TY - JOUR
T1 - Diffusion, counter-diffusion and lipid phase changes occurring during oil migration in model confectionery systems
AU - Motwani, Tanuj
AU - Hanselmann, William
AU - Anantheswaran, Ramaswamy C.
N1 - Funding Information:
Authors are thankful to The Hershey Company for providing samples and research facilities for conducting this research. Also, the financial support provided by Joseph M. Juran foundation to Tanuj Motwani is gratefully acknowledged.
Copyright:
Copyright 2011 Elsevier B.V., All rights reserved.
PY - 2011/5
Y1 - 2011/5
N2 - This study investigated the diffusion of peanut oil and counter-diffusion of cocoa butter when cylindrical tempered or untempered samples, composed of cocoa butter with or without addition of cocoa powder, were suspended in peanut oil and stored at 23 °C. Oil migration kinetics was monitored using a novel pipette technique while diffusion and counter-diffusion were measured using gas chromatography. Tempering significantly lowered (p 0.05) the peanut oil diffusion in the samples but did not influence the counter-diffusion of cocoa butter in peanut oil. Addition of cocoa powder at a volume fraction of 0.45 significantly increased (p 0.05) peanut oil diffusion and decreased counter-diffusion. Due to the ingress of peanut oil, the solid fat content of tempered and untempered cocoa butter samples dropped from 75% to 59% after 7 weeks and resulted in corresponding dimensional changes in the samples which were also measured using image analysis. Diffusion, counter-diffusion and lipid phase changes were combined to develop a mass balance model to predict the volume changes occurring during oil migration.
AB - This study investigated the diffusion of peanut oil and counter-diffusion of cocoa butter when cylindrical tempered or untempered samples, composed of cocoa butter with or without addition of cocoa powder, were suspended in peanut oil and stored at 23 °C. Oil migration kinetics was monitored using a novel pipette technique while diffusion and counter-diffusion were measured using gas chromatography. Tempering significantly lowered (p 0.05) the peanut oil diffusion in the samples but did not influence the counter-diffusion of cocoa butter in peanut oil. Addition of cocoa powder at a volume fraction of 0.45 significantly increased (p 0.05) peanut oil diffusion and decreased counter-diffusion. Due to the ingress of peanut oil, the solid fat content of tempered and untempered cocoa butter samples dropped from 75% to 59% after 7 weeks and resulted in corresponding dimensional changes in the samples which were also measured using image analysis. Diffusion, counter-diffusion and lipid phase changes were combined to develop a mass balance model to predict the volume changes occurring during oil migration.
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U2 - 10.1016/j.jfoodeng.2010.11.032
DO - 10.1016/j.jfoodeng.2010.11.032
M3 - Article
AN - SCOPUS:79951514353
SN - 0260-8774
VL - 104
SP - 186
EP - 195
JO - Journal of Food Engineering
JF - Journal of Food Engineering
IS - 2
ER -