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地质论评 2003

济阳坳陷古近系―新近系泥岩孔隙结构特征

Keywords: 泥岩,孔隙结构,古近系―新近系,济阳坳陷

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Abstract:

对济阳坳陷东营凹陷和沾化凹陷古近系―新近系泥岩的岩心样品,进行了X衍射全岩物相测试,有机碳测定,孔隙度、渗透率测定及扫描电镜和显微镜下观察,发现泥岩中普遍含碎屑矿物,其中长石含量较高,粘土矿物以碎屑粘土为主,泥岩中碳酸盐矿物含量较高.泥岩中各种面状孔隙是主体孔隙,由微孔隙构成,孔隙含量较高,分布较均匀.泥岩孔隙结构基本可归纳为细孔喉型、粗孔喉型及混合过渡型等三种类型.最后分析探讨了影响泥岩孔隙结构主要因素为:①碳酸盐含量使孔隙基本面貌产生差异;②压实作用使孔隙度减小,欠压实对孔隙结构有保护作用;③有机质丰度、成熟度及赋存状态与溶蚀孔隙发育关系密切相关;④有机质富集有利于异常压力发育,对孔隙起保护作用.

References

[1]	戴贤忠,李学田.1991.济阳坳陷第三系天然气藏盖层评价及其形成机理.石油学报,12(2):1～9.
[2]	苗建宇,祝总祺,刘文荣,卢焕勇.1999.泥岩有机质的赋存状态及其对泥岩封盖能力的影响.沉积学报,17(3):478～482.
[3]	彭大钧,李仲东,刘兴材,帅德福,杨瑞祺.1988.济阳盆地沉积型异常高压带及深部油气资源的研究.石油学报,9(3):9～17.
[4]	Wang Xinzhou, Sun Yitao, Wang xuejun. 1996. Origin of hydrocarbons and physical imitation of expulsion from rocks. Dongying: Petroleum University Publishing House, 150～160 (in Chinese).
[5]	Zhao Xingyuan, Chen Hongqi. 1988. Characteristics of the distribution of clay minerals in oil-bearing basins in China and their controlling factors. Acta Petrolei Sinica, 9(3): 28～37 (in Chinese with English abstract).
[6]	戴贤忠.1988.济阳坳陷泥岩孔隙结构及其与油气初次运移关系的研究.胜利油田地质科学研究院,3～25.
[7]	邓宏文,钱凯.1990.深湖相泥岩的成因类型和组合演化.沉积学报,8(3):1～21.
[8]	付广,陈章明,王朋岩.1997.泥岩盖层对扩散相天然气的封闭作用及研究方法.石油实验地质,19(2):183-187.
[9]	林茂福,李太俊,黄彩玉.1982.我国南海第三系粘土岩中有机物赋存状态及其生油关系的探讨.地球化学,(2):162～172.
[10]	王行信.1983.泥岩中碎屑高岭石的分布及其在沉积环境研究中的意义.大庆石油地质与开发,2(1):1～6.
[11]	王新洲,宋一涛,王学军.1996.石油成因与排油物理模拟.山东东营:石油大学出版社,150～160.
[12]	赵杏嫒,陈洪起.1988.我国含油气盆地粘土矿物分布特征及控制因素.石油学报,9(3):28～37.
[13]	Dai Xianzhong, Li Xuetian. 1991. An evaluation of the cap rock on the Tertiary gas reservoir in Jiyang sag and its mechanism of formation. Acta Petrolei Sinica, 12(2): 1～9 (in Chinese with English abstract).
[14]	Deng Hongwen, Qian Kai. 1990. The genetic types and association evolution of deep lacustrine facies mudstones. Acta Sedimentologica Sinica, 8(3): 1～21 (in Chinese with English abstract).
[15]	Fu Guang, Chen Zhangming, Wang Pengyan. 1997. The confining of argillaceous cap rocks on natural gas of diffusion phase and its approach. Experimental Petroleum Geology, 19(2): 183～187 (in Chinese with English abstract).
[16]	Kinji Magara. 1980. Comparsion of porosity-depth relationships of shale and sandstone. Journal of Petroleum Geology, 3(2):175～185.
[17]	Lin Maofu, Li Taijun, Huang Caiyu. 1982. An exploration of the state of existence of organic matter in relation to petroleum generation in some Tertiary claystones in the northern part of South China Sea. Geochimica, (2):162～172 (in Chinese with English abstract).
[18]	Miao Jianyu, Zhu Zongqi, Liu Wenrong, Lu Huanyong. 1999. Occurrence of organic matter and its effect on sealing ahility of argillaceous rock. Acta Sedimentologica Sinica, 17(3):478～481 (in Chinese with English abstract).
[19]	Peng Dajun, Li Zhongdong, Liu Xingcai, Shuai Defu, Yang Ruiqi. 1988. A study of depositional type abnormally high pressure zone and deep oil-gas resouces in Jiyang basin. Acta Petrolei Sinica, 9(3):9～17 (in Chinese with English abstract).
[20]	Wang Xingxin. 1983. The distribution of clastic kaolinite in mudstone and its significance in the study of sedimentary environment. Daqing Petroleum Geology and Development, 2(1): 1～6 (in Chinese with English abstract).

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