CHIM9277-1 : Chemical Reactor Engineering II

Study Programmes 2015-2016

CHIM9277-1

Chemical Reactor Engineering II

Duration :

20h Th, 4h Pr, 12h Labo.

Number of credits :

Master in biomedical engineering (120 ECTS)		3
Master in chemical and materials engineering (120 ECTS)		3

Lecturer :

Dominique Toye

Language(s) of instruction :

French language

Organisation and examination :

Teaching in the first semester, review in January

Units courses prerequisite and corequisite :

Prerequisite or corequisite units are presented within each program

Course contents :

The course introduces the fundamental concepts necessary for the performance prediction and for the design of non isothermal homogeneous chemical reactors.
Globally, the course covers the following aspects:

Analysis and synthesis of the functioning of the non isothermal ideal homogeneous chemical reactors.
Case of a single or several reactions in isothermal or not isothermal regime. Sizing and selectivity problems.
Analysis of the multiplicity and of the stability of the stationary states.
Description of the real reacting flows by systematic analysis using the theory of macromixing and the experimental tracer method.
Experimental diagnosis of flow nonidealities in chemical reactors.

Learning outcomes of the course :

At the end of the course, the students will be able to

understand and exploit the theoretical concepts and the methodology which constitute the foundation of chemical reactor design
use this methodology to design and to size an industrial scale reactor for a given production on the basis of kinetic and thermodynamics data obtained at the scale
detect the main sources of flow non idealities in reactors, predict their impact on reactor performances and to take the necessary precautions to avoid them
perform exploitable tracer measurements, analyze the experimental results to model the flow within the reactor

Exercise and laboratory sessions in small groups will help the students to develop more transverse skills as team-working, numerical problem resolution, critical analysis of experimental data, assessment of the validity of a theoretical approach

Prerequisite knowledge and skills :

The "Introduction au génie chimique" (CHIM0022-2), "Thermodynamique chimique appliquée" (CHIM0009-1), "Cinétique chimique" (CHIM0012-2) and "Génie chimique - réacteurs I" "(CHIM0023-3) courses (or courses with similar contents) should have been attended during previous years (or they should be attended the same year)

Planned learning activities and teaching methods :

The course is based "ex-cathedra" lectures, exercices session and laboratories (20h+ 4h + 12h).
The "ex-cathedra" lectures are dedicated to the detailed description of the fundamental concepts necessary for the performance prediction and for the design of homogeneous chemical reactors
Practical courses include exercises sessions and mandatory laboratories (2 days).
During exercises sessions, students learn how to solve basic problems relative to the calculation of the homogeneous chemical reactors.
For the laboratory sessions, students work in (small) team. During the laboratory sessions, students perform manipulations the aim of which is to illustrate and to better understand the theoretical concepts as well as their respective application fields
An optional "questions & answers" session is proposed at the end of each term (autumn and spring)

Mode of delivery (face-to-face ; distance-learning) :

Face-to face