Marco ALVES, Otília GONÇALVES, Joana GRACİO, Valentim NUNES

A comparative study of raspberry dehydration by lyophilisation or conventional drying

Dehydration is a food preservation process that allows to increase the availability of products on the market, as well as the introduction of new products. The objective of this work was to perform a comparative study of processes of dehydration of raspberry by freeze-drying (lyophilisation) or conventional drying. Raspberry is a perishable fruit, with about 85% (w/w) water content, and there is a need for preservation processes that generate new products with long term availability. Raw materials were subjected, or not, to blanching pre-treatments. It was analysed the effect of these treatments on physical parameters, such as water activity, colour and moisture content as well in the drying kinetics. It was found that conventional drying allowed to reduce water content to 20.7 to 35.8% while lyophilisation permitted to achieve values from 11.6 to 14%. It was also observed that lyophilisation process correspond to higher colour difference indexes, ranging from 5.30 to 11.8 values.

Keywords:

Blanching, Drying kinetics, Lyophilisation, Raspberry,

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1. Ratti, C. Hot air and freeze-drying of high-values foods: A review, Journal of Food Engineering, 2001, 49: p. 311–319.
2. Marques, L.G.; Freire, J.T. Analysis of Freeze-Drying of Tropical Fruits, Drying Technology, 2005, 23: p. 2169–2184.
3. Sánchez-Sáenz, C.M., Oliveira, R.A., Park, K.J., HTST Pre-drying Influence on Vacuum Drying Kinetics and Carrot Slices Quality Parameter Evaluation, J. Food. Process Preserv., 2015, 39: p.1636-1646.
4. Amrani, M., Brigui, J., The impact of freeze-drying on strawberry quality, Revista Ingenieria e Investigacion, 2007, 27(2): p. 51-55.
5. Veras, A.O.M., Béttega, R., Freire F.B., Barrozo, M.A.S., Freire, J.T., Drying kinetics, structural characteristics and vitamin C retention of dedo-de-moça pepper (Capsicum baccatum) during convective and freeze drying. Brazilian Journal of Chemical Engineering, 2012, 29(4): p.741-750
6. Adhami, S., Rahimi, A., Hatamipour, M.S., Freeze drying of quince (Cydonia oblonga): Modelling of drying kinetics and characteristics, Korean Journal of Chemical Engineering, 2013, 30(6): p. 1201-1206.
7. Sucurovic, A., Vukelic, N., Ignjatovic, L., Brceski, I., Jovanovic, D., Physical-chemical characteristics and oxidative stability of oil obtained from lyophilized raspberry seed , European Journal of Lipid Science Technolology, 2009, 111: p. 1133–1141.
8. Michalczyk, M., Macura, R., Matwzak, J., The effect of air-drying freeze-drying and storage on the quality and antioxidant activity of some selected berries, J. Food Process. Preserv., 2009, 33: p. 11-21.
9. Arévalo-Pinedo, A., Murr, F.E.X., Influence of pre-treatments on the drying kinetics during vacuum drying of carrot and pumpkin, Journal of Food Engineering, 2007, 80: p. 152-156.
10. Genevois, C., Flores, S., de Escalada Pla, M., Effect of iron and ascorbic acid addition on dry infusion process and final color of pumpkin tissue, LWT - Food Science and Technology, 2014, 58: p. 563-570.
11. Sette, P.A., Franceschinis, L.E., Schebor, C., Salvatori, D. Osmotic Dehydrated Raspberries: Changes in Physical Aspects and Bioactive Compounds, Drying Technology, 2015, 33: p. 659–670.
12. Vieira, A.P., Nicoleti, J.F., Telis, V.R.N., Liofilização de fatias de abacaxi: avaliação da cinética de secagem e da qualidade do produto, Brazilian Journal of Food Technology, 2012, 15(1): p. 50-58.
13. Toledo R.T., Fundamentals of Food Process Engineering, Chapman & Hall: New York, 1991.
14. Borges, S.V., Mancini, M.C., Corrêa, J.L.G., Leite, J.B., Drying kinetics of bananas by natural convection: Influence of temperature, shape, blanching and cultivar, Ciência e Agrotecnologia, 2011, 35: p. 368-376.
15. Ciurzynska, A., Lenart, A., Greda, K.J., Effect of pre-treatment conditions on content and activity of water and colour of freeze-dried pumpkin , LWT - Food Science and Technology 2014, 59: p. 1075-1081.
16. Mahy, M., Eycken, L.V., Oosterlinck, A., Evaluation of Uniform Color Spaces Developed after the Adoption of CIELAB and CIELUV, Color Research & Application, 1994,19(2): p. 105-121.
17. Park, K.J., Vohnikoza, Z., Brod, F.P.R.,Evaluation of drying parameters and desorption isotherms of garden mint leaves (Mentha crispa L.), Journal of Food Engineering 2002, 51(3): p. 193-199.
18. Panchariya, P.C., Popovic, D., Sharma, A.L., Thin-layer modeling of black tea drying process, Journal of Food Engineering, 2002, 52(4). p. 349-357.
19. Rosa, D.P., Cantú-Lozano, D., Luna-Solano, G., Polachini, T.C., Telis-Romero, J. Mathematical modelling of orange seed drying kinetics, Ciência e Agrotecnologia 2015, 39(3): p. 291-300.
20. Castro, L. M. M. N., Pinheiro, M. N. C., A Simple Data Processing Approach for Drying Kinetics Experiments, Chemical Engineering Communications, 2016, 203(2): p. 258-269.

International Advanced Researches and Engineering Journal-Cover

Yayın Aralığı: 3
Başlangıç: 2017
Yayıncı: Dr. Ceyhun YILMAZ

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