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Exergy analysis of underground coal gasification with simultaneous storage of carbon dioxide

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  • Eftekhari, Ali Akbar
  • Van Der Kooi, Hedzer
  • Bruining, Hans

Abstract

Various options are considered to reduce CO2 emissions when utilizing deep coal by applying underground coal gasification (UCG), i.e., in combination with carbonation of synthetic minerals (CaO), conventional UCG followed by ex-situ separation of CO2 and upgrading the product gas using naturally occurring minerals (wollastonite).

Suggested Citation

  • Eftekhari, Ali Akbar & Van Der Kooi, Hedzer & Bruining, Hans, 2012. "Exergy analysis of underground coal gasification with simultaneous storage of carbon dioxide," Energy, Elsevier, vol. 45(1), pages 729-745.
    • Handle: RePEc:eee:energy:v:45:y:2012:i:1:p:729-745
    DOI: 10.1016/j.energy.2012.07.019
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    References listed on IDEAS

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    1. Khadse, Anil & Qayyumi, Mohammed & Mahajani, Sanjay & Aghalayam, Preeti, 2007. "Underground coal gasification: A new clean coal utilization technique for India," Energy, Elsevier, vol. 32(11), pages 2061-2071.
    2. Prins, M.J. & Ptasinski, K.J., 2005. "Energy and exergy analyses of the oxidation and gasification of carbon," Energy, Elsevier, vol. 30(7), pages 982-1002.
    3. Irfan, Muhammad F. & Usman, Muhammad R. & Kusakabe, K., 2011. "Coal gasification in CO2 atmosphere and its kinetics since 1948: A brief review," Energy, Elsevier, vol. 36(1), pages 12-40.
    4. Singh, S.P. & Weil, S.A. & Babu, S.P., 1980. "Thermodynamic analysis of coal gasification processes," Energy, Elsevier, vol. 5(8), pages 905-914.
    Full references (including those not matched with items on IDEAS)

    Citations

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    Cited by:

    1. Nakaten, Natalie & Schlüter, Ralph & Azzam, Rafig & Kempka, Thomas, 2014. "Development of a techno-economic model for dynamic calculation of cost of electricity, energy demand and CO2 emissions of an integrated UCG–CCS process," Energy, Elsevier, vol. 66(C), pages 779-790.
    2. Ján Kačur & Marek Laciak & Milan Durdán & Patrik Flegner & Rebecca Frančáková, 2023. "A Review of Research on Advanced Control Methods for Underground Coal Gasification Processes," Energies, MDPI, vol. 16(8), pages 1-36, April.
    3. Yang, Siyu & Yang, Qingchun & Qian, Yu, 2013. "A composite efficiency metrics for evaluation of resource and energy utilization," Energy, Elsevier, vol. 61(C), pages 455-462.
    4. Prabu, V. & Geeta, K., 2015. "CO2 enhanced in-situ oxy-coal gasification based carbon-neutral conventional power generating systems," Energy, Elsevier, vol. 84(C), pages 672-683.
    5. Farajzadeh, R. & Eftekhari, A.A. & Dafnomilis, G. & Lake, L.W. & Bruining, J., 2020. "On the sustainability of CO2 storage through CO2 – Enhanced oil recovery," Applied Energy, Elsevier, vol. 261(C).
    6. Xin, Lin & An, Mingyu & Feng, Mingze & Li, Kaixuan & Cheng, Weimin & Liu, Weitao & Hu, Xiangming & Wang, Zhigang & Han, Limin, 2021. "Study on pyrolysis characteristics of lump coal in the context of underground coal gasification," Energy, Elsevier, vol. 237(C).
    7. Christopher Otto & Thomas Kempka, 2015. "Thermo-Mechanical Simulations of Rock Behavior in Underground Coal Gasification Show Negligible Impact of Temperature-Dependent Parameters on Permeability Changes," Energies, MDPI, vol. 8(6), pages 1-28, June.
    8. Hassan, Anas M. & Ayoub, M. & Eissa, M. & Musa, T. & Bruining, Hans & Farajzadeh, R., 2019. "Exergy return on exergy investment analysis of natural-polymer (Guar-Arabic gum) enhanced oil recovery process," Energy, Elsevier, vol. 181(C), pages 162-172.

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