Hybrid and Combined Processes for Air Pollution Control
-10%
portes grátis
Hybrid and Combined Processes for Air Pollution Control
Methodologies, Mechanisms and Effect of Key Parameters
Assadi, Aymen Amine; Amrane, Abdeltif; Nguyen, Tuan Anh
Elsevier - Health Sciences Division
05/2022
376
Mole
Inglês
9780323884495
15 a 20 dias
750
Descrição não disponível.
1. An overview on the implementation of Hybrid processes in the field of Air treatment
2. An overview on the implementation of combined and coupled processes in the field of Air treatment
3. Integration of non-destructive processes - Adsorption/uptake/Absorption
4. Advanced oxidation processes 5. Electrochemical processes
6. Integrated processes involving adsorption, photolysis and photocatalysis
7. Biological processes
8. Integrated and combined processes involving wet air oxidation
9. Current Pilot Scale and Industrial Scale up Applications
10. Merits/demerits of conventional air treatment techniques
2. An overview on the implementation of combined and coupled processes in the field of Air treatment
3. Integration of non-destructive processes - Adsorption/uptake/Absorption
4. Advanced oxidation processes 5. Electrochemical processes
6. Integrated processes involving adsorption, photolysis and photocatalysis
7. Biological processes
8. Integrated and combined processes involving wet air oxidation
9. Current Pilot Scale and Industrial Scale up Applications
10. Merits/demerits of conventional air treatment techniques
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Air pollution; Nanomaterials; Sensors; Nanocomposite; gases; Air pollutants; Carbon; Silica; Metal-organic frameworks; Covalent organic frameworks; Layered double hydroxides; Zeolites; Adsorption; Modern computational techniques; Photocatalysis; building materials; TiO<ce:inf>2</ce:inf>; air decontamination; indoor; outdoor; NOx; VOC; mold; Nonthermal plasma; Decomposition; Volatile organic compounds; Degradation; Photolysis; Biofilters; Biological remediation; Environmental control; Innovative hybrid bioreactors; Two-stage systems; Membrane; Gas-solid separation; Air purification; Synergism purification; Multifunction membrane; SUNSPACE; Industrial by-products; Porous materials; Indoor air quality; Hybrid catalysis; Catalytic oxidation; Biological processes; Tyrosine self-assembly; Modified V<ce:inf>2</ce:inf>O<ce:inf>5</ce:inf> catalyst; DFT calculations; Photostability; Surface complex; Nanosensors; Sensing array; Electronic nose; Silicon nanowires; Carbon nanotubes; Metal oxide nanowires;
1. An overview on the implementation of Hybrid processes in the field of Air treatment
2. An overview on the implementation of combined and coupled processes in the field of Air treatment
3. Integration of non-destructive processes - Adsorption/uptake/Absorption
4. Advanced oxidation processes 5. Electrochemical processes
6. Integrated processes involving adsorption, photolysis and photocatalysis
7. Biological processes
8. Integrated and combined processes involving wet air oxidation
9. Current Pilot Scale and Industrial Scale up Applications
10. Merits/demerits of conventional air treatment techniques
2. An overview on the implementation of combined and coupled processes in the field of Air treatment
3. Integration of non-destructive processes - Adsorption/uptake/Absorption
4. Advanced oxidation processes 5. Electrochemical processes
6. Integrated processes involving adsorption, photolysis and photocatalysis
7. Biological processes
8. Integrated and combined processes involving wet air oxidation
9. Current Pilot Scale and Industrial Scale up Applications
10. Merits/demerits of conventional air treatment techniques
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Air pollution; Nanomaterials; Sensors; Nanocomposite; gases; Air pollutants; Carbon; Silica; Metal-organic frameworks; Covalent organic frameworks; Layered double hydroxides; Zeolites; Adsorption; Modern computational techniques; Photocatalysis; building materials; TiO<ce:inf>2</ce:inf>; air decontamination; indoor; outdoor; NOx; VOC; mold; Nonthermal plasma; Decomposition; Volatile organic compounds; Degradation; Photolysis; Biofilters; Biological remediation; Environmental control; Innovative hybrid bioreactors; Two-stage systems; Membrane; Gas-solid separation; Air purification; Synergism purification; Multifunction membrane; SUNSPACE; Industrial by-products; Porous materials; Indoor air quality; Hybrid catalysis; Catalytic oxidation; Biological processes; Tyrosine self-assembly; Modified V<ce:inf>2</ce:inf>O<ce:inf>5</ce:inf> catalyst; DFT calculations; Photostability; Surface complex; Nanosensors; Sensing array; Electronic nose; Silicon nanowires; Carbon nanotubes; Metal oxide nanowires;