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ETI Insights Report - Reducing the cost of CCS - Developments in Capture Plant technology

Citation ETI ETI Insights Report - Reducing the cost of CCS - Developments in Capture Plant technology, ETI, 2016. https://doi.org/10.5286/UKERC.EDC.000117.
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Author(s) ETI
Project partner(s) ETI
Publisher ETI
DOI https://doi.org/10.5286/UKERC.EDC.000117
Download Capture-Plant-Insight.pdf document type
  • Successfully deploying Carbon Capture and Storage (CCS) would save tens of billions of pounds to consumers and businesses – providing low carbon electricity, capturing industrial emissions, creating flexible low carbon fuels and delivering negative emissions in combination with bioenergy.
  • CCS is a combination of proven technologies. Injection of CO2 from an ammonia plant for enhanced oil recovery (EOR) began as far back as 1972 and “first intent” CCS began at Sleipner in 1996. By 2017, 22 plants will be running CCS technology applications, spanning post combustion and pre-combustion coal, natural gas steam reforming, bioenergy CCS (corn to ethanol), and applications from power, gas production, refi ning, chemicals and steel.
  • The potential for cost reduction through deployment is significant:
    • Investment in anchor projects provides transport and storage infrastructure for subsequent projects to build on
    • Reductions in scope and increased project sizes to exploit economies of scale.
    • Risk reduction during the early stages of CCS deployment should attract more competitive fi nancing. Developers in the US, UK and Canada have committed to publically sharing their CCS designs and early operational experiences such that future projects can benefit.
  • Additional cost reduction can be achieved through innovation in capture technology:
    • Post combustion capture, based on mature amine gas separation technology, has seized the largest share of the power market and still offers opportunities for further improvements.
    • Pre-combustion gasification technology potentially offers a clean, flexible alternative for coal, biomass and waste, and significant research, development and demonstration (RD&D) funding is resulting in continuous improvements, now feeding into demonstrations.
    • Other promising options using membranes, hydrates, cryogenics, enzymes, fuel cells and carbonate chemistry are actively being developed, and progressing towards commercialisation, such as vacuum swing adsorption (VSA) in a refinery in the USA. Post combustion temperature swing adsorption (TSA) has the potential to compete with amines in the future, but next generation adsorbents are still at a relatively early stage of their development.
    • NET Power’s supercritical CO2 technology has the potential to be a game-changing technology. It faces several new challenges in equipment design and operation, but testing is under way. It is likely to take several years before it can be demonstrated at full scale.
  • Given the current immature status of thenext generation of alternatives, amines or pre-combustion are likely to be the most investable options for the next five to ten years.
  • One pathway to reducing the cost of CCS is deploying a small number of full scale plants sequentially (at least three), based on established technologies. Our analysis strongly suggests that risk reduction through sequential deployments of existing technology in the UK can drive output energy costs down by as much as 45%, largely through a combination of increased scale, infrastructure sharing and reductions in fi nancing costs. This paves the way for the introduction of higher risk emerging technologies once the overall CCS risk is reduced.
Associated Project(s) ETI-CC2015: CO2 Capture Technologies Benchmark Refresh
Associated Dataset(s)

CCS Benchmark Refresh - A techno-economic analysis of the performance of a state-of-the art CCGT with and without amine capture at 90% capture rate

Associated Publication(s)

CCS Benchmark Refresh - CO2 separation using a rotary wheel adsorber

CCS Benchmark Refresh - Phase A Report

CCS Benchmark Refresh - Task 5 Report: Independent Capture Plant