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    Volume 29 Issue 4
    Jul.  2004
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    Article Navigation >  Earth Science  > 2004  >  29(4): 391-396
    SHI Guang-ren, ZHANG Qing-chun, 2004. Quantitative Simulation of Hydrocarbon Migration in Kuqa Depression. Earth Science, 29(4): 391-396.
    Citation: SHI Guang-ren, ZHANG Qing-chun, 2004. Quantitative Simulation of Hydrocarbon Migration in Kuqa Depression. Earth Science, 29(4): 391-396.
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    Quantitative Simulation of Hydrocarbon Migration in Kuqa Depression

    • Research Institute ofPetroleum Exploration and Development, PetroChina, Beijing 100083, China

    • Received Date: 2004-03-18
    • Publish Date: 2004-07-25
      Abstract
    • The histories of stratigraphic burial, geotherm, diagenesis, hydrocarbon generation, expulsion and migration-accumulation are simulated quantitatively by means of the basin modeling software of BASIMS in order to provide the quantitative data for oil and gas exploration in Kuqa depression. Of them, hydrocarbon primary migration is simulated by the easy and practical methods, i.e. sedimentary compaction-filtration method is used to calculate the amount of expelled oil and the mass balance method to calculate the amount of expelled gas. The pseudo 3-D migration-accumulation model based on buoyancy and Darcy's Law is used to simulate on secondary hydrocarbon migration. The sensible parameters (parameter sensitivity and risk analyses, distribution ratio of hydrocarbons expelled, permeabilities in fault and unconformity zones, and determination of reservoir cell) in these numerical methods are discussed, and hydrocarbon expulsion and migration-accumulation histories have been simulated in detail. The modeling results are in agreement with the real pools not only on quantities but also on locations, and especially some predicted prospects have been proved by explorations later.

       

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