The electro-power systems, unlike engineering systems, have beside of characteristics, which impose special demands on control of their normal conditions, the main of them are: the continuity and rigid temporal interrelation of energy generation, distribution and consumption; territorial and temporal administrative structures, the quality of electric power, and the complexity of power engineering enterprises, e.g.

The mathematical models of electrical power system for optimum control are developed according to the methods of mathematical programming used for optimization calculations, they are mainly Gradient methods, they are proved to be reliable while short-term and long-term control and planning of electro-power system, but still, they failed to be suitable enough for operative control, this is conditioned by a large volume of calculations; limited time necessary for the analysis optimal conditions and decision taking for their correction, as well as by the necessity to repeat the optimization calculations in full volume during the load change, and the complexity to generalize the result being obtained. In particular, higher iterative processes reliability and speed can be achieved

by means of computer simulation of optimal electro-power systems modes by

using the least action principle. The purposes of this given paper is the development of the mathematical models and algorithms of electro-power system modes optimization based on the least action principle.

Conference Title

4th Jordanian International Electrical&Electronics Engineering Conference

Conference Country

Jordan

Conference Date

April 16, 2001 - April 18, 2001

Conference Sponsor

Jordan Engineering Association; Institute of Electrical Engineers/IEE ; The institute of Electrical & Electronics Engineers/IEEE