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Environmentally advanced gym
Číková, Veronika ; Vyhlídalová, Karolína (referee) ; Horák, Petr (advisor)
The aim of the master's thesis is to design an environmentally advanced gym building. In the first part, the building structure is designed. It is a two-storey building. On the first floor there is a reception, a gym, sanitary facilities for athletes, communication areas, facilities for employees, storage areas and technical facilities. On the second floor there is a cafeteria, gym, sanitary facilities for athletes, tribune, communication areas, toilets, staff facilities and technical facilities. The structural system is a skeleton of monolithic reinforced concrete with infill masonry of aerated concrete. Ceiling structures and staircase are also designed as monolithic reinforced concrete. The building is roofed with trussed steel gable trus-ses, the roof cladding consists of PUR boards with surface trapezoidal sheeting. The perimeter walls are insulated with ETICS system. The second part deals with the building environment technology. Heating, air conditioning, cooling, water management, lighting and a photovoltaic power plant are designed. The third part is an energy study for the design of the heating source. Economic and ecological factors are taken into account. The decisive parameters for the selection of the most optimal solution are the total investment costs over the lifetime, the production of CO2 emissions and the consumption of primary nonrenewable energy. The project is developed using AutoCAD and DEKsoft software.
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Energy-efficient building of a sports hall in the city of Brno
Shturkhetska, Karyna ; Wierzbická, Helena (referee) ; Rubinová, Olga (advisor)
The aim of the master’s project is to design a new complex that will respect the social needs of the local community, the values of the territory, the configuration of the terrain, the principles of nature protection, the existing development and will be adequately connected to the transport and technical infrastructure. The work is divided into 3 parts. Part of the building construction, part of the technical equipment of the building and an optional part calculation. In the third part, the measurement of the solar ventilation system and the possibility of its use in the proposed building are processed. The vertical load-bearing structures are designed from ceramic blocks and reinforced concrete framework. The horizontal load-bearing structures are designed from prefabricated reinforced concrete parts. The flat roof consists of a flat vegetation roof with waterproofing of asphalt strips. The heating of the building will be provided by a ground/water heat pump. Forced ventilation with two air conditioning units. Cooling will be designed in the gym, yoga room and main entrance. Solar panels will also be designed. There will also be an outdoor parking lot and a football pitch on the territory. The project and visualizations were carried out in AutoCAD and Revit programmer.
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Environmentally advanced gym
Číková, Veronika ; Vyhlídalová, Karolína (referee) ; Horák, Petr (advisor)
The aim of the master's thesis is to design an environmentally advanced gym building. In the first part, the building structure is designed. It is a two-storey building. On the first floor there is a reception, a gym, sanitary facilities for athletes, communication areas, facilities for employees, storage areas and technical facilities. On the second floor there is a cafeteria, gym, sanitary facilities for athletes, tribune, communication areas, toilets, staff facilities and technical facilities. The structural system is a skeleton of monolithic reinforced concrete with infill masonry of aerated concrete. Ceiling structures and staircase are also designed as monolithic reinforced concrete. The building is roofed with trussed steel gable trus-ses, the roof cladding consists of PUR boards with surface trapezoidal sheeting. The perimeter walls are insulated with ETICS system. The second part deals with the building environment technology. Heating, air conditioning, cooling, water management, lighting and a photovoltaic power plant are designed. The third part is an energy study for the design of the heating source. Economic and ecological factors are taken into account. The decisive parameters for the selection of the most optimal solution are the total investment costs over the lifetime, the production of CO2 emissions and the consumption of primary nonrenewable energy. The project is developed using AutoCAD and DEKsoft software.
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