Fracture Initiation and Propagation in the Hot Dry Rock Subject to the Cyclic Injection Hydraulic Fracturing Treatment

IF 1.2 4区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS Geofluids Pub Date : 2023-11-16 DOI:10.1155/2023/8859177
Yilong Yuan, Wei Wang, Jiawei Tang, Qiang Guo, Yulong Liu
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Abstract

Cyclic injection hydraulic fracturing is a promising way for the geothermal energy exploitation by reactivating the fractures in geothermal reservoir. However, fracture initiation and growth induced by cyclic injection schemes have been inadequately studied for hot dry rock (HDR), and the cyclic injection fracturing optimized often by experience. For this reason, the initiation and propagation of hydraulic fractures in the HDR under different cyclic injection methods were determined by experiment research for hydraulic fracturing. The results show that the cyclic frequency and injection rate play different roles in the stimulation of HDR. The cyclic injection with low frequency-low pressure can create more branched fractures, forming a short but complex hydraulic fracture network. However, when high flow-high frequency injection method is subjected, the branch fractures formed are significantly reduced, but each branch fracture can be fully expanded. To fully exploit the advantages of different injection methods, a numerical model that contains a fracture network was established with PFC software, and an alternating cyclic injection scheme with synergistic control of the cyclic frequency and injection rate was proposed. The comparison results indicated that the alternating cyclic injection method can effectively improve the fracturing effect in the HDR. The stimulation area of the alternating cyclic injection method is about 2.3 times and 2.7 times that of the low flow-low frequency and high flow-high frequency injection methods, respectively. The method presented here can be adopted to optimize the fracture growth regime and provide a scientific basis for EGS hydraulic fracturing design.
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干热岩石循环注入水力压裂裂缝萌生与扩展研究
通过激活地热储层裂缝,循环注入水力压裂是一种很有前途的地热能源开发方法。然而,对于热干岩(HDR),循环注入方案对裂缝的起裂和扩展的研究还不够充分,循环注入压裂的优化往往依靠经验。为此,通过水力压裂实验研究,确定了不同循环注入方式下HDR水力裂缝的起裂和扩展情况。结果表明,循环频率和注入速度对HDR的刺激有不同的作用。低频低压循环注入可形成更多分支裂缝,形成短而复杂的水力裂缝网络。而在高流量-高频注入方式下,形成的分支裂缝明显减少,但每个分支裂缝都能得到充分扩展。为了充分发挥不同注入方式的优势,利用PFC软件建立了含裂缝网络的数值模型,提出了循环频率和注入速度协同控制的交替循环注入方案。对比结果表明,交替循环注入方法可以有效改善HDR的压裂效果。交替循环注入法的增产面积分别约为低流量-低频注入法和高流量-高频注入法的2.3倍和2.7倍。该方法可用于优化裂缝发育状态,为EGS水力压裂设计提供科学依据。
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来源期刊
Geofluids
Geofluids 地学-地球化学与地球物理
CiteScore
2.80
自引率
17.60%
发文量
835
期刊介绍: Geofluids is a peer-reviewed, Open Access journal that provides a forum for original research and reviews relating to the role of fluids in mineralogical, chemical, and structural evolution of the Earth’s crust. Its explicit aim is to disseminate ideas across the range of sub-disciplines in which Geofluids research is carried out. To this end, authors are encouraged to stress the transdisciplinary relevance and international ramifications of their research. Authors are also encouraged to make their work as accessible as possible to readers from other sub-disciplines. Geofluids emphasizes chemical, microbial, and physical aspects of subsurface fluids throughout the Earth’s crust. Geofluids spans studies of groundwater, terrestrial or submarine geothermal fluids, basinal brines, petroleum, metamorphic waters or magmatic fluids.
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