Overview
ABSTRACT
Drying occurs at the end of the fabrication process of a food product. It concerns an extremely large amount of products and often influences the final quality. A large number of processes are available and are adapted to the type, quantity and desired quality once the product is dried. This article starts by describing the specificities of the principal dryers (models and criteria of choice). It then focuses on the influence of this process on the quality of finished products, safety and the environment. These techniques are then illustrated by concrete case studies (such as, for instance, the industrial drying of corn or milk). Other techniques, more recent or currently in development, are also detailed.
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Read the articleAUTHORS
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Catherine BONAZZI: INRA Research Fellow, UMR 1145 Industrial Food Engineering, AgroParisTech-Cemagref-INRA, Massy - INA P-G engineer (Institut national agronomique de Paris-Grignon) - Doctor of INA P-G
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Jean-Jacques BIMBENET: Professor emeritus at the École nationale supérieure des industries agricoles et alimentaires (ENSIA), Massy
INTRODUCTION
Drying operations play an important role in the food industry. They often represent the last operation in a product's manufacturing process, with a strong influence on final quality. Drying involves a wide variety of products, from cereals to finished products, from raw materials to by-products. Processes are numerous and depend on the type and quantity of product to be dried and water to be evaporated, the desired final quality, or the desired functionality of the dried product.
The properties of food are linked to the complexity of its chemical composition (sugars, proteins, lipids, minerals, vitamins, flavors, etc.), which evolves during the drying process and must be controlled. Changes in water content and water activity must also be taken into account, as well as many other factors with positive or negative effects:
environmental temperature and humidity conditions;
changes in shape, structure, porosity, mechanical properties ;
bonding and crystallization phenomena associated with the glass transition ;
chemical reactions, their nature and speed in relation to pH and temperature, etc.
Many of these parameters are difficult to determine and/or measure.
This dossier follows on from the article Drying food products. Principles
The final section is devoted to a number of case studies, and a description of the most widespread techniques, or those under development.
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Drying food products
Bibliography
Reviews
• Drying Technology (Marcel Dekker, Inc., 270 Madison avenue, New York, NY 10016).
• Cahiers de l'AFSIA.
• Journal of food engineering (Elsevier Science B.V., Amsterdam).
Organizations
(non-exhaustive list)
• AFSIA (Association française de séchage dans l'industrie et l'agriculture), ESCPE, 43 Bd du 11 novembre 1918, LAGEP bât. 308G, BP 2077, 69616 villeurbanne cedex.
• CETIAT (Centre technique des industries aérauliques et thermiques), domaine scientifique de la Doua, 15 avenue des Arts, PB 2042, 69603 villeurbanne cedex.
Dryer manufacturers
An exhaustive list of dryer manufacturers was published by AFSIA in 1998.
List of main dryer suppliers (non-exhaustive)
• AEIB
http://www.aeib-ventilators.com
Dryers for tobacco, herbs, medicinal plants, flowers, seaweed...
• Afrem international (Clextral...
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