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Benchmark gas core critical experiment. (1972)

Cooper, C. G. ; Hyland, R. E. ; Lofthouse, J. H. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-16

Description: A critical experiment with spherical symmetry has been conducted on the gas core nuclear reactor concept. The nonspherical perturbations in the experiment were evaluated experimentally and produce corrections to the observed eigenvalue of approximately 1% delta k. The reactor consisted of a low density, central uranium hexafluoride gaseous core, surrounded by an annulus of void or low density hydrocarbon, which in turn was surrounded with a 97-cm-thick heavy water reflector.

Keywords: NUCLEAR ENGINEERING

Type: Nuclear Science and Engineering; 47; Jan. 197

Format: text

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Flowing gas, non-nuclear experiments on the gas core reactor (1973)

Cooper, C. G. ; Macbeth, P. J. ; Kunze, J. F.

In: CASI

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Publication Date: 2019-06-27

Description: Variations in cavity wall and injection configurations of the gas core reactor were aimed at establishing flow patterns that give a maximum of the nuclear criticality eigenvalue. Correlation with the nuclear effect was made using multigroup diffusion theory normalized by previous benchmark critical experiments. Air was used to simulate the hydrogen propellant in the flow tests, and smoked air, argon, or Freon to simulate the central nuclear fuel gas. Tests were run both in the down-firing and upfiring directions. Results showed that acceptable flow patterns with volume fraction for the simulated nuclear fuel gas and high flow rate ratios of propellant to fuel can be obtained. Using a point injector for the fuel, good flow patterns are obtained by directing the outer gas at high velocity long the cavity wall, using louvered injection schemes. Recirculation patterns were needed to stabilize the heavy central gas when different gases are used.

Keywords: NUCLEAR ENGINEERING

Type: NASA-CR-121191 , ANCR-1118

Format: application/pdf

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Development of Large Bandgap Materials Using Reactive Growth in Al-SI Eutectic for Optical and RF Applications (2018)

Choa, Fow-Sen ; Cooper, C. ; Gill, Puneet ; [et al.]

In: CASI

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Publication Date: 2019-07-19

Description: Carbon was utilized as reactive element to modify the microstructure using forced mixing during crystallization of the Al-Si alloy by rotation and stirring. We nucleated the material on SiC substrates while the Al-Si melt was rotated with a speed of 30rpm in a graphite crucible. Several experiments were performed and parameters such as time of mixing, soaking temperature, rotation rate of the substrate and rate of cooling during the solidification was changed. We observed dendrite and cell morphologies during the solidification of rotating melt. The microstructure was characterized by optical microscopy and SEM-EDX and compositional spectroscopy. The effect of carbon impurities was studied on the solidifying microstructure. When we used the longer soak time of the melt in presence of carbon impurities we observed the destruction of dendritic morphology and the formation of cellular and colony structures. Similar approach has been used for Ga2O3, a novel large bandgap material also.

Keywords: Inorganic, Organic and Physical Chemistry

Type: M18-6926 , Materials Science &amp; Technology (MS&amp;T) 2018; Oct 14, 2018 - Oct 18, 2018; Columbus, OH; United States

Format: application/pdf

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