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This book serves as a comprehensive text book for undergraduate and postgraduate students, providing an up-to-date insight into pulse science, processing, and technology.
Like cereal, pulse processing is one of the oldest and most important of all food processing, which encompasses a diverse range of products. Pulses are widely grown throughout the world and their dietary and economic importance is globally appreciated and well recognized. Although cereal processing has several dedicated text books, no dedicated text on pulse processing is currently available for food science and technology graduates. This book aims to address this oversight, starting with a chapter highlighting the importance of pulses, their production and consumption trends. The coverage in subsequent chapters provides details on the physical and chemical characteristics of pulses, starches, proteins and minor constituents in them and then how they are processed and used. Cooking quality, analysis and the value of the food products will all be examined with the final chapter reviewing the regulatory and legislative requirements for pulses. This book will serve as a comprehensive text book for undergraduate and postgraduate students, educators, industry personnel involved with grain processing and to some extent researchers providing an up-to-date insight into pulse science, processing and technology.
Pulses are nutritionally diverse crops that can be successfully utilized as a food ingredient or a base for new product development. They provide a natural food grade ingredient that is rich in lysine, dietary fiber, complex carbohydrates, protein and B-vitamins suggesting that pulses can provide a variety of health benefits such as reducing heart disease and diabetes. Interest in the use of pulses and their ingredients in food formulations is growing and several factors are contributing to this drive. Pulse Foods: Processing, Quality and Nutraceutical Applications is the first book to provide up-to-date information on novel and emerging technologies for the processing of whole pulses, techniques for fractionating pulses into ingredients, their functional and nutritional properties, as well as their potential applications, so that the food industry can use this knowledge to incorporate pulses into new food products. - First reference bringing together essential information on the processing technology of pulses - Addresses processing challenges relevant to legume and pulse grain processors - Delivers insights into the current state-of-art and emerging processing technologies - In depth coverage of developments in nutraceutical applications of pulse protein and carbohydrate based foods
The book gives a systematic introduction to green chemistry principles and technologies in inorganic and organic chemistry, polymer sciences and pharmaceutical industry. It also discusses the use of biomass and marine resources for synthesis as well as renewable energy utilization and the concepts and evaluation of recycling economy and eco-industrial parks.
Pulse Foods: Processing, Quality and Nutraceutical Applications, Second Edition, provides up-to-date information on emerging technologies for the processing of whole pulses, techniques for fractionating pulses into ingredients, their functional and nutritional properties, as well as their potential applications, so that the food industry can incorporate pulses into new food products. Since the first edition, significant developments have occurred in various aspects of pulse, pulse chemistry, processing and applications. This second edition provides thorough and authoritative coverage of pulse quality, technology and nutraceutical applications. Pulse Foods: Processing, Quality and Nutraceutical Applications, Second Edition, will continue to be an important resource for academics, students, researchers and industry professionals in providing essential details on various aspects of pulse foods. - Fully revised and updated with new chapters on nutritional and health properties, storage and pre-processing, extraction technologies and sustainability topics - Addresses processing challenges relevant to legume and pulse grain processors - Delivers insights into the current state-of-art and emerging processing technologies - In depth coverage of developments in nutraceutical applications of pulse protein and carbohydrate based foods
World health authorities recommend people maximize their protein intake through vegetable sources (such as pulses), and reduce protein intake from animal sources. Increasing vegetable protein intake has been shown to be positively associated with the reduction of both cardiovascular-disease-related mortality and all-cause mortality. Pulse consumption has been shown to improve satiety and metabolism of glucose and lipids, due to their high protein and fiber content, which makes their consumption ideal for preventing and managing obesity. In recent years, there has been increasing demand for pulses and pulse-based products in developed countries. Several large-scale collaborative research projects on pulse products have been initiated by government agencies. Similarly, established multinational food companies have developed pulse product units. Pulses: Processing and Product Development fulfills the need for a comprehensive book on processing and products of pulses. The book addresses a specific pulse with each chapter to meet a wide range of audiences from undergraduate students to consumers.
The lifestyle of humans is rapidly changing, and, correspondingly, their needs and the current and future megatrends of the food market. It is worth mentioning (1) the preference for natural, simple, and flexible diets that drive the further expansion of plant-focused formulations, (2) the focus on food sustainability (food waste reduction), and (3) the interest in healthy eating as the basis for good health. The hectic routine and rapid urbanization in developed and developing regions, respectively, have shifted consumer preferences toward bread and baked foods, which, interestingly, are often high in sugars and are categorized as having a high glycemic index. Therefore, it is of major importance to address the technological challenges of manufacturing baked goods with high physical and sensory quality that result in positive metabolic responses. This Special Issue seeks to provide fundamental understanding in this area and novel strategies to improve the nutritional properties of baked goods, including a decrease in starch bioaccessibility, sugar reduction, increase in fiber and/or protein content, and the improvement of phytochemical bioactivity. This Special Issue will also cover studies on the physical and sensory improvements of baked goods that may provide a mechanistic understanding to minimize the loss of quality after the incorporation of nutritional-improving ingredients, such as edible byproducts, proteins, or fibers. Last but not least, studies focused on the reduction of additives (clean label) or fat and on the use of sourdough to improve the sensory properties of baked goods will also be included.
The present book presents its reader with comprehensive knowledge related to cereals processing. It is imperative to have sound knowledge of food laws and regulations with an Indian perspective as these play a pivotal role in commercializing food products as well as fresh produce, which are aptly covered in this book. It includes recent trends in technology of cereals based products, technological updates in legumes and pulses based convenience/processed foods, various aspects of evolution of bakery and confectionery technology and technological evaluation of milling. Since age's process of fermentation was employed for preserving the cereals based food by using general and specified micro flora and micro fauna, the science and technology involved is well explained in the chapter titled 'Fermented Food Based on Cereal and Pulses.' The most important quality attributes related to cereals processing are rheological and thermal changes which occur when extrinsic factors such as moisture and temperature are ebbed and flowed. This subject was sensibly covered under 'Rheological and Thermal Changes Occurring During Processing.' Sugarcane and the sugar industry have the largest contribution to the industrial development. Various unit operations and technology involved are explained as recent updates in sugar, honey, jaggery and salt processing. Shelf life stability of the products with respect to various chemical parameters attributed to the oxidative changes in processed foods is also aptly covered. Note: T&F does not sell or distribute the hardback in India, Pakistan, Nepal, Bhutan, Bangladesh and Sri Lanka. This title is co-published with NIPA.
This book provides a global overview of pulse intake and future trends from a variety of perspectives. Pulses, which include dried beans, peas and lentils, are second only to grains as a source of food for the world’s population. Contributors from around the globe explore a number of issues related to this food group, including their impact on global health and sustainability, the relationship between pulse intake and chronic disease, and their nutritional and gastrointestinal benefits. The primary purpose of the volume is to explore the nutritional and health benefits of pulses (starchy legumes) as a sustainable food source. Initial chapters focus on the role of pulses in complementary feeding and in the prevention of malnutrition in infants and children in the developing nations of Africa. Authors also consider the feasibility and sustainable properties of pulses as a staple food for these regions. Subsequent chapters focus on the association between pulse intake and chronic disease risk reduction. Contributors identify the unique contributions of pulses, versus legumes as a whole, to chronic disease risk and management. Additional chapters provide a comprehensive review of the nutrient contents of pulses, their bioavailability, and the nutritional impact of pulse consumption. The book also explores the phytochemicals contained in pulses from two perspectives, the traditional perspective of risk (e.g. anti-nutrients) and a nutraceutical perspective, focused on the novel benefits of pulse components (e.g. antioxidants). The editor has designed the book for students, faculty, and research scientists, as well as practicing dietitians. Members of the pulse industry, grower associations, and government agencies also will find the information relevant to their work, as will those in the private sector employed by food companies with an interest in pulse ingredients.
Written to record and report on recent research progresses in the field of molten salts, Molten Salts Chemistry and Technology focuses on molten salts and ionic liquids for sustainable supply and application of materials. Including coverage of molten salt reactors, electrodeposition, aluminium electrolysis, electrochemistry, and electrowinning, the text provides researchers and postgraduate students with applications include energy conversion (solar cells and fuel cells), heat storage, green solvents, metallurgy, nuclear industry, pharmaceutics and biotechnology.