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FASTAbbreviation: PSTAcad. year: 2019/2020
Programme: Civil Engineering
Length of Study: 4 years
Tuition Fees: 1500 EUR/academic year for EU students, 1500 EUR/academic year for non-EU students
Accredited from: 25.7.2007Accredited until: 31.12.2020
Guarantor
prof. Ing. Miloslav Novotný, CSc.
Issued topics of Doctoral Study Program
Analysis of dynamic boundary conditions of soil in relation to ground heat exchangers of heat pumps and possibilities of operational control and determination of heat exchanger performance. Application of Z-meter for experimental verification of thermal processes in soils.
Tutor: Hirš Jiří, prof. Ing., CSc.
This work focuses on the design and optimization of prefabricated green facades. The work includes a comprehensive verification of the various parts of the green facade of a full-scale experiments.
Tutor: Bečkovský David, doc. Ing., Ph.D.
Nearly zero nergy buildings use mainly renewable energy. The potential of this energy is variable in time as well as the energy demand in buildings. Dynamic analysis of energy sources and consumption in buildings will optimize choice of energy sources and efficient use of energy. The analysis will be used to set up a system for monitoring and controlling and designing appropriate technologies.
Creating a systematic procedure for management strategy municipalities and cities for the performance of the SMART City and Smart Regions in the energy sector. Object modeling of buildings in the region, cooperation with the Centre of Competence Smart Regions on FAST BUT.
Old people housing forms, building typology as a follow-up to provide services. Evolution analysis, present trends, available and dignified housing for future.
Tutor: Košíčková Ivana, Ing. arch., Ph.D.
The topic of the dissertation thesis is a comprehensive analysis of the possibility of increasing the roofs retention capacity and drainage modification factors. The work will authenticate using full-scale experiments.
Cement fiber boards, which are now mainly used for additional structures, can also be used for interior staircases. However, their use must be substantiated by material tests with regard to another way of stressing the boards, which would be loaded in their centreline plane, as the case may be. This comprehensive topic assumes both material testing with possible modification of the manufacturing process and composition, as well as the analysis of stair parts by means of numerical modeling (FEA).
Tutor: Pěnčík Jan, prof. Ing., Ph.D.
Tubular light guides are continuously improved because of the ever-rising requirements put onto thermal comfort in the interiors of buildings. This has some side effects, like the depreciation of their physical properties. Therefore it is required to create a comprehensive overview of building physical aspects of tubular light guides, which can be based on experiments and computer simulations. The conclusions then are bound to be incorporated into the concept of a modified tubular light guide.
Tutor: Vajkay František, Ing., Ph.D.
Definition of optimisation model of a structure for: 1. design of a member, 2. strengthening of existing member, 3. design and strengthening of a structure. Calculation variant: stochastic, deterministic (according to the application class of the tasks), type of the restraining conditions, classes the target functions.
Tutor: Štěpánek Petr, prof. RNDr. Ing., CSc., dr. h. c.
Assessment of school buildings renovation on indoor climate in classrooms.
Tutor: Mohelníková Jitka, prof. Ing., Ph.D.
PhD thesis focuses on the research use of land for energy for heating and cooling. The scope of work will be theoretical and experimental investigation of the thermal interaction between an building and ground and an optimal design of ground and foundation exchangers. The aim is to streamline obtaining geothermal energy of the elements of foundation structures and to develop a methodology for their design in the Czech Republic. The simulations can use the softwares CalA, TRNSYS, ANSYS Fluent. Optimization methods will be used.
Tutor: Šikula Ondřej, prof. Ing., Ph.D.
The work deals with the methodology of the pressure loss of air ducts with a view to more instability detection behavior of HVAC systems. This is especially practical usage often unsolvable problem in real traffic pressure difference between inlet and outlet air ducts. Part of the work will be theoretical and experimental methods to solve a clear methodological outputs for use in practice. As theoretical methods will be used mathematical modeling of pressure loss pipelines.
Tutor: Rubina Aleš, doc. Ing., Ph.D.
Economy of traditional industrialized countries is changing. Productions developed from Industrial revolution are moving Eastwards being substituted by intelligent technologies. What impact have such a changes on contemporary industrial architecture and town planning?
Tutor: Nový Alois, prof. Ing. arch., CSc.
Evaluation of tubular light pipes transmittance and efficiency for their application in sustainable buildings.
PhD thesis focuses on the modeling and simulation of intelligent buildings and smart regions. Effective use and placement of elements of ventilation, heating and cooling in buildings and their optimal control system. Systems, equipment and strategies for energy storage. Multicriteria optimization methods will also be used.
The doctoral thesis is focused on modeling and simulation of the effect of shading structures and vegetation on the thermal load of buildings. The use of ANSYS Fluent, OpenFOAM, TRNSYS and DesignBuilder software is expected. Attention will also be paid to optimization of control systems. Multicriteria optimization methods will also be used.
Modelling the energy balance of buildings using modern computational techniques. Analysis of the problem, creating a mathematical model, verification of mathematical models of real objects.
Tutor: Horák Petr, doc. Ing., Ph.D.
The field of Building Services is currently progressively developed thanks to the technological boom. New technologies, such as 3D printing or microfiber, allow the development of new heat exchangers. The topic of doctoral study will deal with the development of new types of heat exchangers from non-traditional materials.
The thesis is focused on modeling and simulation of buildings storing heat and cold in heat accumulators using phase change melting and solidification substances - PCM. The aim is to bridge the mismatch between conventional and alternative energy supply with the building's energy consumption curve. Attention will also be paid to systems and methods for optimum energy storage accumulation in the building. Multicriteria optimization methods will also be used.
PhD thesis is focused on the optimization of Thermo Active Building Structures (TABS) used for heating and cooling buildings. Assumes the use of simulation methods, laboratory experiment and measurement INSITU. The aim is to provide recommendations for optimal design and control of TABS. The simulations can use the softwares CalA, TRNSYS, ANSYS Fluent. Multicriteria optimization methods will also be used.
Daylight factor calculations do incorporate the so-called pollution coefficients for the exterior, resp. the interior side of the daylighting system. The values of these coefficients were determined in 1994. Since then these coefficients are unchanged, despite the advances in lifestyle (number of cars on the road, fuel used in heating, etc.). Therefore the aim of the work would be to monitor how the actual lifestyle affects the pollution of surfaces and glazing, and lighting comfort in short and long terms.
With regard to the possible use of masonry blocks in the framework of prefabrication and construction of building structures (eg family and apartment buildings), it is appropriate to consider the question of the analysis of prefabricated masonry panels. The analysis will be primarily based on numerical modeling (FEA) supplemented by experimental testing.
Topic of doctoral thesis focuses on the application and verification of theoretical research methods airflow in buildings and external aerodynamics of buildings with the current transfer of moisture. The simulations can use the software Fluent, CFX, or OpenFOAM. Multicriteria optimization methods will also be used.
modern methods of strengthening, prestressing, additional reinforcement
Since the times of Industrial revolution technology became not only obvious part of architecture but even a significant source of its inspiration. It acted at the birth of Modern movement and its crutial impact has an effect till present. Effort will be focused to metamorphoses of the relations between technology and architecture since the end of 18th century until today.
The theme deals with the development of the possible use of waste containers for construction of civil buildings. As part of the solution, the analysis of the possibility of using containers with regard to users' health is expected. Structures, structural systems and details of joints will be developed. The work will try to use the synergy of methods of numerical modeling as well as experimental testing.