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Simulation of the flow in a ribbed rotating duct with a hybrid k-ω RANS/LES model

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Abstract
Unsteady three-dimensional flow in a ribbed duct subjected to system rotation is simulated with a hybrid k-ω RANS/LES model. The Reynolds number is 15,000 and the rotation number is 0.3, both based on hydraulic diameter and bulk velocity. Simulation results in the mid-span section are compared with experimental data. The comparison is complemented by analysis of the flow features in cross-sections. It is demonstrated that the hybrid k-ω RANS/LES model produces an accurate simulation of the rotating ribbed duct flow.
Keywords
CENTRIFUGAL BUOYANCY, HEAT-TRANSFER, COOLING CHANNEL, IMPINGING JETS, DETACHED-EDDY SIMULATION, Hybrid RANS/LES turbulence model, System rotation, Coriolis force, Rib-roughened duct, CORIOLIS, FORCES

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MLA
Kubacki, Slawomir, Jacek Rokicki, and Erik Dick. “Simulation of the Flow in a Ribbed Rotating Duct with a Hybrid K-ω RANS/LES Model.” FLOW TURBULENCE AND COMBUSTION 97.1 (2016): 45–78. Print.
APA
Kubacki, Slawomir, Rokicki, J., & Dick, E. (2016). Simulation of the flow in a ribbed rotating duct with a hybrid k-ω RANS/LES model. FLOW TURBULENCE AND COMBUSTION, 97(1), 45–78.
Chicago author-date
Kubacki, Slawomir, Jacek Rokicki, and Erik Dick. 2016. “Simulation of the Flow in a Ribbed Rotating Duct with a Hybrid K-ω RANS/LES Model.” Flow Turbulence and Combustion 97 (1): 45–78.
Chicago author-date (all authors)
Kubacki, Slawomir, Jacek Rokicki, and Erik Dick. 2016. “Simulation of the Flow in a Ribbed Rotating Duct with a Hybrid K-ω RANS/LES Model.” Flow Turbulence and Combustion 97 (1): 45–78.
Vancouver
1.
Kubacki S, Rokicki J, Dick E. Simulation of the flow in a ribbed rotating duct with a hybrid k-ω RANS/LES model. FLOW TURBULENCE AND COMBUSTION. Springer; 2016;97(1):45–78.
IEEE
[1]
S. Kubacki, J. Rokicki, and E. Dick, “Simulation of the flow in a ribbed rotating duct with a hybrid k-ω RANS/LES model,” FLOW TURBULENCE AND COMBUSTION, vol. 97, no. 1, pp. 45–78, 2016.
@article{7247144,
  abstract     = {Unsteady three-dimensional flow in a ribbed duct subjected to system rotation is simulated with a hybrid k-ω RANS/LES model. The Reynolds number is 15,000 and the rotation number is 0.3, both based on hydraulic diameter and bulk velocity. Simulation results in the mid-span section are compared with experimental data. The comparison is complemented by analysis of the flow features in cross-sections. It is demonstrated that the hybrid k-ω RANS/LES model produces an accurate simulation of the rotating ribbed duct flow.},
  author       = {Kubacki, Slawomir and Rokicki, Jacek and Dick, Erik},
  issn         = {1386-6184},
  journal      = {FLOW TURBULENCE AND COMBUSTION},
  keywords     = {CENTRIFUGAL BUOYANCY,HEAT-TRANSFER,COOLING CHANNEL,IMPINGING JETS,DETACHED-EDDY SIMULATION,Hybrid RANS/LES turbulence model,System rotation,Coriolis force,Rib-roughened duct,CORIOLIS,FORCES},
  language     = {eng},
  number       = {1},
  pages        = {45--78},
  publisher    = {Springer},
  title        = {Simulation of the flow in a ribbed rotating duct with a hybrid k-ω RANS/LES model},
  url          = {http://dx.doi.org/10.1007/s10494-015-9682-5},
  volume       = {97},
  year         = {2016},
}

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