期刊
FOOD STRUCTURE-NETHERLANDS
卷 30, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.foostr.2021.100230
关键词
Waste-management; Pasta regrinds; Semolina-bread; Techno-functional properties; Confocal laser scanning microscopy
The study investigates the effect of different drying temperatures on the techno-functional properties of pasta regrind and finds that low-temperature regrind can be efficiently used for bread production, while high and extremely high-temperature regrinds are not suitable for leavened products.
Cutting and drying steps in pasta production result in by-products, named pasta regrind, which are used mainly as animal feed. Pasta regrind could be a valuable ingredient butits techno-functional properties need to be studied also in relation to the pasta drying process. Hence, the effect of three different drying temperatures, low (LT), high (HT) and extremely high (XHT) on the techno-functional properties of pasta regrind was investigated. Increasing drying temperature increased the water-retention capacity of pasta regrind. Semolina-based bread was selected as a model system to use pasta regrind as a functional ingredient. Bread was made with different percentages (w/w) of pasta regrind (10%, 25%, 50% 100% of HT, 25% of LT and 25% of XHT) mixed with semolina flour. The addition of HT regrind increased the hardness of the crumb whereas decreased bread volume. 25% LT regrinds had no effect on the bread crumb's hardness and porosity compared to 100% semolina bread. Confocal laser scanning microscopy revealed a dense gluten network only in 25% LT bread. Therefore, HT and XHT regrinds are not suitable ingredients for leavened products while LT regrind can be efficiently used for bread production.
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