Metallurgical Physical Chemistry is a course offered by Liaoning University of Science and Technology since its establishment in 1948, and has always been one of the core and longest professional basic courses. This course follows the basic courses of natural sciences such as "Advanced Mathematics", "General Chemistry" and "Physical Chemistry", and follows the professional courses of metallurgical technology such as "Ironmaking" and "Steelmaking". The course covers metallurgical thermodynamics, metallurgical kinetics, metallurgical electrochemistry, metallurgical melt theory (metal melts, slag and molten salts), and theoretical analysis methods for metallurgical processes. Through the teaching of this course, students will understand and systematically master the basic principles and methods of physical chemistry of metallurgical processes, be able to skillfully use the theories and methods of thermodynamics, kinetics and electrochemistry to solve practical problems in metallurgical engineering, and strengthen the ability to investigate, analyze and solve practical problems in complex metallurgical engineering. The course will be approved as a national first-class undergraduate course (offline first-class) in 2023.
Overview
Syllabus
- 第一章
- 1.1 Introduction
- 1.2 Chemical reaction isothermal equation and isobaric equation
- 1.3 Calculation of standard Gibbs free energy
- 1.4 Decomposition pressure of compounds
- 1.5 Oxygen and oxygen potential line
- 1.6 Oxygen potential diagram and its application
- Chapter 1 Homework
- 第二章
- 2.1 Raoult's Law and Henry's Law
- 2.2 Three kinds of activity and activity coefficient
- 2.3 Standard and reference
- 2.4 Conversion of different activities and activity coefficients
- 2.5 Determination and calculation of activity and activity coefficients
- 2.6 Chemical properties of slag1
- 2.6 Chemical properties of slag 2
- 2.7 Slag structure theory and component activity calculation
- Chapter 2 Homework
- 第三章
- 3.1 Binary system phase diagram a
- 3.1 Binary system phase diagram b
- 3.2 Basic knowledge of ternary phase diagrams
- 3.3 Ternary phase diagram with stable compounds
- 3.4 Ternary phase diagram with unstable compounds a
- 3.4 Ternary phase diagram with unstable compounds b
- 3.5 Phase diagram of ternary slag system
- Chapter 3 Homework
- 第四章
- 4.1 Selective oxidation
- 4.2 Indirect reduction
- 4.3 Direct Restore
- 4.4 Selective reduction and thermodynamic analysis of desulfurization and phosphorus
- Chapter 4 Homework
- 第五章
- 5.1 Kinetics and thermodynamics differences and connections
- 5.2 Chemical reaction rate and reaction order 1
- 5.2 Chemical reaction rate and reaction order 2
- 5.3 Reaction rate vs. temperature1
- 5.3 Reaction rate vs. temperature2
- Chapter 5 Homework
- 第六章
- 6.1 The Law of Diffusion1
- 6.1The Law of Diffusion2
- 6.2 Interphase mass transfer1
- 6.2 Interphase mass transfer2
- Chapter 6 Homework
- 第七章
- 7.1A gas-solid reaction kinetics
- 7.1B gas-solid reaction kinetics
- 7.1C gas-solid reaction kinetics
- 7.2A liquid-liquid reaction kinetics
- 7.2B liquid-liquid reaction kinetics
- 7.2C liquid-liquid reaction kinetics
- 7.3 Gas-liquid reaction kinetics A
- 7.3 Gas-liquid reaction kinetics B
- Chapter 7 Homework
- 第八章
- 8.1 Introduction to Electrochemistry and Electrolytes
- 8.2 Electrochemical thermodynamics and kinetics a
- 8.2 Electrochemical thermodynamics and kinetics b
- 8.3 Application of electrochemistry in metallurgy 1
- 8.4Application of electrochemistry in metallurgy 2
- Chapter 8 Homework
Taught by
WangGuoCheng, SunChangYu, and XiaoYuanYou
