Solar panels on windows, façades, and roofs

Thema:
Solar energy on buildings

Generating energy from sunlight is essential for reducing CO2 emissions. But it takes a lot of space to install solar panels on land. What if you could use existing space in the built environment? We’re developing opportunities for innovative solar panels in façades, roofs and in windows.

Solar panels on façades

There is a total of some 2,200 square kilometres of façade area in the Netherlands, of which 660 square kilometres are suitable for solar energy generation. Altogether, a capacity of 58 gigawatt peak can be installed on it. To put that in perspective, in 2022 the capacity of all solar power installations in the Netherlands was 18.8 gigawatt peak. Huge opportunities therefore for solar power generation, which we want to exploit. That is why we are working on a revolutionary product for the market, together with construction companies and manufacturers.

Over the last few years, in the Dutch Solar Design project, we’ve been working with partners to develop technology that makes this possible. In doing so, we pay attention to aesthetics and sustainability. For example, unimaginative façades of old blocks of flats can be transformed into attractive walls that generate energy. Within the foreseeable future, we want solar panels that generate energy to cost the same as the most common materials used in construction. This is how we’ll accelerate the creation of energy-neutral houses and other buildings.

The new generation of solar panels is so flexible that you have endless possibilities in terms of size, shape, and colour pattern. Situations where solar panels have been installed on façades include:

  • an image formed by aesthetic solar panels of matt glass on a concrete house along the track, at Naarden-Bussum railway station (see image)
  • aesthetic solar panels on the façade of the Royal BAM Group head office, where a brick pattern was chosen that blends in seamlessly with the façade itself
  • solar panels mounted in old air intakes, on the façade of Shell Technology Centre on the IJ in Amsterdam.
  • Solar panels as ivy on a facade in Eindhoven.

The variety of sizes, shapes, colours, and transparency of solar panels we’re working on may reduce the yield per panel. But on the plus side, many more surfaces in the built environment are suddenly able to generate solar energy. This can significantly boost the total amount of energy generated.

Brief explanation of the importance of new technology for solar cells on façade at BAM’s head office.

Solar panels on roofs

The Netherlands has some 800 square kilometres of roofs free for solar panels, half of which are commercial properties or agricultural roofs. But not all roofs are suitable. Also, the weight of standard solar panels is often too high for the load-bearing capacity of the roof, or the panels are not desirable from an aesthetic point of view. Therefore, we are working on solutions for lighter, more beautiful, cheaper and simpler constructions.

We do those innovations together with companies. For example, by developing an approach that ensures solar cells can be incorporated flexibly and affordably into surfaces and objects. From solar roofs and facades to on cars. We have built a research pilot line for this purpose. This is a model for a new generation of factories that will produce flexible semi-finished products with solar power.

Variations in shape, size, and colour are also important for the wider acceptance of solar panels. And to ensure that using solar power doesn’t undermine an architect’s creative freedom. Moreover, these innovative solutions create new market combinations and business activities. There are opportunities for construction companies, suppliers, machine manufacturers, and installation engineers.

An important aspect of solar panels is fire safety. Together with various parties, we examine existing solar panels and systems and develop new products. These include solutions to minimise the risk of arcs or new technology that prevents hotspots caused by shade.

We also provide expertise on solar modules and systems in relation to power electronics for various parties. We do this with our state-of-the-art test facilities for measuring, analysing and characterising these modules.

Solar panel production back to Europe

Meet the new generation of solar panels and discover the opportunities for sustainability and employment in the built environment.

Solar panels in windows

If you can incorporate solar panels into windows, it opens up a world of possibilities. However, you have to make sure the window remains transparent and that’s a challenge. The right balance is important here. We found the solution in solar windows: a slightly tinted window pane that generates a lot of solar energy but also lets sunlight through. At our SolarBEAT facility, for example, we are testing solar slats in project ZieZo (see image). SolarBEAT tests the yield of several variants of lamellae, varying in color and coating, solar cell technology and solar cell coverage.

For solar windows, we use thin-film solar cells or striped crystalline silicon solar cells. The goal is to create glass that lets in at least 20% of sunlight, while converting at least 10% into solar power. In this way, the windows can help make buildings energy-neutral, for example.

We have developed an innovative working prototype glass window semi-transparent module based on the material perovskite that generates solar energy. The prototype is 10 by 10 centimetres, with 5% efficiency. If we remove 50% of the material, 40% of the yield remains.

Ramen gevels daken1-TNO_Solar BEAT_EDV7530

At test facility SolarBEAT, we test outdoor building-integrated solar products.

Converting solar energy into heat

It’s common practice to convert the solar energy generated through roofs, windows, and façades into electricity. But another possibility is to use solar collectors that convert sunlight into heat. In time, solar energy could provide up to 10% of the heat needed in the Netherlands. However, this requires seasonal storage, to store heat extracted in the summer in heat batteries for the winter.

We are working with market participants on innovations in photovoltaic-thermal (PVT) systems. These systems generate both heat and electricity. Among other things, to make them better and more affordable. PVT systems on roofs in combination with a heat pump can contribute to an energy-neutral built environment.

Solar heat can supply a quarter of the total heat demand of the built environment, utilities, agriculture and industry. We conducted research into the use of solar energy as a heat source. The bottlenecks and concrete recommendations to make optimal use of solar heat can be read in an exploratory study (in Dutch) (pdf).

Previous research (pdf)shows that PVT modules can optically match the building in terms of color format. We demonstrated this on aesthetic facades with solar modules and with solar collectors with a heat-absorbing paint.

At our research site SolarBEAT we conduct tests on various PVT and solar thermal collectors.

Outdoor testing op SolarBEAT

SolarBEAT (Solar Building Elements Application Testing) is a test facility of TNO and TU/e where building-integrated solar energy products and systems are tested 24/7, both for power and heat generation.

Contact

TNO develops innovations and technologies for a more sustainable society. If you work at a company that is interested in collaborating with us on innovations, please contact us.

If you are a consumer with questions about solar panels, please contact organisations that give advice on this topic such as Vereniging Eigen Huis, Consumentenbond, and Milieu Centraal. Also read the frequently asked questions about solar panels on our website.

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