[1] 巨登峰,谷溢,张双艳,等.弱凝胶与微生物调驱联作技术岩心试验研究[J].断块油气田,2006,13(4):30-32.
Ju Dengfeng,Gu Yi,Zhang Shuangyan,et al.Core test of profile control and displacement by combining weak gel with microbe[J].Fault-block Oil & Gas Field,2006,13(4):30-32.
[2] Lazar I,Petrisor I G,Yen T F.Microbial enhanced oil recovery(MEOR) [J].Petroleum Science and Technology,2007,25(11):1353-1366.
[3] Belyaev S S,Borzenkov I A,Nazina T N.Use of microorganisms in the biotechnology for the enhancement of oil recovery[J].Microbiology,2004,73(5):590-598.
[4] Sen R.Biotechnology in petroleum recovery:the microbial EOR[J].Progress in Energy and Combustion Science,2008,34(6):714-724.
[5] 唐孝芬,吴奇,刘戈辉,等.区块整体弱凝胶调驱矿场试验及效果[J].石油学报,2003,24(4):58-61.
Tang Xiaofen,Wu Qi,Liu Gehui,et al.Field test on integral modifying and flooding project in regional reservoir with weak gel[J].Acta Petrolei Sinica,2003,24(4):58-61.
[6] Hajime K,Hideo K,Keita E.Analysis of methane production by microorganisms indigenous to a depleted oil reservoir for application in microbial enhanced oil recovery[J].Journal of Bioscience and Bioengineering,2012,113(1):84-87.
[7] Dunsmore B C,Bass C J,Lappin-Scott H M.A novel approach to investigate biofilm accumulation and bacterial transport in porous matrices[J].Environmental Microbiology,2004,6(2),183-187.
[8] Evans D B,Stepp A K,韩培慧,等.微生物-三元复合驱提高采收率技术的探讨[J].国外油田工程,1999,15(5):5-7.
Evans D B,Stepp A K,Han Peihui,et al.The technology of microbial and Three Yuan compound drive to improve oil recovery[J].Foreign Oilfield Engineering,1999,15(5):5-7.
[9] 赵福麟,张贵才,周洪涛,等.二次采油与三次采油的结合技术及其进展[J].石油学报,2001,22(5):38-42.
Zhao Fulin,Zhang Guicai,Zhou Hongtao,et al.The combination technique of secondary oil recovery with tertiary oil recovery and its progress[J].Acta Petrolei Sinica,2001,22(5):38-42.
[10] Liu Songyuan,Liang Shuang.Present research status and future trends of microbial enhanced oil recovery[M]//Zeng Dehuai.Applied Informatics and Communication,Communications in Computer and Information Science Volume 224.Berlin:Springer,2011:143-149.
[11] 齐义彬,曹美娜,黄立信,等.嗜热解烃菌的组合降黏降解机理[J].科学技术与工程,2014,14(24):18-22.
Qi Yibin,Cao Meina,Huang Lixin,et al.Mechanism of crude oil viscosity reduction and degradation by thermophilic hydrocarbon-degrading bacteria Combination[J].Science Technology and Engineering,2014,14(24):18-22.
[12] 陈玉军,巨登峰,宋义伟,等.弱凝胶与微生物调驱联作技术的研究[J].断块油气田,2004,11(6):52-54.
Chen Yujun,Ju Dengfeng,Song Yiwei,et al.The research of the weak gel enhanced oil recovery cooperated with microbial enhanced oil recovery technic[J].Fault-Block Oil & Gas Field,2004,11(6):52-54.
[13] Li Guoqiang,Gao Peike,Wu Yunqiang,et al.Microbial abundance and community composition influence production performance in a low temperature petroleum reservoir[J].Environmental Science and Technology,2014,48(9):5336-5344.
[14] Zheng Chenggang,He Jianglin,Wang Yongli,et al.Hydrocarbon degradation and bioemulsifier production by therm ophilic Geobacillus pallidus strains[J].Bioresource Technology,2011,102(19):9155-9161.
[15] 国家发展和改革委员会.SY/T 5119-2008 岩石中可溶有机物及原油族组分分析[S].北京:石油工业出版社,2008.
The national development and Reform Commission.SY/T 5119-2008 The soluble organic matter and oil component analysis in the rock[S].Beijing:Petroleum Industry Press,2008.
[16] 高配科,王燕森,张宏祚,等.两株嗜热解烃菌对原油的降黏机制[J].化工学报,2013,64(11):4240-4245.
Gao Peike,Wang Yansen,Zhang Hongzuo,et al.Mechanism of crude oil viscosity reduction by two thermophilic hydrocarbon-degrading bacteria[J].CIESC Journal,2013,64(11):4240-4245.
[17] Kikuchi T,Hasumi K.Enhancement of reciprocal activation of prourokinase and plasminogen by the bacterial lipopeptide surfactins and iturin Cs[J].The Journal of Antibiotics,2003,56(1):34-37.
[18] 杨世忠,牟伯中,吕应年,等.环脂肽氨基酸顺序的质谱测定[J].化学学报,2004,62(21):2200-2204.
Yang Shizhong,Mou Bozhong,Lü Yingnian,et al.MS Determination of the sequence of amino acids in a cyclic lipopeptide[J].Acta Chimica Sinica,2004,62(21):2200-2204.
[19] 梁欢,田松柏,祝馨怡,等.高效液相色谱-蒸发光散射检测器法快速测定脱沥青质常压渣油族组成[J].石油学报:石油加工,2011,27(4):634-637.
Liang Huan,Tian Songbai,Zhu Xinyi,et al.The quick characterization for group composition of deasphalted residue oil by high performance liquid chromatography with evaporative light scattering detector[J].Acta Petrolei Sincia:Petroleum Processing Section,2011,27(4):634-637.
[20] 赖波,周岳溪,李志军,等.BAC-SBR反应器降解ABS树脂生产凝聚干燥工段废水中特征污染物[J].石油学报:石油加工,2011,27(6):984-988.
Lai Bo,Zhou Yuexi,Li Zhijun,et al.Degradation of typical pollutants from coagulation and desiccation section wastewater of ABS resin manufacture by BAC-SBR reactor[J].Acta Petrolei Sincia:Petroleum Processing Section,2011,27(6):984-988.
[21] 齐义彬,王大威,吴萌萌,等.胶质降解和生物乳化在稠油降黏中的作用[J].石油学报,2012,33(4):670-675.
Qi Yibin,Wang Dawei,Wu Mengmeng,et al.Effects of resin degradation and biological emulsification on the viscosity break of heavy oils[J].Acta Petrolei Sincia,2012,33(4):670-675.
[22] 康宏,赵淑娟,李玥,等.两株细菌的特性及物理模拟驱油试验[J].油田化学,2013,20(2):240-242.
Kang Hong,Zhao Shujuan,Li Yue,et al.Characteristies of two strains of bacteria and physical simulation flooding experiments[J].Oilfield Chemistry,2013,20(2):240-242.
[23] 李光辉,张贵才,葛际江,等.阳离子微球与部分水解聚丙烯酰胺的絮凝作用[J].石油学报,2013,34(6):1157-1162.
Li Guanghui,Zhang Guicai,Ge Jijiang,et al.Coagulation effect of cationic microspheres with residual hydrolyzed polyacrylamide[J].Acta Petrolei Sinica,2013,34(6):1157-1162.
[24] 乐建君,刘芳,张继元,等.聚合物驱后油藏激活内源微生物驱油现场试验[J].石油学报,2014,35(1):99-106.
Le Jianjun,Liu Fang,Zhang Jiyuan,et al.A field test of activation indigenous microorganism for microbial enhanced oil recovery in reservoir after polymer flooding[J].Acta Petrolei Sinica,2014,35(1):99-106.
[25] 张继成,姜振海,林立,等.聚合物驱油田可采储量计算方法[J].石油学报,2014,35(4):725-732.
Zhang Jicheng,Jiang Zhenhai,Lin Li,et al.Calculation method of recoverable reserves in polymer flooding field[J].Acta Petrolei Sinica,2014,35(4):725-732. |