| Hauptseite > Superconducting instrumentation for high Reynolds turbulence experiments with low temperature gaseous helium |
| Published Articles | |
| Title | Superconducting instrumentation for high Reynolds turbulence experiments with low temperature gaseous helium |
| Related title | Superconducting instrumentation for high Reynolds turbulence experiments with low temperature gaseous helium |
| Author(s) | Pietropinto, S (Grenoble, CRTBT) ; Poulain, C (LEGI, Grenoble) ; Baudet, C (LEGI, Grenoble) ; Castaing, B (Lyon, Ecole Normale Superieure) ; Chabaud, B (Grenoble, CRTBT) ; Gagne, Y (LEGI, Grenoble) ; Hébral, B (Grenoble, CRTBT) ; Ladam, Y (Lyon, Ecole Normale Superieure) ; Lebrun, P (CERN) ; Pirotte, O (CERN) ; Roche, P (Grenoble, CRTBT) |
| Publication | 2003 |
| Number of pages | 5 |
| In: | Physica C 386 (2003) 512-516 |
| DOI | 10.1016/S0921-4534(02)02115-9 |
| Subject category | Detectors and Experimental Techniques |
| Abstract | Turbulence is of common experience and of high interest for industrial applications, despite its physical grounds is still not understood. Cryogenic gaseous helium gives access to extremely high Reynolds numbers (Re). We describe an instrumentation hosted in CERN, which provides a 6 kW @ 4.5 K helium refrigerator directly connected to the experiment. The flow is a round jet; the flow rates range from 20 g/s up to 260 g/s at 4.8 K and about 1.2 bar, giving access to the highest controlled Re flow ever developed. The experimental challenge lies in the range of scales which have to be investigated: from the smallest viscous scale η, typically 1 μm at Re=107 to the largest L∼10 cm. The corresponding frequencies: f=v/η can be as large as 1 MHz. The development of an original micrometric superconducting anemometer using a hot spot and its characteristics will be discussed together with its operation and the perspectives associated with superconducting anemometry. |