该模型应用于烃类热裂解丙烯产率的预测,取得了满意的效果。
The model is applied to predict the propylene yield in the course of the thermal cracking of hydrocarbon, satisfied result is obtained.
深层超压对烃类热裂解的抑制作用,直接扩大了勘探层位,有利于东濮凹陷深层的勘探与开发。
The constrain of deep overpressure to thermal cracking of hydrocarbon directly expands to exploration zones, which is beneficial for exploration and production in Dongpu Depression.
本文通过原油和干酪根的热模拟实验,探讨了热演化过程及烃类裂解的最终反应。
Through the thermal simulation experiment of crude oil and kerogen, the thermal evolution process and the end reaction of hydrocarbon thermal cracking are discussed in this paper.
烃源岩的热降解和储层中的烃类热催化裂解,生成有机酸和二氧化碳,引起深层碳酸盐岩发生溶解作用。
Organic acid and CO2, generated from thermal degradation of source rocks and thermo-catalytic cracking of hydrocarbons in reservoirs, destabilized and dissolved the carbonates at depth.
烃源岩的热降解和储层中的烃类热催化裂解,生成有机酸和二氧化碳,引起深层碳酸盐岩发生溶解作用。
Organic acid and CO2, generated from thermal degradation of source rocks and thermo-catalytic cracking of hydrocarbons in reservoirs, destabilized and dissolved the carbonates at depth.
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