Course title | |||||
物質機能応用特論Ⅱ [Advanced Functional Application of materials II] | |||||
Course category | interdisciplinary exchange courses | Requirement | Credit | 1 | |
Department | Year | ~ | Semester | 1st | |
Course type | 1st | Course code | 112106 | ||
Instructor(s) | |||||
稲澤 晋 [INASAWA Susumu] | |||||
Facility affiliation | Graduate School of Bio-Applications and Systems Engineering | Office | afjgxte/L1151 | Email address |
Course description |
We need to understand and control transport phenomena of mass, heat and momentum to realize a optimal condition for the use of materials. In this lecture, students study on how we describe phenomena in a mathematical forms. By solving excersices in each class, you can understand basics in modeling. We study some practical topics, such as momentum flux and catalyst reaction with mass transfer. We study some practical problems related to momentum and surface reaction on catalyst with mass transfer, and so on. |
Expected Learning |
Understanding a basics of mathematical modeling Corresponding criteria in the Diploma Policy: See the Curriculum maps for BASE. |
Course schedule |
The contents below would be changed depending upon your understanding. The following is an example in 2019. 1st Thermal conduction in solid, diffusion of materials, boundary conditions 2nd Diffusion equation in spherical coordinate, boundary conditions 3rd Dimensionless form of differential equations, estimation of required time using characteristic time constants 4th Flow in a circular tube and momentum balance 5th Adsorption/desorption, mass transfer and reaction: combined case. 6th Reaction and reaction enthalpy, sever heat-up of a reactor 7th incoming and outcoming of mass, energy and momentum 8th Summary and revise Final exam. ・Mass transfer, adsorption and surface reaction on catalyst (ii) ・Formation of fouling layer and thermal resistance ・Rate-limiting step and approximate solution(i): catalyst reaction ・Rate-limiting step and approximate solution (ii): heat transfer via tube ・Dimensionless form of differential equations: time constants and their physical meaning ・Summary Final Exam Solution of a model and understanding using the solution Chemical reactions and heat balance fundamental equations for heat exchangers Numerical solution for unsteady state problems |
Prerequisites |
Students should understand fundamental methods to solve differential equations. In addition to 15 hours that students spend in the class, students are recommended to prepare for and revise the lectures, spending the standard amount of time as specified by the University. |
Required Text(s) and Materials |
References |
"Transport phenomena" by R. Byron Bird |
Assessment/Grading |
Excersises in every week (30%) and the final examination (70%).Total score is 100 and students with a score more than 60 are certified. S: >90, A: 90-80, B: 80-70, C: 70-60. |
Message from instructor(s) |
To derivate equations and solve them by your hands is helpful for your understanding. |
Course keywords |
Office hours |
Mon. 11:00-12:45 |
Remarks 1 |
Remarks 2 |
Related URL |
Lecture Language |
Japanese |
Language Subject |
Last update |
1/12/2021 1:29:37 PM |