TY - JOUR
TI - Analysis of vortex shedding characteristics and heat transfer performance of staggered tube bundle system
AU - Jian Yinlin
AU - Dong Bin
AU - Feng Shuyang
AU - Yang Dangguo
AU - Li Yue
JN - Thermal Science
PY - 2025
VL - 29
IS - 5
SP - 3833
EP - 3848
PT - Article
AB - Tube bundle systems’ heat transfer is unclear due to complex flow channels and turbulent fluctuations, affecting energy efficiency. This study simulates 2-D staggered 18 row tube bundles at Reynolds numbers 3100-50000. The 3-D cylinders are simplified to 2-D tubes, with grid independence and model validation. Flow, temperature fields, and synergy angles are analyzed for positions, Reynolds numbers, and spacings. High vortex shedding frequency in front tubes with multiple subfrequencies at different amplitudes. Asymmetric solutions emerge due to turbulent fluctuations. At high Reynolds, vortex shedding patterns complexify and frequencies rise. Nusselt number and synergy angle trends similar at low Reynolds number, but diverge at high Reynolds nimber. Small tube spacings significantly impact heat transfer; large spacings have weaker effects.
DO - 10.2298/TSCI241012061J
ER -