We demonstrate the usefulness of the approach by predicting temperature dynamics in two independent real-world cases under dry weather conditions. This enables conducting more advanced thermal-hydrodynamic simulation at full network scale than currently possible. To predict efficiently water-energy dynamics across an entire urban drainage network, we suggest the SWMM-HEAT model, which extends the EPA-StormWater Management Model with a heat-balance component. However, available models are either too detailed or too coarse fully coupled thermal-hydrodynamic modelling tools are lacking. Thermal-hydraulic considerations in urban drainage networks are essential to utilise available heat capacities from waste- and stormwater.
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