Optimal Size and Location of Distributed Generations for Minimizing Power Losses in a Primary Distribution Network

Power system deregulation and shortage of transmission capacities have led to art, increase interest in Distributed Generations (DGs) sources. The optimal location of DGs in power systems is very important for obtaining their maximum potential benefits. This paper presents an algorithm to obtain the optimum size and optimum location. of the DGs at any bits in the distribution. network. The proposed algorithm is based on minimizing power losses in the primary distribution network. The developed algorithm can also be used to determine the optimum size and optimum location of the DGs embedded in the distribution network, including power cost and the available rating of DGs if the DGs exist in a competitive market. in algorithm is applied to three test distribution systems with different sizes (6 buses, 18 buses and 30 buses). Results indicated that, if the DGs are located at their optimal locations and have optimal sizes, the total losses in the distribution network will be reduced by nearly 85%. The results can. be used as a look-up table, which can help design engineers when inserting DGs into the distribution networks.