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Kindergarten Krabík
Jakoš, Milan ; Kalánek, Jiří (referee) ; Ostrý, Milan (advisor)
The aim of this master´s thesis is the elaboration of project documentation for kindergarten with almost zero energy consumption. The project consists of three main parts. The first part is devoted to the civil engineering design of the building. The building is designed regarding to architectural expression, quality of made and type of use. The kindergarten is designed with capacity of 48 children split into two departments. The second part is devoted to the design of HVAC systems. The building uses mechanical ventilation with heat recovery, heating is provided by two gas boilers and the need of electricity is provided by a photovoltaic system. Captured rainwater is used effectively. The third part values the building regarding the method of multi–criteria analysis. For this evaluation uses national method SBToolCZ.
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Kindergarten Říčany
Tylčer, Radim ; Sukop, Lukáš (referee) ; Ostrý, Milan (advisor)
The aim of this Master's thesis is to prepare project documentation for the building permit of a kindergarten with near-zero energy consumption. The thesis consists of three parts. The first part includes architectural and structural designs. The kindergarten is a detached single-storey building with flat green roof. Its designed capacity is 40 children in two sections. The building will have concrete strip foundations, ceramic masonry walls and reinforced concrete roof slabs. The facade will be ventilated with cladding made of fiber-cement panels. The second part deals with the design of building services and the assessment of the building energy performance. The building will ulitize air water heat pumps for space and domestic hot water heating, mechanical ventilation with heat recovery for air supply, and photovoltaic plant will partially cover its electricity consumption. Lighting and a rainwater management system have been designed too. The building will use LED lighting and rainwater will be used for watering green areas and flushing toilets. The final part of the thesis involves multi-criteria evaluation of the building SBToolCZ methodology. Environmental criteria, social criteria, location, economy, and management were assessed. For a better assessment of the building were designed a green roof, ventilated facade, energy-efficient renewable sources, partially environmentally friendly materials, electric vehicle charging stations, and so on.
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Office Building
Atanova, Anastasia ; Kalánek,, Jiří (referee) ; Ostrý, Milan (advisor)
The aim of the thesis is to design a new construction of an administrative building with almost zero energy consumption. The project is divided into 3 parts. The first part is the creation of project documentation. The building plan is conceived as a free-standing administrative building with a partial basement, with a flat roof and an adjoining open parking lot for 20 cars. The building is designed as a masonry of ceramic blocks + ETICS (EPS) insulation, with a reinforced concrete ceiling structure. The second part is the assessment of the energy demand of the building and the use of energy from renewable sources. A ground-water heat pump was proposed as the heat source for the administrative building. The heat pump is used both for heating hot water and in winter for heating the building. The air is provided by mechanical ventilation, and the electricity supply is partially provided by a photovoltaic system. The third part of the thesis is the evaluation of the building using the SBToolCZ method.
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Kindergarten
Simanova, Liubov ; Struhala, Karel (referee) ; Jelínek, Petr (advisor)
The aim of this master´s thesis is to elaborate the project documentation of a new kindergarten in the city of Brno. The kindergarten is designed for day care for children aged 2-6 years. The total capacity of the kindergarten is 48 children. The building is twostory and consists of two functional parts. One of the parts is administrative. It houses the offices of the managing staff, as well as classrooms for teaching children. There are also technical rooms for the installation of equipment. In another part of the building there are classrooms for children with bathrooms. The roof of the building is flat and exploited. The vertical load-bearing walls of the aboveground floor are made of ceramic bricks (Porotherm brick system). The walls of the stairwell are made of reinforced concrete C20/25 and reinforcement B500B. Horizontal load-bearing structures are made of reinforced concrete C20/25 with reinforcement B500B. As a source of heating, the building uses a heat pump. It is located in the technical room. The "DUPLEX 5500 Multi Eco" recovery system is used as a ventilation source. Rooms for children are heated with underfloor heating. Also in the rooms for children are installed: ontrolling lighting down to individual receptacles, opening/closing shades and drape. There is a photovoltaic power plant on the roof of the building. On the territory there are several play areas for children to walk, as well as parking for staff. In the analytical part of the work, the assessment of the quality of the building in accordance with the principles of sustainable construction by SBToolCZ methodology was conducted. A certificate of quality of the building was established. The kindergarten project was carried out in the Revit program. All structures comply with the valid standards and regulations.
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Kindergarten Krabík
Jakoš, Milan ; Kalánek, Jiří (referee) ; Ostrý, Milan (advisor)
The aim of this master´s thesis is the elaboration of project documentation for kindergarten with almost zero energy consumption. The project consists of three main parts. The first part is devoted to the civil engineering design of the building. The building is designed regarding to architectural expression, quality of made and type of use. The kindergarten is designed with capacity of 48 children split into two departments. The second part is devoted to the design of HVAC systems. The building uses mechanical ventilation with heat recovery, heating is provided by two gas boilers and the need of electricity is provided by a photovoltaic system. Captured rainwater is used effectively. The third part values the building regarding the method of multi–criteria analysis. For this evaluation uses national method SBToolCZ.
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