Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Energy Systems Simulation on an Urban District-Level
The development of urban-scale energy systems modelling on a district-level is presently the target of many research organisations because of the growing interest in assessing the effect of energy efficiency throughout the full energy chain in urban district environments. This Master thesis includes an overview on energy use with aggregation at building- and a geographically restricted residential area level. The research was focused on three aspects to achieve sustainable development: selection of a modelling tool within energy engineering, energy systems modelling on a building-level and on an urban district-level, and an analysis of the magnitude of energy flows (heat and electricity) between different system components and also on an aggregated level on an hourly basis at predefined climate conditions. To reach the objectives, an extensive screening of 129 modelling tools was conducted based on nine different parameters provided in table form. Moreover, a more in-depth literature study was conducted in text form where a total of 21 modelling tools were reviewed addressing a wide range of characteristic features within each tool. The chosen modelling tool was “SimulationX” for this work. Other tools considered were e.g. EnergyPlan, TRNSYS, and Homer. SimulationX was mainly chosen because of the expected high level of detail that could be achieved in the modelling process and the wide range of components available to design an energy system, both on a building-level and on an urban district-level. Furthermore, a design of the requested architecture of the energy system on an urban district-level has been established representing the full energy chain from natural resources to energy end-use services. By the use of the SimulationX software and the Green City library specifically used in this project, a total number of three concepts were created with the general idea to present the difference between individual energy solutions of households compared to integrated solutions of multiple households for a part of ...
Energy Systems Simulation on an Urban District-Level
The development of urban-scale energy systems modelling on a district-level is presently the target of many research organisations because of the growing interest in assessing the effect of energy efficiency throughout the full energy chain in urban district environments. This Master thesis includes an overview on energy use with aggregation at building- and a geographically restricted residential area level. The research was focused on three aspects to achieve sustainable development: selection of a modelling tool within energy engineering, energy systems modelling on a building-level and on an urban district-level, and an analysis of the magnitude of energy flows (heat and electricity) between different system components and also on an aggregated level on an hourly basis at predefined climate conditions. To reach the objectives, an extensive screening of 129 modelling tools was conducted based on nine different parameters provided in table form. Moreover, a more in-depth literature study was conducted in text form where a total of 21 modelling tools were reviewed addressing a wide range of characteristic features within each tool. The chosen modelling tool was “SimulationX” for this work. Other tools considered were e.g. EnergyPlan, TRNSYS, and Homer. SimulationX was mainly chosen because of the expected high level of detail that could be achieved in the modelling process and the wide range of components available to design an energy system, both on a building-level and on an urban district-level. Furthermore, a design of the requested architecture of the energy system on an urban district-level has been established representing the full energy chain from natural resources to energy end-use services. By the use of the SimulationX software and the Green City library specifically used in this project, a total number of three concepts were created with the general idea to present the difference between individual energy solutions of households compared to integrated solutions of multiple households for a part of ...
Energy Systems Simulation on an Urban District-Level
Hadziomerovic, Dado (Autor:in)
01.01.2019
Hochschulschrift
Elektronische Ressource
Englisch
DDC:
690
District-scale simulation for multi-purpose evaluation of urban energy systems
| Taylor & Francis Verlag | 2010
District energy for a futuristic urban development project
| Tema Archiv | 2004