High Temperature Vapors: Science and Technology |
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Page 32
... obtained from hi = ( mi ) -1 ( U , + kT ) , where m is the mass of species i , U , the internal molecular energy , and k the Boltzmann constant . In most thermochemical tables the enthalpy is given in terms of molar quantities . Usually ...
... obtained from hi = ( mi ) -1 ( U , + kT ) , where m is the mass of species i , U , the internal molecular energy , and k the Boltzmann constant . In most thermochemical tables the enthalpy is given in terms of molar quantities . Usually ...
Page 162
... obtained . However , by using very low feed rates , Rains and Kadlec ( 1970 ) have obtained a 20 % reduction in an Ar - H - CO - CH , plasma . Apparently the oxide vaporization is the rate - limiting factor . The carbothermic ...
... obtained . However , by using very low feed rates , Rains and Kadlec ( 1970 ) have obtained a 20 % reduction in an Ar - H - CO - CH , plasma . Apparently the oxide vaporization is the rate - limiting factor . The carbothermic ...
Page 279
... obtained by flame techniques . The most likely source of serious error in determining dissociation energies by flame methods is an incorrect accounting of all of the species present . That is , the nature and distribution of species in ...
... obtained by flame techniques . The most likely source of serious error in determining dissociation energies by flame methods is an incorrect accounting of all of the species present . That is , the nature and distribution of species in ...
Contents
Appendix Major Literature Sources for High Temperature Chemistry | 36 |
Synergistic Reactions | 58 |
Appendix Some Additional Recent Literature on High Temperature GasSolid | 89 |
Copyright | |
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addition apparent application atmosphere atoms basic calculated Chapter Chem chemical chemistry chloride combustion complex components composition concentration considered constant containing corrosion dependence deposition determined diffusion discussion dissociation effect electron elements emission energy equilibrium et al evidence example experimental factor flame formation fuel gases given greater H-atom H₂O halide halogen heat Hence high temperature hydroxide important increase indicated inhibition interaction interest involving ions kcal mol-¹ kinetic known lead less limited mass materials mechanism metal molecular observed obtained occur oxide partial particularly phase Phys plasma possible practical presence present pressure problems production radical reaction reaction zone reactor recent reduced region relatively rocket shown similar solid species stability studies suggested surface Table techniques thermal thermodynamic tion transport usually values vapor vapor-phase various volatile York