eprintid: 10183596 rev_number: 12 eprint_status: archive userid: 699 dir: disk0/10/18/35/96 datestamp: 2024-04-29 10:57:08 lastmod: 2024-04-29 11:11:23 status_changed: 2024-04-29 10:57:08 type: report metadata_visibility: show sword_depositor: 699 creators_name: Jin, Hongguang creators_name: Gao, Lin creators_name: Li, Sheng creators_name: Van Sambeek, Emiel creators_name: Porter, Richard creators_name: Mikunda, Tom creators_name: Wilco Dijkstra, Jan creators_name: De Coninck, Heleen creators_name: Jansen, Daan title: Supporting early Carbon Capture Utilisation and Storage development in non-power industrial sectors, Shaanxi Province, China ispublished: pub divisions: UCL divisions: B04 divisions: C05 divisions: F43 note: This version is the version of record. For information on re-use, please refer to the publisher’s terms and conditions. abstract: Carbon capture and storage (CCS) is a technology that can prevent the release of large quantities of CO2 into the atmosphere from the use of fossil fuels in power generation and other industries by capturing CO2, transporting and then pumping it into underground geologic formations to securely store it away from the atmosphere. Crucially, and why it is worthy of research, is the fact that CCS is a potential means of mitigating the contribution of fossil fuel emissions to global warming. In the context of these reports, Carbon Capture Utilisation and Storage (CCUS) refers to the matching of industrial high-purity CO2 sources, such as those of fertiliser plants or coal-to-liquid fuels facilities, with a sink industry which would make beneficial use of the captured and transported CO2, such as Enhanced Oil Recovery (EOR). The capture of CO2 from industrial high-purity sources requires much less additional process development than conventional carbon capture from the power generation industries because the production of pure CO2 is already an inherent part of the process, often arising from gasification technology. Similarly, the sink industries may require less development than conventional CO2 storage in geological formations like saline aquifers; hence, CCUS does not refer here to conventional carbon capture and storage. date: 2012-06 date_type: published publisher: Centre for Low Carbon Futures official_url: https://www.ecn.nl/docs/library/report/2012/o12014.pdf oa_status: green full_text_type: pub language: eng primo: open primo_central: open_green commissioning_body: Centre for Low Carbon Futures, IT Centre, York Science Park, York YO10 5DG (United Kingdom) verified: verified_manual elements_id: 2117055 confidential: false lyricists_name: Porter, Richard lyricists_id: RTJPO82 actors_name: Porter, Richard actors_id: RTJPO82 actors_role: owner full_text_status: public number: 012 place_of_pub: York, UK pages: 164 citation: Jin, Hongguang; Gao, Lin; Li, Sheng; Van Sambeek, Emiel; Porter, Richard; Mikunda, Tom; Wilco Dijkstra, Jan; + view all <#> Jin, Hongguang; Gao, Lin; Li, Sheng; Van Sambeek, Emiel; Porter, Richard; Mikunda, Tom; Wilco Dijkstra, Jan; De Coninck, Heleen; Jansen, Daan; - view fewer <#> (2012) Supporting early Carbon Capture Utilisation and Storage development in non-power industrial sectors, Shaanxi Province, China. Centre for Low Carbon Futures: York, UK. Green open access document_url: https://discovery.ucl.ac.uk/id/eprint/10183596/1/o12014.pdf