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Modelling of power plant dynamics and uncertainties for robust control synthesis. (English) Zbl 0850.93056


MSC:

93A30 Mathematical modelling of systems (MSC2010)
93B50 Synthesis problems
93B51 Design techniques (robust design, computer-aided design, etc.)
93C95 Application models in control theory

Software:

NPSOL
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Full Text: DOI

References:

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[2] Sloan, D. G.; Sturgess, G. J., Modeling of local extinction in turbulent flames, (Proceedings of the International Gas Turbine and Aeroengine Congress and Exposition. Proceedings of the International Gas Turbine and Aeroengine Congress and Exposition, Hague, Netherlands (1994))
[3] TRAC-BD1-MOD1: An Advanced Based Estimate Computer Program for Building Water Reactor Transient Analysis. TRAC-BD1-MOD1: An Advanced Based Estimate Computer Program for Building Water Reactor Transient Analysis, TRAC-BD1-MOD1 Users Manual, Vol. 1 (1992)
[4] Packard, A.; Doyle, J. C., The complex structured singular value, Automatica, 29, 71-109 (1993) · Zbl 0772.93023
[5] Ray, A., Dynamic modelling of once-through steam generator for solar applications, Appl. Math. Modelling, 417-423 (1980)
[6] McDonald, J. P.; Kwanty, H. G., Design and analysis of boiler-turbine-generator controls using optimal linear regulator theory, IEEE Trans. Automat. Control, AC-18, 3, 202-209 (1973)
[7] Ray, A.; Berkowitz, D. A., Digital simulation of a commercial scale high temperature gas-cooled reactor (HTGR) steam power plant, ASME J. Dynamic Sys. Measure. Control, 284-289 (1979), December
[8] Weng, C.-K., Robust wide range control of electric power plants, (Ph.D. Thesis (1994), Pennsylvania State University)
[9] Zhou, K.; Doyle, J.; Glover, K., Robust and Optimal Control (1995), Prentice-Hall: Prentice-Hall New York
[10] Doyle, J. C.; Wall, J. E.; Stein, G., Performance and robustness analysis for structured uncertainty, (Proceedings of the IEEE Conference on Decision and Control. Proceedings of the IEEE Conference on Decision and Control, Orlando, FL (1982))
[11] Ray, A., Mathematical modeling and digital simulation of a commercial scale high temperature gas-cooled reactor (HTGR) steam power plant, (Ph. D. Thesis (1976), Northeastern University: Northeastern University Boston, MA)
[12] Ray, A.; Bowman, H. F., Design of a practical controller for a commercial scale fossil power plant, IEEE Trans. Nucl. Sci., 1068-1077 (1978), August
[13] Weng, C. -K. and Ray, A. Robust wide range control of electric power plants, IEEE Trans. Control Syst. Tech., in press.; Weng, C. -K. and Ray, A. Robust wide range control of electric power plants, IEEE Trans. Control Syst. Tech., in press.
[14] Ray, A.; Weng, C.-K., Robust wide range control of steam-electric power plants, Electric Power Research Institute Report under Contract no. EPRI 8030-5 (1995)
[15] Gill, P. E.; Murray, W.; Saunders, M. A.; Wright, M. H., (User’s Guide for NPSOL (Version 4.0): A Fortran Package for Nonlinear Programming (1986), Stanford University: Stanford University Stanford, CT)
[16] Weng, C. -K., Edwards, R. M. and Ray, A. Robust wide-range control of nuclear reactors by using the feedforward-feedback concept. Trans. Nucl. Sci. Eng.117; Weng, C. -K., Edwards, R. M. and Ray, A. Robust wide-range control of nuclear reactors by using the feedforward-feedback concept. Trans. Nucl. Sci. Eng.117
This reference list is based on information provided by the publisher or from digital mathematics libraries. Its items are heuristically matched to zbMATH identifiers and may contain data conversion errors. In some cases that data have been complemented/enhanced by data from zbMATH Open. This attempts to reflect the references listed in the original paper as accurately as possible without claiming completeness or a perfect matching.