Title

Heat Transfer Behavior Of Silica Nanoparticles In Pool Boiling Experiment

Keywords

CHF; Nanofluids; Pool boiling; Surface charge

Abstract

The heat transfer characteristics of silica (SiO2) nanofluids at 0.5 vol % concentration and particle sizes of 10 nm and 20 nm in pool boiling with a suspended heating Nichrome wire have been analyzed. The influence of acidity on heat transfer has been studied. The pH value of the nanosuspensions is important from the point of view that it determines the stability of the particles and their mutual interactions toward the suspended heated wire. When there is no particle deposition on the wire, the nanofluid increases critical heatflux (CHF) by about 50% within the uncertainty limits regardless of pH of the base fluid or particle size. The extent of oxidation on the wire impacts CHF and is influenced by the chemical composition of nanofluids in buffer solutions. The boiling regime is further extended to higher heatflux when there is agglomeration on the wire. This agglomeration allows high heat transfer through interagglomerate pores, resulting in a nearly threefold increase in burnout heatflux. This deposition occurs for the charged 10 nm silica particle. The chemical composition, oxidation, and packing of the particles within the deposition on the wire are shown to be the reasons for the extension of the boiling regime and the net enhancement of the burnout heat flux. Copyright © 2008 by ASME.

Publication Date

4-1-2008

Publication Title

Journal of Heat Transfer

Volume

130

Issue

4

Document Type

Article; Proceedings Paper

Personal Identifier

scopus

DOI Link

https://doi.org/10.1115/1.2787020

Socpus ID

43349105900 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/43349105900

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