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Processed Cheese Science and Technology: Ingredients, Manufacture, Functionality, Quality, and Regulations details the most recent developments and updates regarding processed cheeses and cheese products. It offers comprehensive information on all aspects of processed cheese, including manufacturing, types, ingredients, flavors, colors, preservatives, functionality (texture and rheology), analyses, quality, microbiology, regulations and legislations. Structured into 16 chapters, the book begins with an introduction that provides a general overview of processed cheese, followed by a detailed description of the ingredients used in manufacturing, such as using cheeses as ingredients, vegetable-originated ingredients, salts, and more. In addition, low sodium and low-salt processed cheeses are discussed, highlighting the potential benefits for human health. Technological aspects of processed cheese are also covered, followed by an outline of special types of processed cheeses. The book then goes on to examine techniques for end-product characterization, as well as the quality aspects including the microbiology of processed cheese. The last chapter discusses the applications, current challenges, and market trends of processed cheese. Processed Cheese Science and Technology: Ingredients, Manufacture, Functionality, Quality, and Regulations is an excellent resource aimed at food scientists, researchers in academia, and individuals working in the food industry and the commercial sector with a focus on processed cheeses and their end-products. - Offers the most complete coverage of processed cheese products to-date - Led by active researchers and educators with expertise in processed cheeses, featuring chapters by global dairy science experts - Includes extensive lists of references for further reading at the end of each chapter
Part of the Society of Dairy Technology Series, this book deals with a commercially significant sector of dairy science. The book includes chapters on legislation, functionality of ingredients, processing plants and equipment, manufacturing best practice, packaging, and quality control. The chapters are authored by an international team of experts. This book is an essential resource for manufacturers and users of processed and analogue cheese products internationally; dairy scientists in industry and research; and advanced food science students with an interest in dairy science.
This book provides comprehensive coverage of the scientific aspects of cheese, emphasizing fundamental principles. The book's updated 22 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.
Cheese is a unique food product which requires a significant amount of scientific knowledge to be produced successfully. However, due to the many, complex and interrelated changes which occur during cheese manufacture and ripening, it is still not possible to guarantee the production of premium quality cheese. Written by an international team of renowned contributors, Cheese problems solved provides responses to over 200 of the most frequently asked questions about cheese and the cheese-making process, in a unique and practical question-and-answer format.Opening chapters concentrate on queries regarding the preparation of cheese milk, the conversion of milk to curd, the ripening process, pathogens, cheese analysis and nutritional aspects of cheese amongst other issues. The latter half of the book discusses particular types of cheeses such as Cheddar, Grana-type cheeses, Mozzarella, Dutch-type, Swiss and Blue cheeses, to name but a few.Edited by a leading expert and with contributions from specialists within the field, Cheese problems solved is an essential reference and problem solving manual for professionals and trainees in the cheese industry. - Provides responses to over 200 of the most frequently asked questions about cheese and the cheese-making process - An essential reference and problem solving manual for professionals and trainees in the cheese industry - Benefit from the knowledge of leading specialists in the field
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.
Global Cheesemaking Technology: Cheese Quality and Characteristics reviews cheesemaking practices, and describes cheeses and the processes from which they are manufactured. In addition, the book examines new areas to stimulate further research in addition to the already established knowledge on the scientific principles on cheesemaking. Part I provides an account on the history of cheese, factors influencing the physicochemical properties, flavour development and sensory characteristics, microbial ecology and cheese safety, traceability and authentication of cheeses with protected labels, and traditional wooden equipment used for cheesemaking, while an overview of the cheesemaking process is also presented. Part II describes 100 global cheeses from 17 countries, divided into 13 categories. The cheeses described are well-known types produced in large quantities worldwide, together with some important locally produced, in order to stimulate scientific interest in these cheese varieties. Each category is presented in a separate chapter with relevant research on each cheese and extensive referencing to facilitate further reading.
Describes the science of cheese making, from chemistry to biology, in a lively way that is readable for both the food scientist and the artisanal hobbyist.
In this book, the authors present current research in the study of the production, chemistry and sensory properties of cheese. Topics discussed include the technological and chemical characterization of PDO cheeses in Italy; the presence of biogenic amines in cheese; Spanish traditional cheese characteristics; sensorial analysis methodology for goats' cheese made with clotting enzymes; processed cheese flavours and flavour compounds; the dietary and toxicological aspects of cheese; fortification strategies of cheese as a functional food; health issues, reduction and replacement of salt in cheese; cheese ripening and proteolysis; lipid fraction in cheese; engineering properties of Mexican chihuahua cheese; structure and texture determination of dairy products by using spectroscopic techniques coupled with chemometric tools; clostridium in late blowing defect of cheese; analysis of fatty acids in cheese by capillary electrophoresis; valorisation of whey in small and medium dairy industries; conjugated linoleic acid (CLA) in cheese; assessment of natural levels of substances with preservative effects in dairy products; cheese microstructure; and the multifaceted function of cheese and its anticancer effect on human leukaemic cell growth in vitro.
Fluid milk processing is energy intensive, with high financial and energy costs found all along the production line and supply chain. Worldwide, the dairy industry has set a goal of reducing GHG emissions and other environmental impacts associated with milk processing. Although the major GHG emissions associated with milk production occur on the farm, most energy usage associated with milk processing occurs at the milk processing plant and afterwards, during refrigerated storage (a key requirement for the transportation, retail and consumption of most milk products). Sustainable alternatives and designs for the dairy processing plants of the future are now being actively sought by the global dairy industry, as it seeks to improve efficiency, reduce costs, and comply with its corporate social responsibilities. Emerging Dairy Processing Technologies: Opportunities for the Dairy Industry presents the state of the art research and technologies that have been proposed as sustainable replacements for high temperature-short time (HTST) and ultra-high temperature (UHT) pasteurization, with potentially lower energy usage and greenhouse gas emissions. These technologies include pulsed electric fields, high hydrostatic pressure, high pressure homogenization, ohmic and microwave heating, microfiltration, pulsed light, UV light processing, and carbon dioxide processing. The use of bacteriocins, which have the potential to improve the efficiency of the processing technologies, is discussed, and information on organic and pasture milk, which consumers perceive as sustainable alternatives to conventional milk, is also provided. This book brings together all the available information on alternative milk processing techniques and their impact on the physical and functional properties of milk, written by researchers who have developed a body of work in each of the technologies. This book is aimed at dairy scientists and technologists who may be working in dairy companies or academia. It will also be highly relevant to food processing experts working with dairy ingredients, as well as university departments, research centres and graduate students.
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.