Can building-integrated solar panels withstand typhoon strength wind conditions?

A coupled FSI and BES framework is proposed to evaluate the structural and energy performance of a building-integrated solar panel system under typhoon strength wind conditions. As shown in Fig. 2, the FSI approach utilises a combination of CFD and FEA tools to model the structural resilience of the building and the PV panel.

Do roof-mounted solar panels withstand typhoon-strength approach winds?

A framework based on fluid–structure interaction (FSI) modelling and building energy simulation (BES) was proposed to evaluate roof-mounted solar panels' structural and energy performance. The FSI simulation was carried out for a typical low-rise building design with solar panels subjected to typhoon-strength approach winds.

Can a photovoltaic system power a household during a typhoon?

The highest energy generation was observed for the photovoltaic system installed at a 26.5° roof pitch but would not be able to power the household in the event of a stronger typhoon with a sustained wind speed of 61 m/s.

What is cable-supported photovoltaic (PV)?

Cable-supported photovoltaic (PV) modules have been proposed to replace traditional beam-supported PV modules. The new system uses suspension cables to bear the loads of the PV modules and therefore has the characteristics of a long span, light weight, strong load capacity, and adaptability to complex terrains.

What is a supporting cable structure for PV modules?

Czaloun (2018) proposed a supporting cable structure for PV modules, which reduces the foundation to only four columns and four fundaments. These systems have the advantages of light weight, strong bearing capacity, large span, low cost, less steel consumption and applicability to complex terrain.

Do solar panels have a typhoon-strength wind load?

From the results, they concluded that the separation flows around solar panels increased the drag and lift coefficients. Pantua et al. numerically investigated the sustainability of building integrated systems subjected to typhoon-strength wind loads and found that failure could occur at a 45° wind direction.