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Green Chemistry Series
Alternatives to Conventional Food Processing
Edited by
Andrew Proctor
Andrew Proctor
University of Arkansas, USA
Search for other works by this author on:
Hardback ISBN:
978-1-78262-518-6
PDF ISBN:
978-1-78262-659-6
EPUB ISBN:
978-1-78801-403-8
Special Collection:
2018 ebook collection
Series:
Green Chemistry Series
No. of Pages:
509
Published online:
17 Jan 2018
Published in print:
31 Jan 2018
About this book
Traditional thermal and freezing processing techniques have been effective in maintaining a safe high quality food supply. However, increasing energy costs and the desire to purchase environmentally responsible products have been a stimulus for the development of alternative technologies. Furthermore, some products can undergo quality loss at high temperatures or freezing, which can be avoided by many alternative processing methods.
This second edition of Alternatives to Conventional Food Processing provides a review of the current major technologies that reduce energy cost and reduce environmental impact while maintaining food safety and quality. New technologies have been added and relevant legal issues have been updated. Each major technology available to the food industry is discussed by leading international experts who outline the main principles and applications of each. The degree to which they are already in commercial use and developments needed to extend their use further are addressed.
This updated reference will be of interest to academic and industrial scientists and engineers across disciplines in the global food industry and in research, and to those needing information in greener or more sustainable technologies.
Alternatives to Conventional Food Processing, The Royal Society of Chemistry, 2018.
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Digital access
$279.00
Print format
Alternatives to Conventional Food Processing
$279.00
Table of contents
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Chapter 1: Principles of Green Food Processing (Including Lifecycle Assessment and Carbon Footprint)p1-52ByG. J. Thoma;G. J. ThomaRalph E. Martin Department of Chemical Engineering, University of ArkansasFayettevilleAR 72701USA[email protected]Search for other works by this author on:S. W. Ellsworth;S. W. EllsworthDepartment of Food Science, University of ArkansasFayettevilleAR 72701USASearch for other works by this author on:M. J. YanM. J. YanSchool of Biosystems and Food Engineering, University College DublinBelfieldDublin 4IrelandSearch for other works by this author on:
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Chapter 2: Food Law and Sustainable Food Processing: A Comparison of the EU and the USAp53-94ByNeal D. FortinNeal D. FortinInstitute for Food Laws and Regulation, Michigan State University469 Wilson Road, 139 Trout Food ScienceEast LansingMI 48824USA[email protected]Search for other works by this author on:
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Chapter 3: Ohmic Heating of Foodsp95-137ByJames G. Lyng;James G. LyngUCD Institute of Food and Health, UCD School of Agriculture and Food Science, University College DublinDublinIreland[email protected][email protected][email protected]Search for other works by this author on:Brian M. McKenna;Brian M. McKennaUCD Institute of Food and Health, UCD School of Agriculture and Food Science, University College DublinDublinIreland[email protected][email protected][email protected]Search for other works by this author on:Cristina ArroyoCristina ArroyoUCD Institute of Food and Health, UCD School of Agriculture and Food Science, University College DublinDublinIreland[email protected][email protected][email protected]Search for other works by this author on:
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Chapter 4: Cold Plasma Processing to Improve Food Safetyp138-152ByBrendan A. NiemiraBrendan A. NiemiraUnited States Department of Agriculture, Eastern Regional Research Center600 Mermaid LaneWyndmoorPA 19038USA[email protected]Search for other works by this author on:
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Chapter 5: Supercritical Fluid Pasteurization and Food Safetyp153-195BySara Spilimbergo;Sara SpilimbergoDepartment of Materials Industrial Engineering, University of PadovaVia Marzolo 935131 PadovaItaly[email protected]Search for other works by this author on:Michael A. Matthews;Michael A. MatthewsDepartment of Chemical Engineering, University of South Carolina301 Main StreetColumbiaSC 29208USASearch for other works by this author on:Allesandro ZambonAllesandro ZambonDepartment of Materials Industrial Engineering, University of PadovaVia Marzolo 935131 PadovaItaly[email protected]Search for other works by this author on:
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Chapter 6: Developments in the Processing of Foods and Natural Products Using Pressurized Fluidsp196-250ByKeerthi Srinivas;Keerthi SrinivasBioproducts, Sciences and Engineering Laboratory, Washington State UniversityTri-Cities, 2710 Crimson WayRichlandWA 99354USA[email protected]Search for other works by this author on:Jerry W. KingJerry W. KingCritical Fluids Symposia and University of Arkansas1965 E. Spinel Link #7FayettevilleAR 72701USASearch for other works by this author on:
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Chapter 7: High Hydrostatic Pressure Food Processing: Potential and Limitationsp251-315ByStephanie Jung;Stephanie JungDepartment of Food Science and Nutrition, California Polytechnic State University1 Grand AvenueSan Luis ObispoCA 93407USA[email protected]Search for other works by this author on:Carole Tonello-SamsonCarole Tonello-SamsonHiperbaricCalle Condado de Trevino 6, Pol. Industrial Villalonquejar09001 BurgosSpainSearch for other works by this author on:
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Chapter 8: Ultrasonic Food Processingp316-354ByThomas S. H. Leong;Thomas S. H. LeongThe ARC Dairy Innovation Hub, The University of MelbourneParkvilleVictoria 3010Australia[email protected]School of Chemistry, The University of MelbourneParkvilleVictoria 3010AustraliaSearch for other works by this author on:Gregory J. O. Martin;Gregory J. O. MartinThe ARC Dairy Innovation Hub, The University of MelbourneParkvilleVictoria 3010Australia[email protected]Department of Chemical Engineering, The University of MelbourneParkvilleVictoria 3010AustraliaSearch for other works by this author on:Muthupandian AshokkumarMuthupandian AshokkumarThe ARC Dairy Innovation Hub, The University of MelbourneParkvilleVictoria 3010Australia[email protected]School of Chemistry, The University of MelbourneParkvilleVictoria 3010AustraliaSearch for other works by this author on:
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Chapter 9: High-intensity Pulsed Light Processingp355-396ByCarmen I. MoraruCarmen I. MoraruSearch for other works by this author on:
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Chapter 10: Infrared Food Processing Technology: Fundamentals and Case Studies of Recent Advances in Grain Processingp397-417ByGriffiths G. AtunguluGriffiths G. AtunguluDepartment of Food Science, University of Arkansas Division of Agriculture2650 N. Young AvenueFayettevilleAR 72704USA[email protected]Search for other works by this author on:
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Chapter 11: Membrane Separationsp418-498ByKoen Dewettinck;Koen DewettinckLaboratory of Food Technology and Engineering, Department of Food Safety and Food Quality, Faculty of BioScience Engineering, Ghent UniversityCoupure Links 6539000 GhentBelgium[email protected]Search for other works by this author on:Thien Trung Le;Thien Trung LeDepartment of Food Engineering, Faculty of Food Science and Technology, Nong Lam UniversityQuarter 6, Linh Trung Ward, Thu Duc DistrictHo Chi Minh CityVietnamSearch for other works by this author on:Viet Bao NguyenViet Bao NguyenDepartment of Chemical Engineering, Nong Lam UniversityQuarter 6, Linh Trung Ward, Thu Duc DistrictHo Chi Minh CityVietnamSearch for other works by this author on:
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