Réduction de la toxicité des effluents des mines de ... - Depositum
Réduction de la toxicité des effluents des mines de ... - Depositum
Réduction de la toxicité des effluents des mines de ... - Depositum
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41<br />
6. Références<br />
ADJEI, M.D. et OHTA, Y. (2000). Factors Affecting the Bio<strong>de</strong>gradation of Cyani<strong>de</strong><br />
by Burkhol<strong>de</strong>ria cepacia Strain C-3. Journal of Bioscience and Bioengineering,<br />
89, 274-277.<br />
AKCIL, A. (2003). Destruction of cyani<strong>de</strong> in gold mill <strong>effluents</strong> : biological versus<br />
chemical treatments. Biotechnology Advances, 21, 501-511.<br />
AKCIL, A., KARAHAN, A.G., CIFTCI, H. et SAGDIC, O. (2003). Biological<br />
treatment of cyani<strong>de</strong> by natural iso<strong>la</strong>ted bacteria (Pseudomonas sp. ). Minerais<br />
Engineering, 16, 643-649.<br />
ANON. (1987). Le traitement <strong>de</strong>s eaux usées provenant <strong>de</strong> l'exploitation <strong>de</strong>s <strong>mines</strong> et<br />
<strong>de</strong> <strong>la</strong> préparation du minerai. Rapport SPE 2/MM/3, Environnement Canada,<br />
Conservation et Protection, Direction <strong>de</strong>s Programmes Industriels, Division <strong>de</strong>s<br />
Opérations Minières et Métallurgiques,.<br />
AUBÉ, B. 2004. Une étu<strong>de</strong> en usine pilote <strong>de</strong> <strong>la</strong> production <strong>de</strong> boues à haute <strong>de</strong>nsité<br />
durant le traitement <strong>de</strong>s eaux <strong>de</strong> drainage minier aci<strong>de</strong>. Mémoire présenté en vue<br />
<strong>de</strong> l'obtention du diplôme <strong>de</strong> maîtrise en génie minéral, École Polytechnique <strong>de</strong><br />
Montréal, 95 p.<br />
AUBERTIN, M., BUSSIÈRE, B. et BERNIER, L. (2002). Environnement et gestion<br />
<strong>de</strong>s résidus miniers. Cédérom, Les Éditions <strong>de</strong> l'École Polytechnique <strong>de</strong> Montréal.<br />
BAIN, J.G., BLOWES, D.W., ROBERTSON, W.D. et FRIND, E.O. (2000).<br />
Mo<strong>de</strong>lling of sulfi<strong>de</strong> oxidation with reactive transport at a mine drainage site.<br />
Journal ofContaminant Hydrology, 41, 23-47.<br />
BAKER, B.J. et BANFIELD, J.F. (2003). Microbial communities in acid drainage.<br />
FEMS Microbiology Ecology, 44, 139-152.<br />
BENZAAZOUA, M., BELEM, T. et BUSSIÈRE, B. (2002). Chemical factors that<br />
influence on the performance of mine sulphidic paste backfill. Cement and<br />
Concrete Research 32, 1133-1144.<br />
BENNER, S.G., BLOWES, D.W., GOULD, W.D., HERBERT IR, R.B. et PTACEK,<br />
C.J. (1999). Geochemistry of a permeable reactive barrier for metals and acid<br />
mine drainage. Environ. Sei. Technol. 33, 2793-2799.<br />
BENNER, S.G., BLOWES, D.W., PTACEK, C.J. et MAYER, K.U. (2002). Rates of<br />
sulphate reduction and metal sulphi<strong>de</strong> precipitation in a permeable reactive<br />
barrier. Applied Geochemistry, 17, 301-320.<br />
BERGHORN, G.H. et HUNZEKER, G.R. (2001). Passive Treatment Alternatives for<br />
Remediating Abandonned-Mine Drainage. Remediation, Summer 2001, 111-127.<br />
BIOTEQ ENVIRONMENTAL TECHNOLOGIES INC. (2003). Water Treatment,<br />
Metal Recovery and Solution Control. 12 p.<br />
BLOWES, D.W. et PTACEK, C.J. (1994). Acid-neutralization Mechanisms in<br />
Inactive Mine tailings. Short course handbook on environmental geochemistry of<br />
sulphi<strong>de</strong> mine-wastes, Éditeurs: Jambor, J.L. et Blowes, D.W., p. 271-292.