煤层气井压裂裂缝参数优化新方法
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摘要
以往煤层气井压裂缝参数优化方法没有考虑压后裂缝渗透率变化和压裂规模的影响。基于支撑剂指数法,考虑压后动态裂缝渗透率,建立了与压裂规模相关的裂缝参数优化数学模型。通过双重迭代求解得到了最优压裂规模下的最佳裂缝参数,并绘制了不同煤层渗透率和压裂规模下的裂缝参数优化图版。计算结果表明,压裂规模并非越大越好,存在最优规模;煤层压裂裂缝内非达西流动使最优缝长减小,最优缝宽增大。该方法应用简便,优化结果更准确、合理,对煤层压裂改造具有一定指导意义。
The effects of the fracture permeability produced after fracturing and fracturing scale are not considered in previous fracture parameter optimization methods for CBM wells. For the realization of fracture parameters optimization for fractured CBM wells,based on proppant index method,considering the effects of dynamic change of fracture permeability,a mathematical model is set up which is related with fracturing scale. With the multiple iteration method,the optimal fracture parameters can be obtained under optimal fracturing scale conditions. And fracture parameters optimization chart is drawn for different coal seam permeability and fracturing scale. The result shows that there is an optimal value for proppant volume to gain maximum productivity after fracturing. The more severe non-Darcy flow effect in the fracture,the smaller optimal fracture length is,and the larger the optimal fracture width is. The method is simple to use,and the optimization results are more accurate and reasonable. So it can be used to guide fracturing for CBM well.
The effects of the fracture permeability produced after fracturing and fracturing scale are not considered in previous fracture parameter optimization methods for CBM wells. For the realization of fracture parameters optimization for fractured CBM wells,based on proppant index method,considering the effects of dynamic change of fracture permeability,a mathematical model is set up which is related with fracturing scale. With the multiple iteration method,the optimal fracture parameters can be obtained under optimal fracturing scale conditions. And fracture parameters optimization chart is drawn for different coal seam permeability and fracturing scale. The result shows that there is an optimal value for proppant volume to gain maximum productivity after fracturing. The more severe non-Darcy flow effect in the fracture,the smaller optimal fracture length is,and the larger the optimal fracture width is. The method is simple to use,and the optimization results are more accurate and reasonable. So it can be used to guide fracturing for CBM well.
引文
[1]张金才,尹尚先.页岩油气与煤层气开发的岩石力学与压裂关键技术[J].煤炭学报,2014,39(8):1691-1699.
[2]吴建军,詹顺,吴明杨,等.扇面水力喷砂定向射孔压裂技术在煤层气井中的应用[J].钻采工艺,2018,41(4):37-40.
[3] Lou Y,Song H Q,Yang J S,et al. Productivity equation of fractured well in CBM reservoirs[J]. Journal of Natural Gas Science and Engineering,2013,11(1):39-45.
[4]张洲,鲜保安,周敏,等.近直立煤层裂隙系统及优势渗流通道特征研究[J].新疆地质,2019,37(1):112-115.
[5]吴国涛,胥云,杨振周,等.考虑支撑剂及其嵌入程度对支撑裂缝导流能力影响的数值模拟[J].天然气工业,2013,33(5):65-68.
[6]张遂安,曹立虎,谭扬军,等.高阶煤支撑剂嵌入模型[J].科技导报,2014,32(14):54-58.
[7]邹雨时,张士诚,张劲,等.煤粉对裂缝导流能力的伤害机理[J].煤炭学报,2012,37(11):1890-1894.
[8] Lopez-hernandez H D,Valko P P,Pham T T. Optimum fracture treatment design minimizes the impact of nonDarcy flow effects[C]. SPE 90195,2004.
[9] Marongiu-Porcu M,Economides M J,Stephen A H. Economic and physical optimization of hydraulic fracturing[J]. Journal of Natural Gas Science and Engineering,2013,14(5):91-107.
[10]Deng J,Zhu W,Ma Q. A new seepage model for shale gas reservoir and productivity analysis of fractured well[J]. Fuel,2014,124(5):232-240.
[11] Economides M J,Oligeny R. Unified fracture design[M]. Houston:(hardbound)Orsa Press,2002.
[2]吴建军,詹顺,吴明杨,等.扇面水力喷砂定向射孔压裂技术在煤层气井中的应用[J].钻采工艺,2018,41(4):37-40.
[3] Lou Y,Song H Q,Yang J S,et al. Productivity equation of fractured well in CBM reservoirs[J]. Journal of Natural Gas Science and Engineering,2013,11(1):39-45.
[4]张洲,鲜保安,周敏,等.近直立煤层裂隙系统及优势渗流通道特征研究[J].新疆地质,2019,37(1):112-115.
[5]吴国涛,胥云,杨振周,等.考虑支撑剂及其嵌入程度对支撑裂缝导流能力影响的数值模拟[J].天然气工业,2013,33(5):65-68.
[6]张遂安,曹立虎,谭扬军,等.高阶煤支撑剂嵌入模型[J].科技导报,2014,32(14):54-58.
[7]邹雨时,张士诚,张劲,等.煤粉对裂缝导流能力的伤害机理[J].煤炭学报,2012,37(11):1890-1894.
[8] Lopez-hernandez H D,Valko P P,Pham T T. Optimum fracture treatment design minimizes the impact of nonDarcy flow effects[C]. SPE 90195,2004.
[9] Marongiu-Porcu M,Economides M J,Stephen A H. Economic and physical optimization of hydraulic fracturing[J]. Journal of Natural Gas Science and Engineering,2013,14(5):91-107.
[10]Deng J,Zhu W,Ma Q. A new seepage model for shale gas reservoir and productivity analysis of fractured well[J]. Fuel,2014,124(5):232-240.
[11] Economides M J,Oligeny R. Unified fracture design[M]. Houston:(hardbound)Orsa Press,2002.
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