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Energy-saving family house in Šumice
Jurák, Štěpán ; Rubinová, Olga (referee) ; Počinková, Marcela (advisor)
The aim of the bachelor's thesis is to design a energy-saving detached house located on the outskirts in the village of Šumice, located of Uherské Hradiště district. The house consists of two floors, with a second-floor step-in terrace, a flat sedum roof on the top, and a one-car garage. The main entrance is facing the northwest. The social area of the house is on the first floor, including a dressing room, a utility room, a bathroom, a toilet, a study room, and a living room that is connected to the kitchen and dining room. The quiet zone is on the second floor, consisting of two children's rooms, a master bedroom with a walk-in closet, a bathroom, a toilet, and a small storage room. The house is based on concrete foundation strips. The vertical load-bearing structures are designed from ceramic blocks with thermal insulation. Horizontal load-bearing structures are reinforced concrete slabs. The building is heated by the air-water heat pump. The main heating system is a floor heating system combined with radiators and towel radiators. The utility room is designed with mechanical ventilation with a heat recovery unit. Exhaust and intake are located on the north facade. Fresh air is supplied in living rooms and exhaust air suction in the garage, bathrooms, and walk-in closet. The building is connected to the water mains and the combined sewer. In the heat pump is installed a hot water cylinder. Stormwater accumulated in the tank then used for toilet flushing and watering the garden.
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Single-family house in Pustiměř
Cupák, Radek ; Jechová, Marie (referee) ; Ostrý, Milan (advisor)
The aim of the bachelor's thesis is to design a low-energy detached house for four people. The project is divided into two parts. The first part includes the project documentation for building permission. The second part focuses on building services. The documentation includes solutions for the building in terms of fire safety, thermal technology, acoustics and lighting. The family house is located in the village of Pustiměř, Vyškov district. The house is connected to the electrical, water, rainwater and sewage networks. It is a two-story house with a garage built on a gently sloping plot. On the first floor, there is an entrance hall, a walk-in-wardrobe, a living room with a kitchen, a pantry, a bathroom and a utility room. On the second floor, there is a toilet, a bathroom, an office, a study, a bedroom with a walk-in-wardrobe, a children's room, and another children's room with a walk-in-wardrobe. The detached house is built on a reinforced concrete slab, which is insulated by XPS panels insulation. The walls are designed from sand-lime bricks. The insulation is made of a contact insulation system from grey polystyrene combined with basalt wool. The ceiling structure above the first floor is made of a reinforced concrete slab. The roof is a gable roof with nailed trusses. The insulation is made of blown cellulose. Attached to the family house is a garage. It is built on a reinforced concrete slab, insulated with floor polystyrene. The walls are made of aerated concrete blocks. The roof is a flat green roof. Heating is provided by an air-to-water heat pump with an electric backup source. Hot water is stored is a storage tank and disturb through the hydronic underfloor heating system. Air exchange is provided by mechanical ventilation with heat recovery and an electric air heater. Photovoltaic panels with battery storage are located on the roof. Water from paved areas is collected and stored on a storage tank and used for irritation of greenery, excess rainwater is discharged into the rainwater sewer. The project documentation also includes an energy performance certificate classified as A – very efficient.
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Detached house with minimize environmental impact
Picka, Vojtěch ; Struhala, Karel (referee) ; Kolář, Radim (advisor)
The aim of the bachelor´s thesis is to design a net-zero detached house. It is located on a gap site in new development area in Hospříz in Southern Bohemia region. This rectangle shaped house is designed as a twostorey family home with a south-facing sloping roof. The skin of the house is designed as an insulated plastered facade with a metal roofing. The first floor contains wind lobby with west-facing entrance, study room, utility room, separated toilet, bathroom, cupboard under the stairs and living room connected to kitchen with dining area. The second floor contains two children´s rooms, master bedroom, guest room, common walk-in closet and second bathroom. The building is based on reinforced concrete foundation strips, vertical construction is masonry designed of sand-lime blocks and horizontal structure is designed of prefabricated rib-and-filler floor. The heating system of the building is designed with air to water heat pump connected to the hot water cylinder for the hot domestic water with the storage tank for the floor heating. The house is mechanically ventilated by air conditioning unit with heat recovery. Part of the sloping roof are photovoltaic panels connected to the storage batteries and auxiliary heat source which is part of the hot water cylinder. The house reusing rainwater as utility water for flushing toilets, laundry, watering the garden and the rest of the water is accumulated to the underground storage tank. The family house is designed with the aim of creating a comprehensive building concept with zero energy consumption.
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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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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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MODETA JIHLAVA
Antonova, Alina ; Vojtová, Lea (referee) ; Dýr, Petr (advisor)
The topic of the diploma thesis was to develop an architectural-urbanistic study of the revitalization of a textile factory for the needs of Jihlava Zoo. The aim is revitalization of the main building, including the entire area of the former textile factory, which includes the following main requirements - traffic solutions, parking expansion, building supply solutions, adaptation of the existing production building to the needs of the ZOO, namely the creation of a winter exhibition, a night world and educational elements. Within the main building, accommodation, restaurants and congress halls must be created, as well as green space in the area. As part of the design, elements must be created to help manage water and create a quality microclimate. The design includes the economic and energy concept of the building. The campus should function not only as a pleasant environment but also as an economically beneficial object. The proposed solution divides the entire building into several parts - ZOO, accommodation and corresponding equipment, rooms for rent, outdoor attractive elements.
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Energy Efficient Building of a Family House
Palátová, Zuzana ; Wierzbická, Helena (referee) ; Vendlová, Lucie (advisor)
This balechor’s thesis deals with a project of newly designed nearly-zero energy building in Hrachovec. It has two parts – first part presents documentation for building permission which contains drawings, fire safety design, building physics, energy performance certificate and the second part deals with design of building services which contains concept design of all systems. The building has two storeys, rectangular shape, strip foundations, ceramic mansory walls and gabled roof extending over a carport on one side. The ground storey can be entered from carport. There is a kitchen connected with a living room, a bathroom, a toilet, a utility room and a storage room. In the first storey, there are two bedrooms, master bedroom, workroom and a bathroom. Concept design of bulding services contains mechanical ventilation with heat recovery, cooling, water supply, heating, sewage system, rainwater management, electrical installation and design of photovoltaic panels. Mechanical ventilation with heat recovery is located in a utility room. Space heating is provided via air-water heat pump with floor heating. The outdoor heat pump unit is located on southeast side of the building. The indoor heat pump unit is located in a utility room. Space heating in the bathrooms is complemented with towel radiators. In the living room, there is a stove. Electricity is produced by photovoltaic panels and the building is connected to a service line. The building is connected to the sanitary sewer. Stormwater sewer is connected to a stromwater tank and blocks for soaking. The stormater will be used for watering the garden.
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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.
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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.
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PV power plant project - category A1/A2
Pacalaj, Timotej ; Drápela, Jiří (referee) ; Morávek, Jan (advisor)
This thesis deals with the design of a category A1/A2 photovoltaic system for a specific building. The aim was to meet the requirements of the investor and the energy needs of the building. The thesis includes a research of PV connection requirements (PPDS-4, RfG), a review of available technologies and components, and system design using PVSOL software. The work also includes the production of project-level documentation for implementation, including a technical report, a single-pole schematic and a situation drawing. In addition to the technical aspects, an economic evaluation of the project is carried out in the thesis, providing the investor with an overview of the return on investment and financial efficiency of the PV plant. As a result, a comprehensive proposal for the implementation of a category A1/A2 PV plant is presented, taking into account both technical and economic aspects.
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