Effects of multi-jet coupling on propulsive performance in underwater pulsed jets

Abstract

Despite the importance of pulsed jets for underwater propulsion, the effect of multiple-jet interactions remains poorly understood. We experimentally investigate how interactions between neighboring jets in a pulsed-jet thruster affect the thruster's propulsive performance. Using high-speed fluorescence imaging, we investigate the mutual influence of two pulsed jets under conditions relevant to low-speed maneuvering in a vehicle (Re≈350, L/D≤2). Thrust production and propulsive efficiency are evaluated for different nozzle spacings using a new force estimation technique based on the fluorescence data. This analysis reveals that, compared to non-interacting jets, the efficiency and thrust generated by the pair of interacting jets can fall by as much as 10\% when the jets are brought into close proximity. Empirically, the thrust T falls off with the non-dimensional jet spacing as T=T∞(1-Co -6) for a thrust coupling coefficient Co=2.04 0.11. Finally, we predict this leading order dependence of thrust on spacing using a model that relates the thrust and efficiency drop to streamline curvature and vortex induction at the nozzles.