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Grouped Charging of Decentralised Storage to Efficiently Control Collective Heating Systems: Limitations and Opportunities

Stef Jacobs, Margot De Pauw, Senne Van Minnebruggen, Sara Ghane, Thomas Huybrechts, Peter Hellinckx, Ivan Verhaert

2023Energies13 citationsDOIOpen Access PDF

Abstract

Collective heating systems have multiple end-users with time-varying, often different temperature demands. There are several concepts catering to this, e.g., multi-pipe networks and 2-pipe networks with or without decentralised booster systems. In this study, we focus on 2-pipe networks with a changing supply temperature by smart use of decentralised storage. By grouping high-temperature demands, the average supply temperature can be lowered during large parts of the day, which is beneficial for system efficiency. The actual energy-saving potential, however, can be case-specific and is expected to depend on design choices and implemented control strategies. In this paper, these dependencies are assessed and identified by implementing two optimised rule-based control strategies, providing in such a way a bench-mark for other control strategies. The results show that grouping yields energy savings of up to 36% at similar peak demand as with conventional control strategies. The energy-saving potential is greatest for large storage volumes and small networks, but large networks with large storage and proper control choices can also achieve around 30% energy savings. Moreover, high-temperature time can easily be reduced to less than 40% of the day, which could make space cooling without decentralised booster heat pumps possible, but this requires further research.

Topics & Concepts

Booster (rocketry)Control (management)Energy storageComputer scienceTemperature controlThermal energy storageEfficient energy useControl systemDistributed computingAutomotive engineeringProcess engineeringEngineeringControl engineeringElectrical engineeringPhysicsEcologyArtificial intelligenceAerospace engineeringBiologyPower (physics)Quantum mechanicsIntegrated Energy Systems OptimizationBuilding Energy and Comfort OptimizationSmart Grid Energy Management