Abstract
We investigate the flow past circular, square, and triangular cylinders embedded on spherical and cylindrical surfaces and quantify the effect of the embedding surface curvature on the flow characteristics. For the circular cylinder, we examine three Reynolds numbers , and 1000 based on cylinder diameter (), and vary the normalized embedding surface curvature values , where is the maximum principal curvature, from 0 (flat surface) to . Measures of fluid dynamical quantities of interest: drag coefficient , lift coefficient , Strouhal number , pressure coefficient (), friction coefficient (), vorticity magnitude (), street speed , street wavelength , length of stationary vortex pair (), and separation angle () show an insignificant effect of the surface curvature. For the range of embedding surface curvature values, the dynamics of the flow past a stationary circular cylinder exhibits near universality, and is essentially independent of the embedding surface curvature. Our conclusion is further consolidated by the similar insensitivity to the embedding surface curvature exhibited by flows past a stationary cylinder having a square or triangular cross-section.
3 More- Received 6 June 2019
- Accepted 4 March 2020
DOI:https://doi.org/10.1103/PhysRevFluids.5.044701
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