Discussion on the key technology for fracture identification in hot dry rock reservoir
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摘要: 干热岩资源是一种储量巨大的可再生清洁能源,干热岩的开发需通过深井将高压水注入深部岩层,使其渗透进入岩层的缝隙并吸收地热能量。裂隙网络作为流体的运移通道,在干热岩热能的开采与利用方面至关重要。储层裂隙因其分布的高度非均质性、控制和影响因素的多样性等,研究工作存在难点。本文在采用物探技术和地震探测进行靶区圈定和钻孔定位、钻井过程中进行裂隙垂向精准定位、综合测井判断热储层位置以及热储质量评价、微地震判别压裂过程中的裂缝空间展布等方面,系统总结分析干热岩储层裂隙准确识别的关键技术,对提高干热岩的开采和利用效率具有指导意义。Abstract: Hot dry rock resource is a kind of renewable clean energy with huge reserves, the development of hot dry rock needs to inject high-pressure water into deep strata through deep wells, and make it penetrate into the crack of rock stratum and absorb geothermal energy. As the migration channel of fluid, fracture network is very important in the exploitation and utilization of thermal energy in hot dry rock. While the high heterogeneity of reservoir fracture distribution, and the diversity of control and influence factors lead to difficulties on the research work. In this paper, geophysical exploration technology and seismic exploration are used to delineate the target area and drill hole positioning, vertical accurate positioning of fractures during drilling, comprehensive logging to judge the location of thermal reservoir and thermal reservoir quality evaluation; and micro seismic to judge the fracture space distribution during fracturing. The key technologies for accurate identification of fractures in hot dry rock reservoirs are systematically summarized and analyzed, which has guiding significance for improving the exploitation and utilization efficiency of hot dry rock.
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