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Thermal-hydraulic modelling of a flexible substation layout for low-temperature waste heat recovery into district heating

Daniele Anania, G. Russo, Adolfo Palombo, Federico Orizio, Roberto Fedrizzi, Marco Cozzini

2025Energy17 citationsDOIOpen Access PDF

Abstract

This study investigates a thermal substation designed for low-temperature waste heat recovery in district heating networks, where the served user has both heating and cooling demands. The proposed bidirectional substation, equipped with heat pumps and thermal storage units, enables the recovery of excess waste heat in the district heating network and compensates local heating needs when waste heat availability is insufficient. A flexible and detailed TRNSYS-based model is developed to simulate various hydraulic configurations of the substation, tailored for both low- and high-temperature district heating networks, ensuring adaptability to different temperature requirements in diverse applications. The model is applied to a demonstration site in Ospitaletto, Italy, where waste heat is recovered from a steel mill and used to replace gas boilers for space heating and hot water in the factory's canteen and showers. The model's accuracy is validated through a comparison with monitored data, ensuring reliable performance predictions. Performance estimation error is under 5%, demonstrating the model's high reliability. The simulation results show that the system can achieve up to 75% reduction in non-renewable primary energy consumption and carbon emissions, while also allowing the recovery of about 90% of unused waste heat for supply to other connected users. • Bidirectional thermal substation with heat pumps and storages for district heating. • Flexible and detailed modelling for designing and optimizing substation components. • Validation of the model with monitored data, highlighting performance accuracy. • Seasonal performance estimation for the bidirectional substation. • Impact assessment of prosumer integration into district heating systems.

Topics & Concepts

Waste managementWaste heatEnvironmental scienceThermalWaste heat recovery unitEngineeringMechanical engineeringThermodynamicsHeat exchangerPhysicsIntegrated Energy Systems OptimizationGeothermal Energy Systems and ApplicationsThermal Analysis in Power Transmission
Thermal-hydraulic modelling of a flexible substation layout for low-temperature waste heat recovery into district heating | Litcius