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Impact of moisture and grinding on yield,physical, chemical and thermal properties of wholegrain flour obtained from hydrothermally treated sorghum grains |
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| Authors: | María del Rosario Acquisgrana Laura Cecilia Gomez Pamies Nancy María Jimena Martinez Amezaga Fernanda Micaela Quiroga Pablo Daniel Ribotta Elisa Inés Benítez |
| Affiliation: | 1. QUITEX-Facultad Regional Resistencia-Universidad Tecnológica Nacional, French 414, Resistencia, 3500 Argentina IQUIBA-NEA, Universidad Nacional del Nordeste, CONICET, Av. Libertad 5470, Corrientes, 3400 Argentina;2. QUITEX-Facultad Regional Resistencia-Universidad Tecnológica Nacional, French 414, Resistencia, 3500 Argentina;3. ICYTAC, Universidad Nacional de Córdoba, CONICET, Bv Filloy S/N, Ciudad Universitaria, Córdoba, 5000 Argentina FCEFyN, Cátedra de Química Aplicada, Universidad Nacional de Córdoba, Av. Vélez Sarsfield 1611, Córdoba, 5000 Argentina |
| Abstract: | The present work evaluates the potential of sorghum with high content of tannins for wholegrain flour production. Two types of mills were used: a roller mill (RM) and a blade (BM) mill. The impact of moisture and grinding on yield, physical, chemical and thermal properties were evaluated. Maximum yield was obtained using a BM with 25% moisture in the grain, resulting in 60.9% versus 28% (g flour g−1 of wholegrain sorghum) for the RM. Grain moisture and milling type affected flour colour and ashes. For both mills, the pasting and thermal properties of flour with grain moisture variation were significantly different from the untreated control sample. By studying the procedures for flour production and quality characteristics, it is possible to produce flour with good physical attributes, which can contribute to the development of gluten-free foods based on sorghum for the coeliac population. |
| Keywords: | Chemical composition food processing aspects gluten free polyphenols |