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CO2 Highways for Europe: Modeling a Carbon Capture, Transport and Storage Infrastructure for Europe

Author

Listed:
  • Roman Mendelevitch
  • Johannes Herold
  • Pao-Yu Oei
  • Andreas Tissen

Abstract

We present a mixed integer, multi-period, cost-minimizing carbon capture, transport and storage (CCTS) network model for Europe. The model incorporates endogenous decisions about carbon capture, pipeline and storage investments; capture, flow and injection quantities based on given costs, certificate prices, storage capacities and point source emissions.The results indicate that CCTS can theoretically contribute to the decarbonization of Europe's energy and industry sectors. This requires a CO2 certificate price rising to 55 € in 2050, and sufficient CO2 storage capacity available for both on and offshore sites. However, CCTS deployment is highest in CO2-intensive industries where emissions cannot be avoided byfuel switching or alternative production processes. In all scenarios, the importance of the industrial sector as a first mover to induce the deployment of CCTS is highlighted. By contrast, a decrease of available storage capacity or a more moderate increase in CO2 prices will significantly reduce the role of CCTS as a CO2 mitigation technology, especially in the energy sector. Continued public resistance to onshore CO2 storage can only be overcome by constructing expensive offshore storage. Under this restriction, to reach the same levels of CCTS penetration will require doubling of CO2 certificate prices.

Suggested Citation

  • Roman Mendelevitch & Johannes Herold & Pao-Yu Oei & Andreas Tissen, 2010. "CO2 Highways for Europe: Modeling a Carbon Capture, Transport and Storage Infrastructure for Europe," Discussion Papers of DIW Berlin 1052, DIW Berlin, German Institute for Economic Research.
    • Handle: RePEc:diw:diwwpp:dp1052
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    Citations

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    Cited by:

    1. Massol, Olivier & Tchung-Ming, Stéphane & Banal-Estañol, Albert, 2018. "Capturing industrial CO2 emissions in Spain: Infrastructures, costs and break-even prices," Energy Policy, Elsevier, vol. 115(C), pages 545-560.
    2. Jeffrey M. Bielicki & Guillaume Calas & Richard S. Middleton & Minh Ha‐Duong, 2014. "National corridors for climate change mitigation: managing industrial CO 2 emissions in France," Greenhouse Gases: Science and Technology, Blackwell Publishing, vol. 4(3), pages 262-277, June.
    3. Sun, Liang & Chen, Wenying, 2013. "The improved ChinaCCS decision support system: A case study for Beijing–Tianjin–Hebei Region of China," Applied Energy, Elsevier, vol. 112(C), pages 793-799.
    4. Joris Morbee, 2014. "International Transport of Captured $$\hbox {CO}_2$$ CO 2 : Who Can Gain and How Much?," Environmental & Resource Economics, Springer;European Association of Environmental and Resource Economists, vol. 57(3), pages 299-322, March.
    5. Roman Mendelevitch, 2013. "The Role of CO2-EOR for the Development of a CCTS Infrastructure in the North Sea Region: A Techno-Economic Model and Application," Discussion Papers of DIW Berlin 1308, DIW Berlin, German Institute for Economic Research.
    6. Massol, Olivier & Tchung-Ming, Stéphane & Banal-Estañol, Albert, 2015. "Joining the CCS club! The economics of CO2 pipeline projects," European Journal of Operational Research, Elsevier, vol. 247(1), pages 259-275.
    7. Christian von Hirschhausen, 2011. "Infrastructure for the energy-policy turnaround and system transformation – necessary but not a constraint on further steps," ifo Schnelldienst, ifo Institute - Leibniz Institute for Economic Research at the University of Munich, vol. 64(18), pages 14-20, October.
    8. Bertram, Christine & Heitmann, Nadine & Narita, Daiju & Schwedeler, Markus, 2012. "How will Germany's CCS policy affect the development of a European CO2 transport infrastructure?," Kiel Policy Brief 43, Kiel Institute for the World Economy (IfW Kiel).
    9. Massol, O. & Tchung-Ming, S., 2012. "Joining the CCS Club! Insights from a Northwest European CO2 Pipeline Project," Working Papers 12/10, Department of Economics, City University London.
    10. Middleton, Richard S. & Eccles, Jordan K., 2013. "The complex future of CO2 capture and storage: Variable electricity generation and fossil fuel power," Applied Energy, Elsevier, vol. 108(C), pages 66-73.
    11. Brandon Poiencot & Christopher Brown, 2011. "An Optimal Centralized Carbon Dioxide Repository for Florida, USA," IJERPH, MDPI, vol. 8(4), pages 1-21, March.
    12. Stephan Spiecker & Volker Eickholt, 2013. "The Impact Of Carbon Capture And Storage On A Decarbonized German Power Market," EWL Working Papers 1304, University of Duisburg-Essen, Chair for Management Science and Energy Economics, revised Oct 2013.
    13. Spiecker, S. & Eickholt, V. & Weber, C., 2014. "The impact of carbon capture and storage on a decarbonized German power market," Energy Economics, Elsevier, vol. 43(C), pages 166-177.

    More about this item

    Keywords

    carbon capture and storage; pipeline; infrastructure; optimization;
    All these keywords.

    JEL classification:

    • C61 - Mathematical and Quantitative Methods - - Mathematical Methods; Programming Models; Mathematical and Simulation Modeling - - - Optimization Techniques; Programming Models; Dynamic Analysis
    • H54 - Public Economics - - National Government Expenditures and Related Policies - - - Infrastructures
    • O33 - Economic Development, Innovation, Technological Change, and Growth - - Innovation; Research and Development; Technological Change; Intellectual Property Rights - - - Technological Change: Choices and Consequences; Diffusion Processes

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