Abstract

The National Bureau of Standards has made a spectroscopic study of the infrared radiation from combustion gases under the sponsorship of the Wright Air Development Center. This work was done by G. A. Hornbeck and L. O. Olsen of the combustion controls laboratory to provide information that may make possible the measurement of jet-engine and gas-turbine exhaust temperatures. Ultimately such data should aid in the development of a flight-type radiation pyrometer to indicate and control the temperature of the hot gases which form the working medium for jet engines.

Modeling absorption spectra for detection of the combustion products of jet engines by laser remote sensing

Olga K. Voitsekhovskaya, Danila E. Kashirskii, Oleg V. Egorov, and Olga V. Shefer
Appl. Opt. 55(14) 3814-3823 (2016)

Combustion exhaust measurements of nitric oxide with an ultraviolet diode-laser-based absorption sensor

Thomas N. Anderson, Robert P. Lucht, Rodolfo Barron-Jimenez, Sherif F. Hanna, Jerald A. Caton, Thomas Walther, Sukesh Roy, Michael S. Brown, James R. Gord, Ian Critchley, and Luis Flamand
Appl. Opt. 44(8) 1491-1502 (2005)

High-speed laser-induced fluorescence and spark plug absorption sensor diagnostics for mixing and combustion studies in engines

Michael Cundy, Torsten Schucht, Olaf Thiele, and Volker Sick
Appl. Opt. 48(4) B94-B104 (2009)

Temperature errors in two-color pyrometry simultaneously considering reflection and combustion gas radiation

Yunwei Huang, Jianyu Long, Dengfu Chen, Mujun Long, Zhe Yang, and Chuan Li
Opt. Express 29(16) 25084-25099 (2021)

Gas visualization of industrial hydrocarbon emissions

Jonas Sandsten, Hans Edner, and Sune Svanberg
Opt. Express 12(7) 1443-1451 (2004)