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El Kilani, M.-A., Jouini, M., Rakotonimaro, T. V., Neculita, C. M., Molson, J. W., Courcelles, B., & Dufour, G. (2021). In-situ pilot-scale passive biochemical reactors for Ni removal from saline mine drainage under subarctic climate conditions. Journal of Water Process Engineering, 41, 102062 (12 pages). Lien externe
Rakotonimaro, T. V., Neculita, C. M., Bussière, B., Genty, T., & Zagury, G. J. (2018). Performance assessment of laboratory and field-scale multi-step passive treatment of iron-rich acid mine drainage for design improvement. Environmental Science and Pollution Research, 25(18), 17575-17589. Lien externe
Rakotonimaro, T. V., Neculita, C. M., Bussière, B., & Zagury, G. J. (2017). Comparative column testing of three reactive mixtures for the bio-chemical treatment of iron-rich acid mine drainage. Minerals Engineering, 111, 79-89. Lien externe
Rakotonimaro, T. V., Neculita, C. M., Bussière, B., Genty, T., & Zagury, G. J. (juin 2017). Iron and sulfate removal in highly contaminated acid mine drainage using passive multi-step systems [Communication écrite]. 13th IMWA Congress, Lappeenranta, Finland. Lien externe
Rakotonimaro, T. V., Neculita, C. M., Bussière, B., Benzaazoua, M., & Zagury, G. J. (2017). Recovery and reuse of sludge from active and passive treatment of mine drainage-impacted waters: a review. Environmental Science and Pollution Research, 24(1), 73-91. Lien externe
Rakotonimaro, T. V., Neculita, C. M., Bussière, B., & Zagury, G. J. (2016). Effectiveness of various dispersed alkaline substrates for the pre-treatment of ferriferous acid mine drainage. Applied Geochemistry, 73, 13-23. Lien externe
