Distributed robust operation strategy of multi‐microgrid based on peer‐to‐peer multi‐energy trading

Abstract: In microgrid (MG) systems, traditional centralised energy trading models can lead to issues such as low energy efficiency due to unstable energy supply and lack of flexibility. Peer‐to‐peer (P2P) trading models have been widely used due to their advantages in promoting the sustainable development of renewable energy and reducing energy trading costs. However, P2P multi‐energy trading requires mutual agreements between two microgrids (MGs), and the uncertainties of renewable energy and load affects energy suppl… Show more

“…The terminal flexible load model suggested by the authors in 66 can provide scheduling flexibility for the seamless connectivity of the microgrid system. It reduces operational expenses while also offering schedulable space for peer-to-peer transactions.…”

State-of-the-art review on energy sharing and trading of resilient multi microgrids

“…The terminal flexible load model suggested by the authors in 66 can provide scheduling flexibility for the seamless connectivity of the microgrid system. It reduces operational expenses while also offering schedulable space for peer-to-peer transactions.…”

State-of-the-art review on energy sharing and trading of resilient multi microgrids

Peer‐to‐Peer Energy Trading Approaches: Maximizing the Active Participation of the Prosumers in the Multi‐carrier Energy Communities

Optimal and distributed energy management in interconnected energy hubs