摘要
经与实测扩散系数进行比较,认为用Stokes—Einstein方程式来进行扩散系数的预测计算是可行的。以物质平衡原理为基础,比较可排气量(可排气量=生气量-残留气量)与最大扩散气量,取二者中的小者为实际扩散气量。实际扩散气量随有机质丰度、生烃潜力、源岩厚度和顶面埋深的增大而增大。在一般地质情况下,计算所得最大扩散气量是实际扩散气量的几倍甚至几十倍,这使得在天然气资源量计算过程中,扩散气量被严重夸大了。
A study on the actual measured gas diffusion coefficient shows that calculating diffusion coefficient with the Stokes-Einstein equation is feasible. According to the mass balance principle, a comparison is carried out between the dischargeable gas (i. e. , the generated gas minus residual gas) and the maximum diffused gas, among which the smaller one is selected as the actual gas diffusion loss. The actual gas diffusion loss rises with an increase of organic matter abundance, hydrocarbon-generation potential, source rock thickness and top burial depth. In a general geological condition, the calculated gas diffusion loss is several or even tens of times than the actual amount, causing an exaggeration of diffusion loss in the calculation of gas reserves. larger
出处
《石油与天然气地质》
EI
CAS
CSCD
北大核心
2010年第3期343-346,352,共5页
Oil & Gas Geology
基金
国家重大专项(2008ZX05007-001)
国家重点基础研究发展计划(973计划)项目(2006CB202307)
关键词
扩散系数
实际扩散气量
最大扩散气量
扩散损失量
天然气
diffusion coefficient, actual gas diffusion loss, maximum gas diffusion loss, gas diffusion loss, natural gas
