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TECHNICAL PAPERS

The Recuperative Auto Thermal Reforming and Recuperative Reforming Gas Turbine Power Cycles With CO2 Removal—Part II: The Recuperative Reforming Cycle

[+] Author and Article Information
D. Fiaschi, L. Lombardi, L. Tapinassi

Dipartimento di Energetica “Sergio Stecco”, University of Florence, Via Santa Marta, 3, 50139 Firenze, Italy

J. Eng. Gas Turbines Power 126(1), 62-68 (Mar 02, 2004) (7 pages) doi:10.1115/1.1639008 History: Received December 01, 2001; Revised March 01, 2002; Online March 02, 2004
Copyright © 2004 by ASME
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References

Corti, A., Failli, L., Fiaschi, D., and Manfrida, G., 1998, “Exergy Analysis of Two Second-Generation SCGT Plant Proposals,” Proceedings of ASME IGTI 43rd Gas Turbine and Aeroengine Congress and Exhibition, Stockholm, Sweden.
Corti, A., Lombardi, L., and Manfrida, G., 1998, “Absorption of CO2 With Amines in a Semi-Closed GT Cycle: Plant Performance and Operating Costs,” Proceedings of ASME IGTI 43rd Gas Turbine and Aeroengine Congress and Exhibition, Stockholm, Sweden.
Corti, A., and Manfrida, G., 1998, “Economic Analysis of a Semi-Closed Gas Turbine/Combined Cycle (SCGT/CC) With CO2 Removal by Amines Absorption,” GHGT-4, “4th International Conference on Greenhouse Gas Control Tecnologies,” InterLaken, Switzerland, Aug. 30–Sept. 2.
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Fiaschi,  D., and Manfrida,  G., 1999, “A New Semi-Closed Gas Turbine Cycle With CO2 Separation,” Energy Convers. Manage., 40, pp. 1669–1678.
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Andersen, T., Kvamsdal, M., and Bolland, O., 2000, “Gas Turbine Combined Cycle With CO2-Capture Using Auto-Thermal Reforming of Natural Gas,” Proceedings of ASME Turbo Expo, May 8–11, Munich, Germany.
Cau G., and Cocco D., 2000, “Performance Assessment of Semi-Closed Chemically Recuperated Gas Turbine Systems,” Proceedings of ASME Turbo Expo, May 8–11, Munich, Germany.
Carcasci, C., and Harvey, S., 1998, “Design Issues for the Methane-Steam Reformer of a Chemically Recuperated Gas Turbine Cycle,” ASME IGTI International Gas Turbine Congress, Stockholm.
Tapinassi, L., 2001, “Studio di impianti di potenza innovativi con turbina a gas integrati con sistemi di rimozione della CO2 tramite conversione del metano in combustibile ad alto contenuto di idrogeno,” Graduation thesis (in Italian) in Environmental Engineering–Università degli Studi di Firenze, Italy.
Fiaschi, D., Lombardi, L., and Tapinassi, L., 2002, “The R-ATR and the R-REF Gas Turbine Power Cycles With CO2 Removal, Part 1: The R-ATR Cycle,” Proceedings of 2002 ASME IGTI Gas Turbine Conference and Exhibition, Amsterdam, Paper No. GT-2002-30116.
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Figures

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Schematic representation of the steam cooled R-REF cycle
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Performance maps of R-REF cycle
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Steam production versus β for the steam cooled R-REF
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Recuperator end temperatures versus β for the steam cooled R-REF
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Influence of β and Tpc on the R-REF powerplant CO2 emission
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WGSR exit temperature versus β and Tpc
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Depurated fuel gas composition to the combustor versus pressure ratio (steam cooled R-REF, Tpc=1100 K)
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Fuel gas composition to the combustor versus pressure ratio (steam cooled R-REF, Tpc=1150 K)
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Effects of Ksteam on the R-REF cycle performance
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Effects of Ksteam and β on CO2 removal
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CO2 Amine absorption system heat demand

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