Concrete traps CO2 soaked from air in climate-friendly test

Concrete traps CO2 soaked from air in climate-friendly test
Freshly poured concrete made with captured carbon dioxide is seen in a wheelbarrow in San Jose, California, US on Feb 1, 2023.
PHOTO: Reuters

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SAN JOSE — A California startup using rocks to soak up carbon dioxide from the air has teamed up with a Canadian company to mineralise the gas in concrete, a technological tie-up that is a first and they say could provide a model for fighting climate change globally.

United Nations (UN) scientists concluded that removing billions of tons of carbon dioxide already in the atmosphere, in addition to cutting current emissions, will be necessary to limit climate change. 

To do that, two things are needed: first, capturing carbon dioxide with nature or technology, and second, locking it up for centuries.

Companies are springing up to do both.

Heirloom Carbon Technologies delivered about 30 kg of CO2 collected from the air around its San Francisco Bay Area headquarters to neighbouring Central Concrete, a Vulcan Materials' subsidiary that on Wednesday (Feb 1) incorporated the gas into new concrete.

That's equivalent to tailpipe emissions of driving about 75 miles in a car.

The joint effort between Heirloom and Canada's CarbonCure Technologies was the first time that carbon dioxide absorbed from the atmosphere using such Direct Air Capture (DAC) technology had been secured in concrete, where the CO2 will stay put for centuries, several scientists said.

"Today this is a thimbleful of emissions abatement. You know, that's how it starts," said Julio Friedmann, chief scientist at Carbon Direct, which works with companies to manage their carbon footprint.

Because concrete is so widely used, it has great potential for absorbing CO2, if the process works and goes global. "The thing about direct air capture and concrete is it's a big prize together," he said.

Heirloom heats crushed limestone to release naturally absorbed CO2, then puts the CO2-starved rock on columns of huge trays, where they act like sponges, soaking up close to half their weight in the gas over three days.

The rock is then heated to release the collected ambient carbon dioxide, and the cycle repeats.

"Limestone has this natural ability to pull carbon out of the atmosphere. The problem is it's just slow. So what we do here is just give it more superpowers to make it pull carbon much, much, much faster than it otherwise would," said Heirloom CEO Shashank Samala.

CarbonCure, the concrete technology company, mixes CO2 with concrete ingredients, turning it into a mineral that strengthens the concrete, cutting the need for cement — the part of concrete with the biggest carbon footprint.

This week, CarbonCure incorporated the gas into water used to clean out trucks. The CO2 reacted with leftover ingredients and then was put into a new batch of concrete.

Capturing and locking down carbon on a global scale will not be easy though: companies like Heirloom will have to build expensive, massive plants capable of capturing millions or billions of tons a year.

"To remove a billion tons from the air we need in the order of mid-hundreds of billions of dollars," said Samala, who expects funders of solar, buildings, transmission towers and other infrastructure to finance carbon infrastructure, too.

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The price of carbon also needs to fall.

The US government and industry broadly see US$100 (S$132)-a-tonne carbon dioxide as a reasonable price for broad deployment. Heirloom charges around US$1,000 now; Samala expects to be at US$100 by the time his projects are soaking up millions of tons a year.

Concrete itself is controversial: it is the most used building material in the world, and it accounts for about eight per cent of global emissions of carbon dioxide, including those of its main binding agent, cement.

CarbonCure's most-used technology cuts that by about five per cent, said CarbonCure CEO Rob Niven. The new one using wastewater could cut a further five per cent to 10per cent.

That leaves it a huge net emitter with a difficult path to zero emissions, without raising prices.

However, concrete's ubiquity is attractive, because there are few places to securely hold carbon dioxide at present.

"It is a really thoughtful way to get around the current bottleneck of storage for DAC," said Anu Khan, deputy director of science at climate advocacy group Carbon180.

"The thing about concrete is there are no substitutes," Niven said. Technology can find new binding agents and new ingredients. "We just have to clean it up," he said.

ALSO READ: Temasek, Toyota back climate biotech firm Living Carbon

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