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Biochar for Environmental Remediation: Principles, Applications, and Prospects [Pehme köide]

Edited by (Professor and Lead Researcher, Biosystems and Environmental Engineering Research Group, University of Zimbabwe, Mount Pleasant, Harare, Harare Province, Zimbabwe)
  • Formaat: Paperback / softback, 532 pages, kõrgus x laius: 276x216 mm, kaal: 1430 g, Approx. 100 illustrations; Illustrations, unspecified
  • Ilmumisaeg: 24-Jan-2025
  • Kirjastus: Elsevier - Health Sciences Division
  • ISBN-10: 0323998895
  • ISBN-13: 9780323998895
Teised raamatud teemal:
Biochar for Environmental Remediation: Principles, Applications, and ProspectsSuurem pilt
  • Formaat: Paperback / softback, 532 pages, kõrgus x laius: 276x216 mm, kaal: 1430 g, Approx. 100 illustrations; Illustrations, unspecified
  • Ilmumisaeg: 24-Jan-2025
  • Kirjastus: Elsevier - Health Sciences Division
  • ISBN-10: 0323998895
  • ISBN-13: 9780323998895
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780323998895.html
Biochar for Environmental Remediation: Principles, Applications, and Prospects synthesizes state-of-the-art knowledge on biochar-based systems for environmental remediation. This book examines a wide variety of biochar applications for the remediation of inorganic, organic, microbial, and emerging contaminants in various environmental media, including drinking water, industrial wastewater, urban stormwater, industrial and indoor air pollution, and contaminated lands and soils.

An increasing body of evidence shows that biochars have potential applications in environmental remediation of contaminants in soils, aqueous systems, and air pollution control. This book uses a systematic approach, covering biochar preparation, properties and characteristics, removal mechanisms, industrial applications, regeneration and disposal of spent biochar, life cycle analysis, and environmental and human health risks. Researchers, engineers, and graduate students will find this to be a valuable reference for understanding opportunities for the use of biochar in environmental remediation as it fills the gaps in existing literature and offers a clear roadmap to guide future research.

SECTION 1: THE BIOCHAR SYSTEM (FEEDSTOCKS, PREPARATION, AND PROPERTIES
1. Introduction
2. Preparation and characteristics of pristine biochars
3. Development of novel engineered/functionalized biochars
4. Biochar catalysis for environmental remediation SECTION 2: BIOCHAR FOR CONTAMINATED LAND REMEDIA-TION
5. Remediation of inorganic contaminants in soils
6. Rehabilitation of mined lands and geologically enriched soils
7. Remediation of conventional and emerging organic contaminants in soils SECTION 3: BIOCHAR FOR WASTEWATER TREATMENT
8. Treatment of Urban stormwater
9. Industrial and municipal wastewaters
10. Biochar as filter media in bioretention and constructed wetland systems SECTION 4: BIOCHARS FOR DRINKING WATER TREATMENT
11. Removal of contaminants in drinking water
12. Design and operation of single and multi-barrier biochar filters
13. Industrial flue gas emissions
14. Clean and efficient biochar cookstoves for mitigation of indoor air pollution
15. Mitigation of greenhouse gas emissions: A state-of-the-art SECTION 6: TECHNO-ECONOMIC EVALUATION OF BIOCHAR SYSTEMS
16. Technical feasibility of biochar systems
17. Regeneration, recycling and disposal of spent biochars
18. Socio-economic evaluation of biochar systems SECTION 7: HEALTH RISK ASSESSMENT OF BIOCHAR SYS-TEMS
19. Life cycle assessment for biochar systems
20. Environmental and human health risks of biochar systems SECTION 8: LOOKING AHEAD: FUTURE PERSPECTIVES
21. Future research directions
22. Conclusions

Dr. Willis Gwenzi is a Professor of biosystems and environmental engineering at the University of Zimbabwe. He researches on environmental remediation, environmental hydrology, water/wastewater treatment, emerging contaminants, antibiotic resistance, medical geology, environmental epidemiology, and novel (bio)materials. He has published more than 70 peer-reviewed articles. His seminal papers on biochar-based water treatment systems and high-technology rare earth elements as emerging contaminants have been rated as Highly Cited and Hot papers in 2019 by the Web of Science. He has supervised several postgraduate students in bioenvironmental system engineering. He is a regular manuscript reviewer for top international journals. He has also acted as an external reviewer for grant proposals for the UKs NERC, Canadas MITACS, Chiles FONDECYT, and the Austrian Science Foundation. He holds the following qualifications: PhD (biosystems and environmental engineering, University of Western Australia), MSc (water resources engineering and management), BSc honors (soil science), and postgraduate certificate (applied groundwater modeling).