小米脱壳和抛光工艺的技术进步:深入了解预处理方法、机械设备及其对营养质量的影响

Q2 Agricultural and Biological Sciences
Shagolshem Mukta Singh, Jayasree Joshi T, P. Srinivasa Rao
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引用次数: 0

摘要

小米的营养价值已得到广泛认可,但目前还缺乏对其进行加工的方法。本文主要关注小米脱壳和抛光的先进技术和进展。这些技术基于压缩-剪切、磨损-摩擦和离心-冲击力等基本原理运行。由于黍子的物理特性以及谷壳和麸皮与胚乳的紧密结合,加工黍子具有挑战性。不过,已经设计了几种脱壳机来解决不同种类黍的这一问题。此外,脱壳和抛光过程会改变营养和抗营养特性。本文将对这些变化进行深入研究和讨论。具体来说,单宁酸和植酸等抗营养物质主要存在于谷物的外果皮中,在经过脱壳和抛光后会减少。营养成分也会减少;不过,在脱壳和抛光前对谷物进行某些预处理可减轻营养成分的减少。这些处理可提高脱壳效率和营养消化率,同时减少抗营养素的存在。可采用微波、水热、高压处理和欧姆加热等新型热处理和非热处理方法加工黍子,从而减少营养物质的损失。还可以开展更多研究,调查它们对黍米脱壳和抛光的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Technological advancements in millet dehulling and polishing process: An insight into pretreatment methods, machineries and impact on nutritional quality

Technological advancements in millet dehulling and polishing process: An insight into pretreatment methods, machineries and impact on nutritional quality

Millets are widely recognized for their nutritional significance; however, the methods employed for their processing are currently lacking. This article primarily focuses on the advanced technologies and progressions in millet dehulling and polishing. These technologies operate based on the fundamental principles of compression-shearing, abrasion-friction, and centrifugal-impact forces. Processing of millets can be challenging because of the physical characteristics and tight attachment of hull and bran to the endosperm. However, several dehullers have been designed to solve this problem for different kinds of millets. In addition, the nutritional and anti-nutritional characteristics undergo alterations due to both dehulling and polishing processes. These alterations are thoroughly examined and discussed in this article. Specifically, anti-nutrients such as tannins and phytate are predominantly found in the outer pericarp of the grain and experience a reduction after undergoing dehulling and polishing. The nutritional properties are also subjected to a reduction; however, this reduction can be mitigated by subjecting the grains to certain pretreatments before dehulling and polishing. These treatments serve to enhance dehulling efficiency and nutrient digestibility while simultaneously reducing the presence of anti-nutrients. Novel thermal and non-thermal methodologies such as microwave, hydrothermal, high-pressure processing, and ohmic heating can be employed for processing millets, thereby diminishing the loss of nutrients. Additional research can be carried out to investigate their impact on the dehulling and polishing of millets.

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来源期刊
CiteScore
7.30
自引率
0.00%
发文量
69
审稿时长
12 weeks
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