Structure of strongly underexpanded gas jets submerged in liquids – Application to the wastage of tubes by aggressive jets

•Underexpanded gas jets submerged in liquids behave similarly to homogeneous gas jets.•The counter rotating vortex pairs of jet produce discrete imprints on the targets.•The shape of hollows made on the targets is explained by the jet structure.•The erosion–corrosion phenomenon well explains the was...

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Veröffentlicht in:	Nuclear engineering and design 2014-07, Vol.273, p.119-130
Hauptverfasser:	Roger, Francis, Carreau, Jean-Louis, Gbahoué, Laurent, Hobbes, Philippe, Allou, Alexandre, Beauchamp, François
Format:	Artikel
Sprache:	eng
Schlagworte:	Energy density Gas jets Jets Kinetic energy Liquid sodium Nuclear reactor components Submerged Tubes
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container_title	Nuclear engineering and design
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creator	Roger, Francis Carreau, Jean-Louis Gbahoué, Laurent Hobbes, Philippe Allou, Alexandre Beauchamp, François
description	•Underexpanded gas jets submerged in liquids behave similarly to homogeneous gas jets.•The counter rotating vortex pairs of jet produce discrete imprints on the targets.•The shape of hollows made on the targets is explained by the jet structure.•The erosion–corrosion phenomenon well explains the wastage of exchange tubes. Strongly underexpanded gas jets submerged in a liquid at rest behave similarly to underexpanded homogeneous gas jets. The existence of the Taylor-Görtler vortices around the inner zone of the gas jets is demonstrated in free gas jets submerged in water by means of optical probe. In the near field, the same phenomenon produces discrete imprints, approximately distributed in a circle, when underexpanded nitrogen jet submerged in liquid sodium hydroxide and underexpanded water vapour jet submerged in liquid sodium impact onto AU4G-T4 and Incoloy 800® alloy targets respectively. For a jet-target couple, the volume of the hollow is satisfactorily related to the strain energy density of the material and the kinetic energy of the gas jet. However, the comparison between volumes of hollows produced by both jets also indicates strong corrosive action of the medium on targets. This allows better understanding of the mechanism of wastage of tubes employed in steam generators integrated in liquid metal fast breeder reactors.
doi_str_mv	10.1016/j.nucengdes.2014.01.025
format	Article
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Strongly underexpanded gas jets submerged in a liquid at rest behave similarly to underexpanded homogeneous gas jets. The existence of the Taylor-Görtler vortices around the inner zone of the gas jets is demonstrated in free gas jets submerged in water by means of optical probe. In the near field, the same phenomenon produces discrete imprints, approximately distributed in a circle, when underexpanded nitrogen jet submerged in liquid sodium hydroxide and underexpanded water vapour jet submerged in liquid sodium impact onto AU4G-T4 and Incoloy 800® alloy targets respectively. For a jet-target couple, the volume of the hollow is satisfactorily related to the strain energy density of the material and the kinetic energy of the gas jet. However, the comparison between volumes of hollows produced by both jets also indicates strong corrosive action of the medium on targets. 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source	Elsevier ScienceDirect Journals
subjects	Energy density Gas jets Jets Kinetic energy Liquid sodium Nuclear reactor components Submerged Tubes
title	Structure of strongly underexpanded gas jets submerged in liquids – Application to the wastage of tubes by aggressive jets
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