Characteristics and main controlling factors of dolomite reservoirs in Fei-3 Member of Feixianguan Formation of Lower Triassic, Puguang area

In recent years, studying dolomite diagenesis and controlling factors of reservoir development from microscopic perspective has become a hot subject in deep carbonate gas exploration. In this study, we have carried out a fine classification of different types of dolomite reservoirs in the Fei-3 Memb...

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Published in	Open Geosciences Vol. 16; no. 1; pp. 16 - 24
Main Authors	Wang, Shenjian, Xu, Guosheng, Hou, Yingling, Zhuang, Wenjie, Chen, Guomin, Wang, Wei, Wang, Xinyi, Bi, Jianxia, Huang, Changbing, Liu, Qing, Zhuang, Qiuchan, Luo, Qing
Format	Journal Article
Language	English
Published	Warsaw De Gruyter 22.08.2024 De Gruyter Poland
Subjects	Caves Diagenesis Dolomite dolomite reservoir Fei-3 Member Growth conditions main control factor Microorganisms Oil and gas exploration Organic acids Organic matter Pores Puguang area Reservoirs Shallow water Sichuan Basin Triassic
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Abstract	In recent years, studying dolomite diagenesis and controlling factors of reservoir development from microscopic perspective has become a hot subject in deep carbonate gas exploration. In this study, we have carried out a fine classification of different types of dolomite reservoirs in the Fei-3 Member of the Lower Triassic Feixianguan Formation in the Puguang area, and the distribution law and main controlling factors of dolomite reservoirs have been clarified. The results show that the dolomite reservoirs of the Fei-3 Member in the Puguang area include three rock types: residual structure dolomite, microbial dolomite, and crystalline dolomite, and the main reservoir space types are intergranular pores, solution pores/caves, and inter-crystalline pores, respectively, and the solution fractures are mainly developed in the residual structure and microbial dolomites. Most of the dolomite reservoirs are distributed in the Fei 3 sub-member, and the residual structure dolomite is mainly distributed in the relative paleomorphic highs of the Fei 3 sub-member; microbial dolomite is mainly developed in the platform environment with shallow water and intermittent exposure, and is controlled by the growth conditions of microorganisms; the crystalline dolomite is mostly distributed in the relatively shallow water and relatively limited dolomite flat environment. On the plane, the dolomite reservoirs are distributed in the form of clumps. The distribution of residual structure dolomite reservoir is controlled by paleotopography and early exposure corrosion. Microbial dolomite is formed in the microbial mat microfacies, and the distribution range of microbial mat controls the development of microbial dolomites. The diagenetic types of the dolomites in the target layer include dolomitization, dissolution, rupture, and material filling. Various kinds of pores formed by syngenetic dissolution provide channels for later buried dissolution, and organic acids formed by organic matter maturation under deep burial conditions play a crucial role in dissolution of dolomite and promote the formation of dissolution pores. In the burial stage, hydrocarbons enter the dolomite, which can effectively prevent the growth of late authigenic minerals, thus promoting the preservation of pores. The structural fracture system formed by late tectonic movement can communicate with different pore groups and improve the reservoir quality.
AbstractList	In recent years, studying dolomite diagenesis and controlling factors of reservoir development from microscopic perspective has become a hot subject in deep carbonate gas exploration. In this study, we have carried out a fine classification of different types of dolomite reservoirs in the Fei-3 Member of the Lower Triassic Feixianguan Formation in the Puguang area, and the distribution law and main controlling factors of dolomite reservoirs have been clarified. The results show that the dolomite reservoirs of the Fei-3 Member in the Puguang area include three rock types: residual structure dolomite, microbial dolomite, and crystalline dolomite, and the main reservoir space types are intergranular pores, solution pores/caves, and inter-crystalline pores, respectively, and the solution fractures are mainly developed in the residual structure and microbial dolomites. Most of the dolomite reservoirs are distributed in the Fei 3 sub-member, and the residual structure dolomite is mainly distributed in the relative paleomorphic highs of the Fei 3 sub-member; microbial dolomite is mainly developed in the platform environment with shallow water and intermittent exposure, and is controlled by the growth conditions of microorganisms; the crystalline dolomite is mostly distributed in the relatively shallow water and relatively limited dolomite flat environment. On the plane, the dolomite reservoirs are distributed in the form of clumps. The distribution of residual structure dolomite reservoir is controlled by paleotopography and early exposure corrosion. Microbial dolomite is formed in the microbial mat microfacies, and the distribution range of microbial mat controls the development of microbial dolomites. The diagenetic types of the dolomites in the target layer include dolomitization, dissolution, rupture, and material filling. Various kinds of pores formed by syngenetic dissolution provide channels for later buried dissolution, and organic acids formed by organic matter maturation under deep burial conditions play a crucial role in dissolution of dolomite and promote the formation of dissolution pores. In the burial stage, hydrocarbons enter the dolomite, which can effectively prevent the growth of late authigenic minerals, thus promoting the preservation of pores. The structural fracture system formed by late tectonic movement can communicate with different pore groups and improve the reservoir quality. In recent years, studying dolomite diagenesis and controlling factors of reservoir development from microscopic perspective has become a hot subject in deep carbonate gas exploration. In this study, we have carried out a fine classification of different types of dolomite reservoirs in the Fei-3 Member of the Lower Triassic Feixianguan Formation in the Puguang area, and the distribution law and main controlling factors of dolomite reservoirs have been clarified. The results show that the dolomite reservoirs of the Fei-3 Member in the Puguang area include three rock types: residual structure dolomite, microbial dolomite, and crystalline dolomite, and the main reservoir space types are intergranular pores, solution pores/caves, and inter-crystalline pores, respectively, and the solution fractures are mainly developed in the residual structure and microbial dolomites. Most of the dolomite reservoirs are distributed in the Fei 31 sub-member, and the residual structure dolomite is mainly distributed in the relative paleomorphic highs of the Fei 31 sub-member; microbial dolomite is mainly developed in the platform environment with shallow water and intermittent exposure, and is controlled by the growth conditions of microorganisms; the crystalline dolomite is mostly distributed in the relatively shallow water and relatively limited dolomite flat environment. On the plane, the dolomite reservoirs are distributed in the form of clumps. The distribution of residual structure dolomite reservoir is controlled by paleotopography and early exposure corrosion. Microbial dolomite is formed in the microbial mat microfacies, and the distribution range of microbial mat controls the development of microbial dolomites. The diagenetic types of the dolomites in the target layer include dolomitization, dissolution, rupture, and material filling. Various kinds of pores formed by syngenetic dissolution provide channels for later buried dissolution, and organic acids formed by organic matter maturation under deep burial conditions play a crucial role in dissolution of dolomite and promote the formation of dissolution pores. In the burial stage, hydrocarbons enter the dolomite, which can effectively prevent the growth of late authigenic minerals, thus promoting the preservation of pores. The structural fracture system formed by late tectonic movement can communicate with different pore groups and improve the reservoir quality. In recent years, studying dolomite diagenesis and controlling factors of reservoir development from microscopic perspective has become a hot subject in deep carbonate gas exploration. In this study, we have carried out a fine classification of different types of dolomite reservoirs in the Fei-3 Member of the Lower Triassic Feixianguan Formation in the Puguang area, and the distribution law and main controlling factors of dolomite reservoirs have been clarified. The results show that the dolomite reservoirs of the Fei-3 Member in the Puguang area include three rock types: residual structure dolomite, microbial dolomite, and crystalline dolomite, and the main reservoir space types are intergranular pores, solution pores/caves, and inter-crystalline pores, respectively, and the solution fractures are mainly developed in the residual structure and microbial dolomites. Most of the dolomite reservoirs are distributed in the Fei 3 1 sub-member, and the residual structure dolomite is mainly distributed in the relative paleomorphic highs of the Fei 3 1 sub-member; microbial dolomite is mainly developed in the platform environment with shallow water and intermittent exposure, and is controlled by the growth conditions of microorganisms; the crystalline dolomite is mostly distributed in the relatively shallow water and relatively limited dolomite flat environment. On the plane, the dolomite reservoirs are distributed in the form of clumps. The distribution of residual structure dolomite reservoir is controlled by paleotopography and early exposure corrosion. Microbial dolomite is formed in the microbial mat microfacies, and the distribution range of microbial mat controls the development of microbial dolomites. The diagenetic types of the dolomites in the target layer include dolomitization, dissolution, rupture, and material filling. Various kinds of pores formed by syngenetic dissolution provide channels for later buried dissolution, and organic acids formed by organic matter maturation under deep burial conditions play a crucial role in dissolution of dolomite and promote the formation of dissolution pores. In the burial stage, hydrocarbons enter the dolomite, which can effectively prevent the growth of late authigenic minerals, thus promoting the preservation of pores. The structural fracture system formed by late tectonic movement can communicate with different pore groups and improve the reservoir quality.
Author	Wang, Xinyi Chen, Guomin Wang, Wei Zhuang, Qiuchan Xu, Guosheng Luo, Qing Liu, Qing Zhuang, Wenjie Bi, Jianxia Hou, Yingling Huang, Changbing Wang, Shenjian
Author_xml	– sequence: 1 givenname: Shenjian surname: Wang fullname: Wang, Shenjian organization: Petroleum Engineering College of Guangdong Petrochemical University, Maoming, Guangdong, 525000, China – sequence: 2 givenname: Guosheng surname: Xu fullname: Xu, Guosheng email: xgsheng1967@163.com organization: Energy College of Chengdu University of Technology, Chengdu, Sichuan, 610059, China – sequence: 3 givenname: Yingling surname: Hou fullname: Hou, Yingling organization: Petroleum Engineering College of Guangdong Petrochemical University, Maoming, Guangdong, 525000, China – sequence: 4 givenname: Wenjie surname: Zhuang fullname: Zhuang, Wenjie organization: Petroleum Engineering College of Guangdong Petrochemical University, Maoming, Guangdong, 525000, China – sequence: 5 givenname: Guomin surname: Chen fullname: Chen, Guomin organization: Petroleum Engineering College of Guangdong Petrochemical University, Maoming, Guangdong, 525000, China – sequence: 6 givenname: Wei surname: Wang fullname: Wang, Wei organization: Petroleum Engineering College of Guangdong Petrochemical University, Maoming, Guangdong, 525000, China – sequence: 7 givenname: Xinyi surname: Wang fullname: Wang, Xinyi organization: Petroleum Engineering College of Guangdong Petrochemical University, Maoming, Guangdong, 525000, China – sequence: 8 givenname: Jianxia surname: Bi fullname: Bi, Jianxia organization: Sinopec Zhongyuan Oilfield Exploration and Development Research Institute, Zhengzhou, Henan, 450017, China – sequence: 9 givenname: Changbing surname: Huang fullname: Huang, Changbing organization: Sinopec Zhongyuan Oilfield Exploration and Development Research Institute, Zhengzhou, Henan, 450017, China – sequence: 10 givenname: Qing surname: Liu fullname: Liu, Qing organization: Petroleum Engineering College of Guangdong Petrochemical University, Maoming, Guangdong, 525000, China – sequence: 11 givenname: Qiuchan surname: Zhuang fullname: Zhuang, Qiuchan organization: Petroleum Engineering College of Guangdong Petrochemical University, Maoming, Guangdong, 525000, China – sequence: 12 givenname: Qing surname: Luo fullname: Luo, Qing organization: Petroleum Engineering College of Guangdong Petrochemical University, Maoming, Guangdong, 525000, China
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Snippet	In recent years, studying dolomite diagenesis and controlling factors of reservoir development from microscopic perspective has become a hot subject in deep...
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SubjectTerms	Caves Diagenesis Dolomite dolomite reservoir Fei-3 Member Growth conditions main control factor Microorganisms Oil and gas exploration Organic acids Organic matter Pores Puguang area Reservoirs Shallow water Sichuan Basin Triassic
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Title	Characteristics and main controlling factors of dolomite reservoirs in Fei-3 Member of Feixianguan Formation of Lower Triassic, Puguang area
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