OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

地质学报 2006

四川盆地高含H2S天然气的分布与TSR成因证据

, PP. 1208-1218

Keywords: H2S,硫酸盐热化学还原作用(TSR),飞仙关组,震旦系,四川盆地

Full-Text Cite this paper Add to My Lib

Abstract:

四川盆地是中国高含硫化氢天然气分布最集中的地区,目前已在震旦系(威远气田)、下三叠统飞仙关组(罗家寨、普光、渡口河、铁山坡、七里北)、嘉陵江组(卧龙河)和中三叠统雷口坡组(磨溪、中坝)发现了近10个高含硫化氢的大中型气田(藏),探明储量5000×108m3.这些高含硫化氢气藏普遍经历过较大的埋深过程(储层经历过较高温度),储层上下或储层中间均发育有膏质岩类,且气源充足,具备硫酸盐热化学还原反应(ThermochemicalSulfateReduction,TSR)发生的物质基础和热动力条件.从气藏地质特征以及天然气组成和碳、硫同位素等方面的证据表明,四川盆地中、下三叠统和震旦系气藏的硫化氢属于TSR成因.而且TSR对烃类的大量选择性消耗一方面导致天然气干燥系数增大,另一方面导致气藏充满度降低,气藏压力系数变小.

References

[1]	戴金星.1985.中国含硫化氢的天然气分布特征,分类及其成因探讨.沉积学报,3(4):109～120.
[2]	江兴福,徐人芬,黄建章.2002.川东地区飞仙关组气藏硫化氢分布特征.天然气工业,22(2):24～27.
[3]	马永生,郭旭升,郭彤楼,黄锐,蔡勋育,李国雄.2005a.四川盆地普光大型气田的发现与勘探启示.地质论评,51(4):477～480.
[4]	沈平,徐永昌,王晋江,等.1997.天然气中硫化氢硫同位素组成及沉积地球化学相.沉积学报,15(2):216～219.
[5]	王一刚,窦立荣,文应初,等.2002.四川盆地东北部三叠系飞仙关组高含硫气藏H2S成因研究.地球化学,31(6):517～524.
[6]	杨华,付金华,魏新善.2005.鄂尔多斯盆地天然气成藏特征.天然气工业,25(4):5～8.
[7]	杨家静,王一刚,王兰生,等.2002.四川盆地东部长兴组-飞仙关组气藏地球化学特征及气源探讨.沉积学报,20(2):349～352.
[8]	张水昌,朱光有,梁英波.2006.四川盆地普光大型气田H2S及优质储层形成机理探讨.地质论评,52(2):46～50.
[9]	朱光有,张水昌,梁英波,戴金星,李剑.2005a.川东北地区飞仙关组高含H2S天然气TSR成因的同位素证据.中国科学(D辑),35(11):1037～1046.
[10]	朱光有,张水昌,梁英波,戴金星,李剑.2005c.TSR对烃类气体组分和碳同位素的蚀变作用.石油学报,26(5):54～58.
[11]	朱光有,张水昌,梁英波,戴金星.2006a.天然气中高含H2S的成因及其预测.地质科学,41(1):152～157.
[12]	朱光有,张水昌,梁英波,马永生,戴金星,李剑,周国源.2006c.四川盆地天然气特征及气源.地学前缘,13(2):234～248.
[13]	Cai C F,Worden R H,Bottrell S H,et al.2003.Thermochemical sulphate reduction and the generation of hydrogen sulphide and thiols (mercaptans) in Triassic carbonate reservoirs from the Sichuan Basin,China.Chemical Geology,202(1):39～57.
[14]	Desrocher S,Hutcheon I,Kirste D,Henderson C M.2004.Constraints on the generation of H2S and CO2 in the subsurface Triassic,Alberta Basin,Canada.Chemical Geology,204:237～254.
[15]	Li J,Xie Z Y,Dai J X,Zhang S C,Zhu G Y,Liu Z L.2005.Geochemistry and origin of sour gas accumulations in the northeastern Sichuan basin,SW China.Organic Geochemistry,36(11):1703～1716.
[16]	Krouse H R,Viau C A,Eliuk L S,Ueda A,Halas S.1988.Chemical and isotopic evidence of thermochemical sulphate reduction by light hydrocarbon gases in deep carbonate reservoirs.Nature,333(2):415～419.
[17]	Machel H G.1998.Gas souring by thermochemical sulfate reduction at 140°C:discussion.Am.Assoc.Pet.Geol.Bull.,82:1870～1873.
[18]	Orr W L.1974.Changes in sulfur content and isotopic ratios of sulfur during petroleum maturation--Study of the Big Horn Basin Paleozoic oils.AAPG Bulletin,50:2295～2318.
[19]	Sokolov V A,Tichomolova T V,Cheremisinov O A.1971.The composition and distribution of gaseous hydrocarbons in dependence of depth,as the consequence of their generation and migration.Advance in Organic Geochem.,479～486.
[20]	Worden R H,Smalley P C.1996.H2S-producing reactions in deep carbonate gas reservoirs:Khuff Formation,Abu Dhabi.Chem.Geol.,133:157～171.
[21]	Zhang S C,Zhu G Y,Liang Y B,Dai J X,Liang H B,Li M W.2005.Geochemical characteristics of the Zhaolanzhuang sour gas accumulation and thermochemical sulfate reduction in the Jixian Sag of Bohai Bay Basin.Organic Geochemistry,36(11):1717～1730.
[22]	Zhu G Y,Zhang S C,Liang Y B,Dai J X,Li J.2005.Discussion on origins of the high-H2S-bearing natural gas in China.Acta Geologica Sinica,79(5):697～708.
[23]	陈安定.1994.陕甘宁盆地中部气田奥陶系天然气的成因及运移.石油学报,15(2):1～10.
[24]	樊广锋,戴金星,戚厚发.1992.中国硫化氢天然气研究.天然气地球科学,3(3):1～10.
[25]	梁宏斌,陈素考,马世金,李博.1995.冀中晋县凹陷含硫化氢油气藏的形成与资源预测.见:华北石油勘探开发科技文献.北京:石油工业出版社,27～44.
[26]	马永生,蔡勋育,李国雄.2005b.四川盆地普光大型气藏基本特征及成藏富集规律.地质学报,79(6):858～865.
[27]	祁士华,董勇,柳建华,邱毅.1998.冀中晋县凹陷区地表地球化学勘查研究.地球科学,23(1):103～106.
[28]	唐俊红,张同伟,鲍征宇,张铭杰.2004.四川盆地威远气田碳酸盐岩中有机包裹体研究.地质论评,50(2):210～214.
[29]	阎俊峰,阳建华,阎进培.1982.我国下第三系高硫化氢气体的发现及其地质意义.地质论评,28(4):433.
[30]	张水昌,王招明,王飞宇,梁狄刚,肖中尧,黄海平.2004.塔里木盆地塔东2油藏形成历史--原油稳定性与裂解作用实例研究.石油勘探与开发,31(6):25～31.
[31]	朱光有,张水昌,李剑,金强.2004.中国高含硫化氢天然气田的特征及其分布.石油勘探与开发,31(4):18～21.
[32]	朱光有,张水昌,梁英波,李剑.2005b.川东北飞仙关组H2S的分布与古环境的关系研究.石油勘探与开发,32(4):65～69.
[33]	朱光有,张水昌,梁英波.2006b.四川盆地深部海相优质储集层的形成机理及其分布预测.石油勘探与开发,33(2):161～166.
[34]	Anderson G M,Garven G.1987.Sulfate-sulfide-carbonate associations in Mississippi valley-type lead-zinc deposits.Economic Geology,82(2):482～488.
[35]	Cai C F,Hu W,Worden R H.2001.Thermochemical sulphate reduction in Cambro-Ordovician carbonates in central Tarim.Marine and Petroleum Geology,18:729～741.
[36]	Claypool G E,Mancini E A.1989.Geochemical relationships of petroleum in Mesozoic reservoirs to carbonate source rocks of Jurassic Smackover Formation,southwestern Alabama.AAPG Bull.,73:904～924.
[37]	Hunt J M.1996.Petroleum Geochemistry and Geology,2nd ed.New York:Freeman,743.
[38]	Machel H G.2001.Bacterial and thermochemical sulfate reduction in diagenetic settings-old and new insights.Sedimentary Geology,140(1-2):143～175.
[39]	Worden R H,Smalley P C,Oxtoby N H.1995.Gas Souring by Thermochemical Sulfate Reduction at 140℃.AAPG Bull.,79(6):854～863.
[40]	Zhu G Y,Jin Q,Zhang S C,Dai J X,Zhang L Y,Li J.2004.Distribution characteristics of effective source rocks and their controls on hydrocarbon accumulation:A case study from the Dongying sag,eastern China.Acta Geologica Sinica,78(6):1275～1288.

Full-Text

comments powered by Disqus

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133

WeChat 1538708413