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Seasonal large-scale thermal energy storage in an evolving district heating system – Long-term modeling of interconnected supply and demand

Karl Vilén, Erik O. Ahlgren

2024Smart Energy14 citationsDOIOpen Access PDF

Abstract

Given the strong seasonal nature of heating demands, peak heat is important during colder seasons. Instead of peak heat plants, seasonal large-scale thermal energy storage (TES) could be utilized. These can be charged during warmer seasons and discharged when required, decreasing the need for peak heat plants. Systems modelling studies on seasonal TES are lacking. Thus, a long-term local energy system model is applied under different scenarios to investigate the potential roles of seasonal TES in an evolving heating system. The results show that seasonal TES is economically viable for: all future electricity price cases for low TES construction costs, corresponding to repurposing of underground oil storages, and for most electricity price cases for mid- and high construction costs, corresponding to new underground excavations. Seasonal TES mainly decrease the investments in and usage of electric boilers or biogas boilers, while increase the utilization of heat pumps. Other technologies may be affected depending on the future trajectory of electricity price developments. The size of the TES is between 3 and 7% of the annual district heating heat demand, depending on construction cost and electricity price development. The expansion of district heating into new housing is mostly unaffected by the availability of TES. • Local energy systems modeling with annual additions of new housing. • Three investment cost levels investigated for TES. • Decreased use of electric boilers or biogas heat-only boilers through usage of TES. • Increased utilization factor for heat pumps. • Expansion of district heating to new housing is not affected by TES.

Topics & Concepts

Thermal energy storageTerm (time)Environmental scienceScale (ratio)Energy storageGeographyPhysicsThermodynamicsPower (physics)CartographyQuantum mechanicsIntegrated Energy Systems OptimizationGeothermal Energy Systems and ApplicationsHybrid Renewable Energy Systems
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