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Quantification of model-form uncertainty in the correlated-k distribution method for radiation heat transfer
Ist Teil von
Journal of quantitative spectroscopy & radiative transfer, 2014-08, Vol.143, p.73-82
Ort / Verlag
Elsevier Ltd
Erscheinungsjahr
2014
Quelle
Alma/SFX Local Collection
Beschreibungen/Notizen
The full-spectrum correlated-k distribution method has been shown to be exact for thermal radiation in molecular gas-particulate mixtures which obey the correlation assumption. Unfortunately, this assumption breaks down for molecular gases with strong temperature or concentration gradients. There has previously been no way to effectively quantify the model-form uncertainty introduced by the failure of the correlation assumption. This paper examines the effect of temperature gradients in CO2 and proposes a technique to generate probability density functions for the gray-gas absorption coefficients used in the full-spectrum correlated-k distribution method. The uncertainty in the absorption coefficients may then be propagated forward to ascertain confidence intervals for important quantities such as heat flux or intensity distributions.
•Problems with inhomogeneous media solved via a correlated-k distribution approach.•Current inability assess error introduced by failure of correlation assumption.•Proposal to treat k-distribution curve as a stochastic process.•This uncertainty is propagated forward to predictions of the heat flux.•This yields reliable error estimates in CO2 with temperature-dependent properties.