Add to ORKGThe viscosity and thermal conductivity of nitrogen gas for the temperature range 5 K - 135 K have been computed from the second Chapman-Enskog approximation. Quantum effects, which become appreciable at the lower temperatures, are included by utilizing collision integrals based on quantum theory. A Lennard-Jones (12-6) potential was assumed. The computations yield viscosities about 20 percent lower than those predicted for the high end of this temperature range by the method of corresponding states, but the agreement is excellent when the computed values are compared with existing experimental data
Transport Properties in High Temperature Gases Leicester University Ph.D Thesis 1973 D.J. Dobbs The ...
Accurate estimates of the transport properties of gaseous systems under conditions where experimenta...
Transport properties of pure methane have been calculated in the rigid-rotor approximation using the...
Calculations of the transport coefficients viscosity and thermal conductivity and the diffusion coll...
The real gas behavior of nitrogen, the gas normally used in transonic cryogenic tunnels, is reported...
Transport properties of dilute monatomic gases depend on the two body atom-atom interaction potentia...
Viscosities and thermal conductivities, suitable for heat-transfer calculations, were estimated for ...
The viscosity of pure nitrogen and of three (nitrogen + carbon dioxide) mixtures was measured over t...
Transport properties calculated by Chapman-Enskog theory for high temperature-gas mixtures in planet...
International audienceIn this paper, the calculated values of the viscosity and thermal conductivity...
The cryogenic concept and the advantages it offers with respect to achieving full scale Reynolds num...
The transport coefficients (total thermal conductivity, viscosity, and electrical conductivity) of N...
This paper compares a fluid/thermal simulation, in Fluent, with a low-g, nitrogen slosh and boiling ...
Accurate collision integrals are reported for the interactions of N(4 S 0) + N(4 S 0), O(3 P), and N...
The existing kinetic theory of gases is based on an analytical approach that becomes intractable for...
Transport Properties in High Temperature Gases Leicester University Ph.D Thesis 1973 D.J. Dobbs The ...
Accurate estimates of the transport properties of gaseous systems under conditions where experimenta...
Transport properties of pure methane have been calculated in the rigid-rotor approximation using the...
Calculations of the transport coefficients viscosity and thermal conductivity and the diffusion coll...
The real gas behavior of nitrogen, the gas normally used in transonic cryogenic tunnels, is reported...
Transport properties of dilute monatomic gases depend on the two body atom-atom interaction potentia...
Viscosities and thermal conductivities, suitable for heat-transfer calculations, were estimated for ...
The viscosity of pure nitrogen and of three (nitrogen + carbon dioxide) mixtures was measured over t...
Transport properties calculated by Chapman-Enskog theory for high temperature-gas mixtures in planet...
International audienceIn this paper, the calculated values of the viscosity and thermal conductivity...
The cryogenic concept and the advantages it offers with respect to achieving full scale Reynolds num...
The transport coefficients (total thermal conductivity, viscosity, and electrical conductivity) of N...
This paper compares a fluid/thermal simulation, in Fluent, with a low-g, nitrogen slosh and boiling ...
Accurate collision integrals are reported for the interactions of N(4 S 0) + N(4 S 0), O(3 P), and N...
The existing kinetic theory of gases is based on an analytical approach that becomes intractable for...
Transport Properties in High Temperature Gases Leicester University Ph.D Thesis 1973 D.J. Dobbs The ...
Accurate estimates of the transport properties of gaseous systems under conditions where experimenta...
Transport properties of pure methane have been calculated in the rigid-rotor approximation using the...