Acknowledgement
This research has been supported by the National Research Foundation of Korea (NRF) grant funded by the Korea government (MSIT). (No. 2021M2E2A1037871).
References
- J. Yoo, J. Chang, J.-Y. Lim, J.-S. Cheon, T.-H. Lee, S.K. Kim, K.L. Lee, H.-K. Joo, Overall system description and safety characteristics of Prototype gen IV sodium cooled fast reactor in Korea, Nuclear Engineering and Technology 48 (2016) 1059-1070. https://doi.org/10.1016/j.net.2016.08.004
- Fauske, L.L.C. Associates, ISFRA User Manual, FAI Report, FAI/16-1089, 2016, p. 10.
- M. Epstein, P.G. Ellison, R.E. Henry, Correlation of aerosol sedimentation, J. Colloid Interface Sci. 113 (No. 2) (1986).
- M. Epstein, P.G. Ellison, A principle of similarity for describing aerosol particle size distribution, J. Colloid Interface Sci. 119 (No. 1) (1987) 168-173. https://doi.org/10.1016/0021-9797(87)90255-4
- M. Epstein, P.G. Ellison, Correlations of the rate of removal of coagulating and depositing aerosols for application to nuclear reactor safety problems, Nucl. Eng. Des. 107 (1988) 327-344. https://doi.org/10.1016/0029-5493(88)90040-4
- M. Epstein, G.M. Hauser, R.E. Henry, Thermophoretic deposition of particles in natural convection flow from a vertical plate, J. Heat Tran. 107 (1985) 272-276. https://doi.org/10.1115/1.3247410
- R.K. Hilliard, J.D. McCormack, A.K. Postma, Results and code predictions for ABCOVE aerosol code validation - test AB5, HEDL-TME 83-16 (1983).
- R.K. Hilliard, J.D. McCormack, L.D. Muhlstein, Results and code predictions for ABCOVE aerosols code validation - test AB-6 with two aerosol species, HEDL-TME 84-19 (1984).
- R.K. Hilliard, J.D. McCormack, L.D. Muhlestein, "Results and code predictionsfor ABCOVE aerosol code validation with low concentration NaOH and NaI aerosol - CSTF test AB7, HEDL-TME 85-1 (1985).
- N.A. Fuchs, The Mechanics of Aerosols, Pergamon, Oxford, 1964.
- F.M. White, Fluid Mechanics, third ed., McGraw-Hill, Inc., NJ, USA, 1994. Chap. 5.
- F. Gelbard, Y. Tambour, J.H. Seinfeld, Sectional representations for simulating aerosol dynamics, J. Colloid Interface Sci. 76 (1980) 541-556. https://doi.org/10.1016/0021-9797(80)90394-X
- F. Gelbard, The MAEROS User Manual, NUREG/CR-1391, SAND80-0822, Sandia National Labs Report, 1982.
- OECD/NEA Data Bank, http://oecd-nea.com/.
- FAI, "Technical Support for Issue Resolution," FAI/85-27, Fauske & Associates, Inc., 1985.
- E.H. Ryu, "Confirmation of Epstein's Correlations for the Rate of Removal of Coagulating and Depositing Aerosols", KAERI Technical Report, KAERI/TR-6859/2017, 2017 (In Korean).
- W.H. Press, B.P. Flannery, S.A. Teukolsky, W.T. Vetterling, Numerical Recipes in FORTRAN: the Art of Scientific Computing, Cambridge University Press, 1992.
- F.J. Souto, F.E. Haskin, L.N. Kmetyk, MELCOR 1.8.2 Assessment: Aerosol Experiments ABCOVE AB5, AB6, AB7, and LACE LA2," SAND94-2166, 1994.
- L.E. Herranz, M. Garcia, S. Morandi, Benchmarking LWR codes capability to model radionuclide deposition within SFR containments: an analysis of the Na ABCOVE tests, Nucl. Eng. Des. 265 (2013) 772-784. https://doi.org/10.1016/j.nucengdes.2013.05.030
- K.S. Ha, S.I. Kim, J.-S. Jang, D.H. Kim, "Code Development on Fission Product Behavior under Severe Accident - Validation of Aerosol Sedimentation, " KNS Spring Meeting, Jeju, Korea, 2016.
- L. Humphries, B. Beeny, D. Louie, H. Esmaili, M. Salay, Non-LWR Model Development for the MELCOR Code," ICONE26-82415, July 2018. London, England.
- C. Yoon, S.J. Ahn, S.H. Kang, Validation of the Sodium Fire Models in the CONTAIN-LMR/1B-Mod.1 Code against the ABCOVE Experiments, " KNS Spring Meeting, Jeju, Korea, May 2019.