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| dairy chemistry and physics: Dairy Chemistry and Biochemistry P. F. Fox, T. Uniacke-Lowe, P. L. H. McSweeney, J. A. O'Mahony, 2015-06-19 This book is the most comprehensive introductory text on the chemistry and biochemistry of milk. It provides a comprehensive description of the principal constituents of milk (water, lipids, proteins, lactose, salts, vitamins, indigenous enzymes) and of the chemical aspects of cheese and fermented milks and of various dairy processing operations. It also covers heat-induced changes in milk, the use of exogenous enzymes in dairy processing, principal physical properties of milk, bioactive compounds in milk and comparison of milk of different species. This book is designed to meet the needs of senior students and dairy scientists in general. |
| dairy chemistry and physics: Dairy Chemistry and Physics Pieter Walstra, Robert Jenness, 1984-04-03 Milk and products made from it affect the lives of a large proportion of the world’s population. Many dairy products are consumed at times and in places far removed from the point at which the milk was produced. This is made possible by the chemical and physical treatments and fractionations applied to milk by modern technology. These treatments are designed to preserve the nutritional value of the milk constituents in the form of palatable products. As food technology in general becomes more advanced and more sophisticated, there is less need for specific commodity technology; on the other hand, there is more need for specific knowledge of raw materials and the effects of various processing treatments on them. —From the Preface to Dairy Chemistry and Physics |
| dairy chemistry and physics: Dairy Chemistry and Physics Etske Bijl, Kaspere author Hettinga, Sinee author Yener, 2020 |
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| dairy chemistry and physics: Reviews of the Progress of Dairy Science , 1954 |
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| dairy chemistry and physics: Dairy Chemistry and Physics K. Hettinga, T. van Hooijdonk, 2014 The course covers composition, structure and properties of milk and its behaviour during processing. |
| dairy chemistry and physics: Cheese: Chemistry, Physics and Microbiology, Volume 1 Patrick F. Fox, Paul L.H. McSweeney, Timothy M. Cogan, Timothy P. Guinee, 2004-08-04 The market for cheese as a food ingredient has increased rapidly in recent years and now represents upto approximately 50% of cheese production in some countries. Volume one is entitled General Aspects which will focus on general aspects on the principles of cheese science. This title contains up-to-date reviews of the literature on the chemical, biochemical, microbiological and physico-chemical aspects of cheese in general. Cheese: Chemistry, Physics, and Microbiology Two-Volume Set, 3E is available for purchase as a set, and as well, so are the volumes individually. *Reflects major advances in cheese science during the last decade *Produced in a new 2-color format *Illustrated with numerous figures and tables |
| dairy chemistry and physics: Dairy Technology P. Walstra, 1999-04-23 Describes the efficient transformation of milk into a variety of products, focusing on the changes in raw material, and intermediate and final products, as well as the interactions between products and processing equipment. The book details the procedures for ensuring processing efficiency and product quality. |
| dairy chemistry and physics: Structure of Dairy Products Adnan Y. Tamime, 2008-04-15 Structure of Dairy Products SOCIETY OF DAIRY TECHNOLOGY SERIES Edited by A. Y. Tamime The Society of Dairy Technology (SDT) has joined with Blackwell Publishing to produce a series of technical dairy-related handbooks providing an invaluable resource for all those involved in the dairy industry; from practitioners to technologists working in both traditional and modern large-scale dairy operations. The previous 30 years have witnessed great interest in the microstructure of dairy products, which has a vital bearing on, e.g. texture, sensory qualities, shelf life and packaging requirements of dairy foods. During the same period, new techniques have been developed to visualise clearly the properties of these products. Hence, scanning electron microscopy (SEM) and transmission electron microscopy (TEM) have been used as complimentary methods in quality appraisal of dairy products, and are used for product development and in trouble shooting wherever faults arise during manufacturing. Structure of Dairy Products, an excellent new addition to the increasingly well-known and respected SDT series, offers the reader: • information of importance in product development and quality control • internationally known contributing authors and book editor • thorough coverage of all major aspects of the subject • core, commercially useful knowledge for the dairy industry Edited by Adnan Tamime, with contributions from international authors, this book is an essential purchase for dairy scientists and technologists, food scientists and technologists, food chemists, physicists, rheologists and microscopists. Libraries in all universities and research establishments teaching and researching in these areas should have copies of this important work on their shelves. |
| dairy chemistry and physics: Advanced Dairy Chemistry, Volume 2 Paul L. H. McSweeney, Patrick F. Fox, James A. O'Mahony, 2020-12-08 The Advanced Dairy Chemistry series was first published in four volumes in the 1980s (under the title Developments in Dairy Chemistry) and revised in three volumes in the 1990s and 2000s. The series is the leading reference on dairy chemistry, providing in-depth coverage of milk proteins, lipids, lactose, water and minor constituents. Advanced Dairy Chemistry Volume 2: Lipids, Fourth Edition, is unique in the literature on milk lipids, a broad field that encompasses a diverse range of topics, including synthesis of fatty acids and acylglycerols, compounds associated with the milk fat fraction, analytical aspects, behavior of lipids during processing and their effect on product characteristics, product defects arising from lipolysis and oxidation of lipids, as well as nutritional significance of milk lipids. In the years since the publication of the third edition there have been significant developments in milk lipids and these are reflected in changes to this volume. Most topics included in the third edition are retained in the current edition, which has been updated; in some cases, new authors have given their perspective on certain topics. Chapters on nutritional significance of dairy lipids have been considerably revised. This authoritative work summarizes current knowledge on milk lipids and suggests areas for further work. It will be very valuable to dairy scientists, chemists and others working in dairy research or in the dairy industry. |
| dairy chemistry and physics: Advanced Dairy Chemistry Volume 2: Lipids Patrick F. Fox, Paul L. H. McSweeney, 2007-04-25 The Advanced Dairy Chemistry series was first published in four volumes in the 1980s (under the title Developments in Dairy Chemistry) and revised in three volumes in the 1990s. The series is the leading reference on dairy chemistry, providing in-depth coverage of milk proteins, lipids, lactose, water and minor constituents. Advanced Dairy Chemistry Volume 2: Lipids, Third Edition, is unique in the literature on milk lipids, a broad field that encompasses a diverse range of topics, including synthesis of fatty acids and acylglycerols, compounds associated with the milk fat fraction, analytical aspects, behavior of lipids during processing and their effect on product characteristics, product defects arising from lipolysis and oxidation of lipids, as well as nutritional significance of milk lipids. Most topics included in the second edition are retained in the current edition, which has been updated and considerably expanded. New chapters cover the following subjects: Biosynthesis and nutritional significance of conjugated linoleic acid, which has assumed major significance during the past decade; Formation and biological significance of oxysterols; The milk fat globule membrane as a source of nutritionally and technologically significant products; Physical, chemical and enzymatic modification of milk fat; Significance of fat in dairy products: creams, cheese, ice cream, milk powders and infant formulae; Analytical methods: chromatographic, spectroscopic, ultrasound and physical methods. This authoritative work summarizes current knowledge on milk lipids and suggests areas for further work. It will be very valuable to dairy scientists, chemists and others working in dairy research or in the dairy industry. |
| dairy chemistry and physics: Advanced Dairy Chemistry Paul L. H. McSweeney, James A. O'Mahony, 2015-10-30 The chemistry and physico-chemical properties of milk proteins are perhaps the largest and most rapidly evolving major areas in dairy chemistry. Advanced Dairy Chemistry-1B: Proteins: Applied Aspects covers the applied, technologically-focused chemical aspects of dairy proteins, the most commercially valuable constituents of milk. This fourth edition contains most chapters in the third edition on applied aspects of dairy proteins. The original chapter on production and utilization of functional milk proteins has been split into two new chapters focusing on casein- and whey-based ingredients separately by new authors. The chapters on denaturation, aggregation and gelation of whey proteins (Chapter 6), heat stability of milk (Chapter 7) and protein stability in sterilised milk (Chapter 10) have been revised and expanded considerably by new authors and new chapters have been included on rehydration properties of dairy protein powders (Chapter 4) and sensory properties of dairy protein ingredients (Chapter 8). This authoritative work describes current knowledge on the applied and technologically-focused chemistry and physico-chemical aspects of milk proteins and will be very valuable to dairy scientists, chemists, technologists and others working in dairy research or in the dairy industry. |
| dairy chemistry and physics: Ullmann's Food and Feed, 3 Volume Set Wiley-VCH, 2017-06-19 A compilation of 58 carefully selected, topical articles from the Ullmann's Encyclopedia of Industrial Chemistry, this three-volume handbook provides a wealth of information on economically important basic foodstuffs, raw materials, additives, and processed foods, including a section on animal feed. It brings together the chemical and physical characteristics, production processes and production figures, main uses, toxicology and safety information in one single resource. More than 40 % of the content has been added or updated since publication of the 7th edition of the Encyclopedia in 2011 and is available here in print for the first time. The result is a best of Ullmann's, bringing the vast knowledge to the desks of professionals in the food and feed industries. |
| dairy chemistry and physics: Advanced Dairy Chemistry: Volume 1: Proteins, Parts A&B Patrick F. Fox, Paul L. H. McSweeney, 2013-09-24 Advanced Dairy Chemistry-l: Proteins is the first volume of the third edition of the series on advanced topics in Dairy Chemistry, which started in 1982 with the publication of Developments in Dairy Chemistry. This series of volume~ is intended to be a coordinated and authoritative treatise on Dairy Chemistry. In the decade since the second edition of this volume was published (1992), there have been considerable advances in the study of milk proteins, which are reflected in changes to this book. All topics included in the second edition are retained in the current edition, which has been updated and considerably expanded from 18 to 29 chapters. Owing to its size, the book is divided into two parts; Part A (Chapters 1-11) describes the more basic aspects of milk proteins while Part B (Chapters 12-29) reviews the more applied aspects. Chapter 1, a new chapter, presents an overview of the milk protein system, especially from an historical viewpoint. Chapters 2-5, 7-9, 15, and 16 are revisions of chapters in the second edition and cover analytical aspects, chemical and physiochemical properties, biosynthesis and genetic polymorphism of the principal milk proteins. Non-bovine caseins are reviewed in Chapter 6. |
| dairy chemistry and physics: Fundamentals of Cheese Science P. F. Fox, 2000-02-29 Fundamentals of Cheese Science provides comprehensive coverage of the scientific aspects of cheese, emphasizing fundamental principles. The book's 23 chapters cover the chemistry and microbiology of milk for cheesemaking, starter cultures, coagulation of milk by enzymes or by acidification, the microbiology and biochemistry of cheese ripening, the flavor and rheology of cheese, processed cheese, cheese as a food ingredient, public health and nutritional aspects of cheese, and various methods used for the analysis of cheese. The book contains copious references to other texts and review articles. This broadly based resource is written for personnel involved in various production and quality control functions in the cheese industry, senior undergraduates, and post-graduate students. |
| dairy chemistry and physics: Milk and Dairy Products in Human Nutrition Young W. Park, George F. W. Haenlein, 2013-04-09 Milk is nature’s most complete food, and dairy products are considered to be the most nutritious foods of all. The traditional view of the role of milk has been greatly expanded in recent years beyond the horizon of nutritional subsistence of infants: it is now recognized to be more than a source of nutrients for the healthy growth of children and nourishment of adult humans. Alongside its major proteins (casein and whey), milk contains biologically active compounds, which have important physiological and biochemical functions and significant impacts upon human metabolism, nutrition and health. Many of these compounds have been proven to have beneficial effects on human nutrition and health. This comprehensive reference is the first to address such a wide range of topics related to milk production and human health, including: mammary secretion, production, sanitation, quality standards and chemistry, as well as nutrition, milk allergies, lactose intolerance, and the bioactive and therapeutic compounds found in milk. In addition to cow’s milk, the book also covers the milk of non-bovine dairy species which is of economic importance around the world. The Editors have assembled a team of internationally renowned experts to contribute to this exhaustive volume which will be essential reading for dairy scientists, nutritionists, food scientists, allergy specialists and health professionals. |
| dairy chemistry and physics: Understanding and improving the functional and nutritional properties of milk Prof Thom Huppertz, Prof Todor Vasiljevic, 2022-03-15 Comprehensive coverage of the latest research in isolating and analysing the diverse range of compounds in milk Reviews the genetic factors that affect milk composition, as well as the ways milk chemistry can affect sensory quality Explores the importance of milk as a valuable commodity |
| dairy chemistry and physics: Cheese: Chemistry, Physics and Microbiology, Volume 2 Patrick F. Fox, Paul L.H. McSweeney, Timothy M. Cogan, Timothy P. Guinee, 2004-08-04 The market for cheese as a food ingredient has increased rapidly in recent years and now represents upto approximately 50% of cheese production in some countries. Volume II entitled Major Cheese Groups will focus on major cheese groups which is devoted to the characteristics of the principle families of cheese. Cheese: Chemistry, Physics, and Microbiology Two-Volume Set, Third Edition is available for purchase as a set, and as well, so are the volumes individually. - Reflects the major advances in cheese science during the last decade - Produced in a new 2-color format - Illustrated with numerous figures and tables |
| dairy chemistry and physics: Dairy Fat Products and Functionality Tuyen Truong, Christelle Lopez, Bhesh Bhandari, Sangeeta Prakash, 2020-05-29 This work highlights a new research area driven by a material science approach to dairy fats and dairy fat-rich products where innovative dairy products and ingredients can be tailor-made. Cutting edge topics such as tribology of dairy fats and dairy products, manipulation of differentiated-sized milk fat globules, milk fat interesterification for infant formula, structuring of lipids in dairy products and production of human milk fat substitutes by including dairy fats are featured in dedicated chapters authored by international scientific experts from across the globe. The text also presents in-depth research on proteomic characterization, digestion and the nutritional functionality of milk fat globule membrane. The biosynthesis, chemistry, digestion and nutritional roles of milk lipids, physics of dairy fats, structure and functionality of the milk fat globule membrane, analytical methods, materials science, technology and manufacturing of dairy fat-rich products such as butter, dairy fat spreads, dairy creams, cream powders and ghee are also covered in-depth. Dairy Fat Products and Functionality: Fundamental Science and Technology is a useful reference text for technologists and scientists interested in advancing their fundamental knowledge of dairy fat and dairy products as well as using a materials science and technology approach to guide efforts or widen research opportunities in optimizing the functionality of these products. From their physics and chemistry to their nutritional values and methodologies, this comprehensive and innovative text covers all the necessary information needed to understand the new methods and technologies driving the modern production of milk fat products. |
| dairy chemistry and physics: Enzymes in Food Processing Parmjit S. Panesar, Satwinder S. Marwaha, Harish K. Chopra, 2010 This book reflects an in depth study of high academic standards dealing in a coherent and lucid way the most comprehensive and advances in application of enzymes in food processing. This indispensable treatise is the product of combined efforts of leading experts of excellent academic credentials in the area of food technology and biotechnology. This unique volume gives a holistic view about the interventions of enzymes in food processing i.e. Handles different enzymes used in food processing at one platform. Discusses the methods of enzyme immobilization and application of immobilized enzymes in food processing. Describes the use of enzymes as food analytical tools including biosensors Illustrates the knowledge about novel strategies in enzyme designing. Numerous tables and figures throughout the volume provide illustrative material to support the detailed information The present volume is an excellent resource of information especially for food scientists/technologists, biotechnologists, biochemical engineers, biochemists, organic chemists, graduate and research students. |
| dairy chemistry and physics: Cheese: Chemistry, Physics and Microbiology P. F. Fox, 2012-12-06 The first edition of this book was very well received by the various groups (lecturers, students, researchers and industrialists) interested in the scientific and techno logical aspects of cheese. The initial printing was sold out faster than anticipated and created an opportunity to revise and extend the book. The second edition retains all 21 subjects from the first edition, generally revised by the same authors and in some cases expanded considerably. In addition, 10 new chapters have been added: Cheese: Methods of chemical analysis; Biochemistry of cheese ripening; Water activity and the composition of cheese; Growth and survival of pathogenic and other undesirable microorganisms in cheese; Mem brane processes in cheese technology, in Volume 1 and North-European varieties; Cheeses of the former USSR; Mozzarella and Pizza cheese; Acid-coagulated cheeses and Cheeses from sheep's and goats' milk in Volume 2. These new chapters were included mainly to fill perceived deficiencies in the first edition. The book provides an in-depth coverage of the principal scientific and techno logical aspects of cheese. While it is intended primarily for lecturers, senior students and researchers, production management and quality control personnel should find it to be a very valuable reference book. Although cheese production has become increasingly scientific in recent years, the quality of the final product is still not totally predictable. It is not claimed that this book will provide all the answers for the cheese scientist/technologist but it does provide the most com prehensive compendium of scientific knowledge on cheese available. |
| dairy chemistry and physics: Functional Properties of Food Components Yeshajahu Pomeranz, 2012-12-02 An extensive revision of the 1985 first edition, this volume combines the biochemistry and functionality of all food components. It provides broad coverage and specific descriptions of selected, major foods, as well as such elements as biotechnology-engineered foods and food patents. While directed toward food technologists and nutritionists, the contents are also invaluable to biologists, engineers, and economists in agriculture, food production, and food processing. - Updates the first edition by the addition of genetic engineering progress - Contains previously unpublished information on food patents - Includes oriental and other ethnic foods, dietetic foods, and biotechnology-generated foods - Features additional material on poultry and fish |
| dairy chemistry and physics: Physical Chemistry of Foods Pieter Walstra, 2002-10-08 Exploring the structure and physical and chemical properties of solutions, dispersions, soft solids, fats, and cellular systems, Physical Chemistry of Foods describes the physiochemical principles of the reactions and conversions that occur during the manufacture, handling, and storage of foods. Coverage progresses from aspects of thermodynamics, bonds and interaction forces, and reaction kinetics, to transport phenomena, polymers, colloidal interactions, nucleation, glass transitions and freezing, and soft solids. This comprehensive volume effectively clarifies the physicochemical processes encountered in food product development. |
| dairy chemistry and physics: Mastering Artisan Cheesemaking Gianaclis Caldwell, 2012-09-19 Every serious home-scale artisan cheesemaker--even those just beginning to experiment--will want this book as their bible to take them from their first quick mozzarella, to a French mimolette, and ultimately to designing their own unique cheeses. This comprehensive and user-friendly guide thoroughly explains the art and science that allow milk to be transformed into epicurean masterpieces. Caldwell offers a deep look at the history, science, culture, and art of making artisan cheese on a small scale, and includes detailed information on equipment and setting up a home-scale operation. A large part of the book includes extensive process-based recipes dictating not only the hard numbers, but also the concepts behind each style of cheese and everything youwant to know about affinage (aging), and using oils, brushes, waxes, infusions, and other creative aging and flavoring techniques. Mastering Artisan Cheesemaking will also prove an invaluable resource for those with, or thinking of starting, a small-scale creamery. Let Gianaclis Caldwell be your mentor, guide, and cheering section as you follow the pathway to a mastery of cheesemaking-- |
| dairy chemistry and physics: Advanced Dairy Chemistry-2 P. F. Fox, 1995 Until relatively recently, milk was valued mainly for its fat content. Although their importance in milk products has decreased, milk lipids have many interesting, even unique, functional and organoleptic properties and are still the subject of considerable research. This is a comprehensive book covering the chemical, physical and rheological properties of milk lipids, their status as an emulsion in milk and milk products, their biosynthesis, chemical stability, nutritional aspects and their role in consumer acceptability of dairy products. |
| dairy chemistry and physics: Milk and Dairy Foods Ian Givens, 2020-04-08 Milk and Dairy Foods: Their Functionality in Human Health and Disease addresses issues at key life stages, presenting updates on the impact of dairy on cardiometabolic health, hemodynamics, cardiovascular health, glycemic control, body weight, bone development, muscle mass and cancer. The book also explores the impact of dairy fats on health, dairy fat composition, trans-fatty acids in dairy products, the impact of organic milk on health, milk and dairy intolerances, and dairy as a source of dietary iodine. Written for food and nutrition researchers, academic teachers, and health professionals, including clinicians and dietitians, this book is sure to be a welcomed resource for all who wish to understand more about the role of dairy in health. |
| dairy chemistry and physics: Chemical Deterioration and Physical Instability of Food and Beverages Leif H Skibsted, Jens Risbo, Mogens L Andersen, 2010-04-23 For a food product to be a success in the marketplace it must be stable throughout its shelf-life. Quality deterioration due to chemical changes and alterations in condition due to physical instability are not always recognised, yet can be just as problematic as microbial spoilage. This book provides an authoritative review of key topics in this area. Chapters in part one focus on the chemical reactions which can negatively affect food quality, such as oxidative rancidity, and their measurement. Part two reviews quality deterioration associated with physical changes, such as moisture loss, gain and migration, crystallization and emulsion breakdown. Contributions in the following section outline the likely effects on different foods and beverages, including bakery products, fruit and vegetables, ready-to-eat meals and wine. With contributions from leaders in their fields, Chemical deterioration and physical instability of food and beverages is an essential reference for R&D and QA staff in the food industry and researchers with an interested in this subject. - Examines chemical reactions which can negatively affect food quality and measurement - Reviews quality deterioration associated with physical changes such as moisture loss, gain and migration, and crystallization - Documents deterioration in specific food and beverage products including bakery products, frozen foods and wine |
| dairy chemistry and physics: Handbook of Mineral Elements in Food Miguel de la Guardia, Salvador Garrigues, 2015-05-06 Mineral elements are found in foods and drink of all different types, from drinking water through to mothers’ milk. The search for mineral elements has shown that many trace and ultratrace-level elements presented in food are required for a healthy life. By identifying and analysing these elements, it is possible to evaluate them for their specific health-giving properties, and conversely, to isolate their less desirable properties with a view to reducing or removing them altogether from some foods. The analysis of mineral elements requires a number of different techniques – some methods may be suitable for one food type yet completely unsuited to another. The Handbook of Mineral Elements in Food is the first book to bring together the analytical techniques, the regulatory and legislative framework, and the widest possible range of food types into one comprehensive handbook for food scientists and technologists. Much of the book is based on the authors’ own data, most of which is previously unpublished, making the Handbook of Mineral Elements in Food a vital and up-to-the-minute reference for food scientists in industry and academia alike. Analytical chemists, nutritionists and food policy makers will also find it an invaluable resource. Showcasing contributions from international researchers, and constituting a major resource for our future understanding of the topic, the Handbook of Mineral Elements in Food is an essential reference and should be found wherever food science and technology are researched and taught. |
| dairy chemistry and physics: Fermentation Bhavbhuti M. Mehta, Afaf Kamal-Eldin, Robert Z. Iwanski, 2012-04-12 A large variety of food products all over the world are prepared by the fermentation of various raw materials. Fermentation: Effects on Food Properties explores the role of fermentation reactions in the chemical, functional, and sensory properties of food components as well as their effect on food component content and biological activity. Emphasizing the various chemical changes that take place during processing, both pre- and post-fermentation, the book explores: The complex microbial community in fermented foods The generation of the flavor and aroma compounds in fermented foods The effect of fermentation on the rheological properties and the color of foods The effect of fermentation on bioactivities of foods How microorganisms during fermentation can remove or detoxify antinutritional compounds in raw foods The fortification of products derived from fermentation processes and technical issues in the production and distribution of such foods Fermentation processes for cereals, legumes, vegetables, dairy products, seafood, and meat Food safety and adherence to the Hazard Analysis and Critical Control Points (HACCP) principles Mastering today’s art of fermentation processes requires detailed knowledge of food raw materials, microbiology, enzymology, chemistry/biochemistry, physics, engineering, and technology. This volume is an important starting point in understanding the process. Presented in concise, accessible chapters contributed by food experts, the book contains ample references to enhance further, more detailed exploration of this critical topic as we search for ways to enhance food quality for better health. |
| dairy chemistry and physics: Dairy Processing G Smit, 2003-07-29 The dairy sector continues to be at the forefront of innovation in food processing. With its distinguished editor and international team of contributors, Dairy processing: improving quality reviews key developments and their impact on product safety and quality.The first two chapters of part one provide a foundation for the rest of the book, summarising the latest research on the constituents of milk and reviewing how agricultural practice influences the quality of raw milk. This is followed by three chapters on key aspects of safety: good hygienic practice, improvements in pasteurisation and sterilisation, and the use of modelling to assess the effectiveness of pasteurisation. A final sequence of chapters in part one discuss aspects of product quality, from flavour, texture, shelf-life and authenticity to the increasingly important area of functional dairy products. Part two reviews some of the major technological advances in the sector. The first two chapters discuss developments in on-line control of process efficiency and product quality. They are followed by chapters on new technologies to improve qualities such as shelf-life, including high pressure processing, drying and the production of powdered dairy products, and the use of dissolved carbon dioxide to extend the shelf-life of milk. Part three looks in more detail at key advances in cheese manufacture.Dairy processing: improving quality is a standard reference for the dairy industry in improving process efficiency and product quality. - Reviews key developments in dairy food processing and their impact on product safety and quality - Summarises the latest research on the constituents of milk and reviews how agricultural practice influences the quality of raw milk - Outlines the key aspects of safety: good hygienic practice, improvements in pasteurisation and sterilisation, and the use of modelling to assess the effectiveness of pasteurisation |
| dairy chemistry and physics: Handbook of Membrane Separations Anil K. Pabby, S. Ranil Wickramasinghe, Ana-Maria Sastre, 2023-12-22 The third edition of the Handbook of Membrane Separations: Chemical, Pharmaceutical, Food, and Biotechnological Applications provides a comprehensive discussion of membrane applications. Fully updated to include the latest advancements in membrane science and technology, it is a one-of-its-kind overview of the existing literature. This fully illustrated handbook is written by experts and professionals in membrane applications from around the world. Key Features: Includes entirely new chapters on organic solvent-resistant nanofiltration, membrane condensers, membrane-reactors in hydrogen production, membrane materials for haemodialysis, and integrated membrane distillation Covers the full spectrum of membrane technology and its advancements Explores membrane applications in a range of fields, from biotechnological and food processing to industrial waste management and environmental engineering This book will appeal to both newcomers to membrane science as well as engineers and scientists looking to expand their knowledge on upcoming advancements in the field. |
| dairy chemistry and physics: Food Processing J. Scott Smith, Y. H. Hui, 2008-02-28 Renowned international academicians and food industry professionals have collaborated to create Food Processing: Principles and Applications. This practical, fully illustrated resource examines the principles of food processing and demonstrates their application by describing the stages and operations for manufacturing different categories of basic food products. Ideal as an undergraduate text, Food Processing stands apart in three ways: The expertise of the contributing authors is unparalleled among food processing texts today. The text is written mostly by non-engineers for other non-engineers and is therefore user-friendly and easy to read. It is one of the rare texts to use commodity manufacturing to illustrate the principles of food processing. As a hands-on guide to the essential processing principles and their application, this book serves as a relevant primary or supplemental text for students of food science and as a valuable tool for food industry professionals. |
| dairy chemistry and physics: Advances in Food and Nutrition Research , 1996-10-22 Advances in Food and Nutrition Research recognizes the integral relationship between the food and nutritional sciences and brings together outstanding and comprehensive reviews that highlight this relationship. Contributions detail the scientific developments in the broad areas encompassed by the fields of food science and nutrition and are intended to ensure that food scientists in academic and industry as well as professional nutritionists and dieticians are kept informed concerning emerging research and developments in these important disciplines. |
| dairy chemistry and physics: Food Gels Peter Harris, 2012-12-06 The food technologist who wishes to produce a gelled product is faced with two basic options for achieving the desired effect; whether to use a protein or a polysaccharide. Although a gel can be formed by either a protein or a polysaccharide, the resultant gels have different characteristics: • Polysaccharide gels are characterised by their fine texture and transparency which is achieved at a low polymer concentration. They can be formed by heating and cooling, pH adjustment or specific ion addition . • Protein gels are characterised by a higher polymer concentration (5-10%) and are formed almost exclusively by heat denaturation. Before reaching a final decision, the technologist must take a number of factors into consideration. The purpose of this book is to help the technologist in his choice by providing fundamental practical information, in one book, on the properties of gels (and factors which influence them) for both types of biopolymer. To help the reader, each chapter is (wherever possible) organised in the same way so that, for example, information on structure will always be available in section 2. The examples in the Applications section of each chapter are not meant to be exhaustive, but to illustrate the various ways in which the particular polymer can be used to form a gelled product. |
| dairy chemistry and physics: Functional Polymers in Food Science Giuseppe Cirillo, Umile Gianfranco Spizzirri, Francesca Iemma, 2015-03-18 Polymers are an important part in everyday life; products made from polymers range from sophisticated articles, such as biomaterials, to aerospace materials. One of the reasons for the great popularity exhibited by polymers is their ease of processing. Polymer properties can be tailored to meet specific needs by varying the “atomic composition” of the repeat structure, by varying molecular weight and by the incorporation (via covalent and non-covalent interactions) of an enormous range of compounds to impart specific activities. In food science, the use of polymeric materials is widely explored, from both an engineering and a nutraceutical point of view. Regarding the engineering application, researchers have discovered the most suitable materials for intelligent packaging which preserves the food quality and prolongs the shelf-life of the products. Furthermore, in agriculture, specific functionalized polymers are used to increase the efficiency of treatments and reduce the environmental pollution. In the nutraceutical field, because consumers are increasingly conscious of the relationship between diet and health, the consumption of high quality foods has been growing continuously. Different compounds (e.g. high quality proteins, lipids and polysaccharides) are well known to contribute to the enhancement of human health by different mechanisms, reducing the risk of cardiovascular disease, coronary disease, and hypertension. This second volume focuses on the importance of polymers and functional food and in food processing |
| dairy chemistry and physics: Annual Bulletin International Dairy Federation, 1976 |
| dairy chemistry and physics: Technology of Cheesemaking Barry A. Law, Adnan Y. Tamime, 2011-06-24 Now in a fully-revised new edition, this book covers the science and technology underlying cheesemaking, as practised today in the manufacture of hard, semi-soft and soft cheeses. Emphasis is placed on the technology, and the science and technology are integrated throughout. Authors also cover research developments likely to have a commercial impact on cheesemaking in the foreseeable future within the areas of molecular genetics, advanced sensor / measurement science, chemometrics, enzymology and flavour chemistry. In order to reflect new issues and challenges that have emerged since publication of the first book, the new chapters are included on milk handling prior to cheesemaking; packaging; and major advances in the control of the end user properties of cheese using key manufacturing parameters and variables. The volume has been structured to flow through the discrete stages of cheese manufacture in the order in which they are executed in cheese plants - from milk process science, through curd process science, to cheese ripening science and quality assessment. Overall, the volume provides process technologists, product development specialists, ingredients suppliers, research and development scientists and quality assurance personnel with a complete reference to cheese technology, set against the background of its physical, chemical and biological scientific base. |
| dairy chemistry and physics: Biochemistry of Foods N.A. Michael Eskin, Fereidoon Shahidi, 2012-10-08 This bestselling reference bridges the gap between the introductory and highly specialized books dealing with aspects of food biochemistry for undergraduate and graduate students, researchers, and professionals in the fi elds of food science, horticulture, animal science, dairy science and cereal chemistry. Now fully revised and updated, with contributing authors from around the world, the third edition of Biochemistry of Foods once again presents the most current science available. The first section addresses the biochemical changes involved in the development of raw foods such as cereals, legumes, fruits and vegetables, milk, and eggs. Section II reviews the processing of foods such as brewing, cheese and yogurt, oilseed processing as well as the role of non-enzymatic browning. Section III on spoilage includes a comprehensive review of enzymatic browning, lipid oxidation and milk off-flavors. The final section covers the new and rapidly expanding area of rDNA technologies. This book provides transitional coverage that moves the reader from concept to application. - Features new chapters on rDNA technologies, legumes, eggs, oilseed processing and fat modification, and lipid oxidation - Offers expanded and updated material throughout, including valuable illustrations - Edited and authored by award-winning scientists |
Dairy - Wikipedia
A dairy is a place where milk is stored and where butter, cheese, and other dairy products are made, or a place where those products are sold. [1]: 325 [2]: 284 It may be a room, a building, …
Dairy product - Wikipedia
Dairy products or milk products are food products made from (or containing) milk. [1][a] The most common dairy animals are cow, water buffalo, nanny goat, and ewe.
MyPlate.gov | Dairy Group – One of the Five Food Groups
About 90% of Americans do not get enough dairy. Most people would benefit from getting more fat-free or low-fat dairy. This can come from milk, yogurt, or cheese. It can also come from …
27 Types of Dairy Products: An A to Z Guide - Nutrition Advance
Jun 20, 2024 · Dairy isn't just butter, cheese, milk, and yogurt. Here are 27 types of dairy products alongside their nutritional properties.
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Dairy product | Definition, Types, Nutritional Content,
Jun 4, 2025 · Dairy product, milk and any of the foods made from milk, including butter, cheese, ice cream, yogurt, and condensed and dried milk. Cow’s milk is by far the principal type of milk …
Dairy - The Nutrition Source
Both full-fat and non/low-fat dairy foods can be good sources of protein, calcium, B vitamins, and vitamin D. Dairy foods that undergo fermentation, such as yogurt and some cheeses, are lower …
Dairy Products & Dairy Foods | U.S. Dairy
Find out all the reasons to love dairy foods such as milk, cheese, yogurt and whey or maybe even find a new favorite like cream, butter, ice cream and kefir. People around the world enjoy a …
DAIRY Definition & Meaning - Merriam-Webster
The meaning of DAIRY is a room, building, or establishment where milk is kept and butter or cheese is made. How to use dairy in a sentence.
The Lowdown on Dairy: Nutrients, Benefits, and Downsides - Healthline
Nov 19, 2021 · This article explores the benefits, downsides, and nutritional profile of dairy. Amid the rise of plant-based diets, many people wonder whether about the pros and cons of dairy …
Dairy - Wikipedia
A dairy is a place where milk is stored and where butter, cheese, and other dairy products are made, or a place where those …
Dairy product - Wikipedia
Dairy products or milk products are food products made from (or containing) milk. [1][a] The most common dairy animals are …
MyPlate.gov | Dairy Group – One of the Five Food Groups
About 90% of Americans do not get enough dairy. Most people would benefit from getting more fat-free or low-fat dairy. This …
27 Types of Dairy Products: An A to Z Guide - Nutrition Advance
Jun 20, 2024 · Dairy isn't just butter, cheese, milk, and yogurt. Here are 27 types of dairy products alongside their nutritional …
Dairy Queen®: Burgers, Blizzard® Treats & More. Happy Tastes Good®
Discover Dairy Queen® special promotions, seasonal Blizzard® favorites, and more. Find out why Happy Tastes Good® at a DQ® …
