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Reserve and Pressure Change of Paleo-oil Reservoir in Puguang Area, Sichuan Basin 被引量:1
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作者 张元春 邹华耀 +1 位作者 王存武 李平平 《Journal of China University of Geosciences》 SCIE CSCD 2008年第6期726-738,共13页
The Puguang (普光) gas field is the largest gas field found in marine carbonates in China. The Feixianguan (飞仙关) and Changxing (长兴) reservoirs are two such reservoirs that had been buried to a depth of abou... The Puguang (普光) gas field is the largest gas field found in marine carbonates in China. The Feixianguan (飞仙关) and Changxing (长兴) reservoirs are two such reservoirs that had been buried to a depth of about 7 000 m and experienced maximum temperature of up to 220 ℃ before uplift to the present-day depth of 5 000-5 500 m, with present-day thermal maturity between 2.0% and 3.0% equivalent vitrinite reflectance (Ro). Bitumen staining is ubiquitous throughout the Feixianguan and Changxing formations, with the greatest concentrations in zones with the highest porosity and permeability, suggesting that the solid bitumen is the result of in-situ cracking of oil. According to the distribution of bitumen in the core, the paleo-oil boundary can be approximately determined. The paleo-oil resource is calculated to be about (0.61-0.92) × 10^9 t (average 0.76 × 10^9 t), and the cracked gas volume is about (380.80-595.80) × 10^9 m^3 (average 488.30 × 10^9 m^3); at least 58.74% of cracked gas is preserved in Puguang gas field. The study area experienced not only the cracking of oil but also thermochemical sulfate reduction, resulting in large quantities of nonhydrocarbon gas, with about 15.2% H2S and 8.3% CO2, together with the structural reconfiguration. During the whole process, the great change of volume and pressure compels the PVTsim modeling software to simulate various factors, such as the cracking of oil, the thermochemical sulfate reduction (TSR) and the tectonic uplift in both isolated and open geological conditions, respectively. The results show that although any one of these factors may induce greater pressure changes in an isolated system than in a closed system, the oil cracking and C3+ involving TSR lead to overpressure during the early stage of gas reservoir. Therefore, the tectonic uplift and the methane-dominated TSR, as well as the semi-open system contribute to the reducing pressure resulting in the current normal formation pressure. 展开更多
关键词 Puguang gas field paleo-oil reservoir pressure change pvt simulation
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