Economic Utilisation of Food Co-Products
Abbas Kazmi editor Peter Shuttleworth editor
Format:Hardback
Publisher:Royal Society of Chemistry
Published:9th Oct '13
Currently unavailable, and unfortunately no date known when it will be back
As the world’s population continues to grow so does the demand for food, and in consequence the amount of material left over from food production. No longer considered simply as "waste", many food co-products are being identified as economically-viable raw materials and their potential is enhanced by modern processing technologies and the biorefinery concept.
This book presents a general overview of the current situation, with perspectives from within the food industry and policy makers in the introductory chapters. These are followed by five chapters exploring modern advanced processing techniques. Further chapters are dedicated to separate food groups, including cereals, oils, rice and fish, exploring the potential for making the best use of the co-products generated.
Many of the processing technologies discussed will be familiar to students and practitioners of green chemistry, but the book goes further in presenting examples and case studies, written by active workers in the field from across the globe. Food technicians and process engineers will be amongst the researchers in academia and industry and postgraduate students this book is aimed for.
The target readership includes practitioners of green chemistry, process engineers, food chemists and technicians both in academia and industry. A considerable part of the book may form the basis of MSc and PhD courses.
* Current Green Chemistry *Most of the chapters are written clearly and with passion
An advantage of is that every chapter starts with quite an elaborate introduction, combining many useful knowledge.
This book is particularly a good start for students or professionals who just started in this field and want to learn a variety of topics to get a good perspective.
* DOI 10.1515/gps-2014-0006 Green Process Synth 2014; 3: 1ISBN: 9781849736152
Dimensions: unknown
Weight: 513g
246 pages