Dynamic pore wetting plays a major role in the flotation of porous mineral particles.However,the role of chemical properties of the liquids in dynamic pore wetting is not systematically studied.This paper studied the ...Dynamic pore wetting plays a major role in the flotation of porous mineral particles.However,the role of chemical properties of the liquids in dynamic pore wetting is not systematically studied.This paper studied the dynamic pore wetting process of the porous carbon particles by 10 g/L NaOL solution and nhexadecane at different wetting times using a'H low-field nuclear magnetic resonance(LF-NMR).The mechanism of chemical groups of liquids affecting the pore wetting percentage and floatability of porous particles was revealed by FTIR,zeta potential,contact angle,and particle-bubble attachment tests.The results displayed that the pore wetting percentage of the particles wetted by NaOL solution was larger than that by n-hexadecane except for mesopores.Compared with the raw sample,the surface potential of the particles wetted by n-hexadecane was decreased and that by NaOL solution were negative.The NaoL,as an amphiphilic reagent contained some hydrophobic and hydrophilic functional groups,which was different from the n-hexadecane.The NaOL molecule could be easily adsorbed into the particles by electrostatic interaction compared with n-hexadecane,achieving a better surface hydrophobicity of the particles.Thus,the floatability of porous carbon particles wetted by NaOL solution was larger than that by n-hexadecane.展开更多
基金supported by the National Natural Science Foundation of China(grant No.52404286)Open Foundation of Key Laboratory of Coal Processing and Efficient Utilization of Ministry of Education,Central Guidance Local Scientific and Technological Development Funds(grant No.202407AB110022)Yunnan Provincial Science and Technology Project at Southwest United Graduate School(grant No.202302A0370002).
文摘Dynamic pore wetting plays a major role in the flotation of porous mineral particles.However,the role of chemical properties of the liquids in dynamic pore wetting is not systematically studied.This paper studied the dynamic pore wetting process of the porous carbon particles by 10 g/L NaOL solution and nhexadecane at different wetting times using a'H low-field nuclear magnetic resonance(LF-NMR).The mechanism of chemical groups of liquids affecting the pore wetting percentage and floatability of porous particles was revealed by FTIR,zeta potential,contact angle,and particle-bubble attachment tests.The results displayed that the pore wetting percentage of the particles wetted by NaOL solution was larger than that by n-hexadecane except for mesopores.Compared with the raw sample,the surface potential of the particles wetted by n-hexadecane was decreased and that by NaOL solution were negative.The NaoL,as an amphiphilic reagent contained some hydrophobic and hydrophilic functional groups,which was different from the n-hexadecane.The NaOL molecule could be easily adsorbed into the particles by electrostatic interaction compared with n-hexadecane,achieving a better surface hydrophobicity of the particles.Thus,the floatability of porous carbon particles wetted by NaOL solution was larger than that by n-hexadecane.
