Abstract
Measurements of the steady and unsteady forces acting on a pair of circular cylinders in crossflow are performed from subcritical up to ultra-high Reynolds numbers. The two cylinders with equal diameters d are arranged inline at two centre-to-centre distances: S/d = 2.8 and 4. The trend of the drag curve for the upstream cylinder Cd_{1}(Re) at both distances is similar to that for a single circular cylinder. The development of the drag curves Cd_{2}(Re, S/d = 2.8, 4) of the downstream cylinder is inverse to that of the upstream cylinder. For both cylinder spacing values, the drag on the downstream cylinder is negative for subcritical Reynolds numbers, increases abruptly to positive values at the beginning of the supercritical regime, and shows a significant dip at transcritical Reynolds numbers. This drag inversion indicates that the critical distance Sc decreases sharply in the supercritical Reynolds number range. For S/d = 2.8 at Rerightarrow 10^{7}, the downstream cylinder experiences once more a thrust force. The curve of the Strouhal number St(Re) of the downstream cylinder for S/d = 4 is very close to that of a single cylinder. For Reynolds numbers of Reapprox 1times10^{6} - 7times10^{6}, the Strouhal numbers have nearly equal values of Stapprox 0.22 - 0.24 for both distances. This is followed by a branching. For Rerightarrow 10^{7} and the case S/d = 2.8, the Strouhal numbers dip at St = 0.17. However, for S/d = 4, they increase up to St = 0.27. In the supercritical range, two peaks occur in the power spectra for the large distance S/d = 4. Based on a wavelet analysis, we can conclude that the low-frequency mode, which does not occur for a single cylinder, is an interference effect.Graphic abstract
Highlights
The flow around a pair of circular cylinders is the paradigm example for the study of interference effects in fluid mechanics
Measurements of the steady and unsteady forces acting on a pair of circular cylinders in crossflow for distances S/d = 2.8 and 4 were performed from subcritical up to ultra-high Reynolds numbers;
The drag inversion indicates that the critical distance Sc decreases sharply in the supercritical Reynolds number range;
Summary
The flow around a pair of circular cylinders is the paradigm example for the study of interference effects in fluid mechanics. Even with a single cylinder, there are very strong Reynolds number effects, and the situation becomes even more complex when a second circular cylinder is placed in the vicinity. Apart from the measurement of the mean forces and mean base pressures on both cylinders, this study focuses on the measurement and analysis of the fluctuating forces acting on the downstream cylinder. In this way, we obtain information on the spectra, Strouhal numbers, and RMS values of the lift forces. We conduct a wavelet analysis on the data to obtain information on the time-frequency behaviour of the phenomena
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