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Advanced Nuclear Applications

Lithium is, and is expected to be, important in advanced nuclear appHcations. Among the fusion reactions that have been proposed for power generation, the one between deuterium and tritium has the best prospect for success because it requires the lowest plasma temperature. Tritium is prepared from Hthium. As coolants in a possible fusion reactor, fused lithium metal or molten fluorides of Hthium and berylHum have been proposed. For breeder reactors a molten salt fuel is used, compKJsed of beryUi-um fluoride, thorium fluoride and uranium fluoride together with the fluoride of the isotope Li. [Pg.299]


R. H. Jones, SiC/SiC composite for advanced nuclear applications. The 27 Annual Cocoa Beach Conference and Exposition on Advanced Ceramics and Composites, January 26-31, 2003, Cocoa Beach, Florida, paper ECD-S1-18-2003. [Pg.75]

R.H. Jones, SiCf/SiC Composites for Advanced Nuclear Applications, Ceram. Eng. Sci. Proc., 24, 261-267 (2003). [Pg.182]

Jones, R. H. (2003). SiC /SiC composites for advanced nuclear applications. Ceramic Engineering and Science Proceedings, 24, 261-267. doi 10.1002/9780470294826.ch38. [Pg.576]

Interest in polynitroarylenes has resumed over the past few decades as the demand for thermally stable explosives with a low sensitivity to impact has increased. This is mainly due to advances in military weapons technology but also for thermally demanding commercial applications i.e. oil well exploration, space programmes etc. Explosives like 1,3-diamino-2,4,6-trinitrobenzene (DATB) (13), l,3,5-triamino-2,4,6-trinitrobenzene (TATB) (14), 3,3 -diamino-2,2, 4,4, 6,6 -hexanitrobiphenyl (DIPAM) (15), 2,2, 4,4, 6,6 -hexanitrostilbene(HNS, VOD 7120 m/s, = 1.70 g/cm ) (16) and A,A -bis(l,2,4-triazol-3-yl)-4,4 -diamino-2,2, 3,3, 5,5, 6,6 -octanitroazobenzene (BTDAONAB) (17) fall into this class. TATB is the benchmark for thermal and impact insensitive explosives and finds wide use for military, space and nuclear applications. [Pg.128]

Kuhr, R.W., et al. (2006), Advanced Nuclear Process Heat Concepts and Applications, ASME Power/Electric Power 2006, Georgia, 2-4 May. [Pg.212]

DORIATH, J.Y., Me CALLIEN, C., KIEFHABER, E., WEHMANN, U., RIEUNER, J.M., ERANOS 1 the advanced European system of codes for reactor physics calculation, Proc. Inti Conf on Mathematical Methods and Super Computing in Nuclear Applications, Kernforschungszentrum Karlsruhe, Germany, 19-23 April 1993, D.H. Kusters, E. Stein (Eds), Kernforschungszentrum Karlsruhe (1993). [Pg.240]

Nuclear applications of carbon nanocapsules with radioactive materials inside are in the very early steps of investigation. Because of time-consumming experiments, post-irradiation analysis, protocols, complex interdisciplinary work, and the usual requirement of big facilities to be employed, make advances very punctual. Feasibility studies are usually done to a deeper stage than in other areas of activity to balance research investment. Surely, results wiU be as promising as in other disciplines of nanotechnology. [Pg.848]

J.Y. Doriath et al., "ERANOS 1 The Advanced European System of Codes for Reactor Physics Calculation , International Conference on Mathematical Methods and Super Computing in Nuclear Applications , Karlsruhe, Germany, April 1993... [Pg.189]

R594 X.-b. Yu, W.-b. Shen and B.-r. Xiang, Advances in Application of Quantitative Nuclear Magnetic Resonance Technique in Pharmaceutical Field , Yaoxue Jinzhan, 2010, 34, 17. [Pg.59]

Porous Ceramics Novel Developments and Applications International Symposium on Silicon Carbide and Carbon-Based Materials for Fusion and Advanced Nuclear Energy Applications... [Pg.166]

There have been further developments in NARA meant for nuclear applications. This type removes the limitation of 2nd generation HRAs. Now, an advanced version of HEART is used for the nuclear field. Also, there are a few other types such as justified human error data information, cognitive environmental simulation, etc. but these are not yet publicly available [12]. [Pg.378]

Liquid fluoride salts can be used for multiple nuclear applications. The AHTR is the simplest reactor application (excellent compatibility between salt and graphite based fuel, once through fuel cycle, etc.) and thus the likely first commercial use for liquid salts in reactor applications. The base technology, however, leads to three long term sustainable advanced reactor options ... [Pg.683]

The intent of this book is to provide readers with a comprehensive view of application of advanced nuclear and relevant analytical techniques for a new scientific frontier metallomics and metalloproteomics , which are becoming the hot topics in bioanalytical chemistry and life sciences. [Pg.405]

Sarkar, M.K.S., Tilak, A.K., Basu, DJ., 2014. A state-of-the-art review of recent advances in supercritical natural drculation loops for nuclear applications. Aunals of Nuclear Energy 73, 250-263. [Pg.538]

Toumi, I., Bergeron, A., GaUo, D., Royer, E., Catuge, D., 2000. FLICA a three-dimensional two-phase flow computer code with advanced numerical methods for nuclear applications. Nuclear Engineering and Design 200, 139—155. [Pg.538]

The potential applications of SiC SiC composites currently considered are core components, especially the control rod sheath and cladding of the VHTR, GFR, SFR, MSR, and LFR. Because the scope of this chapter is restricted to the Generation IV system, only part of the nuclear applications of SiCf/SiC was described. However, SiC SiC composites are also considered as the in-vessel components of magnetic confinement fusion devices including blanket structures, flow channel inserts (FCI) for the liquid metal (LM) blankets, and plasma-facing components (PFCs) [88—91]. In addition, they are candidates for an advanced fuel cladding for LWRs as an ATF (accident tolerance fuel) concept [72,92—97] and a channel box for the BWRs (boiling water-cooled reactors) [96,98,99]. [Pg.466]


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