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Turbulent liquid metal flow in rectangular shaped contraction nozzles for target applications.

Authors :
Gordeev, S.
Stoppel, L.
Stieglitz, R.
Source :
International Journal of Computational Fluid Dynamics. Jul2009, Vol. 23 Issue 6, p477-493. 17p. 4 Diagrams, 12 Graphs.
Publication Year :
2009

Abstract

Owing to the high beam power densities envisaged in advanced nuclear targets, liquid metal-operated free surface targets are conceived as one feasible option. There, the free surface is formed by an adequately shaped upstream located nozzle. Target boundary conditions necessitate a detailed knowledge on the turbulent flow in contraction nozzles in order to identify turbulence models accurately predicting experimental findings within the velocity range of interest for nuclear target and hence can then act as design optimisation tools. In this context, a combined experimental and numerical study is conducted on the basis of the turbulent flow in the contraction nozzle of the Super-FRS target. Two aspects determining the turbulent flow in the nozzle have been investigated. The first is a potential relaminarisation of the boundary layer caused by the acceleration within the contraction and the second is a development of the secondary flows due to the pressure gradient in the rectangular shaped ducts cross-section. Regarding the three different turbulence models investigated here only the V2F model exhibited the capability to predict the relaminarisation of the turbulent boundary layer both qualitatively and quantitatively. All turbulence models are able to predict the development of secondary flows induced by pressure gradients in transverse direction with an acceptable accuracy. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
10618562
Volume :
23
Issue :
6
Database :
Academic Search Index
Journal :
International Journal of Computational Fluid Dynamics
Publication Type :
Academic Journal
Accession number :
43388984
Full Text :
https://doi.org/10.1080/10618560903048995