부산대학교 도서관

Peer-to-peer (P2P) energy trading allows bilateral energy transaction for utilization of flexible energy resources. It facilitates trading of surplus power generated by DGs to other prosumers interconnected microgrids. While performing P2P trading in the interconnected system any kind of stressed situation can lead to a congestion in the transmission system. Considering the amount of generation and load profile of the microgrids, optimal size of ESS is placed in the optimal location within the microgrid. ESS can store the excess energy produced and trade it to transmission system when the congestion is created in the system. The IEEE 30 bus system is considered as transmission system in which three IEEE 33 bus system as microgrids are being integrated at different locations. Load flow analysis is performed for different cases using MATLAB software. The reduction of congestion in the transmission line is observed when it is managed using ESS within the microgrids.