1996
DOI: 10.1002/ceat.270190406
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Energy transfer in hydrogen/air and methane/air mixtures

Abstract: This article presents gas kinetic calculation methods for the energy transport in hydrogen/ air and methane/air mixtures. The total molecular heat conductivity as well as its various shares are calculated and discussed for a temperature range of 400 to 3500 K and for a pressure of lo5 Pa. The variation of the air/fuel ratio under the conditions of chemical equilibrium is also investigated. As opposed to our previous article, an extension of the ChapmanEnskog method which goes beyond the classical 1st approxima… Show more

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“…In the figure on the right hand side, the ratio of the thermal conductivity due to thermal diffusion and the thermal conductivity due to collisions (usually called the Fourier conductivity) is plotted against the temperature. For determination of the collisional thermal conductivity A ' , see [6,101. The influence of thermal diffusion increases if the combustion ratio decreases.…”
Section: Influence Of Thermal Diffusionmentioning
confidence: 99%
“…In the figure on the right hand side, the ratio of the thermal conductivity due to thermal diffusion and the thermal conductivity due to collisions (usually called the Fourier conductivity) is plotted against the temperature. For determination of the collisional thermal conductivity A ' , see [6,101. The influence of thermal diffusion increases if the combustion ratio decreases.…”
Section: Influence Of Thermal Diffusionmentioning
confidence: 99%