DYNAMIC ECONOMIC LOAD DISPATCH OF A DISTRIBUTED GENERATION SYSTEM

The increased power demand, atmospheric pollution and population growth makes it essential to design a new power system with low atmospheric pollution and transmission losses. The growing price and limited availability of fossil fuels makes installation of conventional power plants uneconomical. Installation of nonconventional power plants is essential to meet the increased load demand and environmental pollution standards. The inter connection of conventional and nonconventional power plants is essential to meet the growing energy demand and atmospheric pollution standards. Distributed generation with renewable energy sources is one of the best methods to meet increased load demand with low transmission losses and pollution levels. The output of renewable energy sources like wind and solar systems is not reliable because they depend on atmospheric conditions. To find a solution to dynamic economic load dispatch of distributed generation system with renewable energy sources is a difficult problem because of unreliable nature of solar and wind plants. This paper will explain a solution to dynamic economic load dispatch of a distributed generation system using λ -iterative method