Emerging Developments in Constructed Wetlands
Editat de Asheesh Kumar Yadav, Jan Vymazal, Yaqian Zhao, Pratiksha Srivastavaen Limba Engleză Paperback – 28 noi 2024
- Contains recent updates of electroactive constructed wetlands development
- Provides updated knowledge gained with new substrates, newer plants species, new configurations, layout, etc.
- Includes information on a new type of wastewater, recently emerged pollutants, and performance intensification efforts
- Focuses on new functions of constructed wetlands along with wastewater treatment
- Discusses the positioning of constructed wetlands in the new paradigms of circular economy, nature-based solutions, and ecosystem services
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Specificații
ISBN-13: 9780443140785
ISBN-10: 0443140782
Pagini: 800
Dimensiuni: 191 x 235 mm
Greutate: 0.45 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0443140782
Pagini: 800
Dimensiuni: 191 x 235 mm
Greutate: 0.45 kg
Editura: ELSEVIER SCIENCE
Cuprins
I. New research experience with microbial assemblage, vegetation, substrate materials, pollutants, and wastewater
1. An updated overview of plant species used in constructed wetlands
2. A global scenario of new substrates utilized in constructed wetlands
3. Coupling of constructed wetlands with other technologies for optimum performance
4. Development, advances, and mathematical modeling in treatment wetlands for eutrophic aquatic ecosystems
5. Understanding of biogeochemical network of redox-active elements in constructed wetlands for controlling/improving the treatment performance
6. Life cycle assessment of constructed wetlands: measuring their contribution to sustainable development
7. A revisit of constructed wetlands technology—microbial density and diversity and their relation to pollutant removal
8. Constructed wetlands clogging—a deeper understanding and remediation strategies
II. Experience on New generation of constructed wetlands coupled with microbial electrochemical technologies
9. The emergence of constructed wetlands coupled with microbial electrochemical technology: historical development and the potential applications
10. Pollutants removal in constructed wetlands coupled with microbial electrochemical technology
11. Bioelectrochemically assisted wetland: the METland concept
12. Microbial electrochemical technology for biosensing purposes in constructed wetlands
13. Greenhouse gases emission control using constructed wetlands coupled with microbial electrochemical technology
III. New experiments with design, configuration, and layout
14. Modular and transportable constructed wetlands
15. TAYA—an intensified constructed wetlands technology
16. Constructed wetlands inspired Phytorid technology for wastewater treatment application using
17. Green walls for wastewater treatment
18. Design recommendations to support green walls for urban water reuse guidelines
19. Green walls and green roof—some experiences from the field
20. Floating treatment wetlands: a futuristic approach for industrial wastewater treatment
IV. Performance intensification of constructed wetlands
21. Intensification of French-type verticalflow treatment wetlands using complementary treatment steps and adapted operating conditions
22. Emerging development in application, design, and operations & maintenance of aerated treatment wetlands
23. Bioaugmentation in constructed wetlands for performance enhancement
24. New experiences to address the performance slowness in constructed wetlands in a cold climate
25. Application of biochar as an innovative substrate in constructed wetlands/biofilters for wastewater treatment: performance and ecological benefits
26. Combining the large-scale rotating biological contactors and integrated constructed wetlands for improving river quality
27. Estimating the removal rate coefficient for intensified wetlands utilizing reactive media for treating high-strength wastewater: an N-k-C* approach
V. News functions
28. Wetland community expertise in the new nature-based solutions and circular economy vision
29. Valorization prospects of plant biomass generated in constructed wetland for bioenergy production
30. Fecal sludge management using constructed wetlands
31. Understanding removal of microplastics in constructed wetlands: processes, performance, and impacts
32. Implementing constructed wetlands for wastewater and sludge treatment in hot and arid climates: existing solutions and future challenges
1. An updated overview of plant species used in constructed wetlands
2. A global scenario of new substrates utilized in constructed wetlands
3. Coupling of constructed wetlands with other technologies for optimum performance
4. Development, advances, and mathematical modeling in treatment wetlands for eutrophic aquatic ecosystems
5. Understanding of biogeochemical network of redox-active elements in constructed wetlands for controlling/improving the treatment performance
6. Life cycle assessment of constructed wetlands: measuring their contribution to sustainable development
7. A revisit of constructed wetlands technology—microbial density and diversity and their relation to pollutant removal
8. Constructed wetlands clogging—a deeper understanding and remediation strategies
II. Experience on New generation of constructed wetlands coupled with microbial electrochemical technologies
9. The emergence of constructed wetlands coupled with microbial electrochemical technology: historical development and the potential applications
10. Pollutants removal in constructed wetlands coupled with microbial electrochemical technology
11. Bioelectrochemically assisted wetland: the METland concept
12. Microbial electrochemical technology for biosensing purposes in constructed wetlands
13. Greenhouse gases emission control using constructed wetlands coupled with microbial electrochemical technology
III. New experiments with design, configuration, and layout
14. Modular and transportable constructed wetlands
15. TAYA—an intensified constructed wetlands technology
16. Constructed wetlands inspired Phytorid technology for wastewater treatment application using
17. Green walls for wastewater treatment
18. Design recommendations to support green walls for urban water reuse guidelines
19. Green walls and green roof—some experiences from the field
20. Floating treatment wetlands: a futuristic approach for industrial wastewater treatment
IV. Performance intensification of constructed wetlands
21. Intensification of French-type verticalflow treatment wetlands using complementary treatment steps and adapted operating conditions
22. Emerging development in application, design, and operations & maintenance of aerated treatment wetlands
23. Bioaugmentation in constructed wetlands for performance enhancement
24. New experiences to address the performance slowness in constructed wetlands in a cold climate
25. Application of biochar as an innovative substrate in constructed wetlands/biofilters for wastewater treatment: performance and ecological benefits
26. Combining the large-scale rotating biological contactors and integrated constructed wetlands for improving river quality
27. Estimating the removal rate coefficient for intensified wetlands utilizing reactive media for treating high-strength wastewater: an N-k-C* approach
V. News functions
28. Wetland community expertise in the new nature-based solutions and circular economy vision
29. Valorization prospects of plant biomass generated in constructed wetland for bioenergy production
30. Fecal sludge management using constructed wetlands
31. Understanding removal of microplastics in constructed wetlands: processes, performance, and impacts
32. Implementing constructed wetlands for wastewater and sludge treatment in hot and arid climates: existing solutions and future challenges