Modelling of waste heat integration into an existing district heating network operating at different supply temperatures

“…Annual simulations of a small DHN with 25 HCs and decentralized prosumers were carried out using Modelica in order to evaluate different scenarios [14]. Waste heat integration was evaluated for a small DHN [15], as well as a medium-sized DHN with about 100 HCs [16]. The latter article demonstrates that dynamic simulations allow for identification of the share of waste heat that can be integrated into an existing DHN and to analyze hydraulic bottlenecks and temperature undersupply that arises from lower supply temperatures.…”

“…Their annual simulation of a small simple radial DHN (14 HC) takes 4 to 10 h. A simplified HC model with instantaneous heat release and a balancing valve for mass flow is described by del Hoyo Arce et al [19]. Stock et al [16] use a strongly simplified HC model for Modelica that is intended to investigate waste heat integration and supply temperature reduction in large DHNs. However, their model neglects important effects (such as pressure undersupply) and seems to be too simple (constant bypass mass flow) (see Section 2.1.1).…”

“…This means that the models do not contain a fluid model that connects flow and return line, which allows for decoupling the respective equation systems for fluid flow and pressures in the supply and return line of the DHN. Stock et al [16] state that open-loop models reduce the computational effort and yield valid results when the research focus is on heat distribution and not on control of the HCs or heat sources. They successfully evaluate the hydraulic effects of the integration of a waste heat source into an existing DHN at different temperature levels.…”

“…The novel HC model presented in this paper enriches an existing approach for simplified HC modeling (open-loop, described in [16]) with features that ensure robust and plausible behavior of the model under various operating conditions (including undesirable situations, such as excessively low supply line temperatures or differential pressures) while keeping the computational effort for simulations as low as possible. The influence of the HC model on simulation time is evaluated using this novel HC model with different configurations and simple models from two other Modelica libraries.…”

Heat Consumer Model for Robust and Fast Simulations of District Heating Networks Using Modelica

“…Annual simulations of a small DHN with 25 HCs and decentralized prosumers were carried out using Modelica in order to evaluate different scenarios [14]. Waste heat integration was evaluated for a small DHN [15], as well as a medium-sized DHN with about 100 HCs [16]. The latter article demonstrates that dynamic simulations allow for identification of the share of waste heat that can be integrated into an existing DHN and to analyze hydraulic bottlenecks and temperature undersupply that arises from lower supply temperatures.…”

“…Their annual simulation of a small simple radial DHN (14 HC) takes 4 to 10 h. A simplified HC model with instantaneous heat release and a balancing valve for mass flow is described by del Hoyo Arce et al [19]. Stock et al [16] use a strongly simplified HC model for Modelica that is intended to investigate waste heat integration and supply temperature reduction in large DHNs. However, their model neglects important effects (such as pressure undersupply) and seems to be too simple (constant bypass mass flow) (see Section 2.1.1).…”

“…This means that the models do not contain a fluid model that connects flow and return line, which allows for decoupling the respective equation systems for fluid flow and pressures in the supply and return line of the DHN. Stock et al [16] state that open-loop models reduce the computational effort and yield valid results when the research focus is on heat distribution and not on control of the HCs or heat sources. They successfully evaluate the hydraulic effects of the integration of a waste heat source into an existing DHN at different temperature levels.…”

“…The novel HC model presented in this paper enriches an existing approach for simplified HC modeling (open-loop, described in [16]) with features that ensure robust and plausible behavior of the model under various operating conditions (including undesirable situations, such as excessively low supply line temperatures or differential pressures) while keeping the computational effort for simulations as low as possible. The influence of the HC model on simulation time is evaluated using this novel HC model with different configurations and simple models from two other Modelica libraries.…”

Heat Consumer Model for Robust and Fast Simulations of District Heating Networks Using Modelica

“…Therefore, we investigate another scenario with lower supply temperatures (LT) in the district heating network of 80 to 100 • C (WH LT ). The technical feasibility of district heating operation and the sufficient heat supply to the connected consumers at these lower supply temperatures is already studied in [17].…”

Design and Operational Optimisation of a Combined Cooling, Heating and Power Plant to Enable Waste Heat Integration into an Existing District Heating Network

Thermo-economic analysis and dynamic simulation of a novel layout of a renewable energy community for an existing residential district in Italy