|
|
Energy efficient building of a family house in Šumperk
Máchová, Klára ; Počinková, Marcela (referee) ; Blasinski, Petr (advisor)
The aim of this bachelor's thesis is to design a modern two-storey single-family house that minimizes energy consumption. The site is located in a new development area in Šumperk. The focus of the work is on designing an earth-sheltered home for a family of four and maximizing the usage of a steep building site. The first floor, accessible from the northwest, comprises service areas such as a garage, workroom, and utility room. On the east side of this floor, there is a bathroom, guest bedroom, and family room, which also serves as a home wellness area. The primary living area occupies the left part of the second floor and leads directly to the terrace. The right section of this floor is the rest zone, including a master bedroom with an en suite bathroom and a walk-in closet, two children's bedrooms, a bathroom, and a separate toilet. The load-bearing walls consist of aerated concrete blocks and sand lime blocks insulated with EPS. The horizontal structures are designed from in-situ reinforced concrete, ensuring structural integrity. A flat green roof helps the building blend into its surroundings and accumulates a significant part of the rainwater. The remaining water is stored in an underground tank and is used for garden irrigation and watering plants. The main source for heating, cooling, and hot water preparation is an air-to-water heat pump. During the day, it is partly powered by photovoltaic panels on the roof and remains connected to the grid. Building services include underfloor heating, cooling via a fan coil system, and mechanical ventilation with heat recovery (MVHR). The energy performance certificate, categorized as A, is part of the documentation.
|
|
|
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
|
|
|
Heating system for apartment building using BIM process
Jiránková, Tereza ; Blasinski, Petr (referee) ; Maurerová, Lenka (advisor)
The bachelor thesis focuses on the issue of heating and hot water provision for a new residential building using BIM methodology. The theoretical part extensively discusses the basic principles and functioning of building information modeling. Within the computational section, a design and calculation of the thermal losses of the given object are performed, followed by a proposal for heating elements and an assessment of individual fixtures that constitute part of the heating and hot water preparation system. Condensing gas boilers are proposed for heating the residential building. The project section includes graphical representation of the proposed project. In the final part of the thesis, a technical report is provided containing complete project documentation along with appendices.
|
|
|
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.
|
|
|
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.
|
|
|
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.
|
|
|
Ventilation of a multifunctional building
Košťál, Erik ; Blasinski, Petr (referee) ; Uher, Pavel (advisor)
The bachelors thesis addresses the design of an HVAC system for a multifunctional building, aiming to ensure an ideal indoor microclimate. The multi-story building comprises a complex of residential units complemented by commercial spaces, characterized by a green design. The theoretical part covers the topic of building cooling, from its history to ecological considerations. The computational section includes the actual design of the HVAC units. The third part contains project documentation, a technical report and equipment specifications.
|
|
|
Energy-saving building of a family house in Plumlov
Lakomý, Jan ; Vyhlídalová, Karolína (referee) ; Blasinski, Petr (advisor)
This bachelor´s thesis presents project documentation and building services of a passive house. Irregular but rectangular shape of object was slightly inspired by Frank Lloyd Wright´s simple and sharp concept of Usonian house. On first floor are situated mostly day rooms. Lounge, kitchen-dining room in social zone and mechanical room in work zone. Second floor is exclusively private zone with 3 bedrooms and bathroom. From hall is direct access to terrace. Struc-ture is composed by simple elements. Flat and mono-pitched roof are both designed from reinforced-concrete slabs, in ground, there are foundation strips. Whole wall structural system is designed from sand-lime blocks. In second half, the thesis concerns design and performance of build-ing services, employing an air source heat pump. Heat produced will be used for hot and heating water, stored in a cylinder. During summer spells, the reverse mode will produce cool water to provide cooling in thermally acti-vated ceiling slabs. Finally, a mechanical ventilation unit with heat recovery has been designed. Ducts are laid above soffit in both halls leading into eve-ry room. The house lays on a big site with one detention storage and two swales. With a photovoltaic array on the roof, the A-class rating of the house attests to its exceptional energy efficiency.
|
|
|
Air conditioning of the training centre
Lefner, Tomáš ; Blasinski, Petr (referee) ; Uher, Pavel (advisor)
The Bachelor's thesis titled Air conditioning of the training centre focuses on the design of an air conditioning system intended for warm air ventilation, warm air heating, and air conditioning of a multifunctional building. The theoretical part of the thesis addresses humid air, its state variables, the basic processes of air state changes and the microclimate in buildings. The calculation part of the thesis addresses the individual steps of designing the air conditioning system, from the calculation of thermal balances to the design of air handling. The final project part prepares the project documentation for the given building.
|
|
|
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.
|
guest ::
