NGHIÊN CỨU KHẢ NĂNG XỬ LÝ XYANUA TRONG NƯỚC THẢI BẰNG H2O2 VÀ NaOCl
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Ngày nhận bài: 11/05/23 Ngày hoàn thiện: 13/06/23 Ngày đăng: 13/06/23Tóm tắt
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[1] T. D. Nguyen, B. D. Le, T. T. Do, T. T. H. Pham, and N. A. Tran, “Results of the experimental research on a pilot model with capacity of 100 liters/ hour for excess water treatment in red mud pond of Nhan Co Alumina Factory,” Mining technology bulletin, no. 1, pp. 43 – 50, 2021.
[2] M. Mamelkina, M. H. Carnone, S. Cotillas, and E. Lacasa, “Treatment of mining wastewater polluted with cyanide by coagulation processes: A mechanictic stydy,” Separation and purification Technology, vol. 11653, no. 237, pp. 1383 – 1391, 2019.
[3] V. N. Makarov, D. V. Makarov, T. N. Vasilyeva, and I. P. Kremenetskaya, “Interaction of natural serpentines with dilute sulfate solutions containing nickel ions” Russian Journal of Inorganic Chemistry, vol. 50, no. 9, pp. 1315-1325, 2005.
[4] B. Aubé, “Sludge Disposal in Mine Workings at Cape Breton Development Corporation,” Presented at 2004 Ontario MEND Workshop, MEND report W.017, Sudbury, Ontario, Canada, May 26-27, 2004.
[5] B. Aubé and Arseneault, “In-Pit Mine Drainage Treatment System in a Northern Climate,” in Proceedings for Sudbury 2003 Mining and the Environment Conference, May 25-28, 2003, pp. 241 – 249.
[6] A. K. Mydlak, M. Sajdak, K. Rychlewska, and J. Figa, “The role of chemical loop removal of hazardous contaminants from coke oven wastewater during its treatment,” Open chemisty, vol. 17, pp. 1288 – 1300, 2019.
[7] L. H. Trinh, Wastewater engineering. Educational Technics Publishing House, 2006.
DOI: https://doi.org/10.34238/tnu-jst.7914
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