Preference-based Energy Exchange in a Network of Microgrids

Peer-to-peer energy trading is emerging as a new paradigm that in the near future may disrupt conventional electricity markets and heavily affect energy exchanges in networks of microgrids. In this paper, a preference mechanism is considered to compute optimal energy exchanges in a network of microgrids with or without the supervision of the distribution system operator, and the alternating direction method of multipliers is adopted for its distributed solution. The effect of the preference mechanism on the resulting power flow in the network is further studied and discussed for realistic case studies. Results show that a desired power flow in the network of interconnected microgrids can be achieved with different preference values locally chosen or imposed by the system operator. In particular, appropriate preferences may be used to give rise to different clusters of microgrids and reduce energy exchanges between different clusters