TY - GEN
T1 - Performance of heaving and passively pitching hydrofoils
AU - Mattheijssens, Joris
AU - Bosschaerts, Walter
AU - Marcel, Jean Paul
AU - Lefeber, Dirk
PY - 2013
Y1 - 2013
N2 - Bio-inspired ship propulsion systems often consist of a hydrofoil in combined heaving and pitching motion. In order to reduce the number of actuators from two to one, the pitching motion in our design happens passively under the influence of the hydrodynamic moment on the hydrofoil, and is counteracted by a joint with adaptable stiffness. Since passive pitching is a relatively new development in bio-inspired ship propulsion, a proof of concept is needed. Further, it is not well known whether resonance is good or bad for the performance. The scaled prototype of a new, bio-inspired, heaving and passively pitching ship propulsor was built and tested. A new mechanism for passive pitching, that allows adaptation of the natural frequency was developed. The thrust and lift forces, as well as the pitching angle were measured for a range of heaving and natural frequencies. This article presents the design of the propulsion system and the results of a series of measurements. Resonance is possibly beneficial for maximal thrust production, but it would happen at a natural frequency outside the possibilities of the experiment. The highest thrust-to-lift ratio, a measure for the effciency, occurs at high heaving and low natural frequency, far away from resonant behaviour. Hence, passive pitching works, and the optimal natural frequency depends on the goal of the design: maximal thrust or maximal effciency.
AB - Bio-inspired ship propulsion systems often consist of a hydrofoil in combined heaving and pitching motion. In order to reduce the number of actuators from two to one, the pitching motion in our design happens passively under the influence of the hydrodynamic moment on the hydrofoil, and is counteracted by a joint with adaptable stiffness. Since passive pitching is a relatively new development in bio-inspired ship propulsion, a proof of concept is needed. Further, it is not well known whether resonance is good or bad for the performance. The scaled prototype of a new, bio-inspired, heaving and passively pitching ship propulsor was built and tested. A new mechanism for passive pitching, that allows adaptation of the natural frequency was developed. The thrust and lift forces, as well as the pitching angle were measured for a range of heaving and natural frequencies. This article presents the design of the propulsion system and the results of a series of measurements. Resonance is possibly beneficial for maximal thrust production, but it would happen at a natural frequency outside the possibilities of the experiment. The highest thrust-to-lift ratio, a measure for the effciency, occurs at high heaving and low natural frequency, far away from resonant behaviour. Hence, passive pitching works, and the optimal natural frequency depends on the goal of the design: maximal thrust or maximal effciency.
UR - http://www.scopus.com/inward/record.url?scp=85087598008&partnerID=8YFLogxK
U2 - 10.2514/6.2013-2991
DO - 10.2514/6.2013-2991
M3 - Conference contribution
AN - SCOPUS:85087598008
SN - 9781624102141
T3 - 43rd Fluid Dynamics Conference
BT - 43rd Fluid Dynamics Conference
PB - American Institute of Aeronautics and Astronautics Inc
T2 - 43rd AIAA Fluid Dynamics Conference
Y2 - 24 June 2013 through 27 June 2013
ER -