Bresciani Andrea, Giuberti Gianluca, Cervini Mariasole, Marti Alessandra
Department of Food, Environmental and Nutritional Sciences, Università degli Studi di Milano, via G. Celoria 2, 20133 Milan, Italy.
Department for Sustainable Food Process (DiSTAS), Università Cattolica del Sacro Cuore, Via Emilia Parmense 84, 29122 Piacenza, Italy.
Food Chem. 2021 Dec 1;364:130387. doi: 10.1016/j.foodchem.2021.130387. Epub 2021 Jun 16.
The effects of conventional extrusion (CV) and extrusion-cooking (EC) were investigated on 100% yellow lentils (YL). Both the extrusion processes led to pasta with good cooking quality (cooking loss: 7.0-7.1 g/100 g, firmness: 530-608 N), even in overcooking (cooking loss: 7.7-7.9 g/100 g, firmness: 418-513 N). Contrary to what is known for gluten-free cereals, CV is effective in producing pasta from native YL with no need for a pre-gelatinization step. However, pasta from EC showed a higher compression energy (2898 versus 2448 N*mm). In this sample, starch presented a higher degree of gelatinization (75.5 versus 57.6 g/100 g) and lower enthalpy (0.97 versus 1.07 J/g). At the same time, EC promoted a more compact structure that required higher temperature for melting (66.49 versus 63.16 °C) and showing pasting properties (79.1 versus 74.7 °C). Thus, by selecting suitable extrusion conditions it is possible to improve the cooking behavior of 100% pulse pasta.
研究了传统挤压(CV)和挤压蒸煮(EC)对100%黄扁豆(YL)的影响。两种挤压工艺都能生产出具有良好烹饪品质的意大利面(烹饪损失:7.0 - 7.1克/100克,硬度:530 - 608牛),即使过度烹饪时(烹饪损失:7.7 - 7.9克/100克,硬度:418 - 513牛)也是如此。与无麸质谷物的情况相反,CV能够有效地用天然YL生产意大利面,无需预糊化步骤。然而,EC生产的意大利面显示出更高的压缩能量(2898对2448牛·毫米)。在这个样品中,淀粉呈现出更高的糊化度(75.5对57.6克/100克)和更低的焓(0.97对1.07焦/克)。同时,EC促进形成了更致密的结构,这种结构需要更高的温度来熔化(66.49对63.16℃)并表现出糊化特性(79.1对74.7℃)。因此,通过选择合适的挤压条件,可以改善100%豆类意大利面的烹饪性能。