Rheological and mass transport characteristics of hydrocolloid incorporated multilayered wheat flour dough sheet (Khaja) during frying

Abstract

The purpose of this study was to analyze the effect of the addition of hydrocolloids such as gum arabic and xanthan gum, as well as a mixture of gum arabic and xanthan gum on moisture and oil transport properties in deep fat-fried multilayered wheat flour dough sheet (Khaja). The dynamic viscoelastic analysis of the dough showed that the hydrocolloid incorporated sample had a larger difference in the storage and loss modulus values, indicating that hydrocolloids had a synergistic effect on increasing the elastic property of the dough. The multilayered wheat flour dough sheet was deep fat-fried in a fryer at a frying oil temperature of 180°C. Hydrocolloid inclusion reduced the moisture diffusivity of the product, and the moisture diffusivity of the hydrocolloid incorporated sample decreased from 4.60 × 10−9 to 3.32 × 10−9 m2/s. The sample containing the combination of gum arabic and xanthan gum reduces oil absorption by 20.13% compared to the control sample. Novelty impact statement Oil absorption in Khaja is influenced by the type of hydrocolloid, moisture content of the dough, frying duration, and temperature of frying. Hydrocolloid significantly affected the viscoelastic characteristics of the dough and reduced the hardness of the product. The dough containing a combination of xanthan gum and gum Arabic decreased oil absorption by around 20% in Khaja.