DETERMINATION OF THE DIRECTIONAL SPECTRAL EMISSIVITY OF SOLIDS IN THESPECTRAL RANGE FROM 2.5-MU-M TO 45-MU-M AT TEMPERATURES BETWEEN 80-DEGREES-C AND 350-DEGREES-C
J. Lohrengel et al., DETERMINATION OF THE DIRECTIONAL SPECTRAL EMISSIVITY OF SOLIDS IN THESPECTRAL RANGE FROM 2.5-MU-M TO 45-MU-M AT TEMPERATURES BETWEEN 80-DEGREES-C AND 350-DEGREES-C, Warme- und Stoffubertragung, 28(6), 1993, pp. 321-327
The measuring set-up described allows the directional spectral emissiv
ity to be determined in the wavelength range from 2.5 mum to 45 mum at
temperatures between 80-degrees-C and 400-degrees-C. The samples must
be opaque to radiation of the wavelength investigated. They must have
a diameter of between 50 mm and 90 mm and be up to 10 mm thick. The u
ncertainty of the determination of the spectral emissivity amounts to
1.0%. To determine the spectral emissivity, the spectral radiances of
black-body and sample surface are compared at known temperature using
a Fourier spectrometer. The problematic determination of the sample su
rface temperature is carried out on the basis of Fourier's equation of
thermal conduction, making use of the known thermal conductivity of t
he sample (which must be separately determined) and the calculated ene
rgy loss from the surface to the environment by conduction, convection
and radiation. To check the measurement results, the vertical spectra
l emissivity was measured on three coated glass samples whose total em
issivity had been measured in an international comparison. The total v
ertical emissivities calculated from the spectral values determined he
re show very good agreement with the values obtained in the internatio
nal comparison and with other measurement values.