Retention of Bioactives in Food Processing


Book Description

Bioactive compounds in food, known for their positive health effects, can be lost during handling after harvest, processing and storage. While most foods are exposed to processing to increase shelf life and edibility and to ensure microbial safety, conventional processing methods may have disadvantages, such as decreasing the nutritional quality of foods, long processing times, high temperature and high energy uses. For these reasons, novel non-thermal food processing technologies (including HPP, ultrasound) and novel thermal food processing technologies (including microwave/Ohmic heating) have become widespread. This book provides a critical evaluation of the effects of conventional, novel non-thermal, and thermal food processing techniques on the retention and bioaccessibility of bioactive compounds in food materials. Within these three categories, many different processing methods are included: fermentation/germination, drying, extrusion, and modified atmosphere packaging, as well as novel technologies, such as microwave heating, ultrasound, high pressure processing, ozonation, and membrane separation processes.




Emerging Methods for Oil Extraction from Food Processing Waste


Book Description

Emerging Methods for Oil Extraction from Food Processing Waste is a comprehensive and cutting-edge exploration of sustainable oil extraction practices, catering to professionals and researchers in food science. The book, spanning 13 insightful chapters, intricately reviews the extraction of oil from food processing by-products, including pomace and surplus raw materials. It specifically focuses on emerging non-thermal technologies, offering valuable insights into improving oil extraction rates. The discussions encompass factors influencing extraction rates and suggest processing conditions based on various extraction methods and raw materials. In addition to providing a nuanced understanding of conventional and novel extraction techniques, the text delves into the diverse applications of the extracted oil, ranging from food preservation to fortification and fat replacement. Notably, it covers advanced processing techniques for enhancing oil stability, bioavailability, and bioactivity through emulsion and encapsulation methods. Addressing crucial commercial aspects, the text explores economic feasibility, safety considerations, and consumer acceptability, providing a holistic perspective for successful industrial adaptation. Authored by global specialists, each chapter offers in-depth scientific reports and critical analyses, making this volume an indispensable resource for continuous research and advancement in the dynamic field of food processing.




Bioactive Extraction and Application in Food and Nutraceutical Industries


Book Description

This volume details state-of- the art methods on sustainable food extractions. Chapters guide readers on traditional and novel extraction techniques, as well as exploring diverse sources of bioactive compounds. Additionally, chapters provide a holistic view of the field, catering to the needs of researchers, industry professionals, and students who are interested in this rapidly evolving area. Written in the format of the Methods and Protocols in Food Science series, chapters list necessary materials and methods for readily reproducible protocols. Authoritative and cutting-edge, Bioactive Extraction and Application in Food and Nutraceutical Industries aims to be a foundation for future studies and to be a source of inspiration for new investigations in the field.




Food Processing Technologies


Book Description

The processing of food generally implies the transformation of the perishable raw food to value-added products. It imparts benefits, such as the destruction of surface microflora, and inactivation of deleterious enzymes, such as peroxidase, leading to a greater shelf life of the food. It also enhances color and texture while maintaining quality of products and makes them edible. However, it also has an inevitable impact on nutritional quality attributes, such as increase or decrease in certain vitamins and bioactive metabolites among others. Food Processing Technologies: Impact on Product Attributes covers a range of food processing technologies and their effect on various food product attributes, such as bioactive compounds, safety, and sensory and nutritional aspects of the food upon processing. There are eight major parts in the book. Part I covers the conventional processing technologies. Parts II, III, IV, and V deal with various novel processing technologies, including impingement processing technologies, electro-magnetic processing technologies, physico-mechanical processing technologies, and electro-technologies. Part VI introduces chemical processing technologies. Part VII comprise irradiation processing technology, and the final part is focused on biological processing technology, detailing the application of enzymes in food processing. Numerous studies were carried out to find the impact of these processing technologies on various aspects of food and associated health promotion properties. Both positive and negative results were obtained based on nature of foods, processing type, and duration of processing, and this book covers these results in depth.







Bioactive Factors and Processing Technology for Cereal Foods


Book Description

This book summarizes the reported health benefits of bioactive factors in cereal foods and their potential underlying mechanisms. Focusing on potential mechanisms that contribute to the various effects of bioactive factors on obesity, diabetes and other metabolic diseases, it helps to clarify several dilemmas and encourages further investigations in this field. Intended to promote the consumption of cereal foods or whole cereal foods to reduce the risk of chronic diseases, and to improve daily dietary nutrition in the near future, the book was mainly written for researchers and graduate students in the fields of nutrition, food science and molecular biology.




Cereal Processing Technologies


Book Description

Cereals are the principal dietary components of human diet and have been for several thousand years. Whole grain cereals are not only an excellent source of energy, but also enrich the diet. The processing of cereals prior to consumption is a necessary step in production chain to make them palatable and enhance bio- and techno-functional performance. Cereal Processing Technologies: Impact on Nutritional, Functional, and Biological Properties reviews cereal processing technologies and their impact on quality attributes of cereals, detailing the processing techniques of cereals with recent advancements followed by their impact on nutritive, functional and biological potential. Each chapter covers three major components as a) technological details for the processing treatment, b) impact on nutritive, functional and biological properties and c) characterization of processed products. Key Features: Focuses on different cereals for nutritive and functional characteristics Explores mechanical, biological, thermal and non-thermal processing treatments of cereals Presents impact of different treatments on biological and techno-functional properties of cereals Discusses characteristics of the processed products The contents of Cereal Processing Technologies are an asset for researchers, students and professionals, and can be potentially used as a reference and important resource for academia and future investigations. This book helps readers identify how different techniques for processing cereal grains enhance the targeted nutritional and functional quality.




Utilisation of Bioactive Compounds from Agricultural and Food Production Waste


Book Description

The large quantity of waste generated from agricultural and food production remains a great challenge and an opportunity for the food industry. As there are numerous risks associated with waste for humans, animals and the environment, billions of dollars are spent on the treatment of agricultural and food waste. Therefore, the utilisation of bioactive compounds isolated from waste not only could reduce the risks and the costs for treatment of waste, but also could potentially add more value for agricultural and food production. This book provides comprehensive information related to extraction and isolation of bioactive compounds from agricultural and food production waste for utilisation in the food, cosmetic and pharmaceutical industries. The topics range from an overview on challenges and opportunities related to agricultural and food waste, the bioactive compounds in the waste, the techniques used to analyse, extract and isolate these compounds to several specific examples for potential utilisation of waste from agricultural and food industry. This book also further discusses the potential of bioactives isolated from agricultural and food waste being re-utilised in the food, cosmetic and pharmaceutical industries. It is intended for students, academics, researchers and professionals who are interested in or associated with agricultural and food waste.




Drying Technology in Food Processing


Book Description

Drying Technology in Food Processing, in the Unit Operations and Processing Equipment in the Food Industry series, explains the processing operations and equipment necessary for drying of different food products. These processes and unit operations are very important in terms of qualitative properties and energy usage. Divided into four sections, "Drying basics", "Different dryers in the food industry", "Application of drying in the food industry", and "Design, control, and efficiency of dryers", all chapters emphasize experimental, theoretical, computational and/or applications of food engineering principles and the relevant processing equipment. Written by experts in the field of food engineering, in a simple and dynamic way, this book targets industrial engineers working in the field of food processing and within food factories to make them more familiar with drying unit operations. - Thoroughly explores novel applications of drying unit operations in food industries - Strives to help improve the quality and safety of food products with drying technology - Reviews alternatives for drying operations




Handbook of Food Preservation


Book Description

The processing of food is no longer simple or straightforward, but is now a highly inter-disciplinary science. A number of new techniques have developed to extend shelf-life, minimize risk, protect the environment, and improve functional, sensory, and nutritional properties. Since 1999 when the first edition of this book was published, it has facilitated readers’ understanding of the methods, technology, and science involved in the manipulation of conventional and newer sophisticated food preservation methods. The Third Edition of the Handbook of Food Preservation provides a basic background in postharvest technology for foods of plant and animal origin, presenting preservation technology of minimally processed foods and hurdle technology or combined methods of preservation. Each chapter compiles the mode of food preservation, basic terminologies, and sequential steps of treatments, including types of equipment required. In addition, chapters present how preservation method affects the products, reaction kinetics and selected prediction models related to food stability, what conditions need be applied for best quality and safety, and applications of these preservation methods in different food products. This book emphasizes practical, cost-effective, and safe strategies for implementing preservation techniques for wide varieties of food products. Features: Includes extensive overview on the postharvest handling and treatments for foods of plants and animal origin Describes comprehensive preservation methods using chemicals and microbes, such as fermentation, antimicrobials, antioxidants, pH-lowering, and nitrite Explains comprehensive preservation by controlling of water, structure and atmosphere, such as water activity, glass transition, state diagram, drying, smoking, edible coating, encapsulation and controlled release Describes preservation methods using conventional heat and other forms of energy, such as microwave, ultrasound, ohmic heating, light, irradiation, pulsed electric field, high pressure, and magnetic field Revised, updated, and expanded with 18 new chapters, the Handbook of Food Preservation, Third Edition, remains the definitive resource on food preservation and is useful for practicing industrial and academic food scientists, technologists, and engineers.