Directly Constraining Marginal Prices in Distribution Grids Using Demand-Side Flexibility
Shantanu Chakraborty (TU Delft - Technology, Policy and Management)
Kyri Baker (University of Colorado - Boulder)
Milos Cvetkovic (TU Delft - Electrical Engineering, Mathematics and Computer Science)
Remco Verzijlbergh (TU Delft - Technology, Policy and Management)
Zofia Lukszo (TU Delft - Technology, Policy and Management)
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Abstract
Recently, the volatility associated with marginal prices has increased due to large scale integration of renewable generation. Price volatility is undesirable from a consumer perspective. To address this issue, we present a framework for hedging that uses duality theory for quantifying the amount of demand-side flexibility required for constraining marginal prices to the consumers maximum willingness to pay for electricity. Using our formulation, we investigate the ability of an Energy Storage System (ESS), as a demand-side flexibility source, to hedge against electricity price volatility across a multi-time period horizon while accounting for its intertemporal constraints. Additionally, we analyze the economical benefit that operating the ESS under information forecasts brings to the consumers.