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Rooftop radiative cooling system produces renewable power at night

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A low-cost system that can generate electricity at night has been touted as a way to power night-time lighting in urban areas in developing countries.

A team of researchers from Stanford University, led by Professor Shanhui Fan, has developed the system around the principle of creating power from radiative cooling.

Although solar power brings many benefits, its use depends heavily on the distribution of sunlight, which can be limited in many locations and is completely unavailable at night.

Systems that store energy produced during the day are typically expensive, thus driving up the cost of using solar power.

The radiative cooling approach uses the temperature difference resulting from heat absorbed from the surrounding air and the radiant cooling effect of cold space to generate electricity.

The researchers theoretically demonstrated an optimised approach that can generate 2.2W per square metre with a rooftop device that doesn’t require a battery or any external energy.

This is about 120 times the amount of energy that has been experimentally demonstrated and is enough to power modular sensors such as the ones used in security or environmental applications.

“We are working to develop high-performance, sustainable lighting generation that can provide everyone - including those in developing and rural areas - access to reliable and sustainable low-cost lighting energy sources,” said Lingling Fan, a PhD student and first author of the paper.

“A modular energy source could also power off-grid sensors used in a variety of applications and be used to convert waste heat from automobiles into usable power.”

One of the most efficient ways to generate electricity using radiative cooling is to use a thermoelectric power generator. These devices use thermoelectric materials to generate power by converting the temperature differences between a heat source and the device’s cool side, or radiative cooler, into an electric voltage.

In the new work, the researchers optimised each step of thermoelectric power generation to maximise night-time power generation from a device that would be used on a rooftop.

They improved the energy harvesting so that more heat flows into the system from the surrounding air and incorporated new commercially available thermoelectric materials that enhance how well that energy is used by the device. They also calculated that a thermoelectric power generator covering one square metre of a rooftop could achieve the best trade-off between heat loss and thermoelectric conversion.

“One of the most important innovations was designing a selective emitter that is attached to the cool side of the device,” said Wei Li, a member of the research team. “This optimises the radiative cooling process so that the power generator can more efficiently get rid of excessive heat.”

The researchers demonstrated the new approach by using computer modelling to simulate a system with realistic physical parameters. The models reproduced previous experimental results faithfully and revealed that the optimised system designed by the researchers could come close to what has been calculated as the maximum efficiency using thermoelectric conversion.

In addition to carrying out experiments, the researchers are also examining optimal designs for operating the system during the day which could expand its practical applications.

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