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Residential building
Štepanovský, Stanislav ; Kacálek, Petr (referee) ; Mohelníková, Jitka (advisor)
The subject of the bachelor’s thesis is the preparation of project documentation for the new construction of an apartment building in Brno. The proposed apartment building will be three-story, without a basement, and with a floor area of 305 m. Operationally, the building is divided into ten housing units. On the first floor, there are three apartments with layouts of 1+KK, 2+KK, and 3+KK. One of the apartments with a 2+KK layout is designed as barrier-free. The first floor is further equipped with a utility room, cellar cubicles, a room designated for cleaning, and a pram room. The elevator shaft is made of reinforced concrete with a thickness of 200 mm and is separated from the building by basalt wool with a thickness of 25 mm. The shaft is coated with a dust-free paint and is equipped with a hydraulic elevator, which is not intended for fire evacuation. On the second floor, there are a total of four apartments. Two are designed as 2+KK, while the other two apartments have a 3+KK layout. On the third floor, there are three apartments. One of them is designed as above-standard with a usable area of 148 m. The load-bearing structural system will be solved as masonry made of ceramic blocks, which will be placed on foundation strips of plain concrete. The ceiling structures are designed as monolithic reinforced concrete slabs with a thickness of 250 mm. The balcony slabs are designed as an embedded reinforced concrete cantilever with a slope of 3%. The roof is designed as a walkable flat structure, which has an integrated vegetative layer. The building is thermally insulated with contact basalt wool with a thickness of 160 mm.
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Family house
Houček, Jan ; Čech, Miroslav (referee) ; Berková, Petra (advisor)
Abstract: The aim of my bachelor thesis was to design a nearly–zero-energy two-storey detached house. Object will be designed in Horní Cerekev. The ground floor, there is a kitchen which is connected with living room, then a toilet and a utility room. There is also a garage for two car’s. The first floor contains two children’s room, a bedroom, a bathroom and toilet. The house is located on a flat plot of land. Foundations are from the cast-in-place concrete. Walls are designed from the brick of Porotherm. The ceiling structure is designed from the Spiroll panels with suspended ceiling from plasterboard. The roof above the garage will be used as a terrace and second floor roof will be flat green roof. The object meets all requirements for fire safety. The main source of renewable energy is 13 PV installed on the roof. The house is heated by an air-to-water heat pump located next to the utility room. The water is heated by an internal heat pump and stored in an accumulation tank. Floor heating is solved in the house. The Object is carried out forced ventilation and air handling unit with heat recovery designed. The living area will have fan-coils installed for cooling. Rainwater will be accumulated in the storage tank and infiltration blocks, and then it will be used to irrigate the garden. Horní Cerekev has its own wastewater treatment plant where the wastewater from the building will be discharged. From the building physics, The building was classified as A, that meaning that the building is exceptionally economical.
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Energy efficient family house
Netopilová, Denisa ; Brzoň, Roman (referee) ; Vlach, František (advisor)
The aim of this Bachelor’s thesis is to design a nearly-zero-energy building. The level of documentation is for the building permit. First part focuses on architectural and structural design, as well as on Building Physics and Fire Safety, the second part on building service design. The designed detached house stands on a flat site in Lipník nad Bečvou. It is a two-storey house with an attached single storey garage. Both the house and the garage have flat green roofs. The main entrance is oriented to the north. On the first floor, there is a hallway, a utility room, a bathroom, an office, and a living room connected with a kitchen and a pantry. The private part of the house is on the second floor, which consists of a master bedroom with a walk-in closet, two other bedrooms, a bathroom, a toilet and a laundry room. The foundations are made of foam glass. The vertical structures are from sand lime blocks. The horizontal load-bearing structures are made of in-situ reinforced concrete. The heating is provided by a heat pump air-water using an underfloor heating system. The heat pump in combination with two solar thermal panels supply heating of the domestic water. Mechanical ventilation with heat recovery is installed and used in the house. The documentation for MVHR is on the level of detailed design. Wastewater treatment, electric installations and rainwater system are also designed. The rainwater is collected mainly from the roofs and stored in an underground water tank. This water is then used for flushing the toilet and in summer months for watering the garden. This part about building service design also includes the Building’s Energy Performance Certificate.
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Apartment building
Kužmová, Alica Viktória ; Harčáková, Klára (referee) ; Brukner, Bohuslav (advisor)
The subject of the bachelor's thesis is the new work of an apartment building in the center of Košice on Hutnícka street. The terrain of the parcel is mostly flat. The building has four aboveground floors and one underground. The project includes 19 apartment units ranging in size from 1+kk to 3+kk, each with a terrace, balcony or loggia. In the underground floor there is a complete infrastructure of the apartment building and a collective garage with 19 parking spaces. The construction system is a board frame with hidden bridgings. The perimeter structures in the basement are made of reinforced concrete, the upper floors have vertical infill structures made of ceramic blocks. The load-bearing capacity is ensured by columns and a stiffening core. Horizontal structures are made of monolithic reinforced concrete slabs. The foundations are formed by a base plate with an extension under the supporting columns. Roofing is provided by two flat vegetation roofs with extensive greenery at different height levels. The building is insulated using the ETICS system.
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Detached house in Boleradicích
Pospíšilová, Kateřina ; Jelínek, Petr (referee) ; Dohnal, Jakub (advisor)
The aim of this bachelor’s thesis is to design a nearly zero energy detached house for a family of four. The first part of the thesis is architectural and structural design, including fire safety solution and building physics, which is focusing on acoustic assessment, thermal assessment, and assessment of daylight. The second part is design of building services and design of heating system for a documentation for building permit. The building is located on gently sloping plot in a Boleradice in South Moravia. It has two storeys and gable roof. There is a separate one-storey garage with flat green roof on the plot. The building is based on a reinforced cocreate foundation slab on gravel of foam glass. The external walls are made from sand-lime blocks with ETICS of expanded polystyrene with graphite. The floor structure is a cast-in-place reinforced concrete slab. Gable roof is design like a warm roof, with load bearing structure from timber. The ground floor includes a walk-in wardrobe, a study, a utility room, a bathroom, a pantry, a living room open to a kitchen with access to the deck. The private zone, located on the first floor, consists of a master bedroom, children’s bedrooms, a bathroom, a separate toilet, and walk-in wardrobes. In the project, the design includes mechanic ventilation with heat recovery, rainwater management system, sanitary installation, electric installations, and a photovoltaic system as part of design conception of building services. Heating and domestic hot water treatment are provided by an air-water heat pump. Distribution of heat is provided by floor heating. The project also includes the Energy Performance Certificate.
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Energy - saving family house in Hostinné
Laba, Libor ; Vaščáková, Alena (referee) ; Doležalová, Jana (advisor)
The aim of the bachelor’s project is to design a low-energy detached house. First part of project is focused on the structural and architectural design, building physics and fire safety of building. The plot is situated in the west of Hostinné and terrain is almost flat. The building is designed as two-storey detached house with flat green roof above first floor and flat blue roof above second floor and garage with green roof next to the house. The building is designed on concrete strip foundations and the load-bearing walls and ceilings of the building are designed of cross-laminated timber. The entrance to the plot and also to the house is in the north. On the first floor there is living room, kitchen, bathroom, WC, utility room, home office and pantry. On the second floor there are two bedrooms, master bedroom and bathroom. Second part of project is focused on the energy performance certificate, detailed design of sanitary installations and concepts of building services such as heating and ventilation. The designed house was classified as A in EPC. The rainwater will be partly retained in the green roofs and the rest will be accumulated in stormwater tank and further used for garden irrigation. Excess water will be infiltrated into the ground on the property. The house will be heated by a pellet boiler and heat distribution will be ensured through underfloor heating and radiators. The building is designed with a ventilation unit with heat recovery and photovoltaic panels.
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Detached house Rybníček
Kvasničková, Barbora ; Melcr, Petr (referee) ; Fišarová, Zuzana (advisor)
The aim of the bachelor’s thesis is to design a new detached house at the level of project documentation for the building permit. The first part of the thesis contains the architectural and structural design, fire safety design and building physics. The second part of the thesis contains the design of building services. The house is designed on a flat plot in the small village Újezd–Rybníček. It has rectangular shape, two storeys and a flat green roof with photovoltaic power plant. Detached garage with rectangular shape has a flat roof. On the ground floor, there are a kitchen with living room with the access to the deck, a workroom with suite bathroom, a utility room, a bathroom, and a toilet. On the first floor, there are rooms for children, bedroom with dressing room, workroom, a bathroom, and a toilet. The house is based on a cast-in-place reinforced concrete foundation slab with foam glass. The load–bearing walls is made of sand-lime blocks. The horizontal structures are made of cast-in-place reinforced concrete. I designed ventilated façade with fibre cement cladding and green walls. Heating is provided by a geothermal heat pump with a vertical ground borehole. I designed floor heating. Ventilation is provided by a mechanical ventilation unit with heat recovery. For rainwater management, I designed an accumulation plastic tank for storage and use rainwater for irrigation green façade and watering garden. From the tank is designed to overflow to infiltration tunnels. The thesis also includes an energy performance certificate for the building.
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Residential building in Valašské Meziříčí
Pasztorek, Martin ; Woytela, Jindřich (referee) ; Benešová, Romana (advisor)
This Bachelor thesis deals with a design of new building – apartment house. Designed apartment house is located in Zlin region, in the town Valasske Mezirici. Altogether, the designed bulding contains partial basement, eight dwelling units and four storeys. In the ground floor we can find a storage cellar, utility room and cleaning room. The ground floor is made of 3 single sections – office section, section with access to dwelling units with the pram room and section with driving school. These sections are separated from each other and each section has its own entrance. Dwelling units are located on the second floor, third floor and fourth floor. The second floor is made of small flats – there are 3 studios and 1 one-room flat. Larger flats are located on the third and fourth floor where we can find 2 two-bedroom flats and 2 three-bedroom flats. Every dwelling unit has a disposal of the loggie except the flats on the fourth floor – these have a disposal of the terrace located on a flat green roof. Apartment house is built from clay block and overhang part is made of precast frame elements. Building foundations consist of foundation strips. The columns that are erecting the overhang part are placed on foundation pads. The basement wall is built from concrete blocks. Ceiling construction is made of prestressed ceiling panels Spiroll. Staircase is reinforced concrete precast. Roofing is solved by flat green roof. Thermal insulation of the building is solved by external contact insulation system that is internationally labeled and known as ETICS. As a thermal isolator serves the expanded polystyrene.
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Environmental solution of a house with a café in Zaječí
Medková, Tereza ; Uher, Pavel (referee) ; Rubina, Aleš (advisor)
In my master's project I design a nearly zero energy consumption house with a café in Zaječí. The 1ST part of this project deals with a structural part of the building, which has two above-ground floors and basement. On the basement are storerooms and rooms for technical equipment, on the ground floor is café and living room with kitchen, and on the second floor are bedrooms, bathrooms and cloakrooms. Footings are from cast-in-place concrete, the load bearing walls on basement are from formwork blocks with cast-in-place concrete, on above-ground floors are from ceramic blocks and every non-load bearing walls are also from ceramic blocks. On whole floor are reinforced concrete floor slab and flat green roof. The 2ND part deals with technical equipment of the building. There are gas boiler, floor heating, air conditioning, mechanical ventilation (HVAC), photovoltaics panels with energy storage, retention tank, external blinds and biodynamic lighting. The 3RD part compares several options for using solar energy in combination with different heat sources in terms of energy and economic efficiency of the building.
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Family house with the establishment
Jelínková, Lenka ; Žajdlík, Tomáš (referee) ; Šuhajdová, Eva (advisor)
This bachelor thesis deals with the design and elaboration of project documentation for the construction of a family house with the establishment in Bystřice pod Hostýnem. The building is designed for housing a family of five and the operation of the car repair workshop. The house has a garage. The living area has two floors and with partial basement. The establishment consists of one above-ground floor. The building is designed from Silka limestone blocks. The external wall of the basement consists of concrete blocks. The ceilings are from the Ytong system. The roofing consists of a gabled roof with a dormer, above the establishment is a flat green roof. The building has ventilated facade and hidden downpipe.
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