|
|
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.
|
|
|
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.
|
|
|
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.
|
|
|
Single-family house
Kroupová, Julie ; Bantová, Sylva (referee) ; Krupicová, Jana (advisor)
The purpose of the bachelor's thesis is the design of a single-family house for four people. The first part of the project is documentation for construction of the building, the second part is focused on utilities – heating, air conditioning. The building plot is chosen in a small village Radvanice near the town Přerov. The building has two above-ground floors. On the first floor is garage connected to the entrance, which is located to the northwest, utility room, toilet, pantry, and the kitchen open-up to the dining room and living room. On the second floor is private space. There are two children's bedrooms, storage room, study room, bathroom with toilet and master bedroom with private bathroom and walk-in-closet. The building is based on plain concrete foundations. Structural system is masonry. The loadbearing walls are design from Porotherm – ceramics blocks filled with mineral insulation. The house is designed with air to water heat pump, underfloor heating, and mechanical ventilation with heat recovery.
|
|
|
Heating systems of multifunctional houses with renewable sources
Požár, Tomáš ; Počinková, Marcela (referee) ; Formánek, Marian (advisor)
The main of the bacherol´s thesis is the heating solution of the polyfuncional object, with arbitary renewable resource. The thesis is divided into three parts. The first is theoretical part, the second is computational part, the third is project part. The theoretical part deals with renewable resources, their history, species, components, heating elements, underfloor heating. The compuational part involves the design of heating. The object is divided into three parts, commercial, communication and apartment part. The first and second part are heating by raditors, the third part is heating by underfloor heating. The project part contains prepared based on the computational part and technical report.
|
|
|
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 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.
|
|
|
Air conditioning in a family house
Bařinka, Pavel ; Blasinski, Petr (referee) ; Rubina, Aleš (advisor)
The aim of my Bachelor's thesis was to design the nearly zero-energy house for a family of four. The thesis is divided into two parts. The first part is architectural and structure design and it contains also a concept of fire emergency and building's physics. The second part is focused on the building services, especially on the air conditioning. This part includes as well the energy performance certificate and a concept of wastewater and rainwater management, water supply, heating and electric installations. The detached house has two stories and a separated car port. The ground floor is a social space with an open-plan kitchen and a living room, which is open up to deck and garden. Across the corridor is a utility room, a toilet and a workshop. The first floor is a private space with bedrooms and a bathroom. The exterior walls are designed from ceramic blocks and they are insulated with mineral wool. The floor slab is designed from cast-in-place reinforced concrete. The main roof is monopitched with 7° slope, the other roofs are flat. The collected rainwater will be accumulated in a tank and used for watering the garden. The air-water heat pump is a main heat/cool source for a floor heating/cooling, which is designed in the house. As the secondary (bivalent) heat source are used electric heating rods. The domestic hot water will be mainly heated by the heat pump or with the electric spiral. The mechanical ventilation system has total air exchange of 300 m3/h. The MV unit contains an electric safety preheater, an enthalpic exchanger, two EC ventilators, filtres of filtration stages ISO Coarse and ISO ePM 1 and an automatic bypass. In the system was also designed additional water heater and cooler.
|
|
|
Detached house in Opatovice
Řezáčová, Veronika ; Jelínek, Petr (referee) ; Dohnal, Jakub (advisor)
The aim of this bachelor’s thesis is to develop a documentation for building permit of a new-build single-family house. First part of this thesis focuses on architectural and structural design of detached house with separate garage. This part also contains building physics assessment and fire safety assessment. The house has a rectangular shape, two-storeys and it is roofed with a gable roof. On the ground floor, there is a wind lobby, a utility room, a hall with a staircase, a study, a small storage, a living room connected with a kitchen, a bathroom and a toilet. On the first floor, there is one master bedroom with a walk-in wardrobe, a bathroom and three children’s bedrooms. The structural system is designed as masonry composed of sand-lime blocks, external walls are insulated with EPS. Foundations and floor structure are designed as the cast-in-place reinforced concrete slabs and the roof structure is made of prefabricated elements. Second part contains the concepts of building services design and a documentation for building permit for the heating system. The main source of heat is an air-water heat pump. Domestic hot water is also heated by solar panels and the house is heated by floor heating. Ventilation is ensured by a mechanical ventilation unit with heat recovery. Rainwater will be collected in a storage tank and used for watering the garden. An energy performance certificate of the building is also included.
|
|
|
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.
|
guest ::
