National Repository of Grey Literature 143 records found  1 - 10nextend  jump to record: Search took 0.00 seconds. 
Modern barn house in Silesia
Kostialová, Jana ; Pilinszki, Martin (referee) ; Brzoň, Roman (advisor)
The aim of the bachelor's thesis is to design a passive single-family house for four people. First part of the thesis presents the structural and architectural project documentation including building physics evaluation and the second parts proposes the solution of building services. The house is located on the flat plot by the forest on the suburbs of Havířov. This rectangular shaped house has one floor and an attic with the gable roof. On the ground floor is entrance hall, utility room, hall, toilet, bathroom, pantry, living room with the kitchen with the access onto the west facing deck. Upstairs is a cloakroom, two children's bedrooms, second bathroom, master's bedroom with walk-in-wardrobe and the home office. The glazed facades are oriented to the east and to the west. The total floor area of the house is 264 m2. The covered parking and tool-shed will be located on the northeast side of the house by the access to the property. The load-bearing walls are form sand-lime blocks with mineral insulation and wooden cladding, the partitions are from aerated concrete. Strip foundations, insulated by extruded polystyrene, are from reinforced cast-in-place concrete, floor slab is from prefabricated prestressed concrete panels. The metal roofing is on timber roof truss. Windows and entrance door are wood-aluminium with triple glazing. Floor heating, cooling and warming water in this house is provided by air/water heat pump. Ventilation is provided by ventilation unit with ducts in suspended ceilings and plate valves. On the south side in the metal roofing are integrated very thin photovoltaic panels. Storm water is collected in accumulation tank for later use. Summer overheating is reduced with external blinds. The house is connected to the water service pipe, sanitary sewer, electricity service cable and optical cable. The thesis also solves fire safety and building physics including daylighting, acoustics, and the energy certificate of the house.
Low-energy detached house in Krkonoše
Ambrožyová, Jana ; Pilinszki, Martin (referee) ; Brzoň, Roman (advisor)
The aim of this bachelor thesis is design of low-energy detached house. The project is divided into two parts. The first part is the project documentation for building permission, and the second is focused on building services. Part of building permission is fire safety of building, acoustic and daylight assessment and assessment of constructions from thermal technology. The house located in Eastern Krkonoše mountains in Pec pod Sněžkou, Velká Úpa, Trutnov district. The house is connected to the electrical grid, water supply and sewage system. Part of the electricity is provided by photovoltaic panels on the gable roof. The building is located on a sloping plot and is designed as three-story house with residential attic, gable roof and counter dormer. Roof is insulated with over-rafter insulation. The building is based on foundation strips made from reinforced concrete. External walls of the underground floor are made from permanent formwork concrete blocks with reinforced concrete infill. Above-ground floors are designed from Porfix aerated concrete blocks. External walls of underground floor are insulated with ETICS. External walls of the upper floors are insulated with stone insulation and supplemented with a ventilated facade with wooden cladding. The floor structure above the underground floor is designed from monolithic reinforced concrete and above the first above-ground floor is formed by the Porfix floor system. On the underground floor there is garage, utility room, ski storage room and wellness area with bathroom and small kitchen. Kitchen, bathrooms and habitable rooms are located on the upper floors. Part of the documentation is the conceptual design of air conditioning and rainwater management. Because the building is designed in the mountains, I focused on heating system. I designed the main source of heating – air-water heat pump. I designed a floor heating system and for better thermal comfort is possible to use a wood-burning fireplace. The documentation also includes the Building's Energy Performance Certificate.
New apartment building in Telč
Benešová, Zuzana ; Hobzová, Klára (referee) ; Brzoň, Roman (advisor)
The aim of the bachelor's thesis is to design and develop project documentation for a new apartment building. The apartment house is located in Telč. The building is designed as a free-standing building with three aboveground floors and one basement. There are eleven parking spaces next to the building. The basement of the floor plan extends above the ground floor, there is a common room, cellar and technical facilities. There are nine residential units on the upper floors. The apartment building is based on reinforced concrete foundation strips. Perimeter masonry in the basement is made of concrete blocks and in the upper floors of ceramic blocks. The internal load-bearing masonry is also made of ceramic blocks. The ceiling structure and the staircase are monolithic. An elevator is located between the arms of the staircase. The roof is flat, vegetative. The building envelope is insulated with the ETICS contact thermal insulation system.
Terraced houses Bystřice nad Pernštejnem
Pospíšil, Michal ; Skřek, Daniel (referee) ; Brzoň, Roman (advisor)
The bachelor's thesis deals with project documentation for the construction of seven family terraced houses in the newly developing residential part of the town of Bystřice nad Pernštejnem in the Vysočina region. Terraced houses are two-storey without a basement. The houses are based on concrete wall footings. The vertical structures are made of aerated concrete system blocks, the horizontal structures are made of prestressed SPIROLL ceiling panels. The roof is designed as a flat single skin with a PVC coating. The technical background of the house and common areas are located on the 1st floor. Utility room, garage, living room and dining room with kitchen. In the central part of the house, a staircase with slanting steps rises from the corridor to the 2nd floor. On the 2nd floor there is a master bedroom, two rooms, a study, a storage room and a bathroom. Family terraced houses are designed as buildings with almost zero energy consumption.
Coworking hub Špitálka
Gebauer, Pavel ; Kalánek, Jiří (referee) ; Brzoň, Roman (advisor)
The building is a continuation of the current architectural and urban planning study, which considers the concept of the Špitálka development location as a new area in the sense of a Smart city. Existing archive objektu is composed of a dominant four-store mass with a flat roof and a single-store extension with vaulted roof structure by three barrel vaults. The structural system uses the existing reinforced concrete frame with a 6x6 meter module. The Infill structures are designed in the form of CLT panels. Wood, with its ability to regulate humidity and absorb noise could also reduces risk of the global warming. The idea of a coworking space is based on the disruption of the typical horizontal division of floors. The individual floors are completely independent of each other and do not influence each other in any way. On the contrary, there is maximize openness even in the vertical plane in the form of random views. The project aims to use of energy from renewable sources and thus be as self-sufficient as possible. The overall energy stability is aided by the concept of thermal and electrical grids on site. The main source of energy is transfer station from a hot water which supplemented by a absorbing heat exchanger. The building reuse rainwater for watering green facades and gardens and also use photovoltaic panels to support an aspect of a self-sufficient system of the building. The third part of the thesis is dedicated to th issue of facility managment. The connection of the object with intelligent systems helps to maximize user satisfaction. With a comprehensive solution through CAFM software, the building can respond to the problems and shortcomings of individual services, from technology management and accounting to security management or waste management.
Retirement home
Šindelář, Marek ; Kalánek, Jiří (referee) ; Brzoň, Roman (advisor)
The subject of the master project is the project documentation of a retirement home in Předín. The building is designed as a three-storey. There are 8 single bedrooms and 12 double bedrooms; double bedrooms have an en-suite bathroom and the two single bedrooms have a shared bathroom. The foundations are designed as část-in-place concrete strips. Vertical load-bearing and non-bearing structures are designed of ceramic blocks; only the structure of the elevator shaft is made of reinforced concrete. The horizontal load-bearing structures are made of reinforced concrete floor slabs. The roof of the building is designed as a warm flat roof covered with a layer of aggregate. Heating and water heating is provided by a cascaded pair of ground/water heat pumps and solar thermal collectors. Ventilation in the building is provided by air conditioning with heat recovery. Ventilation is divided into the community area and a living area. There is an accumulation and use of rainwater for irrigation of the green facade and flushing the toilet in the building. The project also deals with comparison of heat pumps for heating, water heating and cooling compared to gas boilers or biomass boilers for heating and water heating and air conditioning units for cooling the building. The diploma thesis contains project documentation for building permits and was designed in ArchiCAD 22, DEKSOFT and Lumion 10.
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.
Hyporehabilitation Havlíčkův Brod
Veselý, Karel ; Kalánek, Jiří (referee) ; Brzoň, Roman (advisor)
The subject of this diploma thesis is to design a NZEB hyporehabilitation building in the hospital campus in Havlíčkův Brod. The building has three above-ground and one underground floors, connected with a staircase and elevator. It contains five therapy rooms with an access to a terrace and stables for up to seven horses. The underground floor includes a corridor, a technical room, an air conditioning unit room and warehouses. On the other floors, there are facilities for hipporehabilitation staff facilities and stables for horses. The building is based on reinforced concrete foundations. The vertical load-bearing structures are designed from ceramic blocks. In the basement, the cast-in-place reinforced concrete cladding is insulated with ETICS. The floor structure consists of prefabricated reinforced concrete panels. The staircase is designed as a reinforced concrete prefabricate. The building is covered with a flat, single-skin roof, partially designed as green roof. The heating and domestic hot water are privided by the connection to the campus central heat supply system using a heat-exchanger. Ventilation in the building is provided by air-conditioning units with heat recovery. Photovoltaic panels are installed on the roof of the building. In the third part, the details in the 2D temperature field of selected parts of the building were assessed, modifications were proposed and an evaluation was carried out. The diploma thesis was processed mainly in ArchiCad and DEKSOFT software.
Pension Přehrada
Svobodová, Monika ; Kalánek, Jiří (referee) ; Brzoň, Roman (advisor)
The topic of master project was the processing the design documentation for a Pension Přehrada. I designed a pension with a restaurant and a small wellness area. It is a detached building in the cadastral territory of Brno Kníničky. The building is L-shaped and consists of two parts. The first part has two above-ground floors and a loft. This part of the building is covered by a gable green roof. The second part of the building has one above-ground floor and warm flat roof. The vertical structures are designed from ceramic blocks. The external masonry is insulated with the ETICS. Some external masonary are designed like exterior ventilated facade with stone cladding and a green facade. Floor structures are designed by SPIROLL panels. The master project includes the concept of heating, ventilation, cooling, domestic hot water heating, lighting, rainwater management and photovoltaic panel design. In the part of my project, I focused on optimizing the design of the gable roof. I changed the composition of the gable roof so that more rainwater would be retained to be used in the facility. I placed additional photovoltaic panels on the gable roof and simulate whether they would cover the electricity consumption in the building. I evaluated the changes in the energy performance certificate, and compared them with the original design.

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