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METHODS FOR THE SEPARATION OF CO2 FROM SYNGAS IN THE UCG PROCESS

Kacur, Jan, Durdan, Milan

First published: 2014-06-20https://doi.org/10.5593/sgem2014/b11/s6.094View metrics

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Title
METHODS FOR THE SEPARATION OF CO2 FROM SYNGAS IN THE UCG PROCESS
Authors
Kacur, Jan, Durdan, Milan
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 14th SGEM GeoConference on SCIENCE AND TECHNOLOGIES IN GEOLOGY, EXPLORATION AND MINING
Publisher
Stef92 Technology
Year
2014
Pages
Not available yet
ISSN
1314-2704
ISBN
978-619-7105-07-0
Language
en
Publication type
Conference Paper
References28
  1. UCG Asociation. A Cleaner Coal Option - UCG-CCS, http://www.ucgassociation.org/index.php/ucg-technology/a-cleaner-coal-option-ucg-ccs

  2. Kostúr K. Simulation analysis of shape gasifying front, In: ICCC 2013: 14th International Carpathian Control Conference: May 26-29, 2013, Rytro, Poland. - Piscataway: IEEE, 2013, p. 167-170.

  3. Stewart C. & Hessami M. A. A study of methods of carbon dioxide capture and sequestration - the sustainability of a photosynthetic bioreactor approach, Energy Conversion and Management 46, 2005, p. 403–420.

  4. Herzog H. An introduction to CO 2 separation and capture technologies, Energy Laboratory Working Paper, Massachusetts Institute of Technology, Cambridge, 1999.

  5. Herzog H. & Falk-Pedersen O. The Kvaerner membrane contactor: lessons from a case study in how to reduce capture costs, In: Fifth International Conference on Greenhouse Gas Control Technologies Cairns Australia, 2000, p. 121–125.

  6. Judkins R. & Burchell T. CO2 removal from gas streams using a carbon fiber composite molecular sieve, In: First National Conference on Carbon Sequestration, National Energy Technology Laboratory, 2001.

  7. Ishibashi M. & Ota H. & Akutsu N. & Umeda S. & Tajika M. & Izumi J. , et al., Technology for removing carbon dioxide from power plant flue gas by the physical adsorption method, Energy Convers Manage, 1996, 37(6–8), p. 929–33.

  8. Stanford University. An Assessment of Carbon Capture Technology and Research Opportunities, Technical Assessment Report, GCEP Carbon Capture Technology Assessment, Stanford, California, 2005.

  9. Li J. R. & Ma Y. & McCarthy M. C. & Sculley J & Yu J. & Jeong H. K. & Balbuena P. B. & Zhou H. C. Carbon dioxide capture-related gas adsorption and separation in metal-organic frameworks, Coordination Chemistry Reviews, 255, 2011, p. 1791–1823.

  10. Baker R. W. Membrane Technology and Applications, Chapter 8, John Wiley & Sons, Ltd., 2nd Edition, 2001.

  11. Kostúr K. The possibilities of improving underground coal gasification processes, In: Journal of Energy and Power Engineering. Vol. 5, no. 11, 2011, p. 1041-1052.

  12. Kostúr K. & Kačur J. Developing of optimal control system for UCG, In: ICCC 2012: proceedings of the 13th International Carpathian Control Conference: Podbanské, Slovak Republic, May 28-31, 2012. - Piscataway: IEEE, 2012, p. 347-352.

  13. Šofranko M. & Škvareková E. & Laciak M. Appraisal of the population threat risk by carbon leakage produced by underground coal gasification, In: The Holistic Approach to Environment. Vol. 3, no. 2, 2013, p. 83-91.

  14. Kačur J. & Laciak M. & Durdán M. Vzdialené monitorovanie a riadenie procesu UCG, In: ATP Journal, no. 6, 2011, p. 46-49.

  15. UCG Asociation. A Cleaner Coal Option - UCG-CCS, http://www.ucgassociation.org/index.php/ucg-technology/a-cleaner-coal-option-ucg-ccs

  16. Kostúr K. Simulation analysis of shape gasifying front, In: ICCC 2013: 14th International Carpathian Control Conference: May 26-29, 2013, Rytro, Poland. - Piscataway: IEEE, 2013, p. 167-170.

  17. Stewart C. & Hessami M. A. A study of methods of carbon dioxide capture and sequestration - the sustainability of a photosynthetic bioreactor approach, Energy Conversion and Management 46, 2005, p. 403–420.

  18. Herzog H. An introduction to CO 2 separation and capture technologies, Energy Laboratory Working Paper, Massachusetts Institute of Technology, Cambridge, 1999.

  19. Herzog H. & Falk-Pedersen O. The Kvaerner membrane contactor: lessons from a case study in how to reduce capture costs, In: Fifth International Conference on Greenhouse Gas Control Technologies Cairns Australia, 2000, p. 121–125.

  20. Judkins R. & Burchell T. CO2 removal from gas streams using a carbon fiber composite molecular sieve, In: First National Conference on Carbon Sequestration, National Energy Technology Laboratory, 2001.

  21. Ishibashi M. & Ota H. & Akutsu N. & Umeda S. & Tajika M. & Izumi J. , et al., Technology for removing carbon dioxide from power plant flue gas by the physical adsorption method, Energy Convers Manage, 1996, 37(6–8), p. 929–33.

  22. Stanford University. An Assessment of Carbon Capture Technology and Research Opportunities, Technical Assessment Report, GCEP Carbon Capture Technology Assessment, Stanford, California, 2005.

  23. Li J. R. & Ma Y. & McCarthy M. C. & Sculley J & Yu J. & Jeong H. K. & Balbuena P. B. & Zhou H. C. Carbon dioxide capture-related gas adsorption and separation in metal-organic frameworks, Coordination Chemistry Reviews, 255, 2011, p. 1791–1823.

  24. Baker R. W. Membrane Technology and Applications, Chapter 8, John Wiley & Sons, Ltd., 2nd Edition, 2001.

  25. Kostúr K. The possibilities of improving underground coal gasification processes, In: Journal of Energy and Power Engineering. Vol. 5, no. 11, 2011, p. 1041-1052.

  26. Kostúr K. & Kačur J. Developing of optimal control system for UCG, In: ICCC 2012: proceedings of the 13th International Carpathian Control Conference: Podbanské, Slovak Republic, May 28-31, 2012. - Piscataway: IEEE, 2012, p. 347-352.

  27. Šofranko M. & Škvareková E. & Laciak M. Appraisal of the population threat risk by carbon leakage produced by underground coal gasification, In: The Holistic Approach to Environment. Vol. 3, no. 2, 2013, p. 83-91.

  28. Kačur J. & Laciak M. & Durdán M. Vzdialené monitorovanie a riadenie procesu UCG, In: ATP Journal, no. 6, 2011, p. 46-49.

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