Abstract
Having been identified as the cause of design load winds in many parts of the world, transient winds such as gust fronts and thunderstorm downbursts have been increasingly researched over recent years. The difficulties in simulating the flow structure of downbursts in the laboratory, particularly their rapid radial acceleration and associated ring vortices, have complicated measuring wind loads on structures subject to these conditions. The University of Birmingham Transient Wind Simulator (UoB-TWS, a 1m diameter impinging jet with aperture control) has been used to simulate the transient aspects of downburst-like flow, allowing the pressure distributions they create over cube and portal framed structures to be measured for the first time, at model-scale (1:1600). Analysis of the velocity and pressure fields show that the simulator is capable of creating velocity fields which are similar to those observed in nature. Development of the ring vortex is demonstrated through phase-plot analysis. Two methods of calculating the turbulence intensity of the unsteady flow field have been used, giving mean values of between 3% and 10% depending on the method. Force coefficient time series have been estimated with the buildings angled at 0°, 45° and 90° to the radial wind direction. These are presented along with the instantaneous pressure coefficient distribution at the time of maximum roof suction. This novel research also highlights the difficulties of undertaking transient flow at model scale and drawing conclusions which are applicable to full-scale, i.e., where no two events are the same.
Highlights
Over the last few years there has been renewed interest in evaluating the impact of transient winds caused by convection in thunderstorm cells, i.e. gust fronts, downbursts and tornadoes
This may perhaps be attributed to the dearth of appropriate full-scale measurement with data captured at Andrews Air Force Base (AAFB) (Fujita, 1985), the Texas Rear Flank Downdraft (TRFD) (Gast and Schroeder, 2003; Orwig and Schroeder, 2007) and Tuas, Singapore (Choi, 2004) and by Lombardo (2011) being the exception
The pressure distribution over a cube and portal framed structure have been examined at model scale in a transient wind simulator generating the primary, ring vortex of a thunderstorm downburst
Summary
Over the last few years there has been renewed interest in evaluating the impact of transient winds caused by convection in thunderstorm cells, i.e. gust fronts, downbursts and tornadoes. Chay and Letchford (2002a) examined the differences between the centreline pressure coefficients on a cube (calculated using pref1⁄4 patm, and the jet velocity for normalisation) at 01 yaw angle for downburst (steady impinging jet) and ABL winds, illustrated in. Despite the large effort expended in simulating downburst-type events, there has been little explicit acknowledgement in the wind engineering literature of the variability that exists with such phenomena, and the corresponding implication that this can have on the near ground wind speeds This may perhaps be attributed to the dearth of appropriate full-scale measurement with data captured at Andrews Air Force Base (AAFB) (Fujita, 1985), the Texas Rear Flank Downdraft (TRFD) (Gast and Schroeder, 2003; Orwig and Schroeder, 2007) and Tuas, Singapore (Choi, 2004) and by Lombardo (2011) being the exception.
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