Results from the first experimental campaign in the Long Pipe facility of the CICLoPE laboratory are reported. Single hot-wire profile measurements are presented, taken from the wall up to one third of the pipe radius, with the friction Reynolds number ReÏ ranging from 6.5 Ã 103 up to 3.8 Ã 104 . Measurements of the pressure drop along the pipe are presented together with an estimation of its uncertainty. Mean and variance of the streamwise velocity fluctuations are examined and compared with the findings from other facilities. The amplitude of the inner-scaled near-wall peak of the variance, after being corrected for spatial resolution effects, shows an increasing trend with Reynolds number, in accordance with low Reynolds number experiments and simulations.
Fiorini, T., Bellani, G., Örlü, R., Segalini, A., Alfredsson, P.H., Talamelli, A. (2017). Turbulent pipe flow near-wall statistics. Springer Science and Business Media, LLC [10.1007/978-3-319-57934-4_13].
Turbulent pipe flow near-wall statistics
Bellani, Gabriele;Talamelli, Alessandro
2017
Abstract
Results from the first experimental campaign in the Long Pipe facility of the CICLoPE laboratory are reported. Single hot-wire profile measurements are presented, taken from the wall up to one third of the pipe radius, with the friction Reynolds number ReÏ ranging from 6.5 Ã 103 up to 3.8 Ã 104 . Measurements of the pressure drop along the pipe are presented together with an estimation of its uncertainty. Mean and variance of the streamwise velocity fluctuations are examined and compared with the findings from other facilities. The amplitude of the inner-scaled near-wall peak of the variance, after being corrected for spatial resolution effects, shows an increasing trend with Reynolds number, in accordance with low Reynolds number experiments and simulations.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
