2017
DOI: 10.29008/etc2017-159
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LES of the LS89 cascade: influence of inflow turbulence on the flow predictions

Abstract: Free-stream turbulence preceding high-pressure turbine blades has a crucial impact on blade fields including the heat transfer on the wall. Many parameters characterize this turbulence; its intensity, length scales and physical spectrum are addressed in the study of various operating points of the LS89 configuration. Usually, operating points where weak turbulence is injected are well predicted for all fields by Direct Numerical Simulations (DNS) and Large Eddy Simulations (LES). The MUR235 operating point how… Show more

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Cited by 19 publications
(18 citation statements)
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“…Depending on the code and turbulence injection technique, very different turbulence intensities at the leading edge and turbulence decays are obtained. It is worth explaining at this time that the AVBP computations were run with two injection techniquessynthetic turbulence injection and use of a precursor simulation -and two inlet turbulence intensities -6 % and 18 % [28]. Note that the RANS result obtain with the elsA software, modeled turbulence injected and the transition modeling perfectly match the experiments.…”
Section: Figure 15 -Heat Transfer As a Function Of Curvilinear Abscismentioning
confidence: 85%
“…Depending on the code and turbulence injection technique, very different turbulence intensities at the leading edge and turbulence decays are obtained. It is worth explaining at this time that the AVBP computations were run with two injection techniquessynthetic turbulence injection and use of a precursor simulation -and two inlet turbulence intensities -6 % and 18 % [28]. Note that the RANS result obtain with the elsA software, modeled turbulence injected and the transition modeling perfectly match the experiments.…”
Section: Figure 15 -Heat Transfer As a Function Of Curvilinear Abscismentioning
confidence: 85%
“…Moreover, there is a high level of free-stream turbulence that undergoes stretching around the leading edge of the blade, which modifies the position of the boundary layer transition on the suction side. 46 In the original experiments, 16 an increase in heat transfer is observed on the suction side of the blade when a high turbulence intensity level at the inlet (∼ 6%) as well as a large Reynolds number at the outlet (> 1 · 10 6 ) are present. The simulations recover the shock wave that triggers an abrupt transition of the boundary layer, but turbulent spots may be found upstream of this position that can contribute to the overall heat transfer.…”
Section: Ls89 Case 441 Case Descriptionmentioning
confidence: 98%
“…Segui et al [124] compared the properties of inflow turbulence generated either by separate pre-cursor simulations, as used in a number of previous studies [6,50] and synthetic inflow turbulence considered by others (e.g. [101,103]) and found no significant difference in heat flux predictions using either method.…”
Section: High-pressure Turbinementioning
confidence: 99%