高压电脉冲在页岩气开采中的压裂实验研究

基于液电效应原理, 采用高压电脉冲放电对模拟岩样及实际砂岩岩样进行了压裂实验研究。脉冲电源最大储能40 kJ/20 kV, 放电电流最高可达70 kA。实验结果表明, 高压电脉冲能够在岩样中造成非常明显的裂缝, 可以在多个方向上造出多条具有一定高度(最大0.32 m)的裂缝, 近井筒裂缝无明显的扭曲, 裂缝的形态与放电电压、能量及放电次数有关。对模拟岩样压裂后产生的裂缝进行了三维形貌分析, 得到裂缝的表面平均粗糙度在0.430~1.075 mm之间, 具有一定的导流能力。

Abstract

Based on the “electro-hydraulic effect”, rock fracture experiments were conducted on the artificial rock samples and the real sandstone samples. A pulsed power supply with a stored energy of 40 kJ/20 kV was developed. Experimental results show that large multi-fractures could be generated, the maximum length of the fracture in the vertical direction was 0.32 m. The shape of the fracture is related to the stored energy, the discharge voltage, the discharge times and the rock mechanical parameters. The 3-D morphology analyzer was used to observe the surface configuration of the fracture. The fractures have no obvious tortuosity in the near borehole area, and all the fractures generated by the pulsed discharge have certain average roughness in the range of 0.430-1.075 mm, which are capable of forming conductivity ability.

参考文献

[1] 石崇兵, 李传乐. 高能气体压裂技术的发展趋势[J]. 西安石油学院学报, 2000, 15(5): 17-21. (Shi Chongbing, Li Chuanle. Development tendency of high energy gas fracturing technique. Journal of Xi’an Petroleum Institute, 2000, 15(5): 17-21)

[2] 张保平, 方竞, 田国荣, 等. 水力压裂中的近井筒效应[J]. 岩石力学与工程学报, 2004, 23(14): 2476-2479. (Zhang Baoping, Fang Jing, Tian Guorong, et al. Near wellbore effects in hydraulic fracturing. Chinese Journal of Rock Mechanics and Engineering, 2004, 23(14): 2476-2479)

[3] 周健, 陈勉, 金衍, 等. 裂缝性储层水力裂缝扩展机理试验研究[J]. 石油学报, 2007, 28(5): 109-113. (Zhou Jian, Chen Mian, Jin Yan, et al. Experimental study on propagation mechanism of hydraulic fracture in naturally fractured reservoir. Acta Petrolei Sinica, 2007, 28(5): 109-113)

[4] 秦曾衍, 左公宁, 王永荣, 等. 高压强脉冲放电及其应用[M]. 北京: 北京工业大学出版社, 2000: 1-8.(Qin Cengyan, Zuo Gongning, Wang Yongrong, et al. High voltage pulse discharge and its application. Beijing: Beijing University of Technology Press, 2000: 1-8)

[5] 周健, 蒋廷学, 张保平, 等. 高能电弧脉冲压裂技术初探[J]. 石油钻探技术, 2014, 42(3): 76-79. (Zhou Jian, Jiang Tingxue, Zhang Baoping, et al. Preliminary study on high energy pulsed arc fracturing. Petroleum Drilling Techniques, 2014, 42(3): 76-79)

[6] Cipolla C L, Lolon E P, Ceramics C, et al. Fracture design considerations in horizontal wells drilled in unconventional gas reservoirs[C]//SPE Hydraulic Fracturing Technology Conference. 2009: 119366.

[7] Ivensky G, Kats A, Ben-Yaakov S. A novel RC model of capacitive-loaded parallel and series-parallel resonant DC-DC converters[C]//The 8th IEEE Power Electronics Specialists Conference. 1997: 958-964.

[8] Rutgers W R, de Jong I. Multi-tip sparker for the generation of acoustic pulses[J]. Sensor Review, 2003, 23(1): 55-59.

[9] 邵建设, 严萍. 高压电容器充电电源谐振变换器的定频控制[J]. 高电压技术, 2006, 32(11): 107-110. (Shao Jianshe, Yan Ping．Constant switching frequency control of resonant converter of high voltage capacitor charging power supply. High Voltage Engineering, 2006, 32(11): 107-110)

[10] Biebach J, Ehrhart P, Muller A, et al. Compact modular power supplies for superconducting inductive storage and for capacitor charging[J]. IEEE Trans Magn, 2001, 37(1): 353-357.

[11] 尚雷, 王相纂. 新型软开关高压脉冲电容恒流充电技术分析[J]. 强激光与粒子束, 2001, 13(2): 241-244.(Shang Lei, Wang Xiangqi. Study of new type, soft-switching capacitor charging techniques. High Power Laser and Particle Beams, 2001, 13(2): 241-244)

[12] Biebach J, Ehrhart P, Muller A, et al.Compact modular power supplies for superconducting inductive storage and for capacitor charging[J]. IEEE Trans Magn, 2001, 37(1): 353-357.

[13] Barry C Pollard, Nelms RM．Using the series parallel resonant converter in capacitor charging application[C]//The 7th Applied Power Electronics Conference and Exposition. 1992: 245-252.

[14] 苏建仓, 王利民, 丁永忠, 等. 串联谐振充电电源分析与设计[J]. 强激光与粒子束, 2004, 16(12): 1611-1614.(Su Jiancang, Wang Limin, Ding Yongzhong, et al. Analysis and design of series resonant charging power supply. High Power Laser and Particle Beams, 2004, 16(12): 1611-1614)

[15] Nelms R M, Schatz J E. A capacitor charging power supply utilizing a Ward converter[J]. IEEE Transactions on Industrial Electronics, 1992, 39(5): 421-428.

[16] 高迎慧, 孙鹞鸿, 严萍, 等. 40 kW高功率密度数字化控制充电电源[J]. 强激光与粒子束, 2009, 21(8): 1259-1262.(Gao Yinghui, Sun Yaohong, Yan Ping, et al. 40 kW digital control capacitor charging power supply. High Power Laser and Particle Beams, 2009, 21(8): 1259-1262)

付荣耀, 孙鹞鸿, 樊爱龙, 高迎慧, 严萍, 周健. 高压电脉冲在页岩气开采中的压裂实验研究[J]. 强激光与粒子束, 2016, 28(7): 079001. Fu Rongyao, Sun Yaohong, Fan Ailong, Gao Yinghui, Yan Ping, Zhou Jian. Research of rock fracturing based on high voltage pulse in shale gas drilling[J]. High Power Laser and Particle Beams, 2016, 28(7): 079001.

高压电脉冲在页岩气开采中的压裂实验研究

关于本站 Cookie 的使用提示

全站搜索

高压电脉冲在页岩气开采中的压裂实验研究

相关论文

相关资讯

关于本站 Cookie 的使用提示

全站搜索