[HTML][HTML] Roughness constant selection for atmospheric boundary layer simulations using a k-ω SST turbulence model within a commercial CFD solver
JF Townsend, G Xu, Y Jin - Advances in Wind Engineering, 2024 - Elsevier
Transit of an atmospheric boundary layer (ABL) profile within computational fluid dynamics
(CFD) simulations is often hindered through unintended streamwise gradients in the flow …
(CFD) simulations is often hindered through unintended streamwise gradients in the flow …
Large eddy simulation of wind turbulence over non-breaking and breaking waves
Wind-wave interaction affects the wind-wave fields and the combined loading on structures.
This study aims to characterize turbulent airflow over non-breaking and breaking waves …
This study aims to characterize turbulent airflow over non-breaking and breaking waves …
A novel tri-semicircle shaped submerged breakwater for mitigating wave loads on coastal bridges part Ⅱ: Application perspective
In Part I of this study, the effectiveness of the new breakwater in terms of the attenuation of
wave forces on coastal bridges, was comprehensively substantiated. In the present paper …
wave forces on coastal bridges, was comprehensively substantiated. In the present paper …
Lightweight Design of Vibration Control Devices for Offshore Substations Based on Inerters
Y Wang, C Xu, M Yu, Z Huang - Sustainability, 2024 - mdpi.com
Offshore substations are important sustainable power infrastructures subjected to strong
vibrations induced by complex environmental excitations such as wind, waves, and currents …
vibrations induced by complex environmental excitations such as wind, waves, and currents …
[PDF][PDF] Advances in Wind Engineering
JF Townsend, G Xu, Y Jin - researchgate.net
Transit of an atmospheric boundary layer (ABL) profile within computational fluid dynamics
(CFD) simulations is often hindered through unintended streamwise gradients in the flow …
(CFD) simulations is often hindered through unintended streamwise gradients in the flow …
[引用][C] Roughness constant selection for Atmospheric Boundary Layer simulations using ak–ω SST turbulence model within a commercial CFD solver
JF Townsenda, G Xua, Y Jina