On Multilayer Modeling of Radiative Transfer for Use With the Multi-Source K-Distribution Method for Inhomogeneous Media

John Tencer and Jack Howell
ASME Summer Heat Transfer Conference 8–12 July 2012 Rio Grande, Puerto Rico, USA
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Abstract

A non-isothermal medium is modeled using the multilayer approach in which the continuous temperature distribution in a one-dimensional system as modeled as being piecewise constant. This has been shown to provide accurate results for a surprisingly small number of layers. Analysis is performed on a non-isothermal gray medium to attempt to characterize the ways in which the errors introduced by the multilayer modeling change with various physical parameters namely, the optical thickness and the temperature or emissive power gradient.

A demonstration is made of how the multi-source k-distribution method is capable of evaluating the heat flux within a one-dimensional system with piecewise constant temperature distribution with line-by-line accuracy with a significant decrease in computational expense. The k-distribution method for treating the spectral properties of an absorbing-emitting medium represents a powerful alternative to line-by-line calculations by reducing the number of RTE evaluations from the order of a million to the order of ten without any significant loss of accuracy. For problems where an appropriate reference temperature can be defined, the k-distribution method is formally exact. However, when no appropriate reference temperature can be defined, the method results in errors. The multi-source k-distribution method extends the k-distribution method to problems with piecewise constant temperature and optical properties.