Authors
Mihrimah Ozkan, Saeb Besarati, Christopher Gordon, Gaël Gobaille-Shaw, Noah McQueen
30 October 2024
DOI: 10.1016/j.chempr.2024.09.025
Abstract
Advancements in cost-effective direct air capture (DAC) technology have become critical in addressing climate change, with a particular emphasis on energy and cost reductions. Recent innovations have significantly decreased the energy requirements of DAC systems. In collaboration with experts from industry leaders such as Climeworks, Carbon Capture, Mission Zero, and Heirloom, the latest developments highlight DAC technology’s potential to become a viable and sustainable solution for large-scale CO₂ removal. These advancements include reductions in energy consumption to as low as 1,055 kWh per ton of CO₂ through electrochemical methods and strategic integration of renewable energy sources like geothermal power. Additionally, economies of scale achieved through bulk purchasing and streamlined manufacturing processes have lowered DAC modules’ per-unit cost. Financial incentives and supportive policies, such as the 45Q tax credit in the United States, enhance the economic feasibility of these technologies. These innovations underscore the substantial contributions of DAC technology to global climate change mitigation efforts, making it a promising solution for achieving significant reductions in atmospheric CO₂ levels.
Source: Chem