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Environmental Earth Sciences

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01-11-2017 | Original Article

A coupling algorithm for simulating multiple hydraulic fracture propagation based on extended finite element method

Authors: Xiao-Gang Li, Liang-Ping Yi, Zhao-Zhong Yang, Chang-yin Liu, Ping Yuan

Published in: Environmental Earth Sciences | Issue 21/2017

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Abstract

Combining fluid mechanics, fracture mechanics, and extended finite element method, a coupling algorithm for simulating multiple hydraulic fracture propagation is established in this research. In comparison with the current existing XFEM models for hydraulic fracturing, this approach neither needs to introduce leak-off coefficient to describe the fluid leak-off phenomenon, nor requires to predetermine fracture propagation orientation. The single-fracture propagation results obtained from our numerical model and semi-analytical (KGD) solution show similar trends. Based on our numerical model, the effect of cluster space on multiple hydraulic fractures propagate in the horizontal well is discussed. Simulation shows that the stress interference among the fractures decreases with the increase in cluster space, and the average width of fractures increases with an increase in cluster space, the fracture width at the fracture inflection point may have a local minima value, which can lead to proppant screen out; therefore, in fracturing design, designer should use the quartz sand with smaller particle size as the slug to grind fracture. Since bottom and top fracture are interfered by the middle fracture, they are both away from the middle fracture, while middle fracture extends in straight line due to the symmetry of stress interference. At the beginning, the pressure at the fracture entrance increases with increase in injection time, and then the pressure decreases rapidly as the injection time increases.

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Title: A coupling algorithm for simulating multiple hydraulic fracture propagation based on extended finite element method
Authors: Xiao-Gang Li
Liang-Ping Yi
Zhao-Zhong Yang
Chang-yin Liu
Ping Yuan
Publication date: 01-11-2017
Publisher: Springer Berlin Heidelberg
Published in: Environmental Earth Sciences / Issue 21/2017
Print ISSN: 1866-6280
Electronic ISSN: 1866-6299
DOI: https://doi.org/10.1007/s12665-017-7092-9

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