Thin layer mathematical modelling of white maize in a mobile solar-biomass hybrid dryer

Q3 Agricultural and Biological Sciences

Research in Agricultural Engineering Pub Date : 2021-05-12 DOI:10.17221/56/2020-RAE

J. Akowuah, A. Bart-Plange, K. Dzisi

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引用次数: 2

Abstract

Performance of a tractor mounted solar-biomass hybrid dryer which utilise combined energy of solar and biomass was investigated. Drying behaviour of maize grains in the dryer was also investigated using 10 thin-layer mathematical models. The models were compared based on coefficient of determination (R2) and root mean square error (RMSE) values between experimental and predicted moisture ratios. Moisture content (MC) of grains in the dryer reduced from 19 ± 0.86% to 13 ± 0.4% (w.b.) in 5 h, compared to grains dried in open-sun which reached same MC in 15 hours. This resulted in average drying rate of 1.2 %·h–1 compared to 0.4 %·h–1 for grains dried in the open-sun leading to net savings in drying time of 67%. Overall mean temperature, 41.93 ± 2.7 °C in the dryer was 15.3 °C higher than the ambient temperature. Midilli Kucuk model was best to describe the thin-layer drying kinetics of maize in the dryer. It showed a good fit between the predicted and experimental data. The effective moisture diffusivity of grains dried in the dryer ranged between 1.45 × 10–11–3.10 × 10–11 m2·s–1. An activation energy of 96.83 kJ·mol–1 was determined based on the Arrhenius-type equation.

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移动式太阳能-生物质混合干燥机中白玉米的薄层数学模型

研究了一种利用太阳能和生物质复合能源的拖拉机式太阳能-生物质混合干燥机的性能。利用10个薄层数学模型研究了玉米籽粒在干燥机中的干燥行为。根据试验水分比与预测水分比的决定系数(R2)和均方根误差(RMSE)值对模型进行比较。干燥后5 h，籽粒含水率(MC)由19±0.86%降至13±0.4% (w.b.)，而露天干燥15 h即可达到相同的含水率。这导致平均干燥率为1.2%·h-1，而露天干燥的谷物为0.4%·h-1，净干燥时间节省67%。烘干机整体平均温度(41.93±2.7℃)比环境温度高15.3℃。Midilli - Kucuk模型最能描述玉米在干燥机中的薄层干燥动力学。结果表明，预测数据与实验数据吻合较好。干燥后的籽粒有效水分扩散系数为1.45 × 10-11 - 3.10 × 10-11 m2·s-1。根据Arrhenius-type方程，得到的活化能为96.83 kJ·mol-1。

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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.