A semianalytical model of fractured horizontal well with hydraulic fracture network in shale gas reservoir for pressure transient analysis

IF 9 1区 地球科学 Q1 ENERGY & FUELS
Qianchen Cui, Yu-long Zhao, Liehui Zhang, Man Chen, Shangjun Gao, Zhangxing Chen
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引用次数: 2

Abstract

Cited as: Cui, Q., Zhao, Y., Zhang, L., Chen, M., Gao, S., Chen, Z. A semianalytical model of fractured horizontal well with hydraulic fracture network in shale gas reservoir for pressure transient analysis. Advances in Geo-Energy Research, 2023, 8(3): 193-205. https://doi.org/10.46690/ager.2023.06.06 Abstract: Accurate construction of a seepage model for a multifractured horizontal well in a shale gas reservoir is essential to realizing the forecast of gas well production, the pressure transient analysis, and the inversion of the postfracturing parameters. This study introduces a method for determining the fracture control region to characterize the flow area of the matrix within the hydraulic fracture network, distinguishing the differences in the flow range of the matrix system between the internal and external regions caused by the hydraulic fracture network structure. The corresponding derivation and solution methods of the semi-analytical seepage model for fractured shale gas well are provided, followed by the application of case studies, model validation, and sensitivity analysis of parameters. The results indicate that the proposed model yields computational results that closely align with numerical simulations. It is observed that disregarding the differentiation of matrix flow area between the internal and external regions of the fracture network led to an overestimation of the estimated ultimate recovery, and the boundary-controlled flow period in typical well testing curves will appear earlier. Because hydraulic fracture conductivity can be influenced by multiple factors simultaneously, conducting a sensitivity analysis using combined parameters could lead to inaccurate results in the inversion of fracture parameters.
页岩气藏水力裂缝网络压裂水平井压力瞬态分析半解析模型
引用:崔,Q.,赵,Y.,张,L.,陈,M.,高,S.,陈,Z.页岩气藏水力裂缝网络压裂水平井压力瞬变分析半分析模型。地球能源研究进展,2023,8(3):193-205。https://doi.org/10.46690/ager.2023.06.06摘要:准确构建页岩气藏多裂缝水平井渗流模型,对于实现气井产量预测、压力瞬态分析和压裂后参数反演至关重要。本研究介绍了一种确定裂缝控制区的方法,以表征水力裂缝网络内基质的流动面积,区分水力裂缝网络结构引起的内部和外部区域基质系统流动范围的差异。给出了裂缝性页岩气井半解析渗流模型的相应推导和求解方法,并进行了实例分析、模型验证和参数敏感性分析。结果表明,所提出的模型产生的计算结果与数值模拟非常吻合。可以观察到,忽略裂缝网络内部和外部区域之间基质流动面积的差异会导致对估计的最终采收率的高估,并且典型试井曲线中的边界控制流动期会更早出现。由于水力裂缝导流能力可能同时受到多个因素的影响,使用组合参数进行敏感性分析可能会导致裂缝参数反演结果不准确。
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来源期刊
Advances in Geo-Energy Research
Advances in Geo-Energy Research natural geo-energy (oil, gas, coal geothermal, and gas hydrate)-Geotechnical Engineering and Engineering Geology
CiteScore
12.30
自引率
8.50%
发文量
63
审稿时长
2~3 weeks
期刊介绍: Advances in Geo-Energy Research is an interdisciplinary and international periodical committed to fostering interaction and multidisciplinary collaboration among scientific communities worldwide, spanning both industry and academia. Our journal serves as a platform for researchers actively engaged in the diverse fields of geo-energy systems, providing an academic medium for the exchange of knowledge and ideas. Join us in advancing the frontiers of geo-energy research through collaboration and shared expertise.
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