5.14. References¶
5-1. Koenig, J. F., Unpublished information, Argonne National Laboratory, 1982.
5-2. Moody, L. F., Mechanical Engineering, vol. 69, p. 1005, 1947.
5-3. Shapiro, A. H., The Dynamics and Thermodynamics of Compressible Fluid Flow, Vol. 1, p. 182, The Ronald Press Company, New York, 1953.
5-4. Rohsenow, W. M. and J. P. Hartnett, Eds., Handbook of Heat Transfer, p. 7-33, McGraw-Hill Book Company, New York, 1973.
5-5. Mohr, D. and E. E. Feldman, “A Dynamic Simulation of the EBR-II Plant During National Convection with the NATDEMO Code,”Decay Heat Removal and Natural Convection in Fast Breeder Reactors, A. K,. Agrawal and J. G. Guppy editors, Hemisphere Publishing Co., pp 207-223, 1981.
5-6. Warren M. Rohsenow and Harry Choi, Heat, Mass, and Momentum Transfer, Prentice-Hall, Inc., Englewood Cliffs, New Jersey, 1961.
5-7. J. J. Lorenz and P. A Howard, “Entrainment by a Jet at a Density Interface in a Thermally Stratified Vessel,” Transactions of the ASME, vol. 101, p. 538, 1979.
5-8. J. W. Yang, “Penetration of a Turbulent Jet with Negative Buoyancy into the Upper Plenum of an LMFBR,” Nuclear Engineering and Design, vol. 40, p. 297, 1977.
5-9.“ZeroMQ,” ZeroMQ. [Online]. Available: https://zeromq.org/. [Accessed: 16-Apr-2020].
5-10. O. J. Foust, “Sodium-NaK Engineering Handbook, Volume 1: Sodium Chemistry and Physical Properties,” Gordon and Breach, 1972.
5-11. H. Ota et al., “Development of 160 m3/min Large Capacity Sodium-Immersed Self-Cooled Electromagnetic Pump,” Journal of Nuclear Science and Technology, vol. 41, 2004.