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Multidirectional Polarization Impacts on Microwave Heating Efficiency: A Molecular Dynamics Research of Microwave Heating of Common Solvents

Hongxiao Shi, Kama Huang, Ying Liu, Dezhi Gou

2023The Journal of Physical Chemistry B13 citationsDOI

Abstract

Energy efficiency has always been an inherent problem of microwave heating. In this work, the higher heating efficiency of the elliptically polarized microwave electric field is investigated via MD simulations, aiming to examine the multidirectional polarization effect during microwave heating. The MD results show that the heating efficiency growth rates of EtOH, AcOH, DMSO, H 2 O, and DMF are 3.17%, 3.92%, 4.14%, 5.00%, and 27.06% sequentially larger with the elliptically polarized microwave electric field (EF) than those with the linearly polarized microwave EF. Energy analyses indicate that the utilization rate of microwave energy would be increased of the elliptically polarized microwave EF with the same electric field intensities. The higher decay speed of the rotation autocorrelation function curves of elliptically polarized EF presents that the sample molecules do have a more frequent rotational motion to align with the varying polarization directions. Additionally, dielectric properties analysis gave the relation between the heating efficiency growth rate and the loss tangent of the samples. This microwave heating method is expected to be a new route to improve the microwave heating efficiency.

Topics & Concepts

Elliptical polarizationMicrowaveElectric fieldPolarization (electrochemistry)Materials scienceDielectric heatingDielectricOpticsLinear polarizationAtomic physicsChemistryPhysicsOptoelectronicsPhysical chemistryLaserQuantum mechanicsMicrowave-Assisted Synthesis and ApplicationsCatalysis for Biomass ConversionNanomaterials for catalytic reactions
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