Abstract
The impact of the relative amount of ingredients, wheat variety, and kneading time on the thermal properties of semolina doughs were investigated by means of thermogravimetric analysis (TGA). The doughs were prepared by mixing water, semolina, yeast, and salt in different proportions. The gelatinized flour fraction plays an important role in the thermal properties’ definition, while the water amount influences the development of the dough network and, consequently, the starch gelatinization phenomena. Furthermore, the amount of yeast and salt influences the dough network force and, consequently, the thermal properties. The TGA technique was applied in order to evidence the mass loss as a function of the increasing temperature, considering that this behavior depends on the dough network force and extension. In such a way, it was possible to find some information on the relationship between the dough characteristics and the thermogravimetric analysis outputs. The study is devoted to acquiring deeper knowledge about the thermophysical characteristics of doughs in the breadmaking industrial processes, where the controllability and the energy performances need to be improved. A deeper knowledge of the dough properties, in terms of measurable parameters, could help to decrease the amounts of off-specification products, resulting in a much more energy-efficient and sustainable processing.
Highlights
The quality of bread doughs is strongly influenced by the interactions between its ingredients in the presence of water [1]
Regarding the yeast and salt impact, the parameters of the relative peaks are compared in the same graphs
The results presented were related to the statistical analysis reported in Appendix B The ANOVA tests carried out on the different thermal parameters (Tables A1, A3, A5, A7, A9 and A11) together with the absolute mean square deviation values estimated by comparing different ingredient concentrations
Summary
The quality of bread doughs is strongly influenced by the interactions between its ingredients in the presence of water [1]. The mixing process and its settings are important to assess the quality of the end product. Another important factor is the flour composition that can strongly affect the mechanical properties of the dough. Rheological properties of dough strongly depend on its microstructure [2], mostly consisting of the so-called gluten network, a complex structure that originates from protein hydration [3]. These properties are relevant because they have a strong impact on the final quality of the product
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