A computer code (LOCA-COLA) has been developed at MIT for steady state analysis of convective heat transfer loops. In this work, it is used to investigate an external convection loop for decay heat removal of a post-LOCA GFR. The major finding is that natural circulation cooling of the GFR is feasible under certain circumstances. Both helium and CO2 cooled system components are found to operate in the mixed convection regime, the effects of which are noticeable as heat transfer enhancement or degradation. It is found that CO2 outperforms helium under identical natural circulation conditions. Decay heat removal is found to have a quadratic dependence on pressure in the laminar flow regime and linear dependence in the turbulent flow regime. Other parametric studies have been performed as well. In conclusion, convection cooling loops are a credible means for GFR decay heat removal and LOCA-COLA is an effective tool for steady state analysis of cooling loops.
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12th International Conference on Nuclear Engineering
April 25–29, 2004
Arlington, Virginia, USA
Conference Sponsors:
- Nuclear Engineering Division
ISBN:
0-7918-4687-3
PROCEEDINGS PAPER
Analysis of a Convection Loop for GFR Post-LOCA Decay Heat Removal
Wesley C. Williams,
Wesley C. Williams
Massachusetts Institute of Technology, Cambridge, MA
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Pavel Hejzlar,
Pavel Hejzlar
Massachusetts Institute of Technology, Cambridge, MA
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Pradip Saha
Pradip Saha
Massachusetts Institute of Technology, Cambridge, MA
Search for other works by this author on:
Wesley C. Williams
Massachusetts Institute of Technology, Cambridge, MA
Pavel Hejzlar
Massachusetts Institute of Technology, Cambridge, MA
Pradip Saha
Massachusetts Institute of Technology, Cambridge, MA
Paper No:
ICONE12-49360, pp. 753-762; 10 pages
Published Online:
November 17, 2008
Citation
Williams, WC, Hejzlar, P, & Saha, P. "Analysis of a Convection Loop for GFR Post-LOCA Decay Heat Removal." Proceedings of the 12th International Conference on Nuclear Engineering. 12th International Conference on Nuclear Engineering, Volume 1. Arlington, Virginia, USA. April 25–29, 2004. pp. 753-762. ASME. https://doi.org/10.1115/ICONE12-49360
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