WP3 – Developing research facilities
LIDAR ◦ LISA LISA: 2-channels IR-VIS lidar ◦ MILI MILI: 2-channels UV eye- safe scanning lidar ◦ RALI RALI: 6-channels multiwavelength lidar ◦ FLUORES FLUORES: fluorescence lidar ◦ OLI OLI: tropospheric ozone lidar (soon) COMPLEMENTARY ◦ Sun photometer ◦ Nephelometer ◦ Particle sizer ◦ Mobile laboratory DELICE Kick‐off meeting, Bucharest, March 10‐11, 2009 2
Meteorological parameters?! Particles composition?! Not yet Not yet implemented! implemented! DELICE Kick‐off meeting, Bucharest, March 10‐11, 2009 3
Improvement of technical characteristics for lidars: ◦ Range ◦ Stability ◦ Accuracy Meteorological profiles: ◦ Wind ◦ Temperature ◦ Humidity Aerosol composition Urgent needs at ROLICE Solutions ? DELICE Kick‐off meeting, Bucharest, March 10‐11, 2009 4
Task 3.1 Identifying best technical Task 3.2 Upgrading solutions for the existing R&D Task 3.3 Purchasing Objective: Objective: improvement of equipments to fulfil up to date R&D To improve the centre’s networks equipments to existing research infrastructure to fit requirements extend the area of infrastructure applications and (EARLINET, applications networks AERONET) requirements DELICE Kick‐off meeting, Bucharest, March 10‐11, 2009 5
Complex and application-sensitive equipments ⇒ technical characteristics must be well defined Wide area of possible configurations and designs ⇒ optimum choice of models and providers Orient the decision following: ◦ The conclusions of: a detailed study based on existing literature market-oriented research ⇒ link to WP4 ◦ the recommendation of: The Advisory Board ⇒ link to WP1 The stakeholders Group ⇒ link to WP1 Counterparts (EARLINET, AERONET) ⇒ link to WP5 DELICE Kick‐off meeting, Bucharest, March 10‐11, 2009 6
Primary target: lidars for EARLINET (LISA and RALI) ⇒ link to WP2 (training) ◦ LISA Replacement of detection modules and laser ⇒ collaboration with Institute of Physics, National Academy of Science Bjelarus ◦ RALI Mounting of eye-pieces in front of PMTs ⇒ collaboration with: Meteorologisches Institut der Ludwig-Maximilians- Universität - Munich, Germany (design) RAYMETRICS, Greece (mounting) DELICE Kick‐off meeting, Bucharest, March 10‐11, 2009 7
In order to be quantitative, lidars must be complemented by other instruments: ◦ Meteorological profiles Wind ⇒ wind profiler (lidar/sodar/scintillometer) Temperature, pressure, humidity ⇒ microwave radiometer (radiosounding not possible at our site!) ◦ Particles composition and size ⇒ Aerosol Mass Spectrometer ROLICE could cover many applications: ◦ Atmospheric boundary layer research ◦ Air quality observation ◦ Global climate change research ◦ Forest fire management ◦ Emissions characterization of combustion sources ◦ Direct determination of OC emissions indices with simultaneous measurement of plume CO 2 DELICE Kick‐off meeting, Bucharest, March 10‐11, 2009 8
Deliverables Milestones Delivery Dissemi Milest Delivery Del. date Deliverable name -nation one Milestone name date from no. (proj. level no. Annex I month) Report on equipments available Establish technical requirements; D3 on the market PU 3 M6 marketing 2 D7 Upgrade report CO 12 M9 Define operations for upgrade 4 R&D equipments purchased and D11 installed PU 15 M10 Organize public tender 4 DELICE Kick‐off meeting, Bucharest, March 10‐11, 2009 9
450000 0% 400000 0% 3% 17% 350000 300000 250000 80% 200000 150000 0% 100000 50000 Personnel costs 0 Ozone lidar Raman lidar Mini lidar AMS Radiometer Wind profiler YAG:Nd laser Subcontracting costs Equipments Consumables Total cost Mobility Allowable EC contribution Total indirect costs Requested from EC Costs per category Costs per period DELICE Kick‐off meeting, Bucharest, March 10‐11, 2009 10
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