HIERARCHICAL OPTIMIZATION OF REACTIVE POWER WITH LINEAR PROGRAMMING.

An iterative and decoupled method is proposed for solving the general active/reactive constrained power flow problem, based on rectangular coordinates of injected currents. Successive linear programming with dual-relaxation method is used. The general objective function is designed to accommodate security improvement as well as economical optimization, including system active losses. A hierarchical approach for reactive optimization is proposed. A whole optimization problem is thus subdivided into several subproblems which can be optimized independently, starting from predetermined boundary conditions. The performance of the algorithms is evaluated on real systems.


Year:
1984
Keywords:
Note:
HIERARCHICAL OPTIMIZATION;ITERATIVE AND DECOUPLED METHOD;SUBPROBLEMS;DUAL-RELAXATION METHOD;SYSTEM ACTIVE LOSSES;ACTIVE/REACTIVE CONSTRAINED POWER FLOW;
Laboratories:




 Record created 2007-04-04, last modified 2018-03-17


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