微生物采油技术研究及试验

汪卫东

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汪卫东. 微生物采油技术研究及试验[J]. 石油钻采工艺, 2012, 34(1): 107-113.
引用本文: 汪卫东. 微生物采油技术研究及试验[J]. 石油钻采工艺, 2012, 34(1): 107-113.
shu
WANG Weidong. Laboratory research and field trials of microbial oil recovery technique[J]. Oil Drilling & Production Technology, 2012, 34(1): 107-113.
Citation: WANG Weidong. Laboratory research and field trials of microbial oil recovery technique[J]. Oil Drilling & Production Technology, 2012, 34(1): 107-113.
shu

微生物采油技术研究及试验

  • 1.

    胜利油田公司采油工艺研究院,山东东营 257000

详细信息

  • 中图分类号: TE357

Laboratory research and field trials of microbial oil recovery technique

  • 1.

    Oil Production Technology Research Institute, Shengli Oil Field Ltd. Co. SINOPEC, Dongying 257000, China

  • 摘要: 我国微生物采油技术近十几年来得到快速发展,其中微生物防蜡和单井吞吐技术已基本成熟,分别作为生产维护和增产措施在多个油田有规模化应用,但目前仍存在机理认识不清和工艺优化的问题,还需要进一步完善,以提高措施效果及有效率。微生物驱油技术仍处于试验阶段,国内已开展了20多个区块的现场试验,但还没有建立统一的认识,发展方向仍不明确,至今难以推广。分析了国内外近十几年来微生物采油领域的研究和应用现状,重点论述了微生物驱油技术存在的问题,分析了国外的现场试验方法和发展趋势,提出未来的研究和发展需要关注的问题。
    Abstract: With the rapid development of native microbial enhanced oil recovery technique in China recent decade, paraffin removal and prevention by microbial and huff puff with single well have became mature explore technologies in oil fields and have been wide scale used in many oilfields taking as production maintain and stimulation measures, respectively. However, the existence of mechanism misunderstanding and technique optimizing still need further study to enhance the effect of treatment and efficiency. Meanwhile, the microbial flooding technology is still on pilot stage, although more than 20 field trials have been carried out. There is no consensus of opinion in microbial flooding and the orientation of technological development is still obscure so that there are difficulties on technology extension. Studies, field tests and applications in recent decade about microbial technology were discussed in this paper, and the several key points in microbial flooding were discussed in detail. On the basis of analyzing on-site experiment patterns and developing trend, some problems that need to pay attention in next research and development in the future have been proposed.
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    [3]PORTWOOD J T. A commercial microbial enhanced oil recovery technology: evaluation of 322 projects[R]. SPE 29518, 1995.
    [4]GREGORY A B, DEBBY F B, SANDRA L F, et al. Microbiological production of surfactant from agricultural residuals for IOR application[R]. SPE 75239, 2002.
    [5]MCINERNEY M J, KNAPP R M, KATHLEEN D, et al. Development of an in situ-biosurfactant production technology for enhanced oil recovery[C]. University of Oklahoma, Norman, OK and Arrow Holding, Inc., Norman, OK, 2007.
    [6]MCINERNEY M J, HAN S O, MAUDGALYA S, et al. Development of more effective biosurfactants for enhanced oil recovery[R]. Pacific Northwest National Laboratory, 1995.
    [7]MCINERNEY M J, FOLMSBEE M, NAGLE D. Development of improved anaerobic growth of Bacillus mojavensis strain JF-2 for the purpose of improved anaerobic biosurfactant production for enhanced oil recovery[C]. Department of Botany and Microbiology University of Oklahoma, 2004.
    [8]STEPHENS J O, BROWN L R, VADIE A A. The utilization of the microflora indigenous to and present in oil-bearing formations to selectively plug the more porous zones thereby increasing oil recovery during waterflooding[C]. Hughes Eastern Corporation Mtel Centre South Building, 1997.
    [9]BRYANT R S, LARRY B. Mechanistic Understanding of Microbial Plugging for Improved Sweep Efficiency[C].The University of Texas at Austin1 University Station, 2008.
    [10]BROWN L R, VADIE A A. Slowing production decline and extending the economic life of an oil field: New MEOR technology[R]. SPE 75355, 2002.
    [11]BELYAEV S S, BORZENKOV I A, NAZINA T N, et al. Use of microorganisms in the biotechnology for the enhancement of oil recovery[J]. Microbiology, 2004,73(5):590-598.
    [12]DAVID S H. Revival of microbial enhanced oil recovery (MEOR) initiatives on UK continental shelf[C]. 24th Annual Workshop & Symposium Collaborative project on enhanced oil recovery international energy agency, 2003, 9: 1-17.
    [13]AWAN A R, TEIGLAND R, KLEPPE J. A survey of north sea Enhanced-Oil-Recovery projects initiated during the years 1975 to 2005[R]. SPE 99546, 2008.
    [14]GEVERTZ D, JENNEMAN G E, ZIMMERMAN S. Field demonstration of sulfide removal in reservoir brine by bacteria indigenous to a Canadian reservoir[R]. SPE 38768, 1997.
    [15]汪卫东.我国微生物采油技术现状及发展前景[J].石油勘探与开发,2002,29(6):87-90.
    [16]黄海平,LARTER Steve.对残余油进行生物气化以延长油田开发寿命[J].石油实验地质,2010,32(5):496-503.
    [17]汪卫东,刘茂诚,程海鹰,等.微生物堵调研究进展[J].油气地质与采收率,2007,14(1):86-90.
    [18]LEWIS R B, CHARLES U P, LYNCH F L, et al. French augmenting a microbial selective plugging technique with polymer flooding to increase the efficiency of oil recovery -A search for synergy[R]. Mississippi State University P.O. Drawer GY Mississippi State, Mississippi, 2002.
    [19]张春英,孟凡儒,石梅,等.大庆油田微生物提高采收率的矿场试验[J].石油学报,1995,16(1):88-95.
    [20]王修垣.微生物与界面[J].微生物学通报,1999,26(3):230-231.
    [21]付亚荣,靳海鹏,李伟,等.泽10断块微生物清蜡菌种的开发与应用[J].石油钻采工艺,2002,24(4):72-74.
    [22]李蔚,刘如林,石梅,等.低渗透油藏微生物采油现场试验研究[J].石油勘探与开发,2003,30(5):110-112.
    [23]冯庆贤,杨怀军,NAZINA T N,等.孔店油田本源微生物驱油先导试验研究[J].石油勘探与开发,2005,32(5):125-129.
    [24]耿雪丽. S12区块内源微生物驱油技术现场试验[J].石油钻采工艺,2006,28(2):49-51.
    [25]刘淑敏,周晓俊,郝明圈,等.河间东营油藏微生物驱替现场试验[J].石油钻采工艺,2002,24(2):64-66.
    [26]BRYANT R S, THOMAS E B, DENNIS D M, et al. Microbial-enhanced waterflooding: Mink unit project[R]. SPE 17341, 1990.
    [27]MAURE M A, DIETRICH F L, DIAZ V A, et al. Microbial enhanced oil recovery pilot test in Piedras Coloradas field,Argentina[R]. SPE 53715, 1999.
    [28]STRAPPA L A, De LUCIA J P, MAURE M A, et al. A novel and successful MEOR pilot project in a strong water-drive reservoir Vizcacheras field, Argentina[R].SPE 89456, 2004.
    [29]MAURE A, SALDA?A A A, JUAREZ A R. Biotechnology application to EOR in Talara off-shore oil fields, Northwest Peru[R]. SPE 94934, 2005.
    [30]TOWN K, ENERGY Husky, Sheehy A J, et al. MEOR success in Southern Saskatchewan[R]. SPE 124319, 2010.
    [31]ZAHNER B, SHEEHY A, GOVREAU B. MEOR Success in Southern California[J]. Reservoir Evaluation﹠Engineering, SPE 129742, 2010.
    [32]NIELSEN S M, JESSEN K, SHAPIRO A A, et al. Microbial enhanced oil recovery: 3D simulation with gravity effects[J]. SPE 131048, 2010.
    [33]NAZINA T N, GRIGOR’ YAN A A, XUE Y F, et al. Phylogenetic diversity of aerobic saprotrophic bacteria isolated from the Daqing oil field[J]. Microbiology, 2002,71(1): 91-97.
    [34]PATIL S, DANDEKAR A, LEIGH M B. Chemical and microbial characterization of north slope viscous oils to assesss viscosity reduction and enhanced recovery[R].United States Department of Energy National Energy Technology Laboratory, 2008.
    [35]SIMPSON D R, NATRAI N R, MCLNERNEY M J, et al. Biosurfactant-producing Bacillus are present in produced brines from Oklahoma oil reservoirs with a wide range of salinities[J]. Applied Microbiology and Biotechnology, 2011, 91(4):1083-1093.
    [36]王修垣.俄罗斯利用微生物提高石油采收率的新进展[J].微生物学通报,1995,22(6):383-384,357.
    [37]魏斌,赵凤敏,李基昌,等.空气辅助微生物驱油技术[J].石油钻采工艺,2006,28(5):46-49.
    [38]GABITTO J F. Combined microbial surfactant-polymer system for improved oil mobility and conformance control[R]. SPE 102328, 2006.
    [39]LISA M G, KATHLEEN E D, JOSEPHA M S. Bioenergy production via microbial conversion of residual oil to natural gas[J]. applied And Environmental Microbiology, 2008, 74(10): 3022-3029.
    [40]TODD F, LEW B, RAFAEL H, et al. An evaluation of the feasibility of combining carbon dioxide flooding technologies with microbial enhanced oil recovery technologies in order to sequester carbon dioxide[R]. Mississippi State University, 2009.
    [41]OTAGAKI H, FUJIWARA K, HATTORI Y, et al. Verification of micorbial activities for micorbial restoration of methane deposit with subsurface CO2 sequestration into the depleted oil fields [R].SPE 123596, 2009.

    [1]王修垣.石油微生物学在中国科学院微生物研究所的发展[J].微生物学通报,2008,35(12):1851~1861.
    [2]BRYANT R S. Potential uses of microorganisms in petroleum recovery technology[J]. Proc. Okla. Acad. Sci., 1987, 67:97-104.
    [3]PORTWOOD J T. A commercial microbial enhanced oil recovery technology: evaluation of 322 projects[R]. SPE 29518, 1995.
    [4]GREGORY A B, DEBBY F B, SANDRA L F, et al. Microbiological production of surfactant from agricultural residuals for IOR application[R]. SPE 75239, 2002.
    [5]MCINERNEY M J, KNAPP R M, KATHLEEN D, et al. Development of an in situ-biosurfactant production technology for enhanced oil recovery[C]. University of Oklahoma, Norman, OK and Arrow Holding, Inc., Norman, OK, 2007.
    [6]MCINERNEY M J, HAN S O, MAUDGALYA S, et al. Development of more effective biosurfactants for enhanced oil recovery[R]. Pacific Northwest National Laboratory, 1995.
    [7]MCINERNEY M J, FOLMSBEE M, NAGLE D. Development of improved anaerobic growth of Bacillus mojavensis strain JF-2 for the purpose of improved anaerobic biosurfactant production for enhanced oil recovery[C]. Department of Botany and Microbiology University of Oklahoma, 2004.
    [8]STEPHENS J O, BROWN L R, VADIE A A. The utilization of the microflora indigenous to and present in oil-bearing formations to selectively plug the more porous zones thereby increasing oil recovery during waterflooding[C]. Hughes Eastern Corporation Mtel Centre South Building, 1997.
    [9]BRYANT R S, LARRY B. Mechanistic Understanding of Microbial Plugging for Improved Sweep Efficiency[C].The University of Texas at Austin1 University Station, 2008.
    [10]BROWN L R, VADIE A A. Slowing production decline and extending the economic life of an oil field: New MEOR technology[R]. SPE 75355, 2002.
    [11]BELYAEV S S, BORZENKOV I A, NAZINA T N, et al. Use of microorganisms in the biotechnology for the enhancement of oil recovery[J]. Microbiology, 2004,73(5):590-598.
    [12]DAVID S H. Revival of microbial enhanced oil recovery (MEOR) initiatives on UK continental shelf[C]. 24th Annual Workshop & Symposium Collaborative project on enhanced oil recovery international energy agency, 2003, 9: 1-17.
    [13]AWAN A R, TEIGLAND R, KLEPPE J. A survey of north sea Enhanced-Oil-Recovery projects initiated during the years 1975 to 2005[R]. SPE 99546, 2008.
    [14]GEVERTZ D, JENNEMAN G E, ZIMMERMAN S. Field demonstration of sulfide removal in reservoir brine by bacteria indigenous to a Canadian reservoir[R]. SPE 38768, 1997.
    [15]汪卫东.我国微生物采油技术现状及发展前景[J].石油勘探与开发,2002,29(6):87-90.
    [16]黄海平,LARTER Steve.对残余油进行生物气化以延长油田开发寿命[J].石油实验地质,2010,32(5):496-503.
    [17]汪卫东,刘茂诚,程海鹰,等.微生物堵调研究进展[J].油气地质与采收率,2007,14(1):86-90.
    [18]LEWIS R B, CHARLES U P, LYNCH F L, et al. French augmenting a microbial selective plugging technique with polymer flooding to increase the efficiency of oil recovery -A search for synergy[R]. Mississippi State University P.O. Drawer GY Mississippi State, Mississippi, 2002.
    [19]张春英,孟凡儒,石梅,等.大庆油田微生物提高采收率的矿场试验[J].石油学报,1995,16(1):88-95.
    [20]王修垣.微生物与界面[J].微生物学通报,1999,26(3):230-231.
    [21]付亚荣,靳海鹏,李伟,等.泽10断块微生物清蜡菌种的开发与应用[J].石油钻采工艺,2002,24(4):72-74.
    [22]李蔚,刘如林,石梅,等.低渗透油藏微生物采油现场试验研究[J].石油勘探与开发,2003,30(5):110-112.
    [23]冯庆贤,杨怀军,NAZINA T N,等.孔店油田本源微生物驱油先导试验研究[J].石油勘探与开发,2005,32(5):125-129.
    [24]耿雪丽. S12区块内源微生物驱油技术现场试验[J].石油钻采工艺,2006,28(2):49-51.
    [25]刘淑敏,周晓俊,郝明圈,等.河间东营油藏微生物驱替现场试验[J].石油钻采工艺,2002,24(2):64-66.
    [26]BRYANT R S, THOMAS E B, DENNIS D M, et al. Microbial-enhanced waterflooding: Mink unit project[R]. SPE 17341, 1990.
    [27]MAURE M A, DIETRICH F L, DIAZ V A, et al. Microbial enhanced oil recovery pilot test in Piedras Coloradas field,Argentina[R]. SPE 53715, 1999.
    [28]STRAPPA L A, De LUCIA J P, MAURE M A, et al. A novel and successful MEOR pilot project in a strong water-drive reservoir Vizcacheras field, Argentina[R].SPE 89456, 2004.
    [29]MAURE A, SALDA?A A A, JUAREZ A R. Biotechnology application to EOR in Talara off-shore oil fields, Northwest Peru[R]. SPE 94934, 2005.
    [30]TOWN K, ENERGY Husky, Sheehy A J, et al. MEOR success in Southern Saskatchewan[R]. SPE 124319, 2010.
    [31]ZAHNER B, SHEEHY A, GOVREAU B. MEOR Success in Southern California[J]. Reservoir Evaluation﹠Engineering, SPE 129742, 2010.
    [32]NIELSEN S M, JESSEN K, SHAPIRO A A, et al. Microbial enhanced oil recovery: 3D simulation with gravity effects[J]. SPE 131048, 2010.
    [33]NAZINA T N, GRIGOR’ YAN A A, XUE Y F, et al. Phylogenetic diversity of aerobic saprotrophic bacteria isolated from the Daqing oil field[J]. Microbiology, 2002,71(1): 91-97.
    [34]PATIL S, DANDEKAR A, LEIGH M B. Chemical and microbial characterization of north slope viscous oils to assesss viscosity reduction and enhanced recovery[R].United States Department of Energy National Energy Technology Laboratory, 2008.
    [35]SIMPSON D R, NATRAI N R, MCLNERNEY M J, et al. Biosurfactant-producing Bacillus are present in produced brines from Oklahoma oil reservoirs with a wide range of salinities[J]. Applied Microbiology and Biotechnology, 2011, 91(4):1083-1093.
    [36]王修垣.俄罗斯利用微生物提高石油采收率的新进展[J].微生物学通报,1995,22(6):383-384,357.
    [37]魏斌,赵凤敏,李基昌,等.空气辅助微生物驱油技术[J].石油钻采工艺,2006,28(5):46-49.
    [38]GABITTO J F. Combined microbial surfactant-polymer system for improved oil mobility and conformance control[R]. SPE 102328, 2006.
    [39]LISA M G, KATHLEEN E D, JOSEPHA M S. Bioenergy production via microbial conversion of residual oil to natural gas[J]. applied And Environmental Microbiology, 2008, 74(10): 3022-3029.
    [40]TODD F, LEW B, RAFAEL H, et al. An evaluation of the feasibility of combining carbon dioxide flooding technologies with microbial enhanced oil recovery technologies in order to sequester carbon dioxide[R]. Mississippi State University, 2009.
    [41]OTAGAKI H, FUJIWARA K, HATTORI Y, et al. Verification of micorbial activities for micorbial restoration of methane deposit with subsurface CO2 sequestration into the depleted oil fields [R].SPE 123596, 2009.
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出版历程
  • 收稿日期:  2019-05-21
  • 修回日期:  2019-05-21
  • 刊出日期:  2012-04-01

微生物采油技术研究及试验

  • 1. 胜利油田公司采油工艺研究院,山东东营 257000
  • 收稿日期: 2019-05-21
  • 修回日期: 2019-05-21
  • 刊出日期: 2012-04-01

  • 中图分类号: TE357

摘要: 我国微生物采油技术近十几年来得到快速发展,其中微生物防蜡和单井吞吐技术已基本成熟,分别作为生产维护和增产措施在多个油田有规模化应用,但目前仍存在机理认识不清和工艺优化的问题,还需要进一步完善,以提高措施效果及有效率。微生物驱油技术仍处于试验阶段,国内已开展了20多个区块的现场试验,但还没有建立统一的认识,发展方向仍不明确,至今难以推广。分析了国内外近十几年来微生物采油领域的研究和应用现状,重点论述了微生物驱油技术存在的问题,分析了国外的现场试验方法和发展趋势,提出未来的研究和发展需要关注的问题。

English Abstract

汪卫东. 微生物采油技术研究及试验[J]. 石油钻采工艺, 2012, 34(1): 107-113.
引用本文: 汪卫东. 微生物采油技术研究及试验[J]. 石油钻采工艺, 2012, 34(1): 107-113.
shu
WANG Weidong. Laboratory research and field trials of microbial oil recovery technique[J]. Oil Drilling & Production Technology, 2012, 34(1): 107-113.
Citation: WANG Weidong. Laboratory research and field trials of microbial oil recovery technique[J]. Oil Drilling & Production Technology, 2012, 34(1): 107-113.
shu

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