Velocity Statistics of a Fully Pulsed Round Jet in Streamwise Direction
| Periodical | Applied Mechanics and Materials (Volume 534) |
|---|---|
| Main Theme | Advances in Kinematics, Mechanics of Rigid Bodies, and Materials Sciences |
| Chapter | Chapter 2: Applied Mechanics and Engineering |
| Edited by | Ford Lumban Gaol, Marcus P. Rutner, Mehdi Setareh and Keshav Narain Shrivastava |
| Pages | 117-123 |
| DOI | 10.4028/www.scientific.net/AMM.534.117 |
| Citation | Hariyo P.S. Pratomo et al., 2014, Applied Mechanics and Materials, 534, 117 |
| Online since | February, 2014 |
| Authors | Hariyo P.S. Pratomo, Klaus Bremhorst |
| Keywords | Hot-Wire Anemometer, Pulsed Jet, Reynolds Number, Strouhal Number |
| Price | US$ 28,- |
| Share |
In this paper, statistical quantities of a fully pulsed round jet along the jet centerline are reported. A range of the Reynolds (1.5 x 104 < Re < 4 x 104) and Strouhal (0.0064 < St < 0.0076) numbers is used to generate the jet. Physically this unsteady jet produces a series of distinct pulses due to the excitations. The mechanically excitations lead to the appearance of pulse dominated and high turbulence steady jet region in which their existence is of a strong dependence on the level of the controlled parameters. After the pulse merging completes the pulsed jet alters to a self-preserving steady jet with a significantly higher turbulence intensity. Under a constant mass flow rate the pulsed jet tends to be more fluctuating at a less intense pulsation thus permitting the endurance of the normalized periodic component and a more rapid velocity decay in the pulse-dominated region.
No comments in this document.