Recent progress of the Ca-Cu technology for decarbonisation of power plants and carbon intensive industries
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http://data.d4science.org/ctlg/RISIS2OpenData/dedup_wf_001--8ae8dd733c59951a0cc695ca40b4fb67 |
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Identity
Access Modality
Field | Value |
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Access Right | Open Access |
Attribution
Field | Value |
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Author | Matteo Carmelo Romano, 0000-0003-0213-2245 |
Author | Fausto Gallucci, 0000-0001-6379-773X |
Author | Juan Carlos Abanades, 0000-0003-1711-6993 |
Author | Isabel Martínez, 0000-0002-2364-463X |
Contributor | European Commission |
Contributor | Fernández García, José Ramón |
Contributor | Gallucci, Fausto |
Contributor | Sint Annaland, Martin van |
Contributor | Romano, M.C. |
Contributor | Abanades García, Juan Carlos |
Publishing
Field | Value |
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Collected From | Digital.CSIC; ORCID; Datacite; RE.PUBLIC@POLIMI Research Publications at Politecnico di Milano; Crossref; NARCIS; Microsoft Academic Graph; Repositorio Institucional de la Universidad de Oviedo |
Hosted By | Digital.CSIC; RE.PUBLIC@POLIMI Research Publications at Politecnico di Milano; International Journal of Greenhouse Gas Control; NARCIS; Repositorio Institucional de la Universidad de Oviedo |
Journal | International Journal of Greenhouse Gas Control, 85, null |
Publication Date | 2019-06-01 |
Publisher | Elsevier BV |
Additional Info
Field | Value |
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Country | Italy; Spain |
Description | Highly efficient pre-combustion systems are sustainable alternatives for producing hydrogen with reduced carbon footprint. The Ca-Cu looping process is a novel CO2 capture process that combines Sorption Enhanced Reforming (SER) for the production of (almost) pure H2 with a Cu/CuO redox cycle to regenerate the CO2 sorbent with a low energy penalty and potential reduction in capture cost. Over the last few years, the Ca-Cu looping process has seen noticeable progresses in its development and has recently been demonstrated up to TRL4/5 within the Ascent EU project, under conditions that are relevant for a range of industrial applications. This work reviews the most recent achievements and open gaps of knowledge in the development of this emerging process, focusing on experimental validation performed in lab-scale fixed bed reactors and on techno-economic assessment of the application in industrial plants for hydrogen, ammonia and steel production. |
Description | This work has been carried out as part of the European Commission 7th Framework Programme project ASCENT (Grant agreement No. 608512). |
Description | Peer reviewed |
Language | Undetermined |
Resource Type | Other literature type; Article |
keyword | keywords.Management, Monitoring, Policy and Law |
keyword | Calcium looping; Chemical looping; CO; 2; capture; Sorption enhanced reforming |
system:type | publication |
Management Info
Field | Value |
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Source | https://science-innovation-policy.openaire.eu/search/publication?articleId=dedup_wf_001::8ae8dd733c59951a0cc695ca40b4fb67 |
Author | jsonws_user |
Last Updated | 26 December 2020, 10:34 (CET) |
Created | 26 December 2020, 10:34 (CET) |