班巴拉果仁(Vigna subterean)的强度特性受含水率和果仁大小的影响

Q3 Agricultural and Biological Sciences

Research in Agricultural Engineering Pub Date : 2022-11-16 DOI:10.17221/94/2021-rae

N. Nwakuba, O. Chukwuezie, M. Chikwue, C. Ononogbo, C. Dirioha, M. Simo-Tagne

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引用次数: 1

摘要

粮食的抗断裂性是农业收获后机械优化设计和开发所需的重要信息。在本研究中，从平均断裂力、吸收能量和变形等方面考察了两个品种Bambara果核（TVSU-1395和TVSU-1353）的强度特性，这些特性受到水分含量和果核尺寸的影响。为了实现这一点，以20mm/min的加载速率将准压缩力施加在通用测试装置的加载室之间的两种不同水分含量（5.43%、7.24%、9.01%、11.54%和13.62%wb）和粒径（小、中、大）的Bambara仁上。实验考虑了10个处理，20个重复，并进行了完全随机设计（CRD）。结果表明，TVSU-1395和TVSU-1353的核破裂所需的力随着核尺寸和含水量的增加而增加，分别从101.44增加到235.06 N和74.69增加到190.49 N；而TVSU-1395和TVSU-1353在内核断裂点处的能量分别在0.074至0.401J和0.062至0.141J的范围内增加。籽粒变形随着水分含量和粒径的增加而增加，从0.654毫米增加到3.746毫米。这表明，在水分含量为5.4%时，TVSU-1395品种的大粒径比TVSU-1353品种具有更大的抗压强度。籽粒水分和粒径与强度参数呈强相关（0.958≤R2≤0.997）。这项研究的结果将有助于食品行业设计用于班巴拉果核加工的节能收获后设备。进一步的研究可能会考虑不同装载率、籽粒取向和品种下班巴拉籽粒的强度属性，以优化不同班巴拉品种收获后处理的最佳工艺条件，并开发节省劳动力的剥皮机。

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Strength properties of the Bambara kernel (Vigna subterranean) as influenced by the moisture content and kernel size

The fracture resistance of food grains is an essential piece of information required for the optimum design and development of agricultural post-harvest machinery. In this study, the strength properties of two varieties of Bambara kernels (TVSU-1395 and TVSU-1353) were examined in terms of the mean rupture force, absorbed energy, and deformation as affected by the moisture content and kernel size. To achieve this, a quasi-compressive force was applied on the two varieties of Bambara kernels of varying moisture contents (5.43%, 7.24%, 9.01%, 11.54%, and 13.62% wb) and kernel sizes (small, medium, and large) in between the loading compartments of a universal Testometric device at a 20 mm/min loading rate. The experiments take ten treatments with 20 replications subjected factorially to a completely randomised design (CRD) into consideration. The results revealed that the force needed to initiate the kernel fracture increased with an increase in the kernel size and moisture content from 101.44 to 235.06 N and 74.69 to 190.49 N for TVSU-1395 and TVSU-1353, respectively; whereas the energy at the kernel fracture point increased in a range of 0.074 to 0.401 J and 0.062 to 0.141 J for TVSU-1395 and TVSU-1353, respectively. The kernel deformation increased with the moisture content and size from 0.654 to 3.746 mm. These infer that the large kernel size of the TVSU-1395 variety at a 5.4% moisture content had greater compressive strength than the TVSU-1353 variety. The kernel moisture and size exhibited a strong correlation (0.958 ≤ R2 ≤ 0.997) with the strength parameters. The results of this study will help the food industry in designing energy-efficient post-harvest equipment for Bambara kernel processing. Further studies may consider the strength attributes of Bambara kernels at varying rates of loading, kernel orientations, and varieties to optimise the best process conditions for the post-harvest handling of different Bambara cultivars and develop labour-saving decorticating machines.

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来源期刊

Research in Agricultural Engineering Engineering, agriculture-

CiteScore

1.40

自引率

0.00%

发文量

审稿时长

24 weeks

期刊介绍： Original scientific papers, short communications, information, and studies covering all areas of agricultural engineering, agricultural technology, processing of agricultural products, countryside buildings and related problems from ecology, energetics, economy, ergonomy and applied physics and chemistry. Papers are published in English.