[1] 张金功,袁政文.泥质岩裂缝油气藏的成藏条件及资源潜力[J].石油与天然气地质,2002,23(4):336-338. Zhang Jinggong,Yuan Zhengwen.Formation and potential of fractured mudstone reservoirs[J].Oil & Gas Geology,2002,23(4):336-338.
[2] Hunt J M.Generation and migration of petroleum from abnormally pressured fluids compartments[J].AAPG Bulletin,1990,74:1-12.
[3] Hunt J M,Whelan J K,Eglinton L B,et al.Gas generation-a major cause of deep Gulf Coast overpressure[J].Oil & Gas Journal,1994,92(18):59-62.
[4] Luo Xiaorong,Guy Vasseur.Geopressuring mechanism of orga-nic matter cracking:numerical modeling[J].AAPG Bulletin,1996,80:856-874.
[5] Osborne M J,Swarbrick R E.Mechanisms for generating overpressure in sedimentary basins:A revaluation[J].AAPG Bulletin,1997,81:1023-1041.
[6] 张启明,董伟良.中国含油气盆地中的超压体系[J],石油学报,2000,21(6):1-10. Zhang Qiming,Dong Weiliang.Overpressure system hydrocarbon-bearing basin in China[J].Acta Petrolei Sinica,2000,21(6):1-10.
[7] 罗晓容.构造应力超压机制的定量分析[J].地球物理学报,2004,47(6):1086-1093. Luo Xiao Rong.Quantitative analysis on overpressuring mechanism resulted from tectonic stress[J].Chinese Journal Geophys,2004,47(6):1086-1093.
[8] 郝芳.超压盆地生烃作用动力学与油气成藏机理[M].北京:科学出版社,2005. Hao Fang.Kinetics of hydrocarbon generation and mechanism of petroleum accumulation in overpressure Basins[M].Beijing:Science Press,2005.
[9] 曾治平.东濮凹陷深层超压演化及超压环境下油气成藏机理.武汉:中国地质大学,2006. Zeng Zhiping.Overpressure evolvement and mechanism of petroleum accumulation in overpressure environment of Dongpu Depression.Wuhan:China University of Geosciences,2006.
[10] Hao Fang,Zou Huayao,Gong Zaisheng,et al.Hierarchies of overpressure retardation of organic matter maturation:Case studies from petroleum basins in China[J]:AAPG Bulletin,2007,91:1467-1498.
[11] 郑和荣,黄永玲,冯有良.东营凹陷下第三系地层异常高压体系及其石油地质意义[J].石油勘探与开发,2000,27(4):67-70. Zheng Herong,Huang Yongling,Feng Youliang.Anomalous overpressure system of early Tertiary in Dongying depression and its petroleum geology significance[J].Petroleum Exploration and Development,2000,27(4):67-70.
[12] Xie X,Bethke C M,Li S,et al.Overpressure petroleum generation and accumulation in the Dongying Depression of the Bohaiwan Basin,China[J].Geofluids,2001,1:257-271.
[13] 张善文,张林晔,张守春,等.东营凹陷古近系异常高压的形成与岩性油藏的含油性研究[J].科学通报,2009,54(11):1570-1578. Zhang Shanwen,Zhang linye,Zhang shouchun,et al.Formation of abnormal pressure and its application in the study of oil-bearing property of lithologic hydrocarbon reservoirs in the Dongying Sag[J].Chinese Sci Bull,2009,54(11):1570-1578.
[14] Guo Xiaowen,He Sheng,Liu Keyu,et al.oil generation as the dominant overpressure mechanism in the Cenozoic Dongying Depression,Bohai Bay Basin,China[J]:AAPG Bulletin,2010,94:1859-1881.
[15] 唐小云,龚晶晶,杨世刚,等.东濮凹陷文留地区古近系超压成因分析[J].油气地质与采收率,2007,14(5):20-22. Tang Xiaoyun,Gong Jingjing,Yang Shigang,et al.Eogene overpressure analysis in Wenliu area of Dongpu Depression[J].PGRE,2007,14(5):20-22.
[16] 吴楠,刘显凤,杨世刚,等.东濮凹陷白庙地区古近系超压成因机理[J].地质科技情报,2007,26(2):65-68. Wu Nan,Liu Xianfeng,Yang Shigang,et al.Eogene overpressure mechanism in Baimiao area of Dongpu Depression[J].Geo-logical Science and Technology Information,2007,26(2):65-68.
[17] 靳广兴.东濮凹陷北部成藏动力学系统研究.北京:中国地质大学,2008. Jin Guangxing.Dynamic system of oil and gas migration and accumulation of the north part of Dongpu depression.Beijing:China University of Geosciences,2008.
[18] 周兴熙.塔里木盆地油气系统中、新生界的流体压力结构和油气成藏机制[J].地学前缘,2001,8(4):351-360. Zhou Xingxi.The Mesozoic-Cenozoic fluid pressure structure and reservoir-forming machine process in the QUKA petroleum system in Tarim Basin[J].Earth Science Frontiers,2001,8(4):351-360.
[19] 徐士林,吕修祥,杨明慧等.库车坳陷膏盐岩对异常高压保存的控制作用[J].西安石油大学学报(自然科学版),2004,19(4):5-8. Xu Shilin,Lv Xiuxiang,Yang Minghui,et al.Controlling effect of gypsum and salt rocks on abnormally high pressure in Kuche Depression[J].Journal of Xi’an Shiyou University(Nature Science Edition),2004,19(4):5-8.
[20] 柳广弟,王雅星.库车坳陷纵向压力结构与异常高压形成机理[J].天然气工业,2006,26(9):29-31. Liu Guangdi,Wang Yaxing.Vertical pressure structure and genetic mechanism of overpressure in Kuqa Depression,the Tarim Basin[J].Natural Gas Industry,2006,26(9):29-31.
[21] 陈发亮.东濮凹陷盐湖盆地油气成藏规律及预测技术研究.北京:中国科学院,2006. Chen Faliang.Study on hydrocarbon accumulation and prediction technology in dongpu Salt-Basin.Beijing:China Academy of Sciences,2006.
[22] 王震亮,张立宽,施立志,等.塔里木盆地克拉2气田异常高压的成因分析及其定量评价[J].地质评论,2005,51(1):55-63. Wang Zhenliang,Zhang Likuan,Shi Lizhi,et al.Genesis analysis and quantitative evaluation on abnormal high fluid pressure in the kela-2 Gas Field,Kuqa Depression,Tarim Basin[J].Geological Review,2005,51(1):55-63.
[23] Hower J,Eslinger E V,Hower M E,et al.Mechanism of burial metamorphism of argillaceous sediment:1;mineralogical and chemical evidence[J].GSA Bulletin,1976,87:725-737.
[24] Boles J R,Franks S G.Clay diagenesis in Wilcox sandstones of southwest Texas:implications of smectite diagenesis on sandstone cementation[J].Journal of Sedimentary Petrology,1979,49:55-70.
[25] 郝芳,姜建群,邹华耀,等.超压对有机质热演化的差异抑制作用及层次[J].中国科学(D辑),2004,34(5):443-451. Hao Fang,Jiang Jianqun,Zou Huayao,et al.The overpressure differently and levelly retard the organic evolution[J].Science in China(D Series),34(5):443-451.
[26] Monthioux M,Landais P,Durand B.Comparison between extracts from natural and artificial maturation series of Mahakam delta coals[J].Organic Geochemistry,1986,10:299-311.
[27] Petzoukha Yu,Seliwnov O.Promotion of petroleum formation by source rock deformation[C]//Organic Geochemistry Advance and Application in the Natural Environment.Manckerster:Manckerster University Press,1991:312-314.
[28] 解启来,范善发,周中毅.压力对烃源层演化及产烃影响的模拟实验[J].矿物岩石地球化学通报,1996,15(2):91-93. Xie Qilai,Fan Shanfa,Zhou Zhongyi,et a1.Influence of pressure on the evolution and hydrocarbon-generation of source bed by.simulating experiments[J].Bulletin of Mineralogy Petrology and Geochemistry,1996,15(2):91-93.
[29] Price L C,Wenger L M.The influence of pressure on petroleum generation and maturation as suggested by aqueous pyrolysis[J].Organic Geochemistry,1992,19:141-159.
[30] Jiang Feng,Du Jianguo,Wang Wanchun,et al.The study on high-pressure-high-temperature aqueous pyrolysisⅡ[J].Acta Sedimentologica Sinica,1998,12(4):146-148.
[31] Swarbrick R E,Osborne M J.Mechanisms that generate abnormal pressures:An overview[C]//Law B E,Ulmishek G F,Slavin V.Abnormal pressures in hydrocarbon environments.AAPG Memoir,1998,70:13-34.
[32] Swarbrick R E,Osborne M,Yardley G S.Comparison of overpressure magnitude resulting from the main generating mechanisms[C]//Huffman A R,Bowers G L.Pressure Regimes in Sedimentary basins and their Prediction.AAPG Memoir,2002,76:1-12.
[33] Lopatin N V,Emets T P,Romanov E A,et al.Petroleum migration and trapping mechanism in fine-grained source rock formation[J].Journal of Geochemical Exploration,2003,78-79(3):395-397.
[34] 王兆明,罗晓容,陈瑞银,等.有机质热演化过程中地层压力的作用与影响[J].地球科学进展,2006,21(1):39-46. Wang Zhaoming,Luo Xiaorong,Chen Ruiyin,et al.Effects and influence of pore pressure on organic matter’s maturation[J].Advance in Earth Science,2006,21(1):39-46.
[35] 赵桂瑜,刘洛夫,李术元.爱沙尼亚干酪根催化降解生烃过程及动力学研究[J].沉积学报,2004,22(3):525-528. Zhao Guiyu,Liu Luofu,Li Shuyuan.Study on characteristics and kinetics of catalytic degradation from Estonia kerogen[J].Acta Sediment Ologica Sinica,2004,22(3):525-528.
[36] 王娟,金强,马国政,等.高成熟阶段膏岩等盐类物质在烃源岩热解生烃过程中的催化作用[J].天然气地球科学,2009,20(1):26-31. Wang Juan,Jin Qiang,Ma Guozheng,et al.Catalytic action of sulphate evaporates in pyrolytic gas generation of source rocks[J].Natural Gas Geoscience,2009,20(1):26-31 |