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Single-family house in Troubelice
Nevěřilová, Hana ; Sukop, Lukáš (referee) ; Ostrý, Milan (advisor)
The aim of this Bachelor's thesis is to design a nearly zero-energy detachted house in Troubelice. First part is the concept of architectural and structural design. This includes drawings, fire safety design, energy performance certificate and building physics. The second part deals with the design of building services, encompassing the conceptual design of all systems. The plan of house building combines three rectangles shapes – detachted house, terrace and garage. The detachted house contains in the first floor entrance area, living room with dinning space and connected kitchen, master bedroom, toilet and bathroom. In the second floor, there are rooms for children, work room, bathroom and utility room. The unique feature of this house is the gallery, allowing connection people in the living space and the second floor. For contruction material I chose hollow core ceramic blocks for detachted house and gluelam for teracce and garage. Insulation is made from stone wool for its good technical properties. Furthermore I chose a simple plaster and saddle roof for the detached house and mono-pitched roofs for terrace and garage. Second part is the concept design of water supply and sewage system, electrical wiring, rainwater treatment, photovoltaic panels, air conditioning and mechanical ventilation. Furthermore, I explore the heating system more throughly. The house building is heated by under floor heating, which largely derives energy for heating hot water from the heat pump. The heat pump is divided into two parts - the outdoor and indoor units. It is connected with hot water tank and main manifold. It has 3 circuits. Two are for the floor heating and the last one for air heater.
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Family house
Kukulová, Magdalena ; Vaněk, Vojtěch (referee) ; Berková, Petra (advisor)
The aim of the bachelor´s thesis is to design family house, which is located in Červený Kostelec in the quiet area. It is a two-storey building with attached garage, which has one-storey. Both the building and the garage have a flat extensive roof. The main entrances of the house and the garage are situated to south. On the first floor there is a social zone of the house, consisting of living room connected to kitchen, guest room, toilet, storage, garage and utility room. On the second floor is a private area, consisting of master bedroom, two children‘s rooms, walk-in wardrobe, bathroom and toilet. The building is based on reinforced concrete foundation strips. The load-bearing walls are masonry designed from ceramic blocks with insulation inside. Horizontal load-bearing structures are made from ceramics and concrete. The heating and ventilation systems are designed to ensure the proper operation of the building. The house will be heated by underfloor heating, using an air-to-water heat pump. Air exchange in the building will be provided by a forced ventilation, mediating both the supply and exhaust of fresh air into the living spaces. Rainwater will be collected in an accumulation tank and subsequently utilized for garden irrigation. Excess water will be infiltrated into the ground on the property. The project also includes an energy performance certificate developed within the framework of the Energetika program. The building falls into the "A - exceptionally energy-efficient" category.
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Energy efficient family house
Krumpolcová, Lenka ; Brzoň, Roman (referee) ; Vlach, František (advisor)
The aim of this Bachelor´s thesis is to design a nearly zero-energy detached house in Holešov, Zlín region. The house has two floors and a flat roof. The floor structure are designed as reinforced concrete. The foundation strips are designed from plain concrete, the vertical structural system is designed from ceramics blocs. The external walls are insulated with ETICS. On the first floor, there is a wind lobby, a dressing room with a laundry, a utility room, a bathroom, a guest room, a pantry, a living room with kitchen and a dining room. On the second floor, there is a bedroom, two children´s rooms, a bathroom, a separate toilet, a dressing room and a study. Space heating and domestic hot water heating in this house is provided by air-water heat pump. The building is heated by underfloor heating. Ventilation is mediated by a forced unit with heat recovery. Rainwater is collected from the roof and then drained into the storage tank. The water from the storage tank is then used for irrigation of greenery and flushing of toilets. Unused water will be infiltrated into the ground on the property. Photovoltaic panels are placed on the flat roof. On the basis of hourly calculations, the designed single-family house falls into the classification class ,,A - exceptionally energy efficient".
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Single-family house in Hodonín
Zemánek, Jan ; Jechová, Marie (referee) ; Ostrý, Milan (advisor)
The goal of my bachelor’s thesis is to design a nZEB house for family of four. It is located on the edge of town Hodonín. The house has two floors with a one floor garage attached to the side. The first floor contains utility room, some storage area, kitchen to the north that is connected with living room and dining room facing south. The second floor than has two bedrooms facing south-east, study and master bedroom facing north-east and bathroom facing northwest. The roof of the house is flat with surface form waterproof membrane. Roof of garage is extensive green roof. The foundations of the building are reinforced concrete strips. Load bearing walls are masonry designed from sand-lime blocks with external mineral wool insulation. Horizontal load bearing structures will be made from reinforced cast on site concrete. Partition walls are planned to be from plasterboard. The main source of heat for the house will be air to water heat pump with performance of 8,02 kW and inbuilt electric insert to get temperature needed for floor heating. For hot water there will be separate hot water cylinder with volume 208 l and inbuilt electric insert. The ventilation system will be MVHR with air exchange of 310 m3/h and bypass system. The internal sewage system will be connected to the city sewer, while rainwater will be collected, used for watering garden, or infiltrated into the soil. For cooling external shutters will be enough.
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Detached house in a suburban area
Cech, Aleš ; Kolář, Radim (referee) ; Jelínek, Petr (advisor)
This bachelor's thesis focuses on the design of nearly zero-energy house for a minimum of a five-member family. It includes parts A and B. Part A contains structural and architectural design, fire safety and assessment of building physics (acoustics, sunlight, and thermal assessment). Part B contains detailed design of air conditioning system, concept design of selected building services (heating, cooling, electrical installation, rainwater management) and the energy performance certificate. The house is located in the suburb of Znojmo, has two storeys, L-shaped floor plan, with a flat green roof and a car port next to the entrance from the northern side. The load-bearing walls are designed of large format sand-lime blocks with thermal insulation made of expanded polystyrene. The load-bearing floor and roof structures are designed as cast-in-place reinforced concrete slabs. The foundation slab is laying on foam glass granules. The source of space heating and DHW heating is a heat pump with a borehole collector. Space heating and cooling is provided by underfloor heating and fancoil units, simultaneous cooling regenerates the temperature of the soil in the borehole collector. Ventilation is provided by a mechanical, equal pressure system with heat recovery. The supply air is filtered and distributed by disc valves. There is a photovoltaic power plant on the roof with battery storage in the utility room. Rainwater is collected from the roof of the house, paved areas and parking shed roof stored in accumulation tank and used to water the garden. Excess rainwater is infiltrated in underground seepage.
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Detached house, Kreslice
Procházka, Nikola Leilani ; Jelínek, Petr (referee) ; Kolář, Radim (advisor)
The aim of the bachelor’s project is to design a single-family home in nZEB standard. This project has two parts. Part one presents the project documentation. Designed building is located in Křeslice. The building is a two-storey detached house with a rectangular footprint and an extensive green flat roof. The main entrance faces the north while most windows face the south. The ground floor consists of living room, kitchen, storage room, utility room and restroom. In the upper floor there are two kid’s rooms, master bedroom, study, and bathroom. The building is founded on concrete strip foundations. The vertical loadbearing structures are masonry consisting of clay blocks. The internal partition walls are from acoustic masonry. The ground slab as well as the floor slab consists of in-situ concrete. The building is insulated using contact insulation system of grey EPS. Part two proposes the design of building services. The project provides designs of plumbing, heating, and ventilation. Focus is on the ventilation system design. Mechanical ventilation unit with heat recovery is installed. Air is distributed by ducts in suspended ceiling and round diffusers. The building is equipped with air – water heat pump, which provides heat for floor heating and domestic hot water. Rainwater from roof is collected and stored in underground tank and later used to water the garden. Safety overflow brings any excessive rainwater to the infiltration tanks on the plot. The building is connected to water supply, sewage system and electrical grid. Building’s Energy Performance certificate is included.
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Single-family house
Kapounová, Kristýna ; Kolář, Radim (referee) ; Struhala, Karel (advisor)
The aim of the bachelor´s thesis is to design a nearly zero-energy single-family house. It is located in newly developed area in Ústí nad Orlicí. The thesis is divided into two parts. The first is part of the thesis includes architectural and structural designs and assessment of building physics (acoustic, lightning, thermal parameters) and fire safety, the second part focuses on the design of selected building services and energy performance of the building. The building has two stories and attached garage with workroom which has one storey. The building has gable roof and garage has green flat roof. The main entrance is situated to the north. On the first floor is situated living space of the house with living room connected to dining room and kitchen. Other rooms on the first floor are office, bathroom, toilet, utility room. On the second floor is a private zone where is master bedroom, two children bedrooms, wardrobe, bathroom, and toilet. The building is based on foundation strips made from plain concrete and concrete blocks with steel reinforcements. The walls are design from ceramic blocks and floor slabs are design from prefabricated beams and ceramic infills. The building envelope is insulated with mineral wool. Air conditioning in the house is ensured by a mechanical ventilation with recuperation. Waste water is directed into sewer system. Rain water is stored in an accumulation tank and from there into infiltration blocks, then water is also used for garden irrigation. Hot water is supplied by 200l hot water cylinder. Electricity is secured by photovoltaic panels with storage batteries and second source is public network. Heating is serviced by air-to-water heat pump and secondary source is fireplace with exchanger. Heat distribution is provided by floor heating system.
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Detached house Prstne
Voženílková, Veronika ; Jelínek, Petr (referee) ; Kolář, Radim (advisor)
The aim of the bachelor´s thesis is to design a single-family house in a passive standard. The house is located in Zlín in the Prštné district. It is a square-shape two-story building with a porch and parking space for two cars. The object has a flat green roof and the balcony on the southeast is covered with bifacial solar panels. Beneath the balcony lies am unheated area, where the conservatory and two storage rooms are situated. This part of the house is excluded from the thermal envelope and helps the building to become more energy efficient. The service zone was designed to face the north while the private zones faced mainly the south and west. The masonry of the building is limestone blocks insulated by rock wool with a vented facade on the top. The house is powered by air-water heat pump and solar panels. Additionally, the building is connected to the grid to address any potential energy shortfalls. The comfortable climate inside the house is maintained by underfloor heating and mechanical ventilation with MVHR unit. The air in the house is distributed by a flexible duct. The rainwater from the roofs is stored in the water tank under the ground next to the house for garden use. The buildings EPC is class A with thermal loss 3,9 kW.
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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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Single-family house Jedle
Mikuta, Jakub ; Jechová, Marie (referee) ; Ostrý, Milan (advisor)
The aim of the bachelor’s thesis is to design a masonry part of the model nearly zero-energy semi detached house located in Brno. The thesis has two parts. The first part deals with architectural and structural design, building physics assessment and fire safety report. The second part presents the design of building services and energy performance certificate. The building is a rectangular, two-storey structure with a wetland flat roof. On the ground floor, there is an open plan kitchen connected with a living room, a separate toilet, a utility room, and a storage space. On the first floor, there are two bedrooms and a bathroom. The house stands on a flat plot and it is built on an insulated concrete slab. The vertical structures of the house are masonry and made of hollow ceramic blocks. The external walls are designed with a ventilated facade insulated with mineral wool. The horizontal structures are made from precast concrete beams combined with hollow ceramic blocks and concrete screed. The building is heated with air-water heat pump, which is used for heating up domestic hot water and water for a floor heating system. A ventilation unit with heat recovery is used for mechanical ventilation. Detailed part of the building services design consists of plumbing, rainwater, and greywater management. Greywater is treated in wetland roof, that works as treatment wetland. Cleaned greywater and rainwater are stored in a tank and used for flushing the toilets and irrigation. The house has 2,76 kWp PV system generating electricity. The bachelor’s project is elaborated in ArchiCAD software.
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