Preparation of sorbitol fatty acid polyesters, potential fat substitutes: Optimization of reaction conditions by response surface methodology

Ha Yull Chung; Jiyong Park; Jung Han Kim; Un Yong Kong

doi:10.1007/BF02518120

Preparation of sorbitol fatty acid polyesters, potential fat substitutes: Optimization of reaction conditions by response surface methodology

Ha Yull Chung, Jiyong Park, Jung Han Kim, Un Yong Kong

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

Effects of the reaction temperature, reaction time, mole ratio of fatty acid methyl esters (FAME) to sorbitol, and mole ratio of fatty acid sodium soaps (FASS) to sorbitol on yields of sorbitol fatty acid polyester (SFPE) were examined with a response surface methodology. The optimum reaction conditions selected with response surface analysis were as follows: reaction temperature, 144°C; reaction time, 6.65 h; mole ratio of FAME to sorbitol, 10.7:1; and mole ratio of FASS to sorbitol, 0.77:1. Under these reaction conditions, the experimental yield of sorbitol fatty acid polyester (mean value: 92%, range: 89-94%) obtained from seven replications was close to the predicted value (94%) calculated from the polynomial response surface model equation. The response surface methodology approach used in this study was able to predict the reaction conditions necessary for a high yield of sorbitol fatty acid polyester.

Original language	English
Pages (from-to)	637-643
Number of pages	7
Journal	JAOCS, Journal of the American Oil Chemists' Society
Volume	73
Issue number	5
DOIs	https://doi.org/10.1007/BF02518120
Publication status	Published - 1996 May

All Science Journal Classification (ASJC) codes

Chemical Engineering(all)
Organic Chemistry

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10.1007/BF02518120

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title = "Preparation of sorbitol fatty acid polyesters, potential fat substitutes: Optimization of reaction conditions by response surface methodology",

abstract = "Effects of the reaction temperature, reaction time, mole ratio of fatty acid methyl esters (FAME) to sorbitol, and mole ratio of fatty acid sodium soaps (FASS) to sorbitol on yields of sorbitol fatty acid polyester (SFPE) were examined with a response surface methodology. The optimum reaction conditions selected with response surface analysis were as follows: reaction temperature, 144°C; reaction time, 6.65 h; mole ratio of FAME to sorbitol, 10.7:1; and mole ratio of FASS to sorbitol, 0.77:1. Under these reaction conditions, the experimental yield of sorbitol fatty acid polyester (mean value: 92%, range: 89-94%) obtained from seven replications was close to the predicted value (94%) calculated from the polynomial response surface model equation. The response surface methodology approach used in this study was able to predict the reaction conditions necessary for a high yield of sorbitol fatty acid polyester.",

author = "Chung, {Ha Yull} and Jiyong Park and Kim, {Jung Han} and Kong, {Un Yong}",

year = "1996",

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T2 - Optimization of reaction conditions by response surface methodology

AU - Chung, Ha Yull

AU - Park, Jiyong

AU - Kim, Jung Han

AU - Kong, Un Yong

PY - 1996/5

Y1 - 1996/5

N2 - Effects of the reaction temperature, reaction time, mole ratio of fatty acid methyl esters (FAME) to sorbitol, and mole ratio of fatty acid sodium soaps (FASS) to sorbitol on yields of sorbitol fatty acid polyester (SFPE) were examined with a response surface methodology. The optimum reaction conditions selected with response surface analysis were as follows: reaction temperature, 144°C; reaction time, 6.65 h; mole ratio of FAME to sorbitol, 10.7:1; and mole ratio of FASS to sorbitol, 0.77:1. Under these reaction conditions, the experimental yield of sorbitol fatty acid polyester (mean value: 92%, range: 89-94%) obtained from seven replications was close to the predicted value (94%) calculated from the polynomial response surface model equation. The response surface methodology approach used in this study was able to predict the reaction conditions necessary for a high yield of sorbitol fatty acid polyester.

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Preparation of sorbitol fatty acid polyesters, potential fat substitutes: Optimization of reaction conditions by response surface methodology

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