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This book provides fundamentals, highlights recent developments and offers new perspectives relating to the use of electrolyzed water (EW) as an emerging user- and environmental-friendly broad-spectrum sanitizer, with particular focus on the food industry. It addresses the generation, inactivation, pesticide degradation and safety of food by EW, illustrates the mechanism of the germicidal action of EW and its antimicrobial efficacy against a variety of microorganisms in suspensions. In addition, the sanitizing effects of combining EW with various chemical and physical sanitizing technologies have been evaluated, and recent developments and applications of EW in various areas including fruits and vegetables, meat, aquatic products, environment sterilization, livestock and agriculture has been described. The book can be a go-to reference book of EW for: (1) Researchers who need to understand the role of various parameters in its generation, the bactericidal mechanism of EW and its wide applications for further research and development; (2) Equipment producers who need comprehensive understanding of various factors (e.g. type of electrolyte, flow rates of water and electrolyte) which govern the efficacy of EW and developing its generators; (3) Food processors who need good understanding of EW in order to implement it in the operations and supervisors who need to balance the advantages and limitations of EW and ensuring its safe use.
This book provides fundamentals, highlights recent developments and offers new perspectives relating to the use of electrolyzed water (EW) as an emerging user- and environmental-friendly broad-spectrum sanitizer, with particular focus on the food industry. It addresses the generation, inactivation, pesticide degradation and safety of food by EW, illustrates the mechanism of the germicidal action of EW and its antimicrobial efficacy against a variety of microorganisms in suspensions. In addition, the sanitizing effects of combining EW with various chemical and physical sanitizing technologies have been evaluated, and recent developments and applications of EW in various areas including fruits and vegetables, meat, aquatic products, environment sterilization, livestock and agriculture has been described. The book can be a go-to reference book of EW for: (1) Researchers who need to understand the role of various parameters in its generation, the bactericidal mechanism of EW and its wide applications for further research and development; (2) Equipment producers who need comprehensive understanding of various factors (e.g. type of electrolyte, flow rates of water and electrolyte) which govern the efficacy of EW and developing its generators; (3) Food processors who need good understanding of EW in order to implement it in the operations and supervisors who need to balance the advantages and limitations of EW and ensuring its safe use.
Postharvest Technologies and Quality Control of Shrimp provides the most updated and comprehensive knowledge on conventional chemical additives, novel natural preservatives, innovative technologies, and packaging solutions employed to enhance the quality and safety of shrimp and shrimp products. The book disseminates current developments in natural preservatives as well as advancements in new technologies to extend the shelf-life of shrimp and their products during different storage conditions. Edited by experts in the field of fisheries and seafood science, this book provides its readership with a broad overview of shrimp postharvest quality losses. The authors have gathered a wealth of recent information and guidance on the utilization of natural preservatives and novel technologies for the quality control of shrimp. Subsequent chapters discuss the impact of handling, processing, and storage on shrimp postharvest quality, followed by various preservatives and technologies employed to retard described quality losses. The book concludes with a discussion of safety and regulation issues related to food additives. - Addresses the most vulnerable and critical issues in shrimp postharvest quality control - Discusses the application of various preservatives to enhance the quality control of shrimp and their side effects - Provides and explains novel technologies, including smart packaging, cold plasma technology, and more in the shelf-life extension of shrimp and shrimp products - Outlines the safety, regulation, and environmental impact of natural preservatives and novel technologies in the area
The book will address selected topics in postharvest pathology aiming at highlighting recent development in the science, technology and control strategies of postharvest diseases to reduce losses and enhance safety of harvested agricultural products. Topics will include: 1) Introduction: Perspectives and challenges in postharvest pathology 2) Elucidating host-pathogen interactions 3) Next generation technologies for management and detection of postharvest pathogens 4) Food safety in postharvest pathology 5) Alternative postharvest diseases control strategies 6) Chemical control of postharvest diseases
Depending on the mechanisms involved in non-thermal technologies (such as ozonization, irradiation, ultrasound processing, plasma processing, and advanced oxidative processes), interaction with food molecules differs, which might lead to desirable reactions. Non-Thermal Technologies for the Food Industry: Advances and Regulations explores the possibility of using non-thermal technologies for various purposes such as shelf-life extension, reduced energy consumption, adhesion, and safety improvement. Further, it reviews the present status of these technologies, international regulations, and sustainability aspects in food processing including global case studies. Features: Provides a comprehensive overview of all the non-thermal processing technologies that have potential for use within food manufacturing Covers novel disinfectant technologies and packaging methods for non-thermal processing Includes electro-spraying and electrospinning; low-temperature drying techniques, cold plasma techniques, hydrodynamic cavitation, oscillating magnetic field processing, and so forth Focus on topics such as the valorization of agri-food wastes and by-products and sustainability Reviews ClO2 in combined/hybrid technologies for food processing This book is aimed at researchers and graduate students in food and food process engineering.
The problem of creating microbiologically-safe food with an acceptable shelf-life and quality for the consumer is a constant challenge for the food industry. Microbial decontamination in the food industry provides a comprehensive guide to the decontamination problems faced by the industry, and the current and emerging methods being used to solve them.Part one deals with various food commodities such as fresh produce, meats, seafood, nuts, juices and dairy products, and provides background on contamination routes and outbreaks as well as proposed processing methods for each commodity. Part two goes on to review current and emerging non-chemical and non-thermal decontamination methods such as high hydrostatic pressure, pulsed electric fields, irradiation, power ultrasound and non-thermal plasma. Thermal methods such as microwave, radio-frequency and infrared heating and food surface pasteurization are also explored in detail. Chemical decontamination methods with ozone, chlorine dioxide, electrolyzed oxidizing water, organic acids and dense phase CO2 are discussed in part three. Finally, part four focuses on current and emerging packaging technologies and post-packaging decontamination.With its distinguished editors and international team of expert contributors, Microbial decontamination in the food industry is an indispensable guide for all food industry professionals involved in the design or use of novel food decontamination techniques, as well as any academics researching or teaching this important subject. - Provides a comprehensive guide to the decontamination problems faced by the industry and outlines the current and emerging methods being used to solve them - Details backgrounds on contamination routes and outbreaks, as well as proposed processing methods for various commodities including fresh produce, meats, seafood, nuts, juices and dairy products - Sections focus on emerging non-chemical and non-thermal decontamination methods, current thermal methods, chemical decontamination methods and current and emerging packaging technologies and post-packaging decontamination
Engineering Aspects of Food Quality and Safety aims to fill the knowledge gap in current technological advances and methods for food safety and quality, dedicating entire sections to analytical techniques from quality testing to packaging, post-harvest methods from product utilization to storage to chemical engineering principles and pre-harvest interventions from genetic engineering and mechanization to the links between pre-and-post harvest techniques. Throughout the book, global policy perspectives are taken into account. An introductory section is also included to cover the role of food processing and engineering in food quality and safety improvement. Encompassing all of the major applications and challenges involved in the engineering aspects of food safety and quality in one source, this work is incredibly valuable to a wide range of food engineers, scientists, and industry professionals involved in the engineering, processing and packaging of both novel and traditional foods. This text provides a detailed overview of the newest methods and advanced technologies used in the improvement of quality and safety in foods. The processes and methods described in this book are applicable to many areas of the food industry including pre-harvest and post-harvest technology, food machinery and product formulation. Featuring contributions from prominent food scientists and engineers across the globe, this work contains detailed coverage of the latest advances in genetic and chemical engineering, mechanization, thermal and non-thermal processing, automation, computational tools, packaging and waste management. The latest analytical techniques are also covered, including chapters dedicated to in-line monitoring, nanosensors, rapid testing kits and E-sensors. Maintaining a high standard of safety for consumers in foods is an interdisciplinary effort involving biologists, chemists, nutritionists, chemical engineers, mechanical engineers and genetic engineers among others. All of these experts will find this book to be a singular source encompassing all of the major current advances in food safety engineering and processing.
The Produce Contamination Problem: Causes and Solutions, Third Edition is a fully revised resource on preventative controls at all stages of handling, including the use of new technologies for the inactivation of pathogens in both water and commodity. The book begins with an analysis of the contamination problem to identify novel research designed to understand the interaction of human pathogens. Outbreak characteristics vulnerable to contamination are discussed, along with global issues surrounding production. This new edition includes updates on regulatory issues and the newest advances in technologies for the detection of pathogens, whole genome sequencing, and utility in test and hold programs. - Includes new information on sustainable production practices, including aero-farming - Presents information on preventative controls at all stages of food handling - Provides information on the use of the latest technologies for the inactivation of pathogens in water, and on commodities
The increase in global population compels growers to use excessive fertilizers to enhance agricultural production. Excessive fertilizer use may also negatively affect the nutritional quality and preservation of horticultural products, reducing the shelf life and overall quality of fruits and vegetables. Postharvest Physiology and Handling of Horticultural Crops contains fundamental information that helps readers understand postharvest physiology of fresh fruits and vegetables, and presents an in-depth analysis of the harmful impacts of agrochemicals. The book presents readers with eco-friendly, innovative techniques used to handle the fruits and vegetables during storage and through supply chains helping to better preserve them. Features · Describes available technologies to eliminate and minimize microbial infection for maintaining postharvest quality and safety of fresh produce. · Explores and discusses approaches, technologies, and management practices necessary to maintain products’ storage quality by ensuring food safety and nutrition retention. · Provides practical applications of latest developments in disinfection applications, smart packaging, nano-enabled applications, advances in fresh-cut products, light illumination and edible coatings. · Presents an in-depth discussion of the harmful impacts of agrochemicals and aims to introduce new, eco-friendly and innovative technologies to the readers. With chapters written by experts in the field of postharvest fruit and vegetable preservation, this book provides information on the use of biomaterials in food preservation and provides practical information for students, teachers, professors, scientists, farmers, food packers and sellers; as well as entrepreneurs engaged in the fresh food preservation industry.
Quality Control in Fruit and Vegetable Processing: Methods and Strategies illustrates the applications of various nonthermal technologies for improving the quality and safety of fruits and vegetables, such as microwave, ultrasound, gamma irradiation, pulsed light, and hurdle technology. The volume also looks at various strategies (osmotic dehydration, ultrasound- and ultrasound-assisted osmotic dehydration, nanoemulsions, and engineered nanomaterials) for the preservation of fresh produce. It emphasizes various nondestructive techniques that have been widely used for the quality assessment of fruits and vegetables during storage, including image analysis, x-ray tomography, magnetic resonance imaging (MRI), nonmagnetic resonance imaging (NMR), color vision system, near-infrared spectroscopy (NIRS), and computerized tomography (CT). Applications of other nondestructive mechanical (such as electronic tongue and nose technology) and dynamic methods (acoustic) for food quality and safety evaluation have also been included. The book concludes with an overview of the potential use of fruit and vegetable waste as a viable feedstock for bioenergy and for the treatment of wastewater. Key features: Promotes the utilization of new and novel nonthermal technologies for the preservation of fruits and vegetables Provide up-to-date information on the applications of nonthermal technologies for the quality and safety of fresh produce during storage Highlights different preservation strategies for improving the quality of fresh produce Explores the use of nondestructive quality assessment methods such as X-ray, MRI, NMR, etc. Discusses the potential industrial use of fruit and vegetable waste as a viable feedstock for bioenergy and for the treatment of industrial wastewater This volume will provide food for thought for those in the food industry on new methods and technology for effective quality control in fruit and vegetable processing.