Add to ORKGLong-span bridges are often designed based on the assumption of wind field homogeneity. At the Hardanger Bridge, the wind field along the bridge span is monitored though 8 triaxial ultrasonic anemometers. Simultaneously recorded profiles for mean wind velocity and turbulence intensity along the span are used to investigate the effect of non-uniform wind profiles on the aerodynamic behaviour of the Hardanger Bridge. Extreme non-uniformity is considered using Monte Carlo simulations to generate extreme, but realistic wind profiles based on the variability of the measured wind field. When the buffeting response of the Hardanger Bridge is considered, significant effects on the behaviour is found
The safety and serviceability of long-span bridges can be significantly impacted by wind effects and...
Wind-induced vibrations commonly represent the leading criterion in the design of long-span bridges....
Experimentally derived aerodynamic derivatives are used to predict and prevent undesirable aeroelast...
The Hardanger Bridge has a main span of 1 310 meters which makes it the longest suspension bridge in...
When bridges become increasingly longer, the dynamic behavior from wind and waves can dominate the s...
The quality of the information about the wind field characteristics is crucial for accurately predic...
Wind-induced vibrations of the Hardanger Bridge deck were studied with reference to turbulence chara...
Long-span bridges are flexible and therefore are sensitive to wind induced effects. One way to impro...
Many bridges are located at especially unfavourable places considering the local wind power and turb...
The turbulent wind field around a suspension bridge deck is studied using eleven months of full-scal...
The field measurements, wind tunnel tests, and numerical calculations are utilized to conduct refine...
In design of slender suspension bridges, which are prone to wind excitation, accurate prediction of ...
The global demand for long-span cable-supported bridges are emerging. Impressive number of projects ...
In the design of long-span bridges, estimating the wind effects is a critical requirement to evaluat...
The scaled aerodynamic model of a bridge is often tested in the boundary layer wind tunnel laborator...
The safety and serviceability of long-span bridges can be significantly impacted by wind effects and...
Wind-induced vibrations commonly represent the leading criterion in the design of long-span bridges....
Experimentally derived aerodynamic derivatives are used to predict and prevent undesirable aeroelast...
The Hardanger Bridge has a main span of 1 310 meters which makes it the longest suspension bridge in...
When bridges become increasingly longer, the dynamic behavior from wind and waves can dominate the s...
The quality of the information about the wind field characteristics is crucial for accurately predic...
Wind-induced vibrations of the Hardanger Bridge deck were studied with reference to turbulence chara...
Long-span bridges are flexible and therefore are sensitive to wind induced effects. One way to impro...
Many bridges are located at especially unfavourable places considering the local wind power and turb...
The turbulent wind field around a suspension bridge deck is studied using eleven months of full-scal...
The field measurements, wind tunnel tests, and numerical calculations are utilized to conduct refine...
In design of slender suspension bridges, which are prone to wind excitation, accurate prediction of ...
The global demand for long-span cable-supported bridges are emerging. Impressive number of projects ...
In the design of long-span bridges, estimating the wind effects is a critical requirement to evaluat...
The scaled aerodynamic model of a bridge is often tested in the boundary layer wind tunnel laborator...
The safety and serviceability of long-span bridges can be significantly impacted by wind effects and...
Wind-induced vibrations commonly represent the leading criterion in the design of long-span bridges....
Experimentally derived aerodynamic derivatives are used to predict and prevent undesirable aeroelast...