高温高相对湿度干燥对挤压荞麦面水分分布、淀粉微观结构及蒸煮特性的影响

IF 5.2 Q1 FOOD SCIENCE & TECHNOLOGY Journal of Future Foods Pub Date : 2023-08-11 DOI:10.1016/j.jfutfo.2023.06.007
Linghan Meng , Xuyang Sun , Yan Zhang , Xiaozhi Tang
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引用次数: 0

摘要

干燥是淀粉面条生产的关键环节。研究了高温(60、70、80°C)和高相对湿度(65%、75%、85%)干燥(HTHD)对挤压荞麦面水分分布、淀粉微观结构和蒸煮特性的影响。与传统的40°C热风干燥(CHAD)相比,提高干燥温度(60–80°C)和降低相对湿度(85%–65%)显著提高了挤出面条的干燥效率。通过调节干燥温度和相对湿度,可以适当控制面条中水分的迁移速率和淀粉的相变。最佳干燥参数(T70H75,70°C干燥温度和75%相对湿度)显示出光滑致密的网状结构,导致最低的蒸煮损失(6.61%)、破碎率(0%)、最高的硬度(1695.17g)和弹性(0.92)。然而,总黄酮含量(TFC)和总酚含量(TPC)与CHAD相比分别降低了6.81%~28.50%和7.19%~53.23%,而荞麦面的颜色通过HTHD而变暗。这些发现显示了HTHD在提高干燥效率和改善荞麦面质量方面的潜力。适当的干燥参数可以保持面条水分迁移和淀粉相变之间的平衡关系,从而使挤压膨化全荞麦面条的烹饪质量更好。这项研究对调整荞麦类食品的加工条件和促进其商业化利用具有重要意义。
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Effects of high temperature and high relative humidity drying on moisture distribution, starch microstructure and cooking characteristics of extruded whole buckwheat noodles

Drying is a key step in starch noodle production. The effects of high temperature (60, 70, 80°C) and high relative humidity (65%, 75%, 85%) drying (HTHD) on the moisture distribution, starch microstructure and cooking characteristics of extruded whole buckwheat noodles were investigated. Compared to the conventional hot-air drying (CHAD) at 40°C, the increase in drying temperature (60–80°C) and the decrease in relative humidity (85%–65%) significantly improved drying efficiency of the extruded noodles. By adjusting drying temperature and relative humidity, the rate of moisture migration in noodles and phase transition of starch could be appropriately controlled. The optimum drying parameters (T70H75, 70°C drying temperature and 75% relative humidity) showed smooth and dense network structure, resulting in the lowest cooking loss (6.61%), broken rate (0%), highest hardness (1 695.17 g) and springiness (0.92). However, the total flavonoid content (TFC) and the total phenolic content (TPC) reduced by 6.81%–28.50% and 7.19%–53.23% in contrast to CHAD, and the color of buckwheat noodles became darker through HTHD. These findings showed the potential of HTHD for increasing drying efficiency and improving buckwheat noodle quality. The appropriate drying parameters could maintain a balanced relationship between moisture migration in noodles and phase transition of starch, which resulted in better cooking quality for extruded whole buckwheat noodles. Such a study is valuable for regulating the process conditions of buckwheat-based foods and promoting its commercial utilization.

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