Core Thermal Limits

Question 1

State the reason thermal limits are necessary.

Answer 1

Thermal limits are established to maintain fuel-cladding integrity during normal operation and transient events

Question 2

Describe Radial Peaking Factor (RPF):

Answer 2

It is a ratio of peak heat flux at one core elevation to average heat flux for that same core elevation

Question 3

Describe Axial Peaking Factor (APF):

Answer 3

It is a ratio of average heat flux for one elevation to average heat flux for entire core.

Question 4

Describe Local Peaking Factor (LPF):

Answer 4

It is the product of radial and axial peaking factors

Question 5

Describe Total Peaking Factor (TPF):

Answer 5

It is the product of nuclear and heat flux engineering hot channel factors:

Question 6

Describe factors that affect peaking and hot channel factors

Answer 6

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Question 7

Describe the function of the core protection calculator (thermal margin calculator)

Answer 7

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Question 8

What is the peak cladding temperature?

Answer 8

2200 F. Above this and you get an excessive reaction of zirconium and water.

Question 9

What is the nuclear heat flux hot channel factor?

Answer 9

It is a measure of relationship between peak linear power density to average linear power density in core at particular elevation, assuming nominal fuel pellet and fuel rod dimensions.