外旋射流破煤成孔过程及煤渣粒径分析

    Coal Holes Forming Principle of Rotary Jets and Analysis of Coal Cinder Particle Size

    • 摘要: 为研究外旋射流成孔过程及破煤后煤渣粒径分布,根据最大拉应变理论和最大切应力理论,分析煤在剪应力和拉应力作用下的破坏准则。基于强度3.65 MPa,弹性模量185 MPa,尺寸1 m×0.8 m×0.8 m的煤相似材料,进行不同泵压下的外旋射流破煤实验;收集煤破坏后的渣体,进行粒径分析实验。结果表明:外旋射流破煤钻进速度与成孔孔径随泵压的增大而增大;在成孔过程中,前向射流破煤成孔,后向射流提供钻进力,煤破坏主要以拉应力破坏和剪应力破坏为主。煤破坏后煤渣粒径分布区间为84~1 061 μm,泵压越大,破碎后的煤体粒度越小。

       

      Abstract: In order to study the pore-forming process of the rotary jet and the particle size distribution of the coal cinder after breaking coal. According to the theory of maximum tensile strain and the theory of maximum shear stress, the failure criterion of coal under shear stress and tensile stress is obtained. Based on the strength of 3.65 MPa, elastic modulus of 185 MPa, size of 1 m×0.8 m×0.8 m coal similar material, the coal breaking experiment under different pump pressures was carried out; the coal cinder from broken coal was collected and the particle size analysis experiment was carried out. The results show that the external drilling jet breaks the coal drilling speed and the pore diameter increases with the increase of the pump pressure. In the pore-forming process, the forward jet breaks the coal, the backward jet reams, and the failure of coal is mainly caused by tensile stress and shear stress. The coal cinder particle size distribution is from 84 μm to 1 061 μm. The larger the pump pressure, the smaller the particle size of the coal cinder.

       

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