Carbon capture, utilisation and storage
Carbon capture, utilisation and storage, or CCUS, is an important emissions reduction technology that can be applied across the energy system.
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CCUS technologies involve the capture of carbon dioxide (CO2) from fuel combustion or industrial processes, the transport of this CO2 via ship or pipeline, and either its use as a resource to create valuable products or services or its permanent storage deep underground in geological formations.
CCUS technologies also provide the foundation for carbon removal or "negative emissions" when the CO2 comes from bio-based processes or directly from the atmosphere.
CCUS technologies also provide the foundation for carbon removal or "negative emissions" when the CO2 comes from bio-based processes or directly from the atmosphere.
Last updated Nov 5, 2020
Key findings
World large-scale CCUS facilities operating and in development, 2010-2020
OpenMomentum is growing for CCUS
After years of a declining investment pipeline, plans for more than 30 new integrated CCUS facilities have been announced since 2017. The vast majority are in the United States and Europe, but projects are also planned in Australia, China, Korea, the Middle East and New Zealand. If all these projects were to proceed, the amount of global CO2 capture capacity would more than triple, to around 130 Mt per year.
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Events
24 Sep 2020 11:00—11:45
CCUS in Clean Energy Transitions: ETP Special Report
25 Jun 2020 10:00—11:00
Understanding the cost of reducing water usage in coal and gas-fired power plants with CCS
16 Jun 2020 16:00—17:00
Deployment of bioenergy combined with carbon capture and storage or utilisation (BECCS/U)
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Reports
Our work
Founded in 1991, the remit of the GHG TCP is to evaluate options and assess the progress of carbon capture and storage, and other technologies that can reduce greenhouse gas emissions derived from the use of fossil fuels, biomass and waste. The aim of the TCP is to help accelerate energy technology innovation by ensuring that stakeholders from both the public and private sectors share knowledge, work collaboratively and, where appropriate, pool resources to deliver integrated and cost-effective solutions.