Smart windows make climate-neutral living more attainable
Sustainable innovations are crucial to achieving an energy- and climate-neutral built environment by 2050. TNO’s SunSmart smart windows can significantly reduce residential energy consumption. A thermochromic coating keeps solar heat out in summer and lets it through in winter. This enables an average household to save 400 kg of CO2 a year.
There are more than 7 million buildings in the Netherlands, which together currently account for 40% of our energy consumption. The built environment also accounts for almost a third of carbon emissions. To meet the requirements of the Paris Climate Agreement, all homes and offices need to become substantially more sustainable.
The intended end result is an energy- and climate-neutral built environment by 2050, which will require innovations to help reduce energy consumption. In addition to solar panels and heat pumps, smart windows could soon start making a significant contribution to energy and emissions reduction.
Air conditioning and heating can be turned off more often
TNO is currently working on the SunSmart smart window, which has a special coating. This thermochromic layer helps regulate indoor temperatures by blocking solar heat in summer and letting it through in winter. As a result, smart windows can reduce the use of air conditioning and heating, and thus cut energy consumption. With this innovation, an average household could save around 400 kg of CO2 on an annual basis, plus hundreds of euros on energy bills.
Making windows smart
The special feature of the SunSmart smart window developed by TNO is that the thermochromic coating itself switches between letting in and blocking solar heat at a fixed temperature. Current electrochromic solutions use a motor or electricity and are therefore more expensive and less sustainable.
The SunSmart smart window’s ability to switch is an intrinsic feature of the coating material, which has been optimised for use in this application after years of research.
Advantages over electrochromic glass coatings
Electrochromic glass coatings are costly because they use electronics to switch between letting in and blocking solar heat. In addition, they also cause the windows to change colour. The SunSmart smart windows TNO is working on are affordable and feature integrated temperature regulation. Moreover, the coating is transparent and the window does not change colour, increasing its applicability for architects.
This is how smart windows work
The smart windows feature a temperature-sensitive glass coating of vanadium dioxide mixed with other ingredients. Depending on the temperature, this layer either allows the sun’s infrared light to pass through or blocks it. TNO has managed to bring the switching temperature to exactly 20 degrees Celsius, or room temperature.
If it is colder outside, the smart window allows solar heat to pass through, so the heating system does not have to work as hard. If it is warmer than 20 degrees outside, the coating blocks thermal radiation. It then stays more comfortable inside and the air conditioning does not have to be turned on as often.
The smart window therefore offers benefits in all seasons. The thermochromic coating is primarily designed for temperate climates in large parts of Europe and the US, but the switching temperature can be relatively easily adapted to other climate zones.
While developing the smart windows, TNO explicitly considered the affordability of the raw materials as well as the production process. As a result, SunSmart thermochromic windows have a payback period of 5 to 7 years. This is roughly comparable to the investment in solar panels.
According to TNO, air-conditioned homes could save around 500 euros a year on their energy bills thanks to thermochromic windows. Another sustainable feature is that the windows are also durable, with a guaranteed service life of 20 years.
From pilot line to large-scale production
Now that TNO has shown that the SunSmart smart windows can effectively contribute to meeting the climate challenge, it is time to scale up the production process. In the pilot line at the TNO-Brightlands Materials Center in Geleen, a mini-test plant is now working overtime.
In a dust-free environment, TNO applies the thermochromic coating to the perfectly clean glass using the roller-coater technique. The coating then hardens in an oven. These thermochromic windows will be ready for large-scale production by 2025, which will also make the technology commercially interesting.
Take the next step with us
TNO is looking for partners to produce the SunSmart smart windows and bring them to market. For more information about the possibilities, or a demonstration of the pilot line in Geleen, please contact Eugene Veerkamp, Business Developer at TNO.
Eugene VeerkampFunctie:Business developer
Eugène can rely on an impressive career in international business as a chemical & materials engineer that spans 25 years. He understands that the commercial and financial aspects are essential for new sustainable solutions to become successful. Cooperating closely with the industry and launching new innovation onto the market are two key drivers in Eugène’s daily work, along with sharing his own business development experience within an enthusiastic team of specialists.
Pascal BuskensFunctie:Program Principal scientist at TNO and professor at University of Hasselt on Nanostructured Materials
Pascal specializes in designing, manufacturing, characterizing and validating optical materials, coatings and films that interact in distinct ways with sunlight. The materials are mainly used in the photochemical and photoelectrochemical production of chemicals and fuels, as well as for regulating sunlight transmission through windows and for improving the efficiency and aesthetics of integrated solar panels in buildings.
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