Abstract
An investigation is conducted to suppress flow-induced forces on two identical cylinders (diameter D = 49 mm) at stagger angle = 0 ∼ 180 and gap spacing ratio T/D = 0.1 ∼ 5, where T is the gap width between the cylinders. In order to suppress fluid forces, two tripwires, each of 5 mm, were attached on each cylinder at azimuthal angle = 30 . Time-mean drag (CD) and fluctuating drag (CDf) and lift (CLf) on two tripped cylinders were measured and compared with those on plain cylinders. Flow visualization test was also conducted to observe flow structures around the cylinders. CD, CDf and CLf all for the plain cylinders are strong function of and T/D due to six different interaction mechanisms. On the other hand, the tripped cylinders interfere weakly each other, resulting in insignificant variation in forces with and T/D. Tripwires suppress forces on the cylinders remarkably.
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