Bioenergy Production by Anaerobic Digestion
Using Agricultural Biomass and Organic Wastes
Herausgeber: Korres, Nicholas; West, Jonathan S; Benzie, John A H; O'Kiely, Padraig
Bioenergy Production by Anaerobic Digestion
Using Agricultural Biomass and Organic Wastes
Herausgeber: Korres, Nicholas; West, Jonathan S; Benzie, John A H; O'Kiely, Padraig
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Interest in anaerobic digestion has increased rapidly in recent years. This book is one of the first to provide a broad introduction to anaerobic digestion and its potential as a viable means to turn agricultural crops or crop residues, animal and other organic waste, into biomethane.
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Interest in anaerobic digestion has increased rapidly in recent years. This book is one of the first to provide a broad introduction to anaerobic digestion and its potential as a viable means to turn agricultural crops or crop residues, animal and other organic waste, into biomethane.
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Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis
- Seitenzahl: 472
- Erscheinungstermin: 27. August 2013
- Englisch
- Abmessung: 252mm x 182mm x 26mm
- Gewicht: 1075g
- ISBN-13: 9780415698405
- ISBN-10: 0415698405
- Artikelnr.: 33870525
- Verlag: Taylor & Francis
- Seitenzahl: 472
- Erscheinungstermin: 27. August 2013
- Englisch
- Abmessung: 252mm x 182mm x 26mm
- Gewicht: 1075g
- ISBN-13: 9780415698405
- ISBN-10: 0415698405
- Artikelnr.: 33870525
Nicholas E. Korres is a researcher at the University of Arkansas, USA. Padraig O'Kiely works at Teagasc, the Irish Agricultural Authority, Ireland. John A.H. Benzie is a Professor in the Environmental Research Institute at University College Cork, Ireland. Jonathan S. West is a senior scientist at Rothamsted Research, Harpenden, UK.
1. Sustainable Agriculture and Greenhouse Gas Emissions Part 1:
Legislation-Energy Policy 2. Energy and Agricultural Policy in Relation to
Biomethane, with Particular Reference to the Transport Sector 3. Biomethane
Production with Reference to Land Use Change Part 2: Feedstocks 4. Grass
and Grass Silage: Agronomical Characteristics and Biogas Production 5.
Maize and Maize Silage for Biomethane Production 6. Suitability of
Microalgae and Seaweeds for Biomethane Production 7. Organic Wastes for
Biomethane Production 8. Industrial Residues for Biomethane Production
Part 3: Anaerobic Digestion Technology 9. Anaerobic Digesters: Perspectives
and Challenges 10. Biogas Upgrading and Compression 11. Storage and
Distribution of Biomethane 12. Variation in Anaerobic Digestion: Need for
Process Monitoring 13. General Principles of Data Warehouse and Data Mining
in Anaerobic Digestion Part 4: Genetics and Population Dynamics 14.
Microbial Communities and their Dynamics in Biomethane Production 15. The
Role of Molecular Biology in Optimizing Anaerobic Digestion and Biomethane
Production Part 5: Sustainability in Anaerobic Digestion 16. Life Cycle
Assessment as a Tool for Assessing Biomethane Production Sustainability 17.
The Use of Digestate as a Substitute for Manufactured Fertiliser 18. The
Sustainability of Small-Scale Anaerobic Digesters at Farm Scale 19. Biogas
Technologyfor Developing Countries: An Approach to Sustainable Development
Concluding Remarks Appendix: Anaerobic Digestion Application in a Typical
Cambodia Family Farm - A Case Study
Legislation-Energy Policy 2. Energy and Agricultural Policy in Relation to
Biomethane, with Particular Reference to the Transport Sector 3. Biomethane
Production with Reference to Land Use Change Part 2: Feedstocks 4. Grass
and Grass Silage: Agronomical Characteristics and Biogas Production 5.
Maize and Maize Silage for Biomethane Production 6. Suitability of
Microalgae and Seaweeds for Biomethane Production 7. Organic Wastes for
Biomethane Production 8. Industrial Residues for Biomethane Production
Part 3: Anaerobic Digestion Technology 9. Anaerobic Digesters: Perspectives
and Challenges 10. Biogas Upgrading and Compression 11. Storage and
Distribution of Biomethane 12. Variation in Anaerobic Digestion: Need for
Process Monitoring 13. General Principles of Data Warehouse and Data Mining
in Anaerobic Digestion Part 4: Genetics and Population Dynamics 14.
Microbial Communities and their Dynamics in Biomethane Production 15. The
Role of Molecular Biology in Optimizing Anaerobic Digestion and Biomethane
Production Part 5: Sustainability in Anaerobic Digestion 16. Life Cycle
Assessment as a Tool for Assessing Biomethane Production Sustainability 17.
The Use of Digestate as a Substitute for Manufactured Fertiliser 18. The
Sustainability of Small-Scale Anaerobic Digesters at Farm Scale 19. Biogas
Technologyfor Developing Countries: An Approach to Sustainable Development
Concluding Remarks Appendix: Anaerobic Digestion Application in a Typical
Cambodia Family Farm - A Case Study
1. Sustainable Agriculture and Greenhouse Gas Emissions Part 1:
Legislation-Energy Policy 2. Energy and Agricultural Policy in Relation to
Biomethane, with Particular Reference to the Transport Sector 3. Biomethane
Production with Reference to Land Use Change Part 2: Feedstocks 4. Grass
and Grass Silage: Agronomical Characteristics and Biogas Production 5.
Maize and Maize Silage for Biomethane Production 6. Suitability of
Microalgae and Seaweeds for Biomethane Production 7. Organic Wastes for
Biomethane Production 8. Industrial Residues for Biomethane Production
Part 3: Anaerobic Digestion Technology 9. Anaerobic Digesters: Perspectives
and Challenges 10. Biogas Upgrading and Compression 11. Storage and
Distribution of Biomethane 12. Variation in Anaerobic Digestion: Need for
Process Monitoring 13. General Principles of Data Warehouse and Data Mining
in Anaerobic Digestion Part 4: Genetics and Population Dynamics 14.
Microbial Communities and their Dynamics in Biomethane Production 15. The
Role of Molecular Biology in Optimizing Anaerobic Digestion and Biomethane
Production Part 5: Sustainability in Anaerobic Digestion 16. Life Cycle
Assessment as a Tool for Assessing Biomethane Production Sustainability 17.
The Use of Digestate as a Substitute for Manufactured Fertiliser 18. The
Sustainability of Small-Scale Anaerobic Digesters at Farm Scale 19. Biogas
Technologyfor Developing Countries: An Approach to Sustainable Development
Concluding Remarks Appendix: Anaerobic Digestion Application in a Typical
Cambodia Family Farm - A Case Study
Legislation-Energy Policy 2. Energy and Agricultural Policy in Relation to
Biomethane, with Particular Reference to the Transport Sector 3. Biomethane
Production with Reference to Land Use Change Part 2: Feedstocks 4. Grass
and Grass Silage: Agronomical Characteristics and Biogas Production 5.
Maize and Maize Silage for Biomethane Production 6. Suitability of
Microalgae and Seaweeds for Biomethane Production 7. Organic Wastes for
Biomethane Production 8. Industrial Residues for Biomethane Production
Part 3: Anaerobic Digestion Technology 9. Anaerobic Digesters: Perspectives
and Challenges 10. Biogas Upgrading and Compression 11. Storage and
Distribution of Biomethane 12. Variation in Anaerobic Digestion: Need for
Process Monitoring 13. General Principles of Data Warehouse and Data Mining
in Anaerobic Digestion Part 4: Genetics and Population Dynamics 14.
Microbial Communities and their Dynamics in Biomethane Production 15. The
Role of Molecular Biology in Optimizing Anaerobic Digestion and Biomethane
Production Part 5: Sustainability in Anaerobic Digestion 16. Life Cycle
Assessment as a Tool for Assessing Biomethane Production Sustainability 17.
The Use of Digestate as a Substitute for Manufactured Fertiliser 18. The
Sustainability of Small-Scale Anaerobic Digesters at Farm Scale 19. Biogas
Technologyfor Developing Countries: An Approach to Sustainable Development
Concluding Remarks Appendix: Anaerobic Digestion Application in a Typical
Cambodia Family Farm - A Case Study