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University of Salford Doppler lidar University of Manchester Radio Wind Profiler University of Salford MW Radiometer

Instrumentation at Rhine Valley Supersite. University of Salford Doppler lidar University of Manchester Radio Wind Profiler University of Salford MW Radiometer University of Basilicata Raman lidar University of Hamburg cloud radar U niversity of Hamburg rain radar

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University of Salford Doppler lidar University of Manchester Radio Wind Profiler University of Salford MW Radiometer

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  1. Instrumentation at Rhine Valley Supersite University of Salford Doppler lidarUniversity of ManchesterRadio Wind Profiler University of SalfordMW Radiometer University of Basilicata Raman lidar University of Hamburg cloud radar University of Hamburg rain radar GFZ Potsdam GPS ARM radiometer University of Bonn Polarimetric MW RadiometerUK Radiosonde system ? UK Sodar ?

  2. Instrumentation at Rhine Valley Supersite University of Salford Doppler lidar University of ManchesterRadio Wind Profiler University of Basilicata R Raman lidar University of SalfordMW Radiometer University of Hamburg cloud radar University of Hamburg rain radar ARM radiometer GFZ Potsdam GPS University of Bonn Polarimetric MW Radiometer UK Radiosonde system ? UK Sodar ?

  3. Rhine Valley Supersite Water treatment facility (Kläranlage) Archern 48°38’ N, 8°03’ E, elev 140 m Community facility run by the local government,

  4. Archern 10.5 km Hornisgrinde The site is at approx. 10.5 km from the supersite at Hornisgrinde, where the UHOH scanning DIAL and R Raman lidar systems are located (these instruments having an horizonal coverage of approx. 20 km). Thus, the limited distance between these two sites will allow intercomparisons of Rhine site intrumentation with the UHOH DIAL and Raman lidars.

  5. 120 m 200 m

  6. LC GPS CR RR LC WP RL WP = Wind Profiler DL = Doppler Lidar MWR = MW Radiometer RL = Raman Lidar RR = Rain radar CR = Cloud radar GPS LC = Logistic Container DL MWR

  7. University of Salford Doppler lidar:Mobile laboratory 4.7 m long and 3 m high, 3.2 kVA, autonomous operation, no personnel on site except for installation, LAN/Internet connection with 1 IP addresses, speed 250kbits/s, no real-time analysed data. University of ManchesterRadio Wind Profiler: 10 x 10 m antenna, power = 3.5 KVA (2x standard 13A plugs, autonomous operation, no personnel on site except for installation, LAN/Internet connection with 2 fixed IP addresses (speed around 250 kbits per sec ) in order to pcanywhere into the site, no real-time analysed data. University of Salford14 Channel Microwave Radiometer:Dimensions: 950 mm length x 360 mm width x 630 mm height 3.2 kVA (240 V), autonomous operation, no personnel on site, LAN/Internet connection, no real-time analysed data. University of Basilicata Raman lidar: Sea-tainer, 6.00 x 2.30 x 3.19 (height), power = 6 kVA (220 V), running water, LAN/Internet connection with 2 IP addresses. University of Hamburg cloud radar:  2 kVA (230 V), LAN/Internet connection, real-time analysed data, no personnel on site except for installation, no assistance needed onsite. University of Hamburg rain radar: 2 kVA, LAN/Internet connection, real-time analysed data, no personnel on site except for installation, no assistance needed onsite. GFZ Potsdam GPS: 0.1 kVA (230 V), slow internet connection, need for indoor space to locate a computer. ARM radiometer: 0.1kVA (220 V), little water only for dome cleaning, need for indoor space to locate a computer, no personnel on site, assistance needed onsite for dome cleaning, LAN/Internet connection with 2 IP addresses. University of Bonn Polarimetric MW Radiometer: 0.3kVA (220 V), need for indoor space to locate a computer, no personnel on site, LAN/Internet connection with 1 IP address. UK Radiosonde system: ? UK Sodar: ?

  8. OVERALL ELECTRICITY REQUIREMENTS Power= 20 kW distributed over 8 x16 A single phase plugs 1 x 32 A triphase plugs This is already avaialable at the station • We need to implement: • power distributors • current meters • Hans Münster from University of Hamburg is taking care of it OVERALL RUNNING WATER REQUIREMENTS 5 l/min (already available, but we need to implement pressure reducers) OVERALL INTERNET REQUIREMENTS ADSL Internet connection with 10 fixed IP addresses (speed 250 kbits/sec) Hans Münster from University of Hamburg is taking care of it

  9. PRESENT DEPLOYMENT STATUS All British instruments will be shipped on June 11 and will become operational by June 15. University of Basilicata Raman Lidar shipped on March 20.ARM radiometer and GFZ Potsdam GPSto be installed within the next monthPolarimetric MW Radiometer Universität Bonn- ADMIRARI will be installed at the end of May University of Hamburg cloud and rain radars shipped and installed on March 26.

  10. Main facility with: • 3 bathrooms inside • 1 lounge room with coffee machine

  11. Radiosonde Station • Provided by Geraint Vaughan/Steve Mobbs • Installed on a laptop. The base station comes with a portable antenna. The system receives GPS from sondes. • Total power requirement small (0.3 kW). • RS80 sondes avaialble, balloons, parachutes and helium gas not avaialable. • Gas regulator avaialble, but it is best get the regulator from a German group because a British one might not fit German gas bottles). • UK groups have no funding to provide people to prepare and launch sondes. • Personnel of Univ. of Basilicata avaialble for launches up to twice per day.

  12. University of ManchesterRadio Wind Profiler Radar: 7.7 m x 6.5 m Clutter screen because of trees, which is a fence about 2 m tall and around 10 m square

  13. University of Salford Doppler lidar Lidar Van 3m high by 6.9m long. Lidar van is going to house the University of Manchester wind profiler computer Salford University 1.5 micron Pulsed Doppler Lidar Base Unit 0.56 m x 0.54 m x 0.18 m Lidar Computer Telescope deployed on portacabin

  14. University of Salford MW Radiometer • 25 litres of liquid nitrogen for initial calibration. • Local delivery point for Liquid nitrogen to be located.

  15. University of Basilicata Raman Lidar - BASIL Several new channels have been introduced based on the cooperation with the University of Rome “La Sapienza”. Present measurement capability: • particle backscatter at 355, 532 nm and 1064 nm • particle extinction at 355 and 532 nm • particle depolarization at 355 and 532 nm • water vapour mixing ratio • atmospheric temperature • relative humidity • lidar ratio at 355 nm

  16. University of Hamburg cloud radar University of Hamburg rain radar standard setup & doppler-polarimetry

  17. ARM radiometer The control computer will be located in one of University of Hamburg containers

  18. GFZ Potsdam GPS receiver Outdoor component Indoor component Will be located in one of University of Hamburg containers

  19. Polarimetric MW Radiometer Universität Bonn • ADMIRARI (ADvanced MIcrowave RAdiometer for Rain Identification) • under development • will be ready for COPS

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