Kinetics of drying in a Mentha crispa foam layer and adjustment of mathematical models

Engenharia na Agricultura Pub Date : 2023-03-21 DOI:10.13083/reveng.v30i1.14729

Ana Carolina Nóbrega Leite, J. D. A. Cavalcante, Nagel Alves Costa, Williane Silva Pinheiro

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Abstract

Mentha crispa is a plant commonly used in folk medicine to treat illnesses and has wide industrial application. Dehydration has been used for several types of plants in order to reduce the levels of water content and water activity, so that it would allow na adequate storage due to the conservation of the active principles. The objective of this work is to investigate the process of drying mint in a foam layer. The foam was physically characterized in terms of density, expansion percentage, air incorporation capacity and stability. Drying was carried out according to a factorial experimental design, in which the input variables were: temperature (50, 60 and 70 °C), concentration of foaming agent (3, 5 and 7 %) and stirring time (3, 5 and 7 min); and the output variables were: drying time and water content (Xbs) of the product. The physical properties of the foam depended only on the foaming concentration. The rise in the temperature significantly reduced the drying time and the water content of the foam. The Page, Henderson & Pabis, Newton and Modified Page mathematical models were adjusted to the experimental data and Page’s model was the one that showed to be the most adequate to represent the drying phenomenon.

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薄荷脑泡沫层干燥动力学及数学模型的调整

薄荷是民间医学中常用的一种治疗疾病的植物，具有广泛的工业应用。脱水已用于几种类型的植物，以减少水分含量和水活性的水平，因此，由于活性原理的保存，它将允许没有足够的储存。本研究的目的是研究薄荷在泡沫层中的干燥过程。从密度、膨胀率、进气量和稳定性等方面对泡沫进行了物理表征。根据析因试验设计进行干燥，输入变量为:温度(50、60、70℃)、发泡剂浓度(3、5、7%)和搅拌时间(3、5、7 min);输出变量为:干燥时间和产品含水量(Xbs)。泡沫的物理性能只与发泡浓度有关。温度的升高大大缩短了干燥时间和泡沫的含水量。根据实验数据对Page、Henderson & Pabis、Newton和Modified Page的数学模型进行了调整，Page的模型是最能充分反映干燥现象的模型。

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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审稿时长

24 weeks