收稿日期: 2015-12-02
修回日期: 2016-01-04
网络出版日期: 2016-01-10
基金资助
中国石油天然气股份有限公司项目“塔里木盆地震旦—寒武系油气地质综合研究及接替领域优选和风险目标评价”(编号:2015-40213-01)资助.
Discovery and basic characteristics of the high-quality source rocks of the Cambrian Yuertusi Formation in Tarim Basin
Received date: 2015-12-02
Revised date: 2016-01-04
Online published: 2016-01-10
塔里木盆地古生界海相油气资源丰富,已发现了塔河、哈拉哈塘、塔中等多个亿吨级的大型油气田,探明海相油气储量超过25×108t当量,并已建成年产海相油气超过1 400×104t当量产能,但是对主力烃源岩的认识,不同学者和勘探家们各持己见,寒武系还是奥陶系哪套是主力烃源岩一直存在争议。虽然诸多地球化学家做了大量卓有成效的工作,并有效指导了塔里木盆地油气勘探工作;但是由于盆地的复杂性和样品的限制,制约了一些研究工作的开展和精细对比,油气来源的观点未能得到勘探家们的充分认可和共识。通过对塔里木盆地寒武系野外详细踏勘和实验分析,在阿克苏地区10余个露头点发现了玉尔吐斯组优质烃源岩,岩性为黑色页岩,有机碳(TOC)值主要分布在2%~16%之间,特别是在于提希、什艾日克沟等剖面,黑色页岩层有机碳值高达4%~16%,是中国目前发现的有机碳值最高的海相烃源岩。这套优质烃源岩在阿克苏一带分布稳定,厚度在10~15m之间,主要形成于中缓坡至下缓坡沉积环境,有机质的富集受上升洋流控制。玉尔吐斯组之上的肖尔布拉克组发育厚层白云岩,野外露头未发现烃源岩,台内滩和微生物礁滩发育,储层较好;中寒武统发育厚层膏岩和泥岩,是一套良好的盖层;下寒武统玉尔吐斯组优质烃源岩与肖尔布拉克组微生物礁滩相储层和中寒武统膏泥岩盖层构成一套良好的生储盖组合,成藏条件优越,具有较大勘探潜力。
朱光有,陈斐然,陈志勇,张颖,邢翔,陶小晚,马德波 . 塔里木盆地寒武系玉尔吐斯组优质烃源岩的发现及其基本特征[J]. 天然气地球科学, 2016 , 27(1) : 8 -21 . DOI: 10.11764/j.issn.1672-1926.2016.01.0008
The Upper Paleozoic strata of Tarim Basin have abundant resources of marine oil and gas.In the Tahe area,Halahatang area,Tazhong area of the basin,many large-scale oilfields have been found.These oilfields have been confirmed with oil and gas reserves more than 2.5 billion tons of oil equivalent and have completed the annual output of more than 14 million tons of marine oil and gas equivalent.The view that the main hydrocarbon source rocks are the Cambrian or Ordovician is still controversial.Geochemists have made much work and effectively guide the oil and gas exploration in Tarim Basin.Because of the complexity of the basin and the limitation of samples,the research work and fine contrast are restricted.In this article,we investigated the Cambrian strata outcrop of Tarim Basin in detail.Through analyzing large amount of outcrops,high-quality hydrocarbon source rocks of Yuertusi Formation have been found in more than 10 outcrop points in Aksu region.The source rocks lithology is black shale,of which total organic carbon (TOC) content are between 2%-16%.Total organic carbon (TOC) of the black shale layer can be up to 4%-16%,especially in outcrops of the Yutixi and Shiairike.This is the best marine hydrocarbon source rock which has found in China by now.The source rocks distribute stably in the Aksu region,the thickness of which is about 10-15m.It is formed in sedimentary environment of middle gentle slope to low gentle slope.Organic matter enrichment is controlled by upwelling currents.Thick strata of dolostone developed in Xiaoerblak Formation are considered as good reservoir of beach and microbial reef in the upper strata of Yuertusi Formation.No hydrocarbon source rocks have been found in outcrop of Xiaoerblak Formation.Thick strata of gyprock and mudstone development are a set of good cap layer in the Lower Cambrian.This hydrocarbon accumulation combination has great exploration potential.
[1]Banerjee D M,Schidlowski M,Siebert F,et al.Geochemical changes across the Proterozoic-Cambrian transition in the Durmala phosphorite mine section,Mussoorie Hills,Garhwal Himalaya,India[J].Palaeogeography,Palaeoclimatology,Palaeoecology,1997,132(1):183-194.
[2]Mao J,Lehmann B,Du A,et al.Re-Os dating of polymetallic Ni-Mo-PGE-Au mineralization in Lower Cambrian black shales of South China and its geologic significance[J].Economic Geology,2002,97(5):1051-1061.
[3]Jiang S,Yang J,Ling H,et al.Extreme enrichment of polymetallic Ni-Mo-PGE-Au in Lower Cambrian black shales of South China:An Os isotope and PGE geochemical investigation[J].Palaeogeography,Palaeoclimatology,Palaeoecology,2007,254(1):217-228.
[4]Steiner M,Wallis E,Erdtmann B,et al.Submarine-hydrothermal exhalative ore layers in black shales from South China and associated fossils:Insights into a Lower Cambrian facies and bio-evolution[J].Palaeogeography,Palaeoclimatology,Palaeoecology,2001,169(3):165-191.
[5]Sutter A A,Dixon R J,Guryanov A V.Kovyktinskoye Gas-Condensate Accumulation,Irkutsk Oblast,East Siberia,Russia(in Abstract)[C].Denver,AAPG Annual Meeting,2001.
[6]Ulmishek G F.Petroleum Geology and Resources of the Nepa-Botuoba High,Angara-Lena Terrace,and Cis-Patom Foredeep,Southeastern Siberian Craton,Russia[M].Reston:US Department of the Interior,US Geological Survey,2001.
[7]Pollastro R M.Ghaba Salt Basin Province and Fahud Salt Basin Province,Oman:Geological Overview and Total Petroleum Systems[M].Reston:US Department of the Interior,US Geological Survey,1999.
[8]Sharland P R,Archer R,Casey D M,et al.Arabian plate sequence stratigraphy[J].GeoArabia,Journal of the Middle East Petroleum Geosciences,2013,18(4):1-371.
[9][KG*4/5]Dai Jinxing,Chen Jianfa,Zhong Ningning,et al.Large Gas Fields in China and Their Gas Sources[M].Beijing:Science Press,2003.[戴金星,陈践发,钟宁宁,等.中国大气田及其气源[M].北京:科学出版社,2003.]
[10]Zhu Guangyou,Zhang Shuichang,Liang Yingbo,et al.The genesis of H2S in the Weiyuan Gasfield,Sichuan Basin and its evidence[J].Chinese Science Bulletin,2007,52(10):1394-1404.[朱光有,张水昌,梁英波,等.四川盆地威远气田硫化氢的成因及其证据[J].科学通报,2006,51(23):2780-2788.
[11]Zhu G,Wang T,Xie Z,et al.Giant gas discovery in the Precambrian deeply buried reservoirs in the Sichuan Basin,China:Implications for gas exploration in old cratonic basins[J].Precambrian Research,2015,262:45-66.
[12]Zhu G,Huang H,Wang H.Geochemical significance of discovery in Cambrian reservoirs at well ZS1 of the Tarim Basin,northwest China[J].Energy & Fuels,2015,29(3):1332-1344.
[13]Zhu G,Weng N,Wang H,et al.Origin of diamondoid and sulphur compounds in the Tazhong Ordovician condensate,Tarim Basin,China:Implications for hydrocarbon exploration in deep-buried strata[J].Marine and Petroleum Geology,2015,62:14-27.
[14]Zhu G,Zhang B,Yang H,et al.Origin of deep strata gas of Tazhong in Tarim Basin,China[J].Organic Geochemistry,2014,74:85-97.
[15]Wang Z,Su J,Zhu G,et al.Characteristics and accumulation mechanism of quasi-layered Ordovician carbonate reservoirs in the Tazhong area,Tarim Basin[J].Energy Exploration & Exploitation,2013,31(4):545-568.
[16][KG*4/5]Zhu G,Zhang B,Yang H,et al.Secondary alteration to ancient oil reservoirs by late gas filling in the Tazhong area,Tarim Basin[J].Journal of Petroleum Science and Engineering,2014,122:240-256.
[17]Zhu G,Zhang S,Su J,et al.Alteration and multi-stage accumulation of oil and gas in the Ordovician of the Tabei Uplift,Tarim Basin,NW China:Implications for genetic origin of the diverse hydrocarbons[J].Marine and Petroleum Geology,2013,46:234-250.
[18]Zhu G,Zhang S,Liu K,et al.A well-preserved 250 million-year-old oil accumulation in the Tarim Basin,western China:Implications for hydrocarbon exploration in old and deep basins[J].Marine and Petroleum Geology,2013,43:478-488.
[19][KG*4/5]Zhu G,Zhang S,Su J,et al.The occurrence of ultra-deep heavy oils in the Tabei Uplift of the Tarim Basin,NW China[J].Organic Geochemistry,2012,52:88-102.
[20]Yang H,Zhu G,Wang Y,et al.The geological characteristics of reservoirs and major controlling factors of hydrocarbon accumulation in the Ordovician of Tazhong area,Tarim Basin[J].Energy,Exploration & Exploitation,2014,32(2):345-368.
[21]Zhu Guangyou,Yang Haijun,Su Jin,et al.New progress of marine hydrocarbon geological theory in China[J].Acta Petrologica Sinica,2012,28(3):722-738.[朱光有,杨海军,苏劲,等.中国海相油气地质理论新进展[J].岩石学报,2012,28(3):722-738.
[22]Li S,Amrani A,Pang X,et al.Origin and quantitative source assessment of deep oils in the Tazhong Uplift,Tarim Basin[J].Organic Geochemistry,2015,78:1-22.
[23]Cai C,Zhang C,Worden R H,et al.Application of sulfur and carbon isotopes to oil-source rock correlation:A case study from the Tazhong area,Tarim Basin,China[J].Organic Geochemistry,2015,83:140-152.
[24]Chang X C,Wang T G,Li Q M,et al.Charging of Ordovician reservoirs in the Halahatang Depression (Tarim Basin,NW China) determined by oil geochemistry[J].Journal of Petroleum Geology,2013,36(4):383-398.
[25]Zhang S,Huang H,Su J,et al.Geochemistry of Paleozoic marine oils from the Tarim Basin,NW China.Part 4:Paleobiodegradation and oil charge mixing[J].Organic Geochemistry,2014,67:41-57.
[26]Zhu G,Su J,Yang H,et al.Formation mechanisms of secondary hydrocarbon pools in the Triassic reservoirs in the northern Tarim Basin[J].Marine and Petroleum Geology,2013,46:51-66.
[27]Wang Zhaoming,Xie Huiwen,Chen Yongquan,et al.Discovery and exploration of Cambrian subsalt dolomite original hydrocarbon reservoir at well Zhongshen-1 in Tarim Basin[J].China Petroleum Exploration,2014,19(2):1-13.[王招明,谢会文,陈永权,等.塔里木盆地中深1井寒武系盐下白云岩原生油气藏的发现与勘探意义[J].中国石油勘探,2014,19(2):1-13.]
[28]Xiong Ran,Zhou Jingao,Ni Xinfeng,et al.Distribution prediction of Lower Cambrian Yuertusi Formation source rocks and its significance to oil and gas exploration in the Tarim Basin[J].Natural Gas Industry,2015(10):49-56.[熊冉,周进高,倪新锋,等.塔里木盆地下寒武统玉尔吐斯组烃源岩分布预测及油气勘探的意义[J].天然气工业,2015(10):49-56.]
[29][KG*4/5]Guan Ping.Cambrian Sedimentary Reservoir Study Field Guide of Keping Area and Western of Tabei[R] Beijing:Beijing University of Science and Technology Development,2015.[关平.塔北西部—柯坪地区寒武系沉积储层研究野外考察指南[R].北京:北京大学科技开发部,2015.]
[30]Zhang Shuichang,Liang Digang,Zhang Baomin,et al.Marine Hydrocarbon Formation in the Tarim Basin[M].Beijing:Petroleum Industry Press,2004.[张水昌,梁狄刚,张宝民,等.塔里木盆地海相油气的生成[M].北京:石油工业出版社,2004.]
[31]Zhao Zongju,Luo Jiahong,Zhang Yunbo,et al.Lithofacies paleogeography of Cambrian sequences in Tarim Basin[J].Acta Petrolei Sinica,2011,32(6):937-948.[赵宗举,罗家红,张云波,等.塔里木盆地寒武纪层序岩相古地理[J].石油学报,2011,32(6):937-948.]
[32]Zhang Baomin,Zhang Shuichang,Bian Lizeng,et al.Developmental modes of the Neoproterozoic-Lower Paleozoic marine hydrocarbon source rocks in China[J].Chinese Science Bulletin,2007,52(supplementⅠ):77-91.[张宝民,张水昌,边立曾,等.浅析中国新元古—下古生界海相烃源岩发育模式[J].科学通报,2007,52(增刊Ⅰ):58-69.]
[33]Pan Wenqing,Chen Yongquan,Xiong Yixue,et al.Sedimentary facies research and implications to advantaged exploration regions on Lower Cambrian source rocks,Tarim Basin[J].Natural Gas Geoscience,2015,26(7):1224-1232.[潘文庆,陈永权,熊益学,等,塔里木盆地下寒武统烃源岩沉积相研究及其油气勘探指导意义[J].天然气地球科学,2015,26(7):1224-1232.]
[34]Zhang Shuichang,Wang R L,Jin Zhijun,et al.The relationship between the Cambrian-Ordovician high-TOC source rock development and paleoenvironment variations in the Tarim Basin,western China:Carbon and oxygen isotope evidence[J].Acta Geologica Sinica,2006,80(3):459-466.[张水昌,Wang R L,金之钧,等.塔里木盆地寒武纪—奥陶纪优质烃源岩沉积与古环境变化的关系:碳氧同位素新证据[J].地质学报,2006,80(3):459-466.]
[35]Lisitzin A P,Rodolfo K S.Sedimentation in the World Ocean with Emphasis on the Nature,Distribution and Behavior of Marine Suspensions[M].Tulsa:Society of Economic Paleontologists and Mineralogists,1972.
[36]Luo Ping,Wang Shi,Li Pengwei,et al.Review and prospectives of microbial carbonate reservoirs[J].Acta Sedimentologica Sinica,2013,31(5):807-823.[JP3][罗平,王石,李朋威,等.微生物碳酸盐岩油气储层研究现状与展望[J].沉积学报,2013,31(5):807-823.]
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