Wastewater containing heavy metals such as copper (Cu) and nickel (Ni) is harmful to humans and the environment due to its high toxicity. Crystallization in a fluidized bed reactor (FBR) has recently received significant attention for heavy metal removal and recovery. It is necessary to find optimum reaction conditions to enhance crystallization efficacy. In this study, the effects of crystallization reagent and pH were investigated to maximize crystallization efficacy of Cu-S and Ni-S in a FBR. CaS and Na2S·9H2O were used as crystallization reagent, and pH were varied in the range of 1 to 7. Additionally, each optimum crystallization condition for Cu and Ni were sequentially employed in two FBRs for their selective removal from the mixture of Cu and Ni. As major results, the crystallization of Cu was most effective in the range of pH 1-2 for both CaS and Na2S·9H2O reagents. At pH 1, Cu was completely removed within five minutes. Ni showed a superior reactivity with S in Na2S·9H2O compared to that in CaS at pH 7. When applying each optimum crystallization condition sequentially, only Cu was firstly crystallized at pH 1 with CaS, and then, in the second FBR, the residual Ni was completely removed at pH 7 with Na2S·9H2O. Each crystal recovered from two different FBRs was mainly composed of CuxSy and NiS, respectively. Our results revealed that Cu and Ni can be selectively recovered as reusable resources from the mixture by controlling pH and choosing crystallization reagent accordingly.

• 정은후(고려대학교 그린스쿨 대학원) | Eunhoo Jeong (Korea University Graduate School of Energy, Environment Policy&Technology)
• 심수진(한국과학기술연구원 녹색도시기술연구소 물자원순환연구단) | Soojin Shim (Center for Water Resources Cycle Research, Korea Institute of Science and Technology)
• 윤성택(고려대학교 그린스쿨 대학원) | Seong Taek Yun (Korea University Graduate School of Energy, Environment Policy&Technology)
• 홍석원(고려대학교 그린스쿨 대학원) | Seok Won Hong (Korea University Graduate School of Energy, Environment Policy&Technology) Corresponding author