From Biofiltration to Promising Options in Gaseous Fluxes Biotreatment: Recent Developments, New Trends, Advances, and Opportunities
Editat de Gabriela Soreanu, Éric Dumonten Limba Engleză Paperback – 6 apr 2020
- Presents the main biotechnological aspects applied for gas purification, focusing on process understanding, limitations, and capability in different applications
- Promotes a sustainable future of the biofiltration process by enhancing their performance together with the simultaneously economic and environmental impacts
- Implements new aspects of scientific research and development in the field
Preț: 962.35 lei
Preț vechi: 1259.51 lei
-24% Nou
Puncte Express: 1444
Preț estimativ în valută:
184.17€ • 191.31$ • 152.98£
184.17€ • 191.31$ • 152.98£
Carte tipărită la comandă
Livrare economică 27 ianuarie-10 februarie 25
Preluare comenzi: 021 569.72.76
Specificații
ISBN-13: 9780128190647
ISBN-10: 0128190647
Pagini: 524
Ilustrații: Approx. 100 illustrations
Dimensiuni: 191 x 235 mm
Greutate: 0.89 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0128190647
Pagini: 524
Ilustrații: Approx. 100 illustrations
Dimensiuni: 191 x 235 mm
Greutate: 0.89 kg
Editura: ELSEVIER SCIENCE
Public țintă
Researchers,scientists,graduate students,professors,and practitioners in chemical, environmental and bio-engineeringCuprins
Part 1. Biological Treatment of Gaseous Streams: Attached and Suspended Biomass Units Part 1.1. Benchmark aspects on biological removal of contaminants from gaseous streams 1. Current challenges and perspectives in gas fluxes biotreatment 2. Biofilters versus bioscrubbers and biotrickling filters: state of the art of biological air treatment 3. Determination of biofilters performances 4. Porous media models for packed-bed characterization 5. Life cycle assessment of biofiltration
Part 1.2. Alternatives for gas treatment 6. High-performance biofilters for air treatment applications 7. Biofiltration of VOCs and PAHs 8. Biogas treatment for H2S, CO2 and other contaminants removal 9. Industrial biofilter case studies
Part 2. Biological Treatment of Gaseous Streams: Phytoremediation and Microalgae Approaches Part 2.1. Phytosystems for air quality enhancement 10. Particularities of indoor air biotreatment 11. Plant physiological mechanisms of air treatment 12. Plant-microbe interaction within phytosystems used for air treatment 13. Technological aspects of the removal of air pollutants by phytosystems 14. Phytosystems implementation: examples of application in practice
Part 2.2. Microalgae-based approaches 15. Microalgae with potential in air treatment 16. Microalgae photobioreactors for gaseous contaminants removal 17. Microalgae-based biomass production for control of air pollutants 18. CO2 capture from CO2 - rich gases by microalgae 19. A model microalgae for addressing air treatment in spacecrafts 20. Microalgae for combined air revitalization and biomass production for space applications
Part 1.2. Alternatives for gas treatment 6. High-performance biofilters for air treatment applications 7. Biofiltration of VOCs and PAHs 8. Biogas treatment for H2S, CO2 and other contaminants removal 9. Industrial biofilter case studies
Part 2. Biological Treatment of Gaseous Streams: Phytoremediation and Microalgae Approaches Part 2.1. Phytosystems for air quality enhancement 10. Particularities of indoor air biotreatment 11. Plant physiological mechanisms of air treatment 12. Plant-microbe interaction within phytosystems used for air treatment 13. Technological aspects of the removal of air pollutants by phytosystems 14. Phytosystems implementation: examples of application in practice
Part 2.2. Microalgae-based approaches 15. Microalgae with potential in air treatment 16. Microalgae photobioreactors for gaseous contaminants removal 17. Microalgae-based biomass production for control of air pollutants 18. CO2 capture from CO2 - rich gases by microalgae 19. A model microalgae for addressing air treatment in spacecrafts 20. Microalgae for combined air revitalization and biomass production for space applications