M. Böhringer, T. Plößer, J. Hanson, Tim Weitzel, C. Glock, N. Roloff
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Trading Strategy for a Flexible Factory Participating in the German Balancing and Day-Ahead Market
During the last years, the rising share of renewable energy sources led to increased volatility in terms of power production within the electrical power grid. This leads to a higher amount of control reserve. The use of flexibility options within the industrial sector concerning the electrical power demand is one solution to provide control reserve. For this purpose, the structure of the decision-making process consisting of bid submission, market clearing and operation planning is represented from a demand-side view in this paper. A multi-stage stochastic mixed-integer linear programming model is developed that simultaneously optimizes the electrical demand of a flexible factory and bidding in the German secondary control reserve and day-ahead market. Since the bidding-decisions are made sequentially and the price information is gradually revealed, the optimization problem includes risk management. A case study based on the German electricity market demonstrates the effectiveness of the model.
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