Samenvatting
We propose a comprehensive nonlinear ODE-based thermo-hydraulic model of a district heating system featuring several heat producers, consumers and storage devices which are interconnected through a distribution network of meshed topology whose temperature dynamics are explicitly considered. Moreover, we analyze the conditions under which the hydraulic and thermal subsystems of the model exhibit shifted passivity properties. For the hydraulic subsystem, our claims on passivity draw on the monotonicity of the vector field associated to the district heating system’s flow dynamics, which mainly codifies viscous friction effects on the system’s pressures. For the temperature dynamics, we propose a storage function based on the ectropy function of a thermodynamic system, recently used in the passivity analysis of heat exchanger networks.
Originele taal-2 | English |
---|---|
Titel | Proceedings of the IFAC World Congress 2023 |
Status | Published - 2023 |
Evenement | 22nd International Federation of Automatic Control World Congress (IFAC WC 2023) - Yokohama, Japan Duur: 9-jul.-2023 → 14-jul.-2023 https://www.ifac-control.org/conferences/ifac-world-congress-22nd-wc-2023tm |
Conference
Conference | 22nd International Federation of Automatic Control World Congress (IFAC WC 2023) |
---|---|
Land/Regio | Japan |
Stad | Yokohama |
Periode | 09/07/2023 → 14/07/2023 |
Internet adres |