项目名称: 含煤层气储层物性与压裂液微观特性动态耦合作用机理研究
项目编号: No.41302124
项目类型: 青年科学基金项目
立项/批准年度: 2014
项目学科: 天文学、地球科学
项目作者: 曹函
作者单位: 中南大学
项目金额: 24万元
中文摘要: 压裂法是地面开采低渗、低孔、低压煤层中煤层气的有效手段之一,通过沟通煤岩层中天然裂隙系统且连通至井孔,提高储层产气能力。在改善储层渗透性的前提下又能降低压裂液对储层的伤害,从而保证气体导流通道的畅通是提高采气量的关键所在。 本项目基于渗流力学、土力学、热力学经典理论,采用数值模拟和实验相结合的方式,建立渗流场/应力场/温度场(H+M+T)耦合作用下压裂液侵入煤岩层的数学模型;采用T+F (TOUGH2+FLAC3D) 耦合数值模拟方式分析多场多相作用下煤岩层各物性参数之间的关联;通过压裂过程综合渗流模拟试验,掌握煤岩层宏观力学表现随压裂液侵入的动态响应特征;根据压裂液微观结构(SEM)实验,分析压裂液侵入前后其传热传质和流变性特征。从而揭示煤岩层物性与压裂液微观结构的宏观表现之间的耦合规律。本研究对提高煤层气采收率具有重要的理论意义,同时也可为煤岩层井壁稳定性、测井响应提供理论指导。
中文关键词: 煤层气储层;物性;压裂液;微观特性;动态耦合
英文摘要: Hydraulic fracturing is an effective method to extract coalbed methane by clearing the crack system and well bore from the coal reservoir with low permeability, low porosity and low pressure on the surface. The key issue to ensure the open path for increasing gas production is to take account of reservoir damage as well as improve permeability of formation. Based on classic theories of hydrological mechanics, soil mechanics, thermodynamics, numerical simulation and experiments were adopted in this research project to build the mathematic model of coupling hydrological field/ stress field/ thermal field for fracturing fluid invasion process. T+F (TOUGH2+FLAC3D) numerical simulation was applied to analyze response law of geomechanical behaviors under the effect of multi-field coupling, also the synthetical seepage simulation test for hydraulic fracturing was developed to master the dynamic response of macro-mechanical performances, and performance of heat and mass transfer, rheological property was analyzed by fracturing fluid (SEM) before test and after fracturing fluid invasion, and reveal the coupling law between the geomechanical behaviors of formation and microstructure of fracturing fluid. The research has an important significance of theory for increasing recovery efficiency, and also to be a theory gui
英文关键词: Coalbed methane reservoir;Geomechanical behaviors;Fracturing fluid;Microcosmic properties;Dynamic coupling