This course provides basic equations and solutions on transport phenomena. Transport phenomena consists of momentum transfer, heat transfer and mass transfer. Similarity of these basic equations are presented. Analysis models are made by simplifying the basic equation to appropriate simple equation for real phenomena. Models are solved mainly numerically. Numerical solutions are compared to analytical solutions.
The aim of the course is learning on model making and solving mathematical models on transport phenomena.
1) Explain appropriate model making to real transport situation
2) Explain methods of numerical solution
3) Explain how well model predicts the phenomena
Transport phenomena, Bioprocess
|✔ Specialist skills||Intercultural skills||Communication skills||Critical thinking skills||Practical and/or problem-solving skills|
The detailed contents of the class will be shown using blackboards or PowerPoint slides on a projector.
At the end of class, students are given exercise problems related to the lecture given that day to solve.
|Course schedule||Required learning|
|Class 1||Basic equations of transport phenomena||Understand meaning of terms in the basic equiations|
|Class 2||Mass transfer (1), Laminar flow||Understand mass transfer in laminar flow|
|Class 3||Mass transfer (2), Turbulent flow||Understand mass transfer in turbulent flow|
|Class 4||Energy transfer (1), heat conduction in solids||Understand conduction heat transfer|
|Class 5||Energy transfer (2), convective heat transfer, multiple heat transfer||Understand convective heat transfer|
|Class 6||Bio process (1)||Understand bio process|
|Class 7||Bio process (2)||Explain bio process|
To be announced
Students' knowledge of the fundamentals of polymer science and their ability to apply them to problems will be assessed.
Final exams 80% and exercise problems 20%.