TMM

Question 1

LCO 3.2.4 “Axial Shape Index” requirement

Answer 1

The ASI shall be within the limits specified in the COLR

Question 2

LCO 3.2.4 “Axial Shape Index” applicability

Answer 2

Mode 1 with thermal power > 25% RTP

Question 3

LCO 3.3.1 “RPS Instrumentation” requirement for TMMs

Answer 3

4 RPS trip units, associated instrument channels, and associated ZPM Bypass removal channels for VHPT and TM/LP shall be operable

Question 4

LCO 3.3.1 “RPS Instrumentation” applicability for TMMs

Answer 4

Modes 1-2
Modes 3-5 with more than 1 full length control rod capable of being withdrawn and PCS boron concentration less than refueling boron concentration

Question 5

LCO 3.4.1 “PCS Pressure, Temperature, and Flow DNB Limits” requirement

Answer 5

PCS DNB parameters for PZR pressure, cold leg temperature, and PCS total flow rate shall be within limits specified in the COLR

Question 6

LCO 3.4.1 “PCS Pressure, Temperature, and Flow DNB Limits” applicability

Answer 6

Mode 1

Question 7

What are the power supplies for the TMMs?

Answer 7

Y-10/20/30/40 for channel A/B/C/D respectively

Question 8

What are the inputs into the TMMs?

Answer 8

• 2 Tcold
• 2 Thot
• Power Range NI Upper
• Power Range NI Lower
• Power Range NI Upper + Lower

Question 9

What are the outputs from the TMMs?

Answer 9

• VHPT trip and alarm
• TM/LP trip and alarm
• NI/Delta-T Power deviation
• ASI alarm
• Comparator alarm

Question 10

How is the ASI alarm generated?

Answer 10

• The first signal is generated from the Excore NI upper and lower inputs to generate ASI signal
• ASI signal is sent to ASI Function that uses Incores to correct the ASI signal for bleed over and outputs and axial offset signal
• The second signal is generated from the higher of NI Power or Delta-T power, which is sent through the LOCA Peaking Function
• The output of the LOCA Peaking Function is sent to the Local Power Density Function, which generates the ASI alarm setpoint for the sensed reactor power
• These 2 signals are sent to the ASI alarm comparator, and if the axial offset signal exceeds alarm setpoint, then ASI alarm comes in

Question 11

How is the TM/LP Trip and Alarm generated?

Answer 11

• The first signal is the Tcal signal, which is generated by using the higher of the 2 Tcold inputs, which is converted to a Tcal signal
• The second signal is the power penalty (Qdnb), which is generated by multiplying the axial function (axial offset) and the power peaking function (generated using the higher of NI power and Delta-T power)
• Tcal and Qdnb are then summed to output Pvar
• A comparator then takes the larger of either Pvar or 1760 psia and outputs Ptrip, which is the TM/LP trip setpoint

Question 12

What is the TM/LP pre-trip setpoint?

Answer 12

Approximately 50 psi above the trip setpoint

Question 13

How is the VHPT trip and alarm generated?

Answer 13

• Max of NI power and Delta-T power inputs into VHP function
• Output of VHP function is input into a comparator, where it is compared to a pre-set value.
• If it is larger than the pre-set value, a signal is sent to trip the reactor, or provide the pre-trip alarm

Question 14

What are the minimum, maximum, and normal VHPT setpoints?

Answer 14

• Minimum - 30% power
• Maximum - 106.5% power
• Normal - 15% above reset power level

Question 15

What are the minimum, maximum, and normal VHP pre-trip setpoints?

Answer 15

• Minimum - 28.5%
• Maximum - 105%
• Normal - 13.5% above reset power level

Question 16

How are the VHP trip/pre-trip setpoints changed?

Answer 16

• Setpoints auto change when power decreases
• Setpoints need to be manually changed when power increases by pushing the “VHP Trip Reset” button on C-02 or from the TMM itself

Question 17

What are the requirements to reset the VHP trip/pre-trip setpoints?

Answer 17

• Reactor power hasn’t changed more than 0.5% for 10 minutes following a transient
• Control rods are withdrawn above PDIL
• PZR pressure within 2010-2100 psia, controlled, and approaching NOP of 2060 psia
• PZR level within 40%-60%
• Both S/G levels between 60%-70%
• Tave within 3% of Tref

Question 18

What are the Tcold setpoints for the “Calculator Trouble” alarm?

Answer 18

Tcold-max > 543.5 F or < 525 F

Question 19

How is Delta-T power calculated?

Answer 19

Delta T between the highest of the 2 Tcolds and the average of the 2 Thots

Question 20

How is NI power calculated?

Answer 20

Upper + Lower from the excore

Question 21

What causes “NI/Delta-T Deviation” alarm?

Answer 21

Deviation between NI Power and Delta-T Power > 3% for > 18 seconds

Question 22

How do we respond to “NI/Delta-T Deviation” alarm?

Answer 22

If alarm is in, and power will be stable for >= 1 hour, then perform a heat balance and calibrate power range/Delta-T power