首页|期刊导航|煤矿安全|新型负压-喷雾装置雾化特性与降尘性能研究

新型负压-喷雾装置雾化特性与降尘性能研究OA

Research on atomization characteristics and dust suppression performance of a new negative-pressure spraying device

中文摘要英文摘要

为了解决综采工作面粉尘逸散的问题,基于康达效应原理,设计了一种新型负压-喷雾降尘装置,其不仅能对采煤机滚筒产尘进行有效覆盖,同时装置本身产生的抽吸效应也能够收集巷道中的逸散粉尘.利用CFD(Computational Fluid Dynamics,计算流体动力学)对采煤机工作面风流场和雾滴特性进行数值分析,通过正交试验研究了喷嘴孔径(A)、喷雾压力(B)、安装角度(C)、负压装置压力(D)对装置雾化特性及抽吸效应的影响.结果表明:影响雾滴粒径因素的重要性顺序为B>D>C>A,影响抽吸速度因素的重要性顺序为D>C>B>A;随着喷雾压力的增加,雾滴粒径分布越来越集中,有助于雾滴细化现象的产生;对于雾滴质量浓度,较大的喷嘴孔径有助于形成较高质量浓度的雾滴场,而喷雾压力对雾滴质量浓度的影响较小;负压装置压力对雾滴速度有显著影响,随着负压装置压力增大,雾滴速度增加,喷雾压力变化对雾滴速度影响较小.综合分析得出最佳参数组合为:喷嘴孔径(A)2.4 mm、喷雾压力(B)8 MPa、安装角度(C)0°、负压装置压力(D)0.2 MPa,此时在雾滴粒径分布、雾滴速度、降尘效果方面表现最佳,抽吸风量可达360 m3/min,装置可达到最佳降尘效果.对比使用新型负压-喷雾降尘装置前后的降尘效果,发现在采煤机上应用降尘装置不仅对滚筒产尘源具有较好的包裹性,而且可以引导巷道气流,减少气流携带粉尘向工作区域扩散.

To address the issue of dust dispersion in fully mechanized mining faces,a novel negative pressure-spraying dust suppres-sion device based on the principle of the Coanda effect was designed.This device not only effectively covers the dust generated by the shearer drum but also utilizes the suction effect generated by the device itself to collect the dispersed dust in the tunnel.Computa-tional fluid dynamics(CFD)was used to conduct numerical analysis of the airflow field and droplet characteristics in the shearer working face.An orthogonal experiment was performed to investigate the effects of nozzle aperture(A),spraying pressure(B),in-stallation angle(C),and negative pressure device pressure(D)on the atomization characteristics and suction effect of the device.The results indicate that the importance order of the factors influencing droplet size is B>D>C>A,and the importance order of the factors influencing suction velocity is D>C>B>A.As the spraying pressure increases,the droplet size distribution becomes in-creasingly concentrated,which promotes droplet refinement.For droplet mass concentration,a larger nozzle aperture helps form a higher mass concentration droplet field,while spraying pressure has a minimal effect on droplet mass concentration.The pressure of the negative pressure device significantly affects droplet velocity;as the negative pressure device pressure increases,the droplet velo-city increases,while changes in spraying pressure have little effect on droplet velocity.Comprehensive analysis revealed that the op-timal parameter combination for droplet size distribution,droplet velocity,and dust suppression performance is:nozzle aperture(A)of 2.4 mm,spraying pressure(B)of 8 MPa,installation angle(C)of 0°,and negative pressure device pressure(D)of 0.2 MPa.Un-der these conditions,the suction airflow can reach 360 m3/min,and the device achieves optimal dust suppression performance.A comparison of the effectiveness of dust suppression device before and after its application on the shearer shows that the device not only effectively encapsulates the dust source from the drum but also guides the airflow in the tunnel,reducing the diffusion of dust into the working area.

李亚行;闫红红;郑贺;张宏;袁利才

太原科技大学 机械工程学院,山西 太原 030024太原科技大学 机械工程学院,山西 太原 030024太原科技大学 机械工程学院,山西 太原 030024太原科技大学 机械工程学院,山西 太原 030024山西天地赛福蒂科技有限公司,山西 太原 030024

矿业与冶金

负压-喷雾降尘粉尘防治粉尘逸散康达效应风流场雾化特性抽吸速度

negative pressure-spray dust reductiondust prevention and controldust dispersionCoanda effectairflow fieldatom-ization characteristicssuction velocity

《煤矿安全》 2026 (1)

209-217,9

山西省重点研发计划资助项目(202202100401021)

10.13347/j.cnki.mkaq.20250329

评论