Nonthermal Food Processing, Safety, and Preservation

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Autore:	Prakash Anand
Titolo:	Nonthermal Food Processing, Safety, and Preservation
Pubblicazione:	John Wiley & Sons, Inc, 2024
	Newark : , : John Wiley & Sons, Incorporated, , 2024
	©2024
Edizione:	1st ed.
Descrizione fisica:	1 online resource (539 pages)
Soggetto topico:	Food contamination
	Food packaging machinery industry
Altri autori:	KuilaArindam
Nota di contenuto:	Cover -- Title Page -- Copyright Page -- Contents -- Preface -- Chapter 1 Selected Physical Properties of Processed Food Products and Biological Materials -- 1.1 Introduction -- 1.2 Physical Properties -- 1.2.1 Shape -- 1.2.2 Texture -- 1.2.3 Crystalline Structure and Amorphous State -- 1.2.4 Flavor -- 1.2.5 Color -- 1.2.6 Thickening -- 1.2.7 Water Activity -- 1.2.8 Porosity -- 1.2.9 Measurement -- 1.3 Physical Analysis Methods in the Food Industry -- 1.3.1 Techniques for Nondestructive Physical Methods -- 1.3.2 Techniques for Mechanical Impact Assessment -- 1.3.3 Emerging Techniques of Measurement of Firmness -- 1.3.4 Techniques for Crispness Measurement -- 1.3.5 Techniques to Measure Porosity -- 1.3.6 Technique to Measure Glass Transition -- 1.3.7 Techniques to Measure Thickness -- 1.4 Conclusion -- References -- Chapter 2 Mathematical Modeling and Simulation-Computer-Aided Food Engineering -- 2.1 Introduction -- 2.2 The Necessity of Modeling and Simulation in Computer-Aided Food Engineering -- 2.3 Different Types of Mathematical Modeling Applied in the Food Industry -- 2.3.1 Mechanistic Modeling -- 2.3.2 Multiphase Modeling -- 2.3.3 Multiscale Modeling -- 2.3.4 Process-Based Modeling -- 2.3.5 Biochemical Modeling -- 2.3.6 Multiframe Modeling -- 2.4 The Call for Modeling Frameworks in the Food Industry -- 2.5 Case Studies in Modeling -- 2.5.1 Case Studies in Potato Crisps (Chips) Production -- 2.5.1.1 Making a Resolution -- 2.5.1.2 The Negative Closed-Loop System-Imitated Trials -- 2.5.2 Initial Soybean-Related Drying Procedure and Storage Conditions and Influences on Physicochemical Grain Quality Studied with the Help of Mathematical Modeling and Multivariate Analysis -- 2.5.2.1 Quality of Stored Soybeans -- 2.5.2.2 Multivariate Analysis -- 2.5.3 Conclusion -- 2.6 Simulators and Their Synergy with Food Industry Models.
	2.6.1 Applications of Simulation Software in Food Plants -- 2.7 Relevant Simulators Used in Food Packaging -- 2.7.1 Vacuum Cooling of Food Products -- 2.7.2 Microwave Drying -- 2.8 Challenges Faced by Present-Day Models -- 2.9 Summary -- References -- Chapter 3 Dietary Diversification and Biofortification: An Attempt at Strengthening Food Security -- 3.1 Introduction -- 3.2 Dietary Diversification -- 3.2.1 Underutilized Crops -- 3.2.2 A Few Parameters for Better Implementation of Food Diversity -- 3.3 Supplementation -- 3.3.1 Impact of Food Supplementation -- 3.4 Food Fortification -- 3.4.1 Need for Food Fortification -- 3.4.2 Standards for Effective Food Fortification -- 3.4.3 Types of Food Fortification -- 3.4.4 Foods that are Generally Fortified -- 3.5 Biofortification -- 3.5.1 Methods of Biofortifying Crops -- 3.5.1.1 Agronomic Approaches -- 3.5.1.2 Plant Breeding -- 3.5.1.3 Genetic Engineering -- 3.5.2 Examples of Biofortified Crops -- 3.5.3 Enhancement of Nutritional Value in Different Staple Crops by Biofortification -- 3.6 Inference -- References -- Chapter 4 Emerging Sensors, Sensing Technology in the Food and Beverage Industry -- 4.1 Introduction -- 4.2 Sensing Technologies in Food Analysis: Overcoming Challenges for Swift and Reliable Quality Assessment -- 4.3 Sensors -- 4.3.1 Types of Sensors -- 4.3.2 Benzene in Soft Drinks -- 4.3.3 Nitrosamine -- 4.4 Applications -- 4.4.1 Tea Biosensor -- 4.4.2 Biosensor for Ascorbic Acid Analysis -- 4.5 Summary -- References -- Chapter 5 Modern Luminescent Technologies Embraced in Food Science and Engineering -- 5.1 Introduction -- 5.2 Basic Principle of Luminescence -- 5.2.1 Different Categories of Luminescence -- 5.2.2 Luminophores -- 5.2.3 Types of Luminophores -- 5.2.4 Sensor/Probes -- 5.2.5 Recent Luminescent Technologies -- 5.2.6 Excitation-Emission Matrix Fluorescence Spectroscopy.
	5.2.7 Hyperspectral Imaging -- 5.2.8 Time Resolved Fluorescence Microscopy -- 5.2.9 Super Resolution Fluorescence Microscopy -- 5.2.10 Other Techniques -- 5.2.11 Applications of Luminescence Techniques -- 5.2.12 Food Quality and Safety -- 5.2.13 Food Matrix Studies -- 5.2.14 Food Packaging -- 5.3 Conclusion -- References -- Chapter 6 Combining Different Thermal and Nonthermal Processing by Hurdle Technology -- 6.1 Introduction -- 6.1.1 Examples of Hurdle Effect -- 6.2 Combinations of Different Thermal and Nonthermal Processing by Hurdle Technology -- 6.2.1 Pasteurization and Sterilization -- 6.2.2 Dielectric Heating -- 6.2.3 Infrared Heating -- 6.2.4 Ozone Processing -- 6.2.5 Ionizing Radiation -- 6.2.6 High-Pressure Processing -- 6.2.7 High-Intensity Ultrasound -- 6.2.8 Pulsed Electric Field -- 6.3 Conclusion -- References -- Chapter 7 Ultrasonication, Pulsed Electric Fields, and High Hydrostatic Pressure: Most Discussed Nonthermal Technologies -- 7.1 Introduction -- 7.2 High Hydrostatic Pressure -- 7.2.1 Process -- 7.2.2 Factors Affecting -- 7.2.3 Advantages -- 7.2.4 Applications -- 7.3 Ultrasonication -- 7.3.1 Process -- 7.3.2 Factors Affecting -- 7.3.3 Advantages -- 7.3.4 Application -- 7.4 Pulsed Electric Field -- 7.4.1 Process -- 7.4.2 Factors Affecting -- 7.4.3 Advantages -- 7.4.4 Applications -- 7.5 Conclusion -- References -- Chapter 8 Dietary Diversification, Supplementation, Biofortification, and Food Fortification -- 8.1 Introduction -- 8.2 Changing Patterns of Diet (Dietary Diversification) -- 8.3 Dietary Diversification and Functional Outcomes -- 8.3.1 Child Growth -- 8.3.2 Cognition Ability -- 8.3.3 Gut Health -- 8.3.4 Preeclampsia -- 8.4 Food Collaborations to Improve the Bioavailability of Micronutrients -- 8.4.1 Bioavailability of Iron -- 8.4.2 Bioavailability of Provitamin A -- 8.4.3 Bioavailability of Zinc.
	8.5 Malnutrition Tendencies -- 8.6 Need for Nutritional Supplements -- 8.7 A Balanced Diet and Dietary Supplements -- 8.8 Formulating Supplements -- 8.9 Categorization of Supplements -- 8.10 Malnutrition and Its Impact -- 8.11 Biofortification -- 8.12 Mineral Trace Element Biofortification for the Human Diet -- 8.12.1 Implementing Biofortification -- 8.13 Recent Status of Biofortified Crops -- 8.13.1 Provitamin A OSP -- 8.13.2 Provitamin A Yellow Cassava -- 8.13.3 Provitamin A Orange Maize -- 8.13.3.1 Zinc Rice -- 8.13.3.2 Iron Crops -- 8.14 Food Fortification -- 8.15 The Efficiency of Food Fortification as a Public Health Intervention -- 8.16 Consumer Awareness and Communications -- 8.17 Conclusion -- References -- Chapter 9 Role of Nanotechnology in Food Processing -- 9.1 Introduction -- 9.2 Role of Nanotechnology in Food Science -- 9.3 Nonthermal Methods of Preparing Food Ultrasonication -- 9.3.1 Cold Plasma Technology -- 9.3.1.1 Plasma Science -- 9.3.1.2 Plasma Technology -- 9.3.1.3 Types of Plasma -- 9.3.1.4 Plasma Sources -- 9.3.1.5 Types of Cold Plasma Systems -- 9.3.2 Supercritical Technology -- 9.4 Various Technologies in Nanopackaging -- 9.4.1 Nano-Based Antimicrobial Packaging -- 9.4.2 Nano Biodegradable Packaging -- 9.4.3 Chemical Release Nanopackaging -- 9.5 Food Packaging Containing Nanomaterials -- 9.5.1 Improved Food Packaging -- 9.5.2 Active Packaging -- 9.5.3 Intelligent Packaging -- 9.5.4 Bio-Based Packaging -- 9.6 Safety Issues in Food Nanotechnology -- 9.7 Nanoparticles in Food Packaging: Toxicological Aspects -- 9.8 Conclusion -- References -- Chapter 10 Effect of High-Pressure Processing on the Functionality of Food Starches-A Review -- 10.1 Introduction -- 10.2 Starch and Its Modification -- 10.3 High-Pressure Processing -- 10.3.1 Gelatinization and Retrogradation -- 10.3.2 Physiochemical Modification of HPP-Treated Starch.
	10.3.3 Starch-Based Hydrogels -- 10.3.4 Influence of HPP on Starch Digestibility and Texture -- 10.3.5 Crystallinity of Starches -- 10.3.6 Granule Morphology and Swelling -- 10.3.7 Water Absorption Studies -- 10.4 Application of HPP in Enhancing Resistant Starch Content -- Conclusion -- References -- Chapter 11 Separation, Extraction, and Concentration Processes in the Food and Beverage Processing -- 11.1 Introduction -- 11.2 Processing Techniques for Beverages -- 11.2.1 Fruit Beverages and Drinks -- 11.2.2 Alcoholic Beverages -- 11.2.3 Fermentative Production of Ethanol from Yeast -- 11.2.4 General Aspects of Production of Alcoholic Beverages -- 11.2.5 Fermentative Approach for the Production of Beer -- 11.2.6 Different Varieties of Beer -- 11.2.7 Fermentation of Wine Production -- 11.2.8 Different Varieties of Wine -- 11.2.9 Processing Technologies for Wine -- 11.2.9.1 Separation of Alcohol and Water -- 11.2.9.2 Use Fractionating Column Within the Flask's Mouth -- 11.2.9.3 Condensation Process for Steam -- 11.2.9.4 Freezing Process for Separation of Alcohol -- 11.2.9.5 Storage of Alcoholic Beverage in Big Container -- 11.2.9.6 Removal of Container with the Frozen Substance -- 11.2.9.7 "Salting Out" Phenomenon for Separation of Alcohol from Water -- 11.3 Extraction Methods for Liquid Food Samples -- 11.3.1 Supercritical Fluid Extraction Process -- 11.3.2 Liquid-Liquid Extraction -- 11.3.3 Solid-Phase Extraction -- 11.3.4 Solid-Phase Microextraction -- 11.3.5 Bioreactor Design for Extraction of Solids Using SCF -- 11.3.5.1 Shake Flask Extraction -- 11.3.5.2 Soxhlet Extraction -- 11.3.5.3 QuEChERS Methodology -- 11.3.5.4 Ultrasound-Assisted Extraction -- 11.3.5.5 Microwave-Assisted Extraction -- 11.3.5.6 Supercritical Fluid Extraction -- 11.3.5.7 Accelerated Solvent Extraction -- 11.3.6 Extraction of Volatile Compounds -- 11.3.7 Applications.
	11.4 Conclusion.
Sommario/riassunto:	This book, edited by Anand Prakash and Arindam Kuila, explores advanced nonthermal technologies in food processing, focusing on safety and preservation. It covers topics such as physical properties of processed foods, mathematical modeling in food engineering, and the role of emerging sensors and luminescent technologies in food analysis. The book discusses various nonthermal processing techniques like high-pressure processing, pulsed electric fields, and hurdle technology to enhance food safety and quality. It also addresses dietary diversification, food fortification, and the use of nanotechnology in food packaging. Aimed at professionals and researchers in the food science industry, the book provides insights into innovative methods for improving food safety and extending shelf life.
Titolo autorizzato:	Nonthermal Food Processing, Safety, and Preservation
ISBN:	9781394186624
	1394186622
	9781394186631
	1394186630
Formato:	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione:	Inglese
Record Nr.:	9910877078303321
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