Modeling of physico-chemical and thermodynamic processes in metallurgy

Description: Modern methods and algorithms for thermodynamic analysis of phase and chemical equilibria of complex systems, multielement heterogeneous media, methods of thermodynamic modeling, including the assessment of the reliability of the results, analysis of the features and results of thermodynamic modeling in relation to metallurgical processes, description and properties, as well as the possibilities of HSC Chemistry software packages and are considered Metsim

Amount of credits: 6

Course Workload:

Types of classes	hours
Lectures	30
Practical works	30
Laboratory works
SAWTG (Student Autonomous Work under Teacher Guidance)	30
SAW (Student autonomous work)	90
Form of final control	Exam
Final assessment method

Component: University component

Cycle: Profiling disciplines

Goal

• To master mathematical models of metallurgical physical and chemical processes and thermodynamic models of thermodynamic analysis of metallurgical processes.

Objective

• Receive mathematical models of specific reactions of technological processes in metallurgy. including thermodynamic modeling

Learning outcome: knowledge and understanding

• Knowledge and understanding of mathematical models of metallurgical processes and differential equations of thermodynamics.

Learning outcome: applying knowledge and understanding

• Application of mathematical models and differential equations of thermodynamics in metallurgical calculations.

Learning outcome: formation of judgments

• Ability to form conclusions of studies of modeling metallurgical systems.

Learning outcome: communicative abilities

• The ability to scientifically use mathematical models of technological processes in related fields of metallurgy

Learning outcome: learning skills or learning abilities

• Ability to improve skills in the field of modeling metallurgical processes and thermodynamic systems.

Topics of lectures

• 1Modeling of physical and chemical processes as an innovative direction in the study of metallurgical processes
• 2 Physical modeling of metallurgical systems
• 3 Criteria equations as mathematical models of metallurgical systems
• 4 Dimension analysis method for obtaining criteria equations
• 5 Mathematical description of the physico-chemical processes of metallurgy with chemical reactions
• 6 Mathematical models of metallurgical chemical processes
• 7 Mathematical models - invariants of chemical reactions in the study of metallurgical systems
• 8 Thermodynamic modeling of metallurgical processes
• 9 Differential equations of thermodynamics in modeling metallurgical processes
• 10 Temperature dependence of Gibbs energy as a thermodynamic model of the criterion of thermodynamic capability of a metallurgical process
• 11 The role of enthalpy and entropy factors in the interpretation of the thermodynamic model of the studied metallurgical process
• 12 Practical application of thermodynamic models in the study of metallurgical systems
• 13 Regression models of physical and chemical processes of metallurgy
• 14 Factor experiment in the study of metallurgical processes; interpretation of regression models
• 15 Analysis of the features and results of thermodynamic modeling in relation to metallurgical processes, description and properties, as well as the capabilities of the HSC Chemistry and Metsim software packages

Key reading

• Основная литература 1 Закгейм А.Ю. Введение в моделирование химико-технологических процессов,- М. Химия,1982, С.10 процессов,- М.:Химия, 1982. - 328 с. 2 Клемперт В.М. Моделирование инновационных объектов и процессов.-М.: Учеба 2005. - 93с. 3Ватолин Н.А., Моисеев Г.К. Термодинамическое моделирование в высоко-температурных неорганических системах. –М.: Металлургия, 1994. – 352 с. 4 Компьютерное моделирование пирометаллургических процессов автоматизированным расчетом технологических параметров/ А.М. Михайлов и др.// Материалы VI Международной конференции.- Усть Каменогорск, ВНИИЦВЕТМЕТ, 2007. С. 136-140. 5 Математическая модель обжига молебденитовых материалов в шахтной печи непрерывного действия с частичной циркуляцией продуктов /В.П. Малышев и др.// Изв. Вузов. Цветная металлургия.- 1979.- № 2.- С.90-94. Basic literature 1 Zakheim A.YU. Introduction to the modeling of chemical-technological processes, - M. Chemistry, 1982, p.10 processes, - M.: Chemistry, 1982. - 328 p. 2 Klempert V.M. Modeling of innovative objects and processes.-M .: Study 2005. - 93с. 3Vatolin N.A., Moiseev G.K. Thermodynamic modeling in high-temperature inorganic systems. –M .: Metallurgy, 1994. - 352 p. 4 Computer simulation of pyrometallurgical processes by automated calculation of technological parameters / А.М. Mikhailov et al. // Materials of the VI International Conference.- Ust Kamenogorsk, VNIITSVETMET, 2007.P. 136-140. 5 Mathematical model of roasting of molybdenite materials in a continuous shaft mine furnace with partial circulation of products / V.P. Malyshev et al. // Izv. Universities. Non-ferrous metallurgy. - 1979.- No. 2.- P.90-94.