HEAT TRANSFER

CHAPTER 1

• Introduction of terms and units
• Modes of Heat Transfer

1. Conduction
2. Convection
3. Radiation

CHAPTER 2

• Fourier’s Law
• The Heat Equation - Wall, Cylinder, Sphere
• Boundary and Initial Conditions

Eqts.
4
Differ
Geometries

Use to solve ODE’s

CHAPTER 3

• Heat transfer modeled as circuits
• Circuit model with heat generation
• Heat loss for fins

I=V/R
Or
q=T/R

CHAPTER 5

• Lump Capacitance
• Including Spacial Effects

Solve for
t
Using
Fo

Substitution is key

• Reynolds Analogy
• Mod. Reynolds Analogy
• Nusselt Number

CHAPTER 7

• External Convection

Must be able to determine conditions

CHAPTER 8

• Hydrodynamic and Thermal Considerations
• Heat Transfer Correlations

Determine the conditions of flow

CHAPTER 9

• Free Convection

Determine the geometry in the problem and use correlating equation

CHAPTER 12

• Blackbody Radiation
• Absorption, Reflection, and Transmission, Grey Surfaces

Equations for blackbody radiation

Use table to find lambda intervals