metals removal
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JOM ◽  
2022 ◽  
Author(s):  
Dingzheng Wang ◽  
Deqing Zhu ◽  
Jian Pan ◽  
Zhengqi Guo ◽  
Congcong Yang ◽  
...  

Author(s):  
Hussein I. Abdel-Shafy ◽  
Rehan M. M. Morsy ◽  
Mahmoud A. I. Hewehy ◽  
Taha M. A. Razek ◽  
Maamoun M. A. Hamid

Abstract A real industrial electroplating rinsing wastewater was collected and subjected the physical and chemical examination. The study showed that it can be categorized as high strength wastewater, at pH- 2, COD 1430 mg/l, and high level of metals above permissible limits namely: 150, 30, 25, and 2.9 for Ni, Cu, Zn, and Fe mg/l respectively. Therefore, metals must be adequately removed before discharging to avoid any hazardous impact on the environment. Similar synthetic wastewater was prepared to study effect of chemical coagulation for the precipitation of metals. The optimum removal rate was achieved by using a combination of lime and ferric chloride at 100 and 30 mg/l respectively. The chemically treated electroplating wastewater was subjected to an electrocoagulation study. A comparison between iron and stainless-steel electrodes for the removal of metals was investigated. Furthermore, the effect of different electric voltage, and the contact time on metals removal efficiency were also examined. It was found that the optimum removal capacity was achieved when stainless steel electrode was employed in the presence of ferric chloride as coagulant, at 10 volts, 30 min. contact time, and pH 9 for synthetic solution. In a batch treatment system, the real industrial wastewater was treated at the predetermined optimum operating conditions; the removal of metals was 92.1%, 87.8% and 82.9% for Ni. Zn, and Cu respectively. By employing a continuous flow reactor for the treatment of the same real wastewater and under the same operating conditions; metals removal rate increased to 98.9%, 97.4% and 96.6% for Ni. Zn, and Cu respectively. The level of metals in the final treated wastewater copes with Egyptian Environmental Regulation. The overall results confirmed that the electro-coagulation (EC) technology offers an effective alternative process in combination with the conventional chemical coagulation process for reaching high removal performance of toxic metals from the electroplating wastewater. The advantage of EC technique is achieving high treatment efficiency instead of expensive chemical reagents, high construction cost and/or other conventional processes. In addition, the final treated water can be reused for rinsing process in electroplating industry and/or discharging without any environmental hazard effect. It is also recommended to employ solar energy instead of electricity to reduce cost of operation.


2022 ◽  
Vol 334 ◽  
pp. 08006
Author(s):  
Martí Aliaguilla ◽  
Daniele Molognoni ◽  
Pau Bosch-Jimenez ◽  
Eduard Borràs

Industrial activity has resulted in heavy metals anthropogenic contamination of groundwater, especially in industrial or mining areas. Bioelectrochemical systems (BES) can be used for metals removal and recovery from aqueous solutions. In the framework of GREENER project, double-chamber BES have been adopted to treat groundwater from industrial sites containing copper, nickel and zinc (Cu, Ni and Zn), among other contaminants. Two operation modes, (i) short-circuited microbial fuel cell (MFC), and (ii) power supply driven microbial electrolysis cell (MEC, poisoning the cathode at -0.4 V vs. Ag/AgCl), were studied for metals removal at lab-scale. Two control reactors were run to evaluate metals adsorption on cathodes and membranes, and the effect of anolyte composition. Synthetic water containing different concentrations of Cu, Ni and Zn were treated, and metals removal pathways were studied. MEC and MFC performed similarly and the highest removal efficiencies were 97.1±3.6%, 50.7±6% and 74,5% for Cu, Ni and Zn respectively, from initial concentrations in the range of 1.1-1.5 mM.


2022 ◽  
pp. 100168
Author(s):  
Shaikh A. Razzak ◽  
Mohammad O. Farooque ◽  
Zeyad Alsheikh ◽  
Laila Alsheikhmohamad ◽  
Deem Alkuroud ◽  
...  

Chemosphere ◽  
2021 ◽  
pp. 133260
Author(s):  
Wei Chen ◽  
Fengjiao Zhang ◽  
Qian Tang ◽  
Bin Du ◽  
Dandan Ma ◽  
...  

2021 ◽  
Vol 16 ◽  
pp. 100582
Author(s):  
Tuhin Bhattacharjee ◽  
Mirjufa Islam ◽  
Devasish Chowdhury ◽  
Gitanjali Majumdar

2021 ◽  
pp. 87-101
Author(s):  
Nimmy Srivastava ◽  
Jayeeta Chattopadhyay ◽  
Arushi Yashi ◽  
Trisha Rathore

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