Spelling suggestions: "subject:"highrise building"" "subject:"highrisk building""
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Mrakodrap " EVO" (Experimentální výškový objekt) / Skyscraper "EVO"Vlachová, Michaela January 2013 (has links)
Thesis is a study of architectural skyscraper „EVO“ (experimental high-rise building ) in Brno. Building site is on the corner the street Veveří and Šumavská. The objective of the study is to create a high-rise building near the center of Brno. Building contains administrative, gallery and luxury housing. The proposal is based on the tradition of architecture in Brno – clean lines and simple shapes. Another inspiration is green. The green place arises around the skyscraper, but also inside skyscraper. It becomes a natural part of its. In other words : the green grows through the building.
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YTBEHANDLADE TRÄELEMENT : En studie av brandskydd, bärförmåga, pris och miljöpåverkan av ytbehandlade träelement.Issa, Angelo, Machhadi, Maher, Barbu, Mircea January 2021 (has links)
The current Swedish building code (Boverkets Byggregler, BBR) is very strict regarding fire-safety in high-rise timber structures because of the heightened risk of fast flame spread or structural failure in case of fire. Fire safety solutions, that are used in timber structures must therefore be optimal to contain flames from spreading in the event of fire. The current building code requires that load-bearing elements must withhold their load-bearing capacity for 60 minutes under fire. The purpose of this study was to research the effect that different fire-retardant surface treatments, have on fire protection of a load bearing, laminated timber element. Thereafter, a short analysis was made on the environmental impact of the fire-retardant surface-treatments in question and finally, a cost analysis and comparison were conducted with regard to different fire-safety solutions such as fire-resistant gypsum board and a combination of fire-resistant gypsum board and stone-wool. The methods used in this study are a combination of theoretical reviews and theoretical calculations. A theoretical review was conducted in order to collect the information needed to understand the behavior of timber under fire, the impact of fire-resistant surface treatments on fire protection, and the environmental impact of the actual surface treatments. Therefore, a series of theoretical calculations were made in accordance with European standards (Eurocodes) in order to present the impact in numbers. The calculations made were concerning a laminated timber beam with the dimensions of 145 x 450 x 6000 [mm] and took into account the remaining cross-section of the timber element under various timestamps during fire with regard to fire-stage, charring-rate, and fire coating. The results of this study indicate that the moment-capacity and shear-capacity of an untreated beam decrease constantly under fire and does not fulfill the requirements of the Swedish building code. Thereafter, in case that the same timber beam is fire-treated with a fire-retardant surface treatment. The moment-capacity is observed to increase in the first stage of fire, were the fire-protection of the surface-retardant treatment is still in action. Therefore, after fire-protection ceases, the moment-capacity of the timber beam is calculated to decrease in different rates with regard to fire-stage. The shear capacity of the treated beam is calculated to decrease under fire with a time-displacement of 30 & 60 minutes in comparison to the untreated element. The conclusions are that the studied surface treated timber beam and the actual fire treatments fulfill the requirements of the Swedish building code. Have insignificant environmental impact and are in comparison to other solutions cheaper.
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Příprava realizace bytové výškové budovy v Bratislavě / Preparation for the implementation of a high-rise apartment building in BratislavaKrajčovič, Matúš January 2022 (has links)
The subject of this diploma thesis is processing of a construction technological project for the preparation of the realization of a high-rise residential building in Bratislava. The thesis is based on construction technology solution. The content of thesis is a technical report, coordination situation with broader transport relations, time and financial plan, study of realization of technological stages, solution of construction organization including drawing of construction site, design of main construction machines and mechanisms, technological regulation for upsite monolithic construction, control and testing plan, item budget, detail of relief elements of the ceiling structure, drawing of the formwork of the ceiling structural floor, specific research in the field of tower cranes.
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Stavba-Prostor-Město "Dostavba městského bloku" / Structure-Space-City "Urban block completion"Darda, Lukáš January 2019 (has links)
The thesis deals with the examination of the possibility of designing a high-rise building on the corner of Milady Horákové and Černopolní streets, as a reaction to the important composition axis of the city and emphasizing the distinctive compositional element in the urban landscape, its panorama. The object takes into account the importance of the space and the complexity of the cramped parcel in relation to the adjacent building. It functionally combines commercial, residential and administrative functions with respect to the nature of the place.
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Radnice Brno – Sever / New town hall for the district Brno-NorthTrpělková, Lena January 2015 (has links)
The building site is situated on the interesection of Třída Genrála Píky and Provazníkova streets in Brno. In the neighboring building there are commercial and administrative spaces. The main crossroad was redesigned to minimize the residual traffic areas. Based on urbanistic study we designed the corner high-rise dominant. We create a point of view at the skyline of Brno. By pushing back the volume we have a small square. Central comunication core allows transparent facade.
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Application de l’approche de simulation des grandes échelles à l’évaluation des charges de vent sur les structures / Large eddy simulation for the estimation of wind loads on structuresSheng, Risheng 26 October 2017 (has links)
Des bâtiments de grande hauteur sont construits avec un poids et un amortissement structurel de plus en plus faibles en lien avec l'évolution des techniques de construction et des matériaux. La connaissance des charges de vent dynamiques est un enjeu important pour la conception des grands bâtiments afin de garantir leur sécurité structurelle. L'objectif de cette thèse est d’évaluer la capacité de la simulation numérique des grandes échelles (LES) à prédire les charges de vent sur les structures et d’étudier l'influence des conditions d’entrée d’une simulation LES sur ces charges. Des expériences ont été menées à échelle réduite dans la soufflerie atmosphérique NSA du CSTB afin de documenter l’écoulement atmosphérique modélisé, de caractériser son interaction avec un bâtiment et les charges de vent statiques et dynamiques résultantes. Le sillage du bâtiment a été caractérisé grâce à des mesures PIV. Les efforts globaux et les pressions locales ont été mesurés par une balance et des prises de pression à haute fréquence. Ces expériences en soufflerie ont permis de développer un générateur de conditions amont (GCA) pour la simulation LES, visant à reproduire les principales caractéristiques de la turbulence dans la couche limite. La base de données constituée a également permis de qualifier les résultats des simulations LES réalisées avec le code OpenFOAM dans la configuration de l’expérience. L’utilisation du nouveau GCA et d’un générateur dégradé qui ne respecte pas toutes les caractéristiques de l'écoulement a permis de montrer la nécessité de bien reproduire les caractéristiques du vent incident pour accéder aux charges dynamiques sur le bâtiment. / High-rise buildings are built with increasingly low weight and structural damping in relation to the evolution of construction techniques and materials. The understanding of dynamic wind loads is an important issue for the design of high-rise buildings in order to guarantee their structural safety. The objective of the present work is to assess the ability of large eddy simulation (LES) to predict wind loads on structures and to investigate the influence of the inflow boundary conditions of a LES simulation on these loads. Experiments were carried out at a small scale in the NSA atmospheric wind tunnel of CSTB to document the modeled atmospheric boundary layer, to characterize its interaction with a building and the resulting static and dynamic wind loads. The wake flow around the building has been characterized by PIV measurements. Global and local wind loads were measured by a high frequency force balance and high frequency pressure taps. These wind tunnel experiments allowed for the development of an inflow turbulence generator for the LES simulation,which was aimed at reproducing the main characteristics of turbulence in the boundary layer. The database also made it possible to assess the quality of the results of the LES simulations carried out with the OpenFOAM code in the same configuration as the experiment. The use of both the new turbulence generator and a degraded one that does not account for all the characteristics of the flow has made it possible to show the necessity to reproduce the characteristics of the upstream wind flow in order to access the dynamic wind loads on the building.
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Železobetonová konstrukce vysoké administrativní budovy / The concrete structure of a high office buildingSkuhravý, František January 2018 (has links)
Aim of The Diploma Thesis was to design load-bearing structure of a multi-storey reinforced concrete building, to realize structural analysis in Dlubal-RFEM software and dimension its selected parts. Designed structure is based on already erected building in office edifices campus in Brno-Slatina district. Its original number of storeys was increased from ten to nineteen, so the specific problems connected to high-rise building designing could be solved. Time dependent deformations of vertical structures were analysed in detail, so the changes in load of horizontal elements could be described more precisely, because of its direct dependence on compression of the columns. Within the paper, foundation structure dimensions were designed, assessment and design of composite columns assembly were made, as well of floor slab in 2nd floor with column deformations impact check on the 17th floor. Also, the external walls, pillars and shear core walls were designed and assessed. Formwork drawing of designed structure parts and detailed drawing of reinforcement of assessed elements were elaborated. Based on Diploma Thesis results it can be stated, that if influence of nonuniform load of vertical structures within the high-rise building designing is neglected, consequent project would presumably be uneconomic, or dangerous after an optimization attempts.
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Výpočet sedání výškové budovy s využitím metody konečných prvků / Prediction of foundation settlement of high-rise building using the finite element methodČervenka, Jan January 2020 (has links)
The focus of this thesis is to deal with reverse engineering of high-rise building settlements. This is modeled via the finite element method performed in the Plaxis 3D program. In the first part of this thesis, a calibration of input parameters of an appropriate material model – Hardening soil – is conducted. This calibration is a result of oedometric test data which were obtained within a geotechnical survey. An influence of soils over consolidation affecting calibration and the material model choice is described. Final values of reference stiffness parameters are used in a mathematical model of the focused area. This model is created for one half of the high-rise building plan, including vestibule. The high-rise building is founded in a foundation pit. The foundations of this building consist of raft foundation and piles of jet grouting. In the model, there are also changes in pore pressure during an excavation of foundation pit included. The functional model is used for parametric analyses, namely examining cases of object´s foundations and the possible influence of foundation pit´s symmetry on the object´s settlement. All the calculated processes in the object´s settlements are then compared to data obtained from geotechnical monitoring of the structure.
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Centrum chytré čtvrti Špitálka / Smart District ŠpitalkaSergeeva, Anna January 2021 (has links)
The proposed building is part of a complex of three buildings. The task was to create the dominants of the new territory, which would include functions corresponding to the concept of a smart neighborhood. The building has 19 floors above ground and two underground. The simple shape is complemented by the corrugated roof of the congress center and the curved atrium. The main entrance is towards the new city street, the main facade of the congress center faces the square. The dynamics of the shape of the high-rise building is supported by an irregular grid of windows, the combination of full masonry and leaky lighten the facade of the lower part.
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Obchodní dům "Centrum" v Brně / "Centrum" Department Store in BrnoLedvinková, Šárka January 2014 (has links)
The architectural design of the reconstruction of Centrum department store is trying to establish a link to Tomáš Baťa by the phenomenon of high-rise buildings, and architectural design. The renovated part is trying to re-establish the original appearance and dispositions. New high-rise portion of the building are leveraging current architectural trends continue the functionalist Karfíks ideas. The aim was to carefully distinguish between the new and the original part of the building for the present pleasant correspondence with the surrounding historicist facades. This was mostly achieved through inclined and curved shapes with which functionalism rarely worked. Operation in new part is provided by a vertical communication tube, whose facade is composed of a vertical garden, which should contribute to the improvement of living conditions in densely built-up city center. The building is located in the center of city there are high demands for its multipurpose use. Shops, services and catering operations are situated in the lower part of the building. In successive floors is office space, and then on the top floor there are duplex apartments. Automatic stacker parking for residents is placed under the communication tube.
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