logging in or signing up TUE pm Bergot 6 06 Jancis Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 48 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: October 24, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Slide1: T. Bergot - Météo-France CNRM/GMME 1) Methodology 2) Results for Paris-CdG airport Improved site-specific numerical model of fog and low clouds -dedicated observations -Cobel-Isba 1D model -adaptative local assimilation scheme -results for 2002-2003, 2003-2004 and 2004-2005 winter seasons -applications / limits 3) Conclusions / prospectivesSlide2: Introduction 1) LVP conditions at Paris CdG visi<600m or ceiling <200ft (LVP conditions) : the capacity of landing / take-off is reduced by a factor 2 Current operational NWP models are not able to provide valuable information to forecast LVP conditions 2) Why? Physical processes associated to fog (e.g. turbulence in stable layer) : see Bergot et al. WSN05 –1.04 Vertical resolution : see Bergot et al. WSN05 – 1.04 Sensibility to initial conditions : high density observing network + adaptive mesoscale assimilation scheme “local” integrated forecast system : High resolution Cobel-Isba model Dedicated observations + local assimilation schemeSlide3: Turbulent processes (stable cases) Radiative processes (IR+vis) Microphysical processes (condensation-evaporation, sedimentation) Exchanges between soil, vegetation and atmosphere ISBA COBEL Slide4: Meteorological tower of 30m : T / Hu% Ground measurements : T / W inside the soil (between ground and –50cm) short- and long-wave radiations Airport terminal 1: T / H% Radiation fluxes Since december 2002 International Paris CdG airportSlide5: Local assimilation scheme Observations ISBA offline COBEL/ISBA Local forecasting : Fog onset visibility / vertical thickness clearance forecaster guess Mesoscale NWP model (3D) Improved site-specific numerical predictionSlide6: Results for 3 winter seasons at Paris CdG LVP Visi<600m or Ceil<200ft Hit Ratio False Alarm Rate Fog Visi<600m Hit Ratio False Alarm RateSlide7: Sensitivity to local assimilation LVP : visi<600m and/or ceiling<200ft Forecast time (h) Forecast time (h) Hit Ratio False Alarm RateSlide8: Limits 2) Accurate forecast requires : integrated approach Accurate high resolution model Dedicated measurements inside surface boundary layer (nocturnal inversion) Adaptive assimilation scheme at local scale 1) Forecast quality 1D model can be an alternative tool to forecast local parameters Forecast is helpful during the first 6hSlide9: Conclusions / perspectives 1) Operational forecast : Paris CdG 2) Other sites in France : Paris-Orly, Lyon-St Exupery Operational since 2004-2005 winter season : improvement of the forecast of LVP conditions Future : 1h assimilation – forecast cycle (frequent update of the forecast in LVP conditions) Future : predictability - local ensemble forecast system (Roquelaure et al. WSN05 2.30)Slide10: Conclusions / Prospective Collaboration : US C&V (http://www.ll.mit.edu/AviationWeather/cvp.html) 2) Collaboration : Morocco – Casablanca airport dedicated observations = sounding + SYNOP/METAR Optimization of local assimilation scheme Test of Cobel-Isba assimilation / forecast system San Francisco : Cobel-Isba model operational in a consensus forecast system New-York : tests on Brookhaven site dedicated to observation of fog and low clouds (http://www.rap.ucar.edu/staff/tardif/fog/BNLsensors.html)Slide11: QUESTIONS!Slide12: Fine mesh vertical grid First level : 0.5m 20 levels below 200m (Bergot 1993 ; Bergot and Guedalia 1994 ;Guedalia and Bergot, 1994) Physical parameterizations High resolution radiation scheme (232 spectral intervals) Turbulence scheme : turbulent kinetic energy (TKE) http://www.rap.ucar.edu/staff/tardif/COBELSlide13: Assimilation at local scale 1) Local 1D-Var Adaptive variational assimilation scheme dedicated observations 2) Initialisation of fog / low clouds 3) Initialisation of soil parameters Define the depth of the cloudy area (minimization of the model errors on the radiative fluxes divergence) Correction of the atmospheric profiles below and inside the cloudy area (dry / moist mixed area) Soil temperature and moisture : linear interpolation of measurementsSlide14: Guess = previous COBEL-ISBA forecast (3h) Altitude « observations » = 3D NWP Aladin forecast Surface observations = local data (30m tower, 2m obs.) 2002-2003 Winter Bias = 0.0°C Std. Dev. = 0.3°C Temperature at 1m (observation) Temperature at 1m (CI Cobel-Isba) 1D-Var : T / q surface boundary layer Temperature at 1m (initial conditions)Slide15: Results for the 2002-2003 winter season: 2m temperatureSlide16: Results for the 2002-2003 winter season : IR radiative fluxesSlide17: IR fluxes when low clouds are detected Low clouds from Aladin bias=-41.9W/m2 low clouds from local assimilation bias=-1.0W/m2 3D operational NWP models are not able to give realistic forecasts of low clouds! Sensitivity to local initialisation : low cloudsSlide18: Results for 3 winter seasons at Paris CdG LVP 00UTC 03UTC 06UTC 09UTC N~=50 N~=50 N~=30 N~=15Slide19: Results for 3 winter seasons at Paris CdG N~=10 N~=15 N~=20 N~=20 LVP 12UTC 15UTC 18UTC 21UTC You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
TUE pm Bergot 6 06 Jancis Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 48 Category: Entertainment License: All Rights Reserved Like it (0) Dislike it (0) Added: October 24, 2007 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Slide1: T. Bergot - Météo-France CNRM/GMME 1) Methodology 2) Results for Paris-CdG airport Improved site-specific numerical model of fog and low clouds -dedicated observations -Cobel-Isba 1D model -adaptative local assimilation scheme -results for 2002-2003, 2003-2004 and 2004-2005 winter seasons -applications / limits 3) Conclusions / prospectivesSlide2: Introduction 1) LVP conditions at Paris CdG visi<600m or ceiling <200ft (LVP conditions) : the capacity of landing / take-off is reduced by a factor 2 Current operational NWP models are not able to provide valuable information to forecast LVP conditions 2) Why? Physical processes associated to fog (e.g. turbulence in stable layer) : see Bergot et al. WSN05 –1.04 Vertical resolution : see Bergot et al. WSN05 – 1.04 Sensibility to initial conditions : high density observing network + adaptive mesoscale assimilation scheme “local” integrated forecast system : High resolution Cobel-Isba model Dedicated observations + local assimilation schemeSlide3: Turbulent processes (stable cases) Radiative processes (IR+vis) Microphysical processes (condensation-evaporation, sedimentation) Exchanges between soil, vegetation and atmosphere ISBA COBEL Slide4: Meteorological tower of 30m : T / Hu% Ground measurements : T / W inside the soil (between ground and –50cm) short- and long-wave radiations Airport terminal 1: T / H% Radiation fluxes Since december 2002 International Paris CdG airportSlide5: Local assimilation scheme Observations ISBA offline COBEL/ISBA Local forecasting : Fog onset visibility / vertical thickness clearance forecaster guess Mesoscale NWP model (3D) Improved site-specific numerical predictionSlide6: Results for 3 winter seasons at Paris CdG LVP Visi<600m or Ceil<200ft Hit Ratio False Alarm Rate Fog Visi<600m Hit Ratio False Alarm RateSlide7: Sensitivity to local assimilation LVP : visi<600m and/or ceiling<200ft Forecast time (h) Forecast time (h) Hit Ratio False Alarm RateSlide8: Limits 2) Accurate forecast requires : integrated approach Accurate high resolution model Dedicated measurements inside surface boundary layer (nocturnal inversion) Adaptive assimilation scheme at local scale 1) Forecast quality 1D model can be an alternative tool to forecast local parameters Forecast is helpful during the first 6hSlide9: Conclusions / perspectives 1) Operational forecast : Paris CdG 2) Other sites in France : Paris-Orly, Lyon-St Exupery Operational since 2004-2005 winter season : improvement of the forecast of LVP conditions Future : 1h assimilation – forecast cycle (frequent update of the forecast in LVP conditions) Future : predictability - local ensemble forecast system (Roquelaure et al. WSN05 2.30)Slide10: Conclusions / Prospective Collaboration : US C&V (http://www.ll.mit.edu/AviationWeather/cvp.html) 2) Collaboration : Morocco – Casablanca airport dedicated observations = sounding + SYNOP/METAR Optimization of local assimilation scheme Test of Cobel-Isba assimilation / forecast system San Francisco : Cobel-Isba model operational in a consensus forecast system New-York : tests on Brookhaven site dedicated to observation of fog and low clouds (http://www.rap.ucar.edu/staff/tardif/fog/BNLsensors.html)Slide11: QUESTIONS!Slide12: Fine mesh vertical grid First level : 0.5m 20 levels below 200m (Bergot 1993 ; Bergot and Guedalia 1994 ;Guedalia and Bergot, 1994) Physical parameterizations High resolution radiation scheme (232 spectral intervals) Turbulence scheme : turbulent kinetic energy (TKE) http://www.rap.ucar.edu/staff/tardif/COBELSlide13: Assimilation at local scale 1) Local 1D-Var Adaptive variational assimilation scheme dedicated observations 2) Initialisation of fog / low clouds 3) Initialisation of soil parameters Define the depth of the cloudy area (minimization of the model errors on the radiative fluxes divergence) Correction of the atmospheric profiles below and inside the cloudy area (dry / moist mixed area) Soil temperature and moisture : linear interpolation of measurementsSlide14: Guess = previous COBEL-ISBA forecast (3h) Altitude « observations » = 3D NWP Aladin forecast Surface observations = local data (30m tower, 2m obs.) 2002-2003 Winter Bias = 0.0°C Std. Dev. = 0.3°C Temperature at 1m (observation) Temperature at 1m (CI Cobel-Isba) 1D-Var : T / q surface boundary layer Temperature at 1m (initial conditions)Slide15: Results for the 2002-2003 winter season: 2m temperatureSlide16: Results for the 2002-2003 winter season : IR radiative fluxesSlide17: IR fluxes when low clouds are detected Low clouds from Aladin bias=-41.9W/m2 low clouds from local assimilation bias=-1.0W/m2 3D operational NWP models are not able to give realistic forecasts of low clouds! Sensitivity to local initialisation : low cloudsSlide18: Results for 3 winter seasons at Paris CdG LVP 00UTC 03UTC 06UTC 09UTC N~=50 N~=50 N~=30 N~=15Slide19: Results for 3 winter seasons at Paris CdG N~=10 N~=15 N~=20 N~=20 LVP 12UTC 15UTC 18UTC 21UTC