Charles J. Doolittle scite author profile

Laminar flow over a periodic array of cylindrical surface roughness elements is simulated with an immersed boundary spectral method both to validate the method for subsequent studies and to examine how persistent streamwise vortices are introduced by a low Reynolds number roughness element. Direct comparisons are made with prior studies at a roughness-based Reynolds number Rek (=U(k) k/ν) of 205 and a diameter to spanwise spacing ratio d/λ of 1/3. Downstream velocity contours match present and past experiments very well. The shear layer developed over the top of the roughness element produces the downstream velocity deficit. Upstream of the roughness element, the vortex topology is found to be consistent with juncture flow experiments, creating three cores along the recirculation line. Streamtraces stemming from these upstream cores, however, have unexpectedly little effect on the downstream flowfield as lateral divergence of the boundary layer quickly dissipates their vorticity. Long physical relaxation time of the recirculating wake behind the roughness remains a prominent issue for simulating this type of flowfield.

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An Application of the Flow360 Solver to the Hover Download Prediction Problem

Fitzgibbon

Doolittle

Wang

et al. 2023

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Charles J. Doolittle

Direct Numerical Simulations of Flow Past Random Distributed Roughness

Near-field flow structures about subcritical surface roughness

An Application of the Flow360 Solver to the Hover Download Prediction Problem

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