List of courses by years and departments

I CYCLE OF STUDIES

FIRST YEAR OF STUDIES

Winter semester

  1. Mathematics I
  2. Statics
  3. Physics
  4. Materials I
  5. Constructive geometry
  6. Basics of system theory (e)
  7. Fundamentals of mechanical engineering (e)
  8. Software tools in engineering (e)

Summer semester

  1. Mathematics II
  2. Kinematics
  3. Computers and programming
  4. Technical documentation
  5. Materials II
  6. Technical standards and regulations (e)
  7. Forming and developing mantles (e)
  8. Environmental development (e)

SECOND YEAR OF STUDIES

Winter semester

  1. Mathematics III
  2. Machine elements I
  3. Science of solidity I
  4. Dynamics and oscillations
  5. Computer design
  6. Numerical methods in mechanical engineering (e)
  7. Designing machine structures (e)
  8. Computer graphics and 3D modeling (e)

Summer semester

  1. Machine elements II
  2. Science of strength II
  3. Fluid mechanics I
  4. Thermodynamics I
  5. Electrical engineering and electronics
  6. Modern materials (e)
  7. Fundamentals of mechanical power transmissions (e)
  8. Statistics in mechanical engineering (e)

THIRD YEAR OF STUDIES

Energy and thermo-fluid engineering

Winter semester

  1. Fluid mechanics II
  2. Thermodynamics II
  3. Heat and mass transfer I
  4. Basics of production technologies
  5. Oil hydraulics and pneumatics
  6. Technical English I
  7. Electric motors drives and control (e)
  8. Mechanical operations (e)
  9. CAD systems (e)

Summer semester

  1. Pumps, compressors and fans
  2. Internal combustion engines
  3. Heat and mass transfer II
  4. Renewable energy sources
  5. Thermal appliances and devices
  6. Technical English II
  7. Means of transport and devices (e)
  8. Water, fuel and lubricant (e)
  9. Industrial ecology (e)

Production engineering

Winter semester

  1. Cutting technology I
  2. Welding and heat treatment I (Welding 2019_2020)
  3. Technology of metal powder pressing
  4. Technology of plasticity I
  5. Mechanisms and dynamics of machines
  6. Technical English I
  7. Laser technologies (e)
  8. Oil hydraulics and pneumatics (e)
  9. Technical diagnostics (e)
  10. Basics of assembly (e) (2019_2020)
  11. Non-metallic materials processing technologies (e) (2019_2020)

Summer semester

  1. Cutting technology II
  2. Welding and heat treatment II (Theory of sintering and heat treatment 2019_2020)
  3. Technology of plasticity II
  4. Transport systems I
  5. Fundamentals of energy
  6. Technical English II
  7. Measurement and control (e) (Production measurements and control 2019_2020)
  8. Reversible engineering (e) (Reversible engineering 2019_2020)
  9. Fundamentals of mechatronics (e)
  10. Storage and inventory management (e)
  11. Clamping and cutting tools (e)

Mechatronics

Winter semester

  1. Oil hydraulics and pneumatics
  2. Power electronics
  3. Production technologies I
  4. Basics of mechatronics I
  5. Mechanisms in mechatronics
  6. Technical English I
  7. Modeling and simulation I (e)
  8. Electric motor drives in mechatronics (e)
  9. Dynamics of mechatronic modules (e)

Summer semester

  1. Flexible transport
  2. Intelligent sensors
  3. Basics of mechatronics II
  4. Production technologies II
  5. Mechatronics in energy
  6. Technical English II
  7. Modeling and simulation II (e)
  8. Synthesis of mechanisms (e)
  9. Virtual design in mechatronics (e)

FOURTH YEAR OF STUDIES

Energy and thermo-fluid engineering

Winter semester

  1. Thermal turbomachines
  2. Steam boilers I
  3. Energy process measurements
  4. Thermal power plants
  5. Heating and air conditioning
  6. Business English I
  7. Pipelines
  8. Technical diagnostics (e)
  9. Basics of thermography (e)

Summer semester

  1. Steam boilers II
  2. Hydraulic machines
  3. Hydropower plants
  4. Cooling systems
  5. Business English II
  6. Dynamics of flow processes (e)
  7. Planning and development of energy systems (e)
  8. Automation (e)

Production engineering

Winter semester

  1. Production systems I
  2. Casting (Design and analysis of industrial experiments 2019_2020)
  3. Transport systems II
  4. Product development
  5. Tools and devices (Tools in metal processing by deformation 2019_2020)
  6. Business English I
  7. CAD/CAM systems (e)
  8. Computer-controlled machine tools (e) (Fundamentals of mass service theory (e))
  9. Automation and robotics (e)
  10. Basics of tribology and service systems (e)

Summer semester

  1. Production system II
  2. Theory of experimental research (Casting)
  3. Terotechnology
  4. Technological procedures (Designing technological procedures)
  5. Programming of CNC machines
  6. Business English II
  7. Machine vision (e)
  8. Basics of management (e) (Operational production planning)
  9. Engines and motor vehicles (e)
  10. Simulation of the production process (e)
  11. Unconventional processing procedures (e)

Mechatronics

Winter semester

  1. Industrial and mobile robots
  2. Mechatronics of motor vehicles
  3. Flexible automation I
  4. Mechatronic modules I
  5. Automatic management
  6. Business English I
  7. Measurement and control (e)
  8. Neural networks (e)
  9. Energy process measurements (e)

Summer semester

  1. Mechatronic modules II
  2. Biomechatronics
  3. Machine vision
  4. Flexible production systems
  5. Business English II
  6. Flexible automation II (e)
  7. Basics of management (e)
  8. Automated processing centers (e)

II CYCLE OF STUDIES

Energetics and thermo-fluid engineering

Specialization: Sustainable energy and environment

Subjects:

  1. Energy and the environment
  2. Energy systems and planning
  3. Energy efficiency
  4. Thermoenergetic analysis of the process
  5. Modeling of the KGH system (e)
  6. Numerical modeling in energy machines (e)
  7. Materials in energy (e)
  8. Numerical methods in continuum mechanics (e)

Mechatronics

Specialization: Mechatronics

Subjects:

  1. Synthesis of mechatronic modules
  2. PLC – industrial application
  3. Hydraulic and pneumatic systems
  4. Industrial automation and robotization
  5. Design of mechatronic systems (e)
  6. Proportional and servo hydraulics (e)
  7. Intelligent mechatronic systems (e)
  8. Biomechatronic systems (e)

Production engineering

Specialization: Industrial Engineering

Subjects:

  1. Industrial logistics
  2. Modeling of processing processes
  3. Assembly systems
  4. Computer integrated production
  5. Work and time study (e)
  6. Rapid production of products
  7. Production management (e)
  8. Factory design (e)

Specialization: Production technologies

Subjects:

  1. New production technologies
  2. Technology of the material
  3. Modeling and optimization of processing processes
  4. Project management
  5. Construction of deformation and processing machines (e)
  6. Innovative non-ferrous materials and technologies (e)
  7. Virtual analyzes of processing processes (e)
  8. Technologies of material surface treatment (e)

III CYCLE – DOCTORAL STUDIES IN THE FIELD OF MECHANICAL ENGINEERING

Specialization: Mechanical construction

Subjects:

  1. Methodology of scientific research work
  2. Theory of construction
  3. Design and optimization of structures
  4. Technology of machine structures and systems
  5. Mechanization design (e)
  6. Structural analysis methods (e)
  7. Power and motion transmitters (e)
  8. Fracture and damage mechanics (e)
  9. Theory of structural stability (e)
  10. Design of mechatronic systems (e)

Specialization: Thermoenergetics

Subjects:

  1. Methodology of scientific research work
  2. Non-stationary operating modes of ES
  3. Optimization of process plants in energy
  4. Selected chapters from HVAC
  5. Selected chapters from Turbomachines (e)
  6. Selected chapters from Steam boilers (e)
  7. Selected chapters from Fluid Mechanics (e)
  8. Special chapters on cooling devices and heat pumps (e)
  9. Quantitative infrared thermography (e)
  10. Experimental methods in heat and mass transfer (e)

Specialization: Sustainable energy and environment

Subjects:

  1. Methodology of scientific research work
  2. Energy management
  3. Energy and environmental systems
  4. Structural analysis and modeling of thermal processes
  5. Selected chapters from Turbomachines (e)
  6. Selected chapters from Fluid Mechanics (e)
  7. Selected chapters from Steam boilers (e)
  8. Flow similarity theory and modeling (e)
  9. Quantitative infrared thermography (e)
  10. Experimental methods in heat and mass transfer (e)

Specialization: Industrial Engineering

Subjects:

  1. Methodology of scientific research work
  2. Contemporary concepts of production system organization
  3. Product life cycle management
  4. Optimization methods of engineering processes and systems
  5. Reengineering of production systems (e)
  6. Management of work processes and production systems (e)
  7. Mass serving systems (e)
  8. Optimization of material flows in production systems (e)
  9. Optimizing the performance of production systems (e)
  10. Maintenance management (e)

Specialization: Production technologies

Subjects:

  1. Methodology of scientific research work
  2. Production technologies, extracts from theory
  3. Production technologies – selected procedures
  4. Experiment design and optimization techniques
  5. Deformability and machinability of materials (e)
  6. Sintering of metal powders and ceramics (e)
  7. Injection molding of metal powders and plastics (e)
  8. Selected procedures of plastic metal forming (e)
  9. Modern cutting processes (e)
  10. Selected chapters from cutting theory (e)

Specialization: Mechatronics

Subjects:

  1. Methodology of scientific research work
  2. Mechatronics
  3. Mechanical automation and robotization of production
  4. Biomechatronic engineering
  5. Components of mechatronic systems (e)
  6. Analogy of mechanical and electrical systems (e)
  7. Robotization of the production process (e)
  8. Management and regulation of mechatronic workstations (e)
  9. Application of mechatronic systems on the human locomotor system (e)
  10. Mechatronic modules based on biomechatronic systems (e)

(e) – elective course