Removal of metal from acid mine drainage (AMD) by using natural zeolite of Nizarneshwar Hills of Western India |
| |
| Authors: | Ravindra W Gaikwad S A Misal Dhirendra D V Gupta |
| |
| Institution: | 1. Department of Chemical Engineering, Pravara Rural Engineering College, Loni, Ahmednagar Dist., Maharashtra, 413736, India
2. University School of Chemical Technology, GGS Indraprastha University, Kashmere Gate, New Delhi, 110006, India
|
| |
| Abstract: | The mining industry faces stringent effluent discharge regulations and has acknowledged that it is necessary to look into innovative technologies to recycle considerable amount of effluent rather than discharging into surface water. Effluents from mines give rise to aesthetic unpleasantness. The focus of the investigations was to cope with more stringent effluent discharge regulations and to protect the ecosystem from harmful pollutants in the mine effluents. Copper is one of the heavy metal in the mine systems, which are known to be a harmful element. The present study has been undertaken to investigate a process that might remove Cu(II) from mine waste water by using natural zeolite, such as stilbite, and compared with synthetic resins like CSA-9 and CSA-609D. In this study, natural zeolite was used as a low-cost adsorbent to evaluate its ability to remove heavy metals from acid mine drainage. The zeolite used in this study is the natural clay mineral from the Nizarneshwar Hills of Western India. Three resins tested are CSA-9, natural zeolite–stilbite, and CSA-609D. Batch testing has been conducted to select effective ion-exchange resins for copper removal and to determine effective regenerants for regeneration of exhausted resins. All tests were conducted at bench scale and in batch mode. Three strong acid cation exchangers were evaluated to compare their metal removal capacities. The metal concentration in the effluent was reduced with all resins tested. It was found that, among all the three types of natural zeolite, stilbite shows the highest removal efficiency of copper in every parameter that is considered for evaluating the performance of resins. |
| |
| Keywords: | |
| 本文献已被 SpringerLink 等数据库收录! |
|
