Abstract
The aim of the study was to assess the influence of replacing wheat flour with hazelnuts or walnuts, in various amounts, on the thermal and rheological properties of the obtained systems. The research material were systems in which wheat flour was replaced with ground hazelnuts (H) or walnuts (W) in the amount of 5%, 10%, and 15%. The parameters of the thermodynamic gelatinization characteristics were determined by the differential scanning calorimetry method. In addition, the pasting characteristics were determined with the use of a viscosity analyzer and the viscoelastic properties were assessed. Sweep frequency and creep and recovery tests were used to assess the viscoelastic properties of the tested gels. It was found that replacing wheat flour with nuts increased the values of gelatinization temperature, gelatinization, and retrogradation enthalpy, and the degree of retrogradation. The highest viscosity was characteristic of the control sample (2039 mPa·s), and the lowest for the paste with 15% addition of walnuts (1120 mPa·s). Replacing the flour with nuts resulted in a very visible reduction in the viscosity of such systems. In addition, gels based on the systems with the addition of H and W were weak gels (tan δ = G″/G′ > 0.1), and the values of G′ and G″ parameters decreased with the increased share of nuts in the systems. Creep and recovery analysis indicated that the systems in which wheat flour was replaced with hazelnuts were less susceptible to deformation compared to the systems with the addition of W.
Highlights
The performed two-way analysis of variance confirmed only a statistically significant influence of the type of nuts added to the flour on the value of the initial temperature and the temperature of the gelatinization peak
It was found that the control sample was characterized by the highest value of the transformation initiation temperature the onset (TO), and the presence of nuts in the system resulted in an increase in the value of this parameter (Table 1)
The mean value of the peak (TP) of the WFH and WFW systems was higher than the value of this parameter for the control sample by 0.4 ◦ C and 0.9 ◦ C, respectively
Summary
Over 60% of wheat production is used for consumption [1]. Apart from maize, it is the basic raw material in the milling industry, in the baking and confectionery industry to the production of pasta and for obtaining animal feed. The composition and properties of wheat flour determine the course of technological processes, as well as the quality, nutritional value, and health-promoting values of the obtained products. Technological usefulness of flour is a function of factors, such as the variety and origin of grain, growing conditions, structure, and amount of fertilization, grain quality, storage conditions, method of grain grinding, and baking value of flour. The baking value of flour is checked by direct and indirect methods
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