Structural reinforcement for the installation of photovoltaic systems

In several cases it is necessary to make reinforcements so that the structure supports the installation of the panels.

5 minute(s) of reading

The installation of photovoltaic systems on the roofs of Brazilian buildings has grown dramatically due to all the benefits that solar energy provides.

Among them, savings on energy bills, predictability of expenses, environmental issues, enhancement of the company's image and guaranteed return on investment, among other advantages.

However, buildings are often not prepared to receive the additional load from solar panels, as their roofs and structures were not designed or built properly.

Contextualizing the problem

Building structures must withstand the following loads:

Own weight;
Weight of the tiles;
Utilities (loads added by electrical conductors, cable trays, water and refrigeration pipes, etc.);
Overload (load added by people and equipment that will work momentarily on the roof, items hanging from structures – such as banners);
Additional loads (photovoltaic panels);
Wind action.

Contrary to popular belief, the actions of the winds must also be considered. In fact, in most cases wind is the most significant load that the structure will have to support.

The norm ABNT NBR 6123 – Forces due to wind in buildings determines the considerations that must be made due to the forces exerted by winds on buildings.

More details about standards and issues that must be evaluated can be found in the article Prior assessment of roofs before installing photovoltaic systems.

The remedy to ensure that installing the panels does not become a nightmare for the owner and the installing company is to have the structure analyzed by a competent specialist.

This analysis must accompany a report with the respective ART stating whether or not the structure is ready to receive the installation of photovoltaic systems.

Structural reinforcements

In several cases it is necessary to make reinforcements so that the structure can support the installation of photovoltaic systems.

This occurs mainly in warehouses and sheds where, for cost reasons, structures are often designed and built within the limit permitted by standards or even outside the recommendations of technical standards.

When there is a need for reinforcement, the responsible professional must provide a calculation report and an executive project showing the assembly details, in addition to obviously providing the respective ART.

In general, the costs of structural reinforcements do not exceed 5% of the investment in the photovoltaic system, extending the payback (return time on investment) in a maximum of two or three months. The deadline for carrying out the reinforcement is also not long, and can be carried out in a few weeks. In this way, carrying out structural reinforcement, when necessary, does not make the photovoltaic project unfeasible. Let's look at some examples of reinforcements most commonly used to install panels.

Installation of pillars

In some cases it is necessary to install pillars to better distribute the diagonal forces of the building. Attention must be paid to the positioning of the pillars, as most of the time the best position from the point of view of mechanical efforts does not meet the needs of the flow of people, machines and cars. You should look for an option that meets all your needs.

Reinforcement in roof purlins and shears

Purlins are the structural elements to which roof tiles are attached. The shears, in turn, are the structures supported on the pillars and on which the purlins are mounted.

Generally, the purlins are the ones that directly receive the loads from the panels, regardless of the installation method used (studs, flat-rail or speed rail).

In these cases, when necessary, reinforcement consists of fixing a tube or beam in parallel along the entire length of the purlin. Fixation can be done using screws or welding.

The choice of method depends on the viability of the installation, considering the execution time and the environment where it will be carried out (environment with flammable materials, high flow of people, etc.). In structures with a ceiling, it may be necessary to remove the tiles to carry out the work.

Figura 1: Exemplo de reforço realizado nas terças de um telhado de estruturas metálicas — Figure 1: Example of reinforcement carried out in the purlins of a metal structure roof

Figura 2: Exemplo de reforço realizado nas tesouras de um telhado de estruturas metálicas — Figure 2: Example of reinforcement carried out in the shears of a metal structure roof

Alternative to reinforcement

In some cases it is possible to install the panels without reinforcing them. To do this, you need to work on a layout of the arrangement that distributes the panels in more robust points, which support the additional load – a structural calculation must, however, be carried out to verify the weight limit that can be applied to the elements.

An example is seen below, where structural analysis showed that the purlins would not withstand the additional stresses due to the installation of the panels.

To avoid reinforcement in the purlins, it was decided to position the panels aligned with the scissors, within a maximum occupancy margin of 1.5 m on each side.

Figura 3: Exemplo de telhado onde não foi possível realizar reforços estruturais. A opção foi a concentração do peso dos painéis solares sobre os as tesouras estruturais, evitando a sobrecarga das terças — Figure 3: Example of a roof where it was not possible to carry out structural reinforcements. The option was to concentrate the weight of the solar panels on the structural shears, avoiding overloading the purlins

Bruno Kikumoto

Electrical Engineer from UDESC. Master in Electrical Engineering from UNICAMP. Director of Canal Solar. Specialist in project management, inspection and commissioning of photovoltaic systems, with more than 10 years of experience in the industry and energy market.