Mineral Carbonation for Long-term CO2 Storage: an Exergy Analysis

Ron Zevenhoven; İnga Kavaliauskaite

Mineral Carbonation for Long-term CO2 Storage: an Exergy Analysis

Year 2004, Volume: 7 Issue: 1, 23 - 31, 01.03.2004

Abstract

Magnesium oxide-based minerals (serpentine, olivine) may be used for long-term storage of CO2, from combustion of fossil fuels or industrial processes in the form of magnesium carbonate. Large resources of suitable minerals appear to exist in Finland and at many other locations worldwide. The efficiency of mineral carbonation processing can be evaluated using exergy analysis, which will allow for comparing different mineral types characterised by different composition and quality. Other important factors are temperature and pressure and the degree of magnesium carbonation conversion. Important for the analysis is the calculation of the standard chemical exergy of the chemical species involved.

Keywords

carbon dioxide, mineral carbonation, exergy analysis

Year 2004, Volume: 7 Issue: 1, 23 - 31, 01.03.2004

Ron Zevenhoven İnga Kavaliauskaite

Abstract

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Details

Primary Language	English
Journal Section	Regular Original Research Article
Authors	Ron Zevenhoven This is me İnga Kavaliauskaite This is me
Publication Date	March 1, 2004
Published in Issue	Year 2004 Volume: 7 Issue: 1

Cite

APA	Zevenhoven, R., & Kavaliauskaite, İ. (2004). Mineral Carbonation for Long-term CO2 Storage: an Exergy Analysis. International Journal of Thermodynamics, 7(1), 23-31.
AMA	Zevenhoven R, Kavaliauskaite İ. Mineral Carbonation for Long-term CO2 Storage: an Exergy Analysis. International Journal of Thermodynamics. March 2004;7(1):23-31.
Chicago	Zevenhoven, Ron, and İnga Kavaliauskaite. “Mineral Carbonation for Long-Term CO2 Storage: An Exergy Analysis”. International Journal of Thermodynamics 7, no. 1 (March 2004): 23-31.
EndNote	Zevenhoven R, Kavaliauskaite İ (March 1, 2004) Mineral Carbonation for Long-term CO2 Storage: an Exergy Analysis. International Journal of Thermodynamics 7 1 23–31.
IEEE	R. Zevenhoven and İ. Kavaliauskaite, “Mineral Carbonation for Long-term CO2 Storage: an Exergy Analysis”, International Journal of Thermodynamics, vol. 7, no. 1, pp. 23–31, 2004.
ISNAD	Zevenhoven, Ron - Kavaliauskaite, İnga. “Mineral Carbonation for Long-Term CO2 Storage: An Exergy Analysis”. International Journal of Thermodynamics 7/1 (March 2004), 23-31.
JAMA	Zevenhoven R, Kavaliauskaite İ. Mineral Carbonation for Long-term CO2 Storage: an Exergy Analysis. International Journal of Thermodynamics. 2004;7:23–31.
MLA	Zevenhoven, Ron and İnga Kavaliauskaite. “Mineral Carbonation for Long-Term CO2 Storage: An Exergy Analysis”. International Journal of Thermodynamics, vol. 7, no. 1, 2004, pp. 23-31.
Vancouver	Zevenhoven R, Kavaliauskaite İ. Mineral Carbonation for Long-term CO2 Storage: an Exergy Analysis. International Journal of Thermodynamics. 2004;7(1):23-31.