Course title
分子化学工学特論Ⅱ   [Advanced Molecular Chemical Engineering Ⅱ]
Course category courses for doctoral programs  Requirement   Credit 2 
Department   Year   Semester Spring 
Course type Spring  Course code 1080219
Instructor(s)
徳山 英昭   [TOKUYAMA Hideaki]
Facility affiliation Faculty of Engineering Office   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. This class focuses on fundamental issues of mathematical 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
Course schedule
The contents below would be changed depending upon your understanding.

・Estimation of temperature of planets in the solar system
・Origin of pressure and estimation of pressure and temperature at the top of a mountain
・Mass balance equation in Continuous Stirred Tank Reactor(CSTR).
・Mass balance equation in Plug flor Reactor (PFR).
・Fundamental equations for heat exchangers (Parallel Flow)
・Fundamental equations for heat exchangers (Countercurrent Flow)
・Evaporation of water in a glass.
・Evaporation of a water droplet in air

Exam
・Momentum tranfer in fluids
・Mass transfer, adsorption and surface reaction on catalyst (i)
・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
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 diffrential equations.
Required Text(s) and Materials
References
"Transport phenomena" by R. Byron Bird
Assessment/Grading
Excersize in each class and the final examination are considered for evaluation.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
Remarks 1
Remarks 2
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Lecture Language
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Last update
3/8/2018 3:23:34 PM