| Author's Name: ZHOU Jin’gao, LIU Xinshe, SHEN Anjiang, DENG Hongying, ZHU Yongjin, LI Weiling, DING Zhenchun, YU Zhou, ZHANG Jianyong, ZHENG Jianfeng, WU Xingning, ZHANG Ru,TANG Jin |
| Institution: PetroChina Hangzhou Institute of Geology |
| Abstract: |
| Tectonic-lithofacies paleogeography is the foundation of the evaluation for source–reservoir-cap and reservoir-forming assemblage, which plays a significant role in oil and gas exploration. However, because of the limited data and recognition, the existing facies maps of major marine basins in China can not meet the needs of oil and gas exploration in deep marine carbonate rocks. Based on the new drilling and seismic data, the lithofacies recognition technology was used to restore the marine tectonic-lithofacies paleogeography of Tarim Basin, Sichuan Basin and Ordos Basin. It is concluded that: (1) the tectonic paleogeography of China’s marine carbonate platform in small craton is characterized with the alternation of uplift and depression, and uplift controlling reservoir and depression controlling source rocks; (2) tectonic-lithofacies paleogeography is characterized with multiple platform margins, multiple shoal zones and multiple platform basins; (3) tectonic-lithofacies paleogeography plays an important role in the early dolomitization and the range and reconstruction degree of karstification, thus controlling the distribution of reservoir; (4) multiple margin platform model is established and double-shoal sedimentary model of gentle slope is improved, which reveals that there are many favorable reservoir-forming assemblages in the marine carbonate platform of China. The research results deepen the understanding of the common characteristics of China’s marine carbonate platform in small craton, and provide theoretical support for oil and gas exploration of deep marine carbonate rocks. |
| Keywords: tectonic-lithofacies paleogeography; sedimentary model; carbonate rocks; Ordos Basin; Sichuan Basin; Tarim Basin |
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投稿时间:
2019-08-16 |
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