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Energy efficient family house
Halama, Daniel ; Vajkay, František (referee) ; Vlach, František (advisor)
The aim of the bachelor´s project is to design an energy-efficient family house. The house is located in Frýdlant nad Ostravicí. The building consists of 2 above-ground storeys and a garage. The house has 3 different roof levels. All roofs are flat. The main façade is oriented to the south. The main entrance to the house is situated on the south façade. The ground floor offers spacious living area, that is connected to the rest of the house by open corridor. On the ground floor there are also a study, utility room, bathroom, and garage. On the first floor there are master bedroom, kid’s rooms, bathroom, and the gallery above the staircase area. The building is designed on reinforced concrete foundation strips. The vertical load-bearing walls are designed from sand-lime blocks, insulated with a certified ETICS system. The horizontal load-bearing structures are designed from cast-in-place reinforced concrete. The object is connected to the following utilities – electricity grid, water main and sewage. The house is heated by air/water heat pump. The distribution is mainly provided by underfloor heating. The building is ventilated by the MVHR unit with the efficiency of heat recovery of 91 %. The distribution ducts are installed in the ceiling voids. The rainwater from the roofs is captured and stored in the 8,3 m3 underground water tank. It is used afterwards mainly for the flushing of toilets and irrigation purposes. The photovoltaic power station is installed on the roofs. The expected outcome of energy equals 7,55 MWh.
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Energy-saving detached house in Bučovice
Šilerová, Zuzana ; Blasinski, Petr (referee) ; Počinková, Marcela (advisor)
The aim of the Bachelor’s thesis is to design near-ly zero-energy detached family house for a family of four. The thesis has two parts. The first part presents documentation for building permission. The second part presents the design of selected building services. The house is located on a flat plot in Bučovice. It is a two-storey square shape house with a flat green roof, a wooden terrace and a carport for two cars . On the ground floor, there is a social part, i.e. a living room connected to a kitchen, a study room, a bathroom, a toilet and a utility room. On the second floor, there is a private zone with a master bedroom, two children bedrooms, a bathroom, a toilet and a walk-in closet. The house is based on foam glass and a reinforced concrete foundation slab. The vertical structures are masonry made of aerated concrete blocks. The external walls are insulated with the ETICS.The horizontal load-bearing structures are made of cast in place reinforced concrete. The design building services contains the design of vetilation system, solutions for sewage and rainwater, electrical installation and heating. The work deals with the heating system in more detail. The main source of heat is air-water heat pump. The building will be heated by underfloor heating. The air exchange will be provided by the mechanical ventilation with heat recovery. Sewage will be treated in the domestic waste water treatment, clean water will be infiltrated in to the ground on the premises. Rainwater will be collected in storage tank and used for watering the garden. The thesis also includes assessment of fire safety, thermal, daylighting and acoustics. energy performance certificate. The building aslo has energy performance certificate and falls into the classification class A – extremely efficient
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Flat House Rozdrojovice
Zavřelová, Martina ; Sukop, Lukáš (referee) ; Novotný, Miloslav (advisor)
The subject of the bachelor's thesis is the development of project documentation for the new construction of an apartment building in Rozdrojovice. The apartment building is a detached building with nine residential units, four floors, basement. The main entrance to the building is from the south side of the building. There are nine apartment units on the upper floors, which are connected by a common main corridor with a staircase and an elevator. In the basement there are social rooms, cellar cubicles, a carriage house, a technical room and an air conditioning machine room. Each apartment on the second to fourth floor has a balcony or terrace. The structural system of the building is wall-built, transverse. The building is based on a reinforced concrete base plate. The vertical supporting structures are made of ceramic masonry. The insulation of the perimeter walls forming the envelope of the building is designed by a certified ETICS system. The ceilings are designed as monolithic reinforced concrete slabs woven around the perimeter. The roof is a flat single-layer vegetation. None of the housing units are designed as barrier-free for people with reduced mobility, but access to the building is barrier-free. If necessary, thanks to the spacious rooms and corridors in the ground-floor apartments, it is possible to change the disposition of one of the apartments to a barrier-free apartment. The material and color of the facade takes into account the design of the surrounding buildings. Each block is distinguished by a different facade color. Rainwater will be drained from the roof into the storage tank. Subsequently, it will be used in the internal separate rainwater system for flushing the toilet and watering the garden. Surplus water will be absorbed on the property into a seepage pit. The project also includes an energy label. The designed apartment building belongs to the classification class "A - extremely economical".
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Energy systems of an energy-saving family house
Stanislavová, Sára ; Blasinski, Petr (referee) ; Šikula, Ondřej (advisor)
This bachelor's thesis deals with the design of a forced ventilation system for a family house at the implementation documentation level. Furthermore, it includes the design of underfloor heating/cooling and a multisplit cooling system. The heat source is proposed to be a ground source heat pump, which extracts heat using ground boreholes. As part of the Student Research Activity, a study was conducted during the heating system design to maximize the performance of underfloor heating through numerical simulation. The theoretical part focuses on heat pumps, specifically the ground source type.
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Detached house
Orságová, Veronika ; Bečkovská, Tereza (referee) ; Nespěšný, Ondřej (advisor)
The main topic of this bachelor thesis is the preparation of project documentation for the construction of a family house in accordance with the current legislation. The aim of the thesis is to design and describe the proposed layout of the building, appropriately choose the structural system, materials, solve the ground settlement with respect to the existing condition of the land and respect the surrounding buildings. The basis of the work was the municipality's master plan, the land registry and the geological map. The new building will be located on a flat terrain in a remote and quiet part of Pardubice on an area whose use according to the planning documentation is low-rise suburban housing. The proposed house is a two-storey building with no basement, which is adapted for housing four people. The project focuses on creating a functional home with optimal use of space and separation of zones. The construction system is wall-based. Lime-sand blocks with external contact insulation made of polystyrene facade boards were used for the external masonry. The horizontal structures will be made of monolithic reinforced concrete. The roofing of the main building is provided by a heavy system roof structure. The second part of the building is covered by a flat, vegetated roof with an attic. On the first floor there is a communication and social area, where the spacious living room with dining room and kitchenette is located. On the second floor there is a separate quiet zone, where mainly children's rooms and bedrooms are located. On both floors there is a bathroom and a separate toilet.
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Energy-saving family house in Zborovice
Kovář, Vilém ; Horák, Petr (referee) ; Počinková, Marcela (advisor)
The aim of my bachelor’s thesis is to design a detached energy efficient house for a four member family. The building is located in Zborovice village in a housing area that is yet to be constructed. It is a two-story building with a rectangular shaped floor plan and a flat roof. On the first floor is a living room connected with a kitchen, a bathroom, a toilet and a utility room. There is a balcony door in the living room that leads to a terrace on a garden. On the second floor there is a master bedroom with a walk-in closet, two rooms for children, an office, a bathroom and a toilet. Structural system of the building is masonry system designed from sand-lime blocks. Horizontal load-bearing structures and foundations are designed from cast-in-place reinforced concrete. The building is supplied with potable water from a water main and with electricity from an electric distribution system. Some electric energy will be produced by photovoltaic panels. Waste water will be discharged into a sanitary sewer. Rainwater will be collected into a harvesting tank and used for irrigation. Ventilation in the building is provided by a MVHR system. Heating system is designed as an underfloor heating powered by an air to water heat pump. On the Energy performance certificate is the building rated as A.
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Single-family house in Domanín
Raiskubová, Lenka ; Jechová, Marie (referee) ; Ostrý, Milan (advisor)
The aim of the bachelor's thesis is to develop project documentation for a building permit for a new family house. The new building is situated on the edge of the built-up area of the village of Domanín near Uherské Hradiště. It is a two-story house with a gable roof, a cellar and a garage next to the house. The floor plan of the building is rectangular. The house has 142 m2. The vertical load-bearing wall is made of burnt blocks filled with mineral wool. The horizontal construction system is designed from a prefa-monolithic system. The roof structure on the house is a truss. On the first floor in the northern part of the house there is a vestibule, utility room, bathroom and separate toilet. The living room and kitchen are oriented to the southwest. On the second floor there are two rooms and one bedroom, a common dressing room, a bathroom with a shower and a bath and a separate toilet. 10 photovoltaic panels are designed on the house, which will cover the electricity consumption from May to September. The MVHR is located in the utility room. From the utility room, the wiring is located in the ceiling voids. The system is designed to provide a background ventilation rate of 330 m3/h. The house is heated by underfloor heating supplemented by towel radiators in the bathrooms. The hot water cylinder tank accumulates warm water from the air to water heat pump. Domestic hot water is supplied from a 230l hot water tank. Rainwater will be channeled into a accumulates tank and subsequently used to water the garden. The project includes a thermal and technical assessment of the building, an assessment from the point of view of acoustics and daylighting, and an assessment of the fire and safety solution of the building. The project documentation was developed in the Archicad software.
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Energy efficient building of a family house in Moravany
Kacer, Jakub ; Rubinová, Olga (referee) ; Blasinski, Petr (advisor)
The aim of the bachelor´s thesis/project is to design a single-family passive house. In my bachelor´s project I designed a detached two-storey building with flat roof located in Moravany. On the first floor on the south-east side is located kitchen and the living room with view on the terrace, on the other side of the floor is utility room, main entrance, guest bathroom and main hall with staircase. On the second floor is master bedroom with en suite, two kids room and bathroom mainly for the kids. The foundation of the building is made out of reinforced concrete strips. The vertical structures are mansory designed from ceramic blocks and the horizontal structures are designed from reinforced concrete slabs. Main source for heating, cooling and hot water preparation is the air to water heat pump with added photovoltaic panels to additional power suply. The building services are underfloor heating, cooling by fan coil system and heat recovery by MVHR system. Part of documentation is the Energetic performance certificate.
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Detached house in Horní Stakory
Hornychová, Anna ; Melcr, Petr (referee) ; Fišarová, Zuzana (advisor)
The aim of this bachelor thesis is to design a nearly zero-energy detached house. It is located in Horní Stakory near Mladá Boleslav. The project is divided into two parts. The first part is the documentation for the construction of the building. The second part focuses on the internal environment of the house especially the heating system. It is a two-storey L-shaped building with an attached garage with a flat roof. The main part of the building has a gable roof. The first floor of the building is designed as a living area – living room, study or guest room, bathroom, utility room. The second floor is designed as private – bedrooms, bathroom and WC. The building is based on concrete foundation strips. The vertical structures are masonry made of sand-lime bricks. The building is insulated with the ETICS. Horizontal load-bearing structures are made of reinforced concrete. Heat losses through ventilation are eliminated using a mechanical ventilation unit with heat recovery. The heat pump will heat the supplied air and provide water heating for the underfloor heating. The main building will be heated by underfloor heating supplemented by electric towel heaters and occasionally by an electric heater in a non-heated garage. Solar panels will heat the hot domestic water. Electrical energy will be supplied from photovoltaic panels located above the garage and from the grid. Rainwater will be accumulated in a storage tank and used further for watering. The excess rainwater will be soaked up.
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Heating and cooling of the administrative building with hall
Hečko, Jakub ; Horká, Lucie (referee) ; Topič, Jan (advisor)
The bachelor thesis deals with the design of heating and cooling for an administrative building with a storage hall. The theoretical part focuses on large-area radiant heating. The computational part includes a detailed design of heating for the administrative building with a storage hall and a design for cooling the administrative building. The administrative building is heated by underfloor heating, while the storage hall is heated using hot water radiant panels. Cooling for the administrative building is designed using two-pipe cassette fan coil units. The source of heat and cold is an inverter air-to-water heat pump. Ventilation is considered forced, using air handling units. The design of hot water preparation is addressed as a priority. The project part includes drawing documentation and a technical report.
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