Metal Removal and Recovery from Mining Wastewater and E-waste Leachate
-10%
portes grátis
Metal Removal and Recovery from Mining Wastewater and E-waste Leachate
Janyasuthiwong, Suthee
Taylor & Francis Ltd
06/2020
146
Dura
Inglês
9781138381711
15 a 20 dias
535
Descrição não disponível.
1. General Introduction
2. Metal Rich Waste Stream and Feasibility of Recovery
3. Adsorption Technology for Metal Contaminated Wastewater Treatment
4. The Performance of Sulfate Reducing Bacteria Biotechnology in an Inverse Fluidized Bed SRB Bioreactor
5. Inversed Fluidized Bed SRB Bioreactor for Metal Contaminated Wastewater Treatment
6. Effects of Process Parameter on Metal Yield in E-waste Leachate
7. General Discussion
2. Metal Rich Waste Stream and Feasibility of Recovery
3. Adsorption Technology for Metal Contaminated Wastewater Treatment
4. The Performance of Sulfate Reducing Bacteria Biotechnology in an Inverse Fluidized Bed SRB Bioreactor
5. Inversed Fluidized Bed SRB Bioreactor for Metal Contaminated Wastewater Treatment
6. Effects of Process Parameter on Metal Yield in E-waste Leachate
7. General Discussion
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Highest Metal Removal Efficiency;Sodium EDTA;metal recover, metal contaminated wastewater treatment, electronic waste, biotechnology;Cod Concentration;Sulfide Precipitation;Metal Recovery Efficiencies;Removal Efficiency;Cod Removal;Residual Cod;Metal Removal Efficiency;Sulfate Removal Efficiencies;Average Cod;Influent Sulfate Concentration;SRB;Sr Activity;Cod Removal Efficiency;Influent Cod;Groundnut Shell;Metal Uptake Capacity;Adsorbent Dosage;Leaching Agent;Sulfide Production;Hm Removal Efficiency;Agitation Speed;Leaching Column;Initial Metal Concentration
1. General Introduction
2. Metal Rich Waste Stream and Feasibility of Recovery
3. Adsorption Technology for Metal Contaminated Wastewater Treatment
4. The Performance of Sulfate Reducing Bacteria Biotechnology in an Inverse Fluidized Bed SRB Bioreactor
5. Inversed Fluidized Bed SRB Bioreactor for Metal Contaminated Wastewater Treatment
6. Effects of Process Parameter on Metal Yield in E-waste Leachate
7. General Discussion
2. Metal Rich Waste Stream and Feasibility of Recovery
3. Adsorption Technology for Metal Contaminated Wastewater Treatment
4. The Performance of Sulfate Reducing Bacteria Biotechnology in an Inverse Fluidized Bed SRB Bioreactor
5. Inversed Fluidized Bed SRB Bioreactor for Metal Contaminated Wastewater Treatment
6. Effects of Process Parameter on Metal Yield in E-waste Leachate
7. General Discussion
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Highest Metal Removal Efficiency;Sodium EDTA;metal recover, metal contaminated wastewater treatment, electronic waste, biotechnology;Cod Concentration;Sulfide Precipitation;Metal Recovery Efficiencies;Removal Efficiency;Cod Removal;Residual Cod;Metal Removal Efficiency;Sulfate Removal Efficiencies;Average Cod;Influent Sulfate Concentration;SRB;Sr Activity;Cod Removal Efficiency;Influent Cod;Groundnut Shell;Metal Uptake Capacity;Adsorbent Dosage;Leaching Agent;Sulfide Production;Hm Removal Efficiency;Agitation Speed;Leaching Column;Initial Metal Concentration
