Three-dimensional non-grey gas radiative transfer analyses using the statistical narrow-band model

Revue Générale de Thermique Pub Date : 1998-10-01 DOI:10.1016/S0035-3159(98)80002-0

Fengshan Liu, Ömer.L. Gülder, Gregory J. Smallwood

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引用次数: 14

Abstract

Three-dimensional non-grey gas radiation analyses were conducted using the statistical narrow-band model with updated band parameters and three implementation methods: the exact or the correlated formulation, the non-correlated expression, and the grey-band approximation with the absorption coefficient estimated using the local properties. The accuracy of the two approximate narrow-band implementation methods was evaluated for both low-resolution spectral intensity and spectrally integrated radiative source term and wall heat flux in a rectangular enclosure containing (1) isothermal pure water and (2) a CO₂/H₂O/N₂ mixture with a furnace type gas temperature distribution. For spectrally integrated quantities, results of the grey-band approximation are very close to those of the non-correlated formulation and are in qualitative agreement with the results of the correlated formulation. The two approximate methods are capable of predicting qualitatively correct and fairly accurate distributions of low-resolution spectral radiation intensities for the isothermal case. However, they predict less accurate low-resolution spectral intensities for the non-isothermal case.

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基于统计窄带模型的三维非灰色气体辐射传输分析

采用更新波段参数的统计窄带模型和精确或相关公式、非相关表达式和利用局部性质估计吸收系数的灰带近似三种实现方法，对三维非灰色气体辐射进行了分析。在包含(1)等温纯水和(2)具有炉型气体温度分布的CO2/H2O/N2混合物的矩形封闭环境中，对两种近似窄带实现方法的低分辨率光谱强度和光谱积分辐射源项和壁面热流密度的准确性进行了评估。对于光谱积分量，灰带近似的结果与非相关公式的结果非常接近，并且与相关公式的结果在定性上一致。这两种近似方法都能对等温条件下的低分辨率光谱辐射强度进行定性准确的预报。然而，对于非等温情况，他们预测的低分辨率光谱强度不太准确。

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Revue Générale de Thermique

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