Carbon Dioxide Removal Technologies for U.S. Space Vehicles: Past, Present, and FutureAs NASA looks forward to long-term, deep-space, manned missions and the technologies required for them, it is essential to look back at the technologies that have been used to date in Low Earth Orbit and...
Carbon dioxide removal technologies, such as bioenergy with carbon capture and direct air capture, are valuable for stringent climate targets. Previous work has examined implications of carbon removal, primarily bioenergy-based technologies using integrated assessment models, but not investigated the effects...
As companies begin to scale solutions for carbon dioxide removal (CDR), they face four key questions to reduce greenhouse gas and neutralize residual emissions.
Carbon dioxide removal (CDR) is a critical tool in all plans to limit warming to below 1.5 °C, but only a few CDR pathways have been incorporated into integrated assessment models that international climate policy deliberations rely on. A more diverse set of CDR approaches could have importa...
The quality of an offset can be determined by a number of factors including additionality, degree of permanence, ability to measure and monitor the carbon, and potential co-benefits. A good proxy of quality is if they are a carbon dioxide removal (CDR) offset, e.g., reforestation rather th...
discussions of NETs refer to “carbon dioxide removal” (CDR) technologies. Even when confined to carbon dioxide removal, the term NETs covers a huge wide range of proposals. Here are some selected examples[3]. The interested reader can find several more comprehensive reviews and discussion, ...
While some strategies for carbon dioxide removal are well understood, such as planting trees that will store carbon from the atmosphere, others involve immature, little tested technologies, such as bioenergy with carbon capture and storage. In that strategy, carbon dioxide produced from biomass energy...
Discover Carbon Time's innovative solutions for eliminating carbon by improving the alkalinity of the oceans, a solution with a permanence of over 20,000 years.
Life cycle assessment of carbon dioxide removal technologies: a critical review Energy Environ Sci, 14 (4) (2021), pp. 1701-1721 CrossrefView in ScopusGoogle Scholar [21] M. Fajardy, N. Mac Dowell Can BECCS deliver sustainable and resource efficient negative emissions? Energy Environ Sci, 10...
Tontiwachwuthikul, P., 1996, Research and development activities on high efficiency separation process technologies for carbon dioxide removal from industrial... PAITOON,TONTIWACHWUTHIKUL - 《Energy Conversion & Management》 被引量: 13发表: 1996年 Carbon Dioxide Separation with Supported Ionic Liq...