Tracing, Ranking and Pricing DER Flexibility in Active Distribution Networks

Abstract

This paper presents a framework for analysing the aggregated flexibility of active distribution networks (ADNs) with distributed energy resources (DER). The analysis takes a different perspective than existing studies, which focus on characterising flexibility as the limits of the flexible power provision, i.e., the set of the network feasible operating points in the P-Q space. Instead, this work aims to estimate the contributions of different flexible units to the aggregated flexibility, which is essential for flexible power ranking and pricing. The proposed framework exploits cost-minimising OPF models complemented with cooperative game formulations that are able to capture the combinatorial nature of activating multiple flexible units. Moreover, in contrast to existing studies that imply perfect coordination of units, the proposed framework specifies the actions needed to reach feasible operating points, reflecting the nonlinearities of the network flexibility model. Extensive simulations are performed for different flexibility metrics to demonstrate the applicability of the framework. Depending on the metric selected (capacity, cost, or economic surplus of flexibility), distribution system operators (DSOs) can identify the most critical flexible units or remunerate units for participating in flexibility services provision