论文信息 - Fast and efficient gradient projection algorithm for dynamic generation dispatching

Fast and efficient gradient projection algorithm for dynamic generation dispatching

A gradient projection algorithm is presented for the dynamic dispatch of thermal generations, based upon an active set strategy and exploiting second order information in determining the descent directions. The algorithm is adapted to the model of the dynamic dispatch problem which consists of the minimisation of a nonlinear objective function subject to quadratic equality constraints and linear inequality constraints. The envisaged algorithm can be applied to the dispatching of thermal units during the steep load pick-up and drop-down periods over short time intervals, and can also be used in the day-before scheduling after the unit commitment has been performed. Efficiency is demonstrated by tests on large-scale networks representative of the Italian EHV system. The limited CPU time requirements also suggest a possible on-line application in determining the constrained participation factors to be used in the Automatic Generation Control function.

[1] T.E. Bechert,et al. Area automatic generation control by multi-pass dynamic programming , 1977, IEEE Transactions on Power Apparatus and Systems.

[2] P. Marannino,et al. Advance Dispatch Procedures for the Centralized Control of Real Power , 1986, IEEE Power Engineering Review.

[3] J. Zaborszky,et al. A Reevaluation of the Normal Operating State Control (AGC) of the Power System Using Computer Control and System Theory, Part III: Tracking the Dispatch Targets with Unit Control , 1983, IEEE Power Engineering Review.

[4] G. P. Granelli,et al. Security constrained dynamic dispatch of real power for thermal groups , 1988 .

[5] Harry G. Kwatny,et al. On the Optimal Dynamic Dispatch of Real Power , 1972 .

[6] P. Marannino,et al. Large-scale application of the Han-Powell algorithm to compact models of static and dynamic dispatch of real power , 1987 .