An experiment is performed to investigate the feasibility of using a water tunnel to study the aircraft wake vortex behavior in ground effect. Two blades are used to generate the vortices, simulating an aircraft wake. The ground plane is modeled with a splitter plate. Vortex mean positions are determined using an optical technique. The results show all the critical properties of an aircraft wake in the vicinity of the ground. The vortices are shown to descend monotonically until they start interacting with the ground plane. The minimum height to which the filaments sink is shown to compare favorably with that predicted by numerical methods and the operational data obtained from lidar. The vortex span is shown to increase at the same rate as that estimated from an empirical model based on lidar data as well. Vortex rebound is observed with maximum heights comparing well with other predictions. Partial comparison is also presented with a numerical scheme developed for AVOSS application. These observation all seem to favor a water tunnel as an appropriate means of investigating this type of flow field.
Feasibility of Modeling Wake Vortices in Ground Effect in a Water Tunnel
Sae Technical Papers
Aerospace Technology Conference and Exposition ; 2005
2005-10-03
Conference paper
English
Feasibility of Modeling Wake Vortices in Ground Effect in a Water Tunnel
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