http://orcid.org/0000-0002-8910-2833
References
- Almeida, M.M.B., et al., 2011. Bioactive compounds and antioxidant activity of fresh exotic fruits from northeastern Brazil. Food research international, 44 (7), 2155–2159.
- ANVISA., 2001. Resolution RDC No. 12 of January 2, 2001. Technical regulation on microbiological standards for food, Official Gazette of the Federative Republic of Brazil, 10 Jan. Section I, 45–53. Brasilia, DF, Brazil: National Health Surveillance Agency. (in Portuguese).
- AOAC., 2012. Official methods of analysis of AOAC. Association of Official Analytical Chemists. 19th ed. Washington, DC: AOAC Press.
- Bae, E.K., and Lee, S.J., 2008. Microencapsulation of avocado oil by spray drying using whey protein and maltodextrin. Journal of microencapsulation, 25 (8), 549–560.
- Barbosa-Cánovas, G.V., and Juliano, P., 2005. Physical and chemical properties of food powders. In: C. Onwulata, ed. Encapsulated and powdered foods. Boca Raton, FL: Taylor & Francis, pp. 39–71.
- Cai, Y.Z., and Corke, H., 2000. Production and properties of spray-dried amaranthus betacyanin pigments. Journal of food science, 65 (7), 1248–1252.
- Cano-Chauca, M., et al., 2005. Effect of the carriers on the microstructure of mango powder obtained by spray drying and its functional characterization. Innovative food science and emerging technologies, 6 (4), 420–428.
- Caparino, O.A., et al., 2012. Effect of drying methods on the physical properties and microstructures of mango (Philippine ‘Carabao’ var.) power. Journal of food engineering, 111 (1), 135–148.
- Corrêa-Filho, L.C., et al., 2019. Microencapsulation of β-carotene by spray drying: Effect of wall material concentration and drying inlet temperature. International journal of food science, 2019, 8914852.
- Costa, R.S., et al., 2019. Optimization of spray drying conditions to microencapsulate cupuassu (Theobroma grandiflorum) seed by-product extract. Natural product research, 33, 2600–2608.
- Daza, L.D., et al., 2016. Effect of spray drying conditions on the physical properties of Cagaita (Eugenia dysenterica DC.) fruit extracts. Food and bioproducts processing, 97, 20–29.
- Desai, K.G.H., and Park, H.J., 2005. Recent developments in microencapsulation of food ingredients. Drying technology, 23 (7), 1361–1394.
- Fang, Z., and Bhandari, B., 2010. Encapsulation of polyphenols: a review. Trends in food science and technology, 21 (10), 510–523.
- Fazaeli, M., et al., 2012. Effect of spray drying conditions and feed composition on the physical properties of black mulberry juice powder. Food and bioproducts processing, 90 (4), 667–675.
- Ferrari, C.C., Ribeiro, C.P., and Aguirre, J.M., 2012. Spray drying of blackberry pulp using maltodextrin as carrier agent. Brazilian journal of food technology, 15 (2), 157–165.
- Grabowski, J.A., Truong, V.D., and Daubert, C.R., 2006. Spray-drying of amylase hydrolyzed sweetpotato puree and physicochemical properties of powder. Journal of food science, 71, 209–217.
- Greenspan, L., 1977. Humidity fixed points of binary saturated aqueous solutions. Journal of research of the national bureau of standards section A: physics and chemistry, 81 A, 89–96.
- Jiménez-Aguilar, D.M., et al., 2011. Color and chemical stability of spray-dried blueberry extract using mesquite gum as wall material. Journal of food composition and analysis, 24 (6), 889–894.
- Jittanit, W., Niti-Att, S., and Techanuntachaikul, O., 2010. Study of spray drying of pineapple juice using maltodextrin as an adjunct. The Chiang Mai journal of science, 7, 498–506.
- Krishnaiah, D., Sarbatly, R., and Nithyanandam, R., 2012. Microencapsulation of Morinda citrifolia L. extract by spray drying. Chemical engineering research and design, 90 (5), 622–632.
- Leong, S.L., et al., 2011. The extreme xerophilic mould Xeromyces bisporus - growth and competition at various water activities. International journal of food microbiology, 145 (1), 57–63.
- Lisboa, H.M., Duarte, M.E., and Cavalcanti-Mata, M.E., 2018. Modeling of food drying processes in industrial spray dryers. Food and bioproducts processing, 107, 49–60.
- Looi, Y.F., et al., 2019. Effects of pretreatment and spray drying on the physicochemical properties and probiotics viability of Moringa (Moringa oleifera Lam) leaf juice powder. Journal of food processing and preservation, 43, 13915.
- Moreira, G.E.G., et al., 2009. Physical properties of spray dried acerola pomace extract as affected by temperature and drying aids. LWT – food science and technology, 42 (2), 641–645.
- Muzaffar, K., Dinkarrao, B.V., and Kumar, P., 2016. Optimization of spray drying conditions for production of quality pomegranate juice powder. Cogent food & agriculture, 2, e1127583.
- Neto, E., et al., 2012. Physical and chemical characterization of Spondias tuberosa Arruda fruit from different Caatinga landscapes in Altinho-PE. The natural products journale, 2 (3), 156–160.
- O’Sullivan, J.J., et al., 2019. Atomisation technologies used in spray drying in the dairy industry: a review. Journal of food engineering, 243, 57–69.
- Papadakis, S.E., Gardeli, C., and Tzia, C., 2006. Spray drying of raisin juice concentrate. Drying technology, 24 (2), 173–180.
- Pedro, M.A.M., Telis-Romero, J., and Telis, V., 2010. Effect of drying method on the adsorption isotherms and isosteric heat of passion fruit pulp powder. Ciência e Tecnologia de Alimentos, 30 (4), 993–1000.
- Phisut, N., 2012. Spray drying technique of fruit juice powder: some factors influencing the properties of product. International food research journal, 19, 1297–1306.
- Quek, S.Y., Chok, N.K., and Swedlund, P., 2007. The physicochemical properties of spray-dried watermelon powders. Chemical engineering process, 46 (5), 386–396.
- Rocha, G.A., Fávaro-Trindade, C.S., and Grosso, C., 2012. Microencapsulation of lycopene by spray drying: characterization, stability and application of microcapsules. Food and bioproducts processing, 90 (1), 37–42.
- Rogers, S., et al., 2012. A monodisperse spray dryer for milk powder: modelling the formation of insoluble material. Chemical engineering sciences, 71, 75–84.
- Samborska, K., 2019. Powdered honey – drying methods and parameters, types of carriers and drying aids, physicochemical properties and storage stability. Trends in food science and technology, 88, 133–142.
- Silva, A.N., et al., 2013. Performance of hedonic scales in sensory acceptability of strawberry yogurt. Food quality and preference, 30, 9–21.
- Silva, J.A., et al., 2014. Influence of process conditions on drying by atomization pulp umbu. Journal of bioprocessing and biotechniques, 4, 163.
- Tonon, R.V., et al., 2009. Water sorption and glass transition temperature of spray dried açai (Euterpe oleracea Mart.) juice. Journal of food engineering, 94 (3–4), 215–221.
- Tonon, R.V., Brabet, C., and Hubinger, M.D., 2013. Use of spray drying for obtaining functional products with high added value from acai. Inclusão Social (Brasilia), 6 (2), 70–76.
- Tonon, R.V., Brabet, C., and Hubinger, M.D., 2010. Anthocyanin stability and antioxidant activity of spray-dried acai (Euterpe oleracea Mart.) juice produced with different carrier agents. Food research international, 43 (3), 907–914.
- Tonon, R.V., Brabet, C., and Hubinger, M.D., 2009. Influence of drying air temperature and carrier agent concentration on the physicochemical properties of acai juice powder. Ciência e Tecnologia de Alimentos, 29 (2), 444–450.
- Vanhonacker, F., et al., 2013. Innovations in traditional foods: Impact on perceived traditional character and consumer acceptance. Food research international, 54 (2), 1828–1835.
- Verma, A., and Singh, S.V., 2015. Spray drying of fruit and vegetable juices-a review. Critical reviews in food science and nutrition, 55 (5), 701–719.
- Wettasinghe, M., and Shahidi, F., 1999. Evening primrose meal: a source of natural antioxidants and scavenger of hydrogen peroxide and oxygen-derived free radicals. Journal of agricultural and food chemistry, 47 (5), 1801–1812.
- Wichchukit, S., and O’Mahony, M., 2011. Liking’, ‘Buying’, ‘Choosing’ and ‘Take Away’ preference tests for varying degrees of hedonic disparity. Food qual prefer, 22 (1), 60–65.