| [1] |
[1]刘文汇,余心科,张柏生等.沉积有机质芳核与侧链碳同位素组成分布特征[J].科学通报,1995,40(2):145~147[Liu Wenhui, Yu Xinke, Zhang Baisheng , Carbon isotope distribution in aromatic and aliphatic side chains of sedimenta ry organic matter[J]. Chinese Science Bulletin, 1995,40(9):753~757] [2]Rooney M A, Claypool G E, Chung H M. Modeling thermogenic gas generatio n using carbon isotope ratios of natural gas hydrocarbons[A]. In: Rice D D and Schoell M, eds. Processes of natural gas formation[C]. Chemical Geology,1995, 126(3-4):219~232 [3]Galimov E M. Sources and mechanisms of formation of gaseous hydrocarbon s in sedimentary rocks[A]. In: Schoell M,ed. Origins of methane in the Earth[ C]. Chemical Geology, 1988, 71(1-3):77~95 [4]刘金钟,唐永春.用干酪根生烃动力学方法预测甲烷生成量之一例[J].科学通报 ,1998,43(11):1187~1191[Liu Jinzhong, Tang Yongchun. Kinetics of early meth ane generation from Green River shale[J]. Chinese Science Bulletin, 1998, 43(2 2):1908~1913] [5]Hunt J M. Petroleum geochemistry and geology[M]. Freeman W H, San Fra ncisco, Calif, 1979, 617 [6]Parparova G M, Neruchev S G, Shukova A B, et al. Katagenesis and oi l and gas bearing capacity[M]. Nedn. Leningrad, 1981.240 [7]Rogozina E A. Gas formation during katagenesis of organic matter in sed imentary rocks[M]. Nedra Len ingrad, 1983. 164 [8]Trofimuk A A, et al. stages and zonality of oil and gas formation i n basins of different types[R]. Proc 27th Int Geol Congr, Moscow, 1984, 13:81~ 88 [9]Rice D D. Relation of natural gas composition to thermal maturity and s ource rock type in San Juan Basin, northwestern New Mexico and southwestern Colo rado[J]. AAPG Bull, 1983,67:1199~1218 [10]Tissot B P, Welte D H. petroleum formation and occurrence[M]. Springer Ber lin, 2nd ed.,1984,699 [11]James A T. Correlation of reservoired gases using the carbon isotopic compo sitions of wet gas components[J]. AAPG Bull, 1990,74(9): 1441~1458 [12]Stahl W J. carbon isotope ratios of German natural gases in comparison with isotopic data of gaseous hydrocarbons from other parts of the world[A]. In: Ti ssot B and Bienner F, eds. Advances in Organic Geochemistry, Technique[C]. Pa ris, 1973.453~462 [13]Burwood R, Drozd R J, Halpern H I, Sedivy R A. Carbon isotopic variations of kerogen pyrolyzates[J]. Org Geochem, 1988, 12(2):195~205 [14]Berner U, Faber E, Scheeder G. Panten D. Primary cracking of algal and landp lant kerogens; kinetic models of isotope variations in methane, ethane and propa ne[A]. In: Rice D D and Schoell M,eds. Processes of natural gas formation[C ]. Chemical Geology, 1995, 126(3-4):233~245 [15]Cramer B, Krooss B M, Littke R. Modelling isotope fractionation during pri mary cracking of natural gas: a reaction kinetic approach[J]. Chemical Geology ,1998, 149(3-4):235~250 [16]Chung H M, Sackett W M. Use of stable isotope compositions of pyrolytically derived methane as maturity indices for carbonaceous materials[J]. Geochim. Co smochim.Acta,1979,43:1979~1988 [17]Sackett W M. Carbon isotope composition of natural methane occurrences[J] .AAPG Bull, 1968, 52:853~857 [18]Sackett W M, Nakaparksin S, Dalrymple D. Carbon isotope effects in methane p roduction by thermal cracking[A]. In: Hobson G D and Speers G C ,eds.Advances in organic geochemistry[C]. 1970.37~53 [19]Franck D J, Sackett W M. Kinetic isotope effects in the thermal cracking of neopentane[J]. Geochim Cosmochim Acta, 1969, 33:811~820 [20]Franck D J, Smith J O, Sackett W M. Reevaluation of carbon-isotope composit ions of natural methanes[J]. AAPG Bull, 1974, 58:2319~2325 [21]Chung H M, Sackett W M. Carbon isotope fractionation during methane generati on from coal[J]. Soc.Am.Annual Mtng.(Abs),1975. [22]Sackett W M. Carbon and hydrogen isotope effects during the thermocatalytic production of hydrocarbons in laboratory simulation experiments[J]. Geochim C osmochim Acta, 1978,42(6B):571~580 [23]Tang Y, Jenden P D, Nigrini A, Teerman S C. Moldeling early methane generati on in coal[J]. Engery & Fuels,1996,10:659~671 [24]Gaveau B, Letolle R, Monthioux M. Evaluation of kinetic parameters from 13C isotopic effect during coal pyrolysis[J]. Fuel,1987,66:228~231 [25]Tang Y, Perry J K, Jenden P D, Schoell M. Mathematical modeling of stable ca rbon isotope ratios in natural gases[J]. Geochimica et Cosmochimica Acta, 2000 ,64(15):2673~2687 [26]Jeffrey A W A. Thermal and clay catalysed cracking in the formation of natur al gas[D]. 1989, Ph.D.dissertation. Texas A&M University, 100~107 [27]Behar F. Artificial coalification of a fossil wood from brown coal by confi ned system pyrolysis[J]. Energy & Fuels, 1995, 9:984~994 [28]Lorant F, Prinzhofer A, Behar F, Huc A Y. Carbon isotopic and molecular cons traints on the formation and the expulsion of thermogenic hydrocarbon gases[J] . Chemical Geology, 1998,147(3-4):249~264 [29]Behar F, Vandenbroucke M, Teermann S C, Hatcher P G, Leblond C. Experimental simulation of gas generation from coals and a marine kerogen[J]. Chemical Geo logy,1995, 126:247~260 [30]Behar F, Vandenbroucke M, Tang Y, Marquis F. Thermal cracking of kerogen in open and closed systems: determination of kinetic parameters and stoichiometric coefficients for oil and gas generation[J]. Org Geochem, 1997a, 26(5/6):321~33 9 [31]Behar F, Tang Y, Liu J. Comparison of rate constants for some molecular trac ers generated during artificial maturation of kerogens: influence of kerogen typ e[J]. Org Geochem, 1997b, No.3/4:281~287 [32]Mansuy L, Landais P, Ruau O. Importance of the reacting medium in artificial maturation of a coal by confined pyrolysis.1.hydrocarbons and polarpounds[J]. Energy & Fuels, 1995:691~703 [33]Andresen B, Throndsen T, Rheim A, Bolstad J. A comparison of pyrolysis prod ucts with models for natural gas generation[J]. Chemical Geology, 1995, 126: 2 61~280 [34]Mango F D. Transition metal catalysis in the generation of petroleum and nat ural gas[J]. Geochim Cosmochim Acta, 1992, 56:553~555 [35]Mango F D, et al. Role of transition-metal catalysis in the formation of natural gas[J]. Nature,1994, 368:536~538 [36]Mango F D. Transition metal catalysis in the generation of natural gas[A ]. In: Horsfield B, Claypool G, Telnaes N, et al.,eds. Proceedings of the 1 7th international meeting on Organic chemistry: Part Ⅲ, Origin of natural gase s: petroleum geochemistry, impact of organic geochemistry on exploration, migrat ion and expulsion of oil and gas[C]. Organic Geochemistry, 1996, 24(10-11):977 ~984 [37]Urey H C. The thermodynamic properties of isotopic substances[J]. J Am Che m Soc, 1947,57:562~581 [38]Botao G, Casanova G. Separation factors in isotopic phase equilibria. In: Is otopic and Cosmic Chemistry[A].In: Craig H , Miller S L and Wasserburg G J,eds . North-Holl and Publishing[C]. Amsterdam, 1964. 16~33 [39]Galimov E M. Carbon isotope in oil-gas geology[R]. NASA Technical Transla tion. NASA TT F-682, Washington. D. C. June 1975:395 [40]Galimov E M, et al. on the conditions of formation of gas deposits in th e eastern part of the Turan Plate as revealed by the carbon isotopic compositon of the gases[J]. Geochim. Int.,1973, 10(6):1259~1271 [41]James A T. Correlation of natural gas by use of carbon isotopic distribution between hydrocarbon components[J]. AAPG Bull, 1983, 67(7):1176~1191 [42]Hood A, Gutjahr C C M, Heacock R L. Organic metamorphism and generation o f petroleum[J]. AAPG Bull, 1975, 59(6):986~996 [43]Jenden P D, Kaplan I R. Origin of natural gas in the Sacramento Basin, Calif ornia[J]. AAPG Bull, 1988,73:431~453 [44]Jenden P D, Newell K D, Kaplan I R, Watney W L. Composition and stable-isot ope geochemistry of natural gases from Kansas, Midcontinent U.S.A[J]. Chemical Geology, 1988, 71:117~147 [45]Clayton C. Carbon isotope fractionation during natural gas generation from k erogen[J]. Marine and Petroleum Geology, 1991, 8(2):232~240 [46]Galimov E M, Posyagin V I, Prokhorov V S. Carbon isotope fractionation as a function of temperature in the CH4-C2H6-C3H8-C4H10 system[J] . Geokhimiya, 1972, 8:977~987 [47]Berner U, Faber E, Stahl W J. Mathematical simulation of the carbon isotopic fractionation coals and related methane[J]. Chemical Geology, 1992, 94:315~3 19 [48]Waples D W, Tornheim L. Mathematical models for petroleum-forming processes : carbon isotope fractionation[J]. Geochim Cosmochim Acta, 1978b, 42:467~472 [49]Waples D W, Tornheim L. Mathematical model for petroleum-forming process: n-paraffins and isoprenoid hydrocarbon[J]. Geochim Cosmochim Acta, 1978a, 42:457~465 [50]Burnham A K. A simple kinetic model of petroleum formation and cracking[R] . Lawrence Livermore Natl. Lab., Livermore, Calif., Intern. Publ. UCID-21665, 1 989. 11 [51]Smith J E, Erdman J G, Morris D A. Migration accumulation and retention of p etroleum in the earth[R]. 8th World Pet Cong Poc, 1971, 2:13~26 [52]Sundberg K R and Bennett C R. Carbon isotope paleothermometry of natural gas .In: Bjoroy M, et al, eds. Advances in Organic Geochemistry[C]. Wiley Chic hester, 1981.769~774 [53]Faber I. Zur Isotope en geochemeags formiger Kohlenwasserstoffe[J]. Erdl E dgas Kohle, 1987, 103:210~218 [54]Schoell M. Genetic characterization of natural gases[J]. AAPG Bull, 1983,6 7(12):2225~2238 [55]Bernard B B. Light hydrocarbons in marine sediments[D]. Doctoral, Texas A& M University, 1978, 154 [56]Whiticar M J, Faber E, Schoell M. Biogenic methane formation in marine and freshwater environments; CO2 reduction vs. acetate fermentation; isotope evid ence[J]. Geochim Cosmochim Acta, 1986, 50(5):693~709 [57]Chung H M, Gormly J R, Squires R M. Origin of gaseous hydrocarbons in subsur face environments; theoretical considerations of carbon isotope distribution[A ]. In: Schoell M ,ed. Origins of methane in the Earth[C]. Chemical Geology, 1 988, 71(1~3):97~103 [58]戴金星等.我国煤成烃气的δ13C-Ro关系[J].科学通报,1989,34(9): 690~692[Dai Jinxing, et al. The δ13C-Ro relationship of coal s ource hydrocarbon gases in China[J]. Chinese Science Bulletin, 1989,34(9):69 0~692] [59]戴金星.各类烷烃气的鉴别[J].中国科学(B辑),1992,B(2):185~193[Dai Jinxi ng, Identification of various hydrocarbon gases[J]. Science in China (series B ),1992,B(2):185~193] [60]徐永昌,沈平.中原、华北油气区煤型气地化特征初探[J].沉积学报,1985,3(2) :37~46[Xu Yongchang, Shen Ping. A preliminary study on geochemical characteris tics of coal-type gas in Zhongyuan-huabei oil-gas area[J]. Acta sedimentolo gica sinica,1985,3(2):37~46] [61]徐永昌等.中国化石燃料的同位素地球化学[J].中国科学(B 辑),1990,22(4): 409~418[Xu Yongchang, et al. Isotope geochemistry of fossil fuels of China [J]. Science in China (series B), 1990,22(4):409~418] [62]戴金星,戚厚发,宋岩.鉴别煤成气和油型气若干指标的初步探讨[J].石油学报,1985 ,6(2):31~38[Dai Jinxing, Qi Houfa, Song Yan. On the indicators for identify ing gas from oil and gas in coal measure[J]. Acta Petrolei Sinica,1985,6(2 ):31~38] [63]徐永昌等.天然气成因及大中型气田形成的地学基础[M].北京:科学出版社,20 00[Xu Yongchang,et al. Origin of natural gases and geological basis of generati on of large-middle scale gas field[M]. Beijing: Science Press,2000] [64]徐永昌等.辽河盆地天然气的形成与演化[M].北京:科学出版社,1993[Xu Yongchan g,et al. Generation and evolution of natural gases in Liaohe Basin[M]. Beij ing: Science Press,1993] [65]关平,徐永昌,刘文汇等.甲烷碳同位素分布数理模型的探讨[J].科学通报,1998,4 3:576~578[Guan Ping, Xu Yongchang, Liu Wenhui, Wang Darui. A model for carbo n isotope distribution of methane during diagenesis[J]. Chinese Science Bulle tin, 1998,43(7):576~578] [66]任磊夫,关平.油气生成过程中的微粒质点矿物[M].北京:地质出版社,1992[Ren L eifu, Guan Ping. Micrograin-particle minerals in genesis of oil and gas[M]. B eijing: Geological Publishing House,1992] [67]关平等.烃源岩有机质的不同赋存状态及定量估算[J].科学通报,1998,43:1~4[Gu an Ping, et al. Different occurrences of organic matter in source rocks and their quantitative estimate[J]. Chinese Science Bulletin, 1998,43:1~4] [68]Prinzhofer A A, Huc A Y. Genetic and post~genetic molecular and isotopic fra ctions in natural gases[J]. Chemical Geology,1995,126:281~290 [69]关平等.辽河盆地泥岩成岩作用过程中天然气的初次运移和排气量计算[J].石油勘探与开发,1992,19:48~54[Guan Ping, et al. Diagenesis of mudstone and a model of gas primary migration in Liaohe basin[J]. Petrolium Exploration and Developm ent, 1992,19:48~54] [70]徐永昌等.天然气成因新模式--Ⅱ:多阶连续、主阶定名[J].中国科学(B 辑),1 993,23(7):751~755[Xu Yongchang, et al. A new model of natural gas orig in-II: several stages develop continuously and major stage determines the name [J]. Science in China (series B), 1993,23(7):751~755] |