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Short-range supercontinuum based lidar for combustion diagnostics

Tutkimustuotosvertaisarvioitu

Standard

Short-range supercontinuum based lidar for combustion diagnostics. / Saleh, Abba; Ryczkowski, Piotr; Genty, Goery; Toivonen, Juha.

SPIE Future Sensing Technologies. toim. / Masafumi Kimata; Christopher R. Valenta. SPIE, IEEE, 2019. 111970Y (Proceedings of SPIE; Vuosikerta 11197).

Tutkimustuotosvertaisarvioitu

Harvard

Saleh, A, Ryczkowski, P, Genty, G & Toivonen, J 2019, Short-range supercontinuum based lidar for combustion diagnostics. julkaisussa M Kimata & CR Valenta (toim), SPIE Future Sensing Technologies., 111970Y, Proceedings of SPIE, Vuosikerta. 11197, SPIE, IEEE, Tokyo, Japani, 14/11/19. https://doi.org/10.1117/12.2542720

APA

Saleh, A., Ryczkowski, P., Genty, G., & Toivonen, J. (2019). Short-range supercontinuum based lidar for combustion diagnostics. teoksessa M. Kimata, & C. R. Valenta (Toimittajat), SPIE Future Sensing Technologies [111970Y] (Proceedings of SPIE; Vuosikerta 11197). SPIE, IEEE. https://doi.org/10.1117/12.2542720

Vancouver

Saleh A, Ryczkowski P, Genty G, Toivonen J. Short-range supercontinuum based lidar for combustion diagnostics. julkaisussa Kimata M, Valenta CR, toimittajat, SPIE Future Sensing Technologies. SPIE, IEEE. 2019. 111970Y. (Proceedings of SPIE). https://doi.org/10.1117/12.2542720

Author

Saleh, Abba ; Ryczkowski, Piotr ; Genty, Goery ; Toivonen, Juha. / Short-range supercontinuum based lidar for combustion diagnostics. SPIE Future Sensing Technologies. Toimittaja / Masafumi Kimata ; Christopher R. Valenta. SPIE, IEEE, 2019. (Proceedings of SPIE).

Bibtex - Lataa

@inproceedings{c932c387a6634230b8c3964788332beb,
title = "Short-range supercontinuum based lidar for combustion diagnostics",
abstract = "We developed a short range Lidar system using a supercontinuum source spectrally tailored to cover the ro-vibrational transition energies of desired components of a flue gas. The system enables simultaneous remote measurements of the gas parameters, like temperature and concentration which play a key role in the performance of combustion power plants. The technique requires only one inspection window and can thus be used in combustion units with limited access. It exploits differential absorption between specific wavelength bands of the gas absorption spectrum. The transmittance of individual wavelength band is derived from the detected backscattered temporal intensity of the supercontinuum pulses. We demonstrate preliminary industrial measurement of water vapor temperature and concentration in a full scale boiler. The technique also enables 3D mapping of temperature and concentration.",
keywords = "Combustion, Diagnostics, Lidar, Remote sensing, Supercontinuum",
author = "Abba Saleh and Piotr Ryczkowski and Goery Genty and Juha Toivonen",
note = "jufoid=71479",
year = "2019",
doi = "10.1117/12.2542720",
language = "English",
series = "Proceedings of SPIE",
publisher = "SPIE, IEEE",
editor = "Masafumi Kimata and Valenta, {Christopher R.}",
booktitle = "SPIE Future Sensing Technologies",

}

RIS (suitable for import to EndNote) - Lataa

TY - GEN

T1 - Short-range supercontinuum based lidar for combustion diagnostics

AU - Saleh, Abba

AU - Ryczkowski, Piotr

AU - Genty, Goery

AU - Toivonen, Juha

N1 - jufoid=71479

PY - 2019

Y1 - 2019

N2 - We developed a short range Lidar system using a supercontinuum source spectrally tailored to cover the ro-vibrational transition energies of desired components of a flue gas. The system enables simultaneous remote measurements of the gas parameters, like temperature and concentration which play a key role in the performance of combustion power plants. The technique requires only one inspection window and can thus be used in combustion units with limited access. It exploits differential absorption between specific wavelength bands of the gas absorption spectrum. The transmittance of individual wavelength band is derived from the detected backscattered temporal intensity of the supercontinuum pulses. We demonstrate preliminary industrial measurement of water vapor temperature and concentration in a full scale boiler. The technique also enables 3D mapping of temperature and concentration.

AB - We developed a short range Lidar system using a supercontinuum source spectrally tailored to cover the ro-vibrational transition energies of desired components of a flue gas. The system enables simultaneous remote measurements of the gas parameters, like temperature and concentration which play a key role in the performance of combustion power plants. The technique requires only one inspection window and can thus be used in combustion units with limited access. It exploits differential absorption between specific wavelength bands of the gas absorption spectrum. The transmittance of individual wavelength band is derived from the detected backscattered temporal intensity of the supercontinuum pulses. We demonstrate preliminary industrial measurement of water vapor temperature and concentration in a full scale boiler. The technique also enables 3D mapping of temperature and concentration.

KW - Combustion

KW - Diagnostics

KW - Lidar

KW - Remote sensing

KW - Supercontinuum

U2 - 10.1117/12.2542720

DO - 10.1117/12.2542720

M3 - Conference contribution

T3 - Proceedings of SPIE

BT - SPIE Future Sensing Technologies

A2 - Kimata, Masafumi

A2 - Valenta, Christopher R.

PB - SPIE, IEEE

ER -