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New concept for rechargeable batteries made of cement | BUILDING MAGAZINE

New concept for rechargeable batteries made of cement

A new concept for rechargeable batteries made of cement has been published by researchers from the Department of Architecture & Civil Engineering at Chalmers University of Technology.

Dr Emma Zhang joined Professor Luping Tang’s research group several years ago to search for building materials of the future. Together they have now succeeded in developing what is believed to be a world-first concept.

The concept involves first a cement based mixture, with small amounts of short carbon fibres added to increase the conductivity and flexural toughness. Then, embedded within the mixture is a metal-coated carbon fibre mesh – iron for the anode, and nickel for the cathode. After much experimentation, this is the prototype that the researchers now present.

Zhang said: “Results from earlier studies investigating concrete battery technology showed very low performance, so we realised we had to think out of the box to come up with another way to produce the electrode. This particular idea that has been developed, which is also rechargeable, has never been explored before. Now we have proof of concept at lab scale”.

The research has produced a rechargeable cement-based battery with an average engergy density of 7 Watt-hours per square metre (or 0.8 Watt-hours per litre). Energy density is used to express the capacity of the battery, and a modest estimate is that the performance of the new Chalmers battery could be more than ten times that of earlier attempts at concrete batteries. The energy density is still low in comparison to commercial batteries, but this limitation could be overcome thanks to the huge volume at which the battery could be constructed when used in buildings.

The fact that the battery is rechargeable is its most important quality, and the possibilities for utilisation if the concept is further developed and commercialised are almost staggering. Energy storage is an obvious possibility, monitoring is another. The researchers see applications that could range from powering LEDs, providing 4G connections in remote areas, or a cathodic protection against corrosion in concrete infrastructure.

Zhang also went on to say: “It could also be coupled with solar cell panels for example, to provide electricity and become the energy source for monitoring systems in highways or bridges, where sensors operated by a concrete battery could detect cracking or corrosion”.

The concept of using structures and buildings in this way could be revolutionary, because it would offer an alternative solution to the energy crisis, by providing a large volume of energy storage.

“We have a vision that in the future this technology could allow for whole sections of multi-storey buildings made of functional concrete. Considering that any concrete surface could have a layer of this electrode embedded, we are talking about enormous volumes of functional concrete”.

The idea is still at a very early stage. The technical questions remaining to be solved for a commercialisation of the technique can be a reality include extending the service life of the battery, and the development of recycling techniques.

“Since concrete infrastructure is usually built to last fifty or even a hundred years, the batteries would need to be refined to match this, or to be easier to exchange and recycle when their service life is over”, said Zhang. “For now, this offers a major challenge from a technical point of view”.

The researchers are hopeful that their innovation has a lot to offer. “We are convinced this concept makes for a great contribution to allowing future building materials to have additional functions such as renewable energy sources”.

The research project was funded by the Swedish Energy Agency (Energimyndigheten) and the article, Rechargeable Concrete Battery, is published in the scientific journal Buildings.