Can Sucking CO2 Out of the Atmosphere Really Work?

Physicist Peter Eisenberger had expected colleagues to react to his idea with skepticism. He was claiming, after all, to have invented a machine that could clean the atmosphere of its excess carbon dioxide, making the gas into fuel or storing it underground.
 
But the reception in the spring of 2009 had been even more dismissive than he had expected. First, he spoke to a special committee convened by the American Physical Society to review possible ways of reducing carbon dioxide in the atmosphere through so-called air capture, which means, essentially, scrubbing it from the sky. They listened politely to his presentation but barely asked any questions.
 
A few weeks later he spoke at the U.S. Department of Energy’s National Energy Technology Laboratory in West Virginia to a similarly skeptical audience. Eisenberger explained that his lab’s research involves chemicals called amines that are already used to capture concentrated carbon dioxide emitted from fossil-fuel power plants.
 
This same amine-based technology, he said, also showed potential for the far more difficult and ambitious task of capturing the gas from the open air, where carbon dioxide is found at concentrations of 400 parts per million. That’s up to 300 times more diffuse than in power plant smokestacks. But Eisenberger argued that he had a simple design for achieving the feat in a cost-effective way, in part because of the way he would recycle the amines. 
 
The next day, however, a manager from the lab called him excitedly. The DOE scientists had realized that amine samples sitting around the lab had been bonding with carbon dioxide at room temperature, a fact they hadn’t much appreciated until then. It meant that Eisenberger’s approach to air capture was at least “feasible,” says one of the DOE lab’s chemists, Mac Gray.
 
Five years later, Eisenberger’s company has raised $24 million in investments, built a working demonstration plant, and struck deals to supply at least one customer with carbon dioxide harvested from the sky. But the next challenge is proving that the technology could have a transformative impact on the world, befitting his company’s name.