Authors: K. Soya, N. Mihara, D. Kuchar, M. Kubota, H. Matsuda, T. Fukuta

Abstract:

The present work is concerned with sulfidation of Cu, Zn and Ni containing plating wastewater with CaS. The sulfidation experiments were carried out at a room temperature by adding solid CaS to simulated metal solution containing either single-metal of Ni, Zn and Cu, or Ni-Zn-Cu mixture. At first, the experiments were conducted without pH adjustment and it was found that the complete sulfidation of Zn and Ni was achieved at an equimolar ratio of CaS to a particular metal. However, in the case of Cu, a complete copper sulfidation was achieved at CaS to Cu molar ratio of about 2. In the case of the selective sulfidation, a simulated plating solution containing Cu, Zn and Ni at the concentration of 100 mg/dm3 was treated with CaS under various pH conditions. As a result, selective precipitation of metal sulfides was achieved by a sulfidation treatment at different pH values. Further, the precipitation agents of NaOH, Na2S and CaS were compared in terms of the average specific filtration resistance and compressibility coefficients of metal sulfide slurry. Consequently, based on the lowest filtration parameters of the produced metal sulfides, it was concluded that CaS was the most effective precipitation agent for separation and recovery of Cu, Zn and Ni.

Keywords: Calcium sulfide, Plating Wastewater, Filtrationcharacteristics, Heavy metals, Sulfidation.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1330703

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References:

[1] R. W. Peters, and Y. Ku, "Batch precipitation studies for heavy metal removal by sulfide precipitation," AIChE Symp. Ser., vol. 81, 1985, pp. 9-26.
[2] T. Fukuta, T. Ito, K. Sawada, Y. Kojima, H. Matsuda, and F. Seto, "Separation of Cu, Zn, and Ni from plating solution by precipitation of metal sulfides," Kagakukougaku- ronbunshu vol. 30, 2004, pp. 227-232 (in Japanese).
[3] H. Kondo, T. Fujita, D. Kuchar, T. Fukuta, H. Matsuda, and K. Yagishita, "Separation of metal sulfides from plating wastewater containing Cu, Zn and Ni by selective sulfuration with hydrogen sulfide," Hyomengijutsu vol. 57, 2006, pp. 901-906 (in Japanese).
[4] B. M. Kim, "Treatment of metal containing wastewater with calcium sulfide," AIChE Symp. Ser., vol. 77, No. 209, 1980, pp. 39-48.
[5] N. Mihara, K. Soya, D. Kuchar, T. Fukuta and H. Matsuda, "Utilization of calcium sulfide derived from waste gypsum board for metal-containing wastewater treatment," Global NEST Journal, vol. 10, 2008, pp. 101-107.
[6] B. Kamphuis, A. W. Potma, W. Prins, and W. P. M. Van Swaaij, "The reductive decomposition of calcium sulphate-I. Kinetics of the apparent solid-solid reaction," Chem. Eng. Science, vol. 48, 1993, pp. 105-116.
[7] (Handbook style) The Society of Chemical Engineers, Japan, Kagaku Kogaku Binran, Maruzen Co., Tokyo, 1999, pp. 789-819 (in Japanese).
[8] B. M. Kim and P. A. Amodeo, "Calcium sulfide process for treatment of metal-containing wastes," Environ. Prog., vol. 2, No. 3, 1983, pp. 175-180.
[9] M. García-Calzada, G. Marbán and A. B. Fuertes; "Decomposition of CaS particles at ambient conditions," Chem. Eng. Science, vol. 55, 2000, pp. 1661-1674.
[10] R. W. Peters, Y. Ku and T.- K. Chang, "Heavy metal crystallization kinetics in an MSMPR crystallizer employing sulfide precipitation," AIChE Symp. Ser., vol. 80, 1984, pp. 55-75.
[11] K. Yahikozawa, T. Aratani, R. Ito, T. Sudo, and T. Yano, "Kinetic studies on the lime sulfurated solution (calcium polysulfide) process for removal of heavy metals from wastewater," Bulletin of the Chemical Society of Japan, vol. 51, No. 2, 1978, pp. 613-617.
[12] Y. Sano, M. Shimada, Y. Nagahama, and Y. Sugimoto, (1984). "Filtration characteristics of calcium polysulfide suludge containing sime heavy metals," Bull. Environ. Conserv., Shinshu Univ., vol. 6, pp.40-45 (in Japanese).
[13] T. Aratani, K. Yahikozawa, H. Matoba, S. Yasuhara, and T. Yano, "Condition for the Precipitation of Heavy Metals from Wastewater by the Lime Sulfurated Solution (Calcium Polysulfide) Process," Bulletin of the Chemical Society of Japan, vol. 51, No. 6, 1978, pp. 1755-1760.
[14] H. Deng, C. Chen, Q. Peng and Y. Li, "Formation of transition-metal sulfide microspheres or microtubes," Materials Chemistry and Physics, vol.100, 2006, pp.224-229.
[15] Y. F. Nicolau and J. C. Menard, "An electrokinetic study of ZnS and CdS surface chemistry," J. Colloid Interface Sci, vol. 148, No. 2, 1992, pp. 551-570.
[16] W. Gan and Q. Liu, "Coagulation of bitumen with kaolinite in aqueous solutions containing Ca2+,Mg2+ and Fe3+: Effect of citric acid," J. Colloid Interface Sci, vol. 324, 2008, pp. 85-91.
[17] D. Feng, C. Aldrich and H. Tan, "Treatment of acid mine water by use of heavy metal precipitation and ion exchange," Miner. Eng., vol. 13, No. 6, 2000, pp. 623-642.