IRIS publication 43338758
Kinetic models of ascorbic acid thermal degradation during hot air drying of maltodextrin solutions
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TY - JOUR - Frias, JM,Oliveira, JC - 2001 - January - Journal of Food Engineering - Kinetic models of ascorbic acid thermal degradation during hot air drying of maltodextrin solutions - Validated - () - glass transition kinetic modelling vitamin retention WLF equation GLASS-TRANSITION TEMPERATURES WATER ACTIVITY CHEMICAL-REACTION FOOD SYSTEMS DEHYDRATION STABILITY STATE POTATOES MOBILITY SUCROSE - 47 - 255 - 262 - The kinetic parameters of models that describe the joint influence of water content and temperature on the thermal degradation of ascorbic acid were estimated from drying experiments using maltodextrin DE 12 as a base material. Two models were used: a first-order decay model with (1) a TDT temperature dependency and a polynomial dependency of the D-r and z values with water content, and (2) a WLF dependency of the D value on glass transition temperature, with the Gordon-Taylor equation describing the influence of water content on T-g. Experiments were performed in a drying oven with dry bulb temperatures between 100 degreesC and 160 degreesC, with most of the drying occurring with the sample temperature below the oven temperature. Both models provided good fits of the experimental data. Other data from literature for a very different temperature range (4 degreesC-68 degreesC) and for maltodextrin DE 25 were handled in the same way and while the polynomial/TDT model yielded a different moisture dependence structure, the WLF/Gordon-Taylor model yielded similar parameters, thus showing a better predictive power. (C) 2000 Elsevier Science Ltd. All rights reserved. DA - 2001/01 ER -
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@article{V43338758, = {Frias, JM and Oliveira, JC }, = {2001}, = {January}, = {Journal of Food Engineering}, = {Kinetic models of ascorbic acid thermal degradation during hot air drying of maltodextrin solutions}, = {Validated}, = {()}, = {glass transition kinetic modelling vitamin retention WLF equation GLASS-TRANSITION TEMPERATURES WATER ACTIVITY CHEMICAL-REACTION FOOD SYSTEMS DEHYDRATION STABILITY STATE POTATOES MOBILITY SUCROSE}, = {47}, pages = {255--262}, = {{The kinetic parameters of models that describe the joint influence of water content and temperature on the thermal degradation of ascorbic acid were estimated from drying experiments using maltodextrin DE 12 as a base material. Two models were used: a first-order decay model with (1) a TDT temperature dependency and a polynomial dependency of the D-r and z values with water content, and (2) a WLF dependency of the D value on glass transition temperature, with the Gordon-Taylor equation describing the influence of water content on T-g. Experiments were performed in a drying oven with dry bulb temperatures between 100 degreesC and 160 degreesC, with most of the drying occurring with the sample temperature below the oven temperature. Both models provided good fits of the experimental data. Other data from literature for a very different temperature range (4 degreesC-68 degreesC) and for maltodextrin DE 25 were handled in the same way and while the polynomial/TDT model yielded a different moisture dependence structure, the WLF/Gordon-Taylor model yielded similar parameters, thus showing a better predictive power. (C) 2000 Elsevier Science Ltd. All rights reserved.}}, source = {IRIS} }
Data as stored in IRIS
AUTHORS | Frias, JM,Oliveira, JC | ||
YEAR | 2001 | ||
MONTH | January | ||
JOURNAL_CODE | Journal of Food Engineering | ||
TITLE | Kinetic models of ascorbic acid thermal degradation during hot air drying of maltodextrin solutions | ||
STATUS | Validated | ||
TIMES_CITED | () | ||
SEARCH_KEYWORD | glass transition kinetic modelling vitamin retention WLF equation GLASS-TRANSITION TEMPERATURES WATER ACTIVITY CHEMICAL-REACTION FOOD SYSTEMS DEHYDRATION STABILITY STATE POTATOES MOBILITY SUCROSE | ||
VOLUME | 47 | ||
ISSUE | |||
START_PAGE | 255 | ||
END_PAGE | 262 | ||
ABSTRACT | The kinetic parameters of models that describe the joint influence of water content and temperature on the thermal degradation of ascorbic acid were estimated from drying experiments using maltodextrin DE 12 as a base material. Two models were used: a first-order decay model with (1) a TDT temperature dependency and a polynomial dependency of the D-r and z values with water content, and (2) a WLF dependency of the D value on glass transition temperature, with the Gordon-Taylor equation describing the influence of water content on T-g. Experiments were performed in a drying oven with dry bulb temperatures between 100 degreesC and 160 degreesC, with most of the drying occurring with the sample temperature below the oven temperature. Both models provided good fits of the experimental data. Other data from literature for a very different temperature range (4 degreesC-68 degreesC) and for maltodextrin DE 25 were handled in the same way and while the polynomial/TDT model yielded a different moisture dependence structure, the WLF/Gordon-Taylor model yielded similar parameters, thus showing a better predictive power. (C) 2000 Elsevier Science Ltd. All rights reserved. | ||
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