Process Optimization of Vacuum Fried Carrot Chips Using Central Composite Rotatable Design
Shyi-LIANG SHYU1 AND LUCY SUN HWANG2*
1. Department of Food Science, National Chiayi University, Chiayi, 600 Taiwan. R.O.C.
2. Graduate Institute of Food Science and Technology, National Taiwan University, Taipei, 106 Taiwan. R.O.C.
(Received: October 19, 2010 Accepted: June 8, 2011)
ABSTRACT
Carrot slices were blanched, immersed in fructose solution prior to frozen and vacuum fried to prepare carrot chips. The effects of immersing sugar concentration, vacuum frying temperature and time on the quality of fried carrot chips were studied with the central composite rotatable design (CCRD). Results showed that the moisture content, oil content, color quality, and breaking force of fried carrot chips were significantly related to immersing fructose concentration, frying temperature and time. The moisture content and breaking force of fried carrot chips were positively correlated with immersing fructose concentration, whereas the oil content and color quality of fried carrot chips were negatively correlated with immersing fructose concentration. Based on CCRD and contour plots, optimal processing conditions of vacuum fried carrot chips were: vacuum frying temperature of 100 - 105°C, vacuum frying time of 16 - 20 min, and immersing fructose concentration of 30 - 40%. The high R2 correlation coefficients (above 0.90 except moisture content and ∆E value) indicated that the variables were adequately fitted to the regression equation which could highly predict the quality of vacuum fried carrot chips prepared from the frying conditions.
Key words: vacuum frying, carrot chips, processing conditions, central composite rotatable design