Critical heat flux density in diphasic thermosyphons

Critical heat flux density in diphasic thermosyphons

The paper presents an analysis of known dependencies for determining the critical heat flux density in diphasic thermosyphons. The critical heat flux density for the created experimental model of thermosyphon were calculated on the basis of the theoretical contributions of 1) the occurrence of a “fl...

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Veröffentlicht in:MATEC web of conferences 2017-01, Vol.110, p.1064
Hauptverfasser: Ponomarev, Konstantin O., Orlova, Evgeniya G., Nurpeiis, Аtlant E.
Format: Artikel
Sprache:eng
Schlagworte:
Entrainment
Flooding
Flux density
Gas flow
Gravitation theory
Heat flux
Heat transfer
Interface stability
Surface tension
Thermosyphons
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Zusammenfassung:The paper presents an analysis of known dependencies for determining the critical heat flux density in diphasic thermosyphons. The critical heat flux density for the created experimental model of thermosyphon were calculated on the basis of the theoretical contributions of 1) the occurrence of a “flooding” regime in a thermosyphon characterized by a disturbance of the hydrodynamic stability of the phase interface and the entrainment of the liquid phase by the gas flow; 2) the mutual influence of gravitational forces and surface tension; 3) S.S. Kutateladze hydrodynamic theory of the heat transfer crisis during boiling. It is found that the existing theoretical contributions which can be used to calculate the critical heat flux density and subsequently determine the minimum filling ratio of a thermosyphon are conditionally applicable.
ISSN:2261-236X
2274-7214
2261-236X
DOI:10.1051/matecconf/201711001064