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Remaking an old Swedish oil depot into a giant underground ‘thermos’

Surplus hot water will soon be stored in this cavern to provide a boost a peak times for the local heating company, reducing the need to rely on fossil fuels
Surplus hot water will soon be stored in this cavern to provide a boost a peak times for the local heating company, reducing the need to rely on fossil fuels - Copyright AFP DANIEL ROLAND
Surplus hot water will soon be stored in this cavern to provide a boost a peak times for the local heating company, reducing the need to rely on fossil fuels - Copyright AFP DANIEL ROLAND
Johannes LEDEL

Work lights strung up along railings illuminate a dank cavern where workers are preparing to transform a former oil depot into a hot water “thermos” to heat a Swedish town.

Originally dug out in the early 1970s, the three caverns with a combined volume of 300,000 cubic metres served as an oil storage until the site was abandoned in 1985.

“We are now converting it into a giant thermos to store hot water in,” explained project manager Rickard Svensson at power and district heating company Malarenergi in the city of Vasteras.

The site will “store energy, which we sometimes have an excess of, and … use that at times when there is a shortage,” he said.

The caverns are close to Malarenergi’s combined heat and power plant, which supplies electricity and especially heat via district heating, to Vasteras’ 130,000 or so inhabitants.

Hundreds of metres of pipes are being installed along with massive heat exchangers, so excess heat can heat up the water stored within and then be used to transport heat out when needed.

In another area, workers are fitting hundreds of steel bars to make a thick reinforced concrete wall which will serve as a plug for the cavern.

Once the remodelling is completed, the entire cave system will be flooded and sealed for good.

The site had previously been emptied of oil but never properly decontaminated.

“It was an excellent fit to re-use the oil storage and thereby take advantage of an existing resource,” Lisa Granstrom, strategy manager at Malarenergi, told AFP.

While the plant is already able to store heat in tanks above ground, they are nowhere near the size of the new installation.

The volume is roughly the equivalent of 6,000 backyard pools and can provide approximately 13 gigawatt hours (GWh), according to Malarenergi.

– New energy landscape –

Being able to store excess heat for future use means the utility can reduce the need to bring reserve plants, some of which rely on fossil fuels, online during cold snaps.

“It will even mean that during some days we’ll be able to stop production and just rely on this cave, just using the heat from here,” vice president Magnus Eriksson said.

In a climate where temperatures can range from minus 20 degrees Celsius (minus 4 Fahrenheit) in winter to plus 30 degrees (86 F) in summer, the “thermos” would be able to provide heat for “up to a week” on cold days and “around two weeks” in summer.

While the idea of converting such caverns is not novel, Malarenergi believes theirs is likely the largest of its kind.

Finnish utility Helen finished a similar project in 2021 on the island of Mustikkamaa near Helsinki with a capacity to store 11.5 GWh of energy.

Another, much larger project by Vantaa Energy is also planned for construction north of Helsinki, where the planned facility of 1,000,000 cubic metres will be able store 90 GWh of thermal energy using superheated water, according to the company.

Being able to store energy is a recurring challenge as countries seek to maximise the use of the energy that is produced.

“For both electricity and heat in the new energy landscape, storing energy is crucial to adjust to peaks in production and demand,” Filip Johnsson, a professor of energy systems at the Chalmers University of Technology in Gothenburg, told AFP.

In the case of heating, producers can avoid having to start up redundancy plants during cold snaps — which may rely on sources of energy such as oil or coal.

Meanwhile, there a different problem with wind power.

“When it’s very windy, you get a lot of wind power that you can’t use. But when it’s not so windy there will be a shortage,” Johnsson said.

He added that to make better use of wind power, excess energy can be stored in batteries or as hydrogen produced from electricity.

AFP
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With 2,400 staff representing 100 different nationalities, AFP covers the world as a leading global news agency. AFP provides fast, comprehensive and verified coverage of the issues affecting our daily lives.

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