Affiliation:
1. School of Electrical and Electronic Engineering North China Electric Power University Beijing China
2. School of Economics and Management Beijing University of Technology Beijing China
3. Beijing Energy Development Research Center Beijing China
4. Taiyuan Power Supply Company State Grid Shanxi Electric Power Company Taiyuan Shanxi Province China
5. School of Economics and Management North China Electric Power University Beijing China
Abstract
AbstractShared‐energy storage (SES) can break the energy interaction barrier between the demand side and the supply side, which is becoming an option for improving the flexibility of energy systems. This study designed a novel structure for the shared‐energy aggregator (SEA), incorporating a microgrid (MG), prosumer and SES. Then, a two‐level market transaction optimization model for SEA, considering the robust stochastic optimization method, is proposed; namely, at the day‐ahead stage, a robust stochastic operation optimization model is constructed to achieve the dispatching plan from the demand side under the objective of achieving the minimum energy consumption cost for the prosumer, and at the real‐time market stage, a robust stochastic operation optimization model from the supply side is constructed to arrange the optimal dispatching strategy under the objective of the maximum aggregator benefits of MG and SES. Finally, an industrial park micro‐grid in Qinghai Province, China, is selected as an example for analysis.
Publisher
Institution of Engineering and Technology (IET)
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