Sustainable food processing and engineering challenges : [electronic book] /
Contributor(s): Galanakis, Charis M [editor].
Publisher: London : Academic Press, 2021Description: 1 online resource (xviii, 375 pages : illustrations).Content type: text Media type: computer Carrier type: online resourceISBN: 9780128227152.Subject(s): Food industry and trade -- Environmental aspectsDDC classification: 664.02 Online resources: Access ebook here| Item type | Current library | Call number | Status | Notes | Date due | Barcode | Item holds |
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Ebook
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ATU Sligo Yeats Library eBook | 664.02 GAL (Browse shelf(Opens below)) | Available Online | Single User |
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Includes bibliographical references and index.
Cover -- Title page -- Copyright -- Contents -- Contributors -- Preface -- Chapter 1 -- Industry 4.0 Applied to Food -- 1 -- Introduction and background -- 2 -- Food industry and Industry 4.0 -- 3 -- Objective and methodology -- 4 -- Key principles of Industry 4.0 in the food industry -- 4.1 -- Enabling technologies in the food industry -- 4.2 -- Industry-level -- 4.3 -- Supply chain-level -- 4.4 -- Company-level -- 4.5 -- Business area-level -- 4.6 -- Sustainability and Industry 4.0 -- 5 -- Food 4.0 framework -- 6 -- Discussions and future research avenues -- References
Chapter 2 -- Pasteurization of Juices with Non-Thermal Technologies -- 1 -- Introduction -- 2 -- Pulsed electric field treatment -- 2.1 -- Definition of pulsed electric field process -- 2.2 -- Pulsed electric field system -- 2.3 -- Critical parameters in pulsed electric field process -- 2.4 -- Electroporation phenomena -- 2.5 -- Ohmic heating effect during pulsed electric field -- 2.6 -- Susceptibility of microorganisms to pulsed electric fields -- 2.7 -- Pulsed electric field effects on enzymes -- 2.8 -- Impact of pulsed electric field treatment on nutrients
2.9 -- Physicochemical properties of the pulsed electric field treated juice -- 2.10 -- Benefits and drawbacks -- 3 -- High-pressure processing -- 3.1 -- Principle of high-pressure processing -- 3.2 -- Design of high-pressure system -- 3.3 -- Microbial inactivation by high-pressure application -- 3.4 -- Effect of high-pressure process on enzyme structure -- 3.5 -- Effect of high-pressure processing on juice properties -- 3.6 -- Effect of HPP on physical properties of the juice -- 3.7 -- Advantages and limitations of high-pressure processing -- 4 -- High-pressure carbon dioxide processing
4.1 -- Description of high-pressure carbon dioxide -- 4.2 -- High-pressure carbon dioxide process system -- 4.3 -- Mechanism of carbon dioxide bactericidal action -- 4.4 -- Inactivation mechanism of enzymes -- 4.5 -- Effect on the physicochemical attributes of juice -- 4.6 -- Potentials and limitations of high-pressure carbon dioxide technology -- 5 -- Sonication treatment -- 5.1 -- Definition of sonication -- 5.2 -- Design of sonication system -- 5.3 -- Mechanism of cavitation -- 5.4 -- Effect of sonication on microorganisms -- 5.5 -- Ultrasonic application in enzymes inactivation
5.6 -- Effect of sonication on physicochemical attributes of juice -- 5.7 -- Advantages and limitations of ultrasonication -- 6 -- Ultraviolet treatment -- 6.1 -- Definition and description of ultraviolet treatment -- 6.2 -- Ultraviolet equipment -- 6.3 -- Sensitivity of microorganisms to ultraviolet -- 6.4 -- Effects on nutritional aspects -- 6.5 -- Impact on juice appearance -- 6.6 -- Advantages and disadvantages -- 7 -- Ozone processing -- 7.1 -- Ozone overview -- 7.2 -- Methods of ozone generation -- 7.3 -- Factors affecting the efficacy of ozone treatment -- 7.4 -- Antimicrobial action of ozone
7.5 -- Effect on juice quality