1995
DOI: 10.1006/jfls.1995.1025
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Numerical Simulation of High Amplitude Oscillatory Flow About a Circular Cylinder

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Cited by 133 publications
(89 citation statements)
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“…Similar behaviour at F = 0.75, A = 0.25 can be seen in the Re = 200 discrete-vortex simulation results of Meneghini & Bearman (1995, figure 9 a). figure 18.…”
Section: Quasi-periodic and Chaotic Wakes Of The Oscillating Cylindersupporting
confidence: 84%
“…Similar behaviour at F = 0.75, A = 0.25 can be seen in the Re = 200 discrete-vortex simulation results of Meneghini & Bearman (1995, figure 9 a). figure 18.…”
Section: Quasi-periodic and Chaotic Wakes Of The Oscillating Cylindersupporting
confidence: 84%
“…In general, relatively simple forcing methods on the cylinder have been employed, e.g., in-line or transverse oscillation, rotational oscillation or orbital oscillation. However, in contrast to the fairly large number of studies conducted on the in-line, transverse and rotational oscillation cases [see for example, transverse oscillation: Ö ngo¨ren and Rockwell (1988), Williamson and Roshko (1988), Anagnostopoulos (1989), Meneghini and Bearman (1995), Lu and Dalton (1996), Kocabiyik and Nguyen (1999), Blackburn and Henderson (1999), Kaiktsis et al (2004); in-line oscillation: Mureithi et al (2004), Rodriguez (2005, 2006), Al-Mdallal et al (2007); rotational oscillation: Tokumaru and Dimotakis (1991), Baek and Sung (2000), Dennis et al (2000), Poncet (2004), Al-Mdallal and Kocabiyik (2006)], there is relatively little research carried out for the orbital motion.…”
Section: Introductionmentioning
confidence: 99%
“…An asymmetric wake, produced by P + S shedding, was observed in the wake for amplitudes larger than about 0·6 cylinder diameters. Udaykumar et al (2001) replicated the computations of Meneghini and Bearman (1995) to demonstrate the ability of their sharp-interface IBM approach that attacked the aforementioned problem of freshly cleared cells by temporarily merging freshly cleared cells with neighbouring cells. The approach, which also made use of a multigrid method for the solution of the pressure Poisson equation, showed good agreement with the computations of Meneghini and Bearman (1995).…”
Section: Free and Prescribed Vibrations Of Rigid Circular Cylindersmentioning
confidence: 96%
“…As stated previously, this introduces a favourable reduction in the parameter space while still producing wake synchronisation that is equivalent to that which occurs in free vibrations. In the numerical simulations of Meneghini and Bearman (1995), the high-amplitude oscillatory flow about a circular cylinder was assumed to be equivalent to cylinder oscillations in a steady flow. They used a discrete vortex method with viscous diffusion to simulate Re = 200 flow past a cylinder, and varied the amplitude and frequency of oscillation in the ranges at which lock-in had previously been observed in experiments.…”
Section: Free and Prescribed Vibrations Of Rigid Circular Cylindersmentioning
confidence: 99%