Abstract
This study employs Computational Fluid Dynamics (CFD) method to simulate particle transport in supercritical carbon dioxide fracturing. A dynamic leak-off model is integrated into the Eulerian-Eulerian two-fluid model. It systematically examines the transport of different-sized proppants in intersected fractures with leak-off and investigates the effects of proppant size, bypass fracture width, inter-fracture angle, and pumping schedule on the proppant distribution. Results show that the proppant split ratio increases with an increase in bypass fracture width and inter-fracture angle. Injecting larger-sized proppants before smaller-sized proppants can enhance the proppant bed length and height while reducing the proppant split ratio.
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