3-D Fracture propagation simulation and production prediction in coalbed

TE351.1; In accordance with the fracturing and producing mechanism in coalbed methane well, and combining the knowledge of fluid mechanics, linear elastic fracture mechanics,thermal transfer, computing mathematics and software engineering, the three-dimensional hydraulic fracture propagating and dyn...

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Veröffentlicht in:	Applied mathematics and mechanics 2001-04, Vol.22 (4), p.385-393
Hauptverfasser:	Da-li, Guo, Lu-jun, Ji, Jin-zhou, Zhao, Ci-qun, Liu
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container_title	Applied mathematics and mechanics
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creator	Da-li, Guo Lu-jun, Ji Jin-zhou, Zhao Ci-qun, Liu
description	TE351.1; In accordance with the fracturing and producing mechanism in coalbed methane well, and combining the knowledge of fluid mechanics, linear elastic fracture mechanics,thermal transfer, computing mathematics and software engineering, the three-dimensional hydraulic fracture propagating and dynamical production predicting models for coalbed methane well is put forward. The fracture propagation model takes the variation of rock mechanical properties and in-situ stress distribution into consideration. The dynamic performance prediction model takes the gas production mechanism into consideration. With these models, a three-dimensional hydraulic fracturing optimum design software for coalbed methane well is developed, and its practicality and reliability have been proved by example computation.
doi_str_mv	10.1007/BF02438304
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The fracture propagation model takes the variation of rock mechanical properties and in-situ stress distribution into consideration. The dynamic performance prediction model takes the gas production mechanism into consideration. 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title	3-D Fracture propagation simulation and production prediction in coalbed
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