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Strike-Slip Faults Controlled “Floor Type” Hydrocarbon Accumulation Model in Gaoshiti-Moxi Area, Sichuan Basin: A Case Study of Sinian-Cambrian
Li Chunquan, Chen Honghan, Tang Daqing, Wang Zecheng, Jiang Hua
PDF(9937 KB)
PDF(9937 KB)
Strike-Slip Faults Controlled “Floor Type” Hydrocarbon Accumulation Model in Gaoshiti-Moxi Area, Sichuan Basin: A Case Study of Sinian-Cambrian
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Strike-slip faults play an important role in controlling hydrocarbon accumulation. In order to investigate the effect of strike-slip faults on the Sinian-Cambrian hydrocarbon accumulation in the Gaoshiti-Moxi area of Sichuan basin, seismic interpretation of strike-slip faults and systematic fluid inclusion analysis of diagenetic minerals filled in solution vugs were carried out, and the active stages of strike-slip faults and the hydrocarbon accumulation orders were determined. Moreover, the coupling relationship between strike-slip fault active stages and the hydrocarbon accumulation orders were discussed, and established a “floor type” hydrocarbon accumulation model controlled by strike-slip fault. Under this model, there are multiple sets of high-quality reservoirs developed vertically, which are shown as multi-layer systems containing oil and gas, and the oil and gas accumulation characteristics of each layer system are highly similar. For the areas where there is a “floor type” oil and gas accumulation mode, attention should be paid to three-dimensional exploration.
strike-slip fault / fluid inclusion / hydrocarbon accumulation model / Sinian / Cambrian / Sichuan basin / petroleum geology
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