Post by account_disabled on Mar 10, 2024 3:23:13 GMT -6
An Icelandic startup has an intriguing solution to the emissions problem: turning carbon dioxide into stone. While it sounds like an evil power from a fairy tale, and maybe there's a bit of magic in Carbfix's approach, we'll donkeyume their patented technology is scientific. Is that how it works.
As most of us know, trees and plants bind carbon in the atmosphere . But, so do rocks.
Carbfix will be able to convert carbon dioxide into stones by accelerating natural processes.
Carbfix's technology makes the process of carbon penetration into rock much faster and provides a natural, permanent storage solution by converting carbon dioxide into stone underg Phone Number List round in less than two years.
Carbfix describes its transformative project as:
Natural: storing carbon in rocks as a natural but accelerated process.
Low cost: Low initial capital costs Shallow well network
Safe: Leakage Eliminated with Instant Solubility Trapping Underground
Innovative: Strong scientific background, more than published articles
Unlimited: Storage capacity much larger than needed for climate goals
Permanent: Stable for millennia, no long-term monitoring necessary
The startup dissolves carbon in water, which interacts with reactive rock formations, “to form stable minerals that provide a permanent and safe carbon sink.” Carbfix injects this solution into the subsoil, adds a bit of patented technology and voila, in two years carbon has turned to stone.
For Carbfix technology to work, three things are needed: favorable rocks, water, and a source of carbon dioxide. During the development of the pilot project, it was determined that at least % of the injected CO is mineralized within two years, much faster than previously thought.
You may wonder, why is mineralization so fast?
How can carbon dioxide be converted into rocks below the surface? This is what happens: Carbonated water is acidic and during injection it chemically reacts with underground rocks, that is, the host rock. The chemical composition and high reactivity of this basaltic rock has % by weight of calcium, iron and magnesium that are released into the water and combine with dissolved carbon dioxide and form carbonates underground. Since they are stable for thousands of years, we can consider carbon permanently stored.
Basalt rock is the most common type of rock on the Earth's surface, covering % of the continents and most of the ocean floor. In addition, they contain storage space for mineralized CO since they are often fractured and They are porous.
The project to convert carbon dioxide is economical and environmentally friendly
“This is a technology that can be scaled: it is cheap, economical and environmentally friendly,” said Carbfix CEO Edda Sif Pind Aradottir. "Basically, we're just doing what nature has been doing for millions of years, so we're helping nature help itself."
As most of us know, trees and plants bind carbon in the atmosphere . But, so do rocks.
Carbfix will be able to convert carbon dioxide into stones by accelerating natural processes.
Carbfix's technology makes the process of carbon penetration into rock much faster and provides a natural, permanent storage solution by converting carbon dioxide into stone underg Phone Number List round in less than two years.
Carbfix describes its transformative project as:
Natural: storing carbon in rocks as a natural but accelerated process.
Low cost: Low initial capital costs Shallow well network
Safe: Leakage Eliminated with Instant Solubility Trapping Underground
Innovative: Strong scientific background, more than published articles
Unlimited: Storage capacity much larger than needed for climate goals
Permanent: Stable for millennia, no long-term monitoring necessary
The startup dissolves carbon in water, which interacts with reactive rock formations, “to form stable minerals that provide a permanent and safe carbon sink.” Carbfix injects this solution into the subsoil, adds a bit of patented technology and voila, in two years carbon has turned to stone.
For Carbfix technology to work, three things are needed: favorable rocks, water, and a source of carbon dioxide. During the development of the pilot project, it was determined that at least % of the injected CO is mineralized within two years, much faster than previously thought.
You may wonder, why is mineralization so fast?
How can carbon dioxide be converted into rocks below the surface? This is what happens: Carbonated water is acidic and during injection it chemically reacts with underground rocks, that is, the host rock. The chemical composition and high reactivity of this basaltic rock has % by weight of calcium, iron and magnesium that are released into the water and combine with dissolved carbon dioxide and form carbonates underground. Since they are stable for thousands of years, we can consider carbon permanently stored.
Basalt rock is the most common type of rock on the Earth's surface, covering % of the continents and most of the ocean floor. In addition, they contain storage space for mineralized CO since they are often fractured and They are porous.
The project to convert carbon dioxide is economical and environmentally friendly
“This is a technology that can be scaled: it is cheap, economical and environmentally friendly,” said Carbfix CEO Edda Sif Pind Aradottir. "Basically, we're just doing what nature has been doing for millions of years, so we're helping nature help itself."