Separation of Nickel fom Plating Solution by Sulfuration Treatment

  • T Fukuta Research Center of advanced Waste and Emission Management, Nagoya University
  • T Ito Research Center of advanced Waste and Emission Management, Nagoya University
  • K Sawada Research Center of advanced Waste and Emission Management, Nagoya University
  • Yoshihiro Kojima Research Center of advanced Waste and Emission Management, Nagoya University
  • Elleen C Bernardo Research Center of advanced Waste and Emission Management, Nagoya University
  • Hitoki Matsuda Research Center of advanced Waste and Emission Management, Nagoya University
  • K Yagishita Sanshin Mfg. Co., Ltd., 1-2 Kifuneura Haguro Inuyama, Japan
Keywords: Average specific filtration resistance, electroplating solution, nickel sulfide (NiS), polysulfide, sulfuration, wastewater treatment

Abstract

Precipitation by sulfuration of nickel was used to recover nickel from the waste plating solution. Three kinds of sulfurating agents - sodium sulfide (Na2S), sodium disulfide (Na2S2),and sodium tetrasulfide (Na2S4) - were compared for the sulfuration behavior and the precipitation characteristics of the nickel sulfide (NiS) produced. Results showed that the nickel concentration in the filtrate was reduced from the initial concentration of 100 mRN/L to about 0.594-3.37 mRN/L with the addition of each sulfurating agent. The average specific filtration resistance of the slurry produced by adding each sulfurating agent was smaller than that in the nickel hydroxide (NiOH) slurry. In particular, the average specific filtration resistance of the slurry produced by adding Na2S4 was greatly reduced under controlled pH values of 7:t 1. The good filtration property obtained from the proposed sulfuration treatment was attributed to the larger particle-size distribution of NiS produced by the sulfuration agent Na2S4. It was further confirmed that the proposed sulfuration treatment using Na2S was applicable for the separation of nickel, zinc, and copper in mixed-metal solutions.

References

Kosaka, Y. (1997). “Treatment of plating wastewater," Hyoumen Gijutsu, 48, 242–45.
The Chemical Society of Japan. (1993). Kagaku binran kisohen, 4th ed., Maruzen, Tokyo 1167-71.
Coulson, J. M., and Richardson, J. F. (1968). Chemical engineering, vol. 2, Pergamon Press, London. 48-106. Federation of Electroplating Industry Association of Japan. (1993). Report of comprehensive recycle of valuable metals. Meux., E. et al. (1995). "Inertage des déchets sidérurgiques par sulfuration," La Revue de Métallurgie-CIT, 823–33.
The Society of Chemical Engineers, Japan. (1999). Kagaku Kogaku Binran, Maruzen, Tokyo. 789-819.
Tels, M. (1987). "Advances in treating heavy metals containing wastes," Resources and Conservation, 14, 71-92.
Published
2004-12-31
How to Cite
Fukuta, T., Ito, T., Sawada, K., Kojima, Y., Bernardo, E. C., Matsuda, H., & Yagishita, K. (2004). Separation of Nickel fom Plating Solution by Sulfuration Treatment. ASEAN Journal of Chemical Engineering, 4(2), 24-31. Retrieved from https://jurnal.ugm.ac.id/v3/AJChE/article/view/7620
Section
Articles