Volume 3: Heat Transfer, Parts a and B 2009
DOI: 10.1115/gt2009-59978
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Computational Study of the Heat Transfer of the Buoyancy-Driven Rotating Cavity With Axial Throughflow of Cooling Air

Abstract: Buoyancy driven flows that occur in the inter-disk space of an axial compressor spool play a major role in projecting gas turbine engine life and performance. The Rayleigh-Benard-like flow structure developed under the influence of centrifugal buoyancy creates sharp temperature gradients at the rotating walls of the compressor hardware. These sharp temperature gradients greatly influence the running stresses inside the machine and therefore affecting its life. The objective of this work is to generate a comple… Show more

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Cited by 11 publications
(4 citation statements)
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“…The results from the test cases showed a consistent agreement with the data from Johnson et al (Johnson, et al, 2006). The above authors also showed that despite the unstable and evolutionary nature of the complicated flow pattern, the free convection correlations for a vertical flat plate with constant temperature gives an encouraging prediction for the global Nusselt number values for the buoyancy-induced flow (Dweik, et al, 2009a). Atkins and Kanjirakkad (Atkins & Kanjirakkad, 2014) conducted measurements in the same multiple cavity rig as (Alexiou, 2000;Long, et al, 2007) but this time with a stationary shaft and the direction of flow through the rig reversed compared to the previous builds.…”
Section: Introductionsupporting
confidence: 83%
“…The results from the test cases showed a consistent agreement with the data from Johnson et al (Johnson, et al, 2006). The above authors also showed that despite the unstable and evolutionary nature of the complicated flow pattern, the free convection correlations for a vertical flat plate with constant temperature gives an encouraging prediction for the global Nusselt number values for the buoyancy-induced flow (Dweik, et al, 2009a). Atkins and Kanjirakkad (Atkins & Kanjirakkad, 2014) conducted measurements in the same multiple cavity rig as (Alexiou, 2000;Long, et al, 2007) but this time with a stationary shaft and the direction of flow through the rig reversed compared to the previous builds.…”
Section: Introductionsupporting
confidence: 83%
“…The results from the test cases showed a consistent agreement with the data from Johnson et al (2006). The above authors also showed that despite the unstable and evolutionary nature of the complicated flow pattern, the free convection correlations for a vertical flat plate with constant temperature gives an encouraging prediction for the global Nusselt number values for the buoyancy-induced flow (Dweik et al, 2009a). Atkins and Kanjirakkad (2014) conducted measurements in the same multiple cavity rig as (Alexiou, 2000;Long et al, 2007) but this time with a stationary shaft and the direction of flow through the rig reversed compared to the previous builds.…”
Section: Introductionsupporting
confidence: 73%
“…All of these are relevant for rotating cavity flows. It is therefore confusing that many simulations that have been conducted with URANS [10,[23][24][25][26] have provided reasonable predictions of the disk heat flux.…”
Section: Computational Investigationsmentioning
confidence: 99%