Evaluation of the thermal performance of hybrid nanofluids in pulsating heat pipe

The present article performed experimental and numerical investigations to evaluate the thermal performance of hybrid nanofluids in PHP under heat input and filling ratio of 10 W � 100 W and 50 %-60 %, respectively. The thermal performance results of PHP incorporated with hybrid nanofluids were comp...

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Main Authors: Zufar M., Gunnasegaran P., Ng K.C., Mehta H.B.
Other Authors: 57205240082
Format: Article
Published: Penerbit Akademia Baru 2023
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spelling my.uniten.dspace-248992023-05-29T15:28:29Z Evaluation of the thermal performance of hybrid nanofluids in pulsating heat pipe Zufar M. Gunnasegaran P. Ng K.C. Mehta H.B. 57205240082 35778031300 55310814500 55820197100 The present article performed experimental and numerical investigations to evaluate the thermal performance of hybrid nanofluids in PHP under heat input and filling ratio of 10 W � 100 W and 50 %-60 %, respectively. The thermal performance results of PHP incorporated with hybrid nanofluids were compared with water. Water has low thermal conductivity value which is not favourable for an efficient heat transfer in a cooling device. Several studies have shown that hybrid nanofluid as a promising working fluid for thermal performance enhancement of the heat transfer device. The present study uses Al2O3-CuO hybrid nanofluid and SiO2-CuO hybrid nanofluid with mass concentration of 0.1 %. The thermal performance of PHP was studied with respect to the start-up mechanism, steady-state evaporator temperature, thermal resistance and the formation of two-phase flow. From the experiment results, PHP filled with SiO2-CuO hybrid nanofluid obtained the lowest thermal resistance value of 0.27 �C/W. Thermal resistance was improved by 55 % when PHP was charged with SiO2-CuO hybrid nanofluid compared to water. The optimal filling ratio of PHP is found to be 60 % at all the heat input and working fluid tested. Incorporating hybrid nanofluids in PHP have seen to expedite the start-up mechanism and also showed lower steady-state evaporator temperature and thermal resistance values. � 2019 PENERBIT AKADEMIA BARU-All rights reserved. Final 2023-05-29T07:28:29Z 2023-05-29T07:28:29Z 2019 Article 2-s2.0-85076575485 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85076575485&partnerID=40&md5=f14a2a8c845b6092fe994ca4411ea568 https://irepository.uniten.edu.my/handle/123456789/24899 11 11 13 24 Penerbit Akademia Baru Scopus
institution Universiti Tenaga Nasional
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content_provider Universiti Tenaga Nasional
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description The present article performed experimental and numerical investigations to evaluate the thermal performance of hybrid nanofluids in PHP under heat input and filling ratio of 10 W � 100 W and 50 %-60 %, respectively. The thermal performance results of PHP incorporated with hybrid nanofluids were compared with water. Water has low thermal conductivity value which is not favourable for an efficient heat transfer in a cooling device. Several studies have shown that hybrid nanofluid as a promising working fluid for thermal performance enhancement of the heat transfer device. The present study uses Al2O3-CuO hybrid nanofluid and SiO2-CuO hybrid nanofluid with mass concentration of 0.1 %. The thermal performance of PHP was studied with respect to the start-up mechanism, steady-state evaporator temperature, thermal resistance and the formation of two-phase flow. From the experiment results, PHP filled with SiO2-CuO hybrid nanofluid obtained the lowest thermal resistance value of 0.27 �C/W. Thermal resistance was improved by 55 % when PHP was charged with SiO2-CuO hybrid nanofluid compared to water. The optimal filling ratio of PHP is found to be 60 % at all the heat input and working fluid tested. Incorporating hybrid nanofluids in PHP have seen to expedite the start-up mechanism and also showed lower steady-state evaporator temperature and thermal resistance values. � 2019 PENERBIT AKADEMIA BARU-All rights reserved.
author2 57205240082
author_facet 57205240082
Zufar M.
Gunnasegaran P.
Ng K.C.
Mehta H.B.
format Article
author Zufar M.
Gunnasegaran P.
Ng K.C.
Mehta H.B.
spellingShingle Zufar M.
Gunnasegaran P.
Ng K.C.
Mehta H.B.
Evaluation of the thermal performance of hybrid nanofluids in pulsating heat pipe
author_sort Zufar M.
title Evaluation of the thermal performance of hybrid nanofluids in pulsating heat pipe
title_short Evaluation of the thermal performance of hybrid nanofluids in pulsating heat pipe
title_full Evaluation of the thermal performance of hybrid nanofluids in pulsating heat pipe
title_fullStr Evaluation of the thermal performance of hybrid nanofluids in pulsating heat pipe
title_full_unstemmed Evaluation of the thermal performance of hybrid nanofluids in pulsating heat pipe
title_sort evaluation of the thermal performance of hybrid nanofluids in pulsating heat pipe
publisher Penerbit Akademia Baru
publishDate 2023
_version_ 1806423498962239488
score 13.214268