Volume 3: Heat Transfer, Parts a and B 2009
DOI: 10.1115/gt2009-59969
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Computational Study of the Unsteady Flow Structure of the Buoyancy-Driven Rotating Cavity With Axial Throughflow of Cooling Air

Abstract: Buoyancy driven flows such as the one that occurs in the inter-disk space of an axial compressor spool plays a major role in determining the gas turbine engine projected life and performance. Details of the developed flow structure inside these spaces largely impact the operating temperatures on the rotating walls of the compressor hardware and therefore impact the life of the machine. In this paper the impact of engine power condition (Idle, Highpower, and Shutdown) on the flow structure for these rotating ca… Show more

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Cited by 8 publications
(8 citation statements)
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“…The method of Dweik et al [18] was used to create 25 points in the first 2 mm normal to the surface with the first point located 0.005 mm from the walls. A logarithmic bunching algorithm is then used in order to reach a high resolution boundary layer with y + < 1 on the cavity walls and shroud region.…”
Section: Numerical Setupmentioning
confidence: 99%
“…The method of Dweik et al [18] was used to create 25 points in the first 2 mm normal to the surface with the first point located 0.005 mm from the walls. A logarithmic bunching algorithm is then used in order to reach a high resolution boundary layer with y + < 1 on the cavity walls and shroud region.…”
Section: Numerical Setupmentioning
confidence: 99%
“…Each cavity domain includes around 9 million nodes. In order to have a high resolution within the boundary layers the method employed by Dweik et al (Dweik, et al, 2009b) is used to create 25 points in the first 2 mm normal to the wall with the first point located 0.005 mm away from the walls. A logarithmic bunching algorithm with a growth ratio of 1.1 is then used to reach a high resolution boundary layer resulting in a y + <1 on the cavity walls and shroud region.…”
Section: Numerical Set Upmentioning
confidence: 99%
“…The meridional view of the computational domain within a cavity is shown in Figure 6. The turbulence model used was the − SST model that combines both − and − models and benefits from automatic near wall treatment that switches to low-Reynolds number formulation in the viscous sub-layer (Dweik, et al, 2009b). The converged steady-state results were used to kick-start the transient simulations presented in this paper.…”
Section: Numerical Set Upmentioning
confidence: 99%
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“…Buoyancy parameter βΔT ¼ (T sh À T in )=T in spectrum obtained (Figure 2) from tangential velocity data for mid-plane of cavity 3 at radial location of r/b ≈ 0.765 showed the evidence of the dominant frequency at approximately twice that of the rotational speed of the flow implying the presence of two vortex pairs around that specific location. Dweik et al (2009b) conducted a total of fifteen unsteady computational case studies for an open rotating cavity for idle, high-power and shutdown conditions. The test rig conditions in Owen and Powell (2004) was imitated to develop a numerical test case.…”
Section: Introductionmentioning
confidence: 99%