Course title
移動現象論および演習   [Transport Phenomena and Exercises]
Course category technology speciality courses,ets.  Requirement   Credit 3 
Department   Year 24  Semester 1st 
Course type 1st  Course code 022409
Instructor(s)
滝山 博志, 長津 雄一郎   [TAKIYAMA Hiroshi, NAGATSU Yuichiro]
Facility affiliation Faculty of Engineering Office   Email address

Course description
When temperature and density are not uniform, the change that is going to become uniform occurs in substance. This change is called transport phenomena. Transport phenomena of the flow field is handled. The outline of the lecture is as follows.
Momentum transfer:
The basics and application of the momentum balance
Heat transfer:
Heat conduction, convection transmission
Design principle of the heat exchanger
Mass transfer:
Method of analysis of the ingredient transport phenomena by diffusion flux and the mass flux
Expected Learning
The relationships between the change rate of temperature and concentration and the transport phenomena are covered. The applied power to a practical problem is cultivated by practice.
Course schedule
eek 1: Introduction of the transport phenomena
Week 2: About expression of the transport phenomena, driving force and flux The basics of mathematics to understand transport phenomena
Week 3:Transfer mechanism of heat conductivity and the thermal energy, Thermal energy balance of the microsection
Week 4: Heat conduction (cylinder coordinate system) of the multilayered wall, Heat conduction in a fluid "boundary film :"
Week 5: Method of analysis using the coefficient of heat transfer, Mechanism review day of viscosity and the momentum transfer
Week 6: Velocity distribution of momentum balance and the laminar flow of the microsection
Week 7: Examination of the first half
Week 8: Velocity distribution of momentum balance and the laminar flow of the microsection
Momentum balance and boundary condition of the microsection, Flow in the tube, Interface momentum transfar
Week 9: Laminar flow and turbulence, Coefficient of pipe friction, Simplification of the general fundamental equation, Power calculation necessary for transportation
Week 10-11: Mechanism of diffusion coefficient and the mass transfer, Diffusive Fick's law of the binary system, Mechanism of diffusion coefficient and the mass transfer, The mass caused by the convection and molar transfer
Week 12-13: Summary of mass flux and the molar flux, Concentration distribution during a solid and laminar flow, Liquid evaporation rate (diffusion in the standstill gaseous film),
Mass transfer rate from a sphere and the tube surface
Week 14: Method of analysis of the phenomenon with the phase change, Dynamic similarity of the transport phenomena
Week 15: Term-end examination
Prerequisites
Required Text(s) and Materials
"Transport Phenomena”, R.B.Bird, W.E.Stewart and E.N.Lightfoot, John & Wiley)
References
Assessment/Grading
The middle and a term-end examination, the issue of practice of every time are evaluated generally.
Message from instructor(s)
Course keywords
momentum transfer, thermal energy transfer, mass transfer
Office hours
Remarks 1
Remarks 2
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Lecture Language
Language Subject
Last update
2/27/2019 2:06:41 PM