论文信息 - ASSERT-PV 3.2: Advanced subchannel thermalhydraulics code for CANDU fuel bundles

ASSERT-PV 3.2: Advanced subchannel thermalhydraulics code for CANDU fuel bundles

Abstract Atomic Energy of Canada Limited (AECL) has developed the subchannel thermalhydraulics code ASSERT-PV for the Canadian nuclear industry. The most recent release version, ASSERT-PV 3.2 has enhanced phenomenon models for improved predictions of flow distribution, dryout power and CHF location, and post-dryout (PDO) sheath temperature in horizontal CANDU fuel bundles. The focus of the improvements is mainly on modeling considerations for the unique features of CANDU bundles such as horizontal flows, small pitch to diameter ratios, high mass fluxes, and mixed and irregular subchannel geometries, compared to PWR/BWR fuel assemblies. This paper provides a general introduction to ASSERT-PV 3.2, and describes the model changes or additions in the new version to improve predictions of flow distribution, dryout power and CHF location, and PDO sheath temperatures in CANDU fuel bundles.

Y. F. Rao | Z. Cheng | G. M. Waddington | A. Nava-Dominguez

[1] Dvora Barnea,et al. A unified model for predicting flow-pattern transitions for the whole range of pipe inclinations , 1987 .

[2] B. N. Hanna,et al. CATHENA: A thermalhydraulic code for CANDU analysis , 1998 .

[3] K. Rehme,et al. The structure of turbulence in rod bundles and the implications on natural mixing between the subchannels , 1992 .

[4] Y. F. Rao,et al. Assessment of subchannel code ASSERT-PV for flow-distribution predictions , 2014 .

[5] W. Leech,et al. Heat-Transfer Augmentation in Rod Bundles Near Grid Spacers , 1982 .

[6] A. A. Amsden,et al. A numerical fluid dynamics calculation method for all flow speeds , 1971 .

[7] M. B. Carver,et al. Simulation of the distribution of flow and phases in vertical and horizontal bundles using the ASSERT-4 subchannel code☆ , 1990 .

[8] D. S. Rowe,et al. Two-phase turbulent mixing and buoyancy drift in rod bundles , 2004 .

[9] F. D'Auria,et al. Assessment of 12 CHF prediction methods, for an axially non-uniform heat flux distribution, with the RELAP5 computer code , 2008 .

[10] D. Groeneveld,et al. A look-up table for fully developed film-boiling heat transfer , 2003 .