Download Free Fat Mimetics For Food Applications Book in PDF and EPUB Free Download. You can read online Fat Mimetics For Food Applications and write the review.

FAT MIMETICS FOR FOOD APPLICATIONS Detailed resource providing insight into the understanding of fat mimetics and their use for the development of food products Fat Mimetics for Food Applications explores strategies for the development of fat mimetics for food applications, including meat, dairy, spreads and baked products, covering all the physical strategies and presenting the main characterization techniques for the study of fat mimetics behaviour. The text further provides insight into the understanding of fat mimetics in food structure and how it affects food products. Fat Mimetics for Food Applications is organized into five sections. The first section provides a historical overview and thermodynamic perspective of the structure-properties relationship in fat mimetics. Section II is devoted to the main materials used for the development of fat mimetics, and the structures that result from different methodologies and approaches. Section III overviews the methodologies used for the characterization of the developed replacers. Section IV contains examples of what has been done in the use of fat mimetics in food. Section V focuses on a future perspective, along with real cases of projects within the industry and a commercial perspective of some examples. Topics covered in Fat Mimetics for Food Applications include: Role of lipids in foods and human nutrition; the current status of fats in the food industry; and food trends as they pertain to fat mimetics Materials for the production of fat mimetics such as natural waxes, sterols, lecithin, mono and di-glycerides, fatty alcohols and fatty acids, polysaccharides and proteins Rheological and texture properties; sensorial aspects of fat mimetics and advanced characterization strategies such as small-angle X-ray scattering and small-angle neutron scattering Fat mimetics’ nutritional and functional properties, along with examples of using in vitro gastrointestinal digestion system to unravel the lipids fat during digestion Examples of the application of fat mimetics in different food products such as meat, dairy, margarine and fat spreads and baked products Fat Mimetics for Food Applications targets researchers, academics, and food industry professionals to boost their capability to integrate different science and technology as well as engineering and materials aspects of fat mimetics for food development.
Technology is only beginning to catch up with the public demand for foods that are low in fat and taste good. An extensive number of ingredients are under development for the sole purpose of fat replacement, using a variety of approaches and base materials. The Handbook of Fat Replacers describes in detail, for the first time in a single volume, the science and application of fat replacers in food products, including the multiplicity of technological, legislative, sensory, nutritional, and marketing issues involved. Part I of the Handbook is an overview of fundamental issues, including historical analyses and critical assessments of technological strategies, in the development of low-fat foods and the ingredients used as fat replacers. Part II discusses individual fat replacers and their properties in detail. The compounds are organized by their composition-starch-derived, fiber-based, protein-based, gums, emulsifiers, bulking agents, combination systems comprised of interactive blends, low-calorie fats, and synthetic fat substitutes, are all examined in detail.
Prof. Ashok Patel of Guangdong Technion-Israel Institute of Technology (GTIIT), who served as a Topic Editor for this Research Topic, sadly passed away on Sunday 17th May 2020. We want to acknowledge the important role he played in developing this Research Topic.
Fats in Food Technology presents an overview at the professional and research level of the uses and technologies of fats in a broad range of foodstuffs. In addition to the coverage of animal and vegetable fats, the book considers added milk fat, dairy fat, and butter. Drawn from throughout the world, the contributing authors provide a broad scope of ideas and experience.
Traditionally, dietary fat has been associated with negative effects on human health by consumers due to its high energy density. However, today it is well known that the quality of the fat ingested is more important than its quantity, and that there are natural lipophilic compounds that are essential for the correct maintenance of human physiological functions. For this reason, the negative image associated with dietary fat consumption is not fully justified. Dietary fat is a hot research area that has attracted increasing attention in the last decades. An adequate intake of dietary fats adapted to our age and physical activity, as well as an increase in the intake of beneficial fatty compounds and controlling the intake of those types of fats that have negative effects on our health, can be powerful allies in preventing the development of chronic non-communicable diseases. Through this book, the Editors have compiled the most up to date and well-documented information on many aspects of the development and application of novel dietary patterns related to fatty compounds, with special emphasis on beneficial effects. They have considered fatty nutritional requirements at different stages of life, the international guidelines and the application of new -omics techniques, such as epigenetics, nutrigenomics, metabolomics and metagenomics, related to human health. This book will be of interest to researchers in food technology and biomedicine, as well as the food industry and food distribution areas.
The properties of fats and the characteristics of some food products based on fats have been documented in several books. Individual fats such as milkfat, however, have received less attention despite many successful initiatives to increase their utilization in food products. Moreover, the availability of data on the function of fats in the context of major manufactured food products has often been constrained by the general reluctance of manufacturers to disclose details of working practices. In some areas, such as yellow fat spreads, the market has changed dramatically over the last decade or so by the introduction of a broad class of new products resulting from a trend among consumers in the developed world towards reduced fat consumption. A review of this general area therefore now seems very timely. In the preparation of this book, we have been fortunate to have had the support of internationally recognised specialists with much relevant experience and achievement in their subject areas. We believe that their contributions not only subscribe to the main aim of this book, by providing useful insight into the functional properties of the major fats in foods, but also offer information concerning recent and novel methods of processing these fats. Opportunities for possible future developments are indicated throughout.
Technology is only beginning to catch up with the public demand for foods that are low in fat and taste good. An extensive number of ingredients are under development for the sole purpose of fat replacement, using a variety of approaches and base materials. The Handbook of Fat Replacers describes in detail, for the first time in a single volume, the science and application of fat replacers in food products, including the multiplicity of technological, legislative, sensory, nutritional, and marketing issues involved. Part I of the Handbook is an overview of fundamental issues, including historical analyses and critical assessments of technological strategies, in the development of low-fat foods and the ingredients used as fat replacers. Part II discusses individual fat replacers and their properties in detail. The compounds are organized by their composition-starch-derived, fiber-based, protein-based, gums, emulsifiers, bulking agents, combination systems comprised of interactive blends, low-calorie fats, and synthetic fat substitutes, are all examined in detail.
This book was written as a basic reference textbook for students in the schools of hotel, restaurant, and institutional management. It is also designed to be a reference and further study guide for cooks, chefs, dietitians, and foodservice management personnel who are already employed in this important industry. There are many texts available that thoroughly cover, in great depth, the chemistry and technical aspects of fats and oils. However, the author is not aware of any text devoted exclusively to fats and oils for foodservice. Therefore, this book is designed to provide just enough technical background to allow an under standing of how and why certain types of fats and oils work for specific uses in foodservice. This leads to practical applications and standards for the various types of products available for such uses as deep frying, griddling, pan frying, salad dressing, and baking. Tested quantity recipes are included as a further guide to product usage and menu expansion. This book is divided into three parts. The first part deals with the chemistry and general technical background for fats and oils. Part II covers the major practical applications in foodservice, along with recipes. In Part III, nutrition, dietary considerations, product and recipe Qevelopment techniques, and sanitary and quality control procedures are considered. Fats and oils playa very important role in all foodservice operations. This book will provide the information necessary for a good understanding of these products and how they should be used.
Numerous nutritional findings and extensive evidence on the health benefits of diet and exercise have emerged since the publication of the successful first edition. Recent concerns about trans isomers acting like saturated fatty acids have encouraged formulation changes that require fats and oils processors to revise their preparation techniques. U