Dried Food Properties: Challenges Ahead

Abstract: In the last few decades, the knowledge of the properties of dried-food has increased tremendously. In fact drying research and development has extended beyond its limited chemical and mechanical engineering approach of heat and mass transfer. In the past drying was performed to preserve foods with less emphasis on multidimensional quality attributes. A recent trend is to develop dried-foods maintaining its quality, such as flavor, texture, convenience, and functionality with increased nutritional contents and reduced anti-nutritional factors or toxins. At present drying of foods has extreme focus on maintaining its bioactive and structural functionality. The main purpose of this paper is to give an overview on the food properties and to provide basic concepts of food properties and quality. A critical assessment is presented with emphasis on classifications, measurement techniques, data generation, prediction models and applications of food properties. An attempt is also made to answer the following questions: where are we now and where do we need to go or reach? What vicious circle needs to be broken? What efforts are being made around the globe?

[1]  R HAMM,et al.  Biochemistry of meat hydration. , 1960, Advances in food research.

[2]  Martin R. Okos,et al.  Predicting the Quality of Dehydrated Foods and Biopolymers — Research Needs and Opportunities , 1996 .

[3]  Refrigerating ASHRAE handbook and product directory /published by the American Society of Heating, Refrigerating and Air-Conditioning Engineers, Inc , 1977 .

[4]  C. Christensen Food Texture Perception , 1984 .

[5]  N. Mohsenin Physical properties of plant and animal materials , 1970 .

[6]  J. Chirife,et al.  Some features of the parameter k of the GAB equation as applied to sorption isotherms of selected food materials , 1992 .

[7]  Malcolm C. Bourne,et al.  Texture profile analysis , 1978 .

[8]  Ian C. Hallett,et al.  Food - mouth interactions : Towards a better understanding of fruit texture , 1998 .

[9]  Vaios T. Karathanos,et al.  Effect of freeze-drying conditions on shrinkage and porosity of dehydrated agricultural products , 1998 .

[10]  Shyam S. Sablani,et al.  Water Sorption Isotherms of Dates: Modeling Using GAB Equation and Artificial Neural Network Approaches , 1998 .

[11]  M. Rahman,et al.  State Diagram of Date Flesh Using Differential Scanning Calorimetry (DSC) , 2004 .

[12]  Piotr P. Lewicki,et al.  Some remarks on rehydration of dried foods , 1998 .

[13]  M. Peleg,et al.  Effect of resolution on the apparent fractal dimension of jagged force-displacement relationships and other irregular signatures , 1997 .

[14]  J. Kinsella,et al.  Quality Control for the Food Industry , 1973 .

[15]  M. Rahman,et al.  TOWARD PREDICTION OF POROSITY IN FOODS DURING DRYING: A BRIEF REVIEW , 2001 .

[16]  Piotr P. Lewicki,et al.  The applicability of the GAB model to food water sorption isotherms , 1997 .

[17]  M. Karel,et al.  Structural collapse of plant materials during freeze-drying , 1996 .

[18]  Micha Peleg,et al.  Determination of the apparent fractal dimension of the force-displacement curves of brittle snacks by four different algorithms , 1996 .

[19]  J. G. Brennan,et al.  Changes in structure, density and porosity of potato during dehydration , 1995 .

[20]  Miguel López-Leiva,et al.  The original Plank equation and its use in the development of food freezing rate predictions , 2003 .

[21]  C. Ratti Shrinkage during drying of foodstuffs , 1994 .

[22]  T. Labuza,et al.  Water Activity and Food Preservation , 2007, Handbook of Food Preservation.

[23]  J. Aguilera,et al.  Glass transitions and shrinkage during drying and storage of osmosed apple pieces , 1998 .

[24]  R. B. Duckworth,et al.  The water-vapour sorption isotherms of microcrystalline cellulose (MCC) and of purified potato starch. Results of a collaborative study , 1984 .

[25]  D. Jayas,et al.  EVALUATION OF THE GAB EQUATION FOR THE ISOTHERMS OF AGRICULTURAL PRODUCTS , 1998 .

[26]  Vice President,et al.  AMERICAN SOCIETY OF HEATING, REFRIGERATION AND AIR CONDITIONING ENGINEERS INC. , 2007 .

[27]  新 雅夫,et al.  ASHRAE(American Society of Heating,Refrigerating and Air-Conditioning Engineers)大会"国際年"行事に参加して , 1975 .

[28]  A. Halmos Food texture and sensory properties of dairy ingredients , 1997 .

[29]  L. Slade,et al.  A food polymer science approach to structure-property relationships in aqueous food systems: non-equilibrium behavior of carbohydrate-water systems. , 1991, Advances in experimental medicine and biology.

[30]  Conrad O. Perera,et al.  Desorption isotherm and heat pump drying kinetics of peas , 1997 .

[31]  Arun S. Mujumdar,et al.  TRANSPORT PROPERTIES OF FOODS , 2001 .

[32]  Terry J. Siebenmorgen,et al.  The glass transition temperature concept in rice drying and tempering : Effect on milling quality , 2000 .

[33]  M. Anderson,et al.  Physical properties of foods and food processing systems , 1988 .

[34]  Pablo Juliano,et al.  ENGINEERING PROPERTIES OF FOODS , 2007 .

[35]  Usama M. Fayyad,et al.  Data mining and KDD: Promise and challenges , 1997, Future Gener. Comput. Syst..

[36]  V. Karathanos COLLAPSE OF STRUCTURE DURING DRYING OF CELERY , 1993 .

[37]  Gilles Trystram,et al.  Optimal constrained non-linear control of batch processes: Application to corn drying , 1997 .