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hale gas reservoir modeling and production evaluation considering complex gas transport mechanisms and dispersed distribution of kerogen 被引量:3
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作者 Jie Zeng Jishan Liu +3 位作者 Wai Li Yee-Kwong Leong Derek Elsworth Jianchun Guo 《Petroleum Science》 SCIE CAS CSCD 2021年第1期195-218,共24页
Stimulated shale reservoirs consist of kerogen,inorganic matter,secondary and hydraulic fractures.The dispersed distribution of kerogen within matrices and complex gas flow mechanisms make production evaluation challe... Stimulated shale reservoirs consist of kerogen,inorganic matter,secondary and hydraulic fractures.The dispersed distribution of kerogen within matrices and complex gas flow mechanisms make production evaluation challenging.Here we establish an analytical method that addresses kerogen-inorganic matter gas transfer,dispersed kerogen distribution,and complex gas flow mechanisms to facilitate evaluating gas production.The matrix element is defined as a kerogen core with an exterior inorganic sphere.Unlike most previous models,we merely use boundary conditions to describe kerogen-inorganic matter gas transfer without the instantaneous kerogen gas source term.It is closer to real inter-porosity flow conditions between kerogen and inorganic matter.Knudsen diffusion,surface diffusion,adsorption/desorption,and slip corrected flow are involved in matrix gas flow.Matrix-fracture coupling is realized by using a seven-region linear flow model.The model is verified against a published model and field data.Results reveal that inorganic matrices serve as a major gas source especially at early times.Kerogen provides limited contributions to production even under a pseudo-steady state.Kerogen properties’influence starts from the late matrix-fracture inter-porosity flow regime,while inorganic matter properties control almost all flow regimes except the early-mid time fracture linear flow regime.The contribution of different linear flow regions is also documented. 展开更多
关键词 Analytical solution Shale gas reservoir Well performance kerogen and inorganic matter
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页岩凝析气藏物质平衡方程及储量计算方法 被引量:2
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作者 陈婷婷 喻高明 张艺钟 《大庆石油地质与开发》 CAS CSCD 北大核心 2017年第2期143-148,共6页
页岩气藏的特点是无机基质孔隙、有机基质孔隙、天然裂缝孔隙、水力裂缝孔隙和吸附相孔隙并存。实验室和数学研究表明页岩气藏可以由五种孔隙度模型和干酪根溶解气储集机制来描述。基于Orozco和Aguilera方程,考虑页岩吸附气量和溶解气... 页岩气藏的特点是无机基质孔隙、有机基质孔隙、天然裂缝孔隙、水力裂缝孔隙和吸附相孔隙并存。实验室和数学研究表明页岩气藏可以由五种孔隙度模型和干酪根溶解气储集机制来描述。基于Orozco和Aguilera方程,考虑页岩吸附气量和溶解气量随地层压力的变化以及两者对游离气储集空间的影响,建立页岩凝析气藏物质平衡方程。以Orozco和Aguilera文中的页岩凝析气藏为例,首先进行储量回归得到基质和裂缝游离气储量,再计算吸附气和溶解气储量以及总储量,然后根据各个储量所占比例计算一系列G_(pt)值(总的累计产气量),作p/Z_2(压力/两相气体偏差因子)和G_(pt)的关系曲线,与生产历史数据拟合较好。与Orozco和Aguilera的结果相比,总储量相差3%,各个储量所占比例也不尽相同。 展开更多
关键词 五种孔隙度 干酪根溶解气 页岩凝析气藏 物质平衡方程 储量
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