Bioenergy Production by Anaerobic Digestion
Using Agricultural Biomass and Organic Wastes
Nicholas Korres editor Padraig O'Kiely editor John AH Benzie editor Jonathan S West editor
Format:Paperback
Publisher:Taylor & Francis Ltd
Published:14th Aug '18
Currently unavailable, and unfortunately no date known when it will be back
This paperback is available in another edition too:
- Hardback£145.00(9780415698405)
Interest in anaerobic digestion (AD), the process of energy production through the production of biogas, has increased rapidly in recent years. Agricultural and other organic waste are important substrates that can be treated by AD.
This book is one of the first to provide a broad introduction to anaerobic digestion and its potential to turn agricultural crops or crop residues, animal and other organic waste, into biomethane. The substrates used can include any non-woody materials, including grass and maize silage, seaweeds, municipal and industrial wastes. These are all systematically reviewed in terms of their suitability from a biological, technical and economic perspective. In the past the technical competence and high capital investment required for industrial-scale anaerobic digesters has limited their uptake, but the authors show that recent advances have made smaller-scale systems more viable through a greater understanding of optimising bacterial metabolism and productivity. Broader issues such as life cycle assessment and energy policies to promote AD are also discussed.
"The rapid uptake of anaerobic digestion throughout Europe to achieve energy and nutrient recovery from organic wastes, has led to a commensurate increase in the technical literature around waste digestion. This timely publication provides an excellent synthesis of our present understanding whilst highlighting the outstanding problems. It provides both researchers and practitioners a easy route into this challenging subject area." – Nigel Horan, University of Leeds, and Chair of Aqua Enviro Ltd, UK
ISBN: 9781138364103
Dimensions: unknown
Weight: 453g
472 pages