Approximate Emissivity Calculations for Polyatomic Molecules. I. CO2
- 1 May 1954
- journal article
- research article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 25 (5) , 660-667
- https://doi.org/10.1063/1.1721706
Abstract
Approximate emissivity calculations for CO2 have been carried out, as a function of optical density, at 300 and at 600°K. The calculations involve the assumption that the rotational lines overlap extensively. This condition appears to be satisfied at total pressures above about 1 atmos. Comparison of the values calculated from spectroscopic data with the emissivities tabulated by Hottel and his collaborators shows satisfactory agreement. The analysis presented in this manuscript emphasizes the fact that it is possible to obtain reasonable estimates for the engineering emissivity without performing extensive analytical work, provided the physical principles are understood and the needed spectroscopic data are available.This publication has 15 references indexed in Scilit:
- Integrated Absorption for Vibration-Rotation Bands of CO2The Journal of Chemical Physics, 1952
- Vibrational Intensities. III. Carbon Dioxide and Nitrous OxideThe Journal of Chemical Physics, 1951
- R-Branch Heads of Some CO2 Infrared Bands in the CO + O2 Flame SpectrumThe Journal of Chemical Physics, 1951
- Emission of Radiation from Diatomic Gases. II. Experimental Determination of Effective Average Absorption Coefficients of COJournal of Applied Physics, 1951
- Vibrational Intensities. I. Theory of Diatomic Infra-Red BandsThe Journal of Chemical Physics, 1950
- Line Intensities and Absorption for the 15-Micron Carbon Dioxide BandThe Journal of Chemical Physics, 1950
- The Experimental Determination of the Intensities of Infra-Red Absorption Bands. III. Carbon Dioxide, Methane, and EthaneThe Journal of Chemical Physics, 1947
- Degenerate Modes of Vibration and Perturbations in Polyatomic MoleculesReviews of Modern Physics, 1944
- The Infra-Red Spectra of Polyatomic Molecules. Part IIReviews of Modern Physics, 1940
- The Infrared Spectra of Polyatomic Molecules Part IReviews of Modern Physics, 1931