| Faculty | Faculty of Mechanical Engineering (FST) | ||||
|---|---|---|---|---|---|
| Study programme | Design of Power Machines and Equipment (N0715A270013) | ||||
| Branch of study / Specialization | Nuclear Power Equipment Design (N0715A270013S02/2 - 2020) | ||||
| Level of acquired qualification | Postgraduate Master | ||||
| Form of study | Full-time | ||||
| Standard length of study | 2 years | ||||
| Number of ECTS credits | 120 | ||||
| Qualification awarded | Engineer (2) | ||||
| Access to further studies | Doctoral study programme | ||||
| Type of completion | State Final Exam | ||||
| Study and Examination Code | URL | ||||
| Faculty coordinator for international students |
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| Key learning outcomes | The graduate from this study programme will have the knowledge and experience necessary for working with the development, design, manufacture, operation and safety of nuclear power equipment and all other technical equipment where radioactive radiation occurs. Study is focused on acquiring the necessary knowledge of mathematics, physics, chemistry, basic engineering and electrical engineering. Basic theory of the following is needed to master the subjects in the study programme: reactor physics, thermodynamics and regulation of nuclear reactors, design and technology solutions for nuclear equipment, etc. Graduates will have knowledge of construction and assembly, start-up, operational safety, the influence of nuclear power on the environment, etc. Graduates will be professionally qualified to share in the realisation of national and international nuclear power projects. | ||||
| Specific admission requirements | Previous completion of technical-oriented Bachelor studies | ||||
| Specific provisions for recognition of prior learning | General Rules for the Recognition of Previous Studies | ||||
| Qualification requirements and regulations | 120 ECTS credits, Diploma Thesis, Final State Examination | ||||
| Profile of the programme | The graduate from this study programme will have the knowledge and experience necessary for working with the development, design, manufacture, operation and safety of nuclear power equipment and all other technical equipment where radioactive radiation occurs. Study is focused on acquiring the necessary knowledge of mathematics, physics, chemistry, basic engineering and electrical engineering. Basic theory of the following is needed to master the subjects in the study programme: reactor physics, thermodynamics and regulation of nuclear reactors, design and technology solutions for nuclear equipment, etc. Graduates will have knowledge of construction and assembly, start-up, operational safety, the influence of nuclear power on the environment, etc. Graduates will be professionally qualified to share in the realisation of national and international nuclear power projects. | ||||
| Persistence requirements | unspecified | ||||
| Occupational profiles of graduates with examples | Graduates will find employment in research institutes, manufacturing and servicing organisations, and with operators of nuclear power equipment where radioactive radiation is used. | ||||
| Branch of study / Specialization guarantor | Jírovec Kapitán, doc. Ing. Ph.D. , Havel Daniel, Ing. CSc. |
| Course code | Course title | credits | Completion | Time requirements | Recommended year of study | Recommended semester | Course availability |
|---|---|---|---|---|---|---|---|
| KKS/ZKMA | System Design Engineering | 5 | Zk+ | 2+2+0 | 1 | Winter | |
| KPV/PISA | Enterprise Information Systems | 7 | Zk+ | 4+2+0 | 1 | Summer | The course is available to visiting students |
| KPV/ŘLZA | Human Resource Management | 6 | Zk+ | 2+2+0 | 1 | Summer | |
| KMM/DPDA | Defectoscopy and Workshop Diagnostics | 4 | Zk+ | 2+2+0 | 2 | Winter | |
| KTO/PNCSA | NC-Machine Tool Programming | 6 | Zk+ | 3+3+0 | 2 | Winter | The course is available to visiting students |
| KKS/MKSA | Mechatronics in Machine Design | 5 | Zk+ | 2+2+0 | 2 | Winter | The course is available to visiting students |
| KKE/PTTA | Gas Turbines and Turbocompressors | 6 | Zk+ | 3+1+0 | 2 | Winter | |
| KMM/TZMNA | Non-Metallic Materials and their Process | 6 | Zk+ | 3+1+0 | 2 | Summer | |
| KPV/SMANA | Smart Manufacturing | 5 | Zp | 1+3+0 | - | Winter | |
| KPV/PIA | Industrial Engineering | 5 | Zp | 1+3+0 | - | Summer |
| Course code | Course title | credits | Completion | Time requirements | Recommended year of study | Recommended semester | Course availability |
|---|---|---|---|---|---|---|---|
| KKE/THR | Thermodynamics of Nuclear Reactor | 5 | Zk+ | 2+2+0 | 1 | Winter | |
| KKE/VSMT | Selected Topics from Fluid Mechanics | 4 | Zk+ | 3+1+0 | 1 | Winter | |
| KMM/MPE | Materials for Energetics | 6 | Zk+ | 3+2+0 | 1 | Winter | |
| KKE/PTC | Power Plant Design | 5 | Zk+ | 4+1+0 | 1 | Winter | |
| KME/VPD | Selected Areas of Dynamics | 5 | Zk+ | 2+2+0 | 1 | Winter | |
| KME/PP2 | Mechanics of Materials 2 | 5 | Zk+ | 3+2+0 | 1 | Summer | |
| KKE/MJE | Measurements in nuclear power engineer. | 5 | Zp | 1+3+0 | 1 | Summer | |
| KKE/JES | Nuclear Power Plant Secondary Circuit | 5 | Zk+ | 3+3+0 | 1 | Summer | |
| KKE/JEP | Nuclear Power Plant Primary Circuit | 6 | Zk+ | 4+2+0 | 1 | Summer |
| Course code | Course title | credits | Completion | Time requirements | Recommended year of study | Recommended semester | Course availability |
|---|---|---|---|---|---|---|---|
| KKE/EXK | Visits | 2 | Zp | 0+1T+0 | 2 | Winter | |
| KKE/PJE | Nuclear power plant operation | 5 | Zk+ | 3+1+0 | 2 | Winter | |
| KKE/ZES | Testing of Power Machines | 4 | Zp | 1+3+0 | 2 | Winter | |
| KKE/PTK | Steam Turbines and Condensers | 6 | Zk+ | 5+2+0 | 2 | Winter | |
| KKE/JST | Special Technologies | 2 | Zp | 2+0+0 | 2 | Winter | |
| KKE/SPM | Semester Project | 4 | Zp | 0+4+0 | 2 | Winter | The course is available to visiting students |
| KKE/JEV | NPP Construction and Operation | 4 | Zk+ | 3+1+0 | 2 | Winter | |
| KKE/RAT | Power Plant Control and Automation | 5 | Zk+ | 3+1+0 | 2 | Summer | |
| KKE/PDJE | Technical Diagnostics on Nuclear Power | 4 | Zk+ | 3+1+0 | 2 | Summer | |
| KKE/PDP | Thesis Related Project | 8 | Zp | 0+8+0 | 2 | Summer | |
| KKE/ZSZ | Final State Exam. (Qualified debate) | 0 | Szv | 0+0+0 | 2 | Summer | |
| KKE/DP | Thesis Tutorial | 6 | Zp | 0+1T+0 | 2 | Summer | |
| KKE/JRE | Nuclear Unit Control | 4 | Zk+ | 3+1+0 | 2 | Summer |
| Course code | Course title | credits | Completion | Time requirements | Recommended year of study | Recommended semester | Course availability |
|---|---|---|---|---|---|---|---|
| UJP/PA | Presentation in English | 2 | Zp | 0+0+2 | - | - | |
| UJP/PN | Presentation in German | 2 | Zp | 0+0+2 | - | - | |
| UJP/AEP5 | English for Academic Purposes 5 | 4 | Zp | 0+4+0 | - | Winter | |
| UJP/NSF1 | German in a Mechanical Company 1 | 4 | Zp | 0+4+0 | - | Winter | |
| UJP/NSF2 | German in a Mechanical Company 2 | 4 | Zp | 0+4+0 | - | Summer | |
| UJP/AEP6 | English for Academic Purposes 6 | 4 | Zp | 0+4+0 | - | Summer |
| Course code | Course title | credits | Completion | Time requirements | Recommended year of study | Recommended semester | Course availability |
|---|---|---|---|---|---|---|---|
| KKE/PVM | Computational modelling tools | 4 | Zk+ | 2+2+0 | 1 | Winter | |
| KKE/ZNTO | Principles of pressure envelopes design | 3 | Zk+ | 2+1+0 | 1 | Summer | |
| KKE/TZP | Environmental Engineering | 5 | Zk+ | 3+1+0 | 1 | Summer |