Experimental and computational study of unsteady hypersonic cavity flows

摘要

This paper presents a combined experimental and computational study of annular cavities on a semi-angle cone in a Mach 8-9 flow. A range of cavity length-to-depth ratios has been considered, and a parameter has been determined that distinguishes between 'weak oscillations' and 'strong oscillations' of the cavity flow. Essentially the work identifies the transition from the case where the flow can be regarded as 'pure cavity flow' to that where the flow behaviour is tending towards that of a 'spiked blunt body'. The CFD simulations also suggest that, for a certain range of cavity scale, the limiting cavity flow state depends upon the flow initialisation process; it may be weak or strongly oscillating.