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Pore evolution in hydrocarbon-generation simulation of organic matter-rich muddy shale 被引量:1

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摘要 For exploration and potential evaluation of deep shale reservoirs with high maturity,hydrocarbon generation and pore evolution of muddy shale in deep high evolution stage were investigated by the high-temperature high-pressure simulation experiment.Results indicated that under high pressure condition,nano-scale micropores in organic matter-rich muddy shale constantly increased as rise of temperature and pressure,leading to increase of shale porosity.However,in the high mature-overmature stage,shale porosity decreased with further increase of temperature and pressure.In contrast to micropores,micro-scale capillary pores and megapores in shale constantly decreased as rise of simulation temperature or pressure,indicating that deep-burial reservoirs was not favorable for free-gas storage;but significant increase of micropores and surface area during this stage could make up for a loss of adsorbed natural gas in shale due to decrease of adsorption capacity which was induced by increase of temperature and pressure,thus leading to high shale gas potential in deep layers.A large number of secondary micropores were developed in the simulated samples such as pyrite and dolomite,demonstrating that shale clasts and mineral matrix could also form abundant secondary micropores during the deep evolution stage;during the evolution process,shale as hydrocarbon source rock could generate a large amount of acidic fluid which was favorable for development of secondary porosity.
出处 《Petroleum Research》 2017年第2期146-155,共10页 石油研究(英文)
基金 This work was supported by National Key Basic Research Program of China(973 Program)(No.2012CB214704-02) National Science and Technology Major Project of China(No.2011ZX05008-002)and Key Laboratory Project of Gansu(No.1309RTSA041).
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