Unsteady separation and oscillations in a compressible wake of a cylinder

Abstract

The paper presents a new analysis and a new interpretation of oscillations observed in the experiments of near wakes of cylinders at Mach 4 and Mach 6 and Reynolds number range 2 × 104 to 5 × 105 by schmidt2015oscillations and thasu2022strouhal. It is shown that the presence of such oscillations is strongly Reynolds number dependent. It is further shown that there is a threshold Reynolds number below which wake unsteadiness and oscillations do not appear. Attention is drawn to the earlier experimental investigation of supersonic wakes behind cylinders and spheres by kendall1962exp which discusses cylinder oscillations and confirms the concept of threshold Reynolds number. Following the earlier work of goldburg1965strouhal on hypersonic wakes of spheres and cones, a Strouhal number(Stθ) based on total wake momentum thickness (θ) is shown to be the relevant similarity parameter for correlating the hypersonic and high supersonic wakes of spheres, cones, as well as cylinders. In this limited sense, Stθ can be said to be `universal'. A universal Strouhal number based on only one geometry (i.e., a circular cylinder) and over a limited Reynolds number range as proposed by schmidt2015oscillations is much too restrictive.