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W2971300080 endingPage "100566" @default.
W2971300080 startingPage "100566" @default.
W2971300080 abstract "The helicopter group at the DLR in Göttingen has been actively involved in the development of measurement techniques for unsteady flows, particularly as they apply to the problems found in unsteady rotor blade aerodynamics. This includes the development and validation of new techniques for the detection of dynamically moving boundary layer transition, and for the detection of dynamic stall and other transient flow separation events. These new techniques include pressure sensor analysis, differential infrared thermography, local infrared thermography and the automated analysis of hot-film data. Particle image velocimetry (PIV) and background oriented schlieren (BOS) have been used for the analysis of the unsteady off-body flow, and synchronised PIV-BOS-pressure measurements have allowed direct comparisons between different methods. The Lagrangian volumetric PIV variant, shake-the-box, has been used to analyse secondary vortex structures in the vortex wake. This review article will give an overview of the advances in that group, as well as placing their activities in the context of international advances in these areas." @default.
W2971300080 created "2019-09-05" @default.
W2971300080 creator A5000429679 @default.
W2971300080 creator A5020909836 @default.
W2971300080 creator A5034780032 @default.
W2971300080 date "2019-11-01" @default.
W2971300080 modified "2023-10-11" @default.
W2971300080 title "Review of measurement techniques for unsteady helicopter rotor flows" @default.
W2971300080 cites W13598803 @default.
W2971300080 cites W1483895918 @default.
W2971300080 cites W1535159965 @default.
W2971300080 cites W1836204063 @default.
W2971300080 cites W1926884169 @default.
W2971300080 cites W1965039763 @default.
W2971300080 cites W1966032753 @default.
W2971300080 cites W1966394283 @default.
W2971300080 cites W1969076035 @default.
W2971300080 cites W1970866078 @default.
W2971300080 cites W1972957254 @default.
W2971300080 cites W1973408742 @default.
W2971300080 cites W1974143458 @default.
W2971300080 cites W1977660500 @default.
W2971300080 cites W1982781716 @default.
W2971300080 cites W1985821535 @default.
W2971300080 cites W1990664622 @default.
W2971300080 cites W1994279205 @default.
W2971300080 cites W1995879406 @default.
W2971300080 cites W2003163535 @default.
W2971300080 cites W2005405072 @default.
W2971300080 cites W2006424363 @default.
W2971300080 cites W2008492784 @default.
W2971300080 cites W2008895429 @default.
W2971300080 cites W2017163246 @default.
W2971300080 cites W2018725334 @default.
W2971300080 cites W2023676426 @default.
W2971300080 cites W2027887996 @default.
W2971300080 cites W2028926933 @default.
W2971300080 cites W2033781024 @default.
W2971300080 cites W2040356953 @default.
W2971300080 cites W2042823894 @default.
W2971300080 cites W2044597847 @default.
W2971300080 cites W2045831592 @default.
W2971300080 cites W2049554941 @default.
W2971300080 cites W2063594880 @default.
W2971300080 cites W2068563417 @default.
W2971300080 cites W2073600294 @default.
W2971300080 cites W2081051321 @default.
W2971300080 cites W2081057354 @default.
W2971300080 cites W2083360285 @default.
W2971300080 cites W2084276461 @default.
W2971300080 cites W2087648243 @default.
W2971300080 cites W2099326869 @default.
W2971300080 cites W2105885184 @default.
W2971300080 cites W2120866438 @default.
W2971300080 cites W2125859104 @default.
W2971300080 cites W2130771197 @default.
W2971300080 cites W2134152203 @default.
W2971300080 cites W2155085208 @default.
W2971300080 cites W2157769871 @default.
W2971300080 cites W2170068067 @default.
W2971300080 cites W2288199949 @default.
W2971300080 cites W2343447907 @default.
W2971300080 cites W2389517311 @default.
W2971300080 cites W2412927610 @default.
W2971300080 cites W2511815091 @default.
W2971300080 cites W2517324375 @default.
W2971300080 cites W2547438920 @default.
W2971300080 cites W2564087592 @default.
W2971300080 cites W2570042646 @default.
W2971300080 cites W2583106930 @default.
W2971300080 cites W2584312734 @default.
W2971300080 cites W2584442887 @default.
W2971300080 cites W2584709762 @default.
W2971300080 cites W2586229604 @default.
W2971300080 cites W2588362662 @default.
W2971300080 cites W2604179879 @default.
W2971300080 cites W2620605215 @default.
W2971300080 cites W2621393919 @default.
W2971300080 cites W2749119787 @default.
W2971300080 cites W2749863922 @default.
W2971300080 cites W2754294619 @default.
W2971300080 cites W2760083059 @default.
W2971300080 cites W2775123798 @default.
W2971300080 cites W2775275846 @default.
W2971300080 cites W2790108369 @default.
W2971300080 cites W2793464487 @default.
W2971300080 cites W2802198050 @default.
W2971300080 cites W2807042892 @default.
W2971300080 cites W2810539443 @default.
W2971300080 cites W2810717184 @default.
W2971300080 cites W2890830220 @default.
W2971300080 cites W2905552255 @default.
W2971300080 cites W2907048386 @default.
W2971300080 cites W2946369256 @default.
W2971300080 cites W3163336876 @default.
W2971300080 cites W4234582211 @default.
W2971300080 cites W4302406231 @default.
W2971300080 doi "https://doi.org/10.1016/j.paerosci.2019.100566" @default.