Experimental investigations on the removal of Cu（II） from aqueous solution were carried out through various foam separation techniques; foam fractionation, precipitate flotation, and adsorbing colloid flotation using sodium lauryl sulfate as collector.
The optimum pH for Cu（II） removal was found to be in the range of pH less than 6 for the foam fractionation, to be about 9 for the precipitate flotation, about 7 for the adsorbing colloid flotation with Fe(OH)₃ and about 8 for the adsorbing colloid flotation with Al(OH)₃.
The working ranges of pH （6.5-9.0） for an effective removal of Cu(II) could be extended by the addition of Al(III) on adsorbing colloid flotation with Fe(OH)₃. The effective removal of copper(II) could be achieved by adsorbing colloid flotation due to coprecipitation and carrier flotation at lower pH than by precipitate flotation.