|
Week - 1 |
Introduction to Heat Transfer:
a) Definitions and concepts
b) special law of Heat Transfer
c) The place of application of Heat Transfer
d) Units |
|
Week - 2 |
Conduction Heat Transfer:
a) the Fourier heat conduction law
b) General heat conduction equation
c) thermal properties of matter
d) Regular regime
e) Homogeneous plane wall |
|
Week - 3 |
Conduction Heat Transfer (Continued):
f) The concept of homogeneous plane wall thermal resistance
g) Combination wall
h) Contact resistance
i) loss of edge and corner
l) Geometric factors |
|
Week - 4 |
Convective Heat Transfer:
a) The general character of Convection
b) Reynolds analogy concept
c) Thermal boundary layer
d) Laminar and turbulent flow |
|
Week - 5 |
Convective Heat Transfer (Continued):
e) Free convection features
f) free convection in a vertical plate
g) Natural Convection
h) Condensation and Boiling |
|
Week - 6 |
I. Midterm |
|
Week - 7 |
Radiative Heat Transfer:
a) Basic concepts
b) Black body radiation
c) Surface spreading
d) the surface absorption, reflection and transmission
e) Kirchhoff and Stefan-Boltzmann law
f) Gray surface |
|
Week - 8 |
Boiling, condensation and heat exchangers
a) Boiling types
b) Condensation physical mechanism
c) heat exchanger types
d) Overall heat transfer coefficient
e) Pollution factor |
|
Week - 9 |
Combined Heat Transfer Systems |
|
Week - 10 |
2. Midterm |
|
Week - 11 |
Term Paper presentations |
|
Week - 12 |
Term Paper presentations (Continued) |
|
Week - 13 |
Term Paper presentations (Continued) |
|
Week - 14 |
Term Paper presentations (Continued) |
Eskisehir Technical University Info Package 
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