Cloudnet meeting 18-19 Oct 2004 - Martial Haeffelin SIRTA Cloud and Radiation Observatory M. Haeffelin, A. Armstrong, L. Barthès, O. Bock, C. Boitel, D.

Slides:

Advertisements

Similar presentations

Filterbank Radiometers for Atmospheric Profiling

Advertisements

Ewan OConnor, Robin Hogan, Anthony Illingworth, Nicolas Gaussiat Radar/lidar observations of boundary layer clouds.

Radar/lidar observations of boundary layer clouds

Robin Hogan Anthony Illingworth Ewan OConnor Nicolas Gaussiat Malcolm Brooks University of Reading Cloudnet products available from Chilbolton.

Integrated Profiling at the AMF

Consiglio Nazionale delle Ricerche 3 rd COPS and GOP workshop April 2006 Consiglio Nazionale delle Ricerche Istituto di Metodologie per lAnalisi.

Radiative Atmospheric Divergence using ARM Mobile Facility, GERB data and AMMA stations A proposal led by Tony Slingo to deploy the new ARM Mobile Facility.

The Barbados Cloud Observatory: a first outlook

COPS - FRANCE Proposal submitted to ANR White call – March 2006.

FMI’s special measurement sites - Jokioinen and Sodankylä 1)Basic infrastructure and routine operations 2)Special instrumentation and research Sodankylä.

Aerosol and Cloud Microphysics Working Group Dietrich Althausen, Andrea Riede, Herman Russchenberg, Aldo Amodeo, Susanne Crewell, Paolo Di Girolamo, Stephen.

NDACC Working Group on Water Vapor NDACC Working Group on Water Vapor Bern, July 5 -7, 2006 Raman Lidar activities at Rome - Tor Vergata F.Congeduti, F.Cardillo,

Atmospheric structure from lidar and radar Jens Bösenberg 1.Motivation 2.Layer structure 3.Water vapour profiling 4.Turbulence structure 5.Cloud profiling.

Remote sensing of Stratocumulus using radar/lidar synergy Ewan O’Connor, Anthony Illingworth & Robin Hogan University of Reading.

Microwave Activities in Toulouse Erwan Motte Laboratoire d'Aérologie, Observatoire Midi-Pyrénées CNRS, Toulouse, France.

Atmospheric Measurements at Capel Dewi field station Prof. Geraint Vaughan.

COPS Workshop, February 2008 Long-term water vapour comparison at the ARM Mobile Facility S. Crewell, U. Löhnert, S. Kneifel (U Cologne) D. Turner.

TReSS (Transportable Remote Sensing Station) in Tamanrasset Overview of TReSS Status of implementation on April 1 st 2006 Operations in the framework of.

Bredbeck Workshop, 7 – 10 July 2003 Jörg Schulz Meteorological Institute, University of Bonn Harald Czekala RPG Radiometer.

Ewan O’Connor Anthony Illingworth Comparison of observed cloud properties at the AMF COPS site with NWP models.

Overview The path to Skywatch Video tour of the facility Brief rooftop instrument overview Description of real-time and.

LIDAR network F.Fierli, C. Flamant, F. Cairo. Scientific Task for SOP ● provide the aerosol content before convection episodes to improve the estimate.

Balloon-Borne Sounding System (BBSS) Used for atmospheric profiling Measures P, T, RH, wind speed and direction Uncertainties arise from incorrect surface.

Liam Tallis. Introduction Know the vertical distribution of water vapour in the atmosphere Profile for input into radiative transfer schemes Need to know.

Lidar algorithms to retrieve cloud distribution, phase and optical depth Y. Morille, M. Haeffelin, B. Cadet, V. Noel Institut Pierre Simon Laplace SYMPOSIUM.

University of Salford Doppler lidarUniversity of Manchester Radio Wind Profiler University of Salford MW RadiometerUniversity of Basilicata Raman lidar.

SCIENTIST WORK STATIONS Advanced display tools will build on current software to allow for integrated displays of data from onboard instrumentation (e.g.,

Remote-sensing of the environment (RSE) ATMOS Analysis of the Composition of Clouds with Extended Polarization Techniques L. Pfitzenmaier, H. Russchenbergs.

A Combined Measurement and Modelling Source Apportionment of Long-Range Transported Dust and its Impacts on Cloud and Precipitation Formation in California.

CloudNet: TARA status and database H. Russchenberg, O. Krasnov Delft University of Technology – IRCTR, The Netherlands.

TECO-2006 Geneva, Dec. 3-5, Improvements in the Upper-Air Observation Systems in Japan M. Ishihara, M. Chiba, Y. Izumikawa, N. Kinoshita, and N.

Chalmers (Sweden), CNRS (France), DWD (Germany), GKSS (Germany), HUT (Finland), IAP Bern (Switzerland), IRE Moscow (Russia), KNMI (The Netherlands), RAL.

SIRTA Site Instrumental de Recherche par Télédétection Atmosphérique Martial Haeffelin SIRTA Coordinator CLOUDNET Meeting, Paris May 2002.

Operation of Backscatter Lidar at Buenos Aires (34.6 S / 58.5 W) for the Retrieval and Analysis the Atmospheric Parameters in Cirrus Clouds, Tropopause.

Water Cycle Breakout Session Attendees: June Wang, Julie Haggerty, Tammy Weckwerth, Steve Nesbitt, Carlos Welsh, Vivek, Kathy Sharpe, Brad Small Two objectives:

Existing Scientific Instruments (of astronomical interest) AWS Concordia AWS Davis and AW11 (summer) 12 m Tower: Wind, Temperature, RH sensors at standard.

Thomas Rose Harald Czekala RPG Radiometer Physics GmbH Meckenheim, Germany HATPRO – A Meteorological Observing System.

Boundary layer temperature profile observations using ground-based microwave radiometers Bernhard Pospichal, ISARS 2006 Garmisch-Partenkirchen AMMA - Benin.

GIFTS - The Precursor Geostationary Satellite Component of a Future Earth Observing System GIFTS - The Precursor Geostationary Satellite Component of a.

Cabauw Experimental Site for Atmospheric Research - CESAR - Henk Klein Baltink Atmospheric Research Section.

Anthony Illingworth, Robin Hogan, Ewan O’Connor, U of Reading, UK Nicolas Gaussiat Damian Wilson, Malcolm Brooks Met Office, UK Dominique Bouniol, Alain.

ARM Data Overview Chuck Long Jim Mather Tom Ackerman.

Boundary layer observations in West Africa using a ground-based 14-channel microwave radiometer Bernhard Pospichal and Susanne Crewell University of Cologne.

1 « TReSS » ATMOSPHERIC OPTICAL REMOTE SENSING TRANSPORTABLE-MOBILE PLATFORM Pierre H. Flamant, Claude Loth Juan Cuesta, Dimitri Edouard, Florian Lapouge*

1 Atmospheric profiling to better understand fog and low level cloud life cycle ARM/EU workshop on algorithms, May 2013 J. Delanoe (LATMOS), JC.

Cloudnet Observing Stations Instrumentation C L Wrench Cloudnet Final Symposium – 12 October 2005.

Deutscher Wetterdienst Lindenberg Meteorological Observatory Richard Assmann Observatory Michael Sommer GRUAN Lead Centre, DWD 2 nd GRUAN Implementation.

Monitoring of Eyjafjallajökull Ash Layer Evolution over Payerne- Switzerland with a Raman Lidar Todor Dinoev, Valentin Simeonov*, and Mark Parlange Swiss.

October 02, st IHOP_2002 Water Vapor Intercomparison Workshop Status of intercomparisons and the next steps  Characterize moisture measuring techniques.

AGACC II: WP3: Aerosol properties and radiative forcing at Uccle Veerle De Bock Royal Meteorological Institute of Belgium

A new method for first-principles calibration

Drakkar Calibration The Drakkar microwave radiometer Calibrating Drakkar The Calibrated Data Future Work Delft, October 2004 Anne Armstrong (CETP/LMD)

Charles L Wrench RCRU Determining Cloud Liquid Water Path from Radiometer measurements at Chilbolton.

Geneva: Dec WMO / TECO – Dec 4 - 6, 2006 Richard-Aßmann Observatory, Lindenberg COST-720 Integrated Ground-Based Remote Sensing.

Basis of GV for Japan’s Hydro-Meteorological Process Modelling Research GPM Workshop Sep. 27 to 30, Taipei, Taiwan Toshio Koike, Tobias Graf, Mirza Cyrus.

JAPAN’s GV Strategy and Plans for GPM

BROADBAND INSTRUMENTS ENEA/Univ. of Valencia TypeModelMeasurementSpectral interval FOVAcquisition PyranometerCMP21Global SW↓ irradiance nm180°30.

Evaluation of cloudy convective boundary layer forecast by ARPEGE and IFS Comparisons with observations from Cabauw, Chilbolton, and Palaiseau  Comparisons.

Cloudnet meeting Oct Martial Haeffelin SIRTA Cloud and Radiation Observatory M. Haeffelin, A. Armstrong, L. Barthès, O. Bock, C. Boitel, D.

PRELIMINARY VALIDATION OF IAPP MOISTURE RETRIEVALS USING DOE ARM MEASUREMENTS Wayne Feltz, Thomas Achtor, Jun Li and Harold Woolf Cooperative Institute.

Report to WCRP Observations and Assimilation Panel David Goodrich Director, GCOS Secretariat Towards a GCOS Reference Upper Air Network.

UNIVERSITY OF BASILICATA CNR-IMAA (Consiglio Nazionale delle Ricerche Istituto di Metodologie per l’Analisi Ambientale) Tito Scalo (PZ) Analysis and interpretation.

DOE ARM Calibration / Validation Instrumentation Data essentially available in real-time –ARM (Atmospheric Radiation Measurement) –CART (Cloud And Radiation.

Cloudnet Workshop 4-5 Apr Martial Haeffelin

Summary Sondes RS 80 has dry bias. RS 92 virtually without bias

NPOESS Airborne Sounder Testbed (NAST)

Site Instrumental de Recherche par Télédétection Atmosphérique

Cabauw - status of instruments -

Payerne station operations

Meteorological Measurements for Improved Air Quality Modeling

Presentation transcript:

Cloudnet meeting Oct Martial Haeffelin SIRTA Cloud and Radiation Observatory M. Haeffelin, A. Armstrong, L. Barthès, O. Bock, C. Boitel, D. Bouniol, M. Chiriaco, J. Delanoe, P. Drobinski, J-L. Dufresne, C. Flamant, M. Grall, F. Hourdin, F. Lapouge, Y. Lemaître, A. Mathieu, Y. Morille, V. Noel, J. Pelon, C. Pietras, A. Protat, B. Romand, G. Scialom, R. Vautard, Y. Wanherdrick Institut Pierre Simon Laplace Status

Cloudnet meeting Oct Martial Haeffelin Routine Observations Cloudnet

Cloudnet meeting Oct Martial Haeffelin Web access: NRT QL + catalogue ftp access: Oct 04PeriodLevel-1Level-2 RASTA10/ /2004 NetCDF v2 - LNA10/ /2004 NetCDF v1 LD4001/ /2004 NetCDF v2 Drakkar10/ /2003 NetCDF v2 Rad Flux04/ /2004 NetCDF v2 SIRTA DATA PROCESSING

Cloudnet meeting Oct Martial Haeffelin Status of RASTA Radar 2004/2005 developments: Nov Jun 2005: more stable and controlled version of RASTA in view of upcoming airborne campaigns If finances permit, an independent ground-based version will be restored Software : 10/ /2004 reprocessed by D. Bouniol Accounting for calibration and transmitter power loss

Cloudnet meeting Oct Martial Haeffelin Status of LNA Lidar Hardware : Amplifier electronics revised Automatic shut-down in case of rain 532/1064 nm laser energy monitoring 2004/2005 developments: Nov 2004: Improved overlap function + maintenance of optical system Jan-May 2005: Automatic optical alignment system >2006 developments: LNA installed in 30ft shelter Window above telescope Software : Update to include new parameters and more robust real-time processing

Cloudnet meeting Oct Martial Haeffelin Status of Radiative Flux Station Operations: Installed 02/2003 SW Direct Flux: CH1 SW Diffuse Flux: CM22 SW Global Flux: component sum LW Down Flux: CG4 12/ /2004: 2AP tracker breakdown: CM22 used for SW global Data processing: 1-min data, QC check, BSRN format Data successfully submitted to BSRN archive

Cloudnet meeting Oct Martial Haeffelin SW Calibration: 06/2004 (original K&Z cal 10/2002) On site using K&Z PM0-6 ACR CH1: Transfer from PMO-6 CM22: Shade/Unshade technique LW Calibration: Kipp&Zonen WRC - Davos ACR Status of Radiative Flux Station

Cloudnet meeting Oct Martial Haeffelin SW Calibration: CH1:  V/Wm -2 ( %) CM22: 9.76  V/Wm -2 ( %) CH1 CM22 Status of Radiative Flux Station

Cloudnet meeting Oct Martial Haeffelin SIRTA Instrumentation LIDAR B-scat Lidar (532, 1064) Clouds, aerosols properties 1999 Ceilometer (KNMI) Cloud, BL Height 2002 IR Doppler Lidar (10.6  m) 3D Wind1999 Raman Lidar (355 nm)Water vapor, Profile2004 Ozone Lidar (316 nm)Ozone, aerosols2004 RADAR Doppler Radar 95 GHz Cloud properties 2002 Doppler Radar 5 GHzPrecipitation, 3D Wind1999 RADIO- METER BB Radiometers Radiative Fluxes (2003 BSRN) 1999 Sun-Photometer Aerosols, water vapor 2002 IR Radiometer Brightness temperature 2002 MW Radiometer Water vapor + liquid 1999 IN-SITUWeather Pres., temp., humidity, wind 1999 Spectro-pluviometer Diameter + drop velocity 1999 Radiosonde Vertical Profiles (00, 12 UT) 1999 Sonic AnemometerTurbulent Fluxes2004

Cloudnet meeting Oct Martial Haeffelin Atmospheric Water Vapor Measurements from Ground-based and Satellite Remote Sensing Instruments : VAPIC SIRTA - Palaiseau / 17 May - 18 June 2004 VAPIC-1 (2004) - Objectives  Improve water vapor retrievals at SIRTA  Compare WV retrieval techniques from ground- based remote sensing and satellites to better define uncertainties and limitations  Test methodologies for simultaneous exploitation of ground and satellite data to produce 3D/4D WV fields.  Develop methodologies to exploit measurements in preparation of the African Monsoon Multi-disciplinary Analysis project (AMMA, 2006). VAPIC-2 (2005) Objectives To study low- altitude cloud formation processes (boundary layer clouds) in mid- latitudes. CETP, LMD, SA, LOA, IGN, Météo-France, U. Muenchen, Radiometer Physics, Kipp&Zonen Martial Haeffelin + VAPIC Investigators

Cloudnet meeting Oct Martial Haeffelin VAPIC RS92 Radiosounding HATPRO 20,30,60 GHz T,U Profiler LVT: Wind IR Doppler Lidar RONSARD 5 GHz Precip Radar RASTA 95 GHz Cloud Radar 355nm N 2, H 2 0 RAMAN Lidar LNA 532/1064 Cloud Aerosol Lidar RESCOM 20/30 GHz MWR Sunphotometer Spectro pluviometer GPS receiver

Cloudnet meeting Oct Martial Haeffelin Integrated Water Vapor content Solving calibration issues to obtain instrument consistencies Sunphotometer Microwave radiometer and profilers GPS receivers Radiosonde data HATPRO 20,30,60 GHz T,U Profiler DRAKKAR 20/30 GHz MWR Sunphotometer 19 May 2004 IWV (kg/m 2 )

Cloudnet meeting Oct Martial Haeffelin Vertical Profiles of Water Vapor (RH and Mixing Ratio) Raman Lidar Microwave profilers Radiosonde data 5 GHz radar RS90 + RS92 Radiosounding 355nm N 2, H 2 0 RAMAN Lidar 19 May 2004