2024-2025 / MECA0008-1

Microfluidics

Duration

22h Th, 8h Pr, 16h Labo., 14h Proj.

Number of credits

 Master MSc. in Engineering Physics, research focus5 crédits 
 Master MSc. in Biomedical Engineering, professional focus5 crédits 
 Master Msc. in Mechanical engineering, professional focus in mechatronics5 crédits 
 Master MSc. in Mechanical Engineering, professional focus in sustainable automotive engineering5 crédits 
 Advanced Master in Nanotechnologies5 crédits 

Lecturer

Tristan Gilet

Language(s) of instruction

English language

Organisation and examination

Teaching in the second semester

Schedule

Schedule online

Units courses prerequisite and corequisite

Prerequisite or corequisite units are presented within each program

Learning unit contents

This course is an introduction to small-scale flows and the burgeoning field of microfluidics. Course content: Applications and microfluidic markets, microfabrication, fluidic design and chip control, surface tension and capillary phenomena, centrifugal microfluidics, droplet microfluidics, diffusion/convection coupling, low Reynolds number locomotion, electro-hydrodynamics.

Learning outcomes of the learning unit

At the end of this course, the student will have a good overview of microfluidics. He/She will get a good intuition of microscale flows. He/She will be able to apply theoretical bases, for the design of microfluidic components among others.
Thanks to the problems and lab sessions (group work), he/she will benefit from the background and potential of other students. He/she will develop critical thinking.

This course contributes to the learning outcomes I.1, I.2, II.1, II.2, II.3, III.1, III.2, III.4, IV.2, V.1, V.2, V.3, VI.1, VI.2, VII.1, VII.2, VII.4, VII.6 of the MSc in biomedical engineering.

This course contributes to the learning outcomes I.1, I.2, II.1, II.2, II.3, III.1, III.2, III.4, IV.2, V.1, V.2, V.3, VI.1, VI.2, VII.1, VII.2, VII.4, VII.6 of the MSc in mechanical engineering.

This course contributes to the learning outcomes I.1, I.2, II.1, II.2, II.3, III.1, III.2, III.2, III.4, IV.2, IV.3, V.1, V.2, V.3, VI.1, VI.2, VII.1, VII.2, VII.4, VII.6 of the MSc in engineering physics.

 

Prerequisite knowledge and skills

Pre-requisites: Elementary fluid mechanics, including Navier-Stokes equations (e.g. MECA0011), physics (e.g. PHYS2020, PHYS2021, PHYS2022), mechanics (e.g. MECA0001), chemistry (e.g. CHIM0603) and linear systems (e.g. SYST0002).

Planned learning activities and teaching methods

The theory, applications and problems are covered in several sessions. The problems deal with small scale fluid mechanics and microfluidic design.

Lab sessions will be organized. The students will build their own lab-on-a-chip device. They will interface and test this device. Finally, they will process and analyze the data (image processing).

Mode of delivery (face to face, distance learning, hybrid learning)

Face-to-face

Course materials and recommended or required readings

The course is not yet based on a unique textbook. It is more a synthesis of many textbooks and recent publications. At the end of each class, several reading suggestions will be given.

Exam(s) in session

Any session

- In-person

written exam ( multiple-choice questionnaire, open-ended questions )


Further information:

Written exam (notes allowed) on theory, problems, and lab sessions

Work placement(s)

Organisational remarks and main changes to the course

The course is given in the Spring term, on Tuesday from 8:30am to 12:30pm. Presence to the lab sessions is mandatory - any absence to these sessions will have to be officially justified.
An electronic version of the course notes and slides will be available on a server.

Contacts

Tristan Gilet Assistant professor Microfluidics Lab Office: B52 - 0/420 Email: Tristan.Gilet@uliege.be

Association of one or more MOOCs