Investigation of stationary-crossflow-instability induced transition with the temperature-sensitive paint method

Autor:	Christian Klein, Markus J. Kloker, Marco Costantini, Jonathan Lemarechal, W. Würz, Holger B. E. Kurz, Sven Schaber, Thomas Streit
Jazyk:	angličtina
Rok vydání:	2019
Předmět:	Airfoil Leading edge Materials science General Chemical Engineering temperature-sensitive paint method Aerospace Engineering transition delay 02 engineering and technology Surface finish 01 natural sciences Instability 010305 fluids & plasmas Physics::Fluid Dynamics 020401 chemical engineering Parasitic drag 0103 physical sciences Experimentelle Verfahren GO swept-wing wind-tunnel modeldesign Wavenumber upstream flow deformation Transportflugzeuge 0204 chemical engineering Fluid Flow and Transfer Processes UFD discreteroughness elements Turbulence laminar-turbulent transition Mechanical Engineering stationary crossflow instability Mechanics DRE TSP Vortex Nuclear Energy and Engineering
Popis:	The Temperature-Sensitive Paint (TSP) method is used for surface-based flow visualizations on a swept-wing wind-tunnel model with a generic natural laminar-flow airfoil. Within the investigated parameter range the stationary crossflow instability is the dominating instability mechanism. Based on the TSP results the location of the laminar-turbulent transition and the most amplified wavenumber of the stationary crossflow instability are determined. The test is performed with three different conditions of the leading-edge surface: highly polished, unpolished, and highly polished with discrete roughness elements applied. The Temperature-Sensitive Paint method has proven to have sufficient spatial resolution and temperature sensitivity to resolve skin friction variations to detect the footprint of stationary crossflow vortices even inside of turbulent wedges. With the discrete roughness elements, i.e. cylindrical elements with micron-sized height, the transition could be delayed successfully for certain conditions. Local low-frequency movement of the beginning of turbulent wedges was detected for some data points with an unpolished leading edge.
Databáze:	OpenAIRE
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