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On the Importance of Grid Tariff Designs in Local Energy Markets

Sebastian Schreck, Robin Sudhoff, Sebastian Thiem, Stefan Niessen

2022Energies23 citationsDOIOpen Access PDF

Abstract

Local Energy Markets (LEMs) were recently proposed as a measure to coordinate an increasing amount of distributed energy resources on a distribution grid level. A variety of market models for LEMs are currently being discussed; however, a consistent analysis of various proposed grid tariff designs is missing. We address this gap by formulating a linear optimization-based market matching algorithm capable of modeling a variation of grid tariff designs. A comprehensive simulative study is performed for yearly simulations of a rural, semiurban, and urban grids in Germany, focusing on electric vehicles, heat pumps, battery storage, and photovoltaics in residential and commercial buildings. We compare energy-based grid tariffs with constant, topology-dependent and time-variable cost components and power-based tariffs to a benchmark case. The results show that grid tariffs with power fees show a significantly higher potential for the reduction of peak demand and feed-in (30–64%) than energy fee-based tariffs (8–49%). Additionally, we show that energy-based grid tariffs do not value the flexibility of assets such as electric vehicles compared to inflexible loads. A postprocessing of market results valuing the reduction of power peaks is proposed, enabling a compensation for the usage of asset flexibility.

Topics & Concepts

TariffGridFlexibility (engineering)Benchmark (surveying)Distributed generationElectricityComputer sciencePhotovoltaicsMathematical optimizationEnvironmental economicsRenewable energyEconomicsElectrical engineeringPhotovoltaic systemEngineeringMathematicsManagementInternational tradeGeometryGeodesyGeographySmart Grid Energy ManagementMicrogrid Control and OptimizationElectric Power System Optimization