課程概述 |
Course outline
Part I Heat Transfer
1. Introduction to Heat Transfer
(a) Mechanism of Energy Transport -- Conduction, Convection and Radiation
(b) Heat Flux, Heat Transfer Rate, and Quantity of Energy
(c) Temperature Difference
2. Heat Conduction
(a) Fourier Law of Heat Conduction, Thermal Conductivity
(b) Steady state Heat Conduction
(c) Extended Surfaces
(d) Optimal Thickness of Insulation
(e) Overall Heat Transfer Coefficient
(f) Transient Problems
3. Equation of Energy and Macroscopic Energy Balance
(a) Equation of Energy
(b) Shell Balance
(c) Simple Mathematical Modeling of Heat Transfer Problem
4. Convective Heat Transfer
(a) Heat Transfer Coefficient
(b) Heat Transfer with Laminar Flow
(c) Heat Transfer with Turbulent Flow
(d) Forced Convection
(e) Natural Convection
5. Radiation
(a) Introduction
(b) Black Body, Gray Body and Stefan Boltzman Law
(c) Direct Radiation between Black Bodies
(d) Radiation between Nonblack Bodies
(e) Gases Radiation
6. Heat Exchanger Design
(a) Classification of Heat Exchanger
(b) Mean Temperature Difference
(c) Double Pipe Heat Exchanger
(d) Shell and Tube Heat Exchanger
7. Heat Transfer with Phase Change
(a) Boiling
(b) Condensation
8. Evaporation
(a) Introduction to Evaporation
(b) Equipment type and Evaporator Operation
(c) Design of Multi-effect Evaporator
(d) Improved Efficiency in Evaporator
Part II Mass Transfer (BSL chapt. 16, 17 and Coulson chap. 10, 12)
9. Molecular Diffusion
(a) Flux and Fick*s law
(b) Diffusivity and Diffusion Coefficient
(c) Steady State Molecular Diffusion
10. Interphase Mass Transfer
(a) Mass Transfer Coefficient
(b) Convective Mass Transfer
(c) Momentum, Heat and Mass Transfer Analogy
(d) Simultaneous Heat and Mass Transfer
Part I Heat Transfer
1. Introduction to Heat Transfer
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