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1. Introudction (presentation) (note)
- Relationship between Heat Transfer and Thermodynamics
- Modes of Heat Transfer
- Concept of Thermal Resistance
2. Transport Theorem (presentation) (note)
- Reynolds Transport Theorem (RTT)
- General Transport Theorem (GTT)
- Conservation Equations
- Conservation of Mass
- Conservation of Momentum
- Conservation of Energy
- Entropy Equation
- Buckingham Pi Theorem (Dimensionaless Analysis
3. Conduction (presentation) (note)
- Heat conduction equation
- Bounrary condition
- How to solve problems?
- Fin design
- Examples of heat transfer in fin design
4. Multi-dimensional Heta Transfer (note1 and note2 ) (note)
- Steady-state two-dimensional heat transfer
- Seperation of variables
- Superposition of solutions
- Special functions
- Steady-state with heat generation
- Transient heat conduction analysis
- Lumped capacity analysis
- Inifinite flat plate
- Multi-dimensional (Product Solution)
- Conduction shape factors
5. Convective Heat Transfer (Internal Flow) (note)
a. Introduction
b. Couette flow
c. Couette flow -- parallel flow
d. Fully-developed flow of parallel plates
e. Fully-developed flow of circular pipes
f. Non-circular cross-sectional area with fully-developed flow6. Convective Heat Transfer (External Flow) (note)
a. Laminar Boundary Layer Equation
b. Integral Solution
c. Similarity Solution
d. Falkner and Skan Flows
Main page
Table of Content
HW, Quiz and Exams
Syllabus
Policy