热传导增强相变材料(PCMs)用于香蕉干燥的间接太阳能干燥机的数值模拟

IF 0.7 Q4 THERMODYNAMICS

International Journal of Heat and Technology Pub Date : 2023-10-31 DOI:10.18280/ijht.410506

Ahmed Sabah Thaker, Fawziea M. Hussien, Johain J. Faraj

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Numerical Simulation of an Indirect Solar Dryer Equipped with Thermal Conduction Enhancer Augmented Phase Change Materials (PCMs) for Banana Drying

An innovative indirect solar dryer, designed for banana dehydration, was developed and assessed, utilizing the Ansys software for simulation. The system comprises a vacuum tube water heater and a drying chamber, the latter of which incorporates phase-change materials (PCMs), thus enhancing the drying performance. A fan positioned within the chamber synergizes with the PCMs, effectively abbreviating the drying time. Computational simulations were executed to refine the system design and operational parameters. A sorption isotherm was constructed to delineate the optimal moisture content and water activity, fundamental parameters for efficient drying. The integrated solar collector facilitates the transformation of solar energy into heat, while the drying chamber, accommodating two baskets of produce, optimizes the heat distribution. Our system demon strated the capacity to generate high drying temperatures, especially efficient for items exhibiting lower moisture content than bananas. The system achieved a predicted maximum efficiency of 67.40%, operating optimally within a temperature range of 60-65℃. Experimental results were congruent with computational simulations, reinforcing the efficacy o f the drying chamber. This study introduces a novel, sustainable method for efficient fruit dehydration, spotlighting its potential applicability beyond bananas to other produce.

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来源期刊

International Journal of Heat and Technology THERMODYNAMICS-

CiteScore

1.60

自引率

22.20%

发文量

144

期刊介绍： The IJHT covers all kinds of subjects related to heat and technology, including but not limited to turbulence, combustion, cryogenics, porous media, multiphase flow, radiative transfer, heat and mass transfer, micro- and nanoscale systems, and thermophysical property measurement. The editorial board encourages the authors from all countries to submit papers on the relevant issues, especially those aimed at the practitioner as much as the academic. The papers should further our understanding of the said subjects, and make a significant original contribution to knowledge. The IJHT welcomes original research papers, technical notes and review articles on the following disciplines: Heat transfer Fluid dynamics Thermodynamics Turbulence Combustion Cryogenics Porous media Multiphase flow Radiative transfer Heat and mass transfer Micro- and nanoscale systems Thermophysical property measurement.