2015
DOI: 10.2118/169866-pa
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Investigating the Effect of Improved Fracture Conductivity on Production Performance of Hydraulically Fractured Wells: Field-Case Studies and Numerical Simulations

Abstract: Unconventional reservoirs require extensive hydraulic-fracturing treatments to produce fluids economically and efficiently. The main purpose of such treatments is to create complex fracture networks with high-conductivity paths deeper into the nonstimulated reservoir regions. Proppants play an important role in maintaining good-quality fracture conductivities, which then greatly affect long-term production performance. In addition, research on proppants has shown a reduction in conductivities under downhole st… Show more

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Cited by 66 publications
(8 citation statements)
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“…According to recent EIA report, 43 billion cubic feet of gas per day is produced from shales in the US1. Hydraulic fracturing in shale formations is often associated with complex fracture networks23456. The occurrence of complex non-planar fracture network is much more common than initially anticipated, especially in unconventional reservoirs6.…”
mentioning
confidence: 99%
“…According to recent EIA report, 43 billion cubic feet of gas per day is produced from shales in the US1. Hydraulic fracturing in shale formations is often associated with complex fracture networks23456. The occurrence of complex non-planar fracture network is much more common than initially anticipated, especially in unconventional reservoirs6.…”
mentioning
confidence: 99%
“…Another shortcoming is that such Cartesian grids cannot effectively represent complex and non-planar fracture networks. The latter can be better captured using unstructured grids to define Voronoi cells [29,45,46]. Some gains in computational time can be achieved using coarse scale parameters from numerical homogenization to upscale the non-transient regions in the reservoir model [47].…”
Section: Discrete Fracture Network Models and Limitationsmentioning
confidence: 99%
“…In the present study, there exist a number of investigation on injection pipeline and measurement and adjustment technology, but few on segment number determination, layer combination way and water injection quantity optimization for each segment (Wang 2012;Sun 2015aSun , 2015b. Yuan (2006) applied SVM (Support Vector Machine) method on water injection technology, and the effect prediction model was established.…”
Section: Separate Zone Water Injectionmentioning
confidence: 99%