AEO3润湿褐煤性能及机理

Wettability and mechanism of AEO3 for lignite wetting

  • 摘要: 为探究非离子表面活性剂脂肪醇聚氧乙烯醚(AEO3)对褐煤的润湿性能及润湿机理,采用实验与模拟相结合的方法开展研究。利用表面张力和接触角评估AEO3润湿褐煤性能,实验结果显示,AEO3溶液浓度逐渐增加到1.37×10−6 mol/L时,表面张力可由71.97 mN/m降为26.38 mN/m,接触角由73.35°降为28.43°。AEO3溶液临界胶束浓度(CMC)为2.80 mmol/L,在达到CMC前,AEO3降低水溶液表面张力和接触角的能力随浓度增加而增加。利用高速摄像技术,开展了液滴撞击实验,引入无量纲展铺系数以表征液滴撞击煤时液滴形态变化。分析得出液滴展铺过程发生动能、表面能、黏性耗散和摩擦耗散之间的动态转换。提高液滴撞击速度、合理添加AEO3能够增大溶液在煤表面展铺面积,缩短润湿时间,利于提高润湿效果。使用Materials Studio软件,通过量子化学方法计算实验材料分子的静电势,并与润湿性进行关联分析,得出褐煤分子和AEO3分子表面最大静电势大于水分子,水分子更容易被吸附,进而表现出润湿现象。通过分子动力学模拟,研究平衡状态时体系中分子相对浓度分布、均方位移及相互作用能,结果显示AEO3作为水分子吸附载体,可以增大水分子在褐煤表面相对浓度,限制水分子扩散,强化水/AEO3/褐煤体系分子间相互作用,提高溶液润湿性能。

     

    Abstract: To explore the wettability and wetting mechanism of a non-ionic surfactant, fatty alcohol polyoxyethylene ether AEO3, on lignite, some experimental and simulation methods were applied in this study. The surface tension and contact angle were used to evaluate the AEO3 wetting performance on lignite. The experimental results show that when the concentration of AEO3 solution gradually increased to 1.37×10−6 mol/L, the surface tension was reduced from 71.97 mN/m to 26.38 mN/m and the contact angle was decreased from 73.35° to 28.43°. The critical micelle concentration (CMC) of an AEO3 solution was 2.80 mmol/L. Before reaching the CMC, the ability of AEO3 to reduce the surface tension and contact angle of an aqueous solution increased with the increase of its concentration. The high-speed camera technology was used to carry out the droplet impact experiment and the dimensionless spreading coefficient was introduced to characterize the droplet shape change when it impacted the coal. The dynamic transformation between kinetic energy, surface energy, viscous dissipation, and friction dissipation occurs in the droplet spreading process. Increasing the droplet impact velocity and adding AEO3 reasonably can increase the spreading area of the solution on the coal surface, shorten the wetting time, and improve the wetting effect. Using the Materials Studio software, the electrostatic potential of experimental material molecules was calculated through the quantum chemistry method and a correlation analysis was conducted with wettability. The results show that the maximum electrostatic potential of lignite molecules and AEO3 molecules is greater than the electrostatic potential of water molecules. Water molecules are easier to be adsorbed, thus showing a wetting phenomenon. Through the molecular dynamics simulation and study, the relative concentration distribution, mean square displacement, and interaction energy of molecules in the system are at an equilibrium state. The results show that AEO3, as a water molecule adsorption carrier, could increase the relative concentration of water molecules on the surface of lignite, limit the diffusion of water molecules, strengthen the interaction between molecules in the water/AEO3/lignite system, and improve the wettability of solution.

     

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