Gas temperature measurement based on contrast reversal in mid-infrared CO2 images

TL;DR

This paper introduces a noninvasive gas temperature measurement method using contrast reversal in mid-infrared CO2 images, enabling temperature mapping and dynamic emission analysis.

Contribution

It presents an evolved line reversal technique utilizing advanced infrared cameras for accurate, noninvasive gas temperature measurement and imaging.

Findings

Gas temperature can be determined from contrast reversal points.

The method enables 2D temperature mapping.

Application demonstrated on engine exhaust and human breathing.

Abstract

We demonstrate noninvasive measurement of gas temperature based on the optical gas imaging. Gas flows containing carbon dioxide (CO2) appear as either bright or dark images, depending on the relative temperatures of the background and the gas, when using a narrowband mid-infrared camera tuned to the CO2 absorption wavelength at 4.3 micrometers. When the background temperature is varied continuously, the gas image vanishes transiently and then the contrast reverses. The specific background temperature at the point when the gas image disappears provides the gas temperature. This technique is an evolved implementation of the classical line reversal method, made possible by advanced infrared devices. We also apply this technique to two-dimensional temperature mapping and to dynamic emissions from engine exhaust and human breathing.