液氮循环致裂技术强化煤层气抽采的研究与应用展望

Research on cyclic liquid nitrogen fracturing technology for enhancing coalbed methane drainage and its application prospect

  • 摘要: 水力压裂技术在强化煤层致裂、提高煤层气抽采效率方面广泛应用,但存在耗水量大、压裂液易污染环境等问题,难以在富含煤层气的缺水地区应用。基于常规液氮压裂技术,通过改变液氮单次注入方式,提出了液氮循环致裂技术,并对该技术用于强化煤层气抽采进行了展望。该技术采用液氮循环注入方式,使得液氮持续充填不断扩展的裂隙空间,形成复杂的裂隙网络。其致裂煤岩机理为循环累积损伤、低温致裂及气体致裂三者耦合作用机制:① 在液氮循环注入过程中,不同类型组配颗粒间出现不同程度的变形响应,不断累积的颗粒间损伤在一定程度上劣化煤体局部区域的抗压强度,导致新生裂隙的衍生及原生孔隙扩容。② 液氮对煤岩的冷冲击导致煤岩内部结构发生断裂,产生大量微裂隙,并使其随着液氮循环注入不断扩展和导通,同时液氮的低温作用导致的水冰相变过程能进一步破坏煤岩内部结构。③ 液氮汽化产生的高压气体使得煤岩体积重复性地扩展-收缩,进一步促使裂隙发育和导通。液氮循环致裂技术以液氮为压裂介质,极大缓解了对水资源的依赖,对环境无污染,可用于煤层气抽采等领域。

     

    Abstract: Hydraulic fracturing technology is widely used in fracturing coal seam and improving efficiency of coalbed methane drainage, but due to large water consumption, environment pollution by fracturing fluid and other problems, it is difficult to be used in water-deficient areas where are rich in coalbed methane. Based on conventional liquid nitrogen fracturing technology, a cyclic liquid nitrogen fracturing technology is proposed through altering the single injection mode of liquid nitrogen, and application of the technology in enhancing coalbed methane drainage is prospected. The technology uses cyclic injection mode of liquid nitrogen, which can make liquid nitrogen to fulfill micro-crack space continuously, so as to form complex crack networks. The principle of fracturing coal-rock of the technology is coupling mechanism of cyclic cumulative damage, low temperature fracturing and gas fracturing: ① During cyclic injection process of liquid nitrogen, different deformation responses appear among grains with different collocation, and accumulated damages among grains could weaken coal body strength of pressure resistance in local area to some degree, so as to generate new cracks and extend the primary cracks. ② Cold shock of liquid nitrogen to coal-rock leads to break of inner structure of coal-rock, so a large number of micro-cracks are generated and continuously extended with cyclic injection of liquid nitrogen. Meanwhile, water-ice phase transition caused by low temperature property of liquid nitrogen could further damage inner structure of coal-rock. ③ The generated high-pressure gas by vaporization of liquid nitrogen could make coal-rock volume to repeatedly extend and shrink, which further enhances growth and connection. Cyclic liquid nitrogen fracturing technology, which takes liquid nitrogen as fracturing fluid, greatly relieves dependence on water resources, and has no pollution to environment. The technology can be applied in coalbed methane drainage.

     

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