Efficient optimization framework for integrated placement of horizontal wells and hydraulic fracture stages in unconventional gas reservoirs

Xiaodan Ma, Eduardo Gildin, Tatyana Plaksina
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引用次数: 30

Abstract

Rapid advances in horizontal well drilling and hydraulic fracturing have made these technologies standard development strategies in unconventional gas reservoirs. Further improvements in these practices by means of numerical optimization of wellbore locations and hydraulic fracture (HF) stages spacing can enhance shale gas reserves and increase revenue from the unconventional projects. In order to solve these two challenges simultaneously as an integrated optimization problem, an automated framework for placement of horizontal wellbores and HF stages is developed and tested in this paper. Coupled with expert knowledge and engineering judgment, this workflow allows to produce unconventional assets economically.

This paper presents specifics of our novel optimization framework that improves the design and placement of HF stages in shale gas reservoirs and increases production and the net present value (NPV) of the projects by judicious application of numerical optimization algorithms. In particular, we test several gradient-based and gradient-free methods, namely, simultaneous perturbation stochastic approximation (SPSA), Genetic Algorithm (GA), and covariance matrix adaptation evolution strategy (CMA-ES). Application of these optimization strategies to a suite of test cases illustrates that it is not necessary to assume even spacing between HF stages because the algorithms have a capability to optimize HF stages spacing in homogeneous and heterogeneous geologic systems.

非常规气藏水平井与水力压裂段综合布置的高效优化框架
水平井钻井和水力压裂技术的快速发展使这些技术成为非常规气藏开发的标准策略。通过数值优化井筒位置和水力压裂(HF)段间距,进一步改进这些实践,可以提高页岩气储量,增加非常规项目的收益。为了同时解决这两大难题,本文开发并测试了一种水平井和高频段自动布置框架。再加上专业知识和工程判断,该工作流程可以经济地开采非常规资产。本文介绍了我们的新优化框架的具体内容,该框架通过明智地应用数值优化算法,改进了页岩气储层中HF级的设计和布置,提高了项目的产量和净现值(NPV)。我们特别测试了几种基于梯度和无梯度的方法,即同步扰动随机逼近(SPSA)、遗传算法(GA)和协方差矩阵适应进化策略(CMA-ES)。这些优化策略在一系列测试用例中的应用表明,不需要假设高频段之间的间隔均匀,因为算法能够优化均匀和非均匀地质系统中的高频段间距。
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