References
Hummel D., The Second International Vortex Flow Experiment (VFE -2) — Objectives and First Results, Proceedings of the 2nd International Symposium on Integrating CFD and Experiments in Aerodynamics, Cranfield University (Shrivcnham), UK, (2005), 1-12.
Käpernick, K, Koop, L. and Ehrenfried, K, Investigation of the unsteady flow field inside aleading edge slat cove, Proceedings of the 11th AIAAJCEAS Aeroacoustics Conference (Monterey, California, USA), (2005), 1–16.
Kompenhans, J. Agocs, J., Egami, Y., Engler, R., Fey, U., Frahnert, H., de Groot, K, Henne, U., Kirmse, T., Klein, C., Klinge, F., Konrath, R., Koop, L., Mattner, H., Otter, D., Pallek, D., Sachs, W., Schröder, A. and Stasicki, B., Recent developments of image based measurement methods for application to transonic flows in industrial wind tunnels, Chiese Journal of Aeronautics, 19 (2006a), 115–125.
Kompenhans, J. et al., Website of Department of Experimental Methods, Institute of Aerodynamics and Flow Technology, German Aero spacecenter, (2006b), httpr/www.dlr.de/as.
Konrath, R., Klein, C., Schröder, A. and Kompenhans, J., Combined application of Pressure Sensitive Paint and Particle Image Velecirnetry to the flow above adeltawing, Proceedings of. 12t h International Symposium on Flow Visualization, (Cottingcn, Germany ), (2006), ISFV12-67.2., ISBN 0. 9533991-8-4.
Author information
Authors and Affiliations
Additional information
Jürgen Kompenhans : He received his doctor’s degree in physics in 1977 from the Georg-August University of Göttingen. Since 30 years he is working for DLR in Göttingen, Germany, mainly developing and applying non-intrusive measurement techniques for aerodynamic research. At present he is head of the Department of Experimental Methods of DLR’s Instie of Aerodynamics and Flow Technology. Within this department image based methods such as Pressure Sen sitive Paint, Temperature Sensitive Paint, Particle Image Velocimetry, model deformation measurement techniques, density mesurement techniques, acoustic field measurement techniques etc. are developed for application as mobile systems in large industrial wind tunnels.
Rights and permissions
About this article
Cite this article
Kompenhans, J. Experimental methods for multi-diagnostics of flow fields in wind tunnels. J Vis 10, 25–28 (2007). https://doi.org/10.1007/BF03181798
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF03181798