Feasibility Study of Cooling a Bulk Acoustic Wave Resonator by Nanoparticle Enhanced Phase Change Material

In the current study, the coupling of a cooling problem with the electromagnetic resonance of a bulk acoustic wave (BAW) material is investigated. As well, a new cooling method by the addition of nanoparticles to a phase change material surrounding the BAW resonator is presented. To solve the govern...

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Autor principal: Mohammad Yaghoub Abdollahzadeh Jamalabadi
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Lenguaje:EN
Publicado: MDPI AG 2021
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Acceso en línea:https://doaj.org/article/46e4449d35d84dd7932237bf47c381eb
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spelling oai:doaj.org-article:46e4449d35d84dd7932237bf47c381eb2021-11-25T18:12:29ZFeasibility Study of Cooling a Bulk Acoustic Wave Resonator by Nanoparticle Enhanced Phase Change Material10.3390/magnetochemistry71101442312-7481https://doaj.org/article/46e4449d35d84dd7932237bf47c381eb2021-10-01T00:00:00Zhttps://www.mdpi.com/2312-7481/7/11/144https://doaj.org/toc/2312-7481In the current study, the coupling of a cooling problem with the electromagnetic resonance of a bulk acoustic wave (BAW) material is investigated. As well, a new cooling method by the addition of nanoparticles to a phase change material surrounding the BAW resonator is presented. To solve the governing equations of piezoelectric charge and momentum balance, thermal balance, and fluid flow a code with the method of finite element is introduced. After validation of various features of the code with melting profile, heat generation, charge curve, and dispersion curve with benchmarks, the eigenfrequency analysis of the system is done. The thermal behavior of the system at first mode and various boundary conditions are studied. As well, the effect of nanoparticles in fastening the cooling of the BAW resonator is demonstrated.Mohammad Yaghoub Abdollahzadeh JamalabadiMDPI AGarticlebulk acoustic wavesfilter designthermal managementMEMSphase change materialnanofluidChemistryQD1-999ENMagnetochemistry, Vol 7, Iss 144, p 144 (2021)
institution DOAJ
collection DOAJ
language EN
topic bulk acoustic waves
filter design
thermal management
MEMS
phase change material
nanofluid
Chemistry
QD1-999
spellingShingle bulk acoustic waves
filter design
thermal management
MEMS
phase change material
nanofluid
Chemistry
QD1-999
Mohammad Yaghoub Abdollahzadeh Jamalabadi
Feasibility Study of Cooling a Bulk Acoustic Wave Resonator by Nanoparticle Enhanced Phase Change Material
description In the current study, the coupling of a cooling problem with the electromagnetic resonance of a bulk acoustic wave (BAW) material is investigated. As well, a new cooling method by the addition of nanoparticles to a phase change material surrounding the BAW resonator is presented. To solve the governing equations of piezoelectric charge and momentum balance, thermal balance, and fluid flow a code with the method of finite element is introduced. After validation of various features of the code with melting profile, heat generation, charge curve, and dispersion curve with benchmarks, the eigenfrequency analysis of the system is done. The thermal behavior of the system at first mode and various boundary conditions are studied. As well, the effect of nanoparticles in fastening the cooling of the BAW resonator is demonstrated.
format article
author Mohammad Yaghoub Abdollahzadeh Jamalabadi
author_facet Mohammad Yaghoub Abdollahzadeh Jamalabadi
author_sort Mohammad Yaghoub Abdollahzadeh Jamalabadi
title Feasibility Study of Cooling a Bulk Acoustic Wave Resonator by Nanoparticle Enhanced Phase Change Material
title_short Feasibility Study of Cooling a Bulk Acoustic Wave Resonator by Nanoparticle Enhanced Phase Change Material
title_full Feasibility Study of Cooling a Bulk Acoustic Wave Resonator by Nanoparticle Enhanced Phase Change Material
title_fullStr Feasibility Study of Cooling a Bulk Acoustic Wave Resonator by Nanoparticle Enhanced Phase Change Material
title_full_unstemmed Feasibility Study of Cooling a Bulk Acoustic Wave Resonator by Nanoparticle Enhanced Phase Change Material
title_sort feasibility study of cooling a bulk acoustic wave resonator by nanoparticle enhanced phase change material
publisher MDPI AG
publishDate 2021
url https://doaj.org/article/46e4449d35d84dd7932237bf47c381eb
work_keys_str_mv AT mohammadyaghoubabdollahzadehjamalabadi feasibilitystudyofcoolingabulkacousticwaveresonatorbynanoparticleenhancedphasechangematerial
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