Drying kinetics of organic parchment coffee beans (Coffea arabica L.) using microwave fluidised bed: Semi-theoretical modeling

Revista Ingenierias Universidad de Medellin Pub Date : 2020-10-23 DOI:10.22395/rium.v20n39a10

Marcelo Fernando Valle Vargas, Ricardo Durán Barón, J. Alean, H. C. Ciro Velásquez

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Abstract

The aim of this study was to model the drying kinetics of microwave and fluidised bed of parchment coffee bean (Coffea arabica L.) using a semi-theoretical approach. A completely randomized design with six treatments: three with microwave drying (MD) and the rest combined with fluidized bed drying (MFBD) was carried out. The drying curves were established until reaching a final moisture content between 10 to 12% w.b. The results indicated that the drying time decreased as the microwave power level increased. When MFBD was used, drying times increased approximately 4-fold compared to MD treatments. The values of effective diffusivity for coffee beans treated with MD and MFBD ranged from 0.913 to1.72×10-9 m2.s-1 and 0.23 to 0.42×10-9 m2.s-1, respectively. Although all the models presented high goodness of fit, the two-term model presented the highest R2 (0.9855 – 0.9978) and lowest RMSE (0.0128-0.0285). In general, all models adequately fitted the experimental data so they can be used to predict the drying kinetics, therefore they could be very useful in equipment design and optimization of the coffee drying process.

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有机羊皮纸咖啡豆(Coffea arabica L.)的微波流化床干燥动力学:半理论建模

本研究的目的是用半理论的方法模拟羊皮纸咖啡豆(Coffea arabica L.)的微波和流化床干燥动力学。采用完全随机设计，共6个处理，其中3个处理采用微波干燥(MD)，其余处理采用流化床干燥(MFBD)。建立干燥曲线，直至最终含水率在10 ~ 12% w.b.之间。结果表明，随着微波功率的增加，干燥时间缩短。当使用MFBD时，干燥时间比MD处理增加了大约4倍。MD和MFBD处理的咖啡豆有效扩散系数为0.913 to1.72×10-9 m2。S-1和0.23至0.42×10-9 m2。s - 1。虽然所有模型的拟合优度都很高，但两项模型的R2最高(0.9855 ~ 0.9978)，RMSE最低(0.0128 ~ 0.0285)。总的来说，所有模型都能充分拟合实验数据，因此它们可以用来预测干燥动力学，因此它们在咖啡干燥过程的设备设计和优化中非常有用。

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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Revista Ingenierias Universidad de Medellin

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审稿时长

50 weeks