![]() Their invention is a kind of battery: conductive electrodes coated with a compound called polyanthraquinone, which has a natural chemical attraction to carbon dioxide under certain conditions, and no affinity for CO 2 when these conditions are relaxed. However, Voskian and Hatton came up with a design whose electrochemistry makes carbon capture appear nearly effortless. A lot of energy is required for most approaches to extract carbon from an exhaust flow or from air itself. Technology Voskian describes as “elegant and efficient” is at the heart of this approach. Installing stacks in parallel with alternating cycles allows for a continuous flow of incoming mixed gas and outgoing pure CO 2. Once the stack is saturated with CO 2, the incoming gas is stopped, and pure CO 2 exits the stack on the other side. The remaining gas simply passes through the stack and exits on the other side. Gas enters each stack on one side and is channeled through the electrodes that make up the stack, in which the carbon dioxide is absorbed. “It shows that the path we’ve chosen is the right one.” “While our core technology has been validated by the significant improvement of performance metrics, this external recognition further verifies our vision,” says Sahag Voskian SM ’15, PhD ’19, co-founder and chief technology officer at Verdox. This was the first round in the Musk Foundation’s four-year, $100 million competition, which is the largest prize offered in history. Then, in April - after being recognized by Bloomberg New Energy Finance as one of the year’s top energy pioneers - the company and partner Carbfix won a $1 million XPRIZE Carbon Removal milestone award. Launched in 2019, the carbon capture and removal startup announced $80 million in funding in February from a group of investors that included Bill Gates’ Breakthrough Energy Ventures. Verdox, founded by MIT chemical engineers and winner of an XPRIZE Carbon Removal milestone award, is working to move the needle on climate change.īy most benchmarks, MIT chemical engineering spinoff Verdox has been enjoying an outstanding year. As it passes between thin battery electrode plates, carbon dioxide attaches to the charged plates while the cleaned airstream passes on through and exits at the right. In addition, our CCUS services complement Coffman’s industry-leading work in renewable power, including battery storage and other alternatives.First developed at MIT, the technology enabled by Verdox enables a flow of air or flue gas (blue) containing carbon dioxide (red) to enter the system from the left. Skilled Oil & Gas, Industrial, and Renewable Energy EngineersĬoffman is uniquely positioned to assist clients with carbon goals backed by decades of experience in the industrialand oil & gas industries and capabilities in CCUS and Hydrogen consulting and technologies. CCUS provides the foundation for carbon removal or “negative emissions” when CO2 comes from bio-based processes or directly from the atmosphere. Today, CCUS is widely attractive across many industries for companies focused on moving toward Net Zero through “negative emission” technologies. CCUS technologies have successfully been used for decades, primarily in the oil and gas industry, to cut greenhouse gas (GHG) emissions. Solutions for your carbon initiatives backed by our industrial process safety and energy engineering experience.Ĭarbon Capture, Utilization, and Storage (CCUS) encompasses many technologies that can prevent large quantities of CO2 from being released into the atmosphere.
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