I CYCLE OF STUDIES
FIRST YEAR OF STUDIES
Winter semester
- Mathematics I
- Statics
- Physics
- Materials I
- Constructive geometry
- Basics of system theory (e)
- Fundamentals of mechanical engineering (e)
- Software tools in engineering (e)
Summer semester
- Mathematics II
- Kinematics
- Computers and programming
- Technical documentation
- Materials II
- Technical standards and regulations (e)
- Forming and developing mantles (e)
- Environmental development (e)
SECOND YEAR OF STUDIES
Winter semester
- Mathematics III
- Machine elements I
- Science of solidity I
- Dynamics and oscillations
- Computer design
- Numerical methods in mechanical engineering (e)
- Designing machine structures (e)
- Computer graphics and 3D modeling (e)
Summer semester
- Machine elements II
- Science of strength II
- Fluid mechanics I
- Thermodynamics I
- Electrical engineering and electronics
- Modern materials (e)
- Fundamentals of mechanical power transmissions (e)
- Statistics in mechanical engineering (e)
THIRD YEAR OF STUDIES
Energy and thermo-fluid engineering
Winter semester
- Fluid mechanics II
- Thermodynamics II
- Heat and mass transfer I
- Basics of production technologies
- Oil hydraulics and pneumatics
- Technical English I
- Electric motors drives and control (e)
- Mechanical operations (e)
- CAD systems (e)
Summer semester
- Pumps, compressors and fans
- Internal combustion engines
- Heat and mass transfer II
- Renewable energy sources
- Thermal appliances and devices
- Technical English II
- Means of transport and devices (e)
- Water, fuel and lubricant (e)
- Industrial ecology (e)
Production engineering
Winter semester
- Cutting technology I
- Welding and heat treatment I (Welding 2019_2020)
- Technology of metal powder pressing
- Technology of plasticity I
- Mechanisms and dynamics of machines
- Technical English I
- Laser technologies (e)
- Oil hydraulics and pneumatics (e)
- Technical diagnostics (e)
- Basics of assembly (e) (2019_2020)
- Non-metallic materials processing technologies (e) (2019_2020)
Summer semester
- Cutting technology II
- Welding and heat treatment II (Theory of sintering and heat treatment 2019_2020)
- Technology of plasticity II
- Transport systems I
- Fundamentals of energy
- Technical English II
- Measurement and control (e) (Production measurements and control 2019_2020)
- Reversible engineering (e) (Reversible engineering 2019_2020)
- Fundamentals of mechatronics (e)
- Storage and inventory management (e)
- Clamping and cutting tools (e)
Mechatronics
Winter semester
- Oil hydraulics and pneumatics
- Power electronics
- Production technologies I
- Basics of mechatronics I
- Mechanisms in mechatronics
- Technical English I
- Modeling and simulation I (e)
- Electric motor drives in mechatronics (e)
- Dynamics of mechatronic modules (e)
Summer semester
- Flexible transport
- Intelligent sensors
- Basics of mechatronics II
- Production technologies II
- Mechatronics in energy
- Technical English II
- Modeling and simulation II (e)
- Synthesis of mechanisms (e)
- Virtual design in mechatronics (e)
FOURTH YEAR OF STUDIES
Energy and thermo-fluid engineering
Winter semester
- Thermal turbomachines
- Steam boilers I
- Energy process measurements
- Thermal power plants
- Heating and air conditioning
- Business English I
- Pipelines
- Technical diagnostics (e)
- Basics of thermography (e)
Summer semester
- Steam boilers II
- Hydraulic machines
- Hydropower plants
- Cooling systems
- Business English II
- Dynamics of flow processes (e)
- Planning and development of energy systems (e)
- Automation (e)
Production engineering
Winter semester
- Production systems I
- Casting (Design and analysis of industrial experiments 2019_2020)
- Transport systems II
- Product development
- Tools and devices (Tools in metal processing by deformation 2019_2020)
- Business English I
- CAD/CAM systems (e)
- Computer-controlled machine tools (e) (Fundamentals of mass service theory (e))
- Automation and robotics (e)
- Basics of tribology and service systems (e)
Summer semester
- Production system II
- Theory of experimental research (Casting)
- Terotechnology
- Technological procedures (Designing technological procedures)
- Programming of CNC machines
- Business English II
- Machine vision (e)
- Basics of management (e) (Operational production planning)
- Engines and motor vehicles (e)
- Simulation of the production process (e)
- Unconventional processing procedures (e)
Mechatronics
Winter semester
- Industrial and mobile robots
- Mechatronics of motor vehicles
- Flexible automation I
- Mechatronic modules I
- Automatic management
- Business English I
- Measurement and control (e)
- Neural networks (e)
- Energy process measurements (e)
Summer semester
- Mechatronic modules II
- Biomechatronics
- Machine vision
- Flexible production systems
- Business English II
- Flexible automation II (e)
- Basics of management (e)
- Automated processing centers (e)
II CYCLE OF STUDIES
Energetics and thermo-fluid engineering
Specialization: Sustainable energy and environment
Subjects:
- Energy and the environment
- Energy systems and planning
- Energy efficiency
- Thermoenergetic analysis of the process
- Modeling of the KGH system (e)
- Numerical modeling in energy machines (e)
- Materials in energy (e)
- Numerical methods in continuum mechanics (e)
Mechatronics
Specialization: Mechatronics
Subjects:
- Synthesis of mechatronic modules
- PLC – industrial application
- Hydraulic and pneumatic systems
- Industrial automation and robotization
- Design of mechatronic systems (e)
- Proportional and servo hydraulics (e)
- Intelligent mechatronic systems (e)
- Biomechatronic systems (e)
Production engineering
Specialization: Industrial Engineering
Subjects:
- Industrial logistics
- Modeling of processing processes
- Assembly systems
- Computer integrated production
- Work and time study (e)
- Rapid production of products
- Production management (e)
- Factory design (e)
Specialization: Production technologies
Subjects:
- New production technologies
- Technology of the material
- Modeling and optimization of processing processes
- Project management
- Construction of deformation and processing machines (e)
- Innovative non-ferrous materials and technologies (e)
- Virtual analyzes of processing processes (e)
- Technologies of material surface treatment (e)
III CYCLE – DOCTORAL STUDIES IN THE FIELD OF MECHANICAL ENGINEERING
Specialization: Mechanical construction
Subjects:
- Methodology of scientific research work
- Theory of construction
- Design and optimization of structures
- Technology of machine structures and systems
- Mechanization design (e)
- Structural analysis methods (e)
- Power and motion transmitters (e)
- Fracture and damage mechanics (e)
- Theory of structural stability (e)
- Design of mechatronic systems (e)
Specialization: Thermoenergetics
Subjects:
- Methodology of scientific research work
- Non-stationary operating modes of ES
- Optimization of process plants in energy
- Selected chapters from HVAC
- Selected chapters from Turbomachines (e)
- Selected chapters from Steam boilers (e)
- Selected chapters from Fluid Mechanics (e)
- Special chapters on cooling devices and heat pumps (e)
- Quantitative infrared thermography (e)
- Experimental methods in heat and mass transfer (e)
Specialization: Sustainable energy and environment
Subjects:
- Methodology of scientific research work
- Energy management
- Energy and environmental systems
- Structural analysis and modeling of thermal processes
- Selected chapters from Turbomachines (e)
- Selected chapters from Fluid Mechanics (e)
- Selected chapters from Steam boilers (e)
- Flow similarity theory and modeling (e)
- Quantitative infrared thermography (e)
- Experimental methods in heat and mass transfer (e)
Specialization: Industrial Engineering
Subjects:
- Methodology of scientific research work
- Contemporary concepts of production system organization
- Product life cycle management
- Optimization methods of engineering processes and systems
- Reengineering of production systems (e)
- Management of work processes and production systems (e)
- Mass serving systems (e)
- Optimization of material flows in production systems (e)
- Optimizing the performance of production systems (e)
- Maintenance management (e)
Specialization: Production technologies
Subjects:
- Methodology of scientific research work
- Production technologies, extracts from theory
- Production technologies – selected procedures
- Experiment design and optimization techniques
- Deformability and machinability of materials (e)
- Sintering of metal powders and ceramics (e)
- Injection molding of metal powders and plastics (e)
- Selected procedures of plastic metal forming (e)
- Modern cutting processes (e)
- Selected chapters from cutting theory (e)
Specialization: Mechatronics
Subjects:
- Methodology of scientific research work
- Mechatronics
- Mechanical automation and robotization of production
- Biomechatronic engineering
- Components of mechatronic systems (e)
- Analogy of mechanical and electrical systems (e)
- Robotization of the production process (e)
- Management and regulation of mechatronic workstations (e)
- Application of mechatronic systems on the human locomotor system (e)
- Mechatronic modules based on biomechatronic systems (e)
(e) – elective course