Scrubbing harmful gases out of the atmosphere has long been a dream. An Iceland company


Our planet is changing. So is our journalism. This story is part of a CBC News initiative entitled Our Changing Planet to show and explain the effects of climate change and what is being done about it.


The blackened lava fields and billowing steam vents of an active volcano near Reykjavik, Iceland, are the backdrop for a new venture that could help change the global calculation on climate change.

The facility, known as Orca, captures CO2 right out of the air — essentially scrubbing the atmosphere of harmful greenhouse gases.

“Like, imagine when we started, 14 years ago, there was absolutely no support for what we were doing,” said Christoph Gebald, 38, a German-born engineer who’s now based in Zurich, Switzerland.

“I’m very excited about where we are.”

A direct air capture facility, called Orca, sits on a volcanic plain outside the city of Reykjavik, Iceland. (Jean-François Bisson/CBC)

Gebald’s company, Climeworks, which he co-founded, has emerged as one of the early leaders in a technology known as direct air capture.  

The plant in Iceland is the largest of its kind in the world.

Scientists have known for decades how to take CO2 out of the air, but applying the technology on a large scale and in a way that makes economic sense has been elusive.     

With the COP26 climate summit poised to begin Sunday in Glasgow, Scotland, and the world searching for solutions to de-carbonize faster, there’s been a spike in interest in how new technologies can help get there.

  • Have questions about COP26 or climate science, policy or politics? Email ask@cbc.ca or join us live in the comments now.

Filters at the direct air capture facility trap the CO2 gas that is drawn in by fans. The filters are then heated with steam to shake the trapped gas loose. The gas is piped to the next step, where it is mixed with water and injected underground. (Stephanie Jenzer/CBC)

The Conference of Parties (COP), as it’s known, meets every year and is the global decision-making body set up to implement the United Nations Framework Convention on Climate Change, adopted in the early 1990s, and subsequent climate agreements.

Climeworks is now among more than a dozen companies around the globe — including some in Canada — blazing a new and, for some, controversial trail by attempting to capture dispersed greenhouse gases to counter the effects of climate change.   

Detractors suggest carbon capturing technology is expensive and its impact on lowering atmospheric CO2 questionable. 

In July, hundreds of Canadian and American environmentalists joined forces to call on governments to stop investing in carbon capture, arguing it takes the focus off reducing emissions, which should be the prime directive of climate mitigation efforts.

The Climeworks plant is located on the site of one of Iceland’s largest geothermal plants about 50 kilometres outside the capital Reykjavik. (Stephanie Jenzer/CBC)

However, their fight appeared to be aimed largely at the oil, gas and coal industries and their investments to capture and sequester pollutants coming out of the stack.

Instead, direct air capture aims to collect greenhouse gases that have already been dispersed in the air.   

Indeed, proponents say since the gases circle the globe, such facilities can be built anywhere and used to clean the air of the entire planet.

Gebald said in a fight as all-consuming as climate change, the technology can play a crucial role.

“We need direct air capture as a solution for stuff we cannot reduce otherwise. It’s emissions from agriculture, it’s emissions from operations that physically have a hard time to avoid CO2, like aviation,” Gebald told CBC News via Zoom as a CBC crew toured the Orca plant.

“Climate science is asking for this and Orca is delivering that product.”

Kari Helgason, head of research and innovation with Carbfix, holds porous basalt rock, right, and another sample that has been filled with petrified carbon dioxide gas. (Stephanie Jenzer/CBC)

The Climeworks facility is located about 50 kilometres outside Iceland’s capital, next to the Hellisheiði Power Station, which is run by Reykjavik Energy.  

It’s a geothermal plant that taps into the heat of the Earth’s core to provide a supply of clean, cheap electricity.

Pipes carrying superheated steam criss-cross the hillside and power the enormous electrical turbines at the power plant.

The Orca facility next door appears relatively modest in comparison. 

It consists of a series of modules the size of a shipping container that are filled with dozens of fans, all attached to white, tube-shaped filter bags.  

The fans draw in the air from outside and the CO2 molecules chemically attach to the filters. The filters are heated,  shaking loose the captured gas, which is piped off for the next part of the process. 

WATCH | Taking carbon dioxide out of the air and turning it to stone underground:

The world’s largest carbon-sucking facility

Two companies — Climeworks and Carbfix — have partnered in Iceland to scrub carbon dioxide directly out of the air, then pump it deep underground where it’s turned into stone. 1:16

That phase is handled by Carbfix, a publicly owned Icelandic company that is part of the electrical utility.

Kari Helgason, Carbfix’s head of research and innovation, took our CBC crew into an igloo-like structure filled with yet more pipes.

There, he said, the CO2 gas is mixed with water and injected 800 metres below into the volcanic rocks, where it disperses. Over months, it interacts chemically with the basalt rock and petrifies, turning to stone.

Helgason said Iceland’s capacity to seal away such harmful gases is vast.

“Iceland could store about 50 times the annual emissions of mankind,” he said, noting Carbfix is exploring ways of shipping in CO2 from other countries and burying it the same way.

Iceland’s geology is largely made up of porous basalt rock, an ideal place to store CO2, which chemically reacts with the rock and petrifies. (Stephanie Jenzer/CBC)

Helgason said the extremely porous volcanic rock that dominates Iceland’s geology is ideal for storing C02 because there’s no risk of the gas escaping. Nor is there a chance the process can have unwanted side-effects, such as earthquakes, which can sometimes occur during fracking.

“Nature cleans up after itself,” said Helgason. “It takes CO2 from the atmosphere and stores it in rock. We are just speeding up the process using science and innovation.”

Carbfix pioneered the process by entombing unwanted emissions from the geothermal plant but now deals with the CO2 from Climeworks and possibly other companies in the future.

‘A bit overwhelming’

“It’s a bit overwhelming, I must admit. Sort of like the Wild West, with everybody scrambling to decarbonize now, whereas we should have started 10, 20 years ago.”

The Climeworks operation has the capacity to remove about 10 tonnes of CO2 per day, or about 4,000 tonnes a year.     

To put that in perspective, that amounts to only a few seconds of the world’s annual emissions. But Gebald, the co-founder, said that is just the beginning and larger plants will follow, with the hope of scaling up to 30 million tonnes annually within 15 to 20 years.

The final part of the capture and sequestration process happens in these igloo-like structures. (Stephanie Jenzer/CBC)

In fact, a Canadian company, Carbon Engineering, based in Squamish, B.C., is designing a facility in West Texas that would have roughly 250 times the capacity of the Iceland facility — or more than one million tonnes a year. 

It plans to use the empty reservoirs deep beneath old fields to seal up the unwanted gases.

“We’ll start construction next year and the plant will go operational, we think, in late 2024,” CEO Steve Oldham told CBC News in an interview. 

Oldham’s firm has had a small demonstration unit at the company’s site on Howe Sound since 2015. It’s also building a new, larger demonstration plant in Squamish that will be opening in the coming months.

Turning CO2 into synthetic fuel

Carbon Engineering’s other ventures include a $1.3-billion partnership with the Upper Nicola First Nation that will turn carbon captured from the air into synthetic fuel.

The Texas direct air capture facility is being bankrolled by Occidental Petroleum, one of the largest exploration and production firms in the world, with Carbon Engineering providing the design and technological expertise.

“Why are we building a plant in the United States? Because they actually have the policies in place today that close the business case,” said Oldham, noting a combination of carbon taxes and tax credits has helped make a persuasive argument that there’s a value for companies to remove carbon from the air.

“Our prices for permanent removal [of carbon] from our first plant start at $300 US a tonne. We are very confident those…



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