FN Archimer Export Format
PT C
TI Morphing Hydrofoil Model Driven by Compliant Composite Structure and Cavity Pressure
BT 
AF MOHAMMED ARAB, Fatiha
   AUGIER, Benoit
   DENISET, François
   CASARI, Pascal
   ASROLFI, Jacques-André
AS 1:1;2:2;3:1;4:3;5:1;
FF 1:;2:PDG-REM-RDT-LCSM;3:;4:;5:;
C1 Institut de Recherche de l’École navale, Brest, France
   Ifremer, Laboration Comportement des Structures en Mer, Brest, France
   Institut de Recherche en Génie Civil et Mécanique, Nantes, France
C2 IRENAV, FRANCE
   IFREMER, FRANCE
   UNIV NANTES, FRANCE
SI BREST
SE PDG-REM-RDT-LCSM
UR https://archimer.ifremer.fr/doc/00601/71292/69699.pdf
LA English
DT Proceedings paper
DE ;smart-structure;hydrofoil;morphing;compliant;composite;cavitation.
AB In this work a collaborative experimental study is conducted in order to assess the effect on the hydrodynamic performanceofacompliantcompositehydrofoilcontrolled by an imposed cavity pressure. It is expected that the cavity pressure together with composite structures is suitable to control the hydrodynamic forces as well as cavitation inception and development. A new concept of morphing hydrofoil is developed by the authors and tested in the cavitation tunnel at the French Naval Academy Research Institute. The experiments are based on the measurements of hydrodynamic forces and hydrofoil deformations under various conditions of cavity pressure. Effect on cavitation inception are shortly studied too. In parallel to this experiment, a 2D numerical tool is developed in order to help to design a compliant hydrofoil shape. Numerically, the ﬂuid structure coupling is based on an iterative method under small perturbation hypothesis. The ﬂow model is based on a panel method and a boundary layer formulation and it is coupled with a ﬁnite-element method for the structure. It is shown that pressure driven compliant composite structure is suitable to some extent to control the hydrodynamics forces, allowing to enlarge the operational domain of the compliant hydrofoil according to the angle of attack and the cavity pressure. Preliminary results on cavitation inception driven by compliant composite wall are pointed out as well.   
PY 2019
PD MAY
CT Proceedings of the Sixth International Symposium on Marine Propulsors - smp'19. 26 - 30 May 2019, Rome, Italy. Mario Felli and Cecilia Leotardi (Eds). ISBN (printed proceedings): 978-88-7617-047-8 (vol. 1) & 978-88-7617-048-5 (vol. 2) ISBN (Electronic proceedings): 978-88-7617-049-2 ISSN : 2414-6129. Session TA4 : Unconventional propulsors 4. TA4.1, I-436, 8p.
ID 71292
ER

EF