PHASE CHANGE THERMAL DIODE USING Al2O3-Cu/WATER HYBRID NANOFLUIDS FOR THERMAL RECTIFICATION ENHANCEMENT

M. Y. Wong; C. Y. Tso; T. C. Ho

doi:10.1115/POWER2020-16278

PHASE CHANGE THERMAL DIODE USING Al₂O₃-Cu/WATER HYBRID NANOFLUIDS FOR THERMAL RECTIFICATION ENHANCEMENT

^*Corresponding author for this work

School of Energy and Environment

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review

Abstract

A thermal diode, a device to manipulate the heat flow indifferent directions, is useful in various thermal systems, such as solar thermal storage systems. It is noted that the performance of phase change thermal diodes shows the highest thermal rectification performances in the literature. The performances of the phase change thermal diode can be further improved by utilizing a working fluid with enhanced thermal properties. Since hybrid nanofluids are proven to have better thermal properties than the base fluid (i.e. water), in this study, a thermal diode using Al₂O₃-Cu/water hybrid nanofluid is fabricated and tested to investigate the feasibility of using hybrid nanofluid to enhance the performance of the thermal diode. The heat transfer and thermal rectification performances of the thermal diode using Al₂O₃-Cu/water hybrid nanofluid are compared experimentally, to a thermal diode using water. The effect of temperature on the heat transfer and thermal rectification performances of the thermal diode is also examined. The results indicate that the effective thermal conductivity in the forward direction and the diodicity of the thermal diode using Al₂O₃-Cu/water hybrid nanofluid are improved by 42.4% and 30.8%, respectively, compared to that of the thermal diode using water. The findings not only reveal a new direction for future research in enhancement of the thermal rectification performance of the phase change thermal diode but also provide an alternative research path for improving the performance of existing solar thermal storage systems.

Original language	English
Title of host publication	Proceedings of the 2020 28^th International Conference on Nuclear Engineering Joint With the ASME 2020 Power Conference, ICONE28-POWER2020
Publisher	American Society of Mechanical Engineers
ISBN (Print)	978-0-7918-8374-7
DOIs	https://doi.org/10.1115/POWER2020-16278
Publication status	Published - Aug 2020
Event	ASME 2020 Power Conference - Virtual Conference, Online, Anaheim, United States Duration: 4 Aug 2020 → 5 Aug 2020 https://event.asme.org/POWER-2020

Publication series

Name	American Society of Mechanical Engineers, Power Division (Publication) POWER
Volume	2020-August

Conference

Conference	ASME 2020 Power Conference
Place	United States
City	Anaheim
Period	4/08/20 → 5/08/20
Internet address	https://event.asme.org/POWER-2020

Bibliographical note

Information for this record is supplemented by the author(s) concerned.

Research Keywords

hybrid nanofluids
porous structure
superhydrophobic surface
superhydrophilic surface
heat transfer
diodicity

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This output contributes to the following UN Sustainable Development Goals (SDGs)

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Wong, M. Y., Tso, C. Y., & Ho, T. C. (2020). PHASE CHANGE THERMAL DIODE USING Al₂O₃-Cu/WATER HYBRID NANOFLUIDS FOR THERMAL RECTIFICATION ENHANCEMENT. In Proceedings of the 2020 28^th International Conference on Nuclear Engineering Joint With the ASME 2020 Power Conference, ICONE28-POWER2020 Article V001t04a001 (American Society of Mechanical Engineers, Power Division (Publication) POWER; Vol. 2020-August). American Society of Mechanical Engineers. https://doi.org/10.1115/POWER2020-16278

Wong, M. Y. ; Tso, C. Y. ; Ho, T. C. / PHASE CHANGE THERMAL DIODE USING Al₂O₃-Cu/WATER HYBRID NANOFLUIDS FOR THERMAL RECTIFICATION ENHANCEMENT. Proceedings of the 2020 28^th International Conference on Nuclear Engineering Joint With the ASME 2020 Power Conference, ICONE28-POWER2020. American Society of Mechanical Engineers, 2020. (American Society of Mechanical Engineers, Power Division (Publication) POWER).

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title = "PHASE CHANGE THERMAL DIODE USING Al2O3-Cu/WATER HYBRID NANOFLUIDS FOR THERMAL RECTIFICATION ENHANCEMENT",

abstract = "A thermal diode, a device to manipulate the heat flow indifferent directions, is useful in various thermal systems, such as solar thermal storage systems. It is noted that the performance of phase change thermal diodes shows the highest thermal rectification performances in the literature. The performances of the phase change thermal diode can be further improved by utilizing a working fluid with enhanced thermal properties. Since hybrid nanofluids are proven to have better thermal properties than the base fluid (i.e. water), in this study, a thermal diode using Al2O3-Cu/water hybrid nanofluid is fabricated and tested to investigate the feasibility of using hybrid nanofluid to enhance the performance of the thermal diode. The heat transfer and thermal rectification performances of the thermal diode using Al2O3-Cu/water hybrid nanofluid are compared experimentally, to a thermal diode using water. The effect of temperature on the heat transfer and thermal rectification performances of the thermal diode is also examined. The results indicate that the effective thermal conductivity in the forward direction and the diodicity of the thermal diode using Al2O3-Cu/water hybrid nanofluid are improved by 42.4% and 30.8%, respectively, compared to that of the thermal diode using water. The findings not only reveal a new direction for future research in enhancement of the thermal rectification performance of the phase change thermal diode but also provide an alternative research path for improving the performance of existing solar thermal storage systems. ",

keywords = "hybrid nanofluids, porous structure, superhydrophobic surface, superhydrophilic surface, heat transfer, diodicity",

author = "Wong, {M. Y.} and Tso, {C. Y.} and Ho, {T. C.}",

note = "Information for this record is supplemented by the author(s) concerned.; ASME 2020 Power Conference ; Conference date: 04-08-2020 Through 05-08-2020",

year = "2020",

month = aug,

doi = "10.1115/POWER2020-16278",

language = "English",

isbn = "978-0-7918-8374-7",

series = "American Society of Mechanical Engineers, Power Division (Publication) POWER",

publisher = "American Society of Mechanical Engineers",

booktitle = "Proceedings of the 2020 28th International Conference on Nuclear Engineering Joint With the ASME 2020 Power Conference, ICONE28-POWER2020",

address = "United States",

url = "https://event.asme.org/POWER-2020",

}

Wong, MY , Tso, CY & Ho, TC 2020, PHASE CHANGE THERMAL DIODE USING Al₂O₃-Cu/WATER HYBRID NANOFLUIDS FOR THERMAL RECTIFICATION ENHANCEMENT. in Proceedings of the 2020 28^th International Conference on Nuclear Engineering Joint With the ASME 2020 Power Conference, ICONE28-POWER2020., V001t04a001, American Society of Mechanical Engineers, Power Division (Publication) POWER, vol. 2020-August, American Society of Mechanical Engineers, ASME 2020 Power Conference, Anaheim, California, United States, 4/08/20. https://doi.org/10.1115/POWER2020-16278

PHASE CHANGE THERMAL DIODE USING Al₂O₃-Cu/WATER HYBRID NANOFLUIDS FOR THERMAL RECTIFICATION ENHANCEMENT. / Wong, M. Y.; Tso, C. Y.; Ho, T. C.
Proceedings of the 2020 28^th International Conference on Nuclear Engineering Joint With the ASME 2020 Power Conference, ICONE28-POWER2020. American Society of Mechanical Engineers, 2020. V001t04a001 (American Society of Mechanical Engineers, Power Division (Publication) POWER; Vol. 2020-August).

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review

TY - GEN

T1 - PHASE CHANGE THERMAL DIODE USING Al2O3-Cu/WATER HYBRID NANOFLUIDS FOR THERMAL RECTIFICATION ENHANCEMENT

AU - Wong, M. Y.

AU - Tso, C. Y.

AU - Ho, T. C.

N1 - Information for this record is supplemented by the author(s) concerned.

PY - 2020/8

Y1 - 2020/8

N2 - A thermal diode, a device to manipulate the heat flow indifferent directions, is useful in various thermal systems, such as solar thermal storage systems. It is noted that the performance of phase change thermal diodes shows the highest thermal rectification performances in the literature. The performances of the phase change thermal diode can be further improved by utilizing a working fluid with enhanced thermal properties. Since hybrid nanofluids are proven to have better thermal properties than the base fluid (i.e. water), in this study, a thermal diode using Al2O3-Cu/water hybrid nanofluid is fabricated and tested to investigate the feasibility of using hybrid nanofluid to enhance the performance of the thermal diode. The heat transfer and thermal rectification performances of the thermal diode using Al2O3-Cu/water hybrid nanofluid are compared experimentally, to a thermal diode using water. The effect of temperature on the heat transfer and thermal rectification performances of the thermal diode is also examined. The results indicate that the effective thermal conductivity in the forward direction and the diodicity of the thermal diode using Al2O3-Cu/water hybrid nanofluid are improved by 42.4% and 30.8%, respectively, compared to that of the thermal diode using water. The findings not only reveal a new direction for future research in enhancement of the thermal rectification performance of the phase change thermal diode but also provide an alternative research path for improving the performance of existing solar thermal storage systems.

AB - A thermal diode, a device to manipulate the heat flow indifferent directions, is useful in various thermal systems, such as solar thermal storage systems. It is noted that the performance of phase change thermal diodes shows the highest thermal rectification performances in the literature. The performances of the phase change thermal diode can be further improved by utilizing a working fluid with enhanced thermal properties. Since hybrid nanofluids are proven to have better thermal properties than the base fluid (i.e. water), in this study, a thermal diode using Al2O3-Cu/water hybrid nanofluid is fabricated and tested to investigate the feasibility of using hybrid nanofluid to enhance the performance of the thermal diode. The heat transfer and thermal rectification performances of the thermal diode using Al2O3-Cu/water hybrid nanofluid are compared experimentally, to a thermal diode using water. The effect of temperature on the heat transfer and thermal rectification performances of the thermal diode is also examined. The results indicate that the effective thermal conductivity in the forward direction and the diodicity of the thermal diode using Al2O3-Cu/water hybrid nanofluid are improved by 42.4% and 30.8%, respectively, compared to that of the thermal diode using water. The findings not only reveal a new direction for future research in enhancement of the thermal rectification performance of the phase change thermal diode but also provide an alternative research path for improving the performance of existing solar thermal storage systems.

KW - hybrid nanofluids

KW - porous structure

KW - superhydrophobic surface

KW - superhydrophilic surface

KW - heat transfer

KW - diodicity

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M3 - RGC 32 - Refereed conference paper (with host publication)

SN - 978-0-7918-8374-7

T3 - American Society of Mechanical Engineers, Power Division (Publication) POWER

BT - Proceedings of the 2020 28th International Conference on Nuclear Engineering Joint With the ASME 2020 Power Conference, ICONE28-POWER2020

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Wong MY , Tso CY , Ho TC. PHASE CHANGE THERMAL DIODE USING Al₂O₃-Cu/WATER HYBRID NANOFLUIDS FOR THERMAL RECTIFICATION ENHANCEMENT. In Proceedings of the 2020 28^th International Conference on Nuclear Engineering Joint With the ASME 2020 Power Conference, ICONE28-POWER2020. American Society of Mechanical Engineers. 2020. V001t04a001. (American Society of Mechanical Engineers, Power Division (Publication) POWER). doi: 10.1115/POWER2020-16278