Cycle 22 Core Operating Limits Report (COLR)

ML040720456
Person / Time
Site:	Hatch
Issue date:	03/09/2004
From:	Sumner H Southern Nuclear Operating Co
To:	Document Control Desk, Office of Nuclear Reactor Regulation
References
NL-04-0369
Download: ML040720456 (31)
v • d • e

Text

H. L Sumner, Jr.

Vice President Hatch Project Southern Nuclear Operating Company, Inc.

Post Office Box 1295 Birmingham, Alabama 35201 Tel 205.992.7279 March 9, 2004 SOUTHERNAM COMPANY Energy to Serve Your World' NL-04-0369 Docket No.:

50-321 U. S. Nuclear Regulatory Commission ATTN: Document Control Desk Washington, D. C. 20555-0001 Edwin I. Hatch Nuclear Plant Unit 1 Unit I Cycle 22 Core Operating Limits Report (COLR)

Ladies and Gentlemen:

In accordance with Technical Specification 5.6.5, Southern Nuclear Operating Company (SNC) hereby submits the Edwin 1. Hatch Nuclear Plant Unit I Cycle 22 Core Operating Limits Report (COLR), Version 1.

This letter contains no NRC commitments. If you have any questions, please advise.

C H. L. Sumner, Jr.

HLS/IL/daj

Enclosure:

Unit I Cycle 22 Core Operating Limits Report, Version I cc:

Southern Nuclear Operating Company Mr. J. B. Beasley, Jr., Executive Vice President Mr. G. R. Frederick, General Manager - Plant Hatch RTYPE: CHAO2.004 U. S. Nuclear Regulatory Commission Mr. L. A. Reyes, Regional Administrator Mr. C. Gratton, NRR Project Manager - Hatch Mr. D. S. Simpkins, Senior Resident Inspector - Hatch 001

SOUTHERN NUCLEAR OPERATING COMPANY EDWIN I. HATCH NUCLEAR PLANT Unit I Cycle 22 CORE OPERATING LIMITS REPORT Version 1 Southern Nuclear Operating Company Post Office Box 1295 Birmingham, Alabama 35201

t Edwin I. Hatch Nuclear Plant Unit I Cycle 22 Core Operating Limits Report TABLE OF CONTENTS Section Title Paqe 1.0 Introduction I

2.0 APLHGR Limits 2

3.0 MCPR Operating Limits 6

4.0 LHGR Limits 16 5.0 PBDA Amplitude Setpoints 24 6.0 References 25 i

Version1

t Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report TABLES Table No.

3-1 4-1 Title MCPR Operating Flexibility Options LHGR Operating Flexibility Options Page 8

17 ii Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report FIGURES Figure No.

Title Page 2-1 Flow-Dependent APLHGR Multiplier 3

(MAPFACF) versus Core Flow 2-2 APLHGR Limit versus Average Planar 4

Exposure (Fuel Type: GE13) 2-3 APLHGR Limit versus Average Planar 5

Exposure (Fuel Type: GE14) 3-1A Power-Dependent MCPR Limit (MCPRp) 9 versus Core Power from 24% to 28% of Rated Core Power (Turbine Bypass Valves Operable) 3-1 B Power-Dependent MCPR Limit (MCPRp) 10 versus Core Power from 24% to 28% of Rated Core Power (Turbine Bypass Valves Inoperable) 3-2 Flow-Dependent MCPR Limit (MCPRF) 11 versus Core Flow 3-3A Power-Dependent MCPR Multiplier (Kp) 12 versus Core Power (Pressure Regulator Operable) 3-38 Power-Dependent MCPR Multiplier (Kp) 13 versus Core Power (Pressure Regulator Inoperable) 34A MCPR Limits versus Average Scram Time 14 (BOC to EOR-1800 MWd/st) 3-4B MCPR Limits versus Average Scram Time 15 (EOR-1800 MWdlst to EEOC) 4-1 Flow-Dependent LHGR Multiplier 18 (LHGRFACF) versus Core Flow iii Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report Figure No.

Title Page 4-2A Power-Dependent LHGR Multiplier 19 (LHGRFACp) versus Core Power (Turbine Bypass Valves Operable and Pressure Regulator Operable) 4-21 Power-Dependent LHGR Multiplier 20 (LHGRFACp) versus Core Power (Turbine Bypass Valves Inoperable and Pressure Regulator Operable) 4-2C Power-Dependent LHGR Multiplier 21 (LHGRFACp) versus Core Power (Pressure Regulator Inoperable) 4-3 LHGR versus Peak Pellet Exposure 22 (Fuel Type: GE13) 4-4 LHGR versus Peak Pellet Exposure 23 (Fuel Type: GE14) iv Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report

1.0 INTRODUCTION

The Core Operating Limits Report (COLR) for Plant Hatch Unit 1 Cycle 22 is prepared in accordance with the requirements of Technical Specification 5.6.5. The core operating limits presented herein were developed using NRC-approved methods (References 1, 2, 3, and 4). Results from the reload analyses for the fuel in Unit 1 Cycle 22 are documented in References 3, 4, 5 and 6.

The following core operating limits are included in this report:

a. Average Planar Linear Heat Generation Rate (APLHGR) - Technical Specification 3.2.1

b. Minimum Critical Power Ratio (MCPR) - Technical Specification 3.2.2

c. Linear Heat Generation Rate (LHGR) - Technical Specification 3.2.3 From a fuel thermal limits perspective, the following limitations are placed on Unit 1 operation with equipment out of service.

Equipment I Condition Limitation EOC-RPT Out of Service AND Turbine Bypass Valves Inoperable Simultaneously Not analyzed

• Core thermal power Single-Loop Operation (SLO)

< 2000 MWth S Core Flow < 56% of Rated Pressure Regulator Inoperable Option B Scram Speeds Must be Met (in place)

Also included in this report are the maximum allowable scram setpoints for the Period Based Detection Algorithm (PBDA) in the Oscillation Power Range Monitor (OPRM).

1 Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report 2.0 APLHGR LIMITS (Technical Specification 3.2.1)

The APLHGR limit for each six inch axial segment of each fuel assembly in the core is the applicable APLHGR limit taken from Figure 2-2 or 2-3, multiplied by the flow-dependent multiplier, MAPFACF, from Figure 2-1.

2 Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report to U.

i 0.9

_ 0.86 i6> 0.85 0

CL 0.8 CC) r a

0.7 U-0C.

'a 0.6 CL i

0.5 IL 0.4 I.

I TLO I

TLO J

IGEI3SLOI 4

4 ____________

4 li I

'I

.1 GEI4SLO S

4 I

-I I

I __________________________

I I ________

30 40 50 60 61 70 80 90 TraO Core Flow (% of 1bted) 9perating Conditions Flow SLO / TLO Fuel Type MAPFACF 30 s F* 61 TLO All 0.86 61 < F TLO All 1.00 30S F SLO GE13 0.85 30

• F SLO GE14 0.80 F = Percent of Rated Core Flow FIGURE 2-1 Flow-Dependent APLHGR Multiplier (MAPFACF) versus Core Flow 3

Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report

'4.0 Average Planar Exposure 0.00 24.40 32.66 56.70 63.50 APLHGR Limit 13.42 13.42 12.70 9.00 6.40 no

.0 E

0

-i 8.0 0.

7.0 6.0 5.0 -

SD..

0.0 5.0 VD.0 150 20.0 25.0 300 35.0 40.0 45.0 50.0 55D 60.0 65.0 70.0 Average Planar Exposure (GWdIST)

FIGURE 2-2 APLHGR Limit versus Average Planar Exposure (Fuel Type: GE13) 4 Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report Average Planar Exposure 0.00 14.51 19.13 57.61 63.50 APLHGR Limit 12.82 12.82 12.82 8.00 5.00 E

,no-

°o-

-';11-11-1'-

90 -

60 -

4 0 0.0 5.0 0.0 15.0 20.0 25.0 30.0 350 40.0 45.0 50.0 55.0 60.0 65.0 70.0 Average Planar Exposure (GWd/ST)

FIGURE 2-3 APLHGR Limit versus Average Planar Exposure (Fuel Type: GE14) 5 Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report 3.0 MCPR OPERATING LIMITS (Technical Specification 3.2.2)

The MCPR operating limit (OLMCPR) is a function of core power, core flow, average scram time, number of operating recirculation loops, EOC-RPT system status, operability of the turbine bypass valves, and whether both pressure regulators are operable.

With both recirculation pumps in operation (TLO), the OLMCPR is determined as follows:

a.

For 24%

• power < 28%, the power-dependent MCPR limit, MCPRp, as determined by Table 3-1.

b. For power Ž 28%, the OLMCPR is the greater of either:

1) The flow-dependent MCPR limit, MCPRF, from Figure 3-2, or

2) The product of the power-dependent multiplier, Kp, and the rated-power, rated-flow OLMCPR, as determined by Table 3-1.

With only one recirculation pump in operation (SLO), the OLMCPR is the TLO OLMCPR plus 0.02.

These limits apply to all modes of operation with intermittent feedwater temperature reduction, as well as operation with normal feedwater temperatures.

In Figures 3-4A and 3-4B, Option A scram time OLMCPRs correspond to r = 1.0, where X is determined from scram time measurements performed in accordance with Technical Specifications Surveillance Requirements 3.1.4.1 and 3.1.4.2. Option B values correspond to X = 0.0. For scram times between Option A and Option B, the rated-power, rated-flow OLMCPR corresponds to T. If X has not been determined, Option A limits are to be used.

6 Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report The average scram time of the control rods, T, is defined as:

Tave - TB

= 0, or

, whichever is greater.

TA - TB where:

TA

= 1.08 sec (Technical Specification 3.1.4, Table 3.1.4-1, scram time limit to notch 36).

112 TB=

+ 1.65

• a *[

Ni EMe i-1 where:

j

= 0.822 sec (mean scram time used in the transient analysis).

a

= 0.018 sec (standard deviation of g).

n Tave =

'NI ZNi where:

n

= number of surveillance tests performed to date in the cycle.

N. = number of active control rods measured in the ith surveillance test.

Tj

= average scram time to notch 36 of all rods in the ith surveillance test.

N. = total number of active rods measured in Technical Specifications Surveillance Requirement 3.1.4.1.

7 Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report TABLE 3-1 MCPR Operating Flexibility Options Rated-Cyl-urie MCPRp Pressure KCre

Power, Average EOC-RPT Bypass Curve Regulator Kp Curve Rated-Flow Exposure Valves OLMCPRs In Service Operable Figure 3-3A BOC or Operable Figure 3-1A to Out of Service Inoperable Figure 3-3B Figure 34A toR10 Fiur 3prbl-4Ar 33 EOR-1 800 In Service Inoperable Figure 3-1B Operable Figure 3A Inoperable Figure 3-38 In Service Operable Figure 3-3A EOR-1 800 or Operable Figure 3I1A Oeal iue3 to Out of Service Operable Figure 3-1A Inoperable Figure 3-31 Figure 3-4B EEOC Operable Figure 3-3A In Service Inoperable Figure 3-1B Operable Figure 3B Inoperable Figure 3-313 BOC = Beginning of Cycle EOR = End of rated conditions (100% power, 100% flow, ARO, with nominal feedwater temp.)

EEOC = Extended End of Cycle (beyond EOR, 100% power, 105% flow, with reduced feedwater temp.)

8 Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report 2.8 i.

L 2.6 0.

Z7E o 2.

Ca C

C0

.2 0

I-2.0

, I..,l*,6I 24 25 26 Core Power (% of Fbted) 27 28 MCPRp = A + B (28 - P)

F l

A I

B 15F s60 2.15 0.00 I F>60 2.50 0.03 P = Percent of Rated Core Power F = Percent of Rated Core Flow FIGURE 3-1A Power-Dependent MCPR Limit (MCPRp) versus Core Power from 24% to 28% of Rated Core Power (Turbine Bypass Valves Operable) 9 Version 1

I Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report 4.0 3.8 IL ix 3.6 0~

U 3.4

-J 32 0.

UC)

=3.0 0

G 2.8 a

it4) 03" 2.6 0~

2.4 22 24 25 26 27 Core Power (% of Rated) 28 MCPRp = A + B (28 - P)

F l

A I

B l

F* 60 2.40 0.070 F > 60 3.32 0.1167 P = Percent of Rated Core Power F = Percent of Rated Core Flow FIGURE 3-1B Power-Dependent MCPR Limit (MCPRp) versus Core Power from 24% to 28% of Rated Core Power (Turbine Bypass Valves Inoperable) 10 Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report 1

I a.

0U0..

LB L5 L4 L3 12 40 50 60 70 Core Flow (% of Rated) so 90

'U MCPRF = Maximum [1.25, (A*F + B)]

Operating Conditions Values of Variables Maximum Core Flow (% of A

B Rated) 107.0

-0.00586 1.697 F = Percent of Rated Core Flow FIGURE 3-2 Flow-Dependent MCPR Limit (MCPRF) versus Core Flow 11 Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report A.

.2 W.

a.

C) c 0

00.

15 17 1

2-to lO..

,.' - - i' ' i '1i'- -

28 32 36 40 44 48 52 56 60 64 68 72 76 80 84 88 92 96

'D Core Power (%of Rated)

Kp= A+ B (P0 - P)

P A

B Po 28 s P < 45 1.28 0.01340 45 45 s P < 60 1 1.15 l

0.00867 7 60 605 sP 1.00 0.00375 100 P = Percent of Rated Core Power FIGURE 3-3A Power-Dependent MCPR Multiplier (Kp) versus Core Power (Pressure Regulator Operable) 12 Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report a.

Y.

0.

C.

S 0.

0 0.

t8 Is

• 5

--'i:';

7 14-13

12-

'I-t 28 32 36 40 44 48 52 56 60 64 68 72 76 80 84 88 92 96 1)0 Core Power (% of Pated)

Kp= A + B (PO - P)

P A

I B

I Po 28 s P* 100 I 1.00 I

0.01000 I

100 P = Percent of Rated Core Power FIGURE 3-3B Power-Dependent MCPR Multiplier (Kp) versus Core Power (Pressure Regulator Inoperable) 13 Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report 152 150 148 146 o 2 a-O 142 140 138 138 134

, I MI-l'rOT of Se rvic 13PV Inoperable

'O-:

In b:.

t'..

0.0 0.1 02 03 0A 0.5 0.6 0.7 0.8 0.9 10 Tau Operating Conditions OLMCPR EOC-RPT Bypass Valves Tau = °.° Tau = 1.0 In Service Operable T 1.35 l

1.38 Out of Service Operable 1.39 1.50

[

In Service I

Inoperable l

1.43 l

1.46 l

FIGURE 3-4A MCPR Limits versus Average Scram Time (BOC to EOR-1800 MWd/st) 14 Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report

-j 0.

C.

164 162 160 158 156 1

r c4R'T Out of Service 154 152 -

148 U6__ _

rEPv Inoperable

~~~~~~~~~~-

142 10

{~B~C4FT.n,ervice and,

Operable 138 I.,

,,.I I -:::"

138

0. 1 02 0.3v a

0A

.sl1.

00 01 02 0.3 O

05 0.6 07 0.8 0.9 t0 Tau Operating Conditions OLMCPR EOC-RPT Bypass Valves Tau = 0.0 Tau = 1.0 In Service Operable 1.40 1.43 Out of Service l Operable 1.46 1.63 1 In Service I

Inoperable l

1.43 1.46 FIGURE 3-4B MCPR Limits versus Average Scram Time (EOR-1800 MWd/st to EEOC) 15 Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report 4.0 LHGR LIMITS (Technical Specification 3.2.3)

The LHGR limit for each six inch axial segment of each fuel rod in the core is the applicable rated-power, rated-flow LHGR limit taken from Figure 4-3 or 4-4, multiplied by the smaller of either:

a.

The flow-dependent multiplier, LHGRFACF, from Figure 4-1, or

b. The power-dependent multiplier, LHGRFACp, as determined by Table 4-1.

Figures 4-3 and 4-4 show the LHGR limits for both U02 rods (which contain no gadolinium) and the most limiting gadolinium-bearing rods for GE13 and GE14 fuel types, respectively. Other gadolinium-bearing rods may have proprietary LHGR limits which lie between these two curves. Compliance with the proprietary limits will be monitored by the plant's process computer, in which case some gadolinium-bearing rods may operate at power levels above the more restrictive limits shown on these curves.

16 Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report Table 4-1 LHGR Operating Flexibility Options Bypass Pressure LHGRFACp Valves Regulator Curve Operable Operable Figure 4-2A Inoperable Operable Figure 4-2B Operable or Inoperable Figure 4-2C Inoperable I

I 17 Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report 0.s a..

MAX F-LOW=

t 107%:.;

l0.

C' 0.-

0 065 0.4

• @0 8 G

0 0

i0.4 30 40 50 60 70 Core Flow (% of Rated) 80 90 ToJ LHGRFACF = Minimum [1.0, (A+B*F)]

Maximum Core Flow (% of Rated)

A I

B 107.0 0.4574 0.006758 F = Percent of Rated Core Flow FIGURE 4-1 Flow-Dependent LHGR Multiplier (LHGRFACF) versus Core Flow 18 Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report t'

t

-J B-

,G

_I 0.E 4-0:

=L 0.1

§

.1 f -* l* l l jl 1 1 t [ + 1 1 4 x ;

Two Loop Operation (TLO) 60% Core Flow (TLO and SLO) 7 GE14 SLO GE13 SL 6 _ r.

o_

V _<GE 13 '4 S1.

.<1.

s> 60% Core Flow (TLO and SLO) 24 28 32 36 40 44 48 52 56 60 64 68 72 76 80 84 88 92 96 T

Core Power (%of Rated)

LHGRFACp = A - B (P0 - P)

O ertin Conditions Values of Variables Fuel P

F SLOITLO Type A

B P0 24sP <28 Fs60 SLOITLO All 0.603 0.000 28 24sP<28 F>60 SLO/TLO All 0.560 0.00 28 l

28s P <61.72 All SLO I TLO All 1.00 0.005224 100 61.72sP<71.28 All SLO/TLO GE13 1.00 0.005224 100 61.72s* P <71.28 All TLO GE14 1.00 0.005224 100 P P271.28 All TLO All 1.00 0.005224 100 P 2Ž71.28 All SLO GE13 0.85 0.00 I

100 P261.72 All SLO GE14 0.80 0.00 100 P = Percent of Rated Core Power F = Percent of Rated Core Flow oA FIGURE 4-2A Power-Dependent LHGR Multiplier (LHGRFACp) versus Core Power (Turbine Bypass Valves Operable and Pressure Regulator Operable) 19 Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report D.

a I-W

.S a.

C, la r_

a.

0 0~

9 TwoLoOp oerationhL L

0.8 I-z.

-7 '-G

-1

-i

-L SL

.E1:SLO 0.6 i

=

>60/ Core Pow (TLOand 0.4 24 28 32 36 40 44 48 52 56 60 64 68 Core Power (%of FWted) 72 76 80 84 88 92 98 9

LHGRFACp = A - B (PO - P)

Operating Conditions l

Values of Variables Fuel P

F SLOITLO Type A

B P0 24SP<28 Fs60 SLO/TLO All 0.588 0.01167 28 24* P < 28 F>60 SLO, TLO All 0.450 0.00967 28 28*P<61.72 All SLO/TLO All 1.00 0.005224 100 61.72*P<71.28 All SLO/TLO GE13 1.00 0.005224 100 61.72*P<71.28 All TLO GE14 1.00 0.005224 100 P2> 71.28 All TLO All 1.00 0.005224 100 P2 71.28 All SLO GE13 0.85 0.000 I 100 P 261.72 All SLO GE14 0.80 0.000 I 100 P = Percent of Rated Core Power F = Percent of Rated Core Flow FIGURE 4-2B Power-Dependent LHGR Multiplier (LHGRFACp) versus Core Power (Turbine Bypass Valves Inoperable and Pressure Regulator Operable) 20 Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report 11 to I-a 0.9 J

Z..

=

0.8

§ 0.7

.S 3

CC 0.7 0

a.

o 0.5

-04 a1-04 0.3

---_ -- _ -_< T

. 1 3 <:XXX;fX

- _, -., ____ _ _, /,_ _ -, _ __

_.,^

X _ _ _ _, _ --. __, _ __

_ LLI 1 ------

h----

24 28 32 36 40 44 48 52 56 60 64 68 72 76 80 Core Power (% of Rated) 84 88 92 96 100 LHGRFACp=A -B (Po -P)

Operating Conditions Values of Variables I

1 Fuel P

F Type A

B P0 24s P <40 I

All All 0.49 0.0058 40 40 s P s 100 All I

All 1.00 0.0085 100 P = Percent of Rated Core Power F = Percent of Rated Core Flow FIGURE 4-2C Power-Dependent LHGR Multiplier (LHGRFACp) versus Core Power (Pressure Regulator Inoperable) 21 Version 1

I Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report U02 Rods Peak Pellet Exposure LHGR 0.00 14.40 13.24 14.40 32.66 12.70 56.70 9.00 63.50 6.40 It 0-J Limiting Gd Rods Peak Pellet Exposure LHGR 0.00 13.21 10.88 13.21 29.92 11.65 53.50 8.26 60.18 5.87 4.00 I 1

I I1 0.00 5.00 10.00 1S.00 20.00 25.00 30.00 35.00 40.00 45.00 50.00 55.00 60.00 65.00 Peak Pellet Exposure (GWdIst)

FIGURE 4-3 LHGR versus Peak Pellet Exposure (Fuel Type: GE13) 22 Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report 14.I U02 Rods Peak Pellet Exposure LHGR 0.00 13.40 14.51 13.40 57.61 8.00 63.50 5.00 13..

12.1 II.

10.

CD I-DOod-0 0-Doo

_ 'K 00G R ods'

-I 00

.00I......

9.t S.,

Limiting Gd Rods Peak Pellet Exposure LHGR 0.00 12.00 12.17 12.00 54.59 7.16 60.39 4.48 7.

a.

5.

,:.. d r i I. :

-, I

. :

..,. 7 4.00 0.00 5.00 10.00 15.00 20.00 25.00 30.00 35.00 40.00 45.00 50.00 55.00 60.00 05.00 Peak Pellet Exposure (GWdist)

FIGURE 4-4 LHGR versus Peak Pellet Exposure (Fuel Type: GE14) 23 Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report 5.0 PBDA AMPLITUDE SETPOINTS The amplitude trip setpoint in the Period Based Detection Algorithm in the OPRM system shall not exceed the values reported in the Table below. This applies to instruments 1C51K615 A, B, C, and D. Projected Figure of Merit (FOM) value(s) throughout the cycle will be supplied by the Hatch Core Analysis Group.

OLMCPR 0.0 5 FOM *92.1 92.1 < FOM *96.9 96.9 < FOM 5102.4 102.4< FOM

• 108.0 1.35 1.15 1.13 1.11 1.10 1.36 1.15 1.13 1.11 1.10 1.37 1.15 1.14 1.11 1.11 1.38 1.15 1.14 1.12 1.11 1.39 1.15 1.14 1.12 1.11 1.40 1.15 1.14 1.12 1.11 1.41 1.15 1.15 1.12 1.11 1.42 1.15 1.15 1.13 1.12 1.43 1.15 1.15 1.13 1.12 1.44 1.15 1.15 1.13 1.12 1.45 1.15 1.15 1.13 1.12 24 Version 1

Plant Hatch Unit 1 Cycle 22 Core Operating Limits Report

6.0 REFERENCES

1.

'General Electric Standard Application for Reactor Fuel," NEDE-24011 -P-A-14, June 2000, and the US Supplement, NEDE-24011-P-A-14-US, June 2000.

2.

GNF Letter "PIant Hatch Technical Specification Modification to include LHGR," M.

E. Harding (GNF) to E. B. Gibson, January 22, 2004.

3.

Global Nuclear Fuel document 0000-0018-9797-SRLR, 'Supplemental Reload Licensing Report for Edwin I. Hatch Nuclear Power Plant Unit 1, Reload 21 Cycle 22," Revision 0, March 2004.

4.

SNC Memo CAH-NF-2464, "HlC22 Pressure Regulator Failure Downscale (PRFDS) Analysis," W. R. Mertz to K. S. Folk, March 1, 2004.

5.

SNC Memo CAH-NF-2465, "TPO Low Power ARTS Multipliers," W. R. Mertz to K.

S. Folk, March 1, 2004.

6.

Global Nuclear Fuel document 0000-0018-9797-FBIR, "Fuel Bundle Information Report for Edwin I. Hatch Nuclear Power Plant Unit 1, Reload 21 Cycle 22,"

Revision 0, March 2004.

25 Version 1