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地质论评  2006 

输导通道类型对天然气聚集效率的影响

Keywords: 大中型气田聚集效率输导通道聚集时间

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Abstract:

通过对中国大中型气田天然气输导通道类型及影响因素研究,得到中国大中型气田主要有断裂、断裂与不整合组合、砂体、断裂与砂体组合、不整合与砂体组合和不整合6种输导通道类型。其中以断裂为主,其次是断裂与不整合组合,再次是砂体和断裂与砂体组合,最少为不整合和不整合与砂体组合。它们主要受盆地类型、盆地内构造带类型和源储空间位置关系的影响。由中国大中型气田储量、含气面积和聚集时问,通过求取其天然气聚集效率,把中国大中型气田划分为高效、中效和低效3类气田。通过中国大中型气田天然气聚集效率与输导通道类型之间关系分析,得到聚集时间相对较晚的断裂、砂体和断裂与不整合组合形成的输导通道天然气聚集效率相对较高,有利于快速形成大中型气田。

References

[1]  戴金星,陈践发,庞雄奇,等.2003.中国大气田及其气源.北京:石油工业出版社.
[2]  付广,薛永超,付晓飞.2001.油气运移输导系统及其对成藏的控制.新疆石油地质,22(1):24~26.
[3]  付广,孟庆芬.2004.徐家围子地区深层运移输导系统及对天然气成藏与分布的控制.油气地质采收率,11(2):18~20.
[4]  龚再生,杨甲明.1999.油气成藏动力学及油气运移模型.中国海上油气(地质),13(4):235~239.
[5]  李铁军,罗晓容.2001.碎屑岩输导层内油气运聚非均一性的定量分析.地质科学,36(4):402~413.
[6]  林忠民.2002.塔里木盆地塔河油田奥陶系大型油气藏形成条件.地质论评,48(4):372~376.
[7]  柳广弟,李剑,李景明,等.2005.天然气成藏过程有效性的控制因素与评价方法.天然气地球科学,16(1):1~6.
[8]  王震亮,陈荷立.1999.有效运聚通道的提出与确定初探.石油实验地质,21(1):71~75.
[9]  谢泰俊.2000.琼东南盆地天然气运移输导体系及成藏模式.勘探家,5(1):17~21.
[10]  张光亚,宋建国.1998.塔里木克拉通盆地改造对油气聚集和保存的控制.地质论评,44(5):511~521.
[11]  张敏,张俊,梅博文,等.1996.塔里木盆地轮台断隆油藏聚集史研究.地质论评,42(增):89~94.
[12]  Bekele E,Person M,de Marsily G.1999.Petroleum migration pathways and charge concentration:A three dimensional model:Discussion.AAPG Bull.,83:1015~1019.
[13]  Dai Jinxing,Chen Jianfa,Pang Xiongqi,et al.2003.Big gas fields of China and their gas sources.Beijing:Petroleum Industry Press (in Chinese).
[14]  Dreyer T,Scheie A,Walderhung O.1990.Minipermeter- based study of permeability trends in channel sand bodies.AAPG Bull.,74:359~374.
[15]  Fu Guang,Xue Yongchao,Fu Xiaofei.2001.On oil-gas migration systems and their control over the formation of reservoir.Xinjiang Petroleum Geology,22 (1):24 ~ 26 (in Chinese with English abstract).
[16]  Fu Guang,Meng Qingfen.2004.Migration translocation system and its controlling to reservoir forming and distribution of natural gas in deep strata of Xujiaweizi region.Petroleum Geology and Recovery Efficiency,11 (2) :18 ~ 20 (in Chinese with English abstract).
[17]  Gong Zaisheng,Yang Jiaming.1999.Migration models and poolforming dynamics.China Offshore Oil and Gas (Geology),13(4):235~239 (in Chinese with English abstract).
[18]  Hindle A D.1997.Petroleum migration pathways and charge concentration:A three dimensional model.AAPG Bull.,81:1451~1481.
[19]  Hindle A D.1999.Petroleum migration pathways and charge concentration:A three dimensional model:Reply.AAPG Bull.,83:1020~1023.
[20]  Jiang Yaojian,Yang Bingzhong,Wang Youyan,et al.2002.Structural feature and evolution in northeast part of Junggar Basin.Acta Geological Sinica,76 (4):462 ~ 468 (in Chinese with English abstract).
[21]  Kang Yongshang,Qiu Nansheng,Liu Luofu,et al.2004.Influence of fluid dynamic systems on homogenization temperatures of fluid inclusions and its significance--An application example from the Ludong area of the Junggar Basin,northwestern China.Acta Geologica Sinica,78 (5) :704 ~ 709 (in Chinese with English abstract).
[22]  Kang Zhulin,Fu Chengde,Cui Shufen,et al.2000.Introduction of big gas fields in China.Beijing:Petroleum Industry Press (in Chinese).
[23]  Lei Maosheng,Lin Tiefeng.1999.A preliminary analysis of the vertical flow conductivity of fault systems in Songliao Basin.Petroleum Exploration and Development,26 (1):32 ~ 35 (in Chinese with English abstract).
[24]  Li Tiejun,Luo Xiaorong.2001.The inhomogeneity of petroleum migration in clastic carrier beds.Chinese Journal of Geologs,36(4):402~413 (in Chinese with English abstract).
[25]  Liu Guangdi,Li Jian,Li Jingming,et al.2005.The controls and the arressment method for the effectiveness of natural gas migration and accumulation process.Natural Gas Geoscience,16 (1):1 ~ 6(in Chinese with English abstract).
[26]  Wang Zhenliang,Chen Heli.1999.Preliminary cumulation.Experimental Petroleum Geology,21 (1):71 ~ 75 (in Chinese with English abstract).
[27]  Xie Taijun.2000.Gas migration transporting systems and accumulation moldes in Qiongdongnan Basin.Petroleum Explorationist,5 (1):17 ~ 21 (in Chinese with English abstract).
[28]  Zhang Guangya,Song Jianguo.1998.Control of basin reworking on hydrocarbon accumulation and preservation in the Tarim Cratonic Basin,northwest China.Geological Review,44(5):511~521(in Chinese with English abstract).
[29]  Zhang Min,Zhang Jun,Mei Bowen,et al.1996.Research on history of reservoir accumulation from Luntai fault uplift in Tarim Basin and its significance.Geological Review,42(sup):89~94(in Chinese with English abstract).
[30]  姜耀俭,杨丙中,王岫岩,等.2002.准噶尔盆地东北缘构造特征、演化及与油气关系.地质学报,76(4):462~468.
[31]  康永尚,邱楠生,刘洛夫,等.2004.流体动力系统对流体包裹体均一温度的影响及意义--以准噶尔盆地陆东地区为例.地质学报,78(5):704~709.
[32]  康竹林,傅诚德,崔淑芬,等.2000.中国大气田概论.北京:石油工业出版社.
[33]  雷茂盛,林铁锋.1999.松辽盆地断裂纵向导流性浅析.石油勘探与开发,26(1):32~35.
[34]  张照录,王华,杨红.2000.含油气盆地的输导体系研究.石油与天然气地质,21(2):133~135.
[35]  赵靖舟,田军.2002.塔里木盆地哈得4油田成藏年代学研究.岩石矿物学杂志,2(1):62~68.
[36]  赵忠新,王华,郭奇军,等.2002.油气输导体系的类型及其输导性能在时空上的演化分析.石油实验地质,24(6):527~532.
[37]  周凤英,孙玉善,张水昌.2001.塔里木盆地轮南地区油气运移的路径、期次及方向研究.地质论评,47(3):329~335.
[38]  Doyle J D,Sweet M L.1995.Three dimensional distribution of lithofacies,bounding surfaces,porosity and permeability in a fluvial sandstone Gypsy sandstone of North Oklahoma.AAPG Bull.,79:70~96.
[39]  Lin Zhongmin.2002.Formation condition of large-scale oil-gas pool in Ordovician carbonate rock in the Tahe oil field,Tarim Basin.Geological Review,48 (4):372 ~ 376 (in Chinese with English abstract).
[40]  Zhang Zhaolu,Wang Hua,Yang Hong.2000.Study on passage system of petroliferous basins.Oil & Gas Geology,21(2):133~135(in Chinese with English abstract).
[41]  Zhao Jingzhou,Tian Jun.2002.Geochronology of petroleum accumulation of Hade 4 oilfield,Tarim Basin.Acta Petrological et Mineralogical,2(1):62~68(in Chinese with English abstract).
[42]  Zhao Zhongxin,Wang Hua,Guo Qijun,et al.2002.Overpressure transference:concept and ways.Petroleum Geology & Experiment,24(6):527~532(in Chinese with English abstract).
[43]  Zhou Fengying,Sun Yushan,Zhang Shuichang.2001.Study on direction,phases and pathways of petroleum migration in the Lunnan area,Tarim Basin.Geological Review,47(3):329~335(in Chinese with English abstract).

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