Title of article
Visualization in cryogenic environment: Application to two-phase studies Original Research Article
Author/Authors
Bernard Rousset، نويسنده , , Denis Chatain، نويسنده , , Laurent Puech، نويسنده , , Pierre Thibault، نويسنده , , François Viargues، نويسنده , , Pierre-Etienne Wolf، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2009
Pages
11
From page
554
To page
564
Abstract
This paper reviews recent technical developments devoted to the study of cryogenic two-phase fluids. These techniques span from simple flow visualization to quantitative measurements of light scattering. It is shown that simple flow pattern configurations are obtained using classical optical tools (CCD cameras, endoscopes), even in most severe environments (high vacuum, high magnetic field). Quantitative measurements include laser velocimetry, particle sizing, and light scattering analysis. In the case of magnetically compensated gravity boiling oxygen, optical access is used to control the poistioning of a bubble subject to buoyancy forces in an experimental cell. Flow visualization on a two-phase superfluid helium pipe-flow, performed as a support of LHC cooldown studies, leads to flow pattern characterization. Visualization includes stratified and atomized flows. Thanks to the low refractive index contrast between the liquid and its vapor, quantitative results on droplet densities can be obtained even in a multiple scattering regime.
Keywords
Magnetic levitation , Two-phase flow , Flow visualization , Optical techniques , Superfluid helium (He II)
Journal title
Cryogenics
Serial Year
2009
Journal title
Cryogenics
Record number
1172971
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