The flow around six in-line square cylinders has been studied numerically and experimentally for 0.5 s/d 10.0 and 80 Re 320, where s is the surface-tosurface distance between two cylinders, d is the size of the cylinder and Re is the Reynolds number. The effect of spacing on the flow regimes is initially studied numerically at Re = 100 for which a synchronous flow regime is observed for 0.5 s/d 1.1, while quasi-periodic-I, quasi-periodic-II and chaotic regimes occur between 1.2 s/d 1.3, 1.4 s/d 5.0 and 6.0 s/d 10.0, respectively. These regimes have been confirmed via particle-image-velocimetry-based experiments. A flow regime map is proposed as a function of spacing and Reynolds number. The flow is predominantly quasi-periodic-II or chaotic at higher Reynolds numbers. The quasi-periodic and chaotic nature of the flow is due to the wake interference effect of the upstream cylinders which becomes more severe at higher Reynolds numbers. The appearance of flow regimes is opposite to that for a row of cylinders. The Strouhal number for vortex shedding is the same for all the cylinders, especially for synchronous and quasi-periodic-I flow regimes. The mean drag (C Dmean ) experienced by the cylinders is less than that for an isolated cylinder, irrespective of the spacing. The first cylinder is relatively insensitive to the presence of downstream cylinders and the C Dmean is almost constant at 1.2. The C Dmean for the second and third cylinders may be negative, with the value of C Dmean increasing monotonically with spacing. The changes in root mean square lift coefficient are consistent with changes in C Dmean . Interestingly, the instantaneous lift force can be larger than the instantaneous drag force on the cylinders. These results should help improve understanding of flow around multiple bluff bodies.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.