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Modelling the determination of the thermodynamic parameters of a high-temperature gaseous volume by a passive remote method

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Abstract

This article is devoted to the creation of an engineering technique for determining the thermodynamic parameters of a high-temperature single-component gas, starting from the radiation intensity incident on the photodetector. The technique is based on a preliminary accurate determination of the radiation intensity for a specific spectral region and fixed intervals of temperatures and partial pressures. The latter is accomplished by a theoretical calculation by means of an informational-computational system, using carbon monoxide as an example.

© 2010 Optical Society of America

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