Impulsively started planar actuator surfaces in high-Reynolds-number steady flow

Abstract: The characteristics of unbounded flow past an impulsively started planar energy extracting device, such as a wind or tidal turbine, are studied theoretically, numerically and experimentally. The initial thrust on an impulsively started device, which can be more than double the steady thrust, is an important consideration for design and safe operation. The energy sink is modelled here as an 'actuator surface' which imposes a uniform pressure discontinuity in the fluid proportional to the square of the fluid spe… Show more

“…The characteristics of instantaneous thrust of an impulsively started porous surface was studied experimentally in a water tunnel and numerically using a point vortex wake model by Johnson et al (2013); however, this study did not analyse the wake. Furthermore, the disc had relative motions to the incoming flow in this set-up.…”

Experimental analysis on the dynamic wake of an actuator disc undergoing transient loads

“…The characteristics of instantaneous thrust of an impulsively started porous surface was studied experimentally in a water tunnel and numerically using a point vortex wake model by Johnson et al (2013); however, this study did not analyse the wake. Furthermore, the disc had relative motions to the incoming flow in this set-up.…”

Experimental analysis on the dynamic wake of an actuator disc undergoing transient loads