Master degree program
Thermal Рower Еngineering

Thermal Рower Еngineering

QUALIFICATION

  • Scientific and pedagogical direction - Master of Engineering Sciences

MODEL OF GRADUATING STUDENT

ON1. Integrate physical and technical knowledge to solve complex issues of power engineering and formulate judgments based on incomplete or limited information.
ON2. Critically evaluate and interpret the latest achievements of the theory and practice in the field of traditional and alternative heat and power engineering.
ON3. Analyze the existing problems of the enterprises of the heat and power industry and ways to solve these problems.
ON4. Develop physical and mathematical models of energy systems, and conduct a comprehensive study on this basis.
ON5. Competently use modern information and communication technologies in all areas of their life and work, in particular for professional purposes.
ON6. Perform calculations of working and post-emergency modes of power supply schemes of industrial enterprises and critically evaluate the most effective ways and means of organizing heat supply.
ON7. Develop and propose methods and solutions for energy and resource conservation, including the use of secondary products from the heat and power industry.
ON8. Perform calculations of the parameters of energy systems to ensure the reliability and safety of heating installations and improve energy efficiency.
ON9. Analyze various methods of conducting scientific and applied work, formulate and substantiate the research topic, apply professional and practical skills in scientific and educational activities
ON10. Analyze scientific and technical information, own domestic and foreign experience on the subject of research.
ON11. Independently organize and conduct research and development projects in accordance with existing ethical standards.
ON12. Systematize the results of research activities and submit them in writing in the form of reports, abstracts, articles, master's thesis and participate in their discussion.

Program passport

Speciality Name
Thermal Рower Еngineering
Speciality Code
7M07109
Faculty
of Physics and Technology

disciplines

Foreign Language (professional)
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The purpose is to acquire and improve competencies by international standards of foreign language education and to communicate in an intercultural, professional, and scientific environment. A master's student must integrate new information, understand the organization of languages, interact in society, and defend his point of view.

History and Philosophy of Science
  • Number of credits - 3
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - Purpose: Understanding of modern philosophy as a system of scientific knowledge, including worldview in rational-theoretical comprehension. The discipline includes aspects of the evolution and development of scientific thinking, historical moments, the contribution of scientists and scientific schools to the formation of science, and ethical and social aspects of scientific activity.

Management and marketing in the Thermal Power Industry
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The main purpose of the discipline: learn the basics of management and marketing for subsequent use in the work; familiarization with the processes in the operation of the organization and implementation of its activities; with information about the activities of the organization, variants of construction of structures, staff motivation During the study of course, students should be competent to: 1. use modern marketing concepts of enterprise management; 2. to analyze the resources of work and development of enterprises of the heat and power industry; 3. apply pricing management decisions; 4. use techniques and methods for analyzing situations in the market; 5. make management decisions on the most efficient use of enterprise resources. During the study of the discipline students will learn following aspects: Methods of the theory of marketing and management basic concepts of management. The structure of the organization. Communication. The control functions. Organization of work Resources and work development. Modern marketing concept of enterprise management. Methods of portfolio analysis. Analysis of consumer behavior. Sources and collection of information. Management decisions on pricing. Communication policy. Marketing environment of the organization in a power system. The adoption of management decisions on the most efficient use of resources of the enterprise

Organization and Planning of Scientific Research
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The discipline’s purpose: preparation of master students for work in the field of science and their familiarization with the scientific research peculiarities, scientific and technical, innovative activity, with the scientific research means and methods, organization and planning of creative work; analyze the theoretical and experimental research, formulate conclusions and suggestions.

Pedagogy of Higher Education
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - Purpose: To provide pedagogical theories and practical strategies for effective teaching in higher education, fostering critical thinking, and academic success. The course explores instructional methods, curriculum design, assessment techniques, and classroom management strategies preparing educators to create inclusive and stimulating learning environments.

Psychology of management
  • Number of credits - 3
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - Formation of knowledge about the fundamental concepts of management psychology for the practical application of the most critical aspects of management in professional interaction. Basic principles of management psychology, personality in management interactions, management of personality behavior, modern ideas, psychology of managing group phenomena, motivation, and practical reflection.

Scientific and Technical Problems of heat power enginering and heat technologies
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The main purpose of the discipline: preparing the student to solve professional problems in the field of energy saving in power engineering and heat technologies. During the study of course, students should be competent to: 1. identify systemic, legislative, technical and environmental problems in thermal power plants; 2. analyze the State policy in the field of energy efficiency improvement; 3. organize energy saving activities in the field of scientific, theoretical, organizational and technological bases of energy saving in various branches of industrial production; 4. conduct energy audits of enterprises and organizations; 5. calculate the main characteristics of coolants and heat and mass transfer apparatus at the enterprises of the heat and power industry. During the study of the discipline students will learn following aspects: System, legislative, technical and environmental problems of heat power engineering. Problems and prospects for the use of traditional, non-traditional and renewable sources. State policy in the field of increasing energy efficiency. Energy inspections of thermal power facilities. Energy-saving measures in industry.

The Methodology and Technology of Writing Scientific Papers
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The main purpose of the discipline: the acquisition by students of the master's degree of necessary knowledge for the generalization of the results of scientific research, their processing and registration in the form of a scientific article for the purpose of publication in the open press. During the study of course, students should be competent to: 1. correctly formulate the topic and name of the scientific publication; 2. describe the methodology for conducting research; 3. present the results of scientific research for publication in scientific journals; 4. choose appropriate scientific publications; 5. work with information sources and arrange them in a scientific article. During the study of the discipline students will learn following aspects: Basic methods for presenting the results of scientific research. Formulation of the theme, concept and title of the scientific article. The choice of publication for the publication of a scientific article. Structure of the scientific article. Work with literary sources. Working with databases

Theory and Techniques of A Scientific Experiment
  • Number of credits - 5
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The main purpose of the discipline: the study of the foundations of modern theory of engineering experiment methods of planning, implementation in practice, the mathematical processing of experimental data and analysis of the results of an active experiment During the study of course, students should be competent to: 1. select the object of study; 2. carry out mathematical planning of the experiment; 3. independently carry out experimental studies in laboratory and industrial conditions 4. produce a statistical analysis of experimental data; 5. use the methods of statistical processing of the results of an engineering experiment. During the study of the discipline students will learn following aspects: The main tasks of research work. General characteristic of the research object. Simulation and similarity. Fundamentals of mathematical design of the experiment. Statistical analysis of experimental data. Analysis of experimental results. Fundamentals of the theory of random processes and their statistical processing. Computer methods of statistical processing of the results of an engineering experiment

Data for 2021-2024 years

disciplines

3D Simulation of Reacting Flows in Combustion Chambers
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The main purpose of the discipline: the study of methods and features and the formation of skills of three-dimensional modeling of reacting currents in areas of real geometry when burning energy fuels. During the study of course, students should be competent to: 1. build mathematical models describing the processes of convective heat and mass transfer in reacting media in areas of real geometry; 2. apply the method of control volume to obtain finite-difference equations; 3. simulate the chemical reactions that occur during the combustion of fuels of complex composition; 4. conduct a numerical study of heat and mass transfer processes in turbulent reacting flows; 5. analyze the data obtained as a result of computational experiments. During the study of the discipline students will learn following aspects: Basic equations and method of solving three-dimensional simulation of convective heat and mass transfer in reacting media in the areas of real geometry. Two-phase flow. Heat transfer by radiation. Obtaining differential equations of metadatastandardname. Optimal modeling of combustion of pulverized coal on the sample of GRES. The problem of reducing the release of nitrogen oxides NOx.

Automated Control Systems of Thermo-Technical Processes and Attitudes
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The main purpose of the discipline: study of the general principles of the automated control industry, the study of automated control systems of boiler units, water treatment equipment and fuel, heating units, utilities, dryers and refrigeration units, chemical and metallurgical industries. principles of management thermal engineering by industry, functions and tasks of automated control systems, alarm and protection of specific industrial installations; acquaintance with the basic modern trends in the field of automated management systems for industrial facilities. During the study of course, students should be competent to: 1. understand the ways of regulating the main and auxiliary equipment of TPPs; demonstrate knowledge and understanding of automated control at thermal power plants; 2. classify automated control systems of heat engineering processes and installations; 3. analyze the schemes of regulation of technological processes; 4. apply the knowledge gained to the algorithmic description of typical tasks of process control; 5. based on the knowledge obtained in the study of this discipline, to make independent decisions when solving various practical tasks During the study of the discipline students will learn following aspects: Basic concepts, terminology and definitions, billing systems and process control systems. Differential equations and dynamic characteristics of linear systems. Elementary dynamic units and their connections. Technical means of automation, technical structure billing system. Regulators and controllers. Information about regulatory bodies and enforcement mechanisms. Scheme of automation of heat engineering processes and installations.

Computer Modeling of the Comustion of Liquid and Solid Fuels
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The main purpose of the discipline: formation at students of knowledge, skills of application of methods of modeling and optimization of heat power processes, installations and systems of thermal power plants and the industrial enterprises. During the study of course, students should be competent to: 1. apply modern computer technology when conducting research; 2. analyze and apply modern methods of effective organization of combustion processes in industry; 3. use professional knowledge and acquired skills to solve technical problems; 4. develop and propose ways to optimize plants and systems of power system; 5. carry out mathematical modeling in order to study the processes of heat and mass transfer during the combustion of liquid and solid energetic fuels. During the study of the discipline students will learn following aspects: Methods and methods of analog, physical and mathematical modeling. Mathematical modeling of processes, devices and systems power system, optimization of options of installations and systems of power system. Methods and methods of development of mathematical models for warmly technological processes, installations and systems. Numerical methods of calculation of the main characteristics of heat carriers, warm and mass-exchanged devices. Methods of optimization of warmly technological installations and methods of calculation of optimum heat power systems. Application of methods of modeling at research and design of warm technological systems and their elements

Ecological Problems of Environmental Industry
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - Aim оf discipline: formation of systematic knowledge about rational strategies for energy and resource conservation; skills in the balanced use of natural resources and environmental protection to ensure a high quality of life. Abstract оf discipline: Limits of stability of natural geosystems and mechanisms of adaptation to stress. Modeling of natural processes. Anthropogenic impacts on nature and the cause-and-effect relationships of processes occurring in nature during economic development. Disturbance of natural ecosystems in the world.

Energy fuel combustion technologies
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - Aim оf discipline: formation of a theoretical base for undergraduates on the combustion of energy fuels and the efficient use of natural resources. Abstract оf discipline: рreparation of solid fuel for combustion. Dust preparation systems. Properties and characteristics of solid fuel. Combustion of solid fuel. Preparation and combustion of heating oil. Preparation and combustion of gas fuel. Fuel quality control. Integrated use of fuel in thermal power plants. Chamber and layer combustion of solid fuel.

Industrial Power Systems
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The main purpose of the discipline: studying of methods and rules of design of systems of power supply of the cities and industrial enterprises; development of modern methods of calculation of normal and emergency operation of work of the electric networks focused on power - and resource-saving. During the study of course, students should be competent to: 1. determine the design electrical loads and choose standard electrical equipment; 2. carry out calculations of the working and post-accident modes of power supply schemes of industrial enterprises; 3. perform technical and economic calculations of various options for power supply schemes of industrial enterprises; 4. carry out schemes for switching on instruments for controlling electricity, protection equipment and automation; 5. use the knowledge gained in mastering the educational material of subsequent disciplines. During the study of the discipline students will learn following aspects: General characteristic of systems of power supply of the cities and industrial enterprises. Settlement electric loadings of elements and knots of systems of power supply. Practical methods of definition of settlement loadings of electric networks of residential areas and industrial enterprises. Compensation of jet loadings in systems of power supply of the cities and industrial enterprises. Main types of sources of jet power and their technical characteristics. Placement of the compensating devices in distributive networks.

Information Systems in Thermal Power Engineering and Heat Technologies
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The main purpose of the discipline: mastering the main methods and means of application of modern information systems and technologies in heat engineering and heat power engineering with the purpose of using the results for improving activities in this field. During the study of course, students should be competent to: 1. apply a system of distributed information processing in power system; 2. use database management systems; 3. ensure information security of corporate information systems; 4. perform analytical calculations on a PC and perform graphical data analysis; 5. apply intelligent technologies in heat and power engineering. During the study of the discipline students will learn following aspects: Information and information processes in the organizational and economic sphere. Organization and means of information technologies for management activities in heat power engineering. Network Information Technologies. Use of systems of the distributed processing of the information in power system. Use of control systems by databases, corporate information systems (CIS). The organization of an information security in CIS. Features of protection of the information at the enterprises of a heat power complex. Intellectual technologies and systems. Application of intellectual technologies in power system.

Operational Reliability and Safety of Thermal Processing Systems
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The main purpose of the discipline: mastering by the students of the issues of reliability of thermal installations, safe operation of power equipment. During the study of course, students should be competent in: 1. determining the main measures to improve the reliability and resource efficiency of thermal power and heat engineering systems; 2. classifying methods for diagnosing failures, incidents and violations of the operation of heat and power facilities; 3. using modern methods of research into the reliability of heat and power systems; 4. analyzing the structural reliability of TPP and its systems; 5. analyzing the influence of various factors on the reliability and efficiency of TPP equipment. During the study of the discipline students will learn following aspects: fundamentals of the theory of reliability of technical systems and technogenic risk; mathematical formulations used for estimating and calculating basic properties and parameters of reliability of systems of production of heat and electricity, physics of failure, of structural schemes of reliability of technical systems and their calculation, the main methods of increasing the reliability and examples of use of reliability theory to assess the security of production systems of thermal and electric energy; the methodology of analysis and assessment of technological risk, the basic qualitative and quantitative methods of risk assessment methodology to assess the reliability, safety and risk, acceptable risk criteria, risk management principles, examples of using the concept of risk in engineering

Perspective direction of power engineering development
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The main purpose of discipline: familiarization of undergraduates with the main modern areas of energy development in order to optimize the operation of power plants and reduce their negative impact. During the study of course, students should be competent to: 1. determine the state of the energy industry on a national and global scale; 2. use new information technologies for the design and modernization of power plants; 3. suggest ways to improve the operation of electrical networks; 4. calculate energy characteristics of power plants; 5. submit technical solutions aimed at the rational use of energy and natural resources. During the study of the discipline students will learn following aspects: Energy and prospects of development of power industry of the Republic of Kazakhstan. Current state, forecasts of development and problem of world power. Ways of improvement of operation of electric networks. New information technologies in an energy drink. Possibility of use of energy of RES for power supply of consumers various on character and structure. Methods of calculation of power characteristics of power stations, power plants and power complexes.

Problems of Waste Production and Their Solution
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The main purpose of the discipline: study of the conditions for increasing the efficiency of waste-free production; learning the methodology of complex assessment of natural-economic areas that host production, estimation of influence of natural economic territories in the security industries During the study of course, students should be competent to: 1. form a complete understanding of the methods of energy and resource-saving technologies; 2. analyze the processes of electrothermochemical preparation of coal for combustion and its combustion in the furnace of the power boiler; 3. use domestic and foreign experience in developing waste-free production in the energy sector of the Republic of Kazakhstan; 4. critically evaluate and develop new methods for solving the problems of waste-free heat and power engineering and heat technology; 5. systematize knowledge of the current state of development of waste-free production and ways to solve emerging problems. During the study of the discipline students will learn following aspects: Classification of waste. The characteristics of the waste fuel. Coal mining waste, fly ash CHP, ashes, wastes of oil production and ways of their transportation and processing. Methods of waste-free processing of waste and energy used as reducing agents. The basics of creating a waste-free production processes and requirements. Rational use of waste. Reclamation of quarries raw materials. Optimize production of a target product from waste

Removal and Use of Ash and Slag Materials on Thermal Power Plants
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The main purpose of the discipline: formation of the engineering-ecological thinking allowing to understand modern problems of environment protection and rational environmental management. During the study of course, students should be competent to: 1. Classify and understand the technological processes of burning and waste disposal at the enterprises of heat and power engineering; 2. Demonstrate in-depth knowledge and understanding of the basics of efficient and environmentally friendly energy production; 3. Analyze the scientific and technical literature in the field of the use of secondary resources; 4. Develop and propose methods and solutions for the use of secondary products of the heat and power industry; 5. Systematize the knowledge gained for the development and use of creative potential. During the study of the discipline students will learn following aspects: Industrial ecology and greening of the industry. Organization and general regularities of productions. Ecological strategy and policy of development of production. Ash and Slag Materials. Removal of Ash and Slag Materials, their use. Main industrial methods of purification of flue gases and sewage.

The Electrical Part of the Power System
  • Type of control - [RK1+MT+RK2+Exam] (100)
  • Description - The main purpose of the discipline: develop in students a solid theoretical framework on modes of operation and operating power equipment to solve theoretical and practical problems in professional activity associated with designing, testing, commissioning and operation of power engineering equipment for safety, zero accident rate and high efficiency of power stations. During the study of course, students should be competent in: 1. understanding the schemes and basic electrical and switching equipment of power plants and substations; the main modes of operation of power plants and substations; 2. calculating daily schedules of electrical loads and their operating characteristics; 3. identifying the factors determining the adjustment range of boilers and turbines; 4. analyzing technical information and engineering decision-making on the acquisition and operation of electrical equipment; 5. carrying out typical calculations of electrical equipment parameters. During the study of the discipline students will learn following aspects: Features of TPP in the composition of interconnected power systems. The main tasks of the operation. Operational management of operating modes of TPP. Daily schedules of electric loads and their performance characteristics. Ways to cover the load curves of power systems and requirements for the performance characteristics of thermal power plants. Characteristics of maneuverability of the equipment of thermal power plant. Accumulating capacity of the boiler and its influence on the modes of operation of the unit. The adjustment range of boilers and turbines and determine factors. Ways of expanding an adjusting range of boilers and turbines. Transfer the blocks to the load own needs. Motor mode of operation. Modes with disabling the HPH group. Transients in the equipment of the TPP.

Data for 2021-2024 years

INTERNSHIPS

Pedagogical
  • Type of control - Защита практики
  • Description - Aim оf discipline: formation of the ability to carry out educational activities in universities, to design the educational process and conduct certain types of training sessions using innovative educational technologies.

Research
  • Type of control - Защита практики
  • Description - The purpose of the practice: gaining experience in the study of an actual scientific problem, expand the professional knowledge gained in the learning process, and developing practical skills for conducting independent scientific work. The practice is aimed at developing the skills of research, analysis and application of economic knowledge.

Data for 2021-2024 years