Unlocking nature's
carbon-capture potential
Biogenic carbon capture presents a promising opportunity in global efforts to meet net-zero targets. Within the carbon
capture, utilisation, and storage (CCUS) framework,
this method entails capturing carbon dioxide (CO2)
emissions from processed biomass, and presents dual pathways: either permanently storing it in the deep-subsurface (storage)
or repurposing it in a variety of applications (utilisation).
This approach creates opportunities for substantial benefits
and potential for carbon removal efforts through
collaborative initiatives among agriculture, forests,
and industries.
EU industrial carbon management strategy
The EU industrial management strategy targets a single CO2 market in Europe, fostering investment in carbon management technologies like carbon capture and storage (CCS) and carbon capture and utilisation (CCU).
Potential of biogenic CO2 capture in pulp mills
Pulp mills worldwide offer a unique opportunity to mitigate emissions by capturing and storing large quantities of biogenic CO2, emitted from biomass fuel usage.
Pulp mills already produce valuable bio-products, and the addition of CO2 capture and storage can enable an overall negative emissions process.
Range of carbon credit prices
Permanent technical removals receive premium prices in voluntary markets, providing very long-term carbon storage, unlike nature-based solutions, which offer more temporary storage, with carbon often re-released into the atmosphere over years or decades.
Bioenergy with carbon capture and storage (BECCS) is a crucial solution for permanent carbon removal, presenting an opportunity for significant expansion.
E-fuel demand expected to surge by 2050
Biogenic carbon capture and utilisation converts CO2 derived from sustainably sourced biomass, into a fossil-fuel alternative essential for decarbonising industries, such as transportation.
CO2 regulations and growing environmental consciousness are driving an increasing demand for renewable fuels, offering significant greenhouse gas savings.
Sources: AFRY, Carbonfuture, CDR.FYI, European Commission, Ernst & Young, Frontiers, IEA, Platts, Klement, J., Rootzén, J., Normann, F., & Johnsson, F. (2021). “Supply Chain Driven Commercialisation of Bio Energy Carbon Capture and Storage.”, Kuparinen, K., Vakkilainen, E.,Tynjälä, T. (2019). “Biomass-based carbon capture and utilisation in kraft pulp mills”