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靖安油田上三叠统长6储层成岩作用研究
引用本文:李斌,孟自芳,李相博,卢红选,郑民. 靖安油田上三叠统长6储层成岩作用研究[J]. 沉积学报, 2005, 23(4): 574-583
作者姓名:李斌  孟自芳  李相博  卢红选  郑民
作者单位:中国科学院广州地球化学研究所边缘海重点实验室,广州,510640;中国科学院地质和地球物理研究所油气资源研究中心,兰州,730000;中国科学院地质和地球物理研究所油气资源研究中心,兰州,730000
基金项目:科技部科研项目 , 中国科学院知识创新工程项目
摘    要:通过对5条剖面和11口探井的综合研究确定了长6储层的成岩作用阶段,对影响储层物性重要的自生矿物形成进行了探讨,认为靖安油田上三叠统延长组6段储层经历了压实、胶结、溶蚀等一系列复杂的成岩作用,成岩现象十分丰富,特征明显。从储层成岩作用研究表明,早成岩期的压实作用、多种矿物胶结作用是使储层物性变差、孔隙度降低的两个重要的成岩作用;而溶蚀作用,特别是浊沸石胶结的溶蚀是储层物性变好的重要成岩控制因素。

关 键 词:鄂尔多斯盆地  成岩作用  碎屑岩  储层  浊沸石
文章编号:1000-0550(2005)04-0574-10
收稿时间:2005-01-05
修稿时间:2005-03-07

Diagenetic Characteristics of the Chang 6 Oil-bearing Interval of the Upper Triassic in the Jin' an Oilfield, Ordos Basin
LI Bin,MENG Zi-fang,LI Xiang-bo,LU Hong-xuan,ZHENG Min. Diagenetic Characteristics of the Chang 6 Oil-bearing Interval of the Upper Triassic in the Jin' an Oilfield, Ordos Basin[J]. Acta Sedimentologica Sinica, 2005, 23(4): 574-583
Authors:LI Bin  MENG Zi-fang  LI Xiang-bo  LU Hong-xuan  ZHENG Min
Affiliation:1.Guangzhou Institute of Geochemistry, Chinese Academy of Sciences, Guangzhou 510640;2.Oil and Gas Center of Geology and Geophysics Institute, Chinese Academy of Sciences, Lanzhou 730000
Abstract:Abstract An intensive study has been done in the Jingan oil-field by observing five cross sections and eleven wells, analyzing 108 samples with thin section, cathodelumination, SEM, X-ray diffraction and related test materials. It is believed that Chang 6 oil-beating beds underwent a series of diagenesis, such as compaction, cementation, dissolution and so on. The diagenetic phenomenona are very rich and the According to the analysis of petrology, it is found that Chang 6 diagenetic oil-beating characters are very obvious and complex. interval is composed of middle size sand- stone and fine sub-sand. After analyzing of the whole situation, granularity is much smaller. Little of them are rock fragments feldspar sandstone. Diagenesis of Chang 6 oil-beating interval can be divided to two stages, early and late stage. Furthermore, they can also be subdivided into two sub-phases, A and B sub-phase. The diagenetic processes that control reservoir properties include the mechanic compaction, cementation and dissolution of grains. At the early diagenesis, mechanical and chemical compaction is very strong, which reduced the primary porosity. Cementation is an important factor to reservoir, including carbonate, clay and laumontite cementation and so on. Laumontite is special mineral in Ordos Basin and is very abundant. Cementation filled the space among grains and blocked the path between grains are another factors resulting in sandstone compaction and very low permeability. But, at the same time, cements also protect grains from further compaction. At the late diagenesis phase, the dissolution of framework grains, especially the dissolution of feldspar and laumontite, is the key to form secondary porosity. They changed the porosity characteristics of sandstone; engendering new benefit storing beds consisted with secondary porosity. Feldspar is dissolved very commonly and severly. They often form dissoluble porosity among grains. Laumontite has deficient dissoluble forms and its dissolution mostly appear along rein, forming irregular size room among grains. This indicates the direction of exploration and development for oilfield. In a word, the diagenetic study of reservoir property show that mechanical compaction and cementation is two important diagenetic controlling factors, which make oil-bearing physical property bad and porosity down in reservoir. Dissolution, particularly dissolution of laumontite and feldspar is one of most important diagenetic factors controlling the physical property of oil-bearing interval and forming better reservoir.
Keywords:Ordos Basin   diagenesis   clastic rocks   reservoir   laumontite
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