Title of article
Nucleate pool boiling, film boiling and single-phase free convection at pressures up to the critical state. Part I: Integral heat transfer for horizontal copper cylinders
Author/Authors
Gorenflo، نويسنده , , Dieter and Baumhِgger، نويسنده , , Elmar and Windmann، نويسنده , , Thorsten and Herres، نويسنده , , Gerhard، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2010
Pages
22
From page
1229
To page
1250
Abstract
Transcritical working cycles for refrigerants have led to increased interest in heat transfer near the Critical State. In general, experimental results for this region differ significantly from those far from it because some fluid properties vary much more there than at a greater distance. In this paper, measurements for two-phase and single-phase free convective heat transfer from an electrically heated copper tube with 25 mm O.D. to refrigerant R125 are discussed for fluid states very close to the Critical Point and far from it. It is shown that heat transfer for film boiling slightly below and for free convection slightly above the critical pressure is very similar. The new – and also previous – experimental data for nucleate boiling, film boiling, and single-phase free convection are compared with calculated results between atmospheric and critical pressure. It can be concluded that the Principle of Corresponding States in its simplest form is very well suited to transfer the results to other refrigerants.
t II, particular attention will be given to a minimum superheat for nucleate boiling and a maximum superheat for film boiling and single-phase free convection within the circumferential variation of the isobaric wall superheat on the lower parts of the tube.
Keywords
ةbullition pelliculaire , Flux critique , Convection libre , ةtat critique , heat transfer , Nucleate boiling , Critical heat flux , Free convection , film boiling , Critical state , ةbullition libre nucléée , Transfert de chaleur
Journal title
International Journal of Refrigeration
Serial Year
2010
Journal title
International Journal of Refrigeration
Record number
1342595
Link To Document