Demand Response Strategy of Energy Prosumer Based on Robust Optimization Through Aggregator

Demand Response Strategy of Energy Prosumer Based on Robust Optimization Through Aggregator

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In this article, the optimal operation strategy for the aggregator to participate in demand response (DR) market is proposed.First, on the day before the satisfyer pro penguin next generation occurrence of DR, Customer Baseline Load (CBL)-based load forecasting is performed using historical load data and a day-ahead scheduling is implemented to minimize electric charges by using peak reduction and arbitrage trading.If the demand response occurs, distributed energy resources (DERs) bid power reduction capacity to the aggregator.

In Korea tariff system, demand charges determined by peak load are very expensive.Therefore, DERs should not update their peak load due to demand response market participation.The uncertainty of load prediction is modeled using the average value of mean absolute percentage error (MAPE), and robust optimization (RO) is implemented to determine a bidding capacity, thereby preventing the peak form being updated due sequal eclipse 5 battery to prediction error.

Then, the aggregator decides the capacity to participate in DR market by considering the bidding capacity and priority.It presents the method to determine the incentive for participation in DR using a logarithmic barrier function.To evaluate the performance of the proposed algorithm simulation was performed by constructing a scenario for prediction error and mandatory reduction capacity.