Development of Lemon Fruit Flavored Tasty Saline Functional Powder Drinks
Journal of Food and Nutrition Sciences
Volume 2, Issue 4, July 2014, Pages: 173-178
Received: Jul. 2, 2014; Accepted: Jul. 21, 2014; Published: Jul. 30, 2014
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Bellal Hossain, Nutrition and Food Engineering department, Faculty of Allied Health Sciences, Daffodil International University, 102, Shukrabad, Mirpur Road, Dhanmondi, Dhaka-1207, Bangladesh
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Nowadays, agglomerated citrus fruit flavored Tasty Saline functional powder drink represents a very appealing functional beverage for adult customers. It is produced by mixing basic ingredients (refined sucrose, refined common salt, encapsulated lemon flavor, dextrose anhydrous and potassium chloride) which were followed by agglomeration. Agglomeration is necessary, because non-agglomerated refined sucrose exhibit very poor flow and reconstitution properties. This research showed the influence of process conditions and composition of the different powder mixtures on the physical properties of the agglomerated final product. Agglomeration was conducted using batch fluid bed agglomerator at a constant air temperature (60°C), with a constant addition of citric acid with acid regulators with varying duration of the process and varying amount of added water. Bulk density and particle size were conducted prior to and post agglomeration, while agglomerate hardness was estimated by conducting a compression test with a 30 mm probe on Texture Analyzer. Percentage of added water had a significant effect on bulk density and the duration of the agglomeration process. This effect was more significant with mixtures made with salt. As for mixtures with 0.45 % to 0.55% encapsulated flavor, a significant influence of water addition on agglomerate median diameter was found. Agglomeration time and the percentage of added water showed dependence towards the composition of the mixture. This research showed that, in order to agglomerate powder mixtures successfully, parameters such as mixture composition, particle size, percentage of added water and acidulates, drying temperature, process duration and ambient conditions should be well coordinated and controlled to get agglomerates with optimal quality.
Tasty Saline, Agglomeration, Rehydration, Bulk Density, Sensory Evaluation
To cite this article
Bellal Hossain, Development of Lemon Fruit Flavored Tasty Saline Functional Powder Drinks, Journal of Food and Nutrition Sciences. Vol. 2, No. 4, 2014, pp. 173-178. doi: 10.11648/j.jfns.20140204.22
Bachmanov AA, Beauchamp GK. Taste receptor genes. Annual Review of Nutrition. 2007; 27:389–414.
Beauchamp GK, Bertino M, Engelman K. Failure to compensate decreased dietary sodium with increased table salt usage. Journal of the American Medical Association. 1987;258(22):3275–3278.
[3] .Beeren C. Technological innovations for reducing sodium in foods. Presented at the Institute of Medicine Committee on Strategies to Reduce Sodium Intake’s Public Information- Beeren C. Technological innovations for reducing sodium in foods. Presented at the Institute of Medicine Committee on Strategies to Reduce Sodium Intake’s Public Information-Gathering Workshop; March30; Washington, DC. 2009.
Coyle, E. F. Fluid and fuel intake during exercise. Journal of Sports Sciences. 2004; 22:39-55.
Christophe Lalanne, R Companion to Montgomery’s Design and Analysis of Experiments, 2005.
Delahunty CM, Piggott JR. Current methods to evaluate contribution and interactions of components to flavour of solid foods using hard cheese as an example. International Journal of Food Science and Technology. 1995;30:555–570.
Gillette M. Flavor effects of sodium chloride. Food Technology. 1985; 39(6):47–52.
Hutton T. Sodium: Technological functions of salt in the manufacturing of food and drink products. British Food Journal. 2002;104(2):126–152.
Harry T. Lawless & Hildegarde . Sensory evaluation of food Principles and practices : Heymann International Thomson Publishing Services Ltd, Cheriton House, North Way, Andover SP10 5BE, U.K. 819 pp,1998.
Leshem M. Biobehavior of the human love of salt. Neuroscience and Biobehavioral. Reviews. 2009;33(1):1–17.
Manabe M, Ishizaki S, Yoshioka T, Oginome N. Improving the palatability of salt-reduced food using dried bonito stock. Journal of Food Science. 2009;74(7):S315–S321.
Murakami, H.; Yoneyama, T.; Nakajima, K.; Kobayashi, M. Correlation between loose density and compactibility of granules prepared by various granulation methods. Int. J. Pharm. 2001; 216:159–164.
MacGregor G, de Wardener HE. Salt, diet and health: Neptune’s poisoned chalice: The origins of high blood pressure. Cambridge, UK: Cambridge University Press; 1998.
Mukherjee, S.; Bhattacharya, S. Characterization of agglomeration process as a function of moisture content using a model food powder. J. Texture Stud. 2006; 37: 35–48.
Rolls ET, Critchley HD, Verhagen JV, Kadohisa M. The representation of information about taste and odor in the orbitofrontal cortex. Chemosensory Perception. 2010;3(1):16–33.
Ram C. Shaking things up: Low-sodium dishes offer flavor without sacrifice. Plate. 2008:59–64.
Sawka, M.N., Montain, S.J. Fluid and electrolyte supplementation for exercise heat stress. American Journal of Clinical Nutrition.2000; 72:S564-72.
Schifferstein HNJ, Verlegh PWJ. The role of congruency and pleasantness in odor-induced taste enhancement. Acta Psychologica. 1996;94(1):87–105.
Shittu, T. A.; Lawal, M. O. Factors affecting instant properties of powdered cocoa beverages. Food Chem. 2007; 100:91–98
Takashi, S.; Seibi, P. A. Paste and gel properties of prime corn and wheat starches with and without nitric liquids. Cereal Chem. 1988; 65: 474–483.
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