Course title
4M999600,7M3200001
Microscale Fluid Mechanics

ono naoki Click to show questionnaire result at 2018
Course content
Fundamental theories and analysis methods in microscale fluid mechanics and its applications will be lectured. Fluid is treated as continuous media in the lecture. Surface tension effect is reviewd because it is remarkable when the liquid-gas interface exists in microscale. Method of Stokes flow approximation and technique of potential flow theory will be lectured, as they are very useful in analyzing the flow in microscale environment. As the application examples, micromixing, Marangoni effect, mass transfer and electromagnetic effect will be introduced. Student's summary material from the given handout material will be read by them at first, and then the comments and detailed explanation will be offered by the lecturer.
Purpose of class
To obtain basic knowledge about microscale fluid mechanics and to study typical expample in its application.
Goals and objectives
  1. To learn the basics of Stokes flow approximation theory.
  2. To learn the technique of potential flow theory for microscale.
  3. To review the surface tension effect and its analysis method.
  4. To obtain basic knowledge of the related applications.
Language
English
Class schedule

Class schedule HW assignments (Including preparation and review of the class.) Amount of Time Required
1. Characteristics and treating method of microscale flow Preview of handout material 190minutes
2. Theory for surface tension effect (1) Preview of handout material 190minutes
3. Theory for surface tension effect (2) Preview of handout material 190minutes
4. Theory for surface tension effect (3) Preview of handout material 190minutes
5. Method of Stokes flow approximaiton (1) Preview of handout material 190minutes
6. Method of Stokes flow approximaiton (2) Preview of handout material 190minutes
7. Method of Stokes flow approximaiton (3) Preview of handout material 190minutes
8. Technique of potential flow theory (1) Preview of handout material 190minutes
9. Technique of potential flow theory (2) Preview of handout material 190minutes
10. Technique of potential flow theory (3) Preview of handout material 190minutes
11. Application: micromixing Preview of handout material 190minutes
12. Application: Marangoni effect Preview of handout material 190minutes
13. Application: mass transfer Preview of handout material 190minutes
14. Summary and future trend in R&D Preview of handout material 190minutes
Total. - - 2660minutes
Relationship between 'Goals and Objectives' and 'Course Outcomes'

presentation report Total.
1. 15% 15% 30%
2. 15% 15% 30%
3. 15% 15% 30%
4. 5% 5% 10%
Total. 50% 50% -
Evaluation method and criteria
Presentation material by the student 50%, and submission of report of homework material 50%, which become 100% to evaluate.
The students with over 60% of the evaluation will be given credit.60% means that the student can understand applicable theories and equations and analyze his data to some extent when he encounters microscale flow problems.
Textbooks and reference materials
Reference books:
(1)B.J.Kirby, "Micro- and Nanoscale Fluid Mechanics(Transport in Microfluidics Devices)",Cambridge University Press.
(2)A.W.Adamson and A.P.Gast, "Physical Chemistry of Surfaces", Wiley Interscience.
No need to purchase the books. The necessary part for the lecture will be handed out in the class.
Prerequisites
Not in particular. Basic of fluid mechanics should be reviewd in advance.
Office hours and How to contact professors for questions
  • Monday, 16:50~18:30. Appointment in advance is preferable.
Relation to the environment
Non-environment-related course
Regionally-oriented
Non-regionally-oriented course
Development of social and professional independence
  • Course that cultivates an ability for utilizing knowledge
Active-learning course
N/A
Course by professor with work experience
Work experience Work experience and relevance to the course content if applicatable
Applicatable The professor used to work on R&D in semiconductor industry. The research was related fluid mechanics and heat transfer.
Last modified : Thu Mar 21 15:36:38 JST 2019