STABILITY OF SOME FLAVOR EMULSIONS AGAINST GRAVITATIONAL SEPARATION AFTER REDUCING THE AMOUNT OF GUM ARABIC IN THE FORMULATION
ادريس, Ø. (2010). STABILITY OF SOME FLAVOR EMULSIONS AGAINST GRAVITATIONAL SEPARATION AFTER REDUCING THE AMOUNT OF GUM ARABIC IN THE FORMULATION. EKB Journal Management System, 18(1), 77-86. doi: 10.21608/ajs.2010.14960
عمرو عبيدى ادريس. "STABILITY OF SOME FLAVOR EMULSIONS AGAINST GRAVITATIONAL SEPARATION AFTER REDUCING THE AMOUNT OF GUM ARABIC IN THE FORMULATION". EKB Journal Management System, 18, 1, 2010, 77-86. doi: 10.21608/ajs.2010.14960
ادريس, Ø. (2010). 'STABILITY OF SOME FLAVOR EMULSIONS AGAINST GRAVITATIONAL SEPARATION AFTER REDUCING THE AMOUNT OF GUM ARABIC IN THE FORMULATION', EKB Journal Management System, 18(1), pp. 77-86. doi: 10.21608/ajs.2010.14960
ادريس, Ø. STABILITY OF SOME FLAVOR EMULSIONS AGAINST GRAVITATIONAL SEPARATION AFTER REDUCING THE AMOUNT OF GUM ARABIC IN THE FORMULATION. EKB Journal Management System, 2010; 18(1): 77-86. doi: 10.21608/ajs.2010.14960

STABILITY OF SOME FLAVOR EMULSIONS AGAINST GRAVITATIONAL SEPARATION AFTER REDUCING THE AMOUNT OF GUM ARABIC IN THE FORMULATION

Arab Universities Journal of Agricultural Sciences
Article 7, Volume 18, Issue 1, March 2010, Page 77-86  XML PDF (586.87 K)
Document Type: Original Article
DOI: 10.21608/ajs.2010.14960
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Author
عمرو عبيدى ادريس*
قسم کيمياء مکسبات الطعم ورائحة - المرکز القومى للبحوث - القاهرة - مصر
Abstract
 
Gum Arabic (GA), a natural plant extract, is frequently used for the preparation and stabilization of flavor emulsions that is commonly used in soft drink and flavored beverage industry. This study aimed to reduce the amount of GA in some flavor model emulsions for cost effectiveness and studying the effect of that on the stability of these emulsions against gravitational separation during storage. Five flavor model emulsions were formulated using pure citral and cinnamic aldehyde and their mixtures at different weight ratios. Results indicated that a flavor/gum ratio 1:1 or 1:0.5 was not able to stabilize the particle size of all emulsions which is manifested by increase in size by many folds during storage. Similarly, four of the flavor model emulsions showed instability behavior (creaming or sedimentation) toward gravitational separation at the same flavor/gum ratios.
However, only one flavor model emulsion out of the five models showed a high stability against gravitational separation at flavor/gum ratio 1:1 or even 1:0.5. That emulsion model was characterized by having a density matching (similarity) between its dispersed flavor phase and its continuous water phase. This indicates the possibility of formulating some flavor emulsions with reduced amounts of gum Arabic only by matching the density between the flavor phase and the continuous phase of the emulsion.
 
Keywords
Flavor emulsions; Gum Arabic; stability; Weighting agents; density
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