Role of diethylene triamine (DETA) in pentlandite-pyrrohitite separation: part 1: complexation of metals with DETA

The Institute of Materials, Minerals and Mining

S. Kelebek Zhenghe Xu J. A. Finch S. R. (Ram) Rao

Organization:: The Institute of Materials, Minerals and Mining
Pages:: 6
File Size:: 3656 KB
Publication Date:: Jun 19, 1905

Abstract

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To improve SO2 emission compliance, pyrrhotite from Sudbury copper-nickel ores is being depressed with DETA. To understand the mechanism of depression, the role of complexing in controlling metal-ion activation of pyrrhotite was investigated. DETA was found to remove Cu and Ni ions but leave hydrophilic ferric species on the pyrrhotite surface. The metal:DETA ratio appeared to be 1:2. Cu was more readily removed than Ni, but the combination of DETA with sulphur dioxide was equally effective for both metal ions. Certain combinations of DETA, Ni ions, xanthate and dithionite (S2O4) or dithionate (S2O6), as representative derivatives of SO2 in water, produced hydrophilic precipitates. These may enhance pyrrhotite depression

Citation

APA: S. Kelebek Zhenghe Xu J. A. Finch S. R. (Ram) Rao (1905) Role of diethylene triamine (DETA) in pentlandite-pyrrohitite separation: part 1: complexation of metals with DETA

MLA: S. Kelebek Zhenghe Xu J. A. Finch S. R. (Ram) Rao Role of diethylene triamine (DETA) in pentlandite-pyrrohitite separation: part 1: complexation of metals with DETA. The Institute of Materials, Minerals and Mining, 1905.

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