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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.
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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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Apartment building
Soukalová, Eliška ; Blažková, Vendula (referee) ; Daněk, Lukáš (advisor)
This bachelor thesis deals with the project documentation of a new residential building in Litomyšl. The proposed structure is situated on the outskirts of the city in a newly emerging residential area. The apartment building is designed as a standalone structure with four above-ground floors and one underground floor. The building comprises 12 residential units, each with a cellar compartment in the basement and its own parking space located in the underground garage. Common areas also include a technical room, a stroller and bicycle storage room, and a meeting room. Vertical load-bearing structures are designed using lime-sand bricks (VAPIS). The perimeter wall above ground is insulated with an External Thermal Insulation Composite System (ETICS). The roof structure is designed as a flat green roof. The proposed structure is designed with almost zero energy consumption.
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Hotel "U Prehrady"
Černý, Dávid ; Nováková, Eva (referee) ; Kolář, Radim (advisor)
The subject of this diploma thesis was to process the study and the design documentation for a newly built hotel in Brno, in city district “Kníničky” near the artificial dam “Přehrada” in a rest area. The hotel will serve as temporary accommodation for up to 64 hotel guests in single, double and four bed rooms. The object also contains training rooms, offices, a meeting room, a café, a small grocery store and a restaurant with kitchen. Parking is possible in one of the two mass garages and there is an outdoor parking possibility in front of the hotel too. The building has a cast-in-place concrete frame with longitudinal beams and sway bracings. The external wall consists of aerated concrete bricks with contact thermal insulation system ETICS (insulation material mineral wool), the ceilings will be cast-in-place reinforced concrete ceilings and the roof flat green roof or flat roof with gravel on it above the 5th floor. The foundation construction consists of reinforced concrete foundation strips, which expand to foundation pads under the load-bearing columns and will be supported by piled foundations under the most exposed elements. As long as the hotel is situated into a fairly steep slope, the vertical alignment of some building parts is various so part of the project is the design of landscaping works. Design documentation was processed using the program AutoCAD 2017, the study and the visualization using both SketchUp 2015, LayOut 2015 and Lumion 5.
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Sports and rehabilitation centre Bílovice nad Svitavou
Pavlovský, David ; Kalánek,, Jiří (referee) ; Ostrý, Milan (advisor)
The subject of the diploma thesis is to design and develop project documentation for the new building of the Sports and Rehabilitation Center in Bílovice nad Svitavou with almost zero energy consumption in the scope of the construction. The sports and rehabilitation center is located on the outskirts of the village of Bílovice nad Svitavou. It is a detached, two-story, non-basement building located on sloping terrain. An outdoor sports field will also be built on the property in the form of a multifunctional field, a beach volleyball court and outdoor changing rooms. The building primarily functions as a sports center. On the first above-ground floor, there are mainly changing rooms and sanitary facilities for visitors to the center and trainers, two squash courts, a gym and technical facilities. Part of the second above-ground floor is intended for rehabilitation and massage areas. The rest of the second floor consists of two multifunctional halls. The structural system of the building is longitudinal wall. It is based on plain concrete foundation strips. The roofs of the sports center are designed as flat single skins. The load-bearing and non-load-bearing walls are made of KMB Sendwix sand-lime bricks, and the ceiling structures are made of Spiroll pre-stressed ceiling panels.
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Hotel "U Prehrady"
Černý, Dávid ; Nováková, Eva (referee) ; Kolář, Radim (advisor)
The subject of this diploma thesis was to process the study and the design documentation for a newly built hotel in Brno, in city district “Kníničky” near the artificial dam “Přehrada” in a rest area. The hotel will serve as temporary accommodation for up to 64 hotel guests in single, double and four bed rooms. The object also contains training rooms, offices, a meeting room, a café, a small grocery store and a restaurant with kitchen. Parking is possible in one of the two mass garages and there is an outdoor parking possibility in front of the hotel too. The building has a cast-in-place concrete frame with longitudinal beams and sway bracings. The external wall consists of aerated concrete bricks with contact thermal insulation system ETICS (insulation material mineral wool), the ceilings will be cast-in-place reinforced concrete ceilings and the roof flat green roof or flat roof with gravel on it above the 5th floor. The foundation construction consists of reinforced concrete foundation strips, which expand to foundation pads under the load-bearing columns and will be supported by piled foundations under the most exposed elements. As long as the hotel is situated into a fairly steep slope, the vertical alignment of some building parts is various so part of the project is the design of landscaping works. Design documentation was processed using the program AutoCAD 2017, the study and the visualization using both SketchUp 2015, LayOut 2015 and Lumion 5.
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