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Apartment building Zahradní
Pečinka, David ; Žajdlík, Tomáš (referee) ; Rusinová, Marie (advisor)
The subject of the bachelor thesis is to design and develop design documentation for a new apartment building in Bystřice nad Pernštejnem with almost zero energy consumption in construction. The building is designed as a five-storey building with four above-ground and one underground floor. There are a total of 10 apartments on the above-ground. Elevator will be in the building. The vertical load-bearing structures are designed from geramic brick blocks with a contact thermal insulation system made of EPS polystyrene on above-ground and on underground floor are used the permanent form work with a contact thermal insulation system made of XPS polystyrene. The foundation structures are made of foundation strips made of plain concrete. The ceiling structures are made from reinforced concrete. The building is covered with a flat roof.
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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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Apartment building
Herůdek, Pavel ; Nespěšný, Ondřej (referee) ; Pěnčík, Jan (advisor)
The subject of bachelor thesis, is a design of new apartment building in range of Construction Object – Apartment building and elaboration of the desing documentation for construction. The buildign is placed in eastern edge in Brno in the district Brno - Líšeň, on a sloping terrain. Apartment building is designed with four floors and underground floor with technical background. The apartment building contains eight apartments, on each floor two apartments. On the top floor are designed two apartments with terrace. There is established a wheelchair access to the building. In the building is desinged a elevator. Construciton of vertical supporting are made of ceramic block Porotherm. The vertical strucutres are made of reinforced concrete cast-in-place ceiling. Roofing is designed as double skin flat roof. The building is based on concrete foundation strips. Nearby the Apartment building is placed a carpark with sufficient parking places. The apartment building is designed as nearly zero-energy building. That has been achieved by heat recovery system on ventilation system and parameters of building envelope.
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Apartment building
Jaroš, Radek ; Havířová, Zdeňka (referee) ; Lavický, Miloš (advisor)
The subject of this bachelor's thesis is the design of a new apartment building and the elaboration of project documentation for the construction. The apartment building is located on the southern outskirts of the city of Brno in the Brno - Jih district, in the part of the village Přízřenice on flat terrain. The building is designed as a free-standing building with four above-ground floors and one underground floor completely sunk below ground level. In the underground part of the apartment building there is a technical background of the building and individual cellar cubicles for the housing units. There are twelve residential units in the above-ground part of the building, three units on each floor. Housing units on the ground floor are complemented by terraces, housing units on other floors are complemented by balconies and loggias. A barrier-free entrance to the building is designed. An elevator is also designed in the building. The above-ground part of the apartment building is made of Porotherm ceramic blocks and insulated with a contact thermal insulation system. The external load-bearing walls in the basement are monolithic made of reinforced concrete. The horizontal load-bearing structures are made of monolithic reinforced concrete slabs. A single-skin flat roof is designed for the apartment building. The building is based on foundation strips. The building is designed parking with a sufficient number of parking spaces. The house is designed according to the requirements for buildings with almost zero energy consumption. Such a requirement has been achieved through heat recovery and building envelope parameters.
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Energy Performance Certificate Buildings with Nearly Zero Energy Consumption
Odstrčilíková, Aneta ; Vyhlídalová, Karolína (referee) ; Horák, Petr (advisor)
The bachelor's thesis deals with the evaluation of the energy performance of the residential building in Brno. The theoretical part is about solar collectors and their distribution. In the computational part, it compares the non-renewable primary energy and the total supplied primary energy for the designed variants. It analyzes the energy needs and flows of the building. In part C there are two energy performance certificate of building – for the initial state and the designed state.
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Economical office building
Lněnička, Petr ; Vyhlídalová, Karolína (referee) ; Horák, Petr (advisor)
The main aim this master's project is to design a nearly zero-energy office building. The project has three parts. Design of building itself and building services in the first and second part. Third part is specialized. The low-rise building has three storeys. On the first floor are small offices under 30 square meters and technical facilities of building. On the second floor are larger offices over 30 square meters and some staff area. On the third floor are one large shared office and local library. All walls are designed from ceramic blocks and external walls are insulated by ETICS. The floor slab and flat roof are designed from reinforced concrete. External look is from natural materials to fit the local environment. The heating to the building is delivered by condensing gas boiler. The next service systems in the building are ventilating, lighting and air conditioning. The source of renewable energy is photovoltaics. In the third part I proposed different types of structures and heating sources and I used them in the Energy Performance Certificate.
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Boarding House
Kryštofová, Iveta ; Vystrčil, Jan (referee) ; Košíčková, Ivana (advisor)
The aim of the diploma thesis is the processing of the design documentation for the construction of a boarding house with nearly zero energy consumption. The plot is located in the cadastre unit Znojmo-Louka, in a buildable area for recreation. The new building is detached, with partial basement, and has two floors. There is a preparation area in the one-storey section, including a dining area. Accommodation units can be found in a two-storey segment. And there is a technical background of the building in the basement. The vertical load-bearing system is made of ceramic blocks and concrete poured fittings used in the basement. The horizontal structures are formed cast-in-place reinforced slabs. The building is covered with a warm flat vegetation roof and a cold roof made of truss girders. The building is insulated with a contact thermal insulation system made of polystyrene. The building is based on deep piles and foundation reinforced concrete strips.
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Company headquarters with a cafe
Zbořil, Dominik ; Krupica, Roman (referee) ; Bantová, Sylva (advisor)
The aim of the master’s project is to develop a project documentation for the building permit of a new office building with a cafe in the cadastral area of Olomouc. The building has two storeys, and it has a cast-in-place reinforced concrete frame structure construction. The building is covered with a flat green roof. On the first floor there are a separate café and an entrance to the office part of the building. There are also a technical room for ventilation units, heating, and domestic hot water heating. On the second floor there are offices, a chill zone with a kitchenette and sanitary facilities. The first part of the project includes architectural and structural design. In the second part of the project, includes design of building services in the building. Mechanical ventilation is provided by air conditioning units with heat recovery. Heat pumps are designed to heat the building in winter and cool it in summer. Domestic hot water is also heated by heat pumps in hot water storage tank. Rainwater is retained in a storage tank and is subsequently reused for flushing the toilets and Irrigation. The roof of the building hosts photovoltaic panels to generate electricity and solar thermal collectors to heat hot water in summer. Third part of the project is thermal analysis of selected assembly details of the building envelope. These details were solved from a technical point of view and then I assessed some details from a thermal engineering point of view.
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Kindergarten in Šumperk
Vicianová, Zuzana ; Kalánek, Jiří (referee) ; Brzoň, Roman (advisor)
The aim of the master’s thesis is to design a new kindergarten with nearly zero energy consumption, in the Šumperk. Kindergarten has one above-ground floor, and it is designed with capacity of 48 children split into two departments which contains a playroom, a locker room, sanitary facilities, bed and toy storages and a room for food preparation. In the middle part of the kindergarten there are offices and technical facilities. The thesis consists of three main parts. First part is focused on building design and construction. The building is based on concrete foundation strips. The vertical loadbearing structures are designed from ceramic blocks and horizontal load-bearing structures are designed from the prestressed ceiling panels. The building is insulated by ventilated facade, and it is covered by a warm flat roof with extensive greenery. Second part is focused on HVAC design and renewable energy sources. The building uses mechanical ventilation with heat recovery, heating is provided by two gas boilers and the part of need of electricity is provided by a photovoltaics system. Third part includes multi-criteria analysis of the building using SBToolCZ methodology. The project is designed using ARCHICAD and AutoCAD software.
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