Hot-wire spatial-resolution effects are investigated in a round jet, using custom-made probes with Platinum wires of 5 and 2.5 μmof diameter. Characteristic turbulent scales are varied by both moving the probes along the jet centerline (10 < x/D < 30), and using two different nozzle diameters at a constant Reynolds number of ReD = 7 × 104. The variance of spatial derivatives shows an attenuation of one order of magnitude greater than the velocity variance, i.e. 10-30% compared to 1-2%. Power spectra show this attenuation to be located at high frequencies, in agreement with the hypothesis of spatial-filtering effect.
Experimental study on hot-wire spatial resolution in turbulent round jet / Fiorini, Tommaso; Bellani, Gabriele; Cimarelli, Andrea; Talamelli, Alessandro. - ELETTRONICO. - 165:(2016), pp. 249-252. (Intervento presentato al convegno 6th International Conference on Progress in Turbulence, iTi 2014 tenutosi a Bertinoro (FC) nel 2014) [10.1007/978-3-319-29130-7_43].
Experimental study on hot-wire spatial resolution in turbulent round jet
FIORINI, TOMMASO;BELLANI, GABRIELE;CIMARELLI, ANDREA;TALAMELLI, ALESSANDRO
2016
Abstract
Hot-wire spatial-resolution effects are investigated in a round jet, using custom-made probes with Platinum wires of 5 and 2.5 μmof diameter. Characteristic turbulent scales are varied by both moving the probes along the jet centerline (10 < x/D < 30), and using two different nozzle diameters at a constant Reynolds number of ReD = 7 × 104. The variance of spatial derivatives shows an attenuation of one order of magnitude greater than the velocity variance, i.e. 10-30% compared to 1-2%. Power spectra show this attenuation to be located at high frequencies, in agreement with the hypothesis of spatial-filtering effect.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
