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Application of the reaction engineering approach (REA) for modeling intermittent drying under time-varying humidity and temperature
Authors:Aditya Putranto  Xiao Dong Chen  Sakamon Devahastin  Zongyuan Xiao  Paul A. Webley
Affiliation:aDepartment of Chemical Engineering, Monash University, Clayton Campus, Victoria 3800, Australia;bDepartment of Chemical and Biochemical Engineering, College of Chemistry and Chemical Engineering, Xiamen University, Xiamen, Fujian, China;cDepartment of Food Engineering, Faculty of Engineering, King Mongkut's University of Technology Thonburi, Bangkok 10140, Thailand
Abstract:A ‘good’ drying model is important for the design of dryer, evaluation of dryer performance and prediction of product quality. Among the available models, the reaction engineering approach (REA) is a lumped model, proven to be simple, robust and accurate to model drying of several materials. In this paper, the REA is implemented to model intermittent drying, which is usually practiced for saving energy consumption and maintaining product quality during drying, under time-varying drying air temperature and humidity, which is a challenging drying case to model. For this purpose, the equilibrium activation energy (ΔEv,b) is defined according to the drying settings in each time period and combined with the relative activation energy (ΔEvEv,b) generated from the convective drying experimental data obtained under constant drying conditions. The mass and heat balances also implement the corresponding drying settings in each time period during the intermittent drying. The results indicate that the REA can describe both the moisture content and temperature profiles of the intermittent drying under time-varying drying air temperature and humidity well. The accuracy, simplicity and robustness of the REA for the intermittent drying under time-varying drying air temperature and humidity are proven here. This has provided a major and significant extension of the REA on modeling challenging drying cases.
Keywords:Drying   Mathematical modeling   Reaction engineering approach (REA)   Intermittent   Time-varying humidity   Time-varying temperature
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