Automation of Technical Processes
Description: In the process of training the formation of students ' knowledge on the construction and use of automatic control systems, regulation and control of technological processes, the basic principles of management, knowledge of the structure of the control system, the problem of stability and quality of regulation of closed systems, the basic laws of regulation
Amount of credits: 5
Course Workload:
| Types of classes | hours |
|---|---|
| Lectures | 15 |
| Practical works | 15 |
| Laboratory works | 15 |
| SAWTG (Student Autonomous Work under Teacher Guidance) | 30 |
| SAW (Student autonomous work) | 75 |
| Form of final control | Exam |
| Final assessment method |
Component: Component by selection
Cycle: Base disciplines
Goal
- is the formation of students' knowledge on the construction and use of automatic control systems, regulation and management of technological processes in enrichment.
Objective
- As a result of studying the discipline, students must learn the basic principles of management, know the structure of the regulatory system, the problem of stability and quality of regulation of closed systems, the basic laws of regulation. Know the principles of measuring the composition of substances, temperature, humidity, flow rate and other important parameters of technological processes in metallurgy, have an idea about measuring transducers, regulators, actuators and means of displaying information. Be able to use project documentation for automation, have an idea about typical automatic regulation and control systems and automated process control systems (APCS) in enrichment. Have practical skills in taking the dynamic characteristics of automation objects, calculating the settings for regulators, studying the quality of the automatic control systems.
Learning outcome: knowledge and understanding
- Know the principles of measuring the composition of substances, temperature, humidity, flow and other important parameters of technological processes in metallurgy, have an idea about measuring transducers, regulators, actuators and means of displaying information.
Learning outcome: applying knowledge and understanding
- Know the principles of measuring the composition of substances, temperature, humidity, flow rate and other important parameters of technological processes in enrichment, have an idea about measuring transducers, regulators, actuators and means of displaying information.
Learning outcome: formation of judgments
- Be able to use project documentation for automation, have an idea about typical automatic regulation and control systems and automated process control systems (APCS) in enrichment.
Learning outcome: communicative abilities
- The course plays an important role in the professional training of metallurgical engineers, since automation tools are widely used at metallurgical enterprises, the correct use of which is possible only with knowledge and skills in this area.
Learning outcome: learning skills or learning abilities
- Be able to use project documentation for automation, have an idea about typical automatic control and management systems and automated process control systems (APCS).
Key reading
- 1. Theory of automatic control. - Part one. Ed. A. A. Voronova. M.: Higher school, 1986. 2. Stephanie E. P. Fundamentals of calculating the settings of regulators of heat and power processes.- M .: Energy, 1972. 3. Polotsky L. M. Automation of chemical production.- M .: Chemistry, 1982. 4 Kaganov V. Yu. Automation of control of metallurgical processes.- M.: Metallurgy, 1974. 5. Technique for reading automatic control circuits and technological control. Ed. A.S. Klyuev. - M.: Energoizdat, 1991. 6. Glinkov G.M., Makovsky V.A. APCS in ferrous metallurgy. - M.: Metallurgy, 1999. - 310 p. 7. Glinkov G. M., Klimovitsky M. D. Theoretical foundations of automatic control of metallurgical processes. - M.: Metallurgy, 1985. 8. Belenky A. M., Berdyshev V. F., Blinov O. M. Automatic control of metallurgical processes. - M.: Metallurgy, 1983. 9. Bushuev SD, Mikhailov VS Automation and automation of production processes: textbook. for universities. - M.: Higher school, 1990. 10. Fundamentals of metallurgy, v.6. Means and systems of automatic control and management in non-ferrous metallurgy. / Ed. I. A. Strigina, A. V. Troitsky. – M.: Metallurgy, 1973.
