High Temperature Vapors: Science and Technology |
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Page 183
... higher temperature re- action allows a higher rate of metal production than the lower temperature stage ( Runnalls and Pidgeon , 1952 ) . High purity Zr is produced by a similar process , e.g. , see Shelton ( 1968b ) . Titanium ...
... higher temperature re- action allows a higher rate of metal production than the lower temperature stage ( Runnalls and Pidgeon , 1952 ) . High purity Zr is produced by a similar process , e.g. , see Shelton ( 1968b ) . Titanium ...
Page 200
... higher concentration than the nonvolatile metals , i.e. , groups ( a ) and ( b ) . • The occurrence of Ni but very little Co in high temperature mag- matic segregation deposits is consistent with the somewhat higher volatility of CoCl2 ...
... higher concentration than the nonvolatile metals , i.e. , groups ( a ) and ( b ) . • The occurrence of Ni but very little Co in high temperature mag- matic segregation deposits is consistent with the somewhat higher volatility of CoCl2 ...
Page 394
... higher thermal conductivity of the carbide fuel element , as opposed to the oxides , allows use of high average power densities which increases the efficiency . Also the higher density of carbides gives a greater number of neutron ...
... higher thermal conductivity of the carbide fuel element , as opposed to the oxides , allows use of high average power densities which increases the efficiency . Also the higher density of carbides gives a greater number of neutron ...
Contents
Appendix Major Literature Sources for High Temperature Chemistry | 36 |
GraphiteGas Reactions | 59 |
Appendix Some Additional Recent Literature on High Temperature GasSolid | 89 |
Copyright | |
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addition alkali metal atoms basic bond dissociation energies Bulewicz calculated Chapter Chem chemical reaction chemical vapor deposition chemistry chloride combustion complex components composition concentration condensed considered corrosion determined diffusion flames discussion dissociation energies effect electron emission enthalpy entropy equilibrium constant example experimental fission fission products fluorides formation free energy fuel gases given H-atom H₂ H₂O halogen heat Hence high temperature species high temperature vapors hydroxide inhibition inhibitor interaction involving ionization ions kcal mol-¹ kinetic mass spectrometric materials metal halide metal oxide mole mole fraction molecular species NaCl nuclear fission observed oxide oxygen Padley partial pressure phase Phys plasma premixed premixed flames present production radical reactants reaction rates reaction zone reactor recent recombination reduced region relatively rocket Section solid solubility spectroscopic stability Sugden surface Symp Table techniques temperature thermal thermodynamic tion vapor deposition vapor species vapor-phase volatile York