Katana VentraIP

Carbon dioxide removal

Carbon dioxide removal (CDR) is a process in which carbon dioxide (CO2) is removed from the atmosphere by deliberate human activities and durably stored in geological, terrestrial, or ocean reservoirs, or in products.[3]: 2221  This process is also known as carbon removal, greenhouse gas removal or negative emissions. CDR is more and more often integrated into climate policy, as an element of climate change mitigation strategies.[4][5] Achieving net zero emissions will require first and foremost deep and sustained cuts in emissions, and then—in addition—the use of CDR ("CDR is what puts the net into net zero emissions"[6]). In the future, CDR may be able to counterbalance emissions that are technically difficult to eliminate, such as some agricultural and industrial emissions.[7]: 114 

This article is about removing carbon dioxide from the atmosphere. For technologies that remove carbon dioxide from point sources, see Carbon capture and storage.

CDR includes methods that are implemented on land or in aquatic systems. Land-based methods include afforestation, reforestation, agricultural practices that sequester carbon in soils (carbon farming), bioenergy with carbon capture and storage (BECCS), and direct air capture combined with storage.[7]: 115  There are also CDR methods that use oceans and other water bodies. Those are called ocean fertilization, ocean alkalinity enhancement,[8] wetland restoration and blue carbon approaches.[7]: 115  A detailed analysis needs to be performed to assess how much negative emissions a particular process achieves. This analysis includes life cycle analysis and "monitoring, reporting, and verification" (MRV) of the entire process.[9] Carbon capture and storage (CCS) are not regarded as CDR because CCS does not reduce the amount of carbon dioxide already in the atmosphere.


As of 2023, CDR is estimated to remove around 2 gigatons of CO2 per year.[10] This is equivalent to about 4% of the greenhouse gases emitted per year by human activities.[11]: 8  There is potential to remove and sequester up to 10 gigatons of carbon dioxide per year by using those CDR methods which can be safely and economically deployed now.[11] However, quantifying the exact amount of carbon dioxide removed from the atmosphere by CDR is difficult.

Role in the (land-based biological; ocean-based biological; geochemical; chemical); or

carbon cycle

Timescale of storage (decades to centuries; centuries to millennia; thousand years or longer)

Methods[edit]

Overview listing based on technology readiness level[edit]

The following is a list of known CDR methods in the order of their technology readiness level (TRL). The ones at the top have a high TRL of 8 to 9 (9 being the maximum possible value, meaning the technology is proven), the ones at the bottom have a low TRL of 1 to 2, meaning the technology is not proven or only validated at laboratory scale.[7]: 115 

Removal of other greenhouse gases[edit]

Although some researchers have suggested methods for removing methane, others say that nitrous oxide would be a better subject for research due to its longer lifetime in the atmosphere.[62]

 – Series of interconnected biochemical reactions

Biological carbon fixation

 – Device which absorbs carbon dioxide from circulated gas

Carbon dioxide scrubber

 – Type of fuel which have no net greenhouse gas emissions

Carbon-neutral fuel

 – Hypothetical representation of potential future conditions

Climate change scenario

 – New technologies actively in development

List of emerging technologies

 – Economy based on energy sources with low levels of greenhouse gas emissions

Low-carbon economy

 – Competition for permanent removal of greenhouse gases

Virgin Earth Challenge

Factsheet about CDR by IPCC Sixth Assessment Report WG III

by Carbon180. Info about carbon removal solutions.

Deep Dives

Game.

The Road to Ten Gigatons - Carbon Removal Scale Up Challenge

report. 2023.

The State of Carbon Dioxide Removal

United Nations.

Land - the planet's carbon sink