Estimation of hydrodynamic coefficients for flow around cylinders in side-by-side arrangement with variation in separation gap |
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Authors: | Sam Ryu Sang-Beom Lee Byung-Hyuk Lee Jong-Chun Park |
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Institution: | 1. R&D Department, SOFEC, Inc, Houston, USA;2. Department of Navel Architecture and Ocean Engineering, Pusan National University, Busan, Republic of Korea |
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Abstract: | A finite-volume method (FVM) using a multi-block grid technique has been applied to investigate the hydrodynamic coefficients and to categorize the two-dimensional flow pattern around a pair of adjacent cylinders (known here after as double cylinders). Matching grids were used at the interface between blocks (cylinders), and the boundary conditions are imposed around the periphery to exchange physical values across the interface. To validate the developed numerical method, a case with laminar viscous flow around a single cylinder was carried out, the results showed good agreement compared to previously published data. Hydrodynamic coefficients, Strouhal number, and stagnation point change were thoroughly investigated as a function of the separation between the two cylinders. It is found that the changes of hydrodynamic coefficients due to variations in separation are well characterized by the five different vortex flow patterns, which can also be used to explain the flow and vortex pattern around the double cylinders. |
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