Lithologic Reservoirs ›› 2013, Vol. 25 ›› Issue (5): 37-43.doi: 10.3969/j.issn.1673-8926.2013.05.007

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Study on the reservoir properties of the interval of oil shale in Damintun Depression

MA Manxing   

  1. Research Institute of Exploration and Development, PetroChina Liaohe Oilfield Company, Panjin 124010, China
  • Online:2013-09-26 Published:2013-09-26

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Abstract:

By using the data of thin section, X-ray diffraction, argon ion polishing scanning electron microscope, mercury injection test, specific surface area measurement, geochemical analysis and oil shale retorting, this paper analyzed the lithology characteristics, mineral components, physical properties and oil potential of the oil shale interval in Damintun Depression, and evaluated the reservoir properties. The results show that the interval of oil shale has the typical “sandwich” structure. The up and low layers are oil shale, with mudstone, sandstone, marlstone and basalt in the middle. The oil shale has pelitic texture, laminar structure and bedding fracture. The content of quartz and carbonate is generally high in oil shale, so it is easy to form oil shale reservoir space, such as structural fractures and dissolved pores. Oil shale and mudstone are relatively homogeneous and they are characterized by small pores and low permeability. The specific surface area, pore diameter and total pore volume of oil shale are all bigger than that of mudstone. The hydrocarbon show of the interval of oil shale is common, especially in sandstone and marlstone, and the gas logging abnormal of oil shale is obvious. Oil content of oil shale is in intermediate level by retorting. The potential hydrocarbon generation amount of oil shale is high, reaching the shale oil enrichment standard by Lu Shuangfang. The formation tests on three old wells are successful and S224 well has mined a lot of shale oil, which proves that the interval of oil shale can meet the shale oil storage requirements in Damintun Depression.

Key words: cross-well seismic, Radon transform, P and Swave, polarization filtering, wave field separation

[1] 谢文彦,姜建群,张占文,等.辽河盆地大民屯凹陷油气性质及成因机制研究[J].石油实验地质,2004,26(3):292-297.
[2] 谢文彦,姜建群,张占文,等.大民屯凹陷高蜡油成因及分布规律[J].石油学报,2007,28(2):57-61.
[3] 林森虎,邹才能,袁选俊,等.美国致密油开发现状及启示[J].岩性油气藏,2011,23(4):25-30.
[4] 陈祥,王敏,严永新,等.泌阳凹陷陆相页岩油气成藏条件[J].石油与天然气地质,2011,32(4):568-576.
[5] 吕明久,付代国,何斌,等.泌阳凹陷深凹区页岩油勘探实践[J].石油地质与工程,2012,26(3):85-87.
[6] 郭秋麟,陈宁生,宋焕琪,等.致密油聚集模型与数值模拟探讨———以鄂尔多斯盆地延长组致密油为例[J].岩性油气藏,2013,25(1):4-10.
[7] 罗健,戴鸿鸣,邵隆坎,等.四川盆地下古生界页岩气资源前景预测[J].岩性油气藏,2012,24(4):70-74.
[8] 郭岭,姜在兴,姜文利.页岩气储层的形成条件与储层的地质研究内容[J].地质通报,2011,30(2/3):385-392.
[9] 聂海宽,张金川.页岩气聚集条件及含气量计算———以四川盆地及其周缘下古生界为例[J].地质学报,2012,86(2):349-361.
[10] 田华,张水昌,柳少波,等.压汞法和气体吸附法研究富有机质页岩孔隙特征[J].石油学报,2012,33(3):419-427.
[11] 蒋裕强,董大忠,漆麟,等.页岩气储层的基本特征及其评价[J].天然气工业,2010,30(10):7-12.
[12] Rouquerol,Avnir D,Fairbridge C W,et al. Recommendations for the characterization of porous solids [J]. Pure & Applied Chemistry,1994,66(8):1739-1758.
[13] Brunauer S,Emmett P H. The use of van der waals adsorption isotherms in determining the surface area of iron synthetic ammonia catalysts[J]. Journal of the American Chemical Society,1935,57(9):1754-1755.
[14] Gregg S J,Sing K S W. Adsorption,surface area and porosity[M].London:Academic Press,1982.
[15] Rouquerol F,Rouquerol J,Sing K S W. Adsorption by powders and porous solids-principles,methodology and application[M]. London:Academic Press,1999.
[16] Lowell S,Shields J E,Thomas M A,et al. Characterization of porous solids and powers:Surfce area and pore size and density[M]. Netherlands:Kluwer Academic Pulishers,2004.
[17] 谢晓永,唐洪明,王春华,等.氮气吸附法和压汞法在测试泥页岩孔径分布中的对比[J].天然气工业,2006,26(12):100-102.
[18] 巨文军,申丽红,郭丹丹.氮气吸附法和压汞法测定Al2O3载体孔结构[J].广东化工,2009,36(8):213-214.
[19] 陈尚斌,朱炎铭,王红岩,等.川南龙马溪组页岩气储层纳米孔隙结构特征及其成藏意义[J].煤炭学报,2012,37(3):438-444.
[20] 邹才能,杨智,崔景伟,等.页岩油形成机制、地质特征及发展对策[J].石油勘探与开发,2013,40(1):14-26.
[21] 卢双舫,黄文彪,陈方文,等.页岩油气资源分级评价标准探讨[J].石油勘探与开发,2012,39(2):249-256.
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