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The Environmental and Economic Sustainability of Carbon Capture and Storage

Author

Listed:
  • Paul E. Hardisty

    (WorleyParsons EcoNomics™, Perth, WA 6000, Australia
    Imperial College London, London SW7 2AZ, UK)

  • Mayuran Sivapalan

    (WorleyParsons EcoNomics™, Houston, TX 77079, USA)

  • Peter Brooks

    (WorleyParsons, Brisbane, QLD 7000, Australia)

Abstract

For carbon capture and storage (CCS) to be a truly effective option in our efforts to mitigate climate change, it must be sustainable. That means that CCS must deliver consistent environmental and social benefits which exceed its costs of capital, energy and operation; it must be protective of the environment and human health over the long term; and it must be suitable for deployment on a significant scale. CCS is one of the more expensive and technically challenging carbon emissions abatement options available, and CCS must first and foremost be considered in the context of the other things that can be done to reduce emissions, as a part of an overall optimally efficient, sustainable and economic mitigation plan. This elevates the analysis beyond a simple comparison of the cost per tonne of CO 2 abated—there are inherent tradeoffs with a range of other factors (such as water, NOx, SOx, biodiversity, energy, and human health and safety, among others) which must also be considered if we are to achieve truly sustainable mitigation. The full life-cycle cost of CCS must be considered in the context of the overall social, environmental and economic benefits which it creates, and the costs associated with environmental and social risks it presents. Such analysis reveals that all CCS is not created equal. There is a wide range of technological options available which can be used in a variety of industries and applications—indeed CCS is not applicable to every industry. Stationary fossil-fuel powered energy and large scale petroleum industry operations are two examples of industries which could benefit from CCS. Capturing and geo-sequestering CO 2 entrained in natural gas can be economic and sustainable at relatively low carbon prices, and in many jurisdictions makes financial sense for operators to deploy now, if suitable secure disposal reservoirs are available close by. Retrofitting existing coal-fired power plants, however, is more expensive and technically challenging, and the economic sustainability of post-combustion capture retrofit needs to be compared on a portfolio basis to the relative overall net benefit of CCS on new-build plants, where energy efficiency can be optimised as a first step, and locations can be selected with sequestration sites in mind. Examples from the natural gas processing, liquefied natural gas (LNG), and coal-fired power generation sectors, illustrate that there is currently a wide range of financial costs for CCS, depending on how and where it is applied, but equally, environmental and social benefits of emissions reduction can be considerable. Some CCS applications are far more economic and sustainable than others. CCS must be considered in the context of the other things that a business can do to eliminate emissions, such as far-reaching efforts to improve energy efficiency.

Suggested Citation

  • Paul E. Hardisty & Mayuran Sivapalan & Peter Brooks, 2011. "The Environmental and Economic Sustainability of Carbon Capture and Storage," IJERPH, MDPI, vol. 8(5), pages 1-18, May.
  • Handle: RePEc:gam:jijerp:v:8:y:2011:i:5:p:1460-1477:d:12310
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    References listed on IDEAS

    as
    1. Rohlfs, Wilko & Madlener, Reinhard, 2010. "Valuation of CCS-Ready Coal-Fired Power Plants: A Multi-Dimensional Real Options Approach," FCN Working Papers 7/2010, E.ON Energy Research Center, Future Energy Consumer Needs and Behavior (FCN).
    2. Stern,Nicholas, 2007. "The Economics of Climate Change," Cambridge Books, Cambridge University Press, number 9780521700801, September.
    3. Rohlfs, Wilko & Madlener, Reinhard, 2010. "Cost Effectiveness of Carbon Capture-Ready Coal Power Plants with Delayed Retrofit," FCN Working Papers 8/2010, E.ON Energy Research Center, Future Energy Consumer Needs and Behavior (FCN), revised Dec 2010.
    4. Garnaut,Ross, 2008. "The Garnaut Climate Change Review," Cambridge Books, Cambridge University Press, number 9780521744447, September.
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    Cited by:

    1. Alina Ilinova & Natalia Romasheva & Alexey Cherepovitsyn, 2021. "CC(U)S Initiatives: Public Effects and “Combined Value” Performance," Resources, MDPI, vol. 10(6), pages 1-20, June.
    2. Yiwei Wu & Hongyu Zhang & Shuaian Wang & Lu Zhen, 2023. "Mathematical Optimization of Carbon Storage and Transport Problem for Carbon Capture, Use, and Storage Chain," Mathematics, MDPI, vol. 11(12), pages 1-14, June.
    3. McLaughlin, Hope & Littlefield, Anna A. & Menefee, Maia & Kinzer, Austin & Hull, Tobias & Sovacool, Benjamin K. & Bazilian, Morgan D. & Kim, Jinsoo & Griffiths, Steven, 2023. "Carbon capture utilization and storage in review: Sociotechnical implications for a carbon reliant world," Renewable and Sustainable Energy Reviews, Elsevier, vol. 177(C).
    4. Alexey Cherepovitsyn & Tatiana Chvileva & Sergey Fedoseev, 2020. "Popularization of Carbon Capture and Storage Technology in Society: Principles and Methods," IJERPH, MDPI, vol. 17(22), pages 1-24, November.
    5. Xiaoji Shang & Jianguo Wang & Huimin Wang & Xiaolin Wang, 2022. "Combined Effects of CO 2 Adsorption-Induced Swelling and Dehydration-Induced Shrinkage on Caprock Sealing Efficiency," IJERPH, MDPI, vol. 19(21), pages 1-22, November.

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