然气[J].科学通报,1997,42(12 ):1233-1241.
[15] 王先彬,妥进才,李振西,等.天然气成因理论探索——拓宽领域、寻找新资源 [J]. 天然气地球科学,2003,14(1):30-34.
[16] SAXENA S K, FEI Y. High pressure and high temperature fluid fugacities[ J]. Geochim Cosmochim Acta,1987,51(4):783-793.
[17] SAXENA S K, FEI Y.Fluid mixture in the C-H-O system at high pressure and high temperature[J]. Geochim Cosmo- chim Acta, 1988a,52(2):502-512.
[18] SAXENA S K, FEI Y.The pressure-volume-temperature eq- uastion of hydrogen[J]. Geochim Cosmochim Acta,1988b,52(5):1195-1201.
[19] BAI Z H, WANG X B.Thermodynamic study on the compo- sitoins of f luid phases in the C-H-O system under high temperature and pressure[J]. Chines e J Geochem,1998,17(2):103-113.
[20] PRICE L C, WENGER L W.The influence of pressure on petroleum generation and maturation as suggestion by aqueous pyrolysis[J].Org Geochem, 1992,19:141-159.
[21] HUNT J M.Generation and migration of petroleum from abnormally pressured fluid compartments[J].AAPG Bull,1990,74:1-12.
[22] MCTAVISH R A. Pressure retardation of vitrinite diagene- sis, of fshore Northwest Europe[J]. Nature, 1978,271:648-650.
[23]HAO FANG, SUN YONGCHUAN, LI SITIAN, et al. Overpressure retard ation of organic matter maturation and metroleum generation :A casestudy from th e Yinggehei and Qingdongnan Basins, South China Sea[J]. AAPG Bulletin,1995,79( 4):551-562.
[24] HAO FANG, LI SITIAN, SUN YONGCHUAN, et al. Characteristics and origin of the gas and condensate in the Yinggehai Basin, offshore South China Sea:Evidence for effect of overpressure on petroleum generation and maturation[J]. Org Geochem,1996,24(3):363-375.
[25] DALLA T M.Experimental study on the pressure dependence of vit rinite maturation[J]. Org Geochem,1997,61:2921-2928.
[26] CARR A D.A vitrinite reflectance kinetic model incorporating o verpressure retardation[J]. Marine and Petrol Geol, 1999,16:355-377.
[27] LANDES K K. Ecometamorphism, oil and gas in time and space[J]. AAPG Bu ll,1967,51:828-841.
[28]DOW W G.Kerogen studies and geological interpretations[J]. J Geo chem Explor,1977,7:77-79.
[29] HOOD A, GUTIJAHR C C M, Heacock R L.Organic metamorphism and t he generation of petroleum[J]. AAPG Bull,1975,59:986-996.
[30] APPS J A, KEMP P C.Energy gases of abiogenic origin in the Earth's crus t[C]//HOWELL D G, WIESE K, FANELLI M, et al. The future of energy gases. US Geological Survey Professional Paper 1570. United States Government Printing Office, Washington,1993:81-132.
[31] MANGO F D.Transition metal catalysis in the generation of petroleum and natural gas[J]. Geochim Cosmochim Acta,1992,56:553-555.
[32] MANGO F D.Role of transition metal catalysis in the formation of natural gas[J].Nature,1994,368:536-538.
[33] MANGO F D.The carbon isotopic composition of catalytic gas: A comparativ e analysis with natural gas[J].Geochim Cosmochim Acta,1999, 63(7/8):1097-1106 .
[34] MCNEIL R I.Thermal stability of hydrocarbons: Laboratory criteria and fi eld examples[J]. Energy & Fuels,1996,10:60-67.
[35] 赵文智,窦立荣. 中国陆上剩余油气资源潜力及其分布和勘探对策[J]. 石油勘探与开发,2000,28(1):1-5.
[36] HUNT C W, COLLINS L G, SKOBELIN E A.Expanding geospheres-energy and mas s transfers from Earth1interior[M]. Calgary:Polar Publishing,1992.1-421.
[37] GOLD T, SOTER S.Abiogenic methane and the origin of Petroleum[J]. Ener gy Explor Exploit,1982,1:89-103.
[38] 郭占谦,王先彬.松辽盆地非生物成因气的探讨[J].中国科学,1994,24(3):30 3-309.
[39] 郭占谦,王先彬,刘文龙.松辽盆地非生物成因气的成藏特征[J].中国科学(D辑) ,1997,27(2):143-148.
[40] 王先彬.地球深部来源的天然气[J].科学通报,1982,17:1069-1071.
[41] 戴金星,宋岩,戴金星,等. 中国东部无机成因气及其气藏形成条件[M].北京: 科学出版社,1995.
[42] 戴金星,秦胜飞,陶士振,等.中国天然气工业发展趋势和天然气地学理论重要进 展[J].天然气地球科学,2005,16(2):127-142.
[43]杜乐天,刘若新,邓晋福.地幔流体与软流层(体)地球化学[M].北京:地质出版社,1996.
[44] 张景廉.论石油的无机成因[M].北京:石油工业出版社,2001.
[45] 德米特里涅夫斯基 阿恩,瓦里阿耶夫 伯穆.地球去气作用:地球动力学、地球流体、石油和天然气[C]//纪念克罗泡金 甫 恩院士国际会议资料.莫斯科,2005.
[46] GOLD T.The Origin of methane in the crust of earth[C]//HOWELL D G, WIE SE K, FANELLI M, et al. The future of energy gases. US Geological Survey Pro fessional Paper 1570. United States Government Printing Office, Washington,1993 :57-80.
[47] JENDEN P D, HILTON D R, KAPLAN I R, et al.Abiog- enic hydrocarbon and mantle helium in oil and gas fields[C]//HOWELL D G, WIESE K, F ANELLI M, et al. The future of energy gases. US Geological Survey Profession al Paper 1570. United States Government Printing Office, Washington,1993:31-56.
[48]HORITA J, BERNDT M E.Abiogenic methane formation and isotopic frac tion under hydrothermal condition[J]. Science, 1999,285:1055-1057.
[49]LOLLAR B S, WESTGATE T D, WARD J A, et al.Abiogenic formation of alk anes in the earth`s crust as a minor source for global hydrocarbon reservoirs[J ]. Nature, 2002,416:522-524.
/
| 〈 |
|
〉 |
甘公网安备 62010202000678号