Geochemical negative emissions technologies: Part I. Review

JS Campbell, S Foteinis, V Furey, O Hawrot… - Frontiers in …, 2022 - frontiersin.org
Over the previous two decades, a diverse array of geochemical negative emissions
technologies (NETs) have been proposed, which use alkaline minerals for removing and …

[HTML][HTML] Current state of industrial heating and opportunities for decarbonization

M Pisciotta, H Pilorgé, J Feldmann, R Jacobson… - Progress in Energy and …, 2022 - Elsevier
The IPCC recommends keeping the global average temperature increase well below 2° C, if
not below 1.5° C, by 2100 to avoid the worst effects of climate change. This requires …

The cost of direct air capture and storage can be reduced via strategic deployment but is unlikely to fall below stated cost targets

J Young, N McQueen, C Charalambous, S Foteinis… - One Earth, 2023 - cell.com
Carbon dioxide removal (CDR) is necessary to minimize the impact of climate change by
tackling hard-to-abate sectors and historical emissions. Direct air capture and storage …

[HTML][HTML] Storage capacity estimates and site conditions of potential locations for offshore-wind powered carbon dioxide removal and carbon sequestration in ocean …

H Norton, D Todd, C Crawford - Carbon Capture Science & Technology, 2024 - Elsevier
Negative emission technologies (NETs) are considered essential to keep global warming
below 2° C. Situating wind-powered carbon dioxide removal (CDR) devices offshore and …

A review of carbon mineralization mechanism during geological CO2 storage

K Kim, D Kim, Y Na, Y Song, J Wang - Heliyon, 2023 - cell.com
The CO 2 trap mechanisms during carbon capture and storage (CCS) are classified into
structural, residual, solution, and mineral traps. The latter is considered as the most …

The cost of direct air capture and storage: the impact of technological learning, regional diversity, and policy.

J Young, N McQueen, C Charalambous, S Foteinis… - 2022 - chemrxiv.org
Direct air capture and storage is a technological solution to removing CO2 from our
atmosphere that is deemed necessary to reach climate targets. However, huge question …

From gas to stone: In-situ carbon mineralisation as a permanent CO2 removal solution

M Seyyedi, C Consoli - International Journal of Greenhouse Gas Control, 2024 - Elsevier
Carbon mineralisation in underground mafic and ultramafic formations, known as in-situ
carbon mineralisation, has emerged as an attractive technology for permanent CO 2 …

Utilizing CO2 as a strategy to scale up direct air capture may face fewer short-term barriers than directly storing CO2

N Brazzola, C Moretti, K Sievert, A Patt… - Environmental …, 2024 - iopscience.iop.org
Direct air capture (DAC) is increasingly recognized as a necessary puzzle piece to achieve
the Paris climate targets. However, the current high cost and energy intensity of DAC act as …

Feasibility of using biologically-based processes in the open ocean and coastal seas for atmospheric CO2 removal

P Williamson, PW Boyd, DP Harrison, N Reynard… - 2022 - books.rsc.org
291 given on scientific understanding of key processes, environmental consequences, cost-
effectiveness, carbon accounting, governance and public acceptability. Major uncertainties …

Modeling the measurement of carbon dioxide removal: perspectives from the philosophy of measurement

J Wilson - Frontiers in Climate, 2024 - frontiersin.org
This paper explores how recent developments in the philosophy of measurement can frame
and guide the way we measure successful carbon sequestration in carbon dioxide removal …