论文信息 - Development of the critical film thickness correlation for an advanced annular film mechanistic dryout model applicable to MARS code

Development of the critical film thickness correlation for an advanced annular film mechanistic dryout model applicable to MARS code

It is generally assumed in the mechanistic film dryout model that the critical heat flux (CHF) arises when liquid film calculated from evaporation, droplet entrainment and deposition gets dryout. The dryout of film is usually assumed when film thickness becomes zero. However, it was indicated that the complete dryout assumption can estimate CHF well for uniform heating case but cannot simulate accurately for non-uniform heating case. The critical film thickness concept may be an appropriate approach physically because there is a possibility of instantaneous disappearance of liquid film when it gets very thin. Therefore, a critical dryout film thickness correlation was developed to properly model dryout phenomenon together with MARS code based on experimental data. The modified version of MARS implementing a newly developed critical dryout film thickness correlation was assessed using various dryout data including those of non-uniform heating case and flow reduction transient test. The prediction results showed improved agreement with the experimental data.

[1] H. Barrow,et al. The similarity hypothesis applied to turbulent flow in an annulus , 1965 .

[2] B. I. Nigmatulin,et al. Burnout and distribution of liquid in evaporative channels of various lengths , 1989 .

[3] M. R. Bottaccini,et al. Convective Boiling and Condensation (2nd ed.) , 1982 .

[4] E. Janssen,et al. BURNOUT CONDITIONS FOR SINGLE ROD IN ANNULAR GEOMETRY, WATER AT 600 TO 1400 PSIA , 1963 .

[5] B. J. Azzopardi. Prediction of dryout and post-burnout heat transfer with axially non-uniform heat input by means of an annular flow model , 1996 .

[6] K. Becker,et al. BURNOUT DATA FOR FLOW OF BOILING WATER IN VERTICAL ROUND DUCTS, ANNULI AND ROD CLUSTERS , 1965 .

[7] A. D. Young,et al. An Introduction to Fluid Mechanics , 1968 .

[8] L. S. Tong,et al. Thermal analysis of pressurized water reactors , 1979 .

[9] Tatsuhiro Ueda,et al. Critical heat flux and exit film flow rate in a flow boiling system , 1981 .

[10] Bub Dong Chung,et al. Development of a multi-dimensional thermal-hydraulic system code, MARS 1.3.1 , 1999 .