1 / 11

Provor Float development Serge Le Reste /Ifremer

Provor Float development Serge Le Reste /Ifremer. Development strategy around Provor technology. PROVOR float upgrades : Set up the capability to include additional sensors Improve the energy budget and reliability Provide tools to deploy from VOS

vila
Télécharger la présentation

Provor Float development Serge Le Reste /Ifremer

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Provor Float developmentSerge Le Reste /Ifremer AST9 18-20 March 2008 Exeter

  2. Development strategy around Provor technology • PROVOR float upgrades : • Set up the capability to include additional sensors • Improve the energy budget and reliability • Provide tools to deploy from VOS • Development of the Arvor float for operational needs • Development of coastal floats Pagode AST9 18-20 March 2008 Exeter

  3. Improve Transmission : Antenna Iridium/GPS • Allow transmission of a larger amount of data, reduce surface time. • Trident Sensors (GB) were abandon in June 2007 • An antenna was developed and qualified at Ifremer in order to fit the floats in 2007. It is used at sea presently but need to be optimized in term of volume and mass • An industrial version, which will be smaller and lighter is under development at Satimo (Brest) which combines Iridium/GPS AST9 18-20 March 2008 Exeter

  4. PROV-DO • Oxygen measurement withAanderaa optode. • 6 deployed by IFM-Geomar within Carbocean and 8 by IRD near Chili • First deployment Feb 2007 • Problem on Aanderaa optode calibration was highlighted in July which is critical for the Chili experiment ( minimum o2 zone) • Ongoing activity with Aanderaa to improve this calibration • In 2008 move O2 sensor to upper end cap, near CTD sensor. AST9 18-20 March 2008 Exeter

  5. PROV-BIO • 4+ 8profilers CTD + optical sensors : Version A :Wetlabs + Transmissometer -Satlantics Irradiance sensor Version B : versA + Chla & CDOM+ radiometer Iridium Transmission Status: Version A& B: Deployment planned in end of mars 2008 with the Ifremer Iridium antenna AST9 18-20 March 2008 Exeter

  6. PROV-CARBON • 2 prototypes Contribution to Carbocean (partner IFM Kiel) Transmittometer Wetlabs + Optode Aanderaa+ Transmission Iridium • Delay due to Iridium antenna • 2 floats deployed in Feb 2008: 7 cycles (each) have been achieved today. AST9 18-20 March 2008 Exeter

  7. PROV-CARBON AST9 18-20 March 2008 Exeter

  8. PROV-ULS Damocles Project contribution to the Polar Year PROVOR-Acoustic + « upward looking sounder »+ rafos transmitter + modem Functions: • Can drift under ice, • Provide measure of the ice cap thickness ( ULS sensor), • Positioned at drift by gliders to whom it can send the data it has collected • Has the capability to detect ice free area to try to get to the surface and transmit its data via satellite • can be recovered at the end of the mission. Ifremer have done specifications of the float and helped Kannad (Industrial partner) to qualify the float. • first tests in basin have been performed in February 2008. • Improved software in progress. • Deployment at sea in April. AST9 18-20 March 2008 Exeter

  9. ARVOR: Qualification - Development of a new float named ARVOR • performances improvement, easy deployment and costs reduction. • The weight tends to 19 kg instead of 33 kg for PROVOR technology • >280 cycles at 2000m • One, built by Ifremer engineering department, lauched in Dec 06 and end of Life Dec 07 after 186 cycles with permanent pumped CTD ( no more battery) (WMO 6900458). • Grounded a few times and managed to cycle and go back to deep water areas • Industrialisation process started with Kannad with some changes (a longer tube to put 24 batteries and benefit from Provor CTS3 improvements) • First prototype received end 2007 and first at sea experiment planned june 2008. 10 should be deployed in 2008 Arvor temperature and salinity profiles, provided during 186 profiles in 2007 AST9 18-20 March 2008 Exeter

  10. ARVOR • 24 lithium batteries for more longer lifetime: • > 220 cycles, CTD measuring all the time and , 6 hours for Argos transmission • > 280 cycles, CTD commuted (optional mode) : 10 measurements nearby the pressure point • > 300 cycles, CTD commuted: one measure at specified pressure point (used to be the Apex mode,* not proposed presently on Arvor) • An option with Alkaline batteries is studied • Reduce cost • 150 cycles possible in CTD commuted (10 measurements nearby the pressure point ) Arvor AST9 18-20 March 2008 Exeter

  11. Continental shelf semi-lagrangian profiler • PAGODE: autonomous profiler for the Bay of Biscay, • Vertical displacements by buoyancy alteration (in/out oil transfer), anti drift system , • From 20 up to 200 m depth, • Recording of temperature and salinity profiles, • Additional parameters optional, • Data transmission (Iridium), • 360 programmable profiles , • Industrial partnership (MARTEC):4 ARVOR “Coastal” will be manufactured in spring. AST9 18-20 March 2008 Exeter

More Related