我国氦气资源现状及首个特大型富氦储量的发现:和田河气田
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摘要
氦气是一种重要的战略稀有资源,关系国家安全和高新技术产业发展.但我国贫氦且绝大部分依赖进口,资源安全形势十分严峻,因此开展氦气资源调查非常迫切.通过全国七大含油气盆地及其他地区氦气资源及成因系统调研,明确我国中西部含油气盆地天然气中氦气基本为壳源放射成因,其富集受富含U、Th的酸性岩或基底的分布、背斜圈闭及断裂共同控制.东部郯庐断裂带两侧含油气盆地中氦气为壳源和幔源混合成因,其富集受断裂控制明显.地热或温泉的水溶气中,含量较高的氦气主要为壳源.优选了氦气显示良好、但存在不确定性的塔里木盆地和田河气田及周缘开展氦气资源系统勘查.通过对和田河气田及周缘11口井天然气样品精细取样、分析,首次发现和田河气田为富氦气田,氦气体积含量为0.30%~0.37%(平均0.32%),为壳源成因,折算氦气探明储量1.959 1×10~8 m~3,是我国发现的首个特大型富氦氦气田.因此建议:(1)加快建设和田河气田氦气分离、液化装置,实现气田开发整体效益最大化;(2)尽快论证建设"塔里木盆地氦气战略储备基地"的可行性,开展全国主要含油气盆地氦气资源系统调查;(3)加强氦气成藏理论研究,指导氦气资源勘探.
Helium is a kind of important strategic scarce resources,which is related to national security and the development of high-tech industries.However,China is poor in helium and most of it depends on imports.The situation of resources security is very serious,so it is very important to carry out helium resources survey.Based on the investigation of helium resources in the seven major petroliferous basins and other areas in China,it can be concluded that the helium in natural gas in petroliferous basins in central and western China is radioactive origin from crust.Its enrichment is controlled by the distribution of acid rock or basement rich in U and Th,structural traps and fracture.The helium in the petroliferous basins located on both sides of Tanlu fault zone in eastern China is originated from the mixing of mantle and crustal sources.Its enrichment is controlled obviously by fracture.The high content of helium in water-soluble gas in geothermal water or hot springs is mainly crustal source.In this study,the Hetianhe gas field and its peripheral areas in Tarim Basin with good helium display but uncertainties are selected for the systematic exploration of helium resources.Through fine sampling and analysis of the 11 natural gas samples from Hetianhe gas field and its peripheral areas,it is found for the first time that Hetianhe gas field is rich in helium,with helium volume content ranging from 0.30%to 0.37%(average 0.32%).As originated from crust,the proven reserve of helium gas is 1.959 1×10~8 m~3.So,Hetianhe gas field is the first supergiant helium-rich gas field discovered in China.Therefore,in this paper it is suggested that:(1)accelerating the construction of helium separation and liquefaction units in Hetianhe gas field to maximize the overall benefits;(2)demonstrating the feasibility of constructing"Tarim Basin helium strategic reserve base"as soon as possible,and carrying out systematic investigation of helium resources in petroliferous basins throughout the country;(3)strengthening the theoretical study of helium accumulation to guide helium resources exploration.
Helium is a kind of important strategic scarce resources,which is related to national security and the development of high-tech industries.However,China is poor in helium and most of it depends on imports.The situation of resources security is very serious,so it is very important to carry out helium resources survey.Based on the investigation of helium resources in the seven major petroliferous basins and other areas in China,it can be concluded that the helium in natural gas in petroliferous basins in central and western China is radioactive origin from crust.Its enrichment is controlled by the distribution of acid rock or basement rich in U and Th,structural traps and fracture.The helium in the petroliferous basins located on both sides of Tanlu fault zone in eastern China is originated from the mixing of mantle and crustal sources.Its enrichment is controlled obviously by fracture.The high content of helium in water-soluble gas in geothermal water or hot springs is mainly crustal source.In this study,the Hetianhe gas field and its peripheral areas in Tarim Basin with good helium display but uncertainties are selected for the systematic exploration of helium resources.Through fine sampling and analysis of the 11 natural gas samples from Hetianhe gas field and its peripheral areas,it is found for the first time that Hetianhe gas field is rich in helium,with helium volume content ranging from 0.30%to 0.37%(average 0.32%).As originated from crust,the proven reserve of helium gas is 1.959 1×10~8 m~3.So,Hetianhe gas field is the first supergiant helium-rich gas field discovered in China.Therefore,in this paper it is suggested that:(1)accelerating the construction of helium separation and liquefaction units in Hetianhe gas field to maximize the overall benefits;(2)demonstrating the feasibility of constructing"Tarim Basin helium strategic reserve base"as soon as possible,and carrying out systematic investigation of helium resources in petroliferous basins throughout the country;(3)strengthening the theoretical study of helium accumulation to guide helium resources exploration.
引文
Cao,J.,Liu,C.L.,Ma,Y.S.,et al.,2016.Geochemical Characteristics and Genesis of Shale Gas for Carboniferous Marine Continental Transitional Facies Coal Measure Strata in Eastern Qaidam Basin.Earth Science Frontiers,23(5):158-166(in Chinese with English abstract).
Cao,Z.X.,Che,Y.,Li,J.L.,et al.,2001.Accumulation Analysis on a Helium-Enriched Gas Reservoir in Huagou Area,the Jiyang Depression.Petroleum Geology&Experiment,23(4):395-399(in Chinese with English abstract).
Chang,X.H.,Song,K.,1997.Analysis of Reservoir-Forming Mechanism of High-He Pool in the Carboniferous of Xiaohaizi Formation of Bashitou Structure.Natural Gas Industry,17(2):18-20(in Chinese with English abstract).
Dai,J.X.,2003.Pool-Forming Periods and Gas Sources of Weiyuan Gasfield.Petroleum Geology&Experiment,25(5):473-480(in Chinese with English abstract).
Dai,J.X.,Dai,C.S.,Song,Y.,et al.,1994.Geochemical Character,Carbon and Helium Isotopic Compositions of Natural Gas from Hot Springs of Some Areas of China.Science in China(Series B),24(4):426-433(in Chinese).
Dai,J.X.,Ni,Y.Y.,Qin,S.F.,et al.,2017.Geochemical Characteristics of He and CO2from the Ordos(Cratonic)and Bohaibay(Rift)Basins in China.Chemical Geology,469:192-213.https://doi.org/10.1016/j.chemgeo.2017.02.011
Dai,J.X.,Pei,X.G.,Qi,H.F.,1992.Natural Gas Geology in China(Vol 1).Petroleum Industry Press,Beijing(in Chinese).
Dai,J.X.,Song,Y.,Dai,C.S.,et al.,1995.Inorganic Origin Gas and Its Forming Conditions in Eastern China.Science Press,Beijing(in Chinese).
Deng,S.L.,1995.He Measurement and Its Application in Oil and Gas Exploration in Northern Part of Tarim Basin.Petroleum Exploration and Development,22(5):30-34(in Chinese with English abstract).
Du,J.G.,Liu,W.H.,1991.Isotopic Geochemistry of Helium and Argon in Natural Gas in Sanshui Basin.Natural Gas Geoscience,2(6):283-285(in Chinese).
Feng,W.F.,1989.Analysis of Economic Benefit of Extracting Helium from Weiyuan Natural Gas.Natural Gas Industry,9(3):69-71(in Chinese with English abstract).
Feng,Z.H.,Huo,Q.L.,Wang,X.,2001.A Study of Helium Reservoir Formation Characteristic in the North Part of Songliao Basin.Natural Gas Industry,21(5):27-30(in Chinese with English abstract).
Gu,Z.D.,Zhai,X.F.,Jiang,X.F.,et al.,2013.Geochemical Characteristics and Tectonic Environment of Basal Granite in Weiyuan Structure,Sichuan Basin.Earth Science,38(S1):31-42(in Chinese with English abstract).
Guo,N.F.,You,X.Z.,Xu,J.,1999.Geological Character of Xiqiao Helium-Bearing Gas Field and Prospecting of Helium-Bearing Natural Gas in North Jiangsu Basin.Petroleum Exploration and Development,26(5):24-26(in Chinese with English abstract).
Hamak,J.E.,2017.Mineral Commodity Summaries 2017,Helium.United States Geological Survey,Washington D.C.,78-79.
Hu,A.P.,Zhou,Q.H.,2006.The Largest Gas Field in the World---North-South Pars Gas Field.Natural Gas Geoscience,17(6):753-759(in Chinese with English abstract).
Huang,F.T.,1999.Oil Gas&Water Geochemistry in Song Liao Basin.Petroleum Industry Press,Beijing(in Chinese).
Li,Y.H.,Lu,J.C.,Li,J.C.,et al.,2011.Distribution of the Helium-Rich Wells and Helium Derivation in Weihe Basin.Journal of Jilin University(Earth Science Edition),41(S1):47-53(in Chinese with English abstract).
Li,Y.H.,Wang,X.Y.,Han,W.,2016.Mode of Occurrence of Helium in Weihe Basin,Shaanxi Province and Its Significance.Geological Bulletin of China,35(2-3):372-378(in Chinese with English abstract).
Liu,Q.Y.,Dai,J.X.,Jin,Z.J.,et al.,2009.Geochemistry and Genesis of Natural Gas in the Foreland and Platform of the Tarim Basin.Acta Geologica Sinica,83(1):107-114(in Chinese with English abstract).
Liu,Q.Y.,Jin,Z.J.,Chen,J.F.,et al.,2012.Origin of Nitrogen Molecules in Natural Gas and Implications for the High Risk of N2Exploration in Tarim Basin,NW China.Journal of Petroleum Science and Engineering,81:112-121.https://doi.org/10.1016/j.petrol.2011.12.013
Liu,Q.Y.,Liu,W.H.,Xu,Y.C.,et al.,2007.Geochemistry of Natural Gas and Crude Computation of Gas-Generated Contribution for Various Source Rocks in Sulige Gas Field,Ordos Basin.Natural Gas Geoscience,18(5):697-702(in Chinese with English abstract).
Liu,Q.Y.,Zhu,D.Y.,Jin,Z.J.,et al.,2017.Effects of Deep CO2on Petroleum and Thermal Alteration:The Case of the Huangqiao Oil and Gas Field.Chemical Geology,469:214-229.https://doi.org/10.1016/j.chemgeo.2017.06.031
Lu,J.C.,Wei,X.Y.,Li,Y.H.,et al.,2005.Preliminary Study about Genesis and Pool Formation Conditions of RichHelium Type Natural Gas.Northwestern Geology,38(3):82-86(in Chinese with English abstract).
Ni,C.H.,Zhou,X.J.,Wang,G.S.,et al.,2010.Geochemical Characteristics and Genesis of the Natural Gas in Fu County Area,Ordos Basin.Journal of Xi'an Shiyou University(Natural Science Edition),25(5):20-24(in Chinese with English abstract).
Ni,Y.Y.,Dai,J.X.,Tao,S.Z.,et al.,2014.Helium Signatures of Gases from the Sichuan Basin,China.Organic Geochemistry,74:33-43.https://doi.org/10.1016/j.orggeochem.2014.03.007
Shangguan,Z.G.,Du,J.K.,Zang,W.,et al.,1998 Modern Hot Spring Geochemistry at the Tanlu Fault and Jiaoliao Block in Eastern China.Science China Earth Sciences,41(1):87-94.
Shangguan,Z.G.,Wu,C.Z.,2008.Geochemical Features of Magmatic Gases in the Regions of Dormant Volcanoes in China.Acta Petrologica Sinica,24(11):2638-2646(in Chinese with English abstract).
Wang,J.,Chen,J.F.,Wang,T.G.,et al.,2006.Gas Source Rocks and Gas Genetic Type in Shuangcheng-Taipingchuan Area of Songliao Basin.Acta Petrolei Sinica,27(3):16-21(in Chinese with English abstract).
Wang,J.,Zhang,H.,Lin,D.C.,2002.Exploration Prospect of CO2 Gas Reservoir Contained Helium in Wuerxun Depression,Hailar Basin.Natural Gas Industry,22(4):109-111(in Chinese).
Wang,M.,Lu,S.F.,Wang,W.G.,et al.,2017.Gas Migration and Accumulation Modelling in Volcanic Reservoirs,Xujiaweizi Fault Depression,Songliao Basin.Earth Science,42(3):397-409(in Chinese with English abstract).https://doi.org/10.3799/dqkx.2017.030
Wang,X.B.,Chen,J.F.,Li,Z.S.,et al.,2016.Rare Gases Geochemical Characteristics and Gas Source Correlation for Dabei Gas Field in Kuche Depression,Tarim Basin.EnergyExploration&Exploitation,34(1):113-128.https://doi.org/10.1177/0144598715623673
Wang,X.B.,Wei,G.Q.,Li,J.,et al.,2018.Geochemical Characteristics and Origins of Noble Gases of the Kela 2Gas Field in the Tarim Basin,China.Marine and Petroleum Geology,89:155-163.https://doi.org/10.1016/j.marpetgeo.2017.02.013
Wang,Z.M.,Wang,Q.H.,Zhao,M.J.,et al.,2008.Characteristics,Genesis and Accumulation History of Natural Gas in Hetianhe Gasfield,Tarim Basin,China.Science China Earth Sciences,51(S1):84-95.https://doi.org/10.1007/s11430-008-5010-4
Wei,G.Q.,Wang,D.L.,Wang,X.B.,et al.,2014.Characteristics of Noble Gases in the Large Gaoshiti-Moxi Gas Field in Sichuan Basin,SW China.Petroleum Exploration and Development,41(5):585-590.https://doi.org/10.1016/s1876-3804(14)60069-0
Wei,Y.X.,Xu,D.L.,Zhou,W.X.,et al.,2018.3.00-2.93Ga Metamorphic Events Found in the Middle Archaean Granite Complex in Huangling Area,the Core of Yangtze Craton.Earth Science,43(7):2309-2312(in Chinese).https://doi.org/10.3799/dqkx.2018.234
Wu,Z.T.,Liu,X.W.,Li,X.F.,et al.,2017.The Application of Noble Gas Isotope in Gas-Source Correlation of Yuanba Reservoir,Sichuan Basin.Natural Gas Geoscience,28(7):1072-1077(in Chinese with English abstract).
Xie,H,W.,Chen,X.W.,Zhu,M.,et al.,2017.Deformation Characteristics,Tectonic Evolution and Their Control on Deep Petroleum Accumulation of Mazhatage Fault Belt in Tarim Basin.Earth Science,42(9):1578-1589(in Chinese with English abstract).https://doi.org/10.3799/dqkx.2017.504
Xu,S.,Nakai,S.,Wakita,H.,et al.,1995.Helium Isotope Compositions in Sedimentary Basins in China.Applied Geochemistry,10(6):643-656.https://doi.org/10.1016/0883-2927(95)00033-x
Xu,S.,Zheng,G.D.,Wang,X.B.,et al.,2014.Helium and Carbon Isotope Variations in Liaodong Peninsula,NEChina.Journal of Asian Earth Sciences,90:149-156.https://doi.org/10.1016/j.jseaes.2014.04.019
Xu,S.,Zheng,G.D.,Zheng,J.J.,et al.,2017.Mantle-Derived Helium in Foreland Basins in Xinjiang,Northwest China.Tectonophysics,694:319-331.https://doi.org/10.1016/j.tecto.2016.11.015
Xu,Y.C.,Fu,J.M.,Zheng,J.J.,2000.Origin of Natural Gas and Geosciences of Large and Medium Gas Fields.Science Press,Beijing(in Chinese).
Xu,Y.C.,Shen,P.,Li,Y.C.,1989.The Oldest Gas Pool of China-Weiyuan Sinian Gas Pool,Sichuan Province.Acta Sedimentologica Sinica,7(4):3-13(in Chinese with English abstract).
Xu,Y.C.,Shen,P.,Liu,W.H.,et al.,1998.Geochemistry of Rare Gases in Natural Gases.Science Press,Beijing(in Chinese).
Xue,H.F.,Zhu,X.G.,Wang,R.S.,et al.,2004.The Discovery and Significance of Rich Helium Natural Gas Resource in Xi′an Geothermic Field.Journal of Northwest University(Natural Science Edition),34(6):751-754(in Chinese with English abstract).
Yang,C.,Tao,S.Z.,Hou,L.H.,et al.,2014.Accumulative Effect of Helium Isotope in Gas Volcanic Reservoirs in Songliao Basin.Natural Gas Geoscience,25(1):109-115(in Chinese with English abstract).
Yu,Q.X.,Shi,Z.,Wang,D.G.,et al.,2013.Analysis on Helium Enrichment Characteristics and Reservoir Forming Conditions in Northwest Tarim Basin.NorthwesternGeology,46(4):215-222(in Chinese with English abstract).
Yu,Y.,2010.Origin of Natural Gas and Natural Gas Accumulation from Middle-Shallow Layer in South Songzhan(Dissertation).Daqing Petroleum Institute,Daqing(in Chinese with English abstract).
Zhang,F.L.,Sun,Q.B.,Wang,X.Y.,et al.,2012.Evaluation .of Water Soluble Helium Resources in Weihe Basin.Journal of Geomechanics,18(2):195-202(in Chinese with English abstract).Zhang,L.L.,Sun,Q.G.,Liu,Y.Y.,et al.,2014.Global Market of Helium and Suggestion for Helium Supply Security of China.Low Temperature and Specialty Gases,32(3):1-5(in Chinese with English abstract).Zhang,W.,Li,Y.H.,Wang,L.,et al.,2018.The Analysis of Helium Accumulation Conditions and Prediction of Helium Resource in Weihe Basin.Natural Gas Geoscience,29(2):236-244(in Chinese with English abstract).Zhang,Y.P.,Li,Y.H.,Lu,J.C.,et al.,2016.The Discovery and Origin of Helium-Rich Gas on the Northern Margin of the Qaidam Basin.Geological Bulletin of China,35(2-3):364-371(in Chinese with English abstract).Zhang,Z.S.,1992.Helium in Natural Gas in Sichuan Basin.Natural Gas Geoscience,3(4):1-8(in Chinese).Zhao,H.X.,Zhang,Y.,Li,C.L.,2012.Analysis of Supply and Price System for Global Helium Gas.Chemical Propellants&Polymeric Meterials,10(6):91-96(in Chinese with English abstract).Zhao,M.J.,2002.Special Source of the Natural Gases of the Hotan River Gas Field and the Origin of Its NonHydrocarbon Gases.Geological Review,48(5):480-486(in Chinese with English abstract).Zheng,L.P.,Feng,Z.J.,Xu,S.G.,et al.,1996.CO2 Gas Pools from the Earth Interior in Jiyang Depression.Chinese Science Bulletin,41(8):663-666.Zhou,X.Y.,Yang,H.J.,Li,Y.,et al.,2006.Cases of Discovery and Exploration of Marine Fields in China(Part 7):Hotanhe Gas Field in Tarim Basin.Marine Origin Petroleum Geology,11(3):55-62(in Chinese with English abstract).Zhu,X.J.,Chen,J.F.,He,L.W.,et al.,2017.Geochemical Characteristics and Source Correlation of Hydrocarbons in the Well Luosi 2of Maigaiti Slope,Tarim Basin,China.Natural Gas Geoscience,28(4):566-574(in Chinese with English abstract).
曹军,刘成林,马寅生,等,2016.柴达木盆地东部石炭系海陆过渡相煤系页岩气地球化学特征及成因.地学前缘,23(5):158-166.
曹忠祥,车燕,李军亮,等,2001.济阳坳陷花沟地区高含He气藏成藏分析.石油实验地质,23(4):395-399.
常兴浩,宋凯,1997.巴什托构造石炭系小海子组高氦气藏成藏机理浅析.天然气工业,17(2):18-20.
戴金星,2003.威远气田成藏期及气源.石油实验地质,25(5):473-480.
戴金星,戴春森,宋岩,等,1994.中国一些地区温泉中天然气的地球化学特征及碳、氦同位素组成.中国科学(B辑),24(4):426-433.
戴金星,裴锡古,戚厚发,1992.中国天然气地质学(卷一).北京:石油工业出版社.
戴金星,宋岩,戴春森,等,1995.中国东部无机成因气及其气藏形成条件.北京:科学出版社.
邓树立,1995.氦气测量及其在塔里木盆地北部油气勘探中的应用.石油勘探与开发,22(5):30-34.
杜建国,刘文汇,1991.三水盆地天然气中的氦和氩同位素地球化学研究.天然气地球科学,2(6):283-285.
封万芳,1989.威远天然气提氦的经济效益分析.天然气工业,9(3):69-71.
冯子辉,霍秋立,王雪,2001.松辽盆地北部氦气成藏特征研究.天然气工业,21(5):27-30.
谷志东,翟秀芬,江兴福,等,2013.四川盆地威远构造基底花岗岩地球化学特征及其构造环境.地球科学,38(S1):31-42.
郭念发,尤孝忠,徐俊,1999.苏北盆地溪桥含氦天然气田地质特征及含氦天然气勘探前景.石油勘探与开发,26(5):24-26.
胡安平,周庆华,2006.世界上最大的天然气田---北方-南帕斯气田.天然气地球科学,17(6):753-759.
黄福堂,1999.松辽盆地油气水地球化学.北京:石油工业出版社.
李玉宏,卢进才,李金超,等,2011.渭河盆地富氦天然气井分布特征与氦气成因.吉林大学学报(地球科学版),41(S1):47-53.
李玉宏,王行运,韩伟,2016.陕西渭河盆地氦气资源赋存状态及其意义.地质通报,35(2-3):372-378.
刘全有,戴金星,金之钧,等,2009.塔里木盆地前陆区和台盆区天然气的地球化学特征及成因.地质学报,83(1):107-114.
刘全有,刘文汇,徐永昌,等,2007.苏里格气田天然气运移和气源分析.天然气地球科学,18(5):697-702.
卢进才,魏仙样,李玉宏,等,2005.汾渭盆地富氦天然气成因及成藏条件初探.西北地质,38(3):82-86.
倪春华,周小进,王果寿,等,2010.鄂尔多斯盆地富县地区天然气地球化学特征及其成因.西安石油大学学报(自然科学版),25(5):20-24.
上官志冠,武成智,2008.中国休眠火山区岩浆来源气体地球化学特征.岩石学报,24(11):2638-2646.
王杰,陈践发,王铁冠,等,2006.松辽盆地双城-太平川地区天然气成因类型及气源.石油学报,27(3):16-21.
王江,张宏,林东成,2002.海拉尔盆地乌尔逊含氦CO2气藏勘探前景.天然气工业,22(4):109-111.
王民,卢双舫,王文广,等,2017.火山岩储层天然气运聚成藏模拟:以徐家围子断陷深层为例.地球科学,42(3):397-409.https://doi.org/10.3799/dqkx.2017.030
魏运许,徐大良,周文孝,等,2018.扬子克拉通核部黄陵地区中太古代花岗杂岩中发现3.00~2.93Ga变质事件.地球科学,43(7):2309-2312.https://doi.org/10.3799/dqkx.2018.234
仵宗涛,刘兴旺,李孝甫,等,2017.稀有气体同位素在四川盆地元坝气藏气源对比中的应用.天然气地球科学,28(7):1072-1077.
谢会文,陈新伟,朱民,等,2017.塔里木盆地玛扎塔格断裂带变形特征、演化及对深层油气成藏的控制.地球科学,42(9):1578-1589.https://doi.org/10.3799/dqkx.2017.504
徐永昌,傅家谟,郑建京,2000.天然气成因及大中型气田形成的地学基础.北京:科学出版社.
徐永昌,沈平,李玉成,1989.中国最古老的气藏--四川威远震旦纪气藏.沉积学报,7(4):3-13.
徐永昌,沈平,刘文汇,等,1998.天然气中稀有气体地球化学.北京:科学出版社.
薛华锋,朱兴国,王润三,等,2004.西安地热田伴生富氦天然气资源的发现及意义.西北大学学报(自然科学版),34(6):751-754.
杨春,陶士振,侯连华,等,2014.松辽盆地火山岩储层天然气藏He同位素组成累积效应.天然气地球科学,25(1):109-115.
余琪祥,史政,王登高,等,2013.塔里木盆地西北部氦气富集特征与成藏条件分析.西北地质,46(4):215-222.
于勇,2010.松辽盆地宋站南地区中浅层天然气来源与成藏条件(硕士学位论文).大庆:大庆石油学院.
张福礼,孙启邦,王行运,等,2012.渭河盆地水溶氦气资源评价.地质力学学报,18(2):195-202.
张亮亮,孙庆国,刘岩云,等,2014.氦气全球市场及我国氦气安全保障的建议.低温与特气,32(3):1-5.
张文,李玉宏,王利,等,2018.渭河盆地氦气成藏条件分析及资源量预测.天然气地球科学,29(2):236-244.
张云鹏,李玉宏,卢进才,等,2016.柴达木盆地北缘富氦天然气的发现---兼议成藏地质条件.地质通报,35(2-3):364-371.
张子枢,1992.四川盆地天然气中的氦.天然气地球科学,3(4):1-8.
赵荟鑫,张雁,李超良,2012.全球氦气供应和价格体系分析.化学推进剂与高分子材料,10(6):91-96.
赵孟军,2002.塔里木盆地和田河气田天然气的特殊来源及非烃组分的成因.地质评论,48(5):480-486.
周新源,杨海军,李勇,等,2006.中国海相油气田勘探实例之七塔里木盆地和田河气田的勘探与发现.海相油气地质,11(3):55-62.
朱心健,陈践发,贺礼文,等,2017.塔里木盆地麦盖提斜坡罗斯2井油气地球化学特征及油气源分析.天然气地球科学,28(4):566-574.
(1)https://minerals.usgs.gov/minerals/pubs/commodity/helium/;2019-01-04.
(2)http://www.sohu.com/a/223489223_771369;2019-01-04.
Cao,Z.X.,Che,Y.,Li,J.L.,et al.,2001.Accumulation Analysis on a Helium-Enriched Gas Reservoir in Huagou Area,the Jiyang Depression.Petroleum Geology&Experiment,23(4):395-399(in Chinese with English abstract).
Chang,X.H.,Song,K.,1997.Analysis of Reservoir-Forming Mechanism of High-He Pool in the Carboniferous of Xiaohaizi Formation of Bashitou Structure.Natural Gas Industry,17(2):18-20(in Chinese with English abstract).
Dai,J.X.,2003.Pool-Forming Periods and Gas Sources of Weiyuan Gasfield.Petroleum Geology&Experiment,25(5):473-480(in Chinese with English abstract).
Dai,J.X.,Dai,C.S.,Song,Y.,et al.,1994.Geochemical Character,Carbon and Helium Isotopic Compositions of Natural Gas from Hot Springs of Some Areas of China.Science in China(Series B),24(4):426-433(in Chinese).
Dai,J.X.,Ni,Y.Y.,Qin,S.F.,et al.,2017.Geochemical Characteristics of He and CO2from the Ordos(Cratonic)and Bohaibay(Rift)Basins in China.Chemical Geology,469:192-213.https://doi.org/10.1016/j.chemgeo.2017.02.011
Dai,J.X.,Pei,X.G.,Qi,H.F.,1992.Natural Gas Geology in China(Vol 1).Petroleum Industry Press,Beijing(in Chinese).
Dai,J.X.,Song,Y.,Dai,C.S.,et al.,1995.Inorganic Origin Gas and Its Forming Conditions in Eastern China.Science Press,Beijing(in Chinese).
Deng,S.L.,1995.He Measurement and Its Application in Oil and Gas Exploration in Northern Part of Tarim Basin.Petroleum Exploration and Development,22(5):30-34(in Chinese with English abstract).
Du,J.G.,Liu,W.H.,1991.Isotopic Geochemistry of Helium and Argon in Natural Gas in Sanshui Basin.Natural Gas Geoscience,2(6):283-285(in Chinese).
Feng,W.F.,1989.Analysis of Economic Benefit of Extracting Helium from Weiyuan Natural Gas.Natural Gas Industry,9(3):69-71(in Chinese with English abstract).
Feng,Z.H.,Huo,Q.L.,Wang,X.,2001.A Study of Helium Reservoir Formation Characteristic in the North Part of Songliao Basin.Natural Gas Industry,21(5):27-30(in Chinese with English abstract).
Gu,Z.D.,Zhai,X.F.,Jiang,X.F.,et al.,2013.Geochemical Characteristics and Tectonic Environment of Basal Granite in Weiyuan Structure,Sichuan Basin.Earth Science,38(S1):31-42(in Chinese with English abstract).
Guo,N.F.,You,X.Z.,Xu,J.,1999.Geological Character of Xiqiao Helium-Bearing Gas Field and Prospecting of Helium-Bearing Natural Gas in North Jiangsu Basin.Petroleum Exploration and Development,26(5):24-26(in Chinese with English abstract).
Hamak,J.E.,2017.Mineral Commodity Summaries 2017,Helium.United States Geological Survey,Washington D.C.,78-79.
Hu,A.P.,Zhou,Q.H.,2006.The Largest Gas Field in the World---North-South Pars Gas Field.Natural Gas Geoscience,17(6):753-759(in Chinese with English abstract).
Huang,F.T.,1999.Oil Gas&Water Geochemistry in Song Liao Basin.Petroleum Industry Press,Beijing(in Chinese).
Li,Y.H.,Lu,J.C.,Li,J.C.,et al.,2011.Distribution of the Helium-Rich Wells and Helium Derivation in Weihe Basin.Journal of Jilin University(Earth Science Edition),41(S1):47-53(in Chinese with English abstract).
Li,Y.H.,Wang,X.Y.,Han,W.,2016.Mode of Occurrence of Helium in Weihe Basin,Shaanxi Province and Its Significance.Geological Bulletin of China,35(2-3):372-378(in Chinese with English abstract).
Liu,Q.Y.,Dai,J.X.,Jin,Z.J.,et al.,2009.Geochemistry and Genesis of Natural Gas in the Foreland and Platform of the Tarim Basin.Acta Geologica Sinica,83(1):107-114(in Chinese with English abstract).
Liu,Q.Y.,Jin,Z.J.,Chen,J.F.,et al.,2012.Origin of Nitrogen Molecules in Natural Gas and Implications for the High Risk of N2Exploration in Tarim Basin,NW China.Journal of Petroleum Science and Engineering,81:112-121.https://doi.org/10.1016/j.petrol.2011.12.013
Liu,Q.Y.,Liu,W.H.,Xu,Y.C.,et al.,2007.Geochemistry of Natural Gas and Crude Computation of Gas-Generated Contribution for Various Source Rocks in Sulige Gas Field,Ordos Basin.Natural Gas Geoscience,18(5):697-702(in Chinese with English abstract).
Liu,Q.Y.,Zhu,D.Y.,Jin,Z.J.,et al.,2017.Effects of Deep CO2on Petroleum and Thermal Alteration:The Case of the Huangqiao Oil and Gas Field.Chemical Geology,469:214-229.https://doi.org/10.1016/j.chemgeo.2017.06.031
Lu,J.C.,Wei,X.Y.,Li,Y.H.,et al.,2005.Preliminary Study about Genesis and Pool Formation Conditions of RichHelium Type Natural Gas.Northwestern Geology,38(3):82-86(in Chinese with English abstract).
Ni,C.H.,Zhou,X.J.,Wang,G.S.,et al.,2010.Geochemical Characteristics and Genesis of the Natural Gas in Fu County Area,Ordos Basin.Journal of Xi'an Shiyou University(Natural Science Edition),25(5):20-24(in Chinese with English abstract).
Ni,Y.Y.,Dai,J.X.,Tao,S.Z.,et al.,2014.Helium Signatures of Gases from the Sichuan Basin,China.Organic Geochemistry,74:33-43.https://doi.org/10.1016/j.orggeochem.2014.03.007
Shangguan,Z.G.,Du,J.K.,Zang,W.,et al.,1998 Modern Hot Spring Geochemistry at the Tanlu Fault and Jiaoliao Block in Eastern China.Science China Earth Sciences,41(1):87-94.
Shangguan,Z.G.,Wu,C.Z.,2008.Geochemical Features of Magmatic Gases in the Regions of Dormant Volcanoes in China.Acta Petrologica Sinica,24(11):2638-2646(in Chinese with English abstract).
Wang,J.,Chen,J.F.,Wang,T.G.,et al.,2006.Gas Source Rocks and Gas Genetic Type in Shuangcheng-Taipingchuan Area of Songliao Basin.Acta Petrolei Sinica,27(3):16-21(in Chinese with English abstract).
Wang,J.,Zhang,H.,Lin,D.C.,2002.Exploration Prospect of CO2 Gas Reservoir Contained Helium in Wuerxun Depression,Hailar Basin.Natural Gas Industry,22(4):109-111(in Chinese).
Wang,M.,Lu,S.F.,Wang,W.G.,et al.,2017.Gas Migration and Accumulation Modelling in Volcanic Reservoirs,Xujiaweizi Fault Depression,Songliao Basin.Earth Science,42(3):397-409(in Chinese with English abstract).https://doi.org/10.3799/dqkx.2017.030
Wang,X.B.,Chen,J.F.,Li,Z.S.,et al.,2016.Rare Gases Geochemical Characteristics and Gas Source Correlation for Dabei Gas Field in Kuche Depression,Tarim Basin.EnergyExploration&Exploitation,34(1):113-128.https://doi.org/10.1177/0144598715623673
Wang,X.B.,Wei,G.Q.,Li,J.,et al.,2018.Geochemical Characteristics and Origins of Noble Gases of the Kela 2Gas Field in the Tarim Basin,China.Marine and Petroleum Geology,89:155-163.https://doi.org/10.1016/j.marpetgeo.2017.02.013
Wang,Z.M.,Wang,Q.H.,Zhao,M.J.,et al.,2008.Characteristics,Genesis and Accumulation History of Natural Gas in Hetianhe Gasfield,Tarim Basin,China.Science China Earth Sciences,51(S1):84-95.https://doi.org/10.1007/s11430-008-5010-4
Wei,G.Q.,Wang,D.L.,Wang,X.B.,et al.,2014.Characteristics of Noble Gases in the Large Gaoshiti-Moxi Gas Field in Sichuan Basin,SW China.Petroleum Exploration and Development,41(5):585-590.https://doi.org/10.1016/s1876-3804(14)60069-0
Wei,Y.X.,Xu,D.L.,Zhou,W.X.,et al.,2018.3.00-2.93Ga Metamorphic Events Found in the Middle Archaean Granite Complex in Huangling Area,the Core of Yangtze Craton.Earth Science,43(7):2309-2312(in Chinese).https://doi.org/10.3799/dqkx.2018.234
Wu,Z.T.,Liu,X.W.,Li,X.F.,et al.,2017.The Application of Noble Gas Isotope in Gas-Source Correlation of Yuanba Reservoir,Sichuan Basin.Natural Gas Geoscience,28(7):1072-1077(in Chinese with English abstract).
Xie,H,W.,Chen,X.W.,Zhu,M.,et al.,2017.Deformation Characteristics,Tectonic Evolution and Their Control on Deep Petroleum Accumulation of Mazhatage Fault Belt in Tarim Basin.Earth Science,42(9):1578-1589(in Chinese with English abstract).https://doi.org/10.3799/dqkx.2017.504
Xu,S.,Nakai,S.,Wakita,H.,et al.,1995.Helium Isotope Compositions in Sedimentary Basins in China.Applied Geochemistry,10(6):643-656.https://doi.org/10.1016/0883-2927(95)00033-x
Xu,S.,Zheng,G.D.,Wang,X.B.,et al.,2014.Helium and Carbon Isotope Variations in Liaodong Peninsula,NEChina.Journal of Asian Earth Sciences,90:149-156.https://doi.org/10.1016/j.jseaes.2014.04.019
Xu,S.,Zheng,G.D.,Zheng,J.J.,et al.,2017.Mantle-Derived Helium in Foreland Basins in Xinjiang,Northwest China.Tectonophysics,694:319-331.https://doi.org/10.1016/j.tecto.2016.11.015
Xu,Y.C.,Fu,J.M.,Zheng,J.J.,2000.Origin of Natural Gas and Geosciences of Large and Medium Gas Fields.Science Press,Beijing(in Chinese).
Xu,Y.C.,Shen,P.,Li,Y.C.,1989.The Oldest Gas Pool of China-Weiyuan Sinian Gas Pool,Sichuan Province.Acta Sedimentologica Sinica,7(4):3-13(in Chinese with English abstract).
Xu,Y.C.,Shen,P.,Liu,W.H.,et al.,1998.Geochemistry of Rare Gases in Natural Gases.Science Press,Beijing(in Chinese).
Xue,H.F.,Zhu,X.G.,Wang,R.S.,et al.,2004.The Discovery and Significance of Rich Helium Natural Gas Resource in Xi′an Geothermic Field.Journal of Northwest University(Natural Science Edition),34(6):751-754(in Chinese with English abstract).
Yang,C.,Tao,S.Z.,Hou,L.H.,et al.,2014.Accumulative Effect of Helium Isotope in Gas Volcanic Reservoirs in Songliao Basin.Natural Gas Geoscience,25(1):109-115(in Chinese with English abstract).
Yu,Q.X.,Shi,Z.,Wang,D.G.,et al.,2013.Analysis on Helium Enrichment Characteristics and Reservoir Forming Conditions in Northwest Tarim Basin.NorthwesternGeology,46(4):215-222(in Chinese with English abstract).
Yu,Y.,2010.Origin of Natural Gas and Natural Gas Accumulation from Middle-Shallow Layer in South Songzhan(Dissertation).Daqing Petroleum Institute,Daqing(in Chinese with English abstract).
Zhang,F.L.,Sun,Q.B.,Wang,X.Y.,et al.,2012.Evaluation .of Water Soluble Helium Resources in Weihe Basin.Journal of Geomechanics,18(2):195-202(in Chinese with English abstract).Zhang,L.L.,Sun,Q.G.,Liu,Y.Y.,et al.,2014.Global Market of Helium and Suggestion for Helium Supply Security of China.Low Temperature and Specialty Gases,32(3):1-5(in Chinese with English abstract).Zhang,W.,Li,Y.H.,Wang,L.,et al.,2018.The Analysis of Helium Accumulation Conditions and Prediction of Helium Resource in Weihe Basin.Natural Gas Geoscience,29(2):236-244(in Chinese with English abstract).Zhang,Y.P.,Li,Y.H.,Lu,J.C.,et al.,2016.The Discovery and Origin of Helium-Rich Gas on the Northern Margin of the Qaidam Basin.Geological Bulletin of China,35(2-3):364-371(in Chinese with English abstract).Zhang,Z.S.,1992.Helium in Natural Gas in Sichuan Basin.Natural Gas Geoscience,3(4):1-8(in Chinese).Zhao,H.X.,Zhang,Y.,Li,C.L.,2012.Analysis of Supply and Price System for Global Helium Gas.Chemical Propellants&Polymeric Meterials,10(6):91-96(in Chinese with English abstract).Zhao,M.J.,2002.Special Source of the Natural Gases of the Hotan River Gas Field and the Origin of Its NonHydrocarbon Gases.Geological Review,48(5):480-486(in Chinese with English abstract).Zheng,L.P.,Feng,Z.J.,Xu,S.G.,et al.,1996.CO2 Gas Pools from the Earth Interior in Jiyang Depression.Chinese Science Bulletin,41(8):663-666.Zhou,X.Y.,Yang,H.J.,Li,Y.,et al.,2006.Cases of Discovery and Exploration of Marine Fields in China(Part 7):Hotanhe Gas Field in Tarim Basin.Marine Origin Petroleum Geology,11(3):55-62(in Chinese with English abstract).Zhu,X.J.,Chen,J.F.,He,L.W.,et al.,2017.Geochemical Characteristics and Source Correlation of Hydrocarbons in the Well Luosi 2of Maigaiti Slope,Tarim Basin,China.Natural Gas Geoscience,28(4):566-574(in Chinese with English abstract).
曹军,刘成林,马寅生,等,2016.柴达木盆地东部石炭系海陆过渡相煤系页岩气地球化学特征及成因.地学前缘,23(5):158-166.
曹忠祥,车燕,李军亮,等,2001.济阳坳陷花沟地区高含He气藏成藏分析.石油实验地质,23(4):395-399.
常兴浩,宋凯,1997.巴什托构造石炭系小海子组高氦气藏成藏机理浅析.天然气工业,17(2):18-20.
戴金星,2003.威远气田成藏期及气源.石油实验地质,25(5):473-480.
戴金星,戴春森,宋岩,等,1994.中国一些地区温泉中天然气的地球化学特征及碳、氦同位素组成.中国科学(B辑),24(4):426-433.
戴金星,裴锡古,戚厚发,1992.中国天然气地质学(卷一).北京:石油工业出版社.
戴金星,宋岩,戴春森,等,1995.中国东部无机成因气及其气藏形成条件.北京:科学出版社.
邓树立,1995.氦气测量及其在塔里木盆地北部油气勘探中的应用.石油勘探与开发,22(5):30-34.
杜建国,刘文汇,1991.三水盆地天然气中的氦和氩同位素地球化学研究.天然气地球科学,2(6):283-285.
封万芳,1989.威远天然气提氦的经济效益分析.天然气工业,9(3):69-71.
冯子辉,霍秋立,王雪,2001.松辽盆地北部氦气成藏特征研究.天然气工业,21(5):27-30.
谷志东,翟秀芬,江兴福,等,2013.四川盆地威远构造基底花岗岩地球化学特征及其构造环境.地球科学,38(S1):31-42.
郭念发,尤孝忠,徐俊,1999.苏北盆地溪桥含氦天然气田地质特征及含氦天然气勘探前景.石油勘探与开发,26(5):24-26.
胡安平,周庆华,2006.世界上最大的天然气田---北方-南帕斯气田.天然气地球科学,17(6):753-759.
黄福堂,1999.松辽盆地油气水地球化学.北京:石油工业出版社.
李玉宏,卢进才,李金超,等,2011.渭河盆地富氦天然气井分布特征与氦气成因.吉林大学学报(地球科学版),41(S1):47-53.
李玉宏,王行运,韩伟,2016.陕西渭河盆地氦气资源赋存状态及其意义.地质通报,35(2-3):372-378.
刘全有,戴金星,金之钧,等,2009.塔里木盆地前陆区和台盆区天然气的地球化学特征及成因.地质学报,83(1):107-114.
刘全有,刘文汇,徐永昌,等,2007.苏里格气田天然气运移和气源分析.天然气地球科学,18(5):697-702.
卢进才,魏仙样,李玉宏,等,2005.汾渭盆地富氦天然气成因及成藏条件初探.西北地质,38(3):82-86.
倪春华,周小进,王果寿,等,2010.鄂尔多斯盆地富县地区天然气地球化学特征及其成因.西安石油大学学报(自然科学版),25(5):20-24.
上官志冠,武成智,2008.中国休眠火山区岩浆来源气体地球化学特征.岩石学报,24(11):2638-2646.
王杰,陈践发,王铁冠,等,2006.松辽盆地双城-太平川地区天然气成因类型及气源.石油学报,27(3):16-21.
王江,张宏,林东成,2002.海拉尔盆地乌尔逊含氦CO2气藏勘探前景.天然气工业,22(4):109-111.
王民,卢双舫,王文广,等,2017.火山岩储层天然气运聚成藏模拟:以徐家围子断陷深层为例.地球科学,42(3):397-409.https://doi.org/10.3799/dqkx.2017.030
魏运许,徐大良,周文孝,等,2018.扬子克拉通核部黄陵地区中太古代花岗杂岩中发现3.00~2.93Ga变质事件.地球科学,43(7):2309-2312.https://doi.org/10.3799/dqkx.2018.234
仵宗涛,刘兴旺,李孝甫,等,2017.稀有气体同位素在四川盆地元坝气藏气源对比中的应用.天然气地球科学,28(7):1072-1077.
谢会文,陈新伟,朱民,等,2017.塔里木盆地玛扎塔格断裂带变形特征、演化及对深层油气成藏的控制.地球科学,42(9):1578-1589.https://doi.org/10.3799/dqkx.2017.504
徐永昌,傅家谟,郑建京,2000.天然气成因及大中型气田形成的地学基础.北京:科学出版社.
徐永昌,沈平,李玉成,1989.中国最古老的气藏--四川威远震旦纪气藏.沉积学报,7(4):3-13.
徐永昌,沈平,刘文汇,等,1998.天然气中稀有气体地球化学.北京:科学出版社.
薛华锋,朱兴国,王润三,等,2004.西安地热田伴生富氦天然气资源的发现及意义.西北大学学报(自然科学版),34(6):751-754.
杨春,陶士振,侯连华,等,2014.松辽盆地火山岩储层天然气藏He同位素组成累积效应.天然气地球科学,25(1):109-115.
余琪祥,史政,王登高,等,2013.塔里木盆地西北部氦气富集特征与成藏条件分析.西北地质,46(4):215-222.
于勇,2010.松辽盆地宋站南地区中浅层天然气来源与成藏条件(硕士学位论文).大庆:大庆石油学院.
张福礼,孙启邦,王行运,等,2012.渭河盆地水溶氦气资源评价.地质力学学报,18(2):195-202.
张亮亮,孙庆国,刘岩云,等,2014.氦气全球市场及我国氦气安全保障的建议.低温与特气,32(3):1-5.
张文,李玉宏,王利,等,2018.渭河盆地氦气成藏条件分析及资源量预测.天然气地球科学,29(2):236-244.
张云鹏,李玉宏,卢进才,等,2016.柴达木盆地北缘富氦天然气的发现---兼议成藏地质条件.地质通报,35(2-3):364-371.
张子枢,1992.四川盆地天然气中的氦.天然气地球科学,3(4):1-8.
赵荟鑫,张雁,李超良,2012.全球氦气供应和价格体系分析.化学推进剂与高分子材料,10(6):91-96.
赵孟军,2002.塔里木盆地和田河气田天然气的特殊来源及非烃组分的成因.地质评论,48(5):480-486.
周新源,杨海军,李勇,等,2006.中国海相油气田勘探实例之七塔里木盆地和田河气田的勘探与发现.海相油气地质,11(3):55-62.
朱心健,陈践发,贺礼文,等,2017.塔里木盆地麦盖提斜坡罗斯2井油气地球化学特征及油气源分析.天然气地球科学,28(4):566-574.
(1)https://minerals.usgs.gov/minerals/pubs/commodity/helium/;2019-01-04.
(2)http://www.sohu.com/a/223489223_771369;2019-01-04.