Characteristic-Time Concept in Hydraulic Fracture Configuration Evolution and Optimization (includes associated papers 23551 and 23552 )

Spe Production Engineering Pub Date : 1991-08-01 DOI:10.2118/19000-PA
T. Lee, S. Advani, J. M. Avasthi
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引用次数: 4

Abstract

This paper introduces the concept of characteristic time as a measure to separate and to optimize the roles of Griffith surface energy and fracture-fluid dissipation energy during hydraulic fracture evolutions. The analysis reveals two separate sets of solutions that correspond to two distinct time regimes of hydraulic fracture propagation: a dominant fluid dissipation energy and a dominant fracture surface energy regime. Each influence domain is governed by a characteristic time and demarcated by a transition region, where the energy contributions of each are of the same order of magnitude. Verification of the theoretical response trends and the use of the characteristic-time concept as a design tool are also presented.
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水力裂缝形态演化与优化中的特征时间概念(包括相关论文23551和23552)
本文引入特征时间的概念,作为分离和优化格里菲斯表面能和裂缝流体耗散能在水力裂缝演化过程中的作用的度量。分析揭示了两组不同的解,对应于水力裂缝扩展的两种不同时间状态:流体耗散能的主导状态和裂缝表面能的主导状态。每个影响域由特征时间控制,并由过渡区域划分,其中每个影响域的能量贡献具有相同的数量级。验证了理论响应趋势和使用特征时间概念作为设计工具也提出了。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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Spe Production Engineering
Spe Production Engineering
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