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Enhancement of R123 Pool Boiling by the Addition of N-Hexane

Published

Author(s)

Mark A. Kedzierski

Abstract

This paper presents the heat transfer data used to file international patent WO 94/18282. The data consisted of pool boiling performance of a GEWA-TTM surface for three fluids: (1) pure R123, (2) R123/n-hexane (99/1), and (3) R123/n-hexane (98/2). The heat flux and the wall superheat were measured for each fluid at 277.6 K. A (47 + 7)% increase over the pure R123 heat flux was achieved with the addition of 1% mass hexane to R123. Similarly, the R123/hexane (99/2) mixture gave a maximum percent heat flux enhancement over pure R123 of (29 + 7)%. The boiling was filmed with a 16 mm high-speed camera. The observations were used to describe various boiling modes on the GEWA-TTM surface. The addition of hexane to pure R123 caused a simultaneous reduction in the bubble diameter and increase in the site density. The increase in site density enhanced the boiling despite the reduction in bubble size. Presumably, the site density enhancement was caused by a layer enriched in hexane at the heat transfer surface.
Citation
Journal of Enhanced Heat Transfer
Volume
6

Keywords

building technology, additives, enhanced heat transfer, fluid heating, GEWA-T, pool boiling, R123, thermal conductivity

Citation

Kedzierski, M. (1999), Enhancement of R123 Pool Boiling by the Addition of N-Hexane, Journal of Enhanced Heat Transfer, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=910444 (Accessed April 24, 2024)
Created January 1, 1999, Updated February 19, 2017