Course / Subject	Description
Organic Chemistry 1,2	Provides knowledge about the structure, properties, reactions, and industrial applications of organic compounds. Teaches students the theoretical foundations of organic chemistry, molecular structure and reactivity; explains industrial applications, environmental and safety requirements.
Physical and Colloid Chemistry 1,2	Introduces the physical basis of chemical processes and the properties of colloidal systems. Covers molecular kinetics, thermodynamics, phase transitions and surface phenomena, and their application in industrial technologies.
Materials Science	Provides knowledge about the structure, properties and applications of various materials. Deeply studies the structure–property relationships of metals, polymers, ceramics and composite materials, their selection, processing and control.
Fundamentals of Chemical Technology	Introduces the main stages and principles of chemical production processes. Analyses process design, heat and mass transfer, energy optimization, safety and environmental requirements.
Technology of Inorganic Substances	Familiarizes students with the production, properties and applications of inorganic compounds. Covers production technology of basic inorganic products (acids, alkalis, salts), equipment, waste minimization and safety measures.
Technology of Organic Substances	Provides knowledge on the technology of obtaining products from organic raw materials. Teaches organic synthesis, oil and gas processing, reactor design, environmental and economic efficiency.
Polymer Materials Technology	Introduces methods of polymer synthesis, processing and application. Analyses optimization of polymer properties, creation of new materials, recycling and waste reduction.
Theory of Chemical Reactors	Studies the principles of operation, types and calculation methods of chemical reactors. Covers reactor modeling, heat and mass transfer calculations, safety and efficiency improvement methods.
Automation of Chemical Processes	Teaches the use of automatic control systems in chemical processes. Analyses sensors, control devices, hardware and software for automation, with an introduction to modern SCADA/DCS systems.
Equipment and Apparatus for Oil and Gas Processing 1,2 (KI)	Provides information on the structure and operating principles of equipment used in the oil and gas industry. Studies the main units used in oil and gas processing, their design, maintenance and safety requirements.
Basic Technological Processes and Apparatus 1,2	Introduces the main technological processes in chemical production and the equipment used to carry them out. Covers analysis and design of heat exchange, mass transfer, separation, mixing and reaction process equipment.
Basic Technological Processes and Apparatus 1,2 (KL)	Provides an in-depth study of major processes and apparatus in chemical technology. Analyses industrial equipment performance, safety and energy efficiency using practical examples.
Design of Oil and Gas Industry Enterprises	Introduces the main principles of designing oil and gas industry enterprises. Covers capacity determination, technological layout planning, and compliance with environmental and safety requirements.
Oil Refining Technologies	Provides knowledge about the technology of processing petroleum products. Analyses processes such as fractionation, hydrotreating, cracking and reforming, and their industrial applications.
Gas Processing Technologies	Introduces the technology of processing natural and industrial gases. Covers gas purification, separation, liquefaction and chemical conversion processes, with analysis of safety and environmental aspects.
Catalysis and Catalytic Processes	Introduces the theoretical foundations and practical applications of catalysis and catalytic processes. Analyses types of catalysts, their mechanisms, selectivity and methods to improve efficiency.
Technical Means of Automation	Provides information about technical means used in the automation of chemical processes. Develops skills in sensors, measurement, control and management devices, as well as working with SCADA/DCS systems.
Fundamentals of Mechatronics	Introduces the basic concepts of mechatronics. Deeply analyses the integration of mechanics, electronics and automation, and the mechatronic systems used in modern production.
Hydraulic and Pneumatic Drives	Introduces the structure and operating principles of hydraulic and pneumatic drives. Covers working fluids and gases, drive design, maintenance and safety issues.
Designing in Trace Mode 1	Provides knowledge on designing technological processes in Trace Mode software. Analyses SCADA systems, process visualization, real-time control and management projects.
Fundamentals of Artificial Intelligence	Introduces the theoretical foundations and application areas of artificial intelligence. Analyses machine learning, expert systems, neural networks and their potential in optimizing industrial processes.
Information Technologies in Construction	Teaches the use of modern information technologies in construction. Covers BIM, CAD, GIS and other software, automation of design processes and data analysis skills.
Uzbek (Russian) Language	Develops students’ communication culture in native and Russian languages. Teaches preparation of official documents, reading and writing of scientific and technical texts, and deepens communicative skills.
Chemistry	Teaches the basics of chemistry, properties of elements and reactions. Develops skills in analyzing composition and structure of substances, reaction analysis and laboratory applications.
Foreign Language	Teaches a modern foreign language (English or other). Develops technical and professional terminology, skills in reading, translating and oral communication of specialized texts.
Physics	Explains laws and processes of physics. Analyses mechanics, heat phenomena, electromagnetism and quantum fundamentals adapted to technical fields.
Higher Mathematics	Introduces mathematical analysis and calculation methods. Covers integral and differential calculus, probability, statistical analysis and their applications in engineering.
Engineering and Computer Graphics	Teaches how to produce engineering drawings using computer graphics. Provides in-depth training in CAD systems, 3D modelling, and preparing and analysing technical drawings in digital formats.
Introduction to Manufacturing Processes	Introduces the general fundamentals of manufacturing processes: technological operation sequences, quality control, production culture and safety.
Information Technologies in Technical Systems	Covers application of information technologies in technical systems: integration of hardware and software, data acquisition and processing, and real-time monitoring systems.
Mechanics (NM, MQ, MMN, MD)	Covers the main branches of mechanics — statics, dynamics, strength of materials and theory of mechanisms.
General and Organic Chemistry	Introduces principles of general chemistry and fundamentals of organic compounds, including chemical reactions, stoichiometry, molecular structure and methods of organic synthesis.
Ecology	Teaches ecological concepts and environmental protection issues; focuses on reducing industrial waste, environmental safety and principles of sustainable development.
Introduction to Environmental Engineering	Introduces engineering approaches to environmental protection, environmental monitoring, design of treatment facilities, and technologies for wastewater and exhaust gas treatment.
Physical (Natural) Geography	Provides information on Earth’s natural resources and geographic processes; covers landscape, climate and geological processes with emphasis on sustainable use of resources.
Cartographic Drawing and Computer Graphics	Covers preparation of cartographic materials and GIS usage: map making, digital models, geoinformation analysis and visualization skills.
Geodesy	Studies the shape and measurements of the Earth’s surface; develops skills in geodetic surveying, coordinate determination and analysis for construction and design tasks.
Hydropower Engineering	Covers fundamentals of using water for energy: hydroelectric power plants, turbines, flow regulation and methods to improve energy efficiency.
Construction Chemistry	Introduces chemical properties of construction materials (concrete, gypsum, lime, etc.), their composition, strength, durability and methods for improvement.
ICT in Logistics Systems	Teaches use of information-communication technologies in logistics: managing information flows in transport and supply chains, software tools and real-time monitoring.
Physical Culture and Sports	Promotes student health and physical activity; focuses on healthy lifestyle, exercises, teamwork and psychological resilience.
Transport Infrastructure	Introduces key elements of transport systems and infrastructure: road construction, logistics, system integration and safety issues.
Life Safety	Introduces key principles of life safety, including occupational safety, emergency procedures and measures to enhance safety in industrial environments.
Ecology (advanced / applied)	Consolidates ecological knowledge and skills; analyses modern environmental protection methods, environmental policy, waste reduction and sustainable development principles.
Hot Metalworking: Forging and Volume Stamping	Introduces hot metalworking technologies, covering plastic deformation during hot forging and stamping processes, energy efficiency and safety considerations.
Metal Casting Technologies	Covers metal casting processes, including casting stages, mould preparation, quality control and environmental aspects.
Advanced Metal Processing Technologies	Introduces modern methods for processing metals: machining, laser and plasma technologies, automation and waste-reduction approaches.
Heat Treatment Technologies for Metals	Covers thermal treatment methods for metals: alloy strengthening, modelling heat-treatment processes and quality control.
Metal Cutting Machines	Teaches metal cutting equipment: types of cutting machines, optimisation of technical parameters and analysis of machining quality.
Life and Occupational Safety	Introduces principles of life safety and labour protection: hazard assessment, safety measures and use of personal protective equipment.
Design of Dies and Stamping Equipment	Covers fundamentals of designing dies and stamping equipment: die construction, material selection, load calculations and improving production efficiency.
Electrical Equipment and Electronic Systems of Vehicles	Studies the design, operation and maintenance of electrical and electronic systems in transport vehicles, including power supply, lighting, control units and diagnostic systems.
Fuels and Lubricants	Covers the types, properties, and performance of fuels and lubricants used in vehicles; includes selection criteria, environmental impact, and testing methods.
Engineering Psychology	Introduces psychological principles relevant to engineering practice, focusing on human–machine interaction, driver behavior, ergonomics, and safety.
Electric and Hybrid Vehicles	Examines the design, operation, and maintenance of electric and hybrid propulsion systems, battery technologies, charging systems and energy efficiency.
Environmental Safety of Automobiles	Studies environmental aspects of automobile operation, emissions control, noise reduction, and compliance with ecological standards.
Requirements for Internal Combustion Engines	Explains technical and operational requirements for internal combustion engines, including performance, efficiency, emission standards and durability.
Design of Internal Combustion Engine Systems	Focuses on the principles and methods of designing systems and components of internal combustion engines, considering performance, safety and environmental aspects.
Theory of Automobiles	Provides theoretical foundations of vehicle dynamics, motion, stability, braking, traction, and overall vehicle performance.
Forging and Stamping Equipment	Introduces forging and stamping machinery: design, operating principles, maintenance and safety issues.
Global Manufacturing Technological Processes	Introduces global manufacturing processes: international standards, quality control, energy efficiency and modern production technologies.
Foundry (Moulding & Casting) Technologies	Covers sand mould and other casting methods, mould materials, process optimisation and quality control in foundry practice.
Rolling Production Technologies	Teaches metal rolling technologies: rolling processes, energy efficiency, technological control and safety.
Processing Technologies on RDB Equipment	Covers processing technologies on RDB equipment: operation sequences, quality control, maintenance and efficiency improvement methods.
Machine and Mechanism Safety	Provides knowledge on machine safety: safety principles in machine design, protective devices, standards and environmental requirements.
Fire Safety (KL)	Teaches fundamentals of fire safety: prevention measures, automatic fire detection and alarm systems, evacuation planning and risk analysis.
Fundamentals of Ergonomics (KI)	Covers ergonomic workplace design: human factors, workplace optimisation, productivity improvement and ensuring safety.
Industrial Toxicology	Studies effects of toxic substances in industrial environments, safety standards, occupational health protection, monitoring and risk assessment.
Forecasting Emergencies and Risk Assessment	Covers forecasting of emergencies and risk assessment: risk management, emergency planning, hazard analysis and preventive measures.
Industrial Ventilation	Teaches design of ventilation and filtration systems for industrial enterprises, with emphasis on environmental safety and energy efficiency.
Rescue Fundamentals and Disaster Medicine	Covers rescue operation basics and disaster medicine: evacuation planning, first aid, mitigation of natural disaster consequences and rescue coordination.
Environmental Safety of Enterprises	Focuses on enterprise environmental safety systems: waste reduction, environmental audits and compliance with standards and environmental legislation.
Workplace Certification	Covers workplace certification according to standards and requirements, including occupational safety, hazard assessment and certification procedures.
Sectoral Occupational Safety and Technical Safety	Analyses occupational safety and technical safety across industries: safety rules, standards, personal protective equipment and technical safeguards.
Fire Safety	Teaches the basics of fire safety. Covers fire prevention, alarm systems, evacuation, risk analysis, and firefighting measures.
Safety of Production Equipment	Teaches safety measures in production equipment. Analyzes safety principles in equipment design, accident prevention, and technical maintenance.
Thermal Power Equipment	Teaches devices using thermal energy. Analyzes heat exchange, energy efficiency, technical maintenance, and safety requirements.
Heating, Ventilation and Air Conditioning (HVAC)	Teaches heating, ventilation and air regulation systems in buildings. Covers system design, improving heat efficiency, energy saving, and ecological requirements.
Fundamentals of Scientific Research	Teaches the basics of organizing scientific research work. Develops knowledge in experimental planning, data collection, analysis, reporting and scientific ethics.
Energy Audit and Inspection of Electrical Technological Complexes	Teaches methods of conducting energy audits in electrical technological complexes. Analyzes energy consumption, develops energy-saving measures, and prepares audit reports.
Evaluation of Energy-Saving Measures in Industrial Enterprises	Teaches methods for evaluating energy-saving measures at enterprises. Analyzes energy consumption indicators, economic efficiency and environmental benefits.
Measurement and Control Instruments in Thermal Engineering	Teaches measuring and control instruments in thermal engineering. Analyzes structure, working principles, accuracy and maintenance methods of instruments.
Energy Saving in Power Supply Systems	Teaches energy-saving methods in power supply systems. Analyzes network optimization, loss reduction and modern control systems.
High Temperature Processes and Equipment	Teaches processes and equipment operating at high temperatures. Analyzes refractory materials, heat loss reduction, safety and efficiency improvement.
Thermal Power Plants	Provides an overview of equipment using thermal energy. Analyzes heat exchange, energy efficiency, technical maintenance and safety requirements.
Power Distribution System Analysis	Teaches analysis of electric power distribution systems. Covers load calculations, uninterrupted supply and efficiency improvements.
Industrial Energy Management	Teaches the organization and management of energy management systems in industry. Covers energy consumption monitoring, saving strategies, and management based on ISO 50001 and other standards.
Smart Energy	Explains modern smart energy systems. Analyzes smart grids, automatic control, and energy optimization via IoT devices.
Energy Economics and Policy	Teaches the basics of managing energy resources economically and politically. Covers energy market analysis, pricing mechanisms, state policy and international energy relations.
Energy – Technologies, Business, and Regulations	Teaches technologies, business models and regulations in the energy sector. Analyzes innovations, investments, legal norms and sustainable development directions.
Engineering Geology	Teaches engineering-geological research in construction. Analyzes geological processes, soil properties and ensuring structural stability.
Hydraulics	Teaches fluid mechanics and processes under pressure. Covers hydraulic system design, energy transfer, pump and turbine operation.
Engineering Geodesy	Teaches geodetic work in construction and production. Analyzes coordinate determination, facility placement and the use of modern geodetic instruments.
Construction Materials and Products	Teaches properties and application methods of construction materials. Analyzes quality assessment, selection of modern materials, ecological and economic aspects.
Engineering Dynamics	Teaches the dynamic properties of engineering systems. Covers vibrations, resonance, load analysis and methods to improve structural strength.
Strength of Materials	Teaches the resistance of materials to mechanical stresses. Analyzes deformations, strength theories, safety factors and structural calculations.
Hydrogeology	Teaches the formation and movement of groundwater. Covers water resource management, groundwater modeling and rational use.
Hydrology and Water Resources	Teaches the distribution, flow and resources of surface waters. Analyzes rivers, lakes, reservoirs and water management systems.
Modeling of Groundwater Flow	Teaches mathematical modeling of groundwater flow. Analyzes hydrodynamic equations, simulation software and monitoring results.
Basin Analysis	Teaches the analysis of water basin conditions and resources. Covers water balance, ecological assessment and management measures.
Advanced Use and Management of Land Resources	Teaches effective management of land resources. Analyzes modern monitoring, ecological and economic assessments and sustainable use strategies.
Restoration of Waterways	Teaches reconstruction and modernization of waterways. Covers design, ecological safety, flow management and structural strengthening.
Metrology and Standardization	Teaches the basics of measurement, standardization and quality control. Covers calibration, measurement accuracy, ISO standards and quality management analysis.
Theoretical Mechanics	Teaches the theoretical foundations of mechanics. Analyzes statics, dynamics, kinematics, deformation theories and their engineering applications.
Theoretical Electrical Engineering	Teaches the theory of electrical circuits and electromagnetic processes. Covers conductors, dielectrics, inductance, voltage and current distribution, and in-depth system calculations.
Hydroaeromechanics	Teaches the motion of fluids and gases and their behavior under pressure. Analyzes aerodynamics and hydrodynamics together for transport, hydro-energy and technical equipment applications.
Hydraulic Machines	Introduces the structure and operating principles of hydraulic machines. Covers modelling of pumps, turbines and other hydraulic devices, improving efficiency and safety requirements.
Hydraulic Structures	Teaches hydraulic structures used in water resources management. Covers design, operation and safety of dams, reservoirs, canals and related facilities.
Utilization of Water Energy	Explains methods of converting water energy into electricity. Analyses hydropower plants, turbines, flow regulation, and environmental and economic efficiency.
Pump Stations	Introduces the structure and operating principles of pump stations. Covers pump selection for water supply and hydraulic systems, maintenance and efficiency improvement methods.
Flow Mechanics	Studies fluid (liquid and gas) flow. Analyses mathematical models of flow, pressure and velocity distributions, and applications in hydro-aero processes.
Fundamentals of Electrical Engineering	Introduces theoretical foundations of electrical engineering. Develops skills in circuit analysis, voltage, current and power calculation.
Electromechanical Devices	Covers operating principles of electromechanical equipment. Analyses design, operation and maintenance of electric motors, generators, transformers and related devices.
Fire Safety	Teaches the basics of fire safety. Covers fire prevention, alarm systems, evacuation, risk analysis, and firefighting measures.
Safety of Production Equipment	Teaches safety measures in production equipment. Analyzes safety principles in equipment design, accident prevention, and technical maintenance.
Thermal Power Equipment	Teaches devices using thermal energy. Analyzes heat exchange, energy efficiency, technical maintenance, and safety requirements.
Heating, Ventilation and Air Conditioning (HVAC)	Teaches heating, ventilation and air regulation systems in buildings. Covers system design, improving heat efficiency, energy saving, and ecological requirements.
Fundamentals of Scientific Research	Teaches the basics of organizing scientific research work. Develops knowledge in experimental planning, data collection, analysis, reporting and scientific ethics.
Energy Audit and Inspection of Electrical Technological Complexes	Teaches methods of conducting energy audits in electrical technological complexes. Analyzes energy consumption, develops energy-saving measures, and prepares audit reports.
Evaluation of Energy-Saving Measures in Industrial Enterprises	Teaches methods for evaluating energy-saving measures at enterprises. Analyzes energy consumption indicators, economic efficiency and environmental benefits.
Measurement and Control Instruments in Thermal Engineering	Teaches measuring and control instruments in thermal engineering. Analyzes structure, working principles, accuracy and maintenance methods of instruments.
Energy Saving in Power Supply Systems	Teaches energy-saving methods in power supply systems. Analyzes network optimization, loss reduction and modern control systems.
High Temperature Processes and Equipment	Teaches processes and equipment operating at high temperatures. Analyzes refractory materials, heat loss reduction, safety and efficiency improvement.
Thermal Power Plants	Provides an overview of equipment using thermal energy. Analyzes heat exchange, energy efficiency, technical maintenance and safety requirements.
Power Distribution System Analysis	Teaches analysis of electric power distribution systems. Covers load calculations, uninterrupted supply and efficiency improvements.
Industrial Energy Management	Teaches the organization and management of energy management systems in industry. Covers energy consumption monitoring, saving strategies, and management based on ISO 50001 and other standards.
Smart Energy	Explains modern smart energy systems. Analyzes smart grids, automatic control, and energy optimization via IoT devices.
Energy Economics and Policy	Teaches the basics of managing energy resources economically and politically. Covers energy market analysis, pricing mechanisms, state policy and international energy relations.
Energy – Technologies, Business, and Regulations	Teaches technologies, business models and regulations in the energy sector. Analyzes innovations, investments, legal norms and sustainable development directions.
Engineering Geology	Teaches engineering-geological research in construction. Analyzes geological processes, soil properties and ensuring structural stability.
Hydraulics	Teaches fluid mechanics and processes under pressure. Covers hydraulic system design, energy transfer, pump and turbine operation.
Engineering Geodesy	Teaches geodetic work in construction and production. Analyzes coordinate determination, facility placement and the use of modern geodetic instruments.
Construction Materials and Products	Teaches properties and application methods of construction materials. Analyzes quality assessment, selection of modern materials, ecological and economic aspects.
Engineering Dynamics	Teaches the dynamic properties of engineering systems. Covers vibrations, resonance, load analysis and methods to improve structural strength.
Strength of Materials	Teaches the resistance of materials to mechanical stresses. Analyzes deformations, strength theories, safety factors and structural calculations.
Hydrogeology	Teaches the formation and movement of groundwater. Covers water resource management, groundwater modeling and rational use.
Hydrology and Water Resources	Teaches the distribution, flow and resources of surface waters. Analyzes rivers, lakes, reservoirs and water management systems.
Modeling of Groundwater Flow	Teaches mathematical modeling of groundwater flow. Analyzes hydrodynamic equations, simulation software and monitoring results.
Basin Analysis	Teaches the analysis of water basin conditions and resources. Covers water balance, ecological assessment and management measures.
Advanced Use and Management of Land Resources	Teaches effective management of land resources. Analyzes modern monitoring, ecological and economic assessments and sustainable use strategies.
Restoration of Waterways	Teaches reconstruction and modernization of waterways. Covers design, ecological safety, flow management and structural strengthening.
Metrology and Standardization	Teaches the basics of measurement, standardization and quality control. Covers calibration, measurement accuracy, ISO standards and quality management analysis.
Theoretical Mechanics	Teaches the theoretical foundations of mechanics. Analyzes statics, dynamics, kinematics, deformation theories and their engineering applications.
Theoretical Electrical Engineering	Teaches the theory of electrical circuits and electromagnetic processes. Covers conductors, dielectrics, inductance, voltage and current distribution, and in-depth system calculations.
Hydroaeromechanics	Teaches the motion of fluids and gases and their behavior under pressure. Analyzes aerodynamics and hydrodynamics together for transport, hydro-energy and technical equipment applications.
Hydraulic Machines	Introduces the structure and operating principles of hydraulic machines. Covers modelling of pumps, turbines and other hydraulic devices, improving efficiency and safety requirements.
Hydraulic Structures	Teaches hydraulic structures used in water resources management. Covers design, operation and safety of dams, reservoirs, canals and related facilities.
Utilization of Water Energy	Explains methods of converting water energy into electricity. Analyses hydropower plants, turbines, flow regulation, and environmental and economic efficiency.
Pump Stations	Introduces the structure and operating principles of pump stations. Covers pump selection for water supply and hydraulic systems, maintenance and efficiency improvement methods.
Flow Mechanics	Studies fluid (liquid and gas) flow. Analyses mathematical models of flow, pressure and velocity distributions, and applications in hydro-aero processes.
Fundamentals of Electrical Engineering	Introduces theoretical foundations of electrical engineering. Develops skills in circuit analysis, voltage, current and power calculation.
Electromechanical Devices	Covers operating principles of electromechanical equipment. Analyses design, operation and maintenance of electric motors, generators, transformers and related devices.
Electrical Engineering and Electronics	Introduces fundamentals of electrical engineering and electronics. Covers circuit analysis, electronic device design, control and maintenance.
Industrial Safety	Teaches measures to ensure safety in industrial enterprises. Analyses types of hazards, safety standards, protective equipment and emergency preparedness.
Fire and Explosion Safety	Covers basics of fire and explosion safety. Analyses explosion prevention measures, fire protection systems, risk assessment and preventive actions.
Ergonomics and Biomechanics	Teaches ergonomic workplace design and fundamentals of human biomechanics. Analyses operator posture, movement biomechanics and ways to improve comfort and safety.
Workplace Certification	Teaches certification of workplaces according to standards. Covers occupational safety, hazard assessment and certification procedures.
Rescue Fundamentals and Disaster Medicine	Teaches rescue basics and medical aid during emergencies. Covers evacuation planning, first aid, mitigation of natural disaster consequences and rescue coordination.
Concrete and Reinforced Concrete Technology	Teaches production technologies for concrete and reinforced concrete materials. Analyses mix composition, strength, durability, manufacturing methods and quality control.
Construction Economics	Covers economic fundamentals of construction works. Analyses cost estimation, project efficiency, resource optimization and economic evaluation.
Factory-made Construction Structures	Introduces prefabricated construction elements produced in factories. Covers design, manufacture, quality control and safety requirements.
Finishing and Thermal Insulation Materials	Teaches finishing and thermal insulation materials. Analyses thermal conductivity, ecological properties and ways to improve energy efficiency.
Structure and Structural Analysis of Building Materials	Studies micro- and macro-structure of building materials and their properties. Analyses stress–strain relationships and structural behaviour.
Design of Production Facilities for Construction Materials, Products and Structures	Teaches principles of designing factories that produce construction materials and structural elements. Covers capacity planning, production layout, environmental and safety requirements.
Production Technology of Construction Materials, Products and Structures	Covers production technologies for construction materials and products. Analyses raw material selection, process sequencing, quality control and energy efficiency.
Durability and Repair of Concrete Structures	Teaches durability and repair methods for concrete structures. Analyses aging, corrosion, repair technologies and ways to improve longevity.
Hydraulic Structures (KL)	Advanced course on hydraulic and water-management structures. Deep study of design, operation and safety of dams, canals, reservoirs and other facilities.
Foundation Construction (KL)	Teaches foundation design and construction technologies (advanced). Covers soil property analysis, foundation type selection, construction modelling and safety.
Construction Management	Teaches management methods for construction processes. Covers project planning, cost control, safety and quality assurance.
Hydraulic Machines and Hydropower Plants	Introduces operation principles of hydraulic machines and hydropower plants. Analyzes energy transmission, turbine efficiency, safety and maintenance.
Hydrotechnical Construction Works	Teaches construction technologies for hydraulic structures. Analyses construction methods, safety, environmental requirements and modern technologies.
Reinforced Concrete Structures	Covers design and production technologies for reinforced concrete structures. Analyses reinforcement selection, load capacity, strength and durability.
BIM Technologies in Construction	Teaches application of BIM in construction. Covers digital modelling, data exchange, project management and quality control.
River Restoration	Teaches ecological and technical restoration of rivers. Analyses flow control, water quality, biodiversity restoration and modernization of hydraulic structures.
Waterways Restoration	Covers reconstruction methods for waterways. Analyses design, ecological safety and development of water transport infrastructure.
Construction Mechanics (theoretical mechanics, strength of materials, construction mechanics)	Teaches core branches of construction mechanics. Deep analysis of statics, dynamics, deformation and load distribution theories.
Construction Mechanics (KL)	Advanced construction mechanics course. Focuses on practical calculations, structural stability and working with modern materials.
Hydraulic Engineering Constructions	Teaches structural solutions used in hydraulic engineering works. Deep study of constructive solutions for reservoirs, canals and turbines, structural strength and safety.
Soil Mechanics, Floors and Foundations	Teaches fundamentals of soil mechanics and foundation design. Analyses soil properties, bearing capacity, and foundation stability.
Water Resources Management	Teaches management and efficient use of water resources. Covers water allocation, monitoring, and ecological and economic efficiency.
Ergonomics	Teaches ergonomic workplace design. Analyses human factors, productivity, safety and comfort.
Fundamentals of Shaping	Teaches shaping fundamentals in architecture and design. Analyses composition, form, proportion, aesthetics and ergonomic requirements.
Fundamentals of Shaping (KI)	Advanced course in shaping fundamentals. Covers modern design technologies, 3D modelling and ergonomic requirements.
Fundamentals of Volumetric Composition	Teaches creation and design of volumetric (3-D) compositions. Analyses three-dimensional form, proportion and spatial organization in architecture and design.
Painting	Teaches color painting and its role in composition. Covers color harmony, palette, light–shadow and use of color in design projects.
History of Automotive Engineering	Introduces the formation and development of the automotive industry. Analyses engineering achievements, technological evolution, modern trends and national automobile manufacturing.
Theory of Machines and Mechanisms	Teaches theoretical foundations of machines and mechanisms. Covers kinematic pairs, mechanism analysis, transmissions and motion calculations.
Theoretical Mechanics	Teaches theoretical aspects of mechanics. In-depth analysis of statics, dynamics, deformation and kinematics and their engineering applications.
Automobile Construction	Introduces structural components and operating principles of vehicles. Analyses engines, transmissions, chassis, steering systems and maintenance.
Cartographic Drawing and Computer Graphics	Teaches cartographic drawing and computer graphics basics. Covers map making, working with GIS and visualization of geospatial data.
Geodesy	Teaches the science of measuring the shape and dimensions of the Earth’s surface. Develops skills in geodetic surveying, coordinate determination and analysis for construction and design.
Basics of Certification	Teaches fundamentals of product and service certification. Analyses quality standards, certification processes, international requirements and control systems.
Assessment of Measurement Uncertainty	Teaches evaluation of measurement result uncertainty. Covers statistical analysis, error types, methods to improve accuracy and metrological control.
Technical Regulation (regulatory framework)	Teaches technical regulation and standardisation basics. Analyses regulatory documents and working with international standards.
Standardisation and Interchangeability	Teaches principles of standardisation and interchangeability. Analyses product quality, manufacturing efficiency and interchangeability of spare parts.
Compendium of International Standards	Introduces major international standards (ISO, IEC, etc.). Analyses standardisation systems and their application.
Principles of Interchangeability and Technical Standardisation	Teaches interchangeability and technical norming principles in machine and equipment design. Focus on compatibility, quality control and technical norms.
Comparison and Calibration of Measuring Instruments	Teaches methods for comparing and calibrating measurement instruments. Covers instrument adjustment, accuracy improvement and conformity to quality standards.
Expert Examination of Documents	Teaches principles of expert review of technical documentation. Analyses project documents, conformity to standards, safety and quality indicators.
Wind Power	Teaches wind energy conversion technologies. Analyses wind turbines, power transmission systems, environmental and economic efficiency.
Solar Energy	Teaches solar energy conversion technologies. Covers photovoltaic panels, thermal collectors, energy storage systems and efficiency analysis.
Biomass, Geothermal Energy and Associated Devices (KL)	Introduces biomass and geothermal energy sources and devices. Analyses renewable sources, environmental benefits, energy storage and safety.
Hydrogen Energy	Teaches hydrogen energy technologies. Covers hydrogen production, storage, fuel cells, transport applications and safety.
Thermal and Nuclear Power Plants	Introduces operation principles of thermal and nuclear power stations. Analyses thermal cycles, nuclear reactors, safety systems, efficiency and environmental requirements.
Geothermal Energy	Teaches technologies for harnessing geothermal energy. Covers subsurface heat extraction, piping systems, ecological and economic efficiency.
Electronic Devices and Integrated Circuits	Teaches structure and operation principles of electronic devices and integrated circuits. Covers microsystems, sensors, signal processing, design and diagnostics of modern electronics.
Analog and Digital Circuitry	Teaches fundamentals of analog and digital circuitry. Covers circuit design, signal processing, microprocessors and operation of digital devices.
Control, Sensors and Devices	Introduces sensors and devices used in control and automation systems. Analyses sensor types, operating principles, measurement of signals and integration with automation.
Computer Modelling in Electronics	Teaches computer-aided modelling of electronic devices. Covers virtual testing of circuits, parameter optimisation and working with software packages (e.g., SPICE).
Advanced Analog Integrated Circuit	Teaches design and analysis of advanced analog integrated circuits. Focus on low-power, high-speed IC design, testing and applications.
Fundamentals of Scientific Research	Teaches basics of organising scientific research. Develops skills in experiment planning, data collection, analysis, reporting and scientific ethics.
Thermal Power Devices (repeat)	Overview of devices that use thermal energy: heat exchange, energy efficiency, maintenance and safety requirements. (repeat entry)
Power Distribution System Analysis (repeat)	Teaches analysis of electric power distribution systems: load calculations, ensuring continuity and improving efficiency. (repeat entry)
Industrial Energy Management (repeat)	Teaches organisation and management of industrial energy systems, monitoring, saving strategies and ISO 50001 based systems. (repeat entry)
Smart Energy (repeat)	Explains smart energy systems: smart grids, automatic control and optimisation via IoT devices. (repeat entry)
Energy Economics and Policy (repeat)	Teaches economic and policy aspects of energy resource management, markets and international relations. (repeat entry)
Energy — Technologies, Business and Regulations (repeat)	Analyses energy technologies, business models and regulatory frameworks; innovations, investments and sustainability. (repeat entry)
Engineering Geology (repeat)	Teaches engineering-geological investigations for construction: soil assessment and ensuring structural stability. (repeat entry)
Hydraulics (repeat)	Teaches fluid mechanics under pressure, hydraulic system design and pump/turbine operation. (repeat entry)
Engineering Geodesy (repeat)	Teaches geodetic work in construction and production, coordinate determination and modern instruments. (repeat entry)
Construction Materials and Products (repeat)	Teaches properties and selection of construction materials, quality assessment and ecological/economic aspects. (repeat entry)
Engineering Dynamics (repeat)	Teaches dynamic behaviour of engineering systems: vibrations, resonance, load analysis and strengthening methods. (repeat entry)
Strength of Materials (repeat)	Teaches resistance of materials to mechanical stresses: deformation, strength theories and safety factors. (repeat entry)
Hydrogeology (repeat)	Teaches formation and movement of groundwater, management and modelling. (repeat entry)
Hydrology and Water Resources (repeat)	Teaches distribution and flow of surface waters and water management systems. (repeat entry)
Modeling of Groundwater Flow (repeat)	Teaches mathematical modelling of groundwater flow, hydrodynamic equations and simulation tools. (repeat entry)
Basin Analysis (repeat)	Teaches assessment of basin conditions and resources: water balance, ecological assessment and management. (repeat entry)
Advanced Use and Management of Land Resources (repeat)	Teaches strategies for efficient land resource management, modern monitoring and sustainable use. (repeat entry)
Restoration of Waterways (repeat)	Teaches reconstruction and modernization methods for waterways with emphasis on ecology and safety. (repeat entry)
Metrology and Standardisation (repeat)	Teaches measurement, standardisation and quality control fundamentals, calibration and ISO implementation. (repeat entry)
Theoretical Mechanics (repeat)	Teaches theoretical foundations of mechanics: statics, dynamics, kinematics and deformation theories. (repeat entry)
Theoretical Electrical Engineering (repeat)	Teaches theory of electrical circuits and electromagnetic processes, conductors, dielectrics and system calculations. (repeat entry)
Hydroaeromechanics (repeat)	Teaches fluid and gas motion under pressure and combined aero-/hydrodynamics for transport and energy applications. (repeat entry)
Hydraulic Machines (repeat)	Introduces structure and operation principles of hydraulic machines, pumps and turbines, modelling and safety. (repeat entry)
Hydraulic Structures (repeat)	Teaches hydraulic structures for water resources management: dams, reservoirs, canals—design, operation and safety. (repeat entry)
Utilization of Water Energy (repeat)	Teaches conversion of water energy to electricity, hydropower plants and turbines, flow control and efficiency. (repeat entry)
Pump Stations (repeat)	Introduces pump station structure and operation, pump selection and maintenance for water supply systems. (repeat entry)
Flow Mechanics (repeat)	Studies fluid and gas flows, mathematical models, pressure and velocity distributions and hydro-aero process applications. (repeat entry)
Fundamentals of Electrical Engineering (repeat)	Teaches theoretic foundations of electrical engineering: circuit analysis, voltage, current and power calculation. (repeat entry)
Electromechanical Devices (repeat)	Teaches principles of electromechanical equipment: motors, generators, transformers, design and maintenance. (repeat entry)
Metrology and Standardisation (repeat 2)	Core concepts of metrology and standardisation; measurement accuracy, calibration and international standards. (repeat entry)