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Veterinary clinic
Mrázková, Eva ; Stránská, Zuzana (referee) ; Struhala, Karel (advisor)
The aim of the master´s project is to provide designs for building permission for a nearly zero-energy veterinary clinic. It is a detached building with two aboveground floors. There are three clinics, one operating rooms, laboratory and staff facilities in the building. First part presents the design of building structure, The superstructure is based on strip foundations made of reinforced concrete in combination with pre-cast permanent formwork made of concrete blocks. The structural system is designed as a masonry system from clay masonry with columns from reinforced concrete. The external walls are load-bearing and covered with thermal insulation and ventilated facade. The floor and roof bearing structure is made of prefabricated concrete slabs. The building is covered with a warm flat green roof. Second part includes the design of building services as lighting, heating, heat recovery ventilation unit. These processes are together shown in a global scheme. Third part is focused on Life cycle assessment of three different flat roof assemblies to compare how they affect the environment. It uses a functional unit 1m2 of a flat roof to define parameters and show how big impact they have on the environment. The project was elaborated using Revit, AutoCad, Deksoft, Building design, GaBi a Lumion software.
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Optimization of recycled concrete materials from precast concrete elements and their characteristics for building information model
Venkrbec, Václav ; Mésároš,, Peter (referee) ; Šuhajda, Karel (referee) ; Henková, Svatava (advisor)
The dissertation thesis deals with the use of recycled concrete aggregates obtained from deconstructed parts of a precast panels’ apartment building. Furthermore, the work presents an optimization supplier-logistics algorithm to achieve a wider application of recycled aggregate concrete (RAC) in structural concrete in a new building. As part of the newly developed optimization algorithm of ready-mixed concrete suppliers, non-graphical data from the building information model (BIM) were intensively used. The work also addresses the transfer of data from and back to the information model and the definition of characteristics needed to optimize the entire process. At the theoretical level, the work deals with a comprehensive literature review of the above-mentioned fields. The experimental part of the work is focused on materials research carried out in order to verify the suitability of a particular type of RAC for structural use. The work introduces the procedures and test results of two types of recycled aggregates and then presents a range of recycled concrete recipes with partial replacement of aggregates for RCAs, obtained from prefabricated panels of high-rise buildings. The gained test results show the technical suitability of the tested RCA sources for producing medium-strength structural RAC. A significant part of the analytically oriented experimental part of the work is the logistic optimization scenario with its own matrix-based discrete algorithm and economic graphical evaluation. The case study examines the relevance of the proposed algorithm on a real scenario, namely the construction of the scientific technology institute CEITEC in Brno. Furthermore, the work summarizes the issue of BIM and presents a methodology for handling non-graphical information of the building model to define the characteristics of recycled concrete in buildings. The conclusions are addressed both for practice and for the development of scientific disciplines. The work provides
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Optimization of recycled concrete materials from precast concrete elements and their characteristics for building information model
Venkrbec, Václav ; Mésároš,, Peter (referee) ; Šuhajda, Karel (referee) ; Henková, Svatava (advisor)
The dissertation thesis deals with the use of recycled concrete aggregates obtained from deconstructed parts of a precast panels’ apartment building. Furthermore, the work presents an optimization supplier-logistics algorithm to achieve a wider application of recycled aggregate concrete (RAC) in structural concrete in a new building. As part of the newly developed optimization algorithm of ready-mixed concrete suppliers, non-graphical data from the building information model (BIM) were intensively used. The work also addresses the transfer of data from and back to the information model and the definition of characteristics needed to optimize the entire process. At the theoretical level, the work deals with a comprehensive literature review of the above-mentioned fields. The experimental part of the work is focused on materials research carried out in order to verify the suitability of a particular type of RAC for structural use. The work introduces the procedures and test results of two types of recycled aggregates and then presents a range of recycled concrete recipes with partial replacement of aggregates for RCAs, obtained from prefabricated panels of high-rise buildings. The gained test results show the technical suitability of the tested RCA sources for producing medium-strength structural RAC. A significant part of the analytically oriented experimental part of the work is the logistic optimization scenario with its own matrix-based discrete algorithm and economic graphical evaluation. The case study examines the relevance of the proposed algorithm on a real scenario, namely the construction of the scientific technology institute CEITEC in Brno. Furthermore, the work summarizes the issue of BIM and presents a methodology for handling non-graphical information of the building model to define the characteristics of recycled concrete in buildings. The conclusions are addressed both for practice and for the development of scientific disciplines. The work provides
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Veterinary clinic
Mrázková, Eva ; Stránská, Zuzana (referee) ; Struhala, Karel (advisor)
The aim of the master´s project is to provide designs for building permission for a nearly zero-energy veterinary clinic. It is a detached building with two aboveground floors. There are three clinics, one operating rooms, laboratory and staff facilities in the building. First part presents the design of building structure, The superstructure is based on strip foundations made of reinforced concrete in combination with pre-cast permanent formwork made of concrete blocks. The structural system is designed as a masonry system from clay masonry with columns from reinforced concrete. The external walls are load-bearing and covered with thermal insulation and ventilated facade. The floor and roof bearing structure is made of prefabricated concrete slabs. The building is covered with a warm flat green roof. Second part includes the design of building services as lighting, heating, heat recovery ventilation unit. These processes are together shown in a global scheme. Third part is focused on Life cycle assessment of three different flat roof assemblies to compare how they affect the environment. It uses a functional unit 1m2 of a flat roof to define parameters and show how big impact they have on the environment. The project was elaborated using Revit, AutoCad, Deksoft, Building design, GaBi a Lumion software.
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