Swedish researchers develop energy-storage molecule

Swedish researchers develop energy-storage molecule

​A research group from Chalmers University of Technology, Sweden, is developing a specially designed molecule which can store solar energy for later use.

The molecule, made from carbon, hydrogen and nitrogen, has the unique property that when it is hit by sunlight, it is transformed into an energy-rich isomer – a molecule which consists of the same atoms, but bound together in a different way.

This isomer can then be stored for use when that energy is later needed – for example, at night or in winter. It is in a liquid form and is adapted for use in a solar energy system, which the researchers have named MOST (Molecular Solar Thermal Energy Storage). In just the last year, the research team have made great advances in the development of MOST.
18 year storage
“The energy in this isomer can now be stored for up to 18 years. And when we come to extract the energy and use it, we get a warmth increase which is greater than we dared hope for,” says the leader of the research team, Kasper Moth-Poulsen, in Nano Materials Chemistry at Chalmers.

The research group have developed a catalyst for controlling the release of the stored energy. The catalyst acts as a filter, through which the liquid flows, creating a reaction which warms the liquid by 63 centigrades.  If the liquid has a temperature of 20°Celsius when it pumps through the filter, it comes out the other side at 83°Celsius. At the same time, it returns the molecule to its original form, so that it can be then reused in the warming system.

During the same period, the researchers also learned to improve the design of the molecule to increase its storage abilities so that the isomer can store energy for up to 18 years. This was a crucial improvement, as the focus of the project is primarily chemical energy storage.

The advances mean that the energy system MOST now works in a circular manner. First, the liquid captures energy from sunlight, in a solar thermal collector on the roof of a building. Then it is stored at room temperature, leading to minimal energy losses. When the energy is needed, it can be drawn through the catalyst so that the liquid heats up. It is envisioned that this warmth can then be utilised in, for example, domestic heating systems, after which the liquid can be sent back up to the roof to collect more energy – all completely free of emissions, and without damaging the molecule.

The solar thermal collector is a concave reflector with a pipe in the centre. It tracks the sun’s path across the sky and works in the same way as a satellite dish, focusing the sun’s rays to a point where the liquid leads through the pipe. It is even possible to add on an additional pipe with normal water to combine the system with conventional water heating.

“We have made many crucial advances recently, and today we have an emissions-free energy system which works all year around,” says Kasper Moth-Poulsen.

The next steps for the researchers are to combine everything together into a coherent system.

“There is a lot left to do. We have just got the system to work. Now we need to ensure everything is optimally designed,” says Kasper Moth-Poulsen.

The group is satisfied with the storage capabilities, but more energy could be extracted, Kasper believes. He hopes that the research group will shortly achieve a temperature increase of at least 110°Celsius and thinks the technology could be in commercial use within 10 years.

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November 9, 2018
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