As CO₂ levels continue to rise and global warming intensifies, the need for effective mitigation strategies has become urgent. Carbon capture technologies have therefore emerged as vital tools in advancing the global transition toward a low-carbon future.
Carbon capture involves trapping carbon dioxide (CO₂) before it reaches the atmosphere. This can happen at the source, like power plants, factories, or industrial facilities, or directly from the air through emerging direct air capture (DAC) technologies. Once captured, carbon can either be:
Some industries are hard to decarbonize. Sectors like cement, steel, and heavy energy production produce high volumes of CO₂ that cannot be fully eliminated with current technologies. Carbon capture provides a practical solution for these “hard-to-abate” emissions, allowing industries to continue operating while significantly reducing their climate impact.
Moreover, carbon capture supports global efforts to meet the Paris Agreement targets by providing a scalable way to remove CO₂ from both industrial emissions and the atmosphere. This helps reduce global warming and contributes to the transition toward a low-carbon economy.
Investing in carbon capture technologies offers the following environmental benefits:
Despite its potential, carbon capture faces challenges such as:
By capturing CO₂ from industrial emissions and the atmosphere, storing it safely, or repurposing it for new products, businesses can reduce their carbon footprint while driving innovation and economic growth.