Duration
30h Th, 10h Pr, 30h Proj., 1d FW
Number of credits
| Master in biomedical engineering (120 ECTS) | 5 crédits | |||
| Master in chemical and materials engineering (120 ECTS) | 5 crédits |
Lecturer
Coordinator
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
Learning unit contents
This lecture is aimed at providing students the knowledge required to apply chemical engineering concepts to the field of biotechnologies.
Each professor is responsible for a part of the course :
Part 1 : biotechnologie microbienne (F. Delvigne)
Part 2 : génie des réacteurs biologiques (D. Toye)
Part 3 : biorefining (A Richel)
Learning outcomes of the learning unit
At the end of the course, the student will be able to understand industrial biotechnological processes and assess the associated issues.
He/she will be able to propose solutions on the basis of his/her knowledge in chemical engineering.
Prerequisite knowledge and skills
1st Master in engineering (orientation chemical engineering and material science) or chemical sciences
Planned learning activities and teaching methods
Part 1 : 4 x half-day course given by F. Delvigne
Volet 2 : 3 x half-day course given by D. Toye
Volet 3 : 3 x half-day course given by A. Richel
Visits to industrial companies and/or research labs will organised in relation to the 1st and the 3rd part.
Mode of delivery (face-to-face ; distance-learning)
Face-to-face seminars combining theory, case studies, and visits of industrial sites and/or research labs
Recommended or required readings
Copy of slides
Assessment methods and criteria
Part 1 (F. Delvigne) - 40% of the global result
Paper presentation (50%) (scientific papers based either on scale-up/down and/or on single cell technologies) - Report based on an industrial case study (50%)
Part 2 (D. Toye) - 30% of the global result
Oral examination in January
Part 3 (A. Richel) - 30% of the global result
Part 1 (F. Delvigne) - 40% of the global result
Paper presentation (50%) (scientific papers based either on scale-up/down and/or on single cell technologies) - Report based on an industrial case study (50%)
Part 2 (D. Toye) - 30% of the global result
Oral examination in January
Part 3 (A. Richel) - 30% of the global result
Work placement(s)
Organizational remarks
The dates will be fixed in agreement with students.
Room to be communicated
Vendredi 22/09 9h Gembloux Aurore Richel/Nicolas Jacquet (labo/visite)
Vendredi 29/09 9h Gembloux Aurore Richel/Nicolas Jacquet (labo/visite)
Vendredi 06/10 9h Sart Tilman - B6a - R43 Franck Delvigne
Vendredi 13/10 9h Sart Tilman - B6a - R43 Franck Delvigne
Vendredi 20/10 9h Sart Tilman - B6a - R43 Franck Delvigne
Vendredi 27/10 9h Sart Tilman - B6a - R43 Franck Delvigne
Vendredi 10/11 9h Sart Tilman - B6a - R43 Franck Delvigne
Jeudi 16/11 13h30 Sart Tilman - B18 -R88 Aurore Richel/Nicolas Jacquet
Jeudi 23/11 13h30 Sart Tilman - B18 -R88 Aurore Richel/Nicolas Jacquet
Jeudi 30/11 13h30 Sart Tilman - B18 -R88 Dominique Toye
Jeudi 07/12 13h30 Sart Tilman - B18 -R88 Dominique Toye
Jeudi 14/12 13h30 Sart Tilman - B18 -R88 Dominique Toye
Jeudi 21/12 13h30 Sart Tilman - B18 -R88 Dominique Toye
Contacts
Coordination and organization
Prof. Dominique TOYE
Dpt of Chemical Engineering
PEPs - Products, Environment, Processes
Quartier Agora
Insititu de Chimie - B6c - Room 1.61
Tél. 04/366.35.09
Dominique.Toye@ulg.ac.be(A.Leonard@ulg.ac.be)