Kroutící moment deflektoru / Torque momentum of the jet deflector

Kaprinay, Zoltán

January 2018

The aim of this master’s thesis is to determine the torque momentum of the jet deflector of the Pelton turbine using a two-phased CFD simulation. The reason for determining the moments is the inaccurate formula according to a standard, whose results are assumed to be too excessive. The first part is devoted to theory of Pelton turbine and its main components. The second part contains the design of deflector, explanation of the used k- turbulence method and the Volume of Fluid two-phased flow modeling method. The results of the simulation are presented at the end of the thesis.

Návrh scintilačního detektoru s jednou clonkou pro enviromentální elektronový rastrovací mikroskop / Construction scintillation detector with one aperture for environmental scanning electron microscope

Přichystal, Vít

January 2014

The thesis is focused on the design of a scintillation detector with one screen for environmental scanning electron microscope. At the beginning of the work is an introduction to microscopy. Further work is focused on the description of ESEM microscope and a scintillation detector. The following chapter is devoted to the dynamics of flow. They list the types of flow and mathematical description of equations. The next chapter is about using the software and the way of solution of flow. In the following chapter describes a proposal of the diaphragm and extraction method of the detector area. They are described some of type aperture. The last chapter is the conclusion, where the work is summarized.

Možnosti vnějšího dochlazování tlakové nádoby při havárii s roztavením aktivní zóny / Possibilities of the external cooling of a pressure vessel in case of the accident with active zone melting

Hanuš, Jan

January 2014

The accident at the Fukushima Daiichi nuclear power plant has shown us that there may be situations where the applied technology will not be able to successfully cool the reactor core. These situations may occur when more elements such as supply of energy to power the pumps and diesel generators are destroyed for example by tsunami or earthquake, or other not expected natural disasters. The inability of the residual heat removal leads to the melting of core, relocation to the bottom of reactor pressure vessel (RPV) and failure of RPV. Result of this accident may be containment failure and leakage of fission products into the environment. One way to prevent this scenario may be a passive system called IVR (In-Vessel Retention) by using external cooling of RPV that retains melted core in. This system counts with flooding of RPV´s shaft by water. After natural circulation of water provides the heat transfers from the wall of RPV. The applicability of IVR for VVER 1000 reactors is still in the course of research. However it´s already clear that the submersion of RPV shaft by water will not sufficient. Other elements as suitable insulation and RPV coating which provides a more intensive heat transfer from the walls of RPV will be needed.

Optimalizace tvaru čerpání diferenciálně čerpané komory pro novou koncepci elektronového mikroskopu / Optimizing the shape of the pumping chambers differentially pumped chamber for a new concept of the electron microscope.

Polách, Ondřej

January 2015

The present work deals with electron microscopy, electron microscopy primarily environmental. The main task of the work will draft the optimal shape of the differentially pumped chamber, dividing the pressure difference between tube and chamber with sample for a new concept of an electron microscope. By ANSYS Fluent will be analyzed pumping gas. Subsequently, according to the results obtained will be a modified form of the differential Chamber and to achieve the lowest gas pressure on the track of the electron beam.