Abstract
Biodegraded oils from the northern slope of the Biyang Sag were analyzed to examine the application of tricyclic terpanes to biodegraded oil-source correlation. Tricyclic terpanes are resistant to biodegradation ( biodegradation rank 8) . New tricyclic terpane parameters, such as (C23-C26/Cl9-C22)-tricyclic terpanes, (Cl9-C26/ C28-C29)-tricyclic terpanes and (C19-C26)-tricyclic terpanes/C29-Ts are effective oil-source correlation parameters. Correlation results suggested that the biodegraded oils in the lower member of Eh 3 on the northern slope of the Biyang Sag came from the mudstones in the lower member of Eh 3 of the central sag, and the oils in the upper member of Eh 3 mainly came from the mudstones in the upper member of Eh 3 of the central sag. The correlation results of oils and source rocks in the Zhu I Depression of the Pearl River Mouth Basin determined by the three tricyclic terpane parameters were consistant with previous results, further supporting the effectiveness of the parameters.
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References:
Head I M, Jones D M, Larter S R.Biological activity in the deep subsurface and the origin of heavy oil [J]. Nature, 2003, 426 (6964) :344–352.
Peters K E, Moldowan J M. The biomarker guide: interpreting molecular fossils in petroleum and ancient sediments[M] .Englewood Cliffs : Prentice Hall, 1993:100–170.
He Sheng, Ye Jiaren, Xu Sihuang, et al. Oil and gas geology[M]. Wuhan:China University of Geosciences Press,2010.
Peters K E, Walters C C, Moldowan J M.The Biomarker guide: biomarkers and isotopes in petroleum exploration and earth history, vol 2[M].Cambridge: The Press Syndicate of the University of Cambridge, 2005 : 645–705.
Wenger L M, Davis C L, Isaksen G H.Multiple controls on petroleum biodegradation and impact on oil quality[C].SPE Annual Technical Conference and Exhibition,2002.
Bao Jianping, Zhu Cuishan.The effects of biodegradation on biomarker maturity indicators in sequentially biodegraded oils from Liaohe Basin, China[J].Science in China:Series D:Earth Sciences,2009,52(1) :42–50.
Ni Chunhua, Bao Jianping, Gu Yi.Study of biodegradation effect on aromatic biomarker parameters[J].Petroleum Geology & Experiment,2008, 30(4) :386–389.
Huang Haiping, Yang Jie, Larter S R.Biodegradation effect on distributions of multiple methylated naphthalenes in reservoir extracts[J].Earth Science:Journal of China University of Geosciences,2003, 28(3) :281–288.
Ma Anlai, Zhang Shuichang, Zhang Dajiang.Ruthenium-ion-catalyzed oxidation of asphaltenes of heavy oils in Lunnan and Tahe oilfields in Tarim Basin, N W China [J]. Organic Geochemistry, 2008,39( 11) : 1502–1511.
Xu Guanjun, Zhang Dajiang, Wang Peirong. Lsing the biomarkers bounded on the asphaltene for biodegradaed oil-source correlation[J].Chinese Science Bulletin,2003,48(4) :400–404.
Wu Yingqin, Xia Yanqing, Wang Yongli, et al. Study on the biomarkers of asphaltene inclusions in severely biodegraded thick oils [J]. Petroleum Geology & Experiment,2010,32(5) :480–483.
Fazeelat T, Asif M, Jalees M I, et al. Source correlation between biodegraded oil seeps and a commercial crude oil from the Punjab Basin, Pakistan[J].Journal of Petroleum Science and Engineering,2011, 77(1) :1–9.
Li Shuifu, Hu Shouzhi, He Sheng, et al. Oil-source correlation for biodegraded oils in the north slope of the Biyang Depression [J]. Acta Petrolei Sinica,2010,31(6) :946–951.
Hu Shouzhi, Li Shuifu, He Sheng, et al. Geochemical characteristics and significance of heavy oils from the west area of Biyang Sag, Nanxiang Basin [J]. Petroleum Geology & Experiment,2010,32(4) :387–392.
Chen Liang, Wang Hua, Han Jinyang, et al. Sequence stratigraphy and stratum-lithology trap prediction of the Eh3 upper member of Hetaoyuan Formation in south Xia´ermen Oilfield, Biyang Sag [J]. Petroleum Exploration and Development,2006,33(1) :26–31.
Li Haihua. Study of sequence stratigraphy and subtle reservoirs in the Biyang sag of the Nanxiang basin[J].Petroleum Geology & Experiment, 2008,30 (1):47–51.
Wang Hua, He Sheng, Gan Huajun, et al. Hydrocarbon generating differences of source rocks in different environments from Biyang Depression [R]. Wuhan : China University of Geosciences(Wuhan) Faculty of Resources,2009.
Guo Pengfei, He Sheng, Zhu Shukui, et al. Genesis and composition of ‘baseline hump’ in biodegraded oil samples from Bivang Depression[J].Oil & Gas Geology,2014,35(3) :317–325.
Dong Tian, He Sheng, Lin Sheqing.Organic geochemical characteristics and thermal evolution maturity historv modeling of source rocks in Eocene lietaoyuan Formation of Bivang Sag, Nanxiang Basin [J]. Petroleum (Geology & Experiment, 2013, 35(2) : 187–194.
De Grande S M B, Aquino Neto F R, Mello M R.Extended tricyclic terpanes in sediments and petroleums [J]. Organic Geochemistry, 1993,20(7) :1039–1047.
Ourisson G, Albrecht P, Rohmer M. Predictive microbial biochemistry : from molecular fossils to procarvotic membranes [J]. Trends in Biochemical Sciences,1982,7(7) :236–239.
Volkman J K, Banks M R, Denwer K, et al. Biomarker composition and depositional setting Tasmanite oil shale from northern Tasmania, Australia[C]. Paris: 14th International Meeting on Organic Geochemistry, 1989:18–22.
Revill A T, Volkman J K, O´leary T, et al.Hydrocarbon biomarkers, thermal maturity and depositional setting of tasmanite oil shales from Tasmania, Australia[J].Geochimica et Cosmochimica Acta, 1994,58(18):3803–3822.
Behrens A, Schaeffer P, Bernasconi S, et al.17 (E)-13α(H)- Malabarica-14 (27), 17,21-triene,an unexpected tricyclic hydrocarbon in sediments [J]. Organic Geochemistry, 1999, 30(5) :379–383.
Chen Jianping, Liang Digang, Wang Xulong, et al. Oil-source correlation of mixed oils derived from multiple source rocks in the Cainan Oilfieid, Junggar Basin, Northwest China.Part IE: Geological and geochemical analysis of possible oil sources in the Cainan Oilfield [J]. Petroleum Exploration and Development,2003,30(6) :41–44.
Hao Fang, Zou Huayao, Fang Yong, et al. Overpressure-fault controlled fluid flow and episodic hydrocarbon accumulation [J]. Acta Petrolei Sinica,2004,25(6) :38–43.
Zhang Shuichang, Gong Zaisheng, Liang Digang, et al. Geochemistry of petroleum systems in the eastern Pearl River Mouth Basin-I:oil family classification, oil-source correlation and mixed oil analysis [J] .Acta Sedimentologica Sinica,2004,22(S): 15–26.
Bao Jianping, Zhu Cuishan, Ni Chunhua, et al. Distribution and composition of biomarkers in crude oils from different sags of Beibuwan Basin [J]. Acta Sedimentologica Sinica, 2007, 25(4) :646–652.
Ma Zhongyuan, Huang Wei, Li Jingjing, et al. Geochemical characteristics of crude oil from lower Kalpintag Formation in SH9 well area, northern slope of middle Tarim Basin[J]. Petroleum Geology & Experiment,2013,35(5) :559–563.
Lu Qinghua, Shao Zhibing, Jia Cunshan, et al. Genesis features of crude oil in Ordovician, Yubei area, Tarim Basin [J]. Petroleum Geology & Experiment,2013,35(3) :320–324.
Wang Darui. Oil and gas stable isotope geochemistry [M]. Beijing: Petroleum industry Press,2000:146–244.
Mei Ling, Zhang Zhihuan.Aromatic geochemical characteristics of crude oil of beach area in Nanpu Sag[J]. Journal of Oil & Gas Technology,2009,31(2) :11–15.
Chen Sizhong, Zhang Minghui, Zhang Junda. Study on oil and gas generation and exploration in eastern Pearl River Mouth Basin[J] .Oil & Gas Geology, 1991, 12(2) :95–106.
Zhu Weilin, Zhang Gongcheng, Gao Le.Geological characteristics and exploration objectives of hydrocarbons in the northern continental margin basin of South China Sea [J]. Acta Petrolei Sinica,2008, 29(1) :1–9.
Li Youchuan, Tao Weixiang, Sun Yumei, et al. Classification and distribution of oil in liuizhou Depression of Pearl River Mouth Basin[J] .Acta Petrolei Sinica,2009,30(6) :830–834.
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(1. Key Laboratory of Tectonics & Petroleum Resources of Ministry of Education, China University of Geosciences, Wuhan, Hubei 430074, China; 2. Faculty of Resources, China University of Geosciences, Wuhan, Hubei 430074, China; 3. College of Mining Engineering, Hebei United University, Tangshan, Hebei 063009, China)
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Pengfei, G., Sheng, H., Shukui, Z. et al. 利用三环萜烷对比泌阳凹陷生物降解油油源. Petroleum geology experiment 37, 13 (2015). https://doi.org/10.7603/s40972-015-0013-7
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DOI: https://doi.org/10.7603/s40972-015-0013-7