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W4308380070 abstract "Flow-induced vibration (FIV) of bluff bodies is an important safety-related issue in heat exchange equipment. The interaction of oscillation and heat exchange of two circular cylinders in staggered arrangement was numerically investigated. One cylinder (S-cyl.) is stationary and another cylinder (V-cyl.) undergoes FIV in the transverse flow direction. The influences of the spacing (S) and staggered angle (φ) of the two cylinders on the FIV response, near-wake structure, Nusselt number, and temperature distribution were studied. The results show that when the φ and S increase, the vortex pattern undergoes the following changes: double-row vortex street, 2S → S + P → 2S, three-row vortex street. As the staggered angle raises, the amplitude of V-cyl. firstly reduces to the lowest value, then increases and finally decreases. The maximum amplitude 0.79D is obtained when φ = 45° and S/D = 1.5 for the V-cyl. For the S-cyl., the local Nusselt number (NuL) generally peaks near the front stagnation point, and the main difference in the distribution of NuL can be observed around the back stagnation point. The averaged Nusselt number (NuA) of two cylinders rises as φ changes from 0° to 45° for S/D = 1.5. The maximum NuA increases by 54%. The change trends of NuA for the V-cly. with staggered angle are similar for S/D > 1.5." @default.
W4308380070 created "2022-11-11" @default.
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W4308380070 creator A5051105499 @default.
W4308380070 date "2022-12-01" @default.
W4308380070 modified "2023-09-27" @default.
W4308380070 title "Heat transfer and vibration response of a stationary cylinder and an elastic cylinder under mutual interference" @default.
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W4308380070 doi "https://doi.org/10.1016/j.icheatmasstransfer.2022.106493" @default.
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