Course detail

Chemical Thermodynamics and Kinetics

FSI-WCT Acad. year: 2026/2027 Winter semester

Course deals with basic terms, principles and relations of classical chemical thermodynamics and kinetics, which are necessary for understanding of physical-chemical problems of material science. Chemical thermodynamics is focused on basic thermodynamic principles, variables and relations, description of equilibrium in single- and multi-component homogenous and heterogeneous systems, and on phase diagrams. Multi-component chemical reactive systems and problem of capillarity are also mentioned.
Kinetics shows basic kinetic philosophy of physical-chemical processes in heterogeneous systems, particularly phase transformations diffusion and sintering.

Language of instruction

Czech

Number of ECTS credits

4

Supervisor

prof. RNDr. Karel Maca, Dr.

Department

Institute of Materials Science and Engineering

Entry knowledge

Student needs knowledge of mathematics and physics at the level of the first two years of study of FME, and at least high-school knowledge of chemistry (general, inorganic and organic chemistry).

Rules for evaluation and completion of the course

Conditions of credit landing are presence in practical lessons and written tests.
There will be two written tests during the semester. Student has to be classified better than F at both tests. The assistant determines dates of corrective tests.
Examination verifies the knowledge of the theory and particularly its application. It is oral. Examiner can take into account student’s activity during the semester. The examiner has to familiarize students (at the latest during the last lecture) with the course of examination and with the principles of classification

Aims

The objective of the course is to inform students about selected basic terms, principles and relations of classical chemical thermodynamic and kinetic, which are necessary for understanding of physical-chemical problems of material science, and to teach the students how to apply them. Another, by no means negligible task, is to develop students' logical and abstract thinking.
Students will obtain basic knowledge of classical chemical thermodynamics and kinetics of selected engineering processes, and will understand their logic and how to apply them for solution of engineering tasks aided by literature sources and databases.

The study programmes with the given course

Programme N-MTI-P: Materials Engineering, Master's, compulsory

Type of course unit

 

Lecture

26 hours, optionally

Syllabus

OUTLINE


1.Structure of chemical thermodynamics. Classification of thermodynamic systems, variables and relations. Equilibrium criteria.


2. Thermodynamics principles. 1st, 2nd and 3rd thermodynamic principle.


3. Thermodynamic relations and variables. General strategy of thermodynamic relations derivation.


4. Equilibrium in thermodynamic systems. General criteria and general conditions of thermodynamic equilibrium derivation. Gibbs phase rule.


5. Single-component heterogeneous system. Single-component phase diagrams in (p,T) range. Clausius-Clapeyron equation.


6. Multi-component, homogenous non-reactive systems – solutions. Partial molar quantities. Chemical potential in multi-component systems.


7. Multi-component heterogeneous non-reactive systems. Description of multi-phase, multi-component, non-reactive systems. Ideal solutions, Raoult’s law. Equilibrium criteria.


8. Multi-component, multi-phase, reactive systems. Reactions in multi-phase systems. Components and compounds in phase diagrams. Van’t Hoffs isotherm and its application in materials engineering.


9. Equilibrium criteria in systems with curved surfaces. Capillary effects. Surfaces and inter-surfaces. Grain boundaries.


10. Kinetics and dynamics of solid-state processes. Transport in solid substances. Diffusion. Activation energy of diffusion.


11. Sintering and grain growth. Solid-state sintering. Liquid phase sintering. Sintering models.Rapid, Flesh and Ultra-Fast Sintering.


12.  Sintering and grain growth. Pressure-activated sintering. Grain growth.


13. Summary of topics for the exam.

Laboratory exercise

14 hours, compulsory

Syllabus

1. Laboratory work – FME
2. Laboratory work – CEITEC

Computer-assisted exercise

12 hours, compulsory

Syllabus


  1. Introductory written test, chemical terminology

  2. Chemical equations, calculations according to chemical equations

  3. Redox reactions

  4. Thermochemistry – heat capacity, reaction heat

  5. Thermochemistry – temperature dependence of reaction heat

  6. First written test

  7. Dependence of Gibbs energy on temperature

  8. Clapeyron, Clausius-Clapeyron equation

  9. Systems with multiple components, expression of composition

  10. Surface energy, Laplace’s law

  11. Second written test