Resource Recovery in Industrial Waste Waters
-10%
portes grátis
Resource Recovery in Industrial Waste Waters
Khadir, Ali; Gurung, Khum; Sillanpaa, Mika
Elsevier - Health Sciences Division
07/2023
838
Mole
Inglês
9780323953276
15 a 20 dias
Descrição não disponível.
1. Energy recovery from industrial waste waters
2. Methane recovery from municipal wastewater treatment plants
3. Biohydrogen recovery from municipal wastewater treatment plants
4. Biodiesel recovery from municipal wastewater treatment plants
5. Cooling tower water: treatment and reuse
6. Metal recovery from industrial wastes
7. Metal recovery from electroplating wastewater
8. Application of bioleaching for metal recovery
9. Selenium recovery from industrial wastewaters
10. Microbial fuel cell in industrial wastewater: treatment processes and resource recovery
11. Zero liquid discharge strategies for industrial wastewater treatment, reuse, and resource recovery
12. Resource recovery from dye wastewaters
13. Nutrients recovery (phosphorus and nitrogen) from food wastewaters
14. Electrodialysis reversal application in industrial wastewater recovery
15. Membranes for industrial wastewater recovery and reuse
16. Recovery of ammonia from industrial wastewater
17. The use of activated carbon in industrial wastewater recovery and reuse
18. Desalination techniques for industrial wastewater reuse
19. Removal and recovery of Cr(VI) from industrial waste waters
20. Removal and recovery of nickel from industrial waste waters
21. Removal and recovery of vanadium from industrial waste waters
2. Methane recovery from municipal wastewater treatment plants
3. Biohydrogen recovery from municipal wastewater treatment plants
4. Biodiesel recovery from municipal wastewater treatment plants
5. Cooling tower water: treatment and reuse
6. Metal recovery from industrial wastes
7. Metal recovery from electroplating wastewater
8. Application of bioleaching for metal recovery
9. Selenium recovery from industrial wastewaters
10. Microbial fuel cell in industrial wastewater: treatment processes and resource recovery
11. Zero liquid discharge strategies for industrial wastewater treatment, reuse, and resource recovery
12. Resource recovery from dye wastewaters
13. Nutrients recovery (phosphorus and nitrogen) from food wastewaters
14. Electrodialysis reversal application in industrial wastewater recovery
15. Membranes for industrial wastewater recovery and reuse
16. Recovery of ammonia from industrial wastewater
17. The use of activated carbon in industrial wastewater recovery and reuse
18. Desalination techniques for industrial wastewater reuse
19. Removal and recovery of Cr(VI) from industrial waste waters
20. Removal and recovery of nickel from industrial waste waters
21. Removal and recovery of vanadium from industrial waste waters
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
?Adsorbent; Adsorption; Adsorptive materials; Agricultural waste; Ammonia removal; Battery industry wastewater; Bioelectrochemical; Bioenergy; Biohydrogen; Bioleaching; Bioleaching mechanisms; Bioprecipitation; Bioreduction; Blended polymer; Brine; Brine management; Brine treatment; Brine valorization; CaFe2O3 nanoparticle; Carbon nanomaterials; Cavitation; Chemical oxygen demand; Chemical precipitation; Chemical treatment; Chromium; Circular economy; Conventional methods; Critical raw materials; Dark fermentation; Defects; Desalination; Desorption; Detoxification; Distillery wastewater; Donnan exclusion; Dyes; E-waste; Electrical-driven; Electrochemical recovery; Electrodeposition; Electrodialysis; Electrodialysis reversal; Electroplating effluent; Electrosorption; Engineered nanoparticles; Environment; Filtration; Fractionation; Graphene oxide; Green innovation; Green oxidation; Heat exchangers; Heat recovery; Heavy metals; Hybrid process; Industrial brine; Industrial effluent; Industrial pollutants; Industrial wastewater; Industrial water policy; Influencing parameters; Ion exchange resins; Leaching; Lithium-ion battery; MEC; MFC; Membrane; Membrane bioreactor; Membrane distillation; Membrane filters; Membrane fouling; Membrane processes; Membrane technology; Mercury removal; Metal oxide nanomaterials; Metal recovery; Microbial fuel cell; Microbial fuel cells; Microbial leaching mechanism; Microorganism; Minimal liquid discharge; Mixed product removal batch reactor; Mixed suspension; Nanocomposite; Nanofiltration; Nanofluids; Nanoparticles; NiMH battery; Nickel; Osmotic-driven; Permeate; Phosphorus; Photocatalysis; Photofermentation; Phytoextraction; Phytoremediation; Plant growth assessment; Polymeric membranes; Power generation; Precious metal
1. Energy recovery from industrial waste waters
2. Methane recovery from municipal wastewater treatment plants
3. Biohydrogen recovery from municipal wastewater treatment plants
4. Biodiesel recovery from municipal wastewater treatment plants
5. Cooling tower water: treatment and reuse
6. Metal recovery from industrial wastes
7. Metal recovery from electroplating wastewater
8. Application of bioleaching for metal recovery
9. Selenium recovery from industrial wastewaters
10. Microbial fuel cell in industrial wastewater: treatment processes and resource recovery
11. Zero liquid discharge strategies for industrial wastewater treatment, reuse, and resource recovery
12. Resource recovery from dye wastewaters
13. Nutrients recovery (phosphorus and nitrogen) from food wastewaters
14. Electrodialysis reversal application in industrial wastewater recovery
15. Membranes for industrial wastewater recovery and reuse
16. Recovery of ammonia from industrial wastewater
17. The use of activated carbon in industrial wastewater recovery and reuse
18. Desalination techniques for industrial wastewater reuse
19. Removal and recovery of Cr(VI) from industrial waste waters
20. Removal and recovery of nickel from industrial waste waters
21. Removal and recovery of vanadium from industrial waste waters
2. Methane recovery from municipal wastewater treatment plants
3. Biohydrogen recovery from municipal wastewater treatment plants
4. Biodiesel recovery from municipal wastewater treatment plants
5. Cooling tower water: treatment and reuse
6. Metal recovery from industrial wastes
7. Metal recovery from electroplating wastewater
8. Application of bioleaching for metal recovery
9. Selenium recovery from industrial wastewaters
10. Microbial fuel cell in industrial wastewater: treatment processes and resource recovery
11. Zero liquid discharge strategies for industrial wastewater treatment, reuse, and resource recovery
12. Resource recovery from dye wastewaters
13. Nutrients recovery (phosphorus and nitrogen) from food wastewaters
14. Electrodialysis reversal application in industrial wastewater recovery
15. Membranes for industrial wastewater recovery and reuse
16. Recovery of ammonia from industrial wastewater
17. The use of activated carbon in industrial wastewater recovery and reuse
18. Desalination techniques for industrial wastewater reuse
19. Removal and recovery of Cr(VI) from industrial waste waters
20. Removal and recovery of nickel from industrial waste waters
21. Removal and recovery of vanadium from industrial waste waters
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
?Adsorbent; Adsorption; Adsorptive materials; Agricultural waste; Ammonia removal; Battery industry wastewater; Bioelectrochemical; Bioenergy; Biohydrogen; Bioleaching; Bioleaching mechanisms; Bioprecipitation; Bioreduction; Blended polymer; Brine; Brine management; Brine treatment; Brine valorization; CaFe2O3 nanoparticle; Carbon nanomaterials; Cavitation; Chemical oxygen demand; Chemical precipitation; Chemical treatment; Chromium; Circular economy; Conventional methods; Critical raw materials; Dark fermentation; Defects; Desalination; Desorption; Detoxification; Distillery wastewater; Donnan exclusion; Dyes; E-waste; Electrical-driven; Electrochemical recovery; Electrodeposition; Electrodialysis; Electrodialysis reversal; Electroplating effluent; Electrosorption; Engineered nanoparticles; Environment; Filtration; Fractionation; Graphene oxide; Green innovation; Green oxidation; Heat exchangers; Heat recovery; Heavy metals; Hybrid process; Industrial brine; Industrial effluent; Industrial pollutants; Industrial wastewater; Industrial water policy; Influencing parameters; Ion exchange resins; Leaching; Lithium-ion battery; MEC; MFC; Membrane; Membrane bioreactor; Membrane distillation; Membrane filters; Membrane fouling; Membrane processes; Membrane technology; Mercury removal; Metal oxide nanomaterials; Metal recovery; Microbial fuel cell; Microbial fuel cells; Microbial leaching mechanism; Microorganism; Minimal liquid discharge; Mixed product removal batch reactor; Mixed suspension; Nanocomposite; Nanofiltration; Nanofluids; Nanoparticles; NiMH battery; Nickel; Osmotic-driven; Permeate; Phosphorus; Photocatalysis; Photofermentation; Phytoextraction; Phytoremediation; Plant growth assessment; Polymeric membranes; Power generation; Precious metal
