Artículos de revistas
Production And Spray Drying Of Protein Hydrolyzate Obtained From Tilapia Processing By-products [produção E Secagem Por Atomização De Hidrolisado Proteico, Obtido De Coprodutos Do Processamento De Tilápia]
Registro en:
Acta Scientiarum - Technology. Eduem - Editora Da Universidade Estadual De Maringa, v. 38, n. 1, p. 89 - 97, 2016.
18062563
10.4025/actascitechnol.v38i1.27639
2-s2.0-84955620881
Institución
Resumen
In the last few decades, the offer of by-products obtained from the processing of tilapia (Oreochromis niloticus) has increased, and the need for developing products with high biological and nutritional values for use in animal nutrition motivated this study. Enzymatic hydrolysis of carcass, head and skin of tilapia was performed, as well as the separation of oil, residual solids and soluble proteins by centrifugation at high temperature and the spray drying of the protein fraction. Factorial designs were employed in the assays to evaluate the operating conditions of the spray dryer (inlet and outlet temperatures and flow rate) and the inclusion of drying aid agents (maltodextrin and calcium carbonate). The spray drying showed the best results with air inlet temperature of 190°C, outlet temperature of 90°C, flow rate of 30 L·h-1 including 10% maltodextrin (mass) in the liquid feed as a drying aid. The final powder recovery was higher than 90% and the physical, chemical and microbiological analyses met the Brazilian legal standards. © 2016, Eduem - Editora da Universidade Estadual de Maringa. All rights reserved. 38 1 89 97 Aguilera, J., Lillford, P., (2007) Food Materials Science: Principles and Pratice, , New York, USA: Springer Verlag (1990) Official Methods of Analysis, , Arlington, USA: AOAC International Baranauskiené, R., Rimantas, V.P., Dewettink, K., Verdhé, R., Properties of oregano (Origanum vulgare L.), citronella (Cymbopogon nardhus G.) and marjoram (Majorama hortensis L.) flavors encapsulated into milk protein-based matrices (2006) Food Research International, 39 (4), pp. 413-425 Barros Neto, B., Scarminio, I.S., Bruns, R.E., (2007) Como Fazer Experimentos, , Campinas, SP: Editora Unicamp Bhandari, B.R., Datta, N., Crooks, R., Howes, T., Rigby, S., A semi-empirical approach to optimise the quantity of drying aids required to spray dry sugar-rich food (1997) Drying Technology, 15 (10), pp. 2509-2525 Bhandari, B.R., Patel, K.C., Chen, X.D., Spray drying of food materials - process and product characteristics (2008) Drying Technologies in Food Processing, pp. 113-157. , In X. D. Chen, & S. A. Mujumdar (Eds.), Oxford, UK: Blackwell Publishing Ltd Chalamaiah, M., Dineshkumar, B., Hemalatha, R., Jyothirma, Y.I.T., Fish protein hydrolysates: Proximate composition, amino acid composition, antioxidant activities and applications: A review (2012) Food Chemistry, 135 (4), pp. 3020-3038 Cuq, B., Rondet, E., Abecassis, J., Food powders engineering, between know-how and science: Constrains, stakes and opportunities (2011) Powder Technology, 208 (2), pp. 244-251 Dieterich, F., Boscolo, W.R., Pacheco, M.T.B., Silva, V.S.N., Gongalves, G.S., Vidotti, R.M., Development and characterization of protein hydrolysates originated from animal agro industrial byproducts (2014) Journal of Dairy, Veterinary and Animal Research, 1 (2), pp. 1-7 Georgetti, S.R., Casagrande, R., Fernandes, S.C., Pereira, O.W., Vieira, F.M., Spray drying of the soy bean extracts: Effects on chemical properties and antioxidant activity (2008) Food Science Technology, 41 (8), pp. 1521-1527 Gharsallaoui, A., Surel, L., Roudaut, G., Chambin, O., Volley, A., Applications of spray drying in microencapsulation of food ingredientes: Na overview (2007) Food Research International, 40 (9), pp. 1107-1121 Guadarrama-Lezama, A.Y., Dorantes-Alvarez, L., Jaramillo-Flores, M.E., Pérez-Alonso, C., Nirajan, K., Gutiérrez-López, G.F., Alamilla-Beltrán, L., Preparation and characterization of nonaqueous extracts from chilli (Capsicum annuum L.) and their microencapsulates obtained by spray-drying (2012) Journal of Food Engineering, 112 (1-2), pp. 29-37 Ishwarya, S.P., Anandharamakrishnan, C., Stapley, A.G.F., Spray-freeze-drying: A novel process for the drying of foods and bioproducts (2015) Trends in Food Science and Technology, 41 (2), pp. 161-181 Kha, T.C., Nguyen, N.H., Roach, P.D., Effects of spray dryer conditions on the physicochemical and antioxidant properties of the Gac (Momordica cochinchinesis) fruit aril powder (2010) Journal of Food Engineering, 98 (3), pp. 385-392 Keshani, S., Daud, W.R.W., Nourouzi, M.M., Namvar, F., Ghasemi, M., Spray drying: An overview on wall deposition, process and modeling (2015) Journal of Food Engineering, 146 (1), pp. 152-162 Kim, E.H.J., Chen, D.X., Pearce, D., Surface composition of industrial spray-dried milk powders (2009) Journal of Food Engineering, 94 (2), pp. 169-181 Krishnan, S., Bhosale, R., Singhal, R.S., Microencapsulation of Cardomom oleoresin: Evaluations of blends of gum arabic, maltodextrin an a modified starch as wall materials (2005) Carbohydrate Polymers, 61 (1), pp. 95-102 Kurozawa, L.E., Park, K.J., Hubinger, D.M., Effect of carriers agent on the physicochemical properties of a spray dried chicken meat protein hydrollysate (2009) Journal of Food Engineering, 94 (3-4), pp. 326-333 Madene, J., Jacquot, M., Scher, J., Stéphane, D., Flavour encapsulantion and controlled release - a review (2006) International Journal Food Science Technology, 41 (1), pp. 1-21 Ogawa, M., Maia, E.L., (1999) Manual De Pesca. Ciência E Tecnologia Do Pescado, , São Paulo, SP: Editora Varela Ozmen, L., Langrish, T., An experimental investigation of the wall deposition of milk powder in a pilot-scale spray dryer (2003) Drying Technology, 21 (7), pp. 1253-1272 Paini, M., Aliakbarian, B., Casazza, A.A., Lagazzo, A., Botter, R., Perego, P., Microencapsulation of phenolic compounds from olive pomace using spray drying: A study of operative parameters (2015) Food Science and Technology, 62 (1), pp. 177-185 Porras-Saavedra, J., Palacios-González, E., Lartundo-Rojas, L., Garibay-Febles, V., Yáñez-Fernandez, J., Hernández-Sánches, H., Alamilla-Beltrán, L., Microestrutural properties and distribuition of components in microparticles obtained by spray- drying (2015) Journal of Food Engineering, 152 (1), pp. 105-112 Rannou, C., Queveau, D., Beaumal, V., David-Briand, E., Le Borgne, C., Meynier, A., Loisel, C., Effect of spray-drying and storage conditions on the physical and functional properties on standard and n-3 enriched egg yolk powders (2015) Journal of Food Engineering, 154 (1), pp. 58-68 Robert, P., Gorena, T., Romero, N., Sepulveda, E., Chavez, J., Saenz, C., Encaspualtion of polyphenols and anthocyanins from pomegranate (Punica granatum) by spray drying (2010) International Journal of Food Science & Technology, 45 (7), pp. 1386-1394 Roos, Y., (2009) Advanced Dairy Chemistry, pp. 17-33. , Springer: New York Roos, Y., Karel, M., Applying states diagrams to food processing and development (1991) Food Technology, 45 (12), pp. 66-71 Shrestha, A.K., Howes, T., Adhikari, B.P., Bhandari, B.R., Spray drying of skim milk mixed with milk permeate: Effect on drying behavior, physicochemical properties and storage stability of powder (2008) Drying Technology, 26 (2), pp. 239-247 Silva, J.F.X., Ribeiro, K., Silva, J.F., Cahú, T.B., Bezerra, R.S., Utilization of tilapia processing waste for the production of fish protein hydrolysate (2014) Animal Feed Science and Technology, 196 (1), pp. 96-106 Simões, M.R., Ribeiro, C.F.A., Ribeiro, S.C.A., Park, K.J., Murr, F.E.X., Composição físicoquímica, microbiológica e rendimento do filé de tilapia tailandesa (Oreochromis niloticus) (2007) Ciência E Tecnologia De Alimentos, 27 (3), pp. 608-613 Wang, Y., Lu, Z., Lv, F., Study on microencapsulation of curcumin pigments by spray drying (2009) European Food Research and Technology, 229 (3), pp. 391-396 Woo, M.W., Daud, W.R.W., Tasirin, S.M., Talib, M.Z.M., Controlling food poder deposition in spray driers: Wall surface energy manipulation as an alternative (2009) Journal of Food Engineering, 94 (2), pp. 192-198