Kinetics of Chemical and Physical Processes

4 ECTS credits
110 h study time

Offer 1 with catalog number 1012178BNR for all students in the 2nd semester at a (B) Bachelor - advanced level.

Semester

2nd semester

Enrollment based on exam contract

Impossible

Grading method

Grading (scale from 0 to 20)

Can retake in second session

Yes

Enrollment Requirements

Om te kunnen inschrijven voor Kinetiek van chemische en fysische processen moet men ingeschreven of geslaagd zijn voor Fysicochemie, het techologieproject Leefmilieutechnologie en duurzame materialen en 1 van de 3 overige technologieprojecten (studenten BA IR: afstudeerrichting chemie en materialen) OF voor Fysicochemie: Colloïdchemie en practicum (studenten MA bio-ir).

Taught in

Dutch

Faculty

Faculteit Ingenieurswetenschappen

Department

Materials and Chemistry

Educational team

Guy Van Assche (course titular)
Ehsan Jalilian

Activities and contact hours

18 contact hours Lecture
36 contact hours Seminar, Exercises or Practicals

Course Content

This course focuses on the analysis of the rate of chemical reactions and physical processes. In addition to theoretical aspects, including the fundamental theories for rate constants of chemical reactions, and experimental or practical aspects, such as analytical techniques and simple reactors, attention is paid throughout the course on the determination and analysis of reaction mechanisms. In this course, the link is made between the processes at the molecular scale and their consequences for the practical application of the physicachemical proceses treated.
The course starts with a general introduction to the basic ideas of chemical kinetics, including methods for determining reaction rates in statical and dynamic reactors and an introduction to the analysis of simple reaction mechanisms.
Next, the physicochemical background of chemical reactions and the fundamental theories for reactions in the gas phase and in solution are treated. Reactions of ions, aspects of polymerisation reactions, photochemical processes, and the related kinetics are discussed. Through the description of adsoprtion/desorption processes and surface reactions, the basic concepts of heterogeneous cataltysis are treated. In addition to the theoretical aspects, attention is paid on estimation methods for kinetic parameters and on experimental methods and analytical techniques for the study of process kinetics.
In a last part, the analysis of complex reaction mechanisms is discussed and illustrated with chain and polymerisation reactions.
In the practical sessions (WPO), the kinetics of reactions are experimentally studied using classical methods and modern analytical techniques. Besides, the analysis of kinetical data and computermodelling of more complex reaction mechanisms is . In several practical sessions, the link is made with the research concerning polymerisation reactions and recent scientific literature.

Course material

Digital course material (Required) : Kinetics of Chemical and Physical Processes, Slides, G. Van Assche, Canvas
Handbook (Required) : Physical Chemistry, R.J. Silbey, R.A. Alberty, M.G. Bawendi, 4de, John Wiley & Sons, 9780470566602, 2021

Additional info

ABSENCES:

1) Authorized absence (sickness, accident, decease, presence as representative at a meeting of a commision of the faculty or university) To catch up is possible by making an exercise. The marks received will replace the ones for the missed lab session. Contact the assistant ASAP with regards to this exercise. Within 3 working days after the absence a written proof of the valid reason needs to be submitted to the faculty secretariat and to the assistant. If the 'catching-up' exercise is not handed in, a 0/20 is given for the missed session.

2) Unauthorized absence Catching up is not possible. A score of 0/20 is given for the missed session. More than one unauthorized absence, bars you from participating in examination in first and second session. For the evaluation of all lab session a 0/20 is given.

Learning Outcomes

General competencies

Based on the elementary knowledge concerning thermodynamics and physical chemistry, the fundamentals of the analysis of the rate of chemical reactions and physical processes are treated. The acquired knowledge and understanding concerning the theoretical basis of a wide range of physicochemical processes, their experimental study, and the practical description of the kinetics of these processes in the framework of their application, enable the student to apply this knowledge to solve problems within the field of chemical and material technology.
The competences aimed at are the ability of the student to analyse, understand, solve, and communicate practical and theoretical problems concenring the kinetics of physicochemical processes, both in the framework of further education on the master level (electrochemical processes, heterogeneous catalysis, reactor design,...) and in an industrial context.

This course contributes to the following learning outcomes of the bachelor in engineering sciences:

The Bachelor in Engineering Sciences has a broad fundamental knowledge and understanding of

1. scientific principles and methodology of exact sciences with the specificity of their application to engineering;

2. engineering principles and the ability to apply them to analyse key engineering processes and

to investigate new and emerging technologies;

4. fundamental, basic methods and theories to schematize and model problems or processes.

The Bachelor in Engineering Sciences can

6. monitor, interpret and apply the results of analysis and modelling in order to bring about

continuous improvement;

7. apply quantitative methods and computer software relevant to the engineering discipline in

order to solve engineering problems;

9. use and evaluate information of technical literature and other information sources;

10. correctly report on design results in the form of a technical report or in the form of a paper;

12. reason in a logical, abstract and critical way;

14. work in team, shows creativity and entrepreneurship, and has intellectual mobility.

The Bachelor in Engineering Sciences has

16. a creative, problem‐solving, result‐driven and evidence‐based attitude, aiming at innovation;

17. a critical attitude towards one’s own results and those of others;

The Bachelor in Engineering Sciences - Chemistry and Materials has a more advanced fundamental knowledge and understanding of Chemistry and Materials and can apply this knowledge to solve elementary engineering problems.

Grading

The final grade is composed based on the following categories:
Oral Exam determines 75% of the final mark.
PRAC Practical Assignment determines 25% of the final mark.

Within the Oral Exam category, the following assignments need to be completed:

Mondeling examen with a relative weight of 1 which comprises 75% of the final mark.

Note: De student krijgt 2 theoretische hoofdvragen. Elke vraag wordt gedurende kort voorbereid (open boek), op papier beantwoord (gesloten boek), en vervolgens uitgebreid mondeling besproken om kennis en inzicht te testen. Als derde vraag dient een reactiemechanisme te worden geanalyseerd (schriftelijk, open boek), waarbij gepeild wordt naar inzicht en oplossend vermogen.

Within the PRAC Practical Assignment category, the following assignments need to be completed:

WPO Labowerk with a relative weight of 1 which comprises 25% of the final mark.

Note: Een persoonlijke evaluatie van de student tijdens de (verplichte) practica en een evaluatie van de schriftelijke verslagen. Dit onderdeel wordt slechts één keer per jaar uitgevoerd en geëvalueerd.

Additional info regarding evaluation

In the 2nd exam session only the oral exam can be repeated, the marks received for the lab sessions will be transferred from 1st session.

More information regarding the examination procedure is made available via Canvas.

Allowed unsatisfactory mark

The supplementary Teaching and Examination Regulations of your faculty stipulate whether an allowed unsatisfactory mark for this programme unit is permitted.

Academic context