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本文采用快速热模拟实验方法,对菌解无定形体D和微粒体B含量达到76.50%~93.88%的干酪根样品进行热模拟实验,并着重讨论其热演化生烃规律及对成烃的贡献。实验结果表明,菌解无定形体D的液体烃产率较高,微粒体B的气体烃产率最大。所有实验样品的产烃峰期均发生在Ro值相当于0.70%~1.00%时,产气峰期略滞后,Ro值约为0.8%~1.00%。烃类组分为C1-C17,因此菌解无定形体和微粒体B是形成天然气和凝析油的重要显微组分之一。
In this paper, a rapid thermal simulation experiment was carried out to simulate the thermal evolution of kerogen samples with 76.50% -93.88% B content of amorphous bacteria D and microsomal B, Contribution to hydrocarbon generation. The experimental results show that the liquid hydrocarbon yield of the amylolytic amorphous substance D is higher, and the gas hydrocarbon yield of the microsomal substance B is the highest. All of the experimental samples produced peak production period when Ro value was equivalent to 0.70% ~ 1.00%, gas production peaked slightly lag, Ro value was about 0.8% ~ 1.00%. The hydrocarbon component is C1-C17, so the amylase and microsome B are one of the important microscopic components for the formation of natural gas and condensate.