Heat Transfer
OBJECTIVES
TERMINAL OBJECTIVE
1.0
Given the operating conditions of a thermodynamic system and the necessary
formulas, EVALUATE the heat transfer processes which are occurring.
ENABLING OBJECTIVES
1.1
DESCRIBE the difference between heat and temperature.
1.2
DESCRIBE the difference between heat and work.
1.3
DESCRIBE the Second Law of Thermodynamics and how it relates to heat transfer.
1.4
DESCRIBE the three modes of heat transfer.
1.5
DEFINE the following terms as they relate to heat transfer:
a.
Heat flux
b.
Thermal conductivity
c.
Log mean temperature difference
d.
Convective heat transfer coefficient
e.
Overall heat transfer coefficient
f.
Bulk temperature
1.6
Given Fourier’s Law of Conduction, CALCULATE the conduction heat flux in a
rectangular coordinate system.
1.7
Given the formula and the necessary values, CALCULATE the equivalent thermal
resistance.
1.8
Given Fourier’s Law of Conduction, CALCULATE the conduction heat flux in a
cylindrical coordinate system.
1.9
Given the formula for heat transfer and the operating conditions of the system,
CALCULATE the rate of heat transfer by convection.
1.10
DESCRIBE how the following terms relate to radiant heat transfer:
a.
Black body radiation
b.
Emissivity
c.
Radiation configuration factor
Rev. 0
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HT-02
