Experimental and Numerical Investigations of Wake Passing Effects upon Aerodynamic Performance of a LP Turbine Linear Cascade With Variable Solidity

This paper deals with experimental and numerical studies on the flow field around a low-pressure linear turbine cascade whose solidity is changeable. The purpose of them is to clarify the effect of incoming wakes upon the aerodynamic loss of the cascade that is accompanied with separation on the airfoil suction surface, in particular for low Reynolds number conditions and/or low solidity conditions. Cylindrical bars on the timing belts work as wake generator to emulate wakes that impact the cascade. Pneumatic probe measurement is made to obtain total pressure loss distributions downstream of the cascade. Hot-wire probe measurement is also conducted over the airfoil suction surface. Besides, LES-based numerical simulation is executed to deepen the understanding of the interaction of the incoming wakes with the boundary layer containing separation bubble.

[1]  Howard P. Hodson,et al.  An Investigation of Boundary Layer Development in a Multistage LP Turbine , 1994 .

[2]  Howard P. Hodson,et al.  The Transition Mechanism of Highly-Loaded LP Turbine Blades , 2003 .

[3]  J. Fröhlich,et al.  Large-Eddy Simulation of Flow Around Low-Pressure Turbine Blade with Incoming Wakes , 2003 .

[4]  H. Hodson,et al.  On the Interpretation of Measured Profile Losses in Unsteady Wake-Turbine Blade Interaction Studies , 1996 .

[5]  Heinz-Peter Schiffer,et al.  The Application of Ultra High Lift Blading in the BR715 LP Turbine , 2001 .

[6]  S. J. Kline,et al.  Describing Uncertainties in Single-Sample Experiments , 1953 .

[7]  Howard P. Hodson,et al.  An Investigation of Boundary Layer Development in a Multistage LP Turbine , 1993 .

[8]  P. Durbin,et al.  DNS OF FULLY TURBULENT FLOW IN A LPT PASSAGE , 2003 .

[9]  J. Wissink DNS OF SEPARATING, LOW REYNOLDS NUMBER FLOW IN A TURBINE CASCADE WITH INCOMING WAKES , 2003 .

[10]  Leonhard Fottner,et al.  Numerical Investigation of the Wake-Boundary Layer Interaction on a Highly Loaded LP Turbine Cascade Blade , 2002 .

[11]  Howard P. Hodson,et al.  Boundary Layer Development in the BR710 and BR715 LP Turbines—The Implementation of High-Lift and Ultra-High-Lift Concepts , 2002 .

[12]  Y. B. Suzen,et al.  Numerical Simulation of Unsteady Wake/Blade Interactions in Low-Pressure Turbine Flows Using an Intermittency Transport Equation , 2005 .

[13]  Howard P. Hodson,et al.  Boundary Layer Development in Axial Compressors and Turbines: Part 3 of 4 — LP Turbines , 1995 .

[14]  H. Hodson,et al.  The Effect of Wake Passing on a Flow Separation in a Low-Pressure Turbine Cascade , 2004 .

[15]  H. Hodson,et al.  Prediction of the Becalmed Region for LP Turbine Profile Design , 1997 .

[16]  Peter R. Voke,et al.  Large-Eddy Simulation of Unsteady Surface Pressure Over a LP Turbine Blade Due to Interactions of Passing Wakes and Inflexional Boundary Layer , 2005 .