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Quantitative evaluation of geological fluid evolution and accumulated mechanism:in case of tight sandstone gas field in central Sichuan Basin 被引量:1
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作者 Ya-Hao Huang You-Jun Tang +5 位作者 Mei-Jun Li hai-tao hong Chang-Jiang Wu Ji-Zhen Zhang Xiao-Lin Lu Xiao-Yong Yang 《Petroleum Science》 SCIE CAS CSCD 2021年第2期416-429,共14页
Tight gas exploration plays an important part in China’s unconventional energy strategy.The tight gas reservoirs in the Jurassic Shaximiao Formation in the Qiulin and Jinhua Gas Fields of central Sichuan Basin are ch... Tight gas exploration plays an important part in China’s unconventional energy strategy.The tight gas reservoirs in the Jurassic Shaximiao Formation in the Qiulin and Jinhua Gas Fields of central Sichuan Basin are characterized by shallow burial depths and large reserves.The evolution of the fluid phases is a key element in understanding the accumulation of hydrocarbons in tight gas reservoirs.This study investigates the fluid accumulation mechanisms and the indicators of reservoir properties preservation and degradation in a tight gas reservoir.Based on petrographic observations and micro-Raman spectroscopy,pure CH4 inclusions,pure CO2 inclusions,hybrid CH4–CO2 gas inclusions,and N2-rich gas inclusions were studied in quartz grains.The pressure–volume–temperature–composition properties(PVT-x)of the CH4 and CO2 bearing inclusions were determined using quantitative Raman analysis and thermodynamic models,while the density of pure CO2 inclusions was calculated based on the separation of Fermi diad.Two stages of CO2 fluid accumulation were observed:primary CO2 inclusions,characterized by higher densities(0.874–1.020 g/cm3)and higher homogenization temperatures(>210°C)and secondary CO2 inclusions,characterized by lower densities(0.514–0.715 g/cm3)and lower homogenization temperatures:~180–200°C).CO2 inclusions with abnormally high homogenization temperatures are thought to be the result of deep hydrothermal fluid activity.The pore fluid pressure(44.0–58.5 MPa)calculated from the Raman shift of C–H symmetric stretching(v1)band of methane inclusions is key to understanding the development of overpressure.PT entrapment conditions and simulation of burial history can be used to constrain the timing of paleo-fluid emplacement.Methane accumulated in the late Cretaceous(~75–65 Ma),close to the maximum burial depth during the early stages of the Himalayan tectonic event while maximum overpressure occurred at~70 Ma,just before uplift.Later,hydrocarbon gas migrated through the faults and gradually displaced the early emplaced CO2 in the reservoirs accompanied by a continuous decrease in overpressure during and after the Himalayan event,which has led to a decrease in the reservoir sealing capabilities.The continuous release of overpressure to present-day conditions indicates that the tectonic movement after the Himalayan period has led to a decline in reservoir conditions and sealing properties. 展开更多
关键词 Raman quantitative analysis Fluid inclusions Pore fluid pressure Tight gas
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川中地区侏罗系天然气与原油轻烃地球化学特征对比 被引量:7
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作者 卢晓林 李美俊 +6 位作者 王小娟 唐友军 韦腾强 何大祥 洪海涛 吴长江 冉子超 《天然气地球科学》 CAS CSCD 北大核心 2021年第7期1073-1083,共11页
天然气伴生凝析油及轻质油的轻烃地球化学参数常常被用于天然气成因和油—气对比研究,但蒸发分馏等次生作用对天然气和伴生原油的轻烃组成会产生一定的影响。基于川中地区16件侏罗系天然气与伴生凝析油或轻质油样品气相色谱分析,探讨了... 天然气伴生凝析油及轻质油的轻烃地球化学参数常常被用于天然气成因和油—气对比研究,但蒸发分馏等次生作用对天然气和伴生原油的轻烃组成会产生一定的影响。基于川中地区16件侏罗系天然气与伴生凝析油或轻质油样品气相色谱分析,探讨了轻烃组成及相关地球化学参数在天然气和原油中的差异。研究表明:蒸发分馏作用对油气轻烃组成影响明显,相对于伴生原油,天然气轻烃组成具有高异构烷烃和正构烷烃相对含量,而贫环烷烃和芳香烃的特征。蒸发分馏作用对甲基环己烷指数、环己烷指数、Mango参数K1等成因参数影响不大,伴生原油的这类指标均可以较好地反映天然气的成因类型。蒸发分馏作用对成熟度参数异庚烷值影响较小,而对庚烷值、2,4-DMC5/2,3-DMC5值影响明显。轻烃化合物沸点的不同可能是导致天然气与原油中不同类型化合物相对含量存在差异的主要原因,并且沸点较低的化合物在天然气中相对含量更高。组成轻烃参数的化合物的沸点差异越大,该参数受蒸发分馏作用影响越大,天然气与伴生原油的该参数值相差也越显著。而当比值参数中组成分子与分母的化合物的沸点之差小于2℃时,该参数基本不受蒸发分馏作用的影响。 展开更多
关键词 轻烃组分 蒸发分馏 成因类型 成熟度 四川盆地
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