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DOAS AS AN COMPLEMENTARY TOOL FOR LIDAR MEASUREMENTS R. Jimenez, I.Balin, H.van den Bergh and B. Calpini Laborator

Logo optimisé par . J.-D.Bonjour, SI-DGR . 13.4.93. ÉCOLE POLYTECHNIQUE. FÉDÉRALE DE LAUSANNE. DOAS AS AN COMPLEMENTARY TOOL FOR LIDAR MEASUREMENTS R. Jimenez, I.Balin, H.van den Bergh and B. Calpini Laboratory for Air and Soil Pollution (LPAS)

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DOAS AS AN COMPLEMENTARY TOOL FOR LIDAR MEASUREMENTS R. Jimenez, I.Balin, H.van den Bergh and B. Calpini Laborator

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  1. Logo optimisé par J.-D.Bonjour, SI-DGR 13.4.93 ÉCOLE POLYTECHNIQUE FÉDÉRALE DE LAUSANNE DOAS AS AN COMPLEMENTARY TOOL FOR LIDAR MEASUREMENTS R. Jimenez, I.Balin, H.van den Bergh and B. Calpini Laboratory for Air and Soil Pollution (LPAS) Swiss Federal Institute of Technology(EPFL) CH. 1015. LAUSANNE bertrand.calpini@epfl.ch 20th International Laser Radar Conference Vichy, FRANCE July 10-14, 2000 DOASTEI 2000 UV-VIS beam A new DOAS TE 2000 system -Differential Optical Absorption Spectroscopy – is continuously developed at LPA-EPFL laboratory. Measurements of O3 , NO2 and SO2 were validated during many field campaigns by comparison with many point monitor measurements and a OPSIS DOAS system. Reference spectra studies and measurements were also performed for BTEX, HONO,CH2O and NO3. Seregno-Italy, 1999 DOAS 2000 Optical Layout DOAS 2000 System Method DOAS 2000 Specificity Based on the UV-VIS high-frequency structure of molecular absorption spectra (differential spectra), DOAS is a relatively new method to measure the concentration of the trace gases in the atmosphere The average field concentration is retrieved by a multiple regression of the differential field spectra fitting the sum of the differential reference spectra. DA = D C L Advantages: -multi-compound measurement -“in situ” monitoring technique - integrated-path measurements -fenceline and flux measurements - non-contact measurements - relatively low maintenance costs DOAS 2000 Technical Parameters Coaxial Cassegrain of 8” telescope ~ 1ppb detection limit L = 50-2000 m Optical Path Xe Lamp 150W Light Source 33 Hz Vibrating Slit 250 to 650nm spectral range 40 nm analytical windows PMT detection device Where DA= A- Fn is the differential absorbance (A) Fn = polynomial filter of degree n [Ci] = concentration of the “i” compound L = optical path i = multiple regression coefficients D =  - Fn is the differential UV-VIS cross section DOAS CH2O MEASUREMENTS DOAS BTEX MEASUREMENTS CH2O Measurements Region of measurements and simulation domain DOAS on the waste water treatment plant Vidy: Lausanne Switzerland, Sept’99 Oxygen Interference Problem 2D O3 and CH2O Simulation 13th May 1998 O3 and CH2O Model and Measurements Seregno on the 13th May 1998 A B DOAS BTEX measurement serie DOAS BTEX and FID NMHC comparison C D A. O3at 10:00. B.HCHO at 10:00. C. O3 at 16:00. D. HCHO at 16:00 [ppb] [ppb] POINT MONITOR and DOAS COMPARISON DOAS ground measurement for LIDAR profile CONCLUSION This new DOASTEI 2000 system is currently used to measure the criteria gases (NO2, O3, SO2) and take usually part in the tropospheric air pollution measurements campaign (e.g. Milan-Italy 1998, Grenoble-France 1999 and Lausanne –Switzerland 1999). The new developments are on going to improve and validate the BTEX, CH2O, NO3 and HONO measurements. The DOAS ground measurements (e.g. O3) complete the O3LIDAR vertical profiles. O3 NO2 Acknowledgements: Thermo Environmental Instruments (TEI) Franklin –USA and STEP-Vidy, Lausanne- Switzerland http://lpas.epfl.ch/lidar/

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