The role of hydrometallurgy in achieving sustainable development
暂无分享,去创建一个
[1] A. Monhemius,et al. Characterisation of high-temperature arsenic-containing residues from hydrometallurgical processes , 1992 .
[2] J. Dutrizac. Converting jarosite residues into compact hematite products , 1990 .
[3] D. Dreisinger,et al. The hydrometallurgical treatment of carbon steel electric arc furnace dusts by the UBC-Chaparral process , 1990 .
[4] J. Brierley,et al. AMT-BioclaimTM: a new wastewater treatment and metal recovery technology , 1986 .
[5] M. J. Collins,et al. The commercial status of pressure leaching technology , 1991 .
[6] B. S. Rogers. Crushers: what the market has to offer , 1985 .
[7] V. Ettel,et al. Solubility and stability of scorodite, FeAsO4•2H2O: new data and further discussion , 1988 .
[8] M. Beattie,et al. Applying the redox process to arsenical concentrates , 1990 .
[9] M. Tsezos. The Selective Extraction of Metals from Solution by Micro-Organisms. A Brief Overview , 1985 .
[10] T. O’keefe,et al. Recycling of zinc waste for electrogalvanizing , 1985 .
[11] L. L. Sirois,et al. Acid mine drainage research in Canada , 1990 .
[12] D. Holmes,et al. Biotechnology in the mining and metal processing industries: challenges and opportunities , 1988 .
[13] V. Ettel,et al. Solubilities and stabilities of ferric arsenate compounds , 1989 .
[14] Kenneth G. Thomas,et al. Alkaline and acidic autoclaving of refractory gold ores , 1991 .