青稞全谷营养型挂面与市售挂面的营养组分及理化特性研究

姬艺琳; 陈文文; 董吉林; 申瑞玲

doi:10.12187/2023.05.007

October 2023

Article Contents

JI Yilin, CHEN Wenwen, DONG Jilin and et al. Nutrient components and physicochemical properties of barley whole-grain nutritive noodles and commercial noodles[J]. Journal of Light Industry, 2023, 38(5): 51-58. doi: 10.12187/2023.05.007

Citation: JI Yilin, CHEN Wenwen, DONG Jilin and et al. Nutrient components and physicochemical properties of barley whole-grain nutritive noodles and commercial noodles[J]. Journal of Light Industry, 2023, 38(5): 51-58. doi: 10.12187/2023.05.007 shu

Nutrient components and physicochemical properties of barley whole-grain nutritive noodles and commercial noodles

College of Food and Bioengineering, Zhengzhou University of Light Industry, Zhengzhou 450001, China

Received Date: 2022-11-26
Accepted Date: 2023-01-12

Abstract

Using whole barley flour as raw material (without adding wheat flour), barley whole-grain nutritive noodles (QN) was prepared, and the nutrient components and physicochemical properties of QN were compared with those of commercial wheat noodles (WN) and commercial barley noodles (QN-1, QN-2 and QN-3). The results showed that compared with commercial noodles, QN had significantly higher protein and dietary fiber content, and nutritional quality was significantly improved. Compared with WN,the cooking loss of QN-2, QN-3 and QN increased by 74.97%, 48.04% and 65.77%, and the water absorption increased by 2.19%,23.61% and 7.34%; The peak viscosity, attenuation value and recovery value of QN increased, and the hot paste stability decreased, therefore, QN was not suitable for long time processing; ΔH of QN decreased significantly, and starch was more gelatinized,which was related to the decrease in the ordered structure of QN starch; QN had loose internal structure and poor taste. Compared with QN-2 and QN-3, the gluten network density of QN was larger, the structure was more uniform and dense. QN could maintain the hardness and elasticity of noodles in the cooking process. Starch digestibility in vitro of 5 kinds of noodles was WN(77.50%)>QN-1(72.81%)>QN-2(72.66%)>QN-3(63.88%)>QN(54.57%). QN had lower starch digestibility and was more suitable for people with high blood sugar.
- barley noodles,
- whole-grain nutrient type,
- nutrient component,
- physicochemical property,
- digestive characteristics
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Nutrient components and physicochemical properties of barley whole-grain nutritive noodles and commercial noodles

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