Preliminary Study on the Severely Biodegraded Crude Oil in Jiyang Depression, China

LU Hong; PENG Ping an; XU Xing you; ZHANG Lin ye

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Article Navigation > Acta Sedimentologica Sinica > 2004 > 22(4): 694-699

LU Hong, PENG Ping an, XU Xing you, ZHANG Lin ye. Preliminary Study on the Severely Biodegraded Crude Oil in Jiyang Depression, China[J]. Acta Sedimentologica Sinica, 2004, 22(4): 694-699.

Citation:

LU Hong, PENG Ping an, XU Xing you, ZHANG Lin ye. Preliminary Study on the Severely Biodegraded Crude Oil in Jiyang Depression, China[J]. Acta Sedimentologica Sinica, 2004, 22(4): 694-699.

Preliminary Study on the Severely Biodegraded Crude Oil in Jiyang Depression, China

1.
State Key Laboratory of Organic Geochemistry, Guangzhou Institute of Geochemistry, Chinese Academy of Sciences, Guangzhou 510640;
2.
Exploration and Development Research Institute, Shengli Oilfield, Dongying,Shandong 257015

Received Date: 2003-10-14
Rev Recd Date: 2003-12-11
Publish Date: 2004-12-10

Abstract

For a crude oil sample from Ordovician reservoir in Well Caogu100 Ping 19 in Jiyang depression, Shengli Oilfield, North China, hydrocarbons except for tricyclic terpane, hopane and 25 norhopane homologues were completely depleted in saturated fraction, as well as hydrocarbons except for triaromatic steranes in the aromatic fraction, which indicate that severe biodegradation occurred in this reservoir. Completely depleted n alkanes unaltered by water washing and dibenzothiphenes resistant biodegradation in the oil sample implied apparently that the alteration occurred in this reservoir was associated with biodegradation together with water washing. The magnitude of "UCM" hump existed in the aromatic fraction is apparently larger than that of "UCM" hump existed in the saturated fraction, which implied that the biodegradation rate for aromatic hydrocarbons is parallel or even exceed that of the saturated hydrocarbons. The fast biodegradation of aromatic hydrocarbons with lower molecular weight, as well as the occurrence of abundant 25 norhopanes, indicates that the alteration occurred in the aerobic environment other than in the anaerobic condition.
- Jiyang depression,
- biodegraded crude oil,
- 25-norhopane,
- aerobic biodegradation,
- water washing

References

[1]	Bastin E. Microorganisms in oilfields. Sciences, 1926,63:21～24
[2]	Milner C W D, Rogers M A, Evans C R. Petroleum transformations in reservoirs. Journal of Geochemical Exploration, 1977, 7: 101～153
[3]	Schink B. Degradation of unsaturated hydrocarbons in crude oil by methanogenic enrichment cultures. FEMS Microbiology Ecology, 1985, 31: 69～77
[4]	Aeckersberg F, Bak F, Widdel F. Anaerobic oxidation of saturated hydrocarbons to CO2 by a new type of sulfate-reducing bacterium. Archives of Microbiology, 1991, 156: 5～14
[5]	Wilhelms A, Larter S R, Head I, Farrimond P, et al. Biodegradation of oil in uplifted basins prevented by deep-burial sterilization. Nature, 2001, 411: 1034～1037
[6]	Jobson A, Cook F D, Westlake D W S. Microbial utilization of crude oil. Applied Microbiology and Biotechnology, 1972, 23: 1082～1089
[7]	Stahl W J. Compositional changes and 13C/12C fractionation during the degradation of hydrocarbons by bacteria. Geochimica et Cosmochimica Acta, 1980, 44:1903～1907
[8]	Connan J, Le Thahn K, van der Weide. Alteration of petroleum in reservoirs. Proc. 9th world Pet. Cong., 1975.171～178
[9]	Deroo G., Powell T G, Tissot B, McCrossan R G. The origin and migration of petroleum in the Western Canadian sedimentary basin, Alberta. Geological Survey of Canada Bulletin, 1977, 262: 136
[10]	Rubinstein I, Strausz O P, Spyckerelle C, et al. The origin of the oil sand bitumens of Alberta: a chemical and a microbiological simulation study. Geochimica et Cosmochimica Acta, 1977, 41: 1341～1353
[11]	Jones D M, Douglas G, Wehrung P, et al. The recognition of biodegraded petroleum-derived aromatic hydrocarbons in recent marine sediments. Marine Pollution Bulletin, 1983,14:103～108
[12]	Volkman J K. Biodegradation of aromatic hydrocarbons in crude oils from the Barrow Sub-basin of Western Australia. Organic Geochemistry, 1984, 6: 619～632
[13]	Fisher S J, Alexander R, Kagi R I. Biodegradation of alkylnaphthalenes in sediment adjacent to an offshore petroleum production platform. Polycyclic Aromatic Compounds, 1996, 11:35～42
[14]	Fisher S J, Alexander R, Kagi R I, Oliver G A. Aromatic hydrocarbons as indicators of petroleum biodegradation in North Western Australian reservoirs. In: Purcell P G, Purcell B R, eds. The sedimentary basins of Western Australia 2, Proceedings of Petroleum Exploration Society Symposium. Perth, 1998. 185～194
[15]	Ahmed M, Smith J W, George S C. Effects of biodegradation on Austrlian Permian coals. Organic Geochemistry, 1999, 30(10): 1311～1322
[16]	Van Aarssen B G K, Bastow T P, Alexander R, Kagi RI. Distributions of methylated naphthalenes in crude oils: indicators of maturity, biodegradation and mixing. Organic Geochemistry, 1999.30:1213～1227
[17]	Connan J. Biodegradation of crude oils in reservoirs. In: Brooks J, Welte D, eds. Advances in Petroleum Geochemistry. Vol.1. London:Academic Press, 1984. 299
[18]	蒋助生. 克拉玛依原油中的降解甾烷和萜烷. 见:有机地球化学和陆相生油. 北京: 石油工业出版社, 1986. 72～82[Jiang Zhusheng, Biodegraded steranes and terpanes in crude oils from Kelamayi Oilfield, NW China. Organic Geochemistry and terrestrial hydrocarbon generation. Beijing: Petroleum Industry Press,1986.72～82]
[19]	张大江. 克拉玛依原油的生物降解. 石油勘探与开发,1987, 14(4):34～40.[Zhang Dajiang et al. Biodegradation in crude oils from Kelamayi Oildield, NW China. Petroleum exploration and development.1987,14(4):34～40]
[20]	王屿涛. 准噶尔盆地西北缘稠油生物降解特征. 沉积学报,1994, 12(1):81～87[Wang Yutao. Characteristics of biodegraded heavy oils in northwestern part of Jungar Basin, NW China. Acta Sedimentologica Sinica,1994,12(1):81～87]
[21]	熊永强, 耿安松, 刘得光. 克拉玛依油田稠油中萜类化合物单体碳同位素组成. 科学通报, 1998, 12:1312～1315[Xiong Yongqiang, Geng Ansong and Liu Deguang. Stable carbon isotopic compositions of compound specific terpanoils for heavy oils in Kelamayi oilfield, NW China. Chinese Bulletin of Sciences. 1998,43(12):1312～1315]
[22]	宋一涛, 等. 孤东油田生物降解原油的特征及油源勘探. 陆相石油地质文集. 北京: 石油工业出版社,1995[Song Yitao,et al. Characteristics and exploration target of biodegraded oils in Gudong Oilfield, Jiyang Depression. Corpus for terrestrial Petroleum Geology. Beijing: Petroleum Industry Press,1995]
[23]	熊永强, 耿安松. 辽河油田生物降解原油沥青质热解产物中单体化合物碳同位素组成.地球化学,1998, 6:532～536[Xiong Yongqiang and Geng Ansong. Stable carbon isotopic compositions of compound specific hydrocarbons in perolysed products of asphaltene fraction for biodegraded oils in Liaohe Oilfield. Geochemistry,1998,27(6):532～536]
[24]	梁春秀, 刘宝柱, 孙万军. 松辽盆地南部的西部斜坡重油特征与油源探讨. 石油勘探与开发, 2002, 2:45～48[Liang Chunxiu, Liu Baozhu and Sun Wanjun, Characteristics and source of heavy oils in southwestern slope of Songliao Basin. Petroleum exploration and development, 2002,29(2):45～48]
[25]	窦立荣, 徐树宝, 祝玉衡, 平学聪. 二连盆地重质稠油藏成因及地化特征. 石油学报, 1995, 2: 1～7[Dou Lirong, Xu Shubao, Zhu Yuheng,et al. Geochemical characteristics of heavy oils and reservoir formation in Erlian Basin. Petrolei,1995,16(2):1～7]
[26]	Moldowan J M and McCaffrey M A. A novel microbial hydrocarbon degradation pathway revealed by hopane demethylation in a petroleum reservoir. Geochimica et Cosmochimica Acta, 1995, 59(9):1891～1894
[27]	包建平.未降解原油和生油岩中的25-降藿烷系列. 科学通报, 1996, 41(20):1875～1878[Bao Jianping. 25-norhopanes in unbiodegraded oils and source rocks. Chinese bulletin of sciences, 1996,41(20):1875～1878]
[28]	包建平,梅博文.25-降藿烷系列的"异常"分布及其成因. 沉积学报, 1997, 15(2):179～183[Bao Jianping and Mei Bowen. Unconventional distribution and formation of 25-norhopanes. Acta sedimentologica Sinica,1997,15(2):179～183]
[29]	Tissot B P and Welte D H. Petroleum Formation and Occurrence. Berlin: Springer-Verlag, 1978
[30]	Peters K E, Moldowan J M. The Biomarkers Guide: interpreting molecular fossils in petroleum and ancient sediments. New York: Prentice Hall, 1993
[31]	Volkman J K, Alexander R, Kagi R I, et al. A geochemical reconstruction of oil generation in the Barrow Sub-basin of Western Australia. Geochimic et Cosmochimica Acta, 1983a, 47: 2091～2105
[32]	Volkman J K, Alexander R, Kagi R I, et al. Demethylated hopanes in crude oils and their applications in petroleum geochemistry. Geochimica et Cosmochimica Acta, 1983b, 47: 785～794

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通讯作者: 陈斌, bchen63@163.com

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沈阳化工大学材料科学与工程学院沈阳 110142

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Preliminary Study on the Severely Biodegraded Crude Oil in Jiyang Depression, China

1. State Key Laboratory of Organic Geochemistry, Guangzhou Institute of Geochemistry, Chinese Academy of Sciences, Guangzhou 510640;

2. Exploration and Development Research Institute, Shengli Oilfield, Dongying,Shandong 257015

Received Date: 2003-10-14

Rev Recd Date: 2003-12-11

Publish Date: 2004-12-10

Key words:

Abstract: For a crude oil sample from Ordovician reservoir in Well Caogu100 Ping 19 in Jiyang depression, Shengli Oilfield, North China, hydrocarbons except for tricyclic terpane, hopane and 25 norhopane homologues were completely depleted in saturated fraction, as well as hydrocarbons except for triaromatic steranes in the aromatic fraction, which indicate that severe biodegradation occurred in this reservoir. Completely depleted n alkanes unaltered by water washing and dibenzothiphenes resistant biodegradation in the oil sample implied apparently that the alteration occurred in this reservoir was associated with biodegradation together with water washing. The magnitude of "UCM" hump existed in the aromatic fraction is apparently larger than that of "UCM" hump existed in the saturated fraction, which implied that the biodegradation rate for aromatic hydrocarbons is parallel or even exceed that of the saturated hydrocarbons. The fast biodegradation of aromatic hydrocarbons with lower molecular weight, as well as the occurrence of abundant 25 norhopanes, indicates that the alteration occurred in the aerobic environment other than in the anaerobic condition.

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Reference (32)

[1]	Bastin E. Microorganisms in oilfields. Sciences, 1926,63:21～24
[2]	Milner C W D, Rogers M A, Evans C R. Petroleum transformations in reservoirs. Journal of Geochemical Exploration, 1977, 7: 101～153
[3]	Schink B. Degradation of unsaturated hydrocarbons in crude oil by methanogenic enrichment cultures. FEMS Microbiology Ecology, 1985, 31: 69～77
[4]	Aeckersberg F, Bak F, Widdel F. Anaerobic oxidation of saturated hydrocarbons to CO2 by a new type of sulfate-reducing bacterium. Archives of Microbiology, 1991, 156: 5～14
[5]	Wilhelms A, Larter S R, Head I, Farrimond P, et al. Biodegradation of oil in uplifted basins prevented by deep-burial sterilization. Nature, 2001, 411: 1034～1037
[6]	Jobson A, Cook F D, Westlake D W S. Microbial utilization of crude oil. Applied Microbiology and Biotechnology, 1972, 23: 1082～1089
[7]	Stahl W J. Compositional changes and 13C/12C fractionation during the degradation of hydrocarbons by bacteria. Geochimica et Cosmochimica Acta, 1980, 44:1903～1907
[8]	Connan J, Le Thahn K, van der Weide. Alteration of petroleum in reservoirs. Proc. 9th world Pet. Cong., 1975.171～178
[9]	Deroo G., Powell T G, Tissot B, McCrossan R G. The origin and migration of petroleum in the Western Canadian sedimentary basin, Alberta. Geological Survey of Canada Bulletin, 1977, 262: 136
[10]	Rubinstein I, Strausz O P, Spyckerelle C, et al. The origin of the oil sand bitumens of Alberta: a chemical and a microbiological simulation study. Geochimica et Cosmochimica Acta, 1977, 41: 1341～1353
[11]	Jones D M, Douglas G, Wehrung P, et al. The recognition of biodegraded petroleum-derived aromatic hydrocarbons in recent marine sediments. Marine Pollution Bulletin, 1983,14:103～108
[12]	Volkman J K. Biodegradation of aromatic hydrocarbons in crude oils from the Barrow Sub-basin of Western Australia. Organic Geochemistry, 1984, 6: 619～632
[13]	Fisher S J, Alexander R, Kagi R I. Biodegradation of alkylnaphthalenes in sediment adjacent to an offshore petroleum production platform. Polycyclic Aromatic Compounds, 1996, 11:35～42
[14]	Fisher S J, Alexander R, Kagi R I, Oliver G A. Aromatic hydrocarbons as indicators of petroleum biodegradation in North Western Australian reservoirs. In: Purcell P G, Purcell B R, eds. The sedimentary basins of Western Australia 2, Proceedings of Petroleum Exploration Society Symposium. Perth, 1998. 185～194
[15]	Ahmed M, Smith J W, George S C. Effects of biodegradation on Austrlian Permian coals. Organic Geochemistry, 1999, 30(10): 1311～1322
[16]	Van Aarssen B G K, Bastow T P, Alexander R, Kagi RI. Distributions of methylated naphthalenes in crude oils: indicators of maturity, biodegradation and mixing. Organic Geochemistry, 1999.30:1213～1227
[17]	Connan J. Biodegradation of crude oils in reservoirs. In: Brooks J, Welte D, eds. Advances in Petroleum Geochemistry. Vol.1. London:Academic Press, 1984. 299
[18]	蒋助生. 克拉玛依原油中的降解甾烷和萜烷. 见:有机地球化学和陆相生油. 北京: 石油工业出版社, 1986. 72～82[Jiang Zhusheng, Biodegraded steranes and terpanes in crude oils from Kelamayi Oilfield, NW China. Organic Geochemistry and terrestrial hydrocarbon generation. Beijing: Petroleum Industry Press,1986.72～82]
[19]	张大江. 克拉玛依原油的生物降解. 石油勘探与开发,1987, 14(4):34～40.[Zhang Dajiang et al. Biodegradation in crude oils from Kelamayi Oildield, NW China. Petroleum exploration and development.1987,14(4):34～40]
[20]	王屿涛. 准噶尔盆地西北缘稠油生物降解特征. 沉积学报,1994, 12(1):81～87[Wang Yutao. Characteristics of biodegraded heavy oils in northwestern part of Jungar Basin, NW China. Acta Sedimentologica Sinica,1994,12(1):81～87]
[21]	熊永强, 耿安松, 刘得光. 克拉玛依油田稠油中萜类化合物单体碳同位素组成. 科学通报, 1998, 12:1312～1315[Xiong Yongqiang, Geng Ansong and Liu Deguang. Stable carbon isotopic compositions of compound specific terpanoils for heavy oils in Kelamayi oilfield, NW China. Chinese Bulletin of Sciences. 1998,43(12):1312～1315]
[22]	宋一涛, 等. 孤东油田生物降解原油的特征及油源勘探. 陆相石油地质文集. 北京: 石油工业出版社,1995[Song Yitao,et al. Characteristics and exploration target of biodegraded oils in Gudong Oilfield, Jiyang Depression. Corpus for terrestrial Petroleum Geology. Beijing: Petroleum Industry Press,1995]
[23]	熊永强, 耿安松. 辽河油田生物降解原油沥青质热解产物中单体化合物碳同位素组成.地球化学,1998, 6:532～536[Xiong Yongqiang and Geng Ansong. Stable carbon isotopic compositions of compound specific hydrocarbons in perolysed products of asphaltene fraction for biodegraded oils in Liaohe Oilfield. Geochemistry,1998,27(6):532～536]
[24]	梁春秀, 刘宝柱, 孙万军. 松辽盆地南部的西部斜坡重油特征与油源探讨. 石油勘探与开发, 2002, 2:45～48[Liang Chunxiu, Liu Baozhu and Sun Wanjun, Characteristics and source of heavy oils in southwestern slope of Songliao Basin. Petroleum exploration and development, 2002,29(2):45～48]
[25]	窦立荣, 徐树宝, 祝玉衡, 平学聪. 二连盆地重质稠油藏成因及地化特征. 石油学报, 1995, 2: 1～7[Dou Lirong, Xu Shubao, Zhu Yuheng,et al. Geochemical characteristics of heavy oils and reservoir formation in Erlian Basin. Petrolei,1995,16(2):1～7]
[26]	Moldowan J M and McCaffrey M A. A novel microbial hydrocarbon degradation pathway revealed by hopane demethylation in a petroleum reservoir. Geochimica et Cosmochimica Acta, 1995, 59(9):1891～1894
[27]	包建平.未降解原油和生油岩中的25-降藿烷系列. 科学通报, 1996, 41(20):1875～1878[Bao Jianping. 25-norhopanes in unbiodegraded oils and source rocks. Chinese bulletin of sciences, 1996,41(20):1875～1878]
[28]	包建平,梅博文.25-降藿烷系列的"异常"分布及其成因. 沉积学报, 1997, 15(2):179～183[Bao Jianping and Mei Bowen. Unconventional distribution and formation of 25-norhopanes. Acta sedimentologica Sinica,1997,15(2):179～183]
[29]	Tissot B P and Welte D H. Petroleum Formation and Occurrence. Berlin: Springer-Verlag, 1978
[30]	Peters K E, Moldowan J M. The Biomarkers Guide: interpreting molecular fossils in petroleum and ancient sediments. New York: Prentice Hall, 1993
[31]	Volkman J K, Alexander R, Kagi R I, et al. A geochemical reconstruction of oil generation in the Barrow Sub-basin of Western Australia. Geochimic et Cosmochimica Acta, 1983a, 47: 2091～2105
[32]	Volkman J K, Alexander R, Kagi R I, et al. Demethylated hopanes in crude oils and their applications in petroleum geochemistry. Geochimica et Cosmochimica Acta, 1983b, 47: 785～794

Preliminary Study on the Severely Biodegraded Crude Oil in Jiyang Depression, China

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References

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通讯作者: 陈斌, bchen63@163.com

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