Assessment and application of quantitative schlieren methods: Calibrated color schlieren and background oriented schlieren
Autor: | Fulvio Scarano, Gerrit E. Elsinga, David W. Watt, B. W. van Oudheusden |
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Rok vydání: | 2003 |
Předmět: |
Fluid Flow and Transfer Processes
Physics Prandtl–Meyer expansion fan Density gradient business.industry Computational Mechanics General Physics and Astronomy Synthetic schlieren Noise (electronics) Physics::Fluid Dynamics Optics Mechanics of Materials Schlieren Calibration business Image resolution Wind tunnel |
Zdroj: | Experiments in Fluids. 36:309-325 |
ISSN: | 1432-1114 0723-4864 |
DOI: | 10.1007/s00348-003-0724-8 |
Popis: | Two quantitative schlieren methods are assessed and compared: calibrated color schlieren (CCS) and back- ground oriented schlieren (BOS). Both methods are capable of measuring the light deflection angle in two spatial directions, and hence the projected density gradient vector field. Spatial integration using the conjugate gradient method returns the projected density field. To assess the performance of CCS and BOS, density measurements of a two-dimensional benchmark flow (a Prandtl-Meyer expansion fan) are compared with the theoretical density field and with the density inferred from PIV velocity measurements. The methods performance is also evaluated a priori from an experiment ray-tracing simu- lation. The density measurements show good agreement with theory. Moreover, CCS and BOS return comparable results with respect to each other and with respect to the PIV measurements. BOS proves to be very sensitive to displacements of the wind tunnel during the experiment and requires a correction for it, making it necessary to apply extra boundary conditions in the integration procedure. Furthermore, spatial resolution can be a limiting factor for accurate measurements using BOS. CCS suffers from relatively high noise in the density gradient measurement due to camera noise and has a smaller dynamic range when compared to BOS. Finally the application of the two schlieren methods to a separated wake flow is demonstrated. Flow features such as shear layers and expansion and recompression waves are measured with both methods. 1 |
Databáze: | OpenAIRE |
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