National Repository of Grey Literature 41 records found  previous11 - 20nextend  jump to record: Search took 0.00 seconds. 
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.
Newly built detached house in Hodonín
Bellayová, Natália ; Vlach, František (referee) ; Brzoň, Roman (advisor)
The aim of this bachelor thesis is to design a two-storey house for a family of four. The first part of the thesis is focused on the architectural and structural design, which also includes the design of the layout, fire-safety of the building and a building physics assessment. The building is designed as a detached house with an extensive green roof. The entrance to the building will be from the east side. On the ground floor there will be an open space layout consisting of a kitchen, a dining room and a living room. The master bedroom with a private bathroom will be located in the central part of the ground floor and will be oriented to the west. The ground floor will also include storage and sanitary areas. Furthermore, there will be a utility room with a garage, which will be oriented to the north. On the first floor there will be two children's bedrooms with a separate bathroom. The building will be constructed on plain concrete strip foundation. The vertical structures are designed of ceramic blocks. The floor slabs will consist of ceramic-concrete panels and ceramic blocks. The second part of the thesis focuses on the building services. In the building, an air-to-water heat pump is proposed as a heat source, which will be used for water heating and for the floor heating system. The air exchange will be provided by mechanical ventilation system with heat recovery. The thesis also includes a conceptual design for rainwater management and the Building's Energy Performance Certificate.
Single-family house in Bohumín
Kadlčková, Markéta ; Bantová, Sylva (referee) ; Krupicová, Jana (advisor)
The aim of the bachelor´s is to design a low energy single-family house. Location of my house is in small town Bohumín next to Ostrava. The entrance in to the house is from southeast side. The bulding has two floors without basement and attched garage with utility room. The bulding has a couple roof and above garage is a flat roof. On the ground floor there are garage, utility room, wind lobby, a storage, kitchen with living room, WC and study room. On the first floor there are two bedrooms for kids, bedroom with walk-in-closet, bathroom and WC. The vertical structures are masonry designed from ceramic blocks with isulated the ETICS contact insulation system. Horizontal loud-bearing structure are designed from concrete. The building is based on foundation strips made from reinforced concrete. The building is conceptual design of eletricity, water supply, sewer pipes, air conditioning and photovoltaic panels on the roof of the building. The photovoltaic panel will be placed on the roof of the building. My main concept design is focused on heating. A floor heating system will be done with hot water in pipes with heat pump. Rainwater will be accumulated in a tank and further used for garden irrigation. Excess water will be infiltrated into the ground no the property. The documentation also includes the Building’s Energy Performance Certificate.
Detached house Sadová
Balog, Diana ; Vlach, František (referee) ; Brzoň, Roman (advisor)
The aim of my bachelor thesis is to design a two-story detached house. The project is divided into two parts. The first part contains the architectural and construction solutions for the project documentation required for building permission, while the second part contains building environment engineering. The project also includes a fire safety solution, Building Energy Performance Certificate, daylighting assessment and an assessment of acoustics. The building is located in the cadastral unit Sadová in Brno. It is situated on a flat plot. The building´s architectural appearance blends into the surrounding development. Building is based on reinforced concrete strip foundations. The building is designed in the masonry construction system consisting of ceramic blocks and it has a flat roof. The house is insulated by the ETICS system. The load-bearing walls in the garage are made of ceramic blocks filled with mineral wool insulation. The garage has a flat green roof. The floor slab structure is designed as a prefabricated system with ceramic blocks and reinforced concrete. The main entrance is oriented to the north. On the first floor is situated a social zone that consists of living room with kitchen, office, entrance, walk-in closet, bathroom and WC. On the second floor is located a private zone consisting of master bedroom with two walk-in closets, two children´s bedrooms and a bathroom. The building is connected to the sanitary and stormwater sewer, water supply system and electricity. Rainwater management on the property is designed with stormwater tank. The building is heated by an air-to-water heat pump that distributes heat throughout the house using floor heating. In the bathrooms, there is electrical heating system by ladder radiator. Air exchange in the house is provided by a mechanical ventilation system with heat recovery.
Energy-saving family house in Předměřice
Rybář, Aleš ; Vyhlídalová, Karolína (referee) ; Počinková, Marcela (advisor)
The bachelor´s thesis aims to design a nZEB detached house. It´s located in Předměřice in a relatively quiet area. The building has two floors with an attached garage, workshop, sanitary facilities and storage room. The building has a cold-pitched roof and the attached part has a mono-pitched roof. The ground floor of the house is a social part with a living room connected to the kitchen, study, bathroom, WC, garage, laundry and utility room. The first floor is a private zone with a master bedroom with a walk-in closet, two bedrooms, a bathroom, a WC and a storage room. The building is based on reinforced concrete foundation strips. The vertical structures are masonry made of ceramic blocks. Horizontal load-bearing structures are made of ceramic blocks and reinforced concrete. The house is connected to the freshwater main and sanitary sewer. Domestic hot water is supplied by the 300 l hot water cylinder. Rainwater from the roofs is accumulated for reuse. The excess water is diverted through the overflow into infiltration. Rainwater from built-up areas is infiltrated into the ground. Heating in the house is provided by an air-water heat pump, which is also used for DHW. The heating system of the house is floor heating in combination with electric radiators. On the cold roof there are placed photovoltaic panels for batteries placed in the utility room. The house is partly ventilated by a mechanical system with a heat recovery. The rest of the rooms that are not part of the living area are ventilated by windows.
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.
Single-family house
Ráková, Andrea ; Kolář, Radim (referee) ; Struhala, Karel (advisor)
The aim of this bachelor’s thesis is to design an energy efficient single-family house and develop its project for building permission. First part of the thesis is dedicated to structural and architectural designs. The building is designed as a two-story detached house with gable roof and separate garage with green flat roof. The plot is slightly sloping, and it is located in Syrovice village near Brno. The first floor consists of large space which includes kitchen, dining area and a living room together with library and an access to the terrace. The rest of the first floor consists of multiple smaller spaces like the utility room, storage room and the toilet. It also contains a hall with staircase, which allows access to the second floor of the house. The second floor is designed as a private zone including three bedrooms, shared closet, home office, bathroom and another separate toilet. The building will be based on strip concrete foundations and load-bearing structure of both floors will be masonry from sand-lime blocks insulated with polystyrene. Floor slab is designed from pre-stressed concrete hollow core panels and the roof structure consists of timber truss girders. This part of the thesis also focuses on solutions related to fire safety of the building, daylighting, thermal and acoustic properties of proposed structures. Second part of the thesis presents an elaboration of energy certificate and concepts of following building services: water management that includes fresh water supply, wastewater discharge and rainwater usage, electricity supply and its storage, heating system using air to water heat pump as a source for floor heating and cooling. The main focus of this part of the project is developing detailed design of mechanical ventilation with heat recovery.
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.
Energy-saving building of a family house in Havlíčkův Brod
Houlík, Vojtěch ; Uher, Pavel (referee) ; Blasinski, Petr (advisor)
The aim of the bachelor ’s thesis is to design an energy-efficient single-family house with a detached garage in Havlíčkův Brod. It is divided into two parts. The first part includes architectural and structural documentation for building permission, fire safety design and building physics. The second part includes design of a mechanical ventilation with heat recovery for building permission and conception of rainwater management, water installation, wastewater treatment, heating, electric installation, and energy certificate. The house is designed on a mildly sloped plot. It has two stories and a flat roof. The first storey comprises a living room with a kitchen, a study, bathroom, and a utility room. The second floor comprises a private area with a bedroom, two children's rooms, and a sanitary facility. The building is based on a foundation slab insulated with XPS. The vertical structures are designed of ceramic blocks. The external walls are insulated with EPS ETICS. The floor structures and staircase are designed of prefabricated concrete panels. Rainwater management including garden irrigation is designed. An air–water heat pump is designed to warm domestic hot water, water for heating and air conditioning via wall fan coils. The whole building is ventilated by mechanical ventilation with heat recovery, air preheating and humidification. A photovoltaic system with a battery storage is designed to partially cover the electricity demand. The building is classified as class A in the energy certificate.
Single-family house
Bendová, Natálie ; Brzoň, Roman (referee) ; Struhala, Karel (advisor)
The aim of the bachelor´s thesis is to design a single-family house. The thesis is divided into two parts. The first part of the thesis includes architectural and structural designs, assessment of building physics (acoustic, daylighting, thermal parameters) and fire safety designs and the second part focuses on the design of selected building services and energy performance certification. The house is located in Brno. It has two stories, partial basement and a flat green roof. The main entrance is situated to the southwest. On the first floor is situated a living space comprising a living room connected to a kitchen. On the second floor is a private zone with a master bedroom, two children bedrooms and an study. A utility room and food storage are in the basement. The building is based on reinforced concrete slabs. The load-bearing walls in the basement are made of concrete permanent formwork blocks insulated with XPS. The load-bearing walls in above-ground floors are made of sand-lime blocks insulated with EPS. Horizontal load-bearing structures are made of reinforced concrete. Partition walls are plasterboard, double sheathed and filled with acoustic insulation. The suspended ceiling is also made of plasterboard. The house is divided into three zones – residential zone is heated and mechanically ventilated (with heat recovery). Garage and basement zones are not heated, basement is mechanically ventilated. The house is heated by an air-water heat pump, heat distribution is provided by floor heating and electric towel radiator in the bathroom. On the roof are located 13 photovoltaic panels which supply electricity into house. Batteries for electricity storage are located in storage adjacent to the garage. Heat pump and ventilation unit are placed in the basement. Fresh water is supplied by existing public water mains. Waste water is directed into sewer system. Rainwater is collected in the rainwater storage and used for watering.

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