Adapting High Hydrostatic Pressure (HPP) for Food Processing Operations


Book Description

Adapting High Hydrostatic Pressure (HPP) for Food Processing Operations presents commercial benefits of HPP technology for specific processing operations in the food industry, including raw and ready-to-eat (RTE) meat processing, dairy and seafood products, drinks and beverages, and other emerging processes. The book presents high hydrostatic pressure processing (HPP) for treatment of different groups of raw and finished products, focusing on specific pressure-induced effects that will lead to different biological impacts, and the information necessary for specifying HPP process and equipment. It also discusses phenomena of compression heating, the HPP in-container principle, requirements for plastic materials, factors affecting efficacy of HPP treatments, and available commercial systems. Additionally, the book provides updated information on the regulatory status of HPP technology around the world. This book is an ideal concise resource for food process engineers, food technologists, product developers, federal and state regulators, equipment manufacturers, graduate students, and educators involved in research and development. Includes case studies for HPP treatment of commercially produced foods with information regarding different HPP processing equipment Gives examples of specific applications for meat and poultry products treatments, fresh juices and beverages, and seafood Covers energy savings, environmental aspects of HPP technology, and regulatory status




Non-thermal Food Processing Operations


Book Description

Non-thermal Food Processing Operations, a volume in the Unit Operations and Processing Equipment in the Food Industry series, explains the processing operations and equipment necessary for the recent invented non-thermal processing of different food products. Divided into six sections, "Ozonation operations ", "Plasma processing operations, "Irradiation operations, "Pulsed electric fields processing operations, "High pressure processing operations, and "Radio frequency processing operations, all chapters emphasize basic texts relating to experimental, theoretical, computational and/or applications of food engineering principles and the relevant processing equipment needed to low-temperature unit operations. Written by experts in the field of food engineering in a simple and dynamic way, this book targets Industrial Engineers and food factory workers from the field of food processing. Readers of the book will find information that will help them become more familiar with food processing operations and equipment. - Thoroughly explores new opportunities in food processing through non-thermal processes - Helps readers better understand equipment in non-thermal unit operations - Clarifies different non-thermal processing facilities and equipment for various types of food products




Handbook of Research on Food Processing and Preservation Technologies


Book Description

Handbook of Research on Food Processing and Preservation Technologies will be a 5-volume collection that attempts to illustrate various design, development, and applications of novel and innovative strategies for food processing and preservation. The role and applications of minimal processing techniques (such as ozone treatment, vacuum drying, osmotic dehydration, dense phase carbon dioxide treatment, pulsed electric field, and high-pressure assisted freezing) are also discussed, along with a wide range of applications. The handbook also explores some exciting computer-aided techniques emerging in the food processing sector, such as robotics, radio frequency identification (RFID), three-dimensional food printing, artificial intelligence, etc. Some emphasis has also been given on nondestructive quality evaluation techniques (such as image processing, terahertz spectroscopy imaging technique, near infrared, Fourier transform infrared spectroscopy technique, etc.) for food quality and safety evaluation. The significant roles of food properties in the design of specific foods and edible films have been elucidated as well. The first volume in this set, Nonthermal and Innovative Food Processing Methods, provides a detailed discussion of many nonthermal food process techniques. These include high-pressure processing, ultraviolet light technology, microwave-assisted extraction, high pressure assisted freezing, microencapsulation, dense phase carbon dioxide aided preservation, to name a few. The volume is a treasure house of valuable information and will be an excellent reference for researchers, scientists, students, growers, traders, processors, industries, and others.




Emerging Technologies for the Food Industry


Book Description

With changing consumer preferences and a focus on developing resilient food systems, food processing is finding its place in key policies, government interventions, global trade, and the overall food and nutritional security. Given this, this new 3-volume set presents a compilation of emerging and futuristic food processing technologies, introducing fundamental concepts of food technology, trending applications, and a range of interdisciplinary concepts that have found numerous interwoven applications in the food industry. Volume 2 focuses on nonthermal processing and its applications, which includes high-pressure processing, ultrasound processing, high intensity pulsed light technology, pulsed electric field processing, cold plasma, ozone processing, as well as the use of sub- and supercritical processing. It also discusses emerging electrohydrodynamic technologies: electrospinning and electrospraying. This volume provides rich content on fundamental concepts, applications, and challenges in nonthermal processing, throwing light on the scope of developing sustainable technologies for the food industry. The other volumes in the series are Volume 1: Fundamentals of Food Processing Technology, which presents the basics of food preservation, covering hurdle technology, aspects of minimal processing, ohmic heating of foods, edible coatings, and electromagnetics and allied applications in food processing; and Volume 3: ICT Applications and Future Trends in Food Processing, which provides an exploration of the future of food processing, highlighting certain emerging and disruptive technologies and their gaining influence in the food sector.




Food Engineering


Book Description

Given the rapid growth of engineering fields, namely the food industry with novel food process technologies, novel ingredients, advanced enzyme production and applications, and other complementary technologies, this book will disclose the latest trends in food engineering. This text is a compilation of selected research articles and reviews covering current efforts in research in and application of emerging technologies in the food industry. The chapters in this book are divided into three broad sections. Section 1 deals with introductory information about enzyme application, preserving treatments (such as thermal treatment, active packaging concepts) in a sustainable, cost-effective manner, inclusion in food processing of wild edible plants as a part of cultural and generic heritage, and the upscaling of extraction techniques to increase the bioavailability of bioactive compounds. Section 2 provides data concerning the food industry's emerging technologies. Section 3 reveals the latest trends in food fortification. Overall, this book serves as an inspiring source for both scientific and industrial actors or anyone involved in any aspect related to the food industry.




Non-thermal Processing of Foods


Book Description

This book presents the latest developments in the area of non-thermal preservation of foods and covers various topics such as high-pressure processing, pulsed electric field processing, pulsed light processing, ozone processing, electron beam processing, pulsed magnetic field, ultrasonics, and plasma processing. Non-thermal Processing of Foods discusses the use of non-thermal processing on commodities such as fruits and vegetables, cereal products, meat, fish and poultry, and milk and milk products. Features: Provides latest information regarding the use of non-thermal processing of food products Provides information about most of the non-thermal technologies available for food processing Covers food products such as fruits and vegetables, cereal products, meat, fish and poultry, and milk and milk products Discusses the packaging requirements for foods processed with non-thermal techniques The effects of non-thermal processing on vital food components, enzymes and microorganisms is also discussed. Safety aspects and packaging requirements for non-thermal processed foods are also presented. Rounding out coverage of this technology are chapters that cover commercialization, regulatory issues and consumer acceptance of foods processed with non-thermal techniques. The future trends of non-thermal processing are also investigated. Food scientists and food engineers, food regulatory agencies, food industry personnel and academia (including graduate students) will find valuable information in this book. Food product developers and food processors will also benefit from this book.




Non-Thermal Processing Technologies for the Meat, Fish, and Poultry Industries


Book Description

Processed products obtained from meat, fish, and poultry play a predominant role ascribed to their nutritional profile and sensory characteristics. Usually, these products are highly perishable, and, therefore, the food industry used traditional thermal methods of heat processing in order to extend the stability of the product to the greatest extent. But this traditional method has several disadvantages including undesirable changes in organoleptic characteristics, denaturation of the good quality of animal proteins, and degradation of several nutritional components. Non-Thermal Processing Technologies for the Meat, Fish, and Poultry Industries addresses stability enhancement of meat-, fish-, and poultry-processed products by implementing a non-thermal approach. Currently, there are several innovative non-thermal processing techniques available that can be adopted for enhancing the safety quality of these foods. This book presents the various non-thermal processing techniques that can be successfully applied to this processing industry, including high-pressure processing, ultrasound, irradiation, and pulse electric fields. It explains how these processes can signifantly minimize quality changes without posing any threat to the consumer. These techniques can be replaced for traditional thermal processing techniques viz. roasting, frying, boiling, and grilling. This book benefits food scientists, food process engineers, academicians, students, and food industrial professionals by providing in-depth knowledge of non-thermal processing of foods for meat, fish, and poultry product quality retention as well as for efficient consumer acceptability. The text contains current and emerging trends in the use of non-thermal processing techniques for its application in these industries.




Technological Developments in Food Preservation, Processing, and Storage


Book Description

In recent years, professionals have combined nutrition, health, and engineering sciences to develop new technologies within the food industry. As we are beginning to shift focus on how we view the health benefits of various food products, perseveration and processing techniques have become much more vital. New developments regarding how we store and preserve food are emerging rapidly, making it necessary for research to be done that studies the latest scientific improvements and contemporary methods of food processing. Technological Developments in Food Preservation, Processing, and Storage is a collection of innovative research on the latest developments and advancements of preservation technologies and storage methods within the food processing industry. While highlighting topics including nutritional supplements, microfiltration, and thermal technology, this book is ideally designed for biologists, nutrition scientists, health professionals, engineers, government officials, policymakers, food service professionals, industry practitioners, researchers, academicians, and students.




Innovative Technologies for Food Preservation


Book Description

Innovative Technologies for Food Preservation: Inactivation of Spoilage and Pathogenic Microorganisms covers the latest advances in non-thermal processing, including mechanical processes (such as high pressure processing, high pressure homogenization, high hydrodynamic pressure processing, pressurized fluids); electromagnetic technologies (like pulsed electric fields, high voltage electrical discharges, Ohmic heating, chemical electrolysis, microwaves, radiofrequency, cold plasma, UV-light); acoustic technologies (ultrasound, shockwaves); innovative chemical processing technologies (ozone, chlorine dioxide, electrolysis, oxidized water) and others like membrane filtration and dense phase CO2. The title also focuses on understanding the effects of such processing technologies on inactivation of the most relevant pathogenic and spoilage microorganisms to ensure food safety and stability. Over the course of the 20th century, the interest and demand for the development and application of new food preservation methods has increased significantly. The research in the last 50 years has produced various innovative food processing technologies and the use of new technologies for inactivation of spoilage and/or pathogenic microorganisms will depend on several factors. At this stage of development there is a need to better understand the mechanisms that govern microbial inactivation as induced by new and innovative processing technologies, as well as suitable and effective conditions for inactivating the microorganism. - Serves as a summary of relevant spoilage and pathogenic microorganisms for different foods as influenced by the application of innovative technologies for their preservation - Provides readers with an in-depth understanding on how effective innovative processing technologies are for controlling spoilage and pathogenic microorganisms in different foods - Integrates concepts in order to find the optimum conditions for microbial inactivation and preservation of major and minor food compounds




Advanced Technologies for Meat Processing


Book Description

As with the first edition, the main goal of Advanced Technologies for Meat Processing is to provide the reader with recent developments in new advanced technologies for the full meat- processing chain. This book is written by distinguished international contributors with recognized expertise and excellent reputations, and brings together all the advances in a wide and varied number of technologies that are applied in different stages of meat processing. This second edition contains 21 chapters, combining updated and revised versions of several chapters with entirely new chapters that deal with new online monitoring techniques like hyperspectral imaging and Raman spectroscopy, the use of nanotechnology for sensor devices or new packaging materials and the application of omics technologies like nutrigenomics and proteomics for meat quality and nutrition. The book starts with the control and traceability of genetically modified farm animals, followed by four chapters reporting the use of online non-destructive monitoring techniques like hyperspectral imaging and Raman spectroscopy, real-time PCR for pathogens detection, and nanotechnology-based sensors. Then, five chapters describe different advanced technologies for meat decontamination, such as irradiation, hydrostatic and hydrodynamic pressure processing, other non-thermal technologies, and the reduction in contaminants generation. Nutrigenomics in animal nutrition and production is the object of a chapter that is followed by five chapters dealing with nutritional-related issues like bioactive peptides, functional meats, fat and salt reduction, processing of nitrite-free products, and the use of proteomics for the improved processing of dry-cured meats. The last four chapters are reporting the latest developments in bacteriocins against meat-borne pathogens, the functionality of bacterial starters, modified atmosphere packaging and the use of new nanotechnology-based materials for intelligent and edible packaging.