Isotermas de adsorção de umidade e cinética de secagem de sementes de trevo persa (Trifolium resupinatum L.) e trevo vesiculoso (Trifolium vesiculosum) ¬¬¬¬

Engenharia na Agricultura Pub Date : 2020-12-24 DOI:10.13083/reveng.v29i1.9935

G. Soares, Scarlet Neves Tuchtenhagen, Luiz Antôno de Almeida Pinto, C. Felipe

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Abstract

The aim of this work was to obtain adsorption isotherms and to study the drying kinetics of persian clover (Trifolium resupinatum L.) and arrowleaf clover (Trifolium vesiculosum) seeds, in addition, fitting the experimental data by the predicted models of the literature. The equilibrium moisture content and the moisture adsorption behavior were found by isotherms curves at 40, 45 and 50 ºC, and the Peleg model was the most suitable. The drying kinetics was determined by thin layer assays in an air parallel flow dryer at all three temperatures. In addition, it was demonstrated the predominance of the falling drying rate period for the two species of seeds, and the critical moisture content values were approximately of 0.20 and 0.25 gwater gdry matter-1 for persian clover and arrowleaf clover seeds, respectively. The effective diffusivity values were estimated in ranges of values of 3.61×10-11 – 6.81×10-11 m² s-1 for persian clover and 6.76×10-11 – 1.15×10-10 m²s-1 for arrowleaf clover seeds and the temperature effect was expressed by an Arrhenius relation. Thus, drying kinetics confirmed the greater difficulty in moisture removal from the arrowleaf clover seeds, compared to the persian clover seeds drying, in agreement with the results obtained through adsorption isotherms.

查看原文本刊更多论文

波斯三叶草（Trifolium resupinatum L.）和泡状三叶草（Trifolium vesculosum）种子的水分吸附等温线和干燥动力学

本研究的目的是获得波斯三叶草(Trifolium resupinatum L.)和矢叶三叶草(Trifolium vesiculosum)种子的吸附等温线，并研究其干燥动力学，并用文献预测模型拟合实验数据。在40、45和50℃的等温线曲线上得到了平衡含水率和吸湿行为，Peleg模型最适合。在三种温度下，通过空气平行流干燥机中的薄层试验确定了干燥动力学。此外，波斯三叶草和箭叶三叶草种子的临界水分含量值分别约为0.20和0.25 gwater gdry matter-1。在波斯三叶草(3.61×10-11 ~ 6.81×10-11 m²s-1)和箭叶三叶草种子(6.76×10-11 ~ 1.15×10-10 m²s-1)范围内估计了有效扩散系数值，温度效应用Arrhenius关系式表示。因此，干燥动力学证实，与干燥波斯三叶草种子相比，从箭叶三叶草种子中去除水分的难度更大，这与通过吸附等温线获得的结果一致。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Engenharia na Agricultura

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24 weeks