METHODES / METHODS > The 1st International Conference on Advanced Model Measurement Technology for the EU Maritime Industry | |
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The 1st International Conference on Advanced Model Measurement Technology for the EU Maritime Industry Nantes - 1er et 2 Septembre 2009 mercredi 29 avril 2009 , Sandrine Beaujon Conference Information The last decade has seen tremendous technological growth in the use of advanced measurement technologies for model and full-scale testing in the marine industry. In spite of the growth there has been no focused international event to discuss instruments, techniques and methodologies currently use or innovative new concepts on the horizon. It is therefore timely to gather test facilities, researchers, academics and all related marine stakeholders to discuss and disseminate advanced model measurement techniques. AMT’09 is a 2 day technical conference (www.amt09.eu) with 38 presentations on contemporary experimentation topics such as PIV, high speed video methods and flow / wave measurement techniques. It provides a unique opportunity for test facilities, researchers, academics and other related marine stakeholders to discuss and disseminate advanced measurement technologies of model and fullscale testing. The AMT’09 conference will provide a platform for networking between the participants and members of the FP6–Hydro Testing Alliance Network of Excellence who are organizing AMT’09 (www.hta-noe.eu). Conference Venue The 1st International Conference on Advanced Model Measurement Technology For the EU Maritime Industry will be held from Tuesday 1st to Wednesday 2nd September 2009 at Ecole de Centrale de Nantes, in Nates, France. For local directions to the venue please visit www.amt09.eu. Organising Committee Prof. Mehmet Atlar, University of Newcastle, U.K. Dr. Jean-Paul Borleteau, SIREHNA, France Audrey Pavageau SIREHNA, France Rod Sampson University of Newcastle, U.K. Standing Committee Albert B. Aalbers (Co-Chairman) MARIN, The Netherlands Mr. Björn Allenström SSPA Sweden AB, Sweden Prof. Mehmet Atlar (Co-Chairman) University of Newcastle, U.K. Dr. Enrico de Bernardis INSEAN, Italy Dr. Jean-Paul Borleteau (Co-Chairman) SIREHNA, France Mr. Graham Cooper QinetiQ, United Kingdom. Dr. Didier Fréchou Bassin d’Essais de Carènes, France. Dipl. Ing. Jürgen Friesch HSVA, Germany. Dr. Andreas Gronarz DCSTTS, Germany. Mr. Heikki Helasharju VTT, Finland Prof. Atilla Incecik Universities of Glasgow and Strathclyde, U.K. Mr. Willem Laros CESA, Belgium. Mr. Ivar Nygaard MARINTEK, Norway. Dr. ir. Jan Tukker MARIN, The Netherlands. Dr. Leszek Wilczynski Centrum Techniki Okretowej S.A., Poland Provisional List of Papers Acoustic wave height measurements in a towing facility Arthur Bouvy1, Rupert Henn2, & Jens Hensse3, MARIN1, DST2, General Acoustics3 Determination of wetted surface Björn Allenström1, Artur Chodorowski2, Hans Jörgen Rambech3 & Jan Tukker4 SSPA Sweden AB1, Chalmers University of Technology2, Marintek3 & MARIN4 A direct measurement of wave resistance by the measurement of wave height on a surface patch Sander M. Çalisal, Jeff Tan & Mete E Sifreli University of British Columbia Design of a turbulent channel flow facility for antifouling coating research Georgios Politis et al. Newcastle University Analysis of high-speed video data for assessment of the risk of cavitation erosion Mikael Grekula1 & Göran Bark2 SSPA Sweden AB1 & Chalmers University of Technology2 Advanced model testing techniques for ship behaviour in shallow and confined water Greet Van Kerkhove1 & Marc Vantorre2 Flanders Hydraulics Research1 & Ghent University2 Hydrodynamics of damaged ship in roll mode of motion – an experimental approach. Jakub Cichowicz & Dracos Vassalos Ship Stability Research Centre, Universities of Glasgow & Strathclyde Challenges for PIV in towing facilities Jan. Tukker, R. Hallmann & M.A.Verhulst MARIN Subsea communications in a towing facility Nick Kimber1, Haite van der Schaaf2 & Ian Crowther3 QinetiQ1, MARIN2 & WFS3 Digital in-line holography : application to pipe flow visualization N. Verrier, S. Coëtmellec, M. Brunel, & D. Lebrun Groupe d’optique et d’optoélectronique Studies on pod propulsors and related procedures – The unified approach Radoslaw Glodowski et al. Ship Design and Research Centre S.A. (CTO) Low-cost modernization of ship models milling machine Svetlozar Boyadzhiev Bulgarian Ship Hydrodynamics Centre (BSHC) Tow tank measurements of 3-D wave fields Thomas C. Fu & Anne M. Fullerton, Naval Surface Warfare Center, Carderock Division Applications of Stereo Particle Image Velocimetry to Ship Wake and Propeller Flows T. Bugalski, Ship Design and Research Centre S.A. (CTO) Video methods in hydrodynamic model tests Stoyan Stoyanov, Bulgarian Ship Hydrodynamics Centre (BSHC) Propeller cavitation 3D reconstruction through stereo-vision algorithms Luca Savio, Michele Viviani, Marco Ferrando & Giovanni Carrera, Genoa University Development of a Laser Wavegauge for Dynamic Wave Height Measurements in the B600 Towing Tank J-B Richon1 & M. Reeves1, M. Darquier2 & D. Fréchou2 Laser & Imaging Sciences1 & Bassin d’Essais des Carènes2 3D structures in wave elevation patterns Carl Trygve Stansberg1, Didier Frechou2, Rupert Henn3, Janou Hennig4, Arthur Bouvi4 Jean-Paul Borleteau5 & Heng Ran6 MARINTEK1, BEC2, DST3, MARIN4 ; Sirehna5 & SSPA6 SPIV Measurements of rudder flow and vortex systems in the towing tank Pascal Anschau SVA, Potsdam On bubble clustering and energy spectra in pseudo-turbulence Chao Sun, Julian Martinez Mercado, Daniel Chehata Gomez, Dennis Van Gils, & Detlef Lohse Physics of Fluids Group, Faculty of Science and Technology, University of Twente Ship model propeller manufacturing by using RPT Tomaso Bazzi & Lanfranco Benedetti INSEAN – The Italian Ship Model Basin Measuring sloshing impacts during full scale tests E. van de Bunt and M.L. Kaminski MARIN PIV operation in hydrodynamic facilities Jean-Paul Borleteau1, D. Fréchou2, L. Mèés3 D. Lebrun3, T. Bugalski4, B. Friedhoff5 G. Lammers6, F. Di Felice7 & M. Verhulst8, C. Muthanna9, N. Ireland10, J. Hallander11 R. Delfos12 & G. Romano13 SIRENHA1, BEC2, CORIA3, CTO4, DST5, HSVA6, INSEAN7 MARIN8, MARINTEK9, QINETIQ10, SSPA11, TU Delft12 & University ROMA13 Processing and analysis of data collected in-service on board of SeaFrance Rodin Tiberiu Muntean1, Hubert Vincent2, Faisal Irzal3 & Stef Van Eijndhoven3, Wärtsilä Netherlands1, SeaFrance2, Eindhoven University of Technology3 Torque measurement and friction elimination in tidal turbine model tests M. A. R. Knös, J. Dubois-Marshall, R. A. Norman and M. J. Downie Newcastle University Drag reduction estimate based on stereo PIV measurements of the wake behind a modified Ahmed Body René Delfos, Nikolay Semin & Marc Harleman Delft University of Technology Development of a new PIV technique for flow field measurements in the towing tank Dimitris E. Liarokapis, Gregory J. Grigoropoulos & Stelios G. Perissakis National Technical University of Athens (NTUA) Introducing a seven-hole pitot arrangement for measuring wake flows in the towing tank Dimitris E. Liarokapis, Gregory J. Grigoropoulos and Stelios G. Perissakis National Technical University of Athens (NTUA) Investigations on micro-bubble velocity and size in a water jet using Interferometric Laser Imaging S. Grizzi1, G. Lacagnina2, F. Di Felice1, & G.P. Romano2 INSEAN1 & University La Sapienza2 State-of-the-art towing-tank PIV and LDA systems Palle Gjelstrup & Oliver Pust Dantec Dynamics A/S A wireless Inertial Motion Unit for motion analysis in towing tank experiments F. La Gala & M. Gammaldi, INSEAN Methods and procedures for high-speed video recording and analysis of pressure fluctuations in propeller cavitation F. Pereira1 and G. Aloisio1, H. Bretschneider2 C. Johannsen2, M. Grekula3, G. Bark3, E. van de Bunt4, M. Versluis5 & E. Gelderblom5 INSEAN1, HSVA2, SSPA/Chalmers3, MARIN4 & UTWENTE5 Boundary layer development and shear stresses measurements around an oyster table Youen Kervella1, Grégory Germain1 Benoît Gaurier1 Mathieu Debeaumont1,Jean-Valéry Facq2 Florence Cayocca1 & Patrick Lesueur2 IFREMER1 & Universite de Caen-Basse Normandie2 Advanced free running model technology from model to full-scale Ed Kennedy & G. Gregory Janes, National Research Council Canada - Institute for Ocean Technology (IOT) Tip vortex measurements of a rectangular hydrofoil using stereoscopic particle image velocimetry technique (SPIV) Jungkuen Oh1 & Jung Chun Suh2 Inha University1, Seoul National University2 A Novel Approach for Stereo PIV Calibration in Towing Tank S. Grizzi, F. Pereira, F. Di Felice INSEAN HTA-JRP1 Flat Plate Experiment : Assessment of SPIV Problems and Accuracy in Towing Tank Applications Jean Paul Borleteau1, Rene Delfos2, Fabio Di Felice3, Chittiappa Muthanna4 SIREHNA1, TU Delft2 INSEAN3, MARINTEK4, PIV study on the effectiveness of strakes on marine risers Jan Visscher, Stian Skarpengland & Øyvind S. Hansen, Norwegian University of Science and Technology (NTNU) Conference Registration Please send completed registration form and payment to : Mrs Audrey PAVAGEAU AMT’09 SIREHNA 1 Rue de la Noë BP 42105 44321 Nantes CEDEX 3 France E-mail : audrey.pavageau [at] sirehna.com Ph : 00 33 2 51 86 02 86 Fax : 00 33 2 40 74 17 36 |
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