Theoretical method for calculating porosity and permeability under self-regulating effect 被引量：2

Theoretical method for calculating porosity and permeability under self-regulating effect

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摘要 In order to study the effect of stress-sensitivity and matrix shrinkage on coalbed methane production,equivalent matrix particle model is proposed considering the process of adsorption and desorption.Calculating mathematical models for calculating porosity and permeability which considered matrix shrinkage by combining diameter model and desorption were established.The calculations of porosity and permeability under self-regulating effect were obtained by combining traditional stress-sensitivity equations.The changes of porosity and permeability in different reservoirs were calculated and analyzed through a variety of basic parameters.The results show that high coal rank reservoir has the biggest range ability of porosity and permeability under the same pressure difference conditions,followed by the middle rank and the low rank.The research observed the positive relationship between stress-sensitivity and declining period of porosity and permeability in low rank coal reservoir,and the inverse relationship between matrix shrinkage and declining period of porosity and permeability.The stronger the matrix shrinkage is,the earlier declining period and rise period will occur. In order to study the effect of stress-sensitivity and matrix shrinkage on coalbed methane production,equivalent matrix particle model is proposed considering the process of adsorption and desorption.Calculating mathematical models for calculating porosity and permeability which considered matrix shrinkage by combining diameter model and desorption were established.The calculations of porosity and permeability under self-regulating effect were obtained by combining traditional stress-sensitivity equations.The changes of porosity and permeability in different reservoirs were calculated and analyzed through a variety of basic parameters.The results show that high coal rank reservoir has the biggest range ability of porosity and permeability under the same pressure difference conditions,followed by the middle rank and the low rank.The research observed the positive relationship between stress-sensitivity and declining period of porosity and permeability in low rank coal reservoir,and the inverse relationship between matrix shrinkage and declining period of porosity and permeability.The stronger the matrix shrinkage is,the earlier declining period and rise period will occur.

作者 Lai Fengpeng Li Zhiping Wang Yining Yao Jingjie

机构地区 School of Energy Resources College of Petroleum Engineering

出处《International Journal of Mining Science and Technology》 SCIE EI 2013年第5期637-641,共5页 矿业科学技术学报（英文版）

基金 Financial support for this work provided by the National Program on Key Basic Research Project of China(No.2009CB219600) the National Science and Technology Major Project of the Ministry of Science and Technology of China(No.2011ZX05009-006)

关键词 Equivalent matrix Matrix shrinkage Stress-sensitivity POROSITY PERMEABILITY Equivalent matrix Matrix shrinkage Stress-sensitivity Porosity Permeability

分类号 TD841 [矿业工程—煤矿开采]

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