Thermal conductivity of stabilized PEG 400 based nanofluids: An experimental approach

Polyethylene glycol is intensively studied as the base for new enhanced materials, while PEG 400 enhanced with nanoparticles may be seen as a new heat transfer fluid and its development is on its way. A number of reports were acknowledged in the recent literature, even if this research is ongoing an...

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Bibliographic Details
Published in:International communications in heat and mass transfer 2022-01, Vol.130, p.105798, Article 105798
Main Authors: Chereches, Marius, Vardaru, Alexandru, Huminic, Gabriela, Chereches, Elena Ionela, Minea, Alina Adriana, Huminic, Angel
Format: Article
Language:English
Subjects:
Nanofluid
Nanoparticles
PEG 400
Thermal conductivity
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Summary:Polyethylene glycol is intensively studied as the base for new enhanced materials, while PEG 400 enhanced with nanoparticles may be seen as a new heat transfer fluid and its development is on its way. A number of reports were acknowledged in the recent literature, even if this research is ongoing and new hypothesis have to be further tested. This paper deals with a complex experimental study involving PEG 400 enhanced with three kinds of nanoparticles, i.e. Al2O3, ZnO and MWCNT. A first observation was in regard to a possible synergy between nanoparticle type and base fluid, yet this hypothesis requires to be further proved. The experimental was conducted taking into account both the temperature effect on the thermal conductivity, as well as the nanoparticle loading in the base fluid. Concluding, nanoparticles addition to a base fluid undoubtedly boosts its thermal conductivity, mechanisms being analogous to those demonstrated for all nanofluids. In regard to heating performance, it was perceived that upper nanoparticles concentration changes the heating comportment of the PEG 400. •PEG 400 and PEG 400 based nanofluids thermal conductivity is investigated.•PEG 400 and its nanofluids have no increase in thermal conductivity with temperature.•PEG 400 nanofluids thermal conductivity upsurge with nanoparticle loading.•Relationships based on experimental outcomes were suggested.•Regression for thermal conductivity assessment was inserted.
ISSN:0735-1933
1879-0178
DOI:10.1016/j.icheatmasstransfer.2021.105798