References
- Hilliard RK, Mccormack JD, Postma AK. Aerosol behavior during sodium pool fires in a large vessel–CSTF test AB1 and AB2. (Report no. HEDL-TME 79-28 UC-79). Hanford (WA): Hanford Engineering Development Laboratory; 1979. p. 79.
- Newman RN. The ignition and burning behavior of sodium metal in air. Prog Nucl Energy. 1983;12:119–147.
- Yamaguchi A, Tajima Y. Numerical investigation of mass and heat transfer in sodium pool combustion. Numer Heat Transfer. 2002;A41:697–709.
- Takata T, Yamaguchi A, Maekawa I. Numerical investigation of multidimensional characteristics in sodium combustion. Nucl Eng Des. 2003;220:37–50.
- Subramani A, Jayanti S, Shet USP, et al. Dynamics of liquid sodium pool spreading under sodium fire conditions. Nucl Eng Des. 2009;239:1354–1361.
- Bae JH, Ahn DH, Kim YC, et al. An experimental study on the characteristics of sodium fires. J Korean Nucl Soc. 1994;26:471–483.
- Ho D, Rd W, Wj H. The experimental research on the sodium spray fire. At Energy Sci Technol. 2011;31:41–47. Chinese.
- Kawata K, Teraoku T, Ohno S et al. Investigation for the sodium leak Monju-sodium fire test-I. (Report no. PNC-TN941097-036). Japan: O-arai Engineering Center; 2000.
- Uchiyama N, Takai T, Nishimura M et al. Investigation for the sodium leak Monju-sodium fire test-II. (Report no. JNC-TN9400 2000-090). Japan: O-arai Engineering Center; 2000.
- Himeno Y, Miyahara S, Morii T, et al. Development and demonstration of sodium fire mitigation system in the SAPFIRE Facility. IAEA/IWGFR Specialists’ Meeting on Sodium Fire; 1988 Jun 6–9. Obninsk:USSR.
- Himeno Y, Miyahara S, Morii T, et al. Engineering scale test on sodium leak and fire accident and its consequences in auxiliary building of fast breeder reactors.In: The 4th International Conference on Liquid Metal Engineering and Technology; 1988 Oct 17–21; Avignon, France.
- Ohno S, Uchiyama N, Kawata K, et al. Sodium columnar fire test and code development at PNC. IAEA/IWFGR TCM on Evaluation of Radioactive Materials Release and Sodium Fires in Fast Reactors; 1996 Nov 11–14; Oarai, Japan.
- Zhang ZG, Peng KW, Huo Y, et al. Experimental study on combustion characteristics of sodium fire in a columnar flow. J Nucl Sci Technol. 2014;51(2):166–174.
- Peng KW, Zhang ZG, Guo M, et al. Experimental study on sodium column fire of sodium-cooled fast reactor. In: Proceedings of the 21st International Conference on Nuclear Engineering (ICONE21); 2013 Jul 28–Aug 2; Chengdu, China.
- Wand C, Zhang ZG, Peng KW, et al. Simulation research on combustion of liquid sodium droplet. In: Proceedings of the 21st International Conference on Nuclear Engineering (ICONE21); 2013 July 28-Aug 2; Chengdu, China.
- Guo M, Zhang ZG, Tang YX, et al. Experimental study on sodium fire combustion in a columnar flow. In: Proceedings of the 22nd International Conference on Nuclear Engineering (ICONE22); 2014 Jul 7–11; Prague, Czech Republic.
- Tang YX, Zhang ZG, Guo M, et al. Experimental study on burning process and characteristic of sodium columnar fire. In: Proceedings of the 22nd International Conference on Nuclear Engineering (ICONE22); 2014 July 7–11; Prague, Czech Republic.
- Li JK, Zhang ZG, Huo Y, et al. Experimental study on sodium fire combustion in a columnar flow. Proceedings of the 23rd International Conference on Nuclear Engineering (ICONE23); 2015 May 17–21; Chiba, Japan.
- Zhang ZG, Sun SB, Liu CC, et al. Experimental study on oxidation and combustion characteristics of sodium droplets. At Energy Sci Technol. 2015;49(4):667–673. Chinese.
- Huo Y, Zhang ZG, Li JK, et al. Experimental study on combustion and suppression characteristics of sodium fire in a columnar flow using extinguishing powder. J Nucl Sci Technol. 2017;54(6):716–723.
- Parker WJ. Calculations of the heat release rate by oxygen consumption for various applications. J Fire Sci. 1984;2(5):380–395.