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TECHNICAL PAPERS: Gas Turbines: Industrial and Cogeneration

Effect of Inlet Air Cooling by Ice Storage on Unit Sizing of a Gas Turbine Cogeneration Plant

[+] Author and Article Information
Ryohei Yokoyama, 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(2), 351-357 (Jun 07, 2004) (7 pages) doi:10.1115/1.1692011 History: Received December 01, 2001; Revised March 01, 2002; Online June 07, 2004
Copyright © 2004 by ASME
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References

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.
Ebeling, J. A., Balsbaugh, R., Blanchard, S., and Beaty, L., 1994, “Thermal Energy Storage and Inlet Air Cooling for Combined Cycle,” ASME Paper No. 94-GT-310.
Cross,  J. K., Beckman,  W. A., Mitchell,  J. W., Reindl,  D. T., and Knebel,  D. E., 1995, “Modeling of Hybrid Combustion Turbine Inlet Air Cooling Systems,” ASHRAE Trans., Paper No. SD-95-19-3, pp. 1335–1341.
Somasundaram,  S., Drost,  M. K., Brown,  D. R., and Antoniak,  Z. I., 1996, “Coadunation of Technologies: Cogeneration and Thermal Energy Storage,” ASME J. Eng. Gas Turbines Power, 118, pp. 32–37.
Yokoyama, R., and Ito, K., 2000, “Evaluation of Operational Performance of a Gas Turbine Cogeneration Plant With Intake Air Cooled by Ice Storage,” ASME Paper No. 2000-GT-304.
Yokoyama,  R., Hasegawa,  Y., and Ito,  K., 2002, “A MILP Decomposition Approach to Large-Scale Optimization in Structural Design of Energy Supply Systems,” Energy Convers. Manage., 43, pp. 771–790.
Brooke, A., Kendrick, D., and Meeraus, A., 1996, GAMS Release 2.25 a User’s Guide, GAMS Development Corp.

Figures

Grahic Jump Location
Configuration of gas turbine cogeneration plant with inlet air cooled by ice storage
Grahic Jump Location
Energy demands; (a) electric power, (b) space cooling, (c) space heating and hot water
Grahic Jump Location
Temperature and relative humidity of ambient air; (a) temperature, (b) relative humidity
Grahic Jump Location
Optimal operational strategy (plant B, day No. 5); (a) electricity supply, (b) cold water supply, (c) heat stored in ice bank
Grahic Jump Location
Optimal operational strategy (plant B, day No. 1); (a) electricity supply, (b) cold water supply, (c) heat stored in ice bank

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