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Variable structure control strategy to automatic generation control of interconnected reheat thermal system

Variable structure control strategy to automatic generation control of interconnected reheat thermal system

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© The Institution of Electrical Engineers
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The paper deals with the analysis of automatic generation control (AGC) of a two-area reheat thermal system considering a variable structure controller (VSC) based on the sliding mode concept. A systematic method is suggested for obtaining switching hyperplanes. Optimum gain settings of the variable structure controller are obtained, both in the unconstrained (neglecting generation rate) and the constrained (considering generation rate constraint) modes, using the integral squared error (ISE) technique. Investigation reveals that there is a significant improvement in system dynamic performance with a VSC over that with an integral controller. Moreover, the variable structure controller is found to be quite insensitive to wide variations of system parameters.

Inspec keywords: power station control; variable structure systems; power system interconnection; thermal power stations

Other keywords: thermal power station control; variable structure controller; dynamic performance; automatic generation control; integral squared error; switching hyperplanes; interconnected reheat thermal system; sliding mode

Subjects: Control of electric power systems; Thermal power stations and plants; Control of heat systems; Power system management, operation and economics; Multivariable control systems

References

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      • A. Kumar , O.P. Malik , G.S. Hope . Variable structure system control applied to AGC of an interconnected power systems. IEE Proc. Pt. C , 1 , 23 - 29
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