The International Conference on Food Engineering is held every four years and draws global participation. ICEF 10 will be held in April 2008 in Chile with the theme of food engineering at interfaces. This will not be a typical proceedings with uneven contributions. Papers will be solicited from each plenary speaker plus two or three invited speakers from each topic and the goal is to publish a book that conveys the interdisciplinary spirit of the meeting as well as covers the topics in depth, creating a strong reference work. The idea is to explore how food engineers have to be prepared in years ahead not only to perform in their normal activities but also to engage in new challenges and opportunities that will make the profession more attractive, responsive, and able to create a larger impact. These challenges and opportunities are within the profession and at interfaces with other areas. A major role of engineers is to incorporate new knowledge into the profession and respond to practical needs. The goal is to explore how food engineers are integrating developments in the basic sciences of physics and chemistry, nutrition, informatics, material sciences, genomics (and other -omics), quality and safety, consumer behavior and gastronomy. Interfaces with the environment, the business sector, regulations and export markets are also important to consider.

Foods are ingested and become part of our body. This book describes the science and procedure behind the materials in foods that impart their desirable properties. The book can serve as a text in a course in food materials science at the senior or graduate level or as a supplemental text in an advanced food technology course. It cac also serve as a reference book for professionals in the food industry.

Nature converts molecules into edible structures, most of which are then transformed into products in factories and kitchens. Tasty food structures enter our mouths and different sensations invade our bodies. By the time these structures reach our cells, they have been broken back down into molecules that serve as fuel and raw materials for our bodies. Drawing from the physical and engineering sciences, food technology, nutrition, and gastronomy, Edible Structures: The Basic Science of What We Eat examines the importance of food structures the supramolecular assemblies and matrices that are created by nature and when we cook rather than the basic chemical compounds that are the more traditional focus of study. The central objectives of this book are to address the pressing food trends of this century, including: Growing evidence that flavorful food structures are important for the delivery of the nutritious and healthful food molecules from which they are made A need to understand and control how food structures are created and presented as products that respond to nutritional requirements Opportunities to design certain foods to better suit the needs of modern lifestyles The empowerment of consumers and the appearance of the axis that connects the food we eat with our brain, digestive system, and the cells in our body The separation between a knowledgeable gourmet "elite" and the rest of the population who simply want to eat quick meals as cheaply as possible Entertaining and informative, Edible Structures: The Basic Science of What We Eat uses scientific yet understandable terms throughout to facilitate the communication between experts and the educated public, especially those who are curious, love to cook and innovate in the kitchen and/or want to enjoy good food. The language and concepts presented in this book giv

Engineering and Food for the 21st Century presents important reviews and up-to-date discussions of major topics relating to engineering and food. Internationally renowned contributors discuss a broad base of food engineering and related subjects, including research and prospective industrial applications. The first part begins with recent trends in food engineering and challenges for the future. It then presents important discussions of fundamental aspects of food engineering, including physical chemistry, mass transfer, food rheology, and food structure. Part 2 contains state-of-the-art presentations on thermal processing and packaging, minimal processing, emerging technologies, process control, biotechnology, and environmental factors associated with the processing of food.

Foods are ingested and become part of our body. This book describes the science and procedure behind the materials in foods that impart their desirable properties. The book can serve as a text in a course in food materials science at the senior or graduate level or as a supplemental text in an advanced food technology course. It cac also serve as a reference book for professionals in the food industry.

The International Conference on Food Engineering is held every four years and draws global participation. ICEF 10 will be held in April 2008 in Chile with the theme of food engineering at interfaces. This will not be a typical proceedings with uneven contributions. Papers will be solicited from each plenary speaker plus two or three invited speakers from each topic and the goal is to publish a book that conveys the interdisciplinary spirit of the meeting as well as covers the topics in depth, creating a strong reference work. The idea is to explore how food engineers have to be prepared in years ahead not only to perform in their normal activities but also to engage in new challenges and opportunities that will make the profession more attractive, responsive, and able to create a larger impact. These challenges and opportunities are within the profession and at interfaces with other areas. A major role of engineers is to incorporate new knowledge into the profession and respond to practical needs. The goal is to explore how food engineers are integrating developments in the basic sciences of physics and chemistry, nutrition, informatics, material sciences, genomics (and other -omics), quality and safety, consumer behavior and gastronomy. Interfaces with the environment, the business sector, regulations and export markets are also important to consider.

Engineering and Food for the 21st Century presents important reviews and up-to-date discussions of major topics relating to engineering and food. Internationally renowned contributors discuss a broad base of food engineering and related subjects, including research and prospective industrial applications. The first part begins with recent trends in food engineering and challenges for the future. It then presents important discussions of fundamental aspects of food engineering, including physical chemistry, mass transfer, food rheology, and food structure. Part 2 contains state-of-the-art presentations on thermal processing and packaging, minimal processing, emerging technologies, process control, biotechnology, and environmental factors associated with the processing of food.

An Aspen Food Engineering Series Book. This new edition provides a comprehensive reference on food microstructure, emphasizing its interdisciplinary nature, rooted in the scientific principles of food materials science and physical chemistry. The book details the techniques available to study food microstructure, examines the microstructure of basic food components and its relation to quality, and explores how microstructure is affected by specific unit operations in food process engineering. Descriptions of a number of food-related applications provide a better understanding of the complexities of the microstructural approach to food processing. Color plates.

Nature converts molecules into edible structures, most of which are then transformed into products in factories and kitchens. Tasty food structures enter our mouths and different sensations invade our bodies. By the time these structures reach our cells, they have been broken back down into molecules that serve as fuel and raw materials for our bodies.

Drawing from the physical and engineering sciences, food technology, nutrition, and gastronomy, Edible Structures: The Basic Science of What We Eat examines the importance of food structures the supramolecular assemblies and matrices that are created by nature and when we cook rather than the basic chemical compounds that are the more traditional focus of study. The central objectives of this book are to address the pressing food trends of this century, including:

• Growing evidence that flavorful food structures are important for the delivery of the nutritious and healthful food molecules from which they are made
• A need to understand and control how food structures are created and presented as products that respond to nutritional requirements
• Opportunities to design certain foods to better suit the needs of modern lifestyles
• The empowerment of consumers and the appearance of the axis that connects the food we eat with our brain, digestive system, and the cells in our body
• The separation between a knowledgeable gourmet "elite" and the rest of the population who simply want to eat quick meals as cheaply as possible

Entertaining and informative, Edible Structures: The Basic Science of What We Eat uses scientific yet understandable terms throughout to facilitate the communication between experts and the educated public, especially those who are curious, love to cook and innovate in the kitchen and/or want to enjoy good food. The language and concepts presented in this book give the reader some access to specialized texts and scientific journals, and above all, to the best and most current information available on the Internet and other media."