‘Renewable resources’ is a new and rapidly developing concept in the environmental and chemical sciences that concerns the broad use of renewable raw materials for industry. In today’s environmentally aware society, sustainable development, clean technology and pollution, and green chemistry are integral to this area.
Renewable Bioresources: scope and modification for non-food applications is the first text to consider the broad concept of renewable materials from the socio-economic aspects through to the chemical production and technical aspects of treating different raw products. The text sets the context of the renewables debate with key opening chapters on green chemistry, and the current situation of US and EU policy regarding sustainability and industrial waste. The quantitative and technical scope and production of renewable resources is then discussed with material looking at integral valorisation, the primary production of raw materials, downstream processing, and the identification of renewable crop materials. The latter part of the book concludes with a discussion on the uses for renewable materials such as carbohydrates, woods, fibres, biopolymers, lipids and proteins in different industrial applications, including a key chapter on the high value-added industries.
- Covers the broad concept of renewable resources from different points of view.
- Takes readers through the identification, production, processing and end-applications for renewable raw materials.
- Considers and compares EU and US renewable resources and sustainability objectives.
- Devotes one chapter to green chemistry and sustainability, focussing on the green industrial processes.
This is an essential book for upper level undergraduates and Masters students taking modules on Renewable Resources, Green Chemistry, Sustainable Development, Environmental Science, Agricultural Science and Environmental Technology. It will also benefit industry professionals and product developers who are looking at improved economic and environmental means of utilising renewable materials.
|Product dimensions:||6.79(w) x 9.67(h) x 0.72(d)|
About the Author
Professor Christian Stevens is Coordinator of theWorking Group on the European Master Programme “RenewableResources” (14 different European countries); Co-organiser ofa European Intensive Courses on Renewable Resources; Author ofreviews on Renewable Resources:
- Chemical Modification of Inulin, a Valuable RenewableResource, and its Industrial Applications.Biomacromolecules(2001) and
- Chitosan as Antimicrobial Agent : Applications and Mode ofAction. Biomacromolecules (2003).
He is author/co-author of several patents on RenewableResources and will be the Series Editor of the upcoming serieson Renewable Resources (Wiley)
Table of Contents
List of Contributors.
List of Abbreviations.
1. Green Chemistry and Sustainability (Jeffrey Hardy).
2. Socio-Economical Aspects and Policy of Renewable Resources(Liisa Tahvanainen and Christian V. Stevens).
3. Integral Valorization (Werner Praznik and Christian V.Stevens).
4. Primary Production of Raw Materials (Waldemar Rymowicz).
5. Energy from Renewable Resources (Bio-Energy) (MehrdadArshadi).
6. Identification and Quantification of Renewable Crop Materials(Anton Huber and Werner Praznik).
7. Industrial Products from Carbohydrates, Wood and Fibres(Christian V. Stevens).
8. Occurrence, Functions and Biosynthesis of Non-CarbohydrateBiopolymers (Christian O. Brämer and AlexanderSteinbüchel).
9. Industrial Products from Lipids and Proteins (RolandVerhé).
10. High Value-added Industries (Jan Demyttenaere and JozefPoppe).
11. Renewable Resources: Back to the Future (Christian V.Stevens).