The Study on Simulation Experiments of Hydrocarbon Generation and Expulsion of Mud Limestone
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摘要: 本文采用加水热模拟实验方法对东濮凹陷卫城地区下第三系低熟泥灰岩进行了生、排烃模拟实验研究,重点分析了液态产物(热解油、沥青A、沥青C)的特征及演化规律。热解油中轻质烃(C6-C14)占有重要的地位,其相对含量随演化程度的增高变化特征是从大到小然后再增大,轻质烃的准确定量为评价泥灰岩的生油量提供了重要参数;热解油、沥青A、沥表C三者的产率及组成变化的对比研究反映了泥灰岩(碳酸盐岩)中不同赋存状态有机质对成烃的贡献以及排烃机制。Abstract: Based on the hydrous pyrolysis simulation experiments of low-mature mud limestone,the characteristics of gas. liquid and solid products, especially the liquid products(including expelled oil. bitumen A and bitumen C) are discussed systematically in this paper.During thermal evolution, the vitrinite reflectance value of kerogen changes from 0.64 % (original sample)to 1. 76 % (360℃ /72 ) and the evolution route of kerogen elements on Van Krevelen's model is in line with the evolution path of type- I kerogen. These reflect that the process of the artificial simulation evolution is similar to that of natural evolution.The characteristics of gas products are that the yield of methane and hydrogen increases,while that of heavy hydrocarbon series(C2- C5) and alkene gases Increases at first, then decreases later, The value of δ13C of methane becomes lighter at the early stage and heavier at the late stage.The light oil (C2- C14) plays an important role in the expelled oil. The relative contentsof light oils are from the large to samll then to large in the process of thermal evolution, reflecting the process of hydrocarbon generation and expulsion. The accurate measurement of light oils provides an important parameter for evaluating the quantity of oil generation.The characteristics of geochemistry of bitumen C are different from those of bitumen A of the host rock, the former contains more aromatic hydrocarbons and the most of ratio values of saturated hydrocarbons and aromatic hydrocarbons are smaller than 1, but that of the latter are larger than 1. The results of component analyses and GC analyses on expelled oil, bitumen A and bitumen C as well as the correlation of their characteristics show that the different existing forms of organic matter have their special hydrocarbon expulsion ways and make different contribution to hydrocarbon generation during each evolution stage; the thermal degradation of a large amount of kerogen is in the leading role during mature stage, but in high mature stage,the hydrocarbon generation and expulsion(or release) of inclusion organic matter play an important role because the inclusion organic matter begins to be overally pyrolysed.
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