Duration
24h Th, 24h Pr
Number of credits
Lecturer
Language(s) of instruction
French language
Organisation and examination
Teaching in the first semester, review in January
Schedule
Units courses prerequisite and corequisite
Prerequisite or corequisite units are presented within each program
Learning unit contents
The course is composed of two parts:
- Part 1 : Chemical kinetics
- Part 2 : Introduction to reactors
The first part of the lecture concerns the study of reaction kinetics. It aims at developing the link between chemical reactions and their rate equation. It contents the following concepts:
- Définition of the reaction rate
- Structure of the rate equation
- Elementary steps
- Steady-state hypothesis
- Kinetic treatment of catalytic sequences (open/closed) and chain reactions
- Rate-determining step
- Examples in catalysis and enzymatic catalysis
In general, the aspects covered are:
- Classification and study methodology of chemical reactors.
- Analysis and synthesis of the operation of ideal homogeneous chemical reactors.
- Case of a single or several reactions. Problems of dimensioning and selectivity.
Learning outcomes of the learning unit
Part I : Kinetics
At the end of the course, the sudents will be able to:
- determine the reaction rate equation from a given reaction mechanism, and vice-versa.
- calculate kinetics and thermodynamics parameters (activation energy, adsorption enthalpy and entropy) from kinetics data.
Knowledge acquisition will be made possible via exercise session and through the realization of a personal project (teams of 2 students) concerning the analysis of a recent scientific article about reaction kinetics.
Part II : Reactors
Students will be able to:
- understand and exploit the theoretical concepts and methodology that form the basis for the calculation of isothermal chemical reactors
- use this methodology to design and size an industrial scale reactor performing a given production based on kinetic and thermodynamic data obtained at the laboratory stage
Prerequisite knowledge and skills
Basic knowledge in chemistry and in thermodynamics.
Planned learning activities and teaching methods
Partie I : Kinetics
The course comprises "ex-cathedra" lectures (theory, 20h) and exercise sessions (problem solving, 15 h).
One personal project (groups of 2 students) will be realized: analysis of a recent scientific article, published in an international journal (in English) about the mechanism of a reactin and the determination of the reaction rate equation.
Q/A sessions (non mandatory) will be proposed during the quadrimester. One assistant and one tutor (student) will also be available for help during the realization of the project.
Part II: Reactors
The course is mainly organized as a face-to-face lectures, supplemented by discussion sessions, tutorials and assignments.
A learning schedule will be proposed to the students. Students will be required to prepare a defined theoretical material before each discussion session. The understanding of the material will be checked by means of questions asked at the beginning of each lecture.
The discussion sessions will be devoted to the discussion of the fundamental concepts necessary for the performance calculation and sizing of homogeneous chemical reactors. All assigned theoretical material must be mastered even if not specifically presented during the discussion sessions.
During the exercise sessions, students solve problems related to the calculation of homogeneous chemical reactors individually, but in a supervised manner.
The individual assignments focus on the numerical solution of reactors, with applications of increasing complexity (material balances).
The completion of the personal work is mandatory to attend the exam.
For the September session, this restriction does not apply.
A question-and-answer session covering the entire subject is offered to students at the end of the term. Other sessions may be scheduled during the term. The schedule of these sessions will be determined in consultation with the students.
Mode of delivery (face to face, distance learning, hybrid learning)
Face-to-face course
Additional information:
Part I : cinétique
Face-to-face
Part II: Reactors
Face-to-face
Course materials and recommended or required readings
Platform(s) used for course materials:
- eCampus
Further information:
Part I : kinetics
Copies of the theoretical course slides and of the exercises are available on eCampus.
Reference book (Kinetics) : M. Boudart - Kinetics of chemical processes
Part II : reactors
The course book is :
Elements of Chemical Reaction engineering, 5th Edition, H.Scott Fogler
Additional information (exercise notes, slides) will be also available via eCampus during the yea
Exam(s) in session
Any session
- In-person
written exam ( open-ended questions ) AND oral exam
Written work / report
Further information:
Oral/written examination in January. The individual works realized are taken into account.
Part I : Kinetics (60% of the final mark)
Personal work (written report per group of 2 students and individual written questions on the day of the oral/written examination) - 40% of the final mark of Part I.
Written examination - 60% of the final mark of Part I:
- Oral examination: theory
- Written examination: Exercises similar to those prepared in classes
Note that the dates at which the reports must be sent to the supervisor are fixed from the beginning. Any postponement of the reports handing leads to penalties (2 points/day - including week-ends - on the final project mark). The realization of the project is mandatory. Students who do not realize it will not be allowed to attend the exam.
Part II: Reactors (40% of the final grade)
Personal works : 30% of the final mark of Part I.
Written examination : 70% of the final mark of Part II:
- Oral examination: theory
- Written examination: Exercises similar to those prepared in classes
The second session exam is organized in the same way as the January exam.
Please note: the oral exams are closed-book and without calculators.
Completing personal assignments are mandatory. Students who have not completed most of the assignments will not be allowed to take the exam in January. In all cases, any not returned HW will lead to a 0/20 note for the corresponding assignment.
In September, the mark for the homeworks may be retained is it is higher than 12/20.
Please note:
To pass the course, it is mandatory to obtain a score of at least 8/20 for (i) Part I - kinetics (project and exam) and (ii) Part II - reactors (personal work and exam). If a score lower than 8/20 is received in either part, the lowest score will be assigned for the entire course.
A partial exemption for one of the two parts will be granted between the two sessions if the score for that part is equal to or higher than 12/20. Moreover, in the case of a second session for the kinetics part, the project must be improved and resubmitted if the score obtained for the project is below 12/20. In the case of a second session for the reactor part, a new project will have to be done, if the global score obtained for all the personnal works is below 12/20.
Work placement(s)
None
Organisational remarks and main changes to the course
The course is organized during the fall term (Thursday afternoon).
Language : French.
Contacts
Part I : Kinetics
Prof. Nathalie JOB
Tel : 04/366.35.37
Nathalie.Job@uliege.be
Partie II : Réacteurs
Prof Dminique TOYE
Tél : 04/366.35.09
Dominique.Toye@uliege.be