FN Archimer Export Format PT J TI Wind tunnel investigation of dynamic trimming on upwind sail aerodynamics BT AF Aubin, Nicolas Augier, Benoit Sacher, Matthieu Bot, Patrick Hauville, Frédéric Flay, Richard G.J. AS 1:1;2:1;3:1;4:1;5:1;6:2; FF 1:;2:;3:;4:;5:;6:; C1 Naval academy research Institut - IRENAV, France Yacht Research Unit, Department of Mechanical Engineering, The University of Auckland, New Zealand C2 IRENAV, FRANCE UNIV AUCKLAND, NEW ZEALAND TC 0 UR https://archimer.ifremer.fr/doc/00597/70919/69157.pdf LA English DT Article DE ;wind tunnel;upwind;unsteady;fluid-structure interaction AB An experiment was performed in the Yacht Research Unit’s Twisted Flow Wind Tunnel (University of Auckland) to test the effect of dynamic trimming on three IMOCA 60 inspired mainsail models in an upwind (βAW = 60°) unheeled configuration. This study presents dynamic fluid structureinteractionresultsinwellcontrolledconditions(wind,sheetlength)withadynamictrimming system. Trimming oscillations are done around an optimum value of CFobj previously found with a static trim. Different oscillation amplitudes and frequencies of trimming are investigated. Measurements are done with a 6 component force balance and a load sensor giving access to the unsteady mainsail sheet load. The driving CFx and optimization target CFobj coefficient first decrease at low reduced frequency fr for quasi-steady state then increase, becoming higher than the static state situation. The driving force CFx and the optimization target coefficient CFobj show an optimum for the threedifferentdesignsailshapeslocatedat fr =0.255. Thisoptimumislinkedtothepowertransmitted to the rig and sail system by the trimming device. The effect of the camber of the design shape is also investigated. The flat mainsail design benefits more than the other mainsail designs from the dynamic trimming compared to their respective static situtation. This study presents dynamic results thatcannotbeaccuratelypredictedwithaquasi-staticapproach. Theseresultsarethereforevaluable for future FSI numerical tools validations in unsteady conditions. PY 2017 PD JAN SO Journal of Sailing Technology SN ISSN 2475-370X PU SNAME and SNAME's SC-2 Sailing Craft Panel IS 2017-01 ID 70919 ER EF