Ĭhatterjee D, Gupta SK (2014) Numerical study of the laminar flow past a rotating square cylinder at low spinning rates. Ĭhatterjee D, Chaitanya NVVK (2021) Influence of counter-rotation on fluid flow and heat transfer around tandem circular cylinders at low Reynolds number. Ĭhatterjee D, Chaitanya NVVK (2020) convective transport around two rotating tandem circular cylinders at low Reynolds number. ![]() Ĭhan AS, Dewey PA, Jameson A, Liang C, Smits AJ (2011) Vortex suppression and drag reduction in the wake of counter-rotating cylinders. (02)00325-1Ĭhan AS, Jameson A (2010) Suppression of the unsteady vortex wakes of a circular cylinder pair by a double-like counter-rotation. Int Commun Heat Mass Transfer 29(3):355–366. Brazilian J Chem Eng 32(02):519–529īuyruk E (2002) Numerical study of heat transfer characteristics on tandem cylinders, inline and staggered tube bank in cross flow of air. īouakkaz K, Talbi M, Ouazzazi Y, Khelili FS (2015) Effect of rotation rates on the laminar flow and heat transfer past a circular cylinder. īearman PW (1984) Vortex shedding from oscillating bluff bodies. Īssi GRS, Orselli RM, Silva-Ortega M (2019) Control of vortex shedding from a circular cylinder surrounded by eight rotating wake-control cylinders at Re= 100. The angular displacement from the front stagnation point (circumferential angle)Īkoury EL (2008) The three-dimensional transition in the flow around a rotating cylinder. The unsteady, incompressible, and uniform flow around two cylinders of equal diameter has been studied at Re = 200 and Pr = 0.71 to clarify the effects of the rotation rate \(\left( \) ) \(\varphi\) ![]() In this study, the characteristics of fluid flow and heat transfer of two rotating circular cylinders are analyzed using the two-dimensional finite volume method (CFD).
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