Team:British Columbia/ProjectBiomining

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Removing
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Through this problem, there is precedence in pre-separating arensic-containing minerals at earlier stages
It would be more economically and environmentally beneficial to remove the minerals containing arsenic at an earlier stage such as during flotation. Their separation is nevertheless difficult as they generally have similar flotation behaviour to the valuable minerals with which they are associated. This is the case in separating arsenopyrite (FeAsS) from pyrite, or removing enargite (Cu3AsS4) and tennantite (Cu12As4S13) from covellite (CuS), chalcocite (Cu2S) and chalcopyrite (CuFeS2). Apart from arsenopyrite, the amount of literature dealing with the separation of arsenic minerals is scarce. One of the potential separation methods relies on the selective oxidation of sulfide minerals due to differences in their electrochemical properties (e.g., Tolley et al., 1996, Byrne et al., 1995, Kydros et al., 1993, Wang et al., 1992, Beattie and Poling, 1988, Guongming and Hongen, 1989 and Chander, 1985). Oxidation can promote the adsorption of collectors, such as xanthate, at low to moderate levels of oxidation, or prevent their adsorption at high levels of oxidation by creating a physical barrier of oxidation products for their diffusion to the mineral surface.
It would be more economically and environmentally beneficial to remove the minerals containing arsenic at an earlier stage such as during flotation. Their separation is nevertheless difficult as they generally have similar flotation behaviour to the valuable minerals with which they are associated. This is the case in separating arsenopyrite (FeAsS) from pyrite, or removing enargite (Cu3AsS4) and tennantite (Cu12As4S13) from covellite (CuS), chalcocite (Cu2S) and chalcopyrite (CuFeS2). Apart from arsenopyrite, the amount of literature dealing with the separation of arsenic minerals is scarce. One of the potential separation methods relies on the selective oxidation of sulfide minerals due to differences in their electrochemical properties (e.g., Tolley et al., 1996, Byrne et al., 1995, Kydros et al., 1993, Wang et al., 1992, Beattie and Poling, 1988, Guongming and Hongen, 1989 and Chander, 1985). Oxidation can promote the adsorption of collectors, such as xanthate, at low to moderate levels of oxidation, or prevent their adsorption at high levels of oxidation by creating a physical barrier of oxidation products for their diffusion to the mineral surface.

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2014 UBC iGEM

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