[First Hit]

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The Genetic Mechanisms and Characteristics of Previous HitHydrocarbonNext Hit Migration Induced by Previous HitOverpressureNext Hit in the Yinggehai Basin, South China Sea

Abstract

The Yinggehai Basin is a Cenozoic high temperature and high pressure strike-slip basin with rapid subsidence and lots of fluid diapirs. Most of the gas fields discovered confirmed that the reservoirs are charged by vertical pathways which were induced by Previous HitoverpressureNext Hit fluids. By using 3D seismic attributes including coherence and curvature cubes, two main types of Previous HithydrocarbonNext Hit migration systems induced by Previous HitoverpressureNext Hit-driven fractures are recognized and characterized in the sag region of the Yinggehai Basin, which are the diapir system and the deep pre-exist fracture system reactivated by late Previous HitoverpressureNext Hit, respectively. The diapir system, mainly distributes in the central depression of the basin, can be divided into five evolution stages including pressurization, punctuation, equilibrium, relief and collapse according to the recovering and modeling of diapiric structures . The deep pre-exist fracture system mainly distributes in deep, high-pressure intervals which located in the margin of the basin. By using geochemical methods such as natural gas isotopes and inclusions uniform temperature, it is confirmed that there are at least three phases of natural gas charging since Pliocene. By comparing the hydraulic fracture pressure coefficient from boreholes, it is indicated that the Previous HitdistributionNext Hit of bearing gas-beds has a significant correlation with the hydraulic fracture pressure coefficient, which suggested that the larger the hydraulic fracture pressure coefficient of the caprock, the more likely the natural gas leaks, and the higher migration efficiency. Synthetically utilizing the Previous HitoverpressureNext Hit forming time, the Previous HithydrocarbonNext Hit charging time and regional tectonics, firstly, it is suggested that the Pliocene dextral strike-slip extension was conducive to the increase of depositional rate, the formation of regional un-equilibrium Previous HitoverpressureNext Hit, and the induced generation of local tension fractures which triggered the development of diapirs that enlarged and increased the fracturing degree and improved the migration efficiency in turn. Secondly, it is suggested that the Miocene sinistral strike slip created dense tension fractures in the deep intervals which reactivated under the late Previous HitoverpressureTop and acted as vertical pathways for natural gas migration. Whether or where nature gas accumulation is determined by hydraulic fracture pressure coefficient rather than the pre-exist fractures.