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Nearly Zero-Energy Building Retrofitting: Case Study of a Conventional Single-Family House in Denmark
Wawerka, Robert ; Skotnicová,, Iveta (referee) ; Kalousek, Miloš (referee) ; Petráš,, Dušan (referee) ; Hirš, Jiří (advisor)
This doctoral thesis proposes a new method of energy retrofitting of existing residential buildings towards nearly zero-energy status. The topic of energy retrofitting of existing buildings is widely discussed and lamented within the European Union and the Member states and is enshrined in the Directive 2010/31/EU. This research is in line with the European Union strategy Europe 2020 which sets targets for climate change and energy sustainability. The thesis describes the study of building energy performance of a pilot energy retrofitted residential building towards nearly zero-energy where progressive design technologies, such as energy modelling, monitoring, building optimisation and verification were used. This case study helped to formulate the recommendations on the effectiveness of various passive and active design methods together with renewable energy systems and after the extensive research it contributes to model and verify the future expectation and energy efficiency requirements of the residential market.
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Office Building - Brno
Červinka, Tomáš ; Pilný, Ondřej (referee) ; Kalousek, Lubor (advisor)
The aim of the diploma thesis is to design a new office building with client operation. The building is designed with requirements for buildings with almost zero energy consumption. The project also includes a complete fire safety solution for the building and a certificate of the building's energy performance. The diploma thesis is processed in the form of documentation for execution of the project.
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Energy-saving building of the Center for Movement Medicine
Bořil, Martin ; Maurerová, Lenka (referee) ; Počinková, Marcela (advisor)
The aim of this master thesis is the design of an nearly zero energy building of the Centre for movement medicine. The thesis consists of three parts. The design of the building is the main topic of the first part. The building has two above ground floors. The load-bearing system is a reinforced cast-in-place concrete frame. The infill walls of the reinforced concrete frame are made of sand-lime bricks. The thrmal insulation of the building consists of mineral wool. The roof is extensive green roof. The second part elaborates on the design of HVAC and other building services. Heat pumps are provided for heating and cooling of the building. There are two ventilation systems. Lighting is provided by LED lights. Rainwater is collected in a rainwater tank and it´s used for flushing. A photovoltaic system is installed on the roof of the building. The multi-criteria evaluation of four cooling systems is the subject of the third part. The aim was to develop the most environmentally friendly solution. The thesis was prepared in accordance with the applicable laws, regulations and standards. Revit, DeksoftEnergie, Teplo, Area, PVsol, AutoCAD, Fire, Excel and BuildingDesign were used in the preparation of this thesis.
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Office Building - Brno
Červinka, Tomáš ; Pilný, Ondřej (referee) ; Kalousek, Lubor (advisor)
The aim of the diploma thesis is to design a new office building with client operation. The building is designed with requirements for buildings with almost zero energy consumption. The project also includes a complete fire safety solution for the building and a certificate of the building's energy performance. The diploma thesis is processed in the form of documentation for execution of the project.
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Nearly Zero-Energy Building Retrofitting: Case Study of a Conventional Single-Family House in Denmark
Wawerka, Robert ; Skotnicová,, Iveta (referee) ; Kalousek, Miloš (referee) ; Petráš,, Dušan (referee) ; Hirš, Jiří (advisor)
This doctoral thesis proposes a new method of energy retrofitting of existing residential buildings towards nearly zero-energy status. The topic of energy retrofitting of existing buildings is widely discussed and lamented within the European Union and the Member states and is enshrined in the Directive 2010/31/EU. This research is in line with the European Union strategy Europe 2020 which sets targets for climate change and energy sustainability. The thesis describes the study of building energy performance of a pilot energy retrofitted residential building towards nearly zero-energy where progressive design technologies, such as energy modelling, monitoring, building optimisation and verification were used. This case study helped to formulate the recommendations on the effectiveness of various passive and active design methods together with renewable energy systems and after the extensive research it contributes to model and verify the future expectation and energy efficiency requirements of the residential market.
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