Advanced Technology for the Conversion of Waste into Fuels and Chemicals: Volume 1: Biological Processes
Editat de Anish Khan, Mohammad Jawaid, Antonio Pizzi, Naved Azum, Abdullah M. Asiri, Illyas M.D. Isaen Limba Engleză Paperback – 29 iul 2021
As huge volumes of solid waste are produced globally while huge amounts of energy are produced from fossil fuels, the technologies described in this comprehensive book provide the information necessary to pursue clean, sustainable power from waste material.
- Presents the latest advances in waste to energy techniques for converting solid waste to valuable fuel and energy
- Brings together contributors from physics, chemistry, metallurgy, engineering and the manufacturing industry
- Includes advanced techniques such as combustion, gasification, paralysis, anaerobic digestion and fermentation
- Goes far beyond municipal waste, including discussions on recouping valuable energy from a variety of industrial waste materials
- Describes how waste to energy technologies present an enormous opportunity for clean, sustainable energy
| Toate formatele și edițiile | Preț | Express |
|---|---|---|
| Paperback (2) | 1134.17 lei 5-7 săpt. | |
| ELSEVIER SCIENCE – 29 iul 2021 | 1134.17 lei 5-7 săpt. | |
| ELSEVIER SCIENCE – 29 iul 2021 | 1137.37 lei 5-7 săpt. |
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Specificații
ISBN-13: 9780128231395
ISBN-10: 0128231394
Pagini: 538
Ilustrații: 100 illustrations (50 in full color)
Dimensiuni: 152 x 229 mm
Greutate: 0.71 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0128231394
Pagini: 538
Ilustrații: 100 illustrations (50 in full color)
Dimensiuni: 152 x 229 mm
Greutate: 0.71 kg
Editura: ELSEVIER SCIENCE
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Cuprins
1. Waste to Energy an overview by global perspective
2. Catalytic pyrolysis production of Jet fuel from waste plastics
3. The potential of sustainable biogas production from animal waste
4. Integrated Conversion of waste Cellulosic waste to High-Density Aviation Fuel Thermochemical, and conversion methods of bio-derived lignocellulosic waste molecules into renewable fuels
5. Biological conversion of lignocellulosic waste into renewable energy.
6. Biochemical conversion of lignocellulosic waste into renewable energy
7. Hybrid conversion of lignocelluloses into renewable energy
8. Textile waste to a bio-energy conversion strategies
9. Microbial fuel cell technology for Bioelectrochemical conversion of waste to energy
10. Catalytic Production of Value-Added Chemicals and Liquid Fuels from waste
11. Production of fuels and chemicals from renewable resources using engineered Escherichia coli
12. Diesel engine performance and emissions with fuels derived from waste tyres
13. Waste to Chemicals for a Circular Economy
14. Current and future trends in food waste valorization for the production of chemicals, materials and fuels
15. Perspectives and State of the Art in Producing Solar Fuels and Chemicals from CO2
16. Fine Chemicals: Technology and Products
17. Waste to liquid fuels: potency, progress and challenges
18. Nanomaterials for the Conversion of Carbon Dioxide into Renewable Fuels
19. Integrated Conversion of Cellulose to High-Density Aviation Fuel
20. Recent trends on the waste valorization techniques for food wastes
21. Waists treatments for energy technology
22. Solid oxide fuel cell technology for sustainable development
23. Energetic valorization of waste tires
24. Advanced Vehicle Systems and Technologies: Economic and Environmental Implications
25. Assessment of the energy recovery potential of waste Photovoltaic (PV) modules
26. New approach to waste-heat energy harvesting: pyroelectric energy conversion
27. Case study of industrial conversion of solid waste into energy or chemicals
28. Laboratory waste management for useful cause
2. Catalytic pyrolysis production of Jet fuel from waste plastics
3. The potential of sustainable biogas production from animal waste
4. Integrated Conversion of waste Cellulosic waste to High-Density Aviation Fuel Thermochemical, and conversion methods of bio-derived lignocellulosic waste molecules into renewable fuels
5. Biological conversion of lignocellulosic waste into renewable energy.
6. Biochemical conversion of lignocellulosic waste into renewable energy
7. Hybrid conversion of lignocelluloses into renewable energy
8. Textile waste to a bio-energy conversion strategies
9. Microbial fuel cell technology for Bioelectrochemical conversion of waste to energy
10. Catalytic Production of Value-Added Chemicals and Liquid Fuels from waste
11. Production of fuels and chemicals from renewable resources using engineered Escherichia coli
12. Diesel engine performance and emissions with fuels derived from waste tyres
13. Waste to Chemicals for a Circular Economy
14. Current and future trends in food waste valorization for the production of chemicals, materials and fuels
15. Perspectives and State of the Art in Producing Solar Fuels and Chemicals from CO2
16. Fine Chemicals: Technology and Products
17. Waste to liquid fuels: potency, progress and challenges
18. Nanomaterials for the Conversion of Carbon Dioxide into Renewable Fuels
19. Integrated Conversion of Cellulose to High-Density Aviation Fuel
20. Recent trends on the waste valorization techniques for food wastes
21. Waists treatments for energy technology
22. Solid oxide fuel cell technology for sustainable development
23. Energetic valorization of waste tires
24. Advanced Vehicle Systems and Technologies: Economic and Environmental Implications
25. Assessment of the energy recovery potential of waste Photovoltaic (PV) modules
26. New approach to waste-heat energy harvesting: pyroelectric energy conversion
27. Case study of industrial conversion of solid waste into energy or chemicals
28. Laboratory waste management for useful cause