Food Structure Engineering and Design for Improved Nutrition, Health and Wellbeing presents new insights on the development of new healthy foods and the understanding of food structure effect on nutrition, health and wellbeing. Sections cover a) New ingredients, typicity and ethnicity of foods in different cultures and geographic regions; b) New and innovative strategies for food structure development; c) Strategies to address the challenges for healthier food products, such the reduction of sugar, salt and fats; d) Assessment of health effect of foods by in vitro and in vivo tests, and more. Edited by experts in the field, and contributed by scientists of different areas such as nutritionists and food engineers, this title offers a broad overview of the field to the readers, boosting their capability to integrate different aspects of product development. - Brings examples and strategies on how to improve the nutritional value of foods through food engineering and design - Includes a broad vision of food trends and their impact in new product development - Features the newest methodologies and techniques for the analysis of developed food products
Food Structure Engineering and Design for Improved Nutrition, Health and Wellbeing presents new insights on the development of new healthy foods and the understanding of food structure effect on nutrition, health and wellbeing. Sections cover a) New ingredients, typicity and ethnicity of foods in different cultures and geographic regions; b) New and innovative strategies for food structure development; c) Strategies to address the challenges for healthier food products, such the reduction of sugar, salt and fats; d) Assessment of health effect of foods by in vitro and in vivo tests, and more. Edited by experts in the field, and contributed by scientists of different areas such as nutritionists and food engineers, this title offers a broad overview of the field to the readers, boosting their capability to integrate different aspects of product development. Brings examples and strategies on how to improve the nutritional value of foods through food engineering and design Includes a broad vision of food trends and their impact in new product development Features the newest methodologies and techniques for the analysis of developed food products
Focusing on the complexity of the food digestion process from oral cavity to intestine, this book looks at the anatomical intricacies of the digestive system, techniques currently used to study food digestibility, the glycemic index and bioavailability of food components. It also provides a detailed understanding of various modification techniques critical to any food product development, such as modification of food structure, its composition, and size. Being the first of its kind to provide an in-depth idea of various stages of food digestion, whilst linking it with approaches in modifying foods so as to cater to specific food or functional requirements, the book provides an integrated approach. Existing methods to understand the process of food digestion and advances in artificial systems that have been used for such studies are presented, substantiated with findings from scientific publications. Apart from readers from the field of medicine, this book is highly inter-disciplinary and will attract readers from food science, nutrition and food physics.
Structured Foods is an important reference that discusses the recent research trends on structural development in various foods. This book covers different tools and food engineering techniques such as encapsulation, 3D and 4D printing, imaging techniques, and clean meat technology. It discusses how various foods can be broken down and manipulated at the molecular level to improve their quality, safety, and healthfulness. It describes the structuring of components like starch, proteins, and polysaccharides and the stability and bioavailability of different food structures. This is a useful reference for researchers and industry experts in food technology, food engineering, and food processing. The work addresses critical food-related issues that need to be tackled, including harvesting enough food to feed the global population, improving food sustainability, reducing food waste and pollution, and improving human health. Further, it focuses on the new scientific technologies being applied by scientists for an improved food system. The book is an important resource for all stakeholders in the debate about the future of our foods in the spheres of academic, industrial, and government policy.
This book presents a significant and up-to-date review of various integrated approaches to food engineering. Distinguished food engineers and food scientists from key institutions worldwide have contributed chapters that provide a deep analysis of their particular subjects. Emerging technologies and biotechnology are introduced, and the book discusses predictive microbiology, packing materials for foods, and biodegradable films. This book is mainly directed to academics, and to undergraduate and postgraduate students in food engineering and food science and technology, who will find a selection of topics.
In our modern society, expectations are high, also with respect to our daily diet. In addition to being merely "nutritious", i.e. supplying a variety of essential nutrients, including macro-nutrients such as proteins or micro-nutrients such as minerals and vitamins, it is almost expected that a good diet offers further advantages - especially well-being and health and the prevention of chronic diseases, which are, as we generally tend to grow older and older, becoming a burden to enjoying private life and to the entire society. These additional qualities are often sought in diets rich also in non-nutritive components, such as phytochemicals. In contrast to drugs, which are taken especially to cure or ameliorate diseases, it is expected that a healthy diet acts in particular on the side of prevention, allowing us to become old without feeling old. In the present book, rather then trying to give an exhaustive overview on nutritional aspects and their link to well-being and health, selected topics have been chosen, intended to address presently discussed key issues of nutrition for health, presenting a reasonable selection of the manifold topics around diet, well-being, and health: from the antioxidants polyphenols and carotenoids, aroma-active terpenoids, to calcium for bone health, back to traditional Chinese Medicine.
This book presents the wisdom, knowledge and expertise of the food industry that ensures the supply of food to maintain the health, comfort, and wellbeing of humankind. The global food industry has the largest market: the world population of seven billion people. The book pioneers life-saving innovations and assists in the fight against world hunger and food shortages that threaten human essentials such as water and energy supply. Floods, droughts, fires, storms, climate change, global warming and greenhouse gas emissions can be devastating, altering the environment and, ultimately, the production of foods. Experts from industry and academia, as well as food producers, designers of food processing equipment, and corrosion practitioners have written special chapters for this rich compendium based on their encyclopedic knowledge and practical experience. This is a multi-authored book. The writers, who come from diverse areas of food science and technology, enrich this volume by presenting different approaches and orientations.
Materials Science and Engineering in Food Product Development A comprehensive and accessible guide to the food development applications of cutting-edge materials science In Materials Science and Engineering in Food Product Development, distinguished researcher Wing-Fu Lai delivers an authoritative exploration of the roles played by materials science and engineering in food product development. In the book, the authors employ a practical, industrial perspective to illustrate how food products, especially functional foods, can benefit from the incorporation of materials science technologies. The book includes helpful glossary sections in each chapter, as well as important notes to highlight information useful to food manufacturers engaged in the real-world development and manufacture of foods. This book is appropriate for both early and advanced researchers interested in the design, improvement, and engineering of food products using the most current advances in food materials science. Readers will also find: A thorough overview of the most critical advances in food materials science Comprehensive explorations of a materials science approach to food product design and discussions of techniques for the characterization of food materials and products Practical discussions of the design and use of hydrogels, polymers, and lipid-based systems for food component encapsulation Comprehensive treatments of the optimization of pasting and textural properties of food products by rheological manipulation Perfect for students, researchers, and scholars in the fields of nutritional science, materials engineering, food science, food engineering, and nanotechnology, Materials Science and Engineering in Food Product Development will also benefit food manufacturing professionals during food product development.
Nanotechnology has developed remarkably in recent years and, applied in the food industry, has allowed new industrial advances, the improvement of conventional technologies, and the commercialization of products with new features and functionalities. This progress offers the potential to increase productivity for producers, food security for consumers and economic growth for industries. Food Applications of Nanotechnology presents the main advances of nanotechnology for food industry development. The fundamental concepts of the technique are presented, followed by examples of application in several sectors, such as the enhancement of flavor, color and sensory characteristics; the description of the general concepts of nano-supplements, antimicrobial nanoparticles and other active compounds into food; and developments in the field of packaging, among others. In addition, this work updates readers on the industrial development and the main regulatory aspects for the safety and commercialization of nanofoods. Features: Provides a general overview of nanotechnology in the food industry Discusses the current status of the production and use of nanomaterials as food additives Covers the technological developments in the areas of flavor, color and sensory characteristics of food and food additives Reviews nanosupplements and how they provide improvements in nutritional functionality Explains the antibacterial properties of nanoparticles for food applications This book will serve food scientists and technologists, food engineers, chemists and innovators working in food or ingredient research and new product development. Gustavo Molina is associate professor at the UFVJM (Diamantina—Brazil) in Food Engineering and head of the Laboratory of Food Biotechnology and conducts scientific and technical research. His research interests are focused on industrial biotechnology. Dr. Inamuddin is currently working as assistant professor in the chemistry department of Faculty of Science, King Abdulaziz University, Jeddah, Saudi Arabia. He is also a permanent faculty member (assistant professor) at the Department of Applied Chemistry, Aligarh Muslim University, Aligarh, India. He has extensive research experience in multidisciplinary fields of analytical chemistry, materials chemistry, and electrochemistry and, more specifically, renewable energy and environment. Prof. Abdullah M. Asiri is professor of organic photochemistry and has been the head of the chemistry department at King Abdulaziz University since October 2009, as well as the director of the Center of Excellence for Advanced Materials Research (CEAMR) since 2010. His research interest covers color chemistry, synthesis of novel photochromic and thermochromic systems, synthesis of novel coloring matters and dyeing of textiles, materials chemistry, nanochemistry and nanotechnology, polymers, and plastics. Franciele Maria Pelissari graduated in Food Engineering; earned her master’s degree (2009) at the University of Londrina (UEL), Londrina, Brazil; and her PhD (2013) at the University of Campinas (Unicamp), Campinas, Brazil. Since 2013, she has been associate professor at the Institute of Science and Technology program at the Federal University of Jequitinhonha and Mucuri (UFVJM), Diamantina, Brazil, in Food Engineering, and also full professor in the graduate program in Food Science and Technology.
