煤层水力压裂增透技术研究

doi:10.19286/j.cnki.cci.2024.07.031

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Abstract Aiming at the low permeability and high gas coal seam, in order to strengthen the effect of coal seam gas extraction, the influence of water injection pressure on the fracturing effect of coal seam hydraulic fracturing was simulated and analyzed, and the simulation results were verified by field test. Through simulation, the increase of water pressure promotes the fracturing effect of coal rock, and 19.5 MPa water pressure can make the coal seam produce good crack propagation effect. The field test shows that after fracturing, the initial gas emission is 4.49 times that of the natural drainage hole, the attenuation coefficient of gas flow decreases from 0.035 8 d?1 to 0.008 34 d?1, the attenuation of gas flow decreases by 76.71 %, and the maximum increase of coal seam permeability coefficient is about 44 times that of the original, indicating that the hydraulic fracturing and permeability increasing technology has a good effect on promoting drainage of coal seam.

Key words： gas extraction hydraulic fracturing water injection pressure engineering test extraction effect

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	Liang Liangdong

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Liang Liangdong. Research on hydraulic fracturing antireflection technology of coal seam[J]. CCI, 2024, 47(7): 133-136.

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http://www.mtyhg.com.cn/EN/10.19286/j.cnki.cci.2024.07.031 OR http://www.mtyhg.com.cn/EN/Y2024/V47/I7/133

[ 1 ] 丁全利，闫卫东.《中国矿产资源报告(2020)》发布[ J ]. 黑龙江自然资源，2020（ 10 ）：14 [ 2 ] 崔村丽. 我国煤炭资源及其分布特征[ J ]. 科技情报开发与经济，2011，21（ 24 ）：181 - 182，198. [ 3 ] 吴刚. 近距离煤层群上保护层开采卸压机理及瓦斯抽采技术研究[ D ]. 徐州：中国矿业大学，2015. [ 4 ] 张国华. 本煤层水力压裂致裂机理及裂隙发展过程研究[ D ]. 阜新：辽宁工程技术大学，2004. [ 5 ] 汪隆靖. 水力压裂增透技术治理瓦斯的研究与应用[ J ]. 煤炭与化工，2020，43（ 8 ）：105 - 108，112. [ 6 ] 何学秋，聂百胜. 孔隙气体在煤层中扩散的机理[ J ]. 中国矿业大学学报，2001（ 1 ）：3 - 6. [ 7 ] 祝飞，张景松，张慧杰，等. 新型煤层注水系统及现场试验效果分析[ J ]. 煤炭技术，2015，34（ 5 ）：191 - 193. [ 8 ] Zhai HL H, Zhang H, Pan D B, et al. Optimisation of hydraulic fr- acturing parameters based on cohesive zone method in oil shale reservoir with random distribution of weak planes[ J ]. Journal of Natural Gas Science and Engineering, 2020, 75: 1 - 13. [ 9 ] 李应平. 利用煤炭地下气化技术开发高硫无烟煤资源[ J ]. 煤炭技术，2003（ 4 ）：90 - 92. [ 10 ] Zhang K Z, Tong, Zhao J H, Liu Y, et al. Evolution and managem- ent of thick-hard roof using goaf-based multistage hydraulic fracturing technology-a case study in western Chinese coal field[ J ]. Arabian Journal of Geosciences, 2021, 14( 10 ): 113 - 121. [ 11 ] 贾进章，柯丁琳，李斌. 液态CO2爆破钻孔布置参数优化[ J ]. 辽宁工程技术大学学报（自然科学版），2021，40（ 2 ）：97 - 103.1 [ 12 ] 李川，吕英华，梁文勖. 超高压水力割缝卸压增透最优参数研究[ J ]. 煤炭工程，2022，54（ S1 ）：111 - 115.