A New Mathematical function for Optimal Sizing and Siting of DG System

Before introducing distributed power, its impacts on voltage profile, line losses, short circuit impedances, and dependability must be assessed independently. The arranging of the electric system with the proximity of DG requires the meaning of a few elements, for example, the best innovation to be utilized, the number and the limit of the units, the best area, the kind of system connection, and so on. The effect of DG in system working attributes, for example, electric losses, voltage profile, reliability and resolute quality should be fittingly assessed. The issue of DG designation and measuring is of incredible significance. The establishment of DG units at non-ideal spots can bring about an increase in system losses, inferring in an increment in expenses and, subsequently, having an impact inverse to the fancied. Therefore, the utilization of an enhancement technique fit for demonstrating the best answer for a given distribution system can be extremely valuable for the system arranging engineer. The target can be the minimization of the dynamic losses of the feeder or the minimization of the aggregate system supply costs, which incorporates generators operation and losses pay or even the best use of the accessible generation limit.