Climeworks has just opened the world’s largest direct carbon capture plant. It can suck around 36,000 tons of CO2 from the air each year, burying it underground.
There’s lots of industrial uses for CO2 – this style of DAC plant can be viewed as a green producer. That said, it’s really easy to outpace industrial demands and we can expect any facility like this will need to be sequestering most of their “production”. It’s hard to overstate how much excess CO2 there is in the atmosphere compared to the sum total of all industrial carbon dioxide needs. Since CO2 is thermodynamicly very stable, splitting it up to get pure carbon would be quite inefficient.
It’s part of the business model of every single DAC project pretty much without exception. Any way you can make back a bit of money selling that CO2 rather than sequestering it is an opportunity to offset costs. And no matter what you think of market economics, they’re very effective at reducing costs.
One of the most interesting uses is with projects like e.g. CarbonCure, where they dope cement production with CO2 which has known effects to strengthen (or at least not weaken) concrete. They don’t produce their own CO2 for their plants and so need to align themselves with renewable CO2 production facilities (which they do Heirloom Carbon).
Big issue is they it’s hard to compete with fossil-based CO2 production. So the next step once tech like this is proven is to start regulating/banning fossil-based CO2 production.
There’s lots of industrial uses for CO2 – this style of DAC plant can be viewed as a green producer. That said, it’s really easy to outpace industrial demands and we can expect any facility like this will need to be sequestering most of their “production”. It’s hard to overstate how much excess CO2 there is in the atmosphere compared to the sum total of all industrial carbon dioxide needs. Since CO2 is thermodynamicly very stable, splitting it up to get pure carbon would be quite inefficient.
It’s part of the business model of every single DAC project pretty much without exception. Any way you can make back a bit of money selling that CO2 rather than sequestering it is an opportunity to offset costs. And no matter what you think of market economics, they’re very effective at reducing costs.
One of the most interesting uses is with projects like e.g. CarbonCure, where they dope cement production with CO2 which has known effects to strengthen (or at least not weaken) concrete. They don’t produce their own CO2 for their plants and so need to align themselves with renewable CO2 production facilities (which they do Heirloom Carbon).
Big issue is they it’s hard to compete with fossil-based CO2 production. So the next step once tech like this is proven is to start regulating/banning fossil-based CO2 production.