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TECHNICAL PAPERS: Gas Turbines: Industrial and Cogeneration

Evaluation of Operational Performance of Gas Turbine Cogeneration Plants Using an Optimization Tool: OPS-Operation

[+] Author and Article Information
Ryohei Yokoyama

Mem. ASME   e-mail: yokoyama@ese.energy.osakafu-u.ac.jp

Koichi Ito

Department of Energy Systems Engineering, Osaka Prefecture University, 1-1 Gakuen-cho, Sakai, Osaka 599-8531, Japan

J. Eng. Gas Turbines Power 126(4), 831-839 (Nov 24, 2004) (9 pages) doi:10.1115/1.1771689 History: Received October 01, 2002; Revised March 01, 2003; Online November 24, 2004
Copyright © 2004 by ASME
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References

Tuzson,  J., 1992, “Status of Steam-Injected Gas Turbines,” ASME J. Eng. Gas Turbines Power, 114, pp. 682–686.
Miura,  S., 1997, “The Flexible Cogeneration System/Variable Power-Heat Ratio,” Energy Resources,18(1), pp. 53–62 (in Japanese).
Miura,  S., 1999, “Small Gas Turbine Co-generation With Variable Heat and Power Ratios,” Cogeneration,14(1), pp. 51–58 (in Japanese).
Lukas,  H., 1997, “Power Augmentation Through Inlet Cooling,” Global Gas Turb. News,37(3), pp. 12–15.
Ebeling, J. A., Halil, R., Bantam, D., Bakenhus, B., Schreiber, H., and Wendland, R., 1992, “Peaking Gas Turbine Capacity Enhancement Using Ice Storage for Compressor Inlet Air Cooling,” ASME Paper No. 92-GT-265.
Bies, D., Johänntgen, U., and Scharfe, J., 1999, “Optimised Cooling of the Compressor Intake Air—A New Way for the Improvement of Power and Efficiency in Gas Turbine Plants,” Proceedings of the International Gas Turbine Congress 1999 Kobe, I , pp. 429–436.
Ito,  K., Yokoyama,  R., Akagi,  S., and Matsumoto,  Y., 1990, “Influence of Fuel Cost on the Operation of a Gas Turbine-Waste Heat Boiler Cogeneration Plant,” ASME J. Eng. Gas Turbines Power, 112, pp. 122–128.
Ito,  K., Yokoyama,  R., and Shiba,  T., 1992, “Optimal Operation of a Diesel Engine Cogeneration Plant Including a Heat Storage Tank,” ASME J. Eng. Gas Turbines Power, 114, pp. 687–694.
Yokoyama,  R., Ito,  K., Kamimura,  K., and Miyasaka,  F., 1994, “Development of a General-Purpose Optimal Operational Planning System for Energy Supply Plants,” ASME J. Energy Resour. Technol., 116, pp. 290–296.
Kamimura, K., Mukai, T., Nishi, Y., Yokoyama, R., and Ito, K., 1999, “Development of an Optimal Operational Planning System Using an Object-Oriented Framework for Energy Supply Plants,” Proceedings of the 6th International Building Performance Simulation Association Conference, III , pp. 1269–1276.

Figures

Grahic Jump Location
Overall planning process
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Optimal operational planning process
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Fundamental structure of optimization tool
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Types and structure of data
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Graphical flowsheet editing
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Graphical representation of results
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Configuration of gas turbine cogeneration plant

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