Effective gaseous diffusion coefficients of select ultra-fine, super-fine and medium grain nuclear graphite
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William E. Windes | W. David Swank | Cristian I. Contescu | C. Contescu | W. Windes | Joshua J. Kane | Austin C. Matthews | Christopher J. Orme | W. Swank
[1] J. Tournier,et al. Comparison of oxidation model predictions with gasification data of IG-110, IG-430 and NBG-25 nuclear graphite , 2012 .
[2] S. Loyalka,et al. Diffusion Slip Velocity: Theory and Experiment , 1972 .
[3] Timothy D. Burchell,et al. Oxidation of PCEA nuclear graphite by low water concentrations in helium , 2014 .
[4] D. Avnir,et al. Recommendations for the characterization of porous solids (Technical Report) , 1994 .
[5] Edward A. Mason,et al. Gaseous Diffusion Coefficients , 1972 .
[6] J. Tournier,et al. Chemical kinetics parameters and model validation for the gasification of PCEA nuclear graphite , 2014 .
[7] J. Tournier,et al. Development and validation of a model for the chemical kinetics of graphite oxidation , 2011 .
[8] R. Moormann,et al. Oxidation experiments and theoretical examinations on graphite materials relevant for the PBMR , 2008 .
[9] Zhengcao Li,et al. Effects of Porosity and Temperature on Oxidation Behavior in Air of Selected Nuclear Graphites , 2012 .
[10] G. Hewitt,et al. Gaseous Diffusion in Porous Media with Particular Reference to Graphite , 1963, Nature.
[11] Xingtai Zhou,et al. Molten FLiNaK salt infiltration into degassed nuclear graphite under inert gas pressure , 2015 .
[12] S. Chi,et al. Comparison of the oxidation rate and degree of graphitization of selected IG and NBG nuclear graphite grades , 2008 .
[13] P. Hawtin,et al. The effect of diffusion and bulk gas flow on the thermal oxidation of porous carbons—II. Diffusional effects in graphite at high temperatures , 1966 .
[14] H. No,et al. Experimental study on the oxidation of nuclear graphite and development of an oxidation model , 2006 .
[15] Kune-Woo Lee,et al. Analysis of Combustion Kinetics of Powdered Nuclear Graphite by using a Non-isothermal Thermogravimetric Method , 2006 .
[16] Andrew C. Kadak,et al. The Status of the US High-Temperature Gas Reactors , 2016 .
[17] P. Hawtin,et al. The effect of diffusion and bulk gas flow on the thermal oxidation of porous carbons—III. Ungraphitised carbons , 1966 .
[18] Jeffrey J. Powers,et al. Advanced Demonstration and Test Reactor Options Study , 2017 .
[19] Chien-Hung Chen,et al. The oxidation effects of nuclear graphite during air-ingress accidents in HTGR , 2014 .
[20] R. A. Huber,et al. The effects of non uniform burn off on the kinetics of oxidation of large tubular specimens of graphite , 1968 .
[21] P. Mummery,et al. Dimensional change, irradiation creep and thermal/mechanical property changes in nuclear graphite , 2016 .
[22] Timothy D. Burchell,et al. The effect of microstructure on air oxidation resistance of nuclear graphite , 2012 .
[23] O. Solcova,et al. Experimental Determination of Transport Parameters , 2006 .
[24] G. M. Watson,et al. Interdiffusion of Helium and Argon in a Large-Pore Graphite. , 1961 .
[25] Xingtai Zhou,et al. Microstructure and molten salt impregnation characteristics of a micro-fine grain graphite for use in molten salt reactors , 2016 .
[26] Zhengcao Li,et al. The Influence of Pores on Irradiation Property of Selected Nuclear Graphites , 2012 .
[27] R. A. Huber,et al. Air oxidation studies in a long graphite channel , 1968 .
[28] J. D. Clark,et al. Investigation of pore structure by a non-steady-state gas diffusion technique , 1979 .
[29] J. Kai,et al. The relationship between microstructure and oxidation effects of selected IG- and NBG-grade nuclear graphites , 2014 .
[30] P. Hawtin,et al. The role of in-pore mass transport resistance in the reaction of porous solids with gases The air oxidation of large tubes of graphite , 1964 .
[31] P. Hawtin,et al. The effect of diffusion and bulk gas flow on the thermal oxidation of nuclear graphite-I. Temperatures below 500°C , 1964 .
[32] D. Butt,et al. An oxygen transfer model for high purity graphite oxidation , 2013 .
[33] Timothy D. Burchell,et al. A novel approach to fabricating fuel compacts for the next generation nuclear plant (NGNP) , 2008 .
[34] Eugene E. Petersen,et al. Diffusion in a pore of varying cross section , 1958 .