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Heat transfer with water flowing upward in a tube for pressures up to supercritical region

Heat transfer with water flowing upward in a tube for pressures up to supercritical region Abstract A heat transfer experiment was conducted in a tube of 6.07 mm in diameter with water flowing upward, covering the ranges of pressure of 10–23 MPa, mass flux of 288–1298 kg/(m2·s), local water temperature of 78°C–270°C, heat flux of 0.23–1.18 MW/m2 and Reynolds number of 5.5 × 103−3.9 × 104. The experimental results were compared with the predictions of the Dittus-Boelter correlation, Jackson correlation, Bishop correlation, Swenson correlation and Yamagata correlation. Significant deterioration in heat transfer was observed in both subcritical and supercritical region due to the effect of buoyancy force, but it was not predicted reasonably by the existing correlations. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png "Frontiers in Energy" Springer Journals

Heat transfer with water flowing upward in a tube for pressures up to supercritical region

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Publisher
Springer Journals
Copyright
2009 Higher Education Press and Springer Berlin Heidelberg
ISSN
2095-1701
eISSN
1673-7504
DOI
10.1007/s11708-009-0071-4
Publisher site
See Article on Publisher Site

Abstract

Abstract A heat transfer experiment was conducted in a tube of 6.07 mm in diameter with water flowing upward, covering the ranges of pressure of 10–23 MPa, mass flux of 288–1298 kg/(m2·s), local water temperature of 78°C–270°C, heat flux of 0.23–1.18 MW/m2 and Reynolds number of 5.5 × 103−3.9 × 104. The experimental results were compared with the predictions of the Dittus-Boelter correlation, Jackson correlation, Bishop correlation, Swenson correlation and Yamagata correlation. Significant deterioration in heat transfer was observed in both subcritical and supercritical region due to the effect of buoyancy force, but it was not predicted reasonably by the existing correlations.

Journal

"Frontiers in Energy"Springer Journals

Published: Sep 1, 2010

References