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LMFBR

Full advantage of the neutron production by plutonium requires a fast reactor, in which neutrons remain at high energy. Cooling is provided by a hquid metal such as molten sodium or NaK, an alloy of sodium and potassium. The need for pressurization is avoided, but special care is required to prevent leaks that might result in a fire. A commonly used terminology is Hquid-metal fast-breeder reactor (LMFBR). [Pg.221]

LMFBR Liquid Metal Fast Breeder Reactor... [Pg.290]

Plutonium breeder LMFBR fuels, 6, 926 Plutonium carbide nuclear fuels, 6, 928 Plutonium complexes, 3,1131-1215 cupferron, 2, 510 Plutonium(III) complexes... [Pg.200]

Sodium superheat experiments were performed in a forced-convection facility employing system parameters in the range of interest for application to loop- and pot-type liquid metal-cooled fast breeder reactors (LMFBRs). The test section was... [Pg.284]

For very long, helically coiled steam generator tubes, and for conditions typical of liquid-metal fast breeder reactors (LMFBRs), where steam is generated on the tube side, an overall heat transfer correlation for the whole boiling length (from X = 0 to X = 1.0) has been deduced experimentally (Campolunghi et al., 1977b) ... [Pg.297]

France, D. M., R. D. Carlson, R. R. Rhode, and G. T. Charmoli, 1974, Experimental Determination of Sodium Superheat Employing LMFBR Simulation Parameters, Trans. ASME, J. Heat Transfer 9(5 359. (4)... [Pg.533]

Granziera, R., and M. S. Kazimi, 1980, A Two-Dimensional Two-Fluid Model for Sodium Boiling in LMFBR Fuel Assemblies, Energy Laboratory Rep. No. MIT-EL-80-011, Massachusetts Institute of Technology, Cambridge, MA. (4)... [Pg.534]

Liquid metal cooled fast breeder reactors (LMFBRs), 24 758 Liquid-metal fast-breeder reactor... [Pg.528]

I0.6.8.I Cladding failure in oxide fuel pins of nuclear reactors. The long-term operational performance of nuclear fuel pins is critically governed by the reactions that occur in the gap between the fuel and its cladding. Ball et al. (1989) examined this for the cases of (1) Zircaloy-clad pellets of U02+, in a pressurised water reactor (PWR) and (2) stainless-steel-clad pellets of (U, P)02+, in a liquid-metal-cooled fast-breeder reactor (LMFBR). In particular they were interested in the influence of O potential on Cs, I, Te and Mo and the effects of irradiation on the gaseous species within the fuel-clad gaps. [Pg.412]

Figure 10.94 Calculated ratios of amounts of Te Cs, l Cs and Te I in the gas phase as a function of oxygen potential within the fiiel-clad gap of a LMFBR fuel pin assuming (a) no fuel takes part in the reaction and (b) fuel is included in the reaction (Ball et at. 1989). Figure 10.94 Calculated ratios of amounts of Te Cs, l Cs and Te I in the gas phase as a function of oxygen potential within the fiiel-clad gap of a LMFBR fuel pin assuming (a) no fuel takes part in the reaction and (b) fuel is included in the reaction (Ball et at. 1989).
The plutonium fuel in a breeder reactor behaves differently than uranium. Fast neutrons are required to split plutonium. For this reason, water cannot be used in breeder reactors because it moderates the neutrons. Liquid sodium is typically used in breeder reactors, and the term liquid metal fast breeder reactor (LMFBR) is used to describe it. One of the controversies associated with the breeder reactor is that it results... [Pg.249]

LDH LEU LIBD LAW LET LILW LIP LLNL LLW LMA LMFBR LOI LREE L/S LTA LWR Layered double hydroxide Low enriched uranium Laser-induced breakdown detection Low-activity waste Linear energy transfer Low- and intermediate-level nuclear waste Lead-iron phosphate Lawrence Livermore National Laboratory Low-level nuclear waste Law of mass action Liquid-metal-cooled fast-breeder reactor Loss on ignition Light rare earth elements (La-Sm) Liquid-to-solid ratio (leachates) Low-temperature ashing Light water reactor... [Pg.684]

Another application concerning the liquid-metal-cooled fast breeder reactors (LMFBR) was studied as development of advanced control rod materials for FBR (22). Fabrication tests and out-of-pile measurements were made of B4C/Cu cermet to obtain high-performance neutron absorber materials for LMFBR. A coating layer of Cu was formed on the surface of B4C/Cu powder, and then the coated B4C... [Pg.717]

LMFBR Design Principles. There are many design differences among the reactor designs, including (1) primary coolant system arrangement ... [Pg.1118]

Proceedings of the IAEA Meeting on LMFBR Fuel Reprocessing, Leningrad, 1976 , translated by ERDA. [Pg.1004]

Knighton, J.B. Baldwin, C.E. Pyrochemical Coprocessing of Uranium Dioxide-Plutonium Dioxide LMFBR Fuel by the Salt Transport Method, Rocky Flats Report RFP-2887, CONF-790415-29 (1979). [Pg.111]

Li-7 1. Water-cooled reactors use lithium-7 hydroxide as a water conditioner 2. Possible coolant in LMFBR... [Pg.956]

See other pages where LMFBR is mentioned: [Pg.180]    [Pg.221]    [Pg.162]    [Pg.387]    [Pg.387]    [Pg.285]    [Pg.286]    [Pg.327]    [Pg.501]    [Pg.528]    [Pg.12]    [Pg.1117]    [Pg.1117]    [Pg.1117]    [Pg.1117]    [Pg.1118]    [Pg.1118]    [Pg.885]    [Pg.924]    [Pg.926]    [Pg.927]    [Pg.927]    [Pg.927]    [Pg.928]    [Pg.954]    [Pg.954]    [Pg.955]    [Pg.92]    [Pg.387]    [Pg.387]    [Pg.981]   
See also in sourсe #XX -- [ Pg.8 ]

See also in sourсe #XX -- [ Pg.1269 ]

See also in sourсe #XX -- [ Pg.176 , Pg.178 , Pg.196 ]



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