A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Wind loads on heliostats and photovoltaic trackers at various Reynolds numbers
Abstract Wind loads on heliostats are usually determined at boundary layer, low-speed wind tunnels, where the design full-scale Reynolds number cannot be reached. In doing so, it is supposed that the wind load coefficients are Reynolds number independent, which is known to be the case for sharp edged bodies. For the stow position the usually round torque tube is directly exposed to the wind and could influence the wind loads. By measurements in a high-pressure wind tunnel, it can be demonstrated that the design-relevant wind load coefficients are not Reynolds number dependent. However, the inclination of the mirror plane in stow position, due to the deflection of the heliostat’s structure at high Reynolds number, leads to increased wind loads and must be considered. The results are also valid for photovoltaic trackers of similar shape.
Graphical abstract Display Omitted Highlights ► Wind load coefficients of heliostats and PV trackers could be Reynolds dependent. ► High pressure wind tunnels are appropriate to determine the Reynolds dependency. ► Impact of deflection on measured values was eliminated using FEM. ► No design-relevant Reynolds dependency of the wind load coefficients was measured.
Wind loads on heliostats and photovoltaic trackers at various Reynolds numbers
Abstract Wind loads on heliostats are usually determined at boundary layer, low-speed wind tunnels, where the design full-scale Reynolds number cannot be reached. In doing so, it is supposed that the wind load coefficients are Reynolds number independent, which is known to be the case for sharp edged bodies. For the stow position the usually round torque tube is directly exposed to the wind and could influence the wind loads. By measurements in a high-pressure wind tunnel, it can be demonstrated that the design-relevant wind load coefficients are not Reynolds number dependent. However, the inclination of the mirror plane in stow position, due to the deflection of the heliostat’s structure at high Reynolds number, leads to increased wind loads and must be considered. The results are also valid for photovoltaic trackers of similar shape.
Graphical abstract Display Omitted Highlights ► Wind load coefficients of heliostats and PV trackers could be Reynolds dependent. ► High pressure wind tunnels are appropriate to determine the Reynolds dependency. ► Impact of deflection on measured values was eliminated using FEM. ► No design-relevant Reynolds dependency of the wind load coefficients was measured.
Wind loads on heliostats and photovoltaic trackers at various Reynolds numbers
Pfahl, A. (author) / Uhlemann, H. (author)
Journal of Wind Engineering and Industrial Aerodynamics ; 99 ; 964-968
2011-06-23
5 pages
Article (Journal)
Electronic Resource
English
Wind loads on heliostats and photovoltaic trackers at various Reynolds numbers
| Online Contents | 2011
Wind Load Reduction for Light-weight Heliostats
| Tema Archive | 2014
Acceptance test for heliostats to quantify wind-induced tracking deviations
| TIBKAT | 2022
| British Library Online Contents | 2017
| British Library Online Contents | 2017