Study of the Transport Behavior of Multispherical Proppant in Intersecting Fracture Based on Discrete Element Method  

作　　者：Chengyong Peng JianshuWu Mao Jiang Biao Yin Yishan Lou 

机构地区：[1]CNOOC Research Institute Company Limited,Beijing,100028,China [2]School of Petroleum Engineering,Yangtze University,Wuhan,430100,China [3]Hubei Key Laboratory of Oil and Gas Drilling and Production Engineering(Yangtze University),Wuhan,430100,China

出　　处：《Energy Engineering》2025年第1期185-201,共17页能源工程（英文）

基　　金：funded by the project of the Major Scientific and Technological Projects of CNOOC in the 14th Five-Year Plan(No.KJGG2022-0701);the CNOOC Research Institute(No.2020PFS-03).

摘　　要：To analyze the differences in the transport and distribution of different types of proppants and to address issues such as the short effective support of proppant and poor placement in hydraulically intersecting fractures,this study considered the combined impact of geological-engineering factors on conductivity.Using reservoir production parameters and the discrete elementmethod,multispherical proppants were constructed.Additionally,a 3D fracture model,based on the specified conditions of the L block,employed coupled(Computational Fluid Dynamics)CFD-DEM(Discrete ElementMethod)for joint simulations to quantitatively analyze the transport and placement patterns of multispherical proppants in intersecting fractures.Results indicate that turbulent kinetic energy is an intrinsic factor affecting proppant transport.Moreover,the efficiency of placement and migration distance of low-sphericity quartz sand constructed by the DEM in the main fracture are significantly reduced compared to spherical ceramic proppants,with a 27.7%decrease in the volume fraction of the fracture surface,subsequently affecting the placement concentration and damaging fracture conductivity.Compared to small-angle fractures,controlling artificial and natural fractures to expand at angles of 45°to 60°increases the effective support length by approximately 20.6%.During hydraulic fracturing of gas wells,ensuring the fracture support area and post-closure conductivity can be achieved by controlling the sphericity of proppants and adjusting the perforation direction to control the direction of artificial fractures.

关 键 词：Hydraulic fracturing discrete element method PROPPANT SPHERICITY CFD-DEM 

分 类 号：TE3[石油与天然气工程—油气田开发工程]