煤矿安全2025,Vol.56Issue(8):41-47,7.DOI:10.13347/j.cnki.mkaq.20250227
荷电液滴润湿无烟煤微观机制研究
Study on microscopic mechanism of wetting anthracite by charged droplets
摘要
Abstract
As a new type of high-efficiency dust removal method,water-mist charge-enhanced dust reduction technology has been shown to significantly improve the efficiency of coal dust management in comparison with traditional wet spray dust reduction tech-nology.However,the microscopic mechanism of the technology on coal dust capture and wetting has not yet been thoroughly ex-plained.In this study,a multi-scale approach was adopted to experimentally investigate the wetting performance of charged droplets and the electrostatic agglomeration of anthracite dust.Secondly,the molecular simulation method was employed to investigate the in-teraction mechanism between the charged droplets and anthracite from the dimensions of electronic structure calculation at the quantum mechanical level and conformational evolution at the molecular dynamics level.The findings indicate that the charged solu-tions exhibited superior wetting performance on coal dust,with the contact angle between charged droplets and coal dust showing an overall downward trend as the charging voltage increased,and the minimum contact angle and optimal wetting performance were achieved at-24 kV charging voltage.The particle size distribution of coal dust after charged spray sedimentation showed significant enlargement,with distribution trends shifting towards 100 μm,indicating the existence of electrostatic agglomeration of coal dust by charged droplets.Compared to ordinary water molecules,charged water molecules demonstrated enhanced polarity,presented uni-formly negative electrostatic potential distributions,and exhibited greater electrostatic potential differences with anthracite mo-lecules,suggesting stronger electrostatic interactions.Charged water molecules displayed higher adsorption density on anthracite sur-faces,formed more compact molecular layers,and generated increased hydrogen bond quantities within the system.Furthermore,the energy composition analysis confirmed that electrostatic effect is the dominant factor in the interaction between charged water mo-lecules and anthracite molecules.关键词
荷电液滴/增效润湿/静电吸引/分子极性/微观相互作用Key words
charged droplet/enhanced wetting/electrostatic attraction/molecular polarity/microscopic interaction分类
矿业与冶金引用本文复制引用
张宏杰,赵俞名,葛少成,赵伟智..荷电液滴润湿无烟煤微观机制研究[J].煤矿安全,2025,56(8):41-47,7.基金项目
国家自然科学基金资助项目(52174195,52274220) (52174195,52274220)
山西省基础研究计划资助项目(20220321221061) (20220321221061)
