Remote sensing of temperature and concentration profiles of a gas jet by coupling infrared emission spectroscopy and LIDAR for characterization of aircraft engine exhaust

J.-P. Offret; J. Lebedinsky; L. Navello; V. Pina; B. Serio; Y. Bailly; P. Hervé

doi:10.1117/12.2184796

22 June 2015 Remote sensing of temperature and concentration profiles of a gas jet by coupling infrared emission spectroscopy and LIDAR for characterization of aircraft engine exhaust

J.-P. Offret, J. Lebedinsky, L. Navello, V. Pina, B. Serio, Y. Bailly, P. Hervé

Author Affiliations +

Proceedings Volume 9525, Optical Measurement Systems for Industrial Inspection IX; 95253Y (2015) https://doi.org/10.1117/12.2184796
Event: SPIE Optical Metrology, 2015, Munich, Germany

Abstract

Temperature data play an important role in the combustion chamber since it determines both the efficiency and the rate of pollutants emission of engines. Air pollution problem concerns the emissions of gases such as CO, CO₂, NO, NO₂, SO₂ and also aerosols, soot and volatile organic compounds. Flame combustion occurs in hostile environments where temperature and concentration profiles are often not easy to measure. In this study, a temperature and CO₂ concentration profiles optical measurement method, suitable for combustion analysis, is discussed and presented. The proposed optical metrology method presents numerous advantages when compared to intrusive methods. The experimental setup comprises a passive radiative emission measurement method combined with an active laser-measurement method. The passive method is based on the use of gas emission spectroscopy. The experimental spectrometer device is coupled with an active method. The active method is used to investigate and correct complex flame profiles. This method similar to a LIDAR (Light Detection And Ranging) device is based on the measurement of Rayleigh scattering of a short laser pulse recorded using a high-speed streak camera. The whole experimental system of this new method is presented. Results obtained on a small-scale turbojet are shown and discussed in order to illustrate the potentials deliver by the sophisticated method. Both temperature and concentration profiles of the gas jet are presented and discussed.

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J.-P. Offret, J. Lebedinsky, L. Navello, V. Pina, B. Serio, Y. Bailly, and P. Hervé "Remote sensing of temperature and concentration profiles of a gas jet by coupling infrared emission spectroscopy and LIDAR for characterization of aircraft engine exhaust", Proc. SPIE 9525, Optical Measurement Systems for Industrial Inspection IX, 95253Y (22 June 2015); https://doi.org/10.1117/12.2184796

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KEYWORDS

LIDAR

Temperature metrology

Carbon dioxide

Rayleigh scattering

Combustion

Photons

Emission spectroscopy

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