Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
District heating and cooling, analysis and comparison with traditional methods
One of the main reasons for the damage that humans are causing to the environment is the energy production sector. Thus, society should find manners to develop its life with lower energy use and the energy generation should be carried out respectfully. This project aims to compare the heating and cooling methods used in Sweden and Spain, focusing on the situation in Linköping, where a District Heating and Cooling network is used. Swedish situation will be studied by District Heating and Cooling technology integrated with the Combined Heat and Power method, using municipal waste as fuel, as it happens in Linköping. For the Spanish situation, the most used methods according to the national statics will be analyzed. The aim of this report is to determine whether using large-scale heat and cool production methods leads to better energy efficiencies and less environmental impact. The District Heating and Cooling system will be analyzed using the information in the book by Frederiksen and Werner and the data that Tekniska Verken has kindly provided by individual communication. For the heating and cooling systems used in Spain, different sources have been used. In this project, the exigent emission’s limits and the control measures of the large-scale production methods are pointed out. Besides, the noticeable power losses in the District Heating and Cooling networks are estimated, although the efficiency advantages of using Combined Heat and Power in the generation process are also determined. The large-scale heat and cool production systems raise as a wise way to harness the energy and to have reduced and controlled emission levels. ; Grado en Ingeniería en Tecnologías Industriales
District heating and cooling, analysis and comparison with traditional methods
One of the main reasons for the damage that humans are causing to the environment is the energy production sector. Thus, society should find manners to develop its life with lower energy use and the energy generation should be carried out respectfully. This project aims to compare the heating and cooling methods used in Sweden and Spain, focusing on the situation in Linköping, where a District Heating and Cooling network is used. Swedish situation will be studied by District Heating and Cooling technology integrated with the Combined Heat and Power method, using municipal waste as fuel, as it happens in Linköping. For the Spanish situation, the most used methods according to the national statics will be analyzed. The aim of this report is to determine whether using large-scale heat and cool production methods leads to better energy efficiencies and less environmental impact. The District Heating and Cooling system will be analyzed using the information in the book by Frederiksen and Werner and the data that Tekniska Verken has kindly provided by individual communication. For the heating and cooling systems used in Spain, different sources have been used. In this project, the exigent emission’s limits and the control measures of the large-scale production methods are pointed out. Besides, the noticeable power losses in the District Heating and Cooling networks are estimated, although the efficiency advantages of using Combined Heat and Power in the generation process are also determined. The large-scale heat and cool production systems raise as a wise way to harness the energy and to have reduced and controlled emission levels. ; Grado en Ingeniería en Tecnologías Industriales
District heating and cooling, analysis and comparison with traditional methods
Román Ceballos, Nicolás (Autor:in) / Andrei, Mariana / Universidad de Cantabria
07.07.2020
Hochschulschrift
Elektronische Ressource
Englisch
DDC:
690
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Application of District Heating and Cooling in High-Rise Residential District
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Optimization approaches in district heating and cooling thermal network
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Optimization approaches in district heating and cooling thermal network
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