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Developed for academic researchers and for those who work in industry, Present and Future of High Pressure Processing: A Tool for Developing Innovative, Sustainable, Safe, and Healthy Foods outlines innovative applications derived from the use of high-pressure processing, beyond microbial inactivation. This content is especially important for product developers as it includes technological, physicochemical, and nutritional perspectives.This book specifically focuses on innovative high-pressure processing applications and begins with an introduction followed by a section on the impact of high-pressure processing on bioactive compounds and bioaccessibility/bioavailability. The third section addresses the ways in which high-pressure processing can assist in the reduction of toxins and contaminants, while the fourth section presents opportunities for the use of high-pressure processing in the development of healthy and/or functional food. This reference concludes with an analysis of the challenges regarding the use of high-pressure processing as an innovative application. Explores the use of high-pressure processing as a tool for developing new products Outlines the structure and improved functional properties provided by high-pressure processing Illustrates potential applications and future trends of high-pressure processing Explains the mechanisms that influence the impact of high-pressure processing Highlights the optimal conditions for high-pressure processing to develop certain food products Defines the challenges and future perspectives in the use of high-pressure processing for food product development
High pressure processing technology has been adopted worldwide at the industrial level to preserve a wide variety of food products without using heat or chemical preservatives. High Pressure Processing: Technology Principles and Applications will review the basic technology principles and process parameters that govern microbial safety and product quality, an essential requirement for industrial application. This book will be of interest to scientists in the food industry, in particular to those involved in the processing of products such as meat, fish, fruits, and vegetables. The book will be equally important to food microbiologists and processing specialists in both the government and food industry. Moreover, it will be a valuable reference for authorities involved in the import and export of high pressure treated food products. Finally, this update on the science and technology of high pressure processing will be helpful to all academic, industrial, local, and state educators in their educational efforts, as well as a great resource for graduate students interested in learning about state-of-the-art technology in food engineering.
High Pressure Thermal Processing provides a detailed understanding on the technology itself, what it can be used for, and the benefits of the technology over conventional processing. From an academic perspective, all sections clearly outline the intricacies of the technology, new applications (other than for spore inactivation) and how technology related process variables impact on food, quality attributes, textures, safety, and chemical aspects, etc. From a manufacturer perspective, throughout the product development stage and the actual commercial implementation, the book content will assist users greatly in doing this efficiently and safely. Within a single reference book, this book reaches researchers in academia who face the challenge to drive the science and assist the manufacturers to commercialize these new technologies. It is also ideal for regulators around the world who need to assess these new technologies and implement guidelines for manufacturers. Provides a comprehensive overview on the technology, including food safety aspects, new product developments and regulations Thoroughly explores HPTP for microbial spore inactivation, the sterilization of ambient stable low-acid food products Covers HPTP and its effect on the production of food processing contaminants
Features a Foreword by Dr. Dietrich Knorr. Fruit processing and preservation technologies must ensure fresh-like characteristics in foods while providing an acceptable and convenient shelf life, as well as assuring safety and nutritional value. Processing technologies include a wide range of methodologies to inactivate microorganisms, improve quality and stability, and preserve and minimize changes of fresh-like characteristics in fruit. High pressure as a food preservation technique inactivates microorganisms at room temperature or lower; thus, sensory and nutritional characteristics can be maintained. In recent years, a significant increase in the number of scientific papers in literature demonstrating novel and diversified uses of high pressure processing indicates it to be highly emerging technology. The effect of high pressure technology on the quality and safety of foods will be discussed. Selected practical examples in fruits and vegetables, dairy and meat industries using high pressure will be presented and discussed. A brief account of the challenges in adopting this technology for industrial development will also be included.
The aim of this book is to present the fundamentals of high pressure technologies from the perspective of mass transfer phenomena and thermodynamic considerations. Novel food applications are exposed and their relation to chemical analysis, extraction, reaction and particle formation processes are outlined. The chapters are written by a diverse group of scientists with expertise in chemistry, food processes, analytical chemistry, chemical engineering and chemical engineering thermodynamics, and biotechnology. The mission of green food engineering is to promote innovative technologies that reduce or eliminate the use or generation of hazardous materials (solvents, reagents) in the design and operation of food related processes, with the view to improve food safety and quality. Several efficient, environmentally friendly and benign technologies based on the use of high pressure and green solvents have demonstrated to be sustainable alternatives to traditional processes in the food industry. Although hundreds of new ideas are being published in the open literature, reliable engineering tools to simulate and design those processes are still under development. High Pressure Fluid Technology for Green Food Processing presents in-depth analyses and outlines the ways towards their maturity. Tiziana Fornari, Research Institute of Food Science (CIAL) Universidad Autonoma de Madrid, Madrid, Spain Roumiana P. Stateva, Institute of Chemical Engineering, Bulgarian Academy of Sciences, Sofia, Bulgaria
In High Pressure Processing of Foods, an array of international experts interrelate leading scientific advancements that use molecular biology techniques to explore the biochemical mechanisms of spore germination and inactivation by high pressure; investigate the inactivation of different spore species as functions of processing parameters such as pressure, temperature, time, food matrix, and the presence of anti-microbials; propose predictive mathematical models for predicting spore inactivation in foods treated with HPP; address commercial aspects of high pressure processing that include the high pressure equipment and packaging used to achieve the sterilization of bacterial spores in foods; and provide an assessment of the quality of food products preserved by HPP. High Pressure Processing of Foods is the landmark resource on the mechanisms and predictive modeling of bacterial spore inactivation by HPP.
The second edition of Emerging Technologies in Food Processing presents essential, authoritative, and complete literature and research data from the past ten years. It is a complete resource offering the latest technological innovations in food processing today, and includes vital information in research and development for the food processing industry. It covers the latest advances in non-thermal processing including high pressure, pulsed electric fields, radiofrequency, high intensity pulsed light, ultrasound, irradiation, and addresses the newest hurdles in technology where extensive research has been carried out. Provides an extensive list of research sources to further research development Presents current and thorough research results and critical reviews Includes the most recent technologies used for shelf life extension, bioprocessing simulation and optimization
This updated edition provides a review of the current major technologies that reduce energy cost and reduce environmental impact while maintaining food safety and quality.
This book examines the use of high-pressure technology in food processing and preservation. The editors have assembled a respected list of contributors from both academia and industry to explore the fundamental aspects of this non-thermal treatment of foods, beginning with a section on the evolution of high-pressure processing. The second part of the book consists of chapters dealing with the effects of this treatment on the microbiology, food quality, and food structure of foods. The next section looks at how this processing technique affects shelf life, liquid and solid foods. Finally, the book addresses the specific processing aspects, equipment, and the regulatory issues involved with high-pressure treatment.
The second edition of the Food Processing Handbook presents a comprehensive review of technologies, procedures and innovations in food processing, stressing topics vital to the food industry today and pinpointing the trends in future research and development. Focusing on the technology involved, this handbook describes the principles and the equipment used as well as the changes - physical, chemical, microbiological and organoleptic - that occur during food preservation. In so doing, the text covers in detail such techniques as post-harvest handling, thermal processing, evaporation and dehydration, freezing, irradiation, high-pressure processing, emerging technologies and packaging. Separation and conversion operations widely used in the food industry are also covered as are the processes of baking, extrusion and frying. In addition, it addresses current concerns about the safety of processed foods (including HACCP systems, traceability and hygienic design of plant) and control of food processes, as well as the impact of processing on the environment, water and waste treatment, lean manufacturing and the roles of nanotechnology and fermentation in food processing. This two-volume set is a must-have for scientists and engineers involved in food manufacture, research and development in both industry and academia, as well as students of food-related topics at undergraduate and postgraduate levels. From Reviews on the First Edition: "This work should become a standard text for students of food technology, and is worthy of a place on the bookshelf of anybody involved in the production of foods." Journal of Dairy Technology, August 2008 "This work will serve well as an excellent course resource or reference as it has well-written explanations for those new to the field and detailed equations for those needing greater depth." CHOICE, September 2006