Mass Transfer, Energy-Exergy Analysis, and Mathematical Modeling of Chili Pepper during Drying

IF 1 4区 工程技术 Q4 CHEMISTRY, MULTIDISCIPLINARY
S. Agarry, F. N. Osuolale, O. Agbede, A. Ajani, T. Afolabi, O. Ogunleye, F. Ajuebor
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引用次数: 0

Abstract

There are no literature data on the effects of air velocity and relative humidity on moisture diffusivity, mass transfer coefficient, and energy-exergy analysis of chili pepper during cabinet-tray hot-air drying. This study tends to address this gap by presenting comprehensive drying kinetic, energy, and exergy analyses of a cabinet-tray hot-air drying for red chili pepper. Drying was conducted at varying levels of air temperature (40-70 oC), air velocity (0.5-2.0 m/s), and relative humidity (60-75%). The effect of drying conditions on drying time, drying coefficient, lag factor, drying efficiency, moisture ratio, effective moisture diffusivity, mass transfer coefficient, total energy consumption (TEC), specific energy consumption (SEC), energy utilization ratio (EUR), heat loss, energy efficiency, exergy loss, exergy efficiency, exergetic improvement potential (EIP), and exergy sustainability index (ESI)) was evaluated. Five different mass transfer models (Dincer-Dost, Bi-Di, Bi-S, Bi-G, and Bi-Re) were applied to determine the mass transfer parameters. A new drying mathematical model was developed for the prediction of drying kinetic, energy, and exergy parameters. Effective moisture diffusivity values of 1.58×10–8 - 5.10×10–8 m2/s and mass transfer coefficient values of 0.053×10–6 - 8.79×10–6 m/s over the drying conditions range were respectively obtained. The TEC, SEC, and EUR achieved over the range of drying conditions in the course of drying were in the range of 43.56-77.36 MJ, 49.0-87.02 MJ/kg, and 0.035-0.325, respectively. Heat loss and exergy loss varied from 0.16 to 2.39 MJ and from 0.026 to 0.622 kW, respectively. Drying, energy, and exergetic efficiency values obtained varied in the range of 2.80-8.25%, 2.69-7.91%, and 73-94.5%, respectively. EIP and the ESI values varied from 0.0068-0.114 kW and 3.70-18.18, respectively. The developed multivariate linear regression model provided an innovative model to predict drying kinetic, energy, and exergy parameters.
辣椒干燥过程的传质、能量-火用分析及数学模型
在柜式托盘热风干燥过程中,风速和相对湿度对辣椒水分扩散系数、传质系数和能量-火用分析的影响尚未见文献报道。本研究倾向于解决这一差距,提出了综合干燥动力学,能量和火用分析的橱柜托盘热风干燥红辣椒。在不同的空气温度(40-70℃)、风速(0.5-2.0 m/s)和相对湿度(60-75%)下进行干燥。考察了干燥条件对干燥时间、干燥系数、滞后系数、干燥效率、水分比、有效水分扩散系数、传质系数、总能耗(TEC)、比能耗(SEC)、能量利用率(EUR)、热损失、能效、火用损失、火用效率、火用改善潜力(EIP)和火用可持续指数(ESI)的影响。采用五种不同的传质模型(Dincer-Dost、Bi-Di、Bi-S、Bi-G和Bi-Re)来确定传质参数。建立了一种新的干燥数学模型,用于预测干燥动力学、能量和火用参数。在干燥条件范围内,有效水分扩散系数为1.58×10-8 ~ 5.10×10-8 m2/s,传质系数为0.053×10-6 ~ 8.79×10-6 m/s。干燥过程中获得的TEC、SEC和EUR分别在43.56 ~ 77.36 MJ/kg、49.0 ~ 87.02 MJ/kg和0.035 ~ 0.325 MJ/kg范围内。热损失和火用损失分别在0.16 ~ 2.39 MJ和0.026 ~ 0.622 kW之间变化。得到的干燥效率、能量效率和火用效率值分别为2.80 ~ 8.25%、2.69 ~ 7.91%和73 ~ 94.5%。EIP值为0.0068 ~ 0.114 kW, ESI值为3.70 ~ 18.18 kW。所建立的多元线性回归模型为预测干燥动力学、能量和火用参数提供了一个创新的模型。
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来源期刊
CiteScore
2.80
自引率
22.20%
发文量
0
审稿时长
6-12 weeks
期刊介绍: The aim of the Iranian Journal of Chemistry and Chemical Engineering is to foster the growth of educational, scientific and Industrial Research activities among chemists and chemical engineers and to provide a medium for mutual communication and relations between Iranian academia and the industry on the one hand, and the world the scientific community on the other.
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