Submittal of Startup Test Report for Cycle 25

ML17200C942
Person / Time
Site:	Millstone
Issue date:	07/12/2017
From:	Lawrence D Dominion Nuclear Connecticut
To:	Document Control Desk, Office of Nuclear Reactor Regulation
References
17-277
Download: ML17200C942 (17)
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Text

• 114 Dominion Nuclear Connecticut, Inc.

Rope Ferry Rd., Warerford, CT 06385 Mailing Address: P.O. Box 128 Warerford, CT 06385 c, JUL 1 2 2017

<lorn.com U.S. Nuclear Regulatory Commission Serial No.17-277 Attention: Document Control Desk MPS Lic/MLC RO Washington, DC 20555 Docket No. 50-336 License No. DPR-65 DOMINION NUCLEAR CONNECTICUT, INC.

MILLSTONE POWER STATION UNIT 2 STARTUP TEST REPORT FOR CYCLE 25 Pursuant to Millstone Power Station Unit 2 Technical Specification 6.9.1.3, Dominion Nuclear Connecticut, Inc. hereby submits the enclosed Startup Test Report for Cycle 25.

If you have any questions or require additional information, please contact Jeffry Langan at (860) 444-5544.

nee Director, Nuclear Station Safety and Licensing

Enclosure:

(1)

Commitments made in this letter: None cc: U.S. Nuclear Regulatory Commission Region I Administrator 2100 Renaissance Blvd, Suite 100 King of Prussia, PA 19406-2713 Richard V. Guzman Senior Project Manager U.S. Nuclear Regulatory Commission One White Flint North, Mail Stop 08 C 2 11555 Rockville Pike Rockville, MD 20852-2738 NRC Senior Resident Inspector Millstone Power Station

Serial No.: 17-277 Docket No.: 50-336 ENCLOSURE STARTUP TEST REPORT FOR CYCLE 25 DOMINION NUCLEAR CONNECTICUT, INC.

MILLSTONE POWER STATION UNIT 2

Serial No.: 17-277

_J Docket No.: 50-336 Enclosure Page 2 of 16 Table of Contents

1.

SUMMARY

3

2. INTRODUCTION 4

3. LOW POWER PHYSICS TESTING RESULTS 4 3.1 Unrodded Critical Boron Concentration 4 32 Moderator Temperature Coefficient 5 3.3 Control Element Assembly Rod Worth Parameters 5 3.4 Rodded Critical Boron Concentration 7 3.5 Control Rod Drop Time Measurements 7

4. POWER ASCENSION TESTING RESULTS 7 4.1 Power Peaking, Linear Heat Rate and lncore Tilt Measurements 7 4.2 Critical Boron Measurements 8 4.3 Hot Zero Power (HZP) to Hot Full Power (HFP) Critical Boron Concentration Difference 9 4.4 Flux Symmetry Measurements 9 4.5 Moderator Temperature Coefficient 10 4.6 Reactor Coolant System Flow 11 4.7 Core Power Distributions 11 4.8 Reactor Coolant System Radiochemistry 12

5. REFERENCES 12

6. FIGURES 12 6.1 Cycle 25 Core Loading Map 13 6.2 Cycle 25 CEA Group Configuration 14 6.3 69% Core Power Distribution Map 15 6.4 100% Core Power Distribution Map 16

Serial No.: 17-277 Docket No.: 50-336 Enclosure Page 3 of 16

1.

SUMMARY

The Millstone Power Station Unit 2 (MPS2) refueling outage preceding the Cycle 25 startup was approximately 33 days long, starting on April 1, 2017 and ending on May 5, 2017.

The results of the MPS2, Cycle 25 low power physics testing and power ascension testing programs were in good agreement with the core design predictions. All measured parameters were within the review and acceptance criteria of the tests. All Technical Specification {TS) Limiting Conditions of Operation (LCOs) were met.

Serial No.: 17-277 Docket No.: 50-336 Enclosure Page 4 of 16

2. INTRODUCTION The MPS2 Cycle 25 fuel loading was completed on April 23, 2017. The attached core map (Figure 6.1) shows the final core loading. The subsequent operation/testing milestones were completed as follows:

Initial Criticality May4, 2017 Low Power Physics Testing Complete May4, 2017 Turbine On-Line May 5, 2017 30% Power Testing Complete May 5, 2017 69% Power Testing Complete May 6, 2017 100% Power Testing Complete May 12, 2017 The MPS2 Cycle 25 core is comprised of 217 AREVA manufactured fuel assemblies. Cycle 25 includes 68 fresh reload assemblies implementing the AREVA Standard CE-14 HTP fuel product with M5 Cladding.

3. LOW POWER PHYSICS TESTING RESULTS Low power physics testing was conducted at a power level of approximately 2 x 10-2 % power.

3.1 Unrodded Critical Boron Concentration The Critical Boron Concentration (CBC) measured with Control Element Assembly (CEA) Group 7 at 178 steps withdrawn and a Reactor Coolant System (RCS) temperature of 529.5°F was 1537 ppm.

Adjusted to the prediction conditions of Group 7 at 180 steps withdrawn, RCS temperature of 532°F; and zero reactivity (residual rho correction),

yields an adjusted, measured CBC of 1549 ppm.

Adjusted, measured unrodd.ed CBC = 1549 ppm Predicted unrodded CBC = 1540 ppm Difference = +9 ppm (+ 75 pcm)

Serial No.: 17-277 Docket No.: 50-336 Enclosure Page 5 of 16 Review Criteria is+/- 50 ppm of the predicted CBC.

Acceptance Criteria is +/- 1000 pcm of the predicted CBC.

Review and Acceptance Criteria met? Yes.

3.2 Moderator Temperature Coefficient The Isothermal Temperature Coefficient {ITC) measurements were performed at a boron concentration of 1537 ppm, an average RCS temperature of 530.2°F, and CEA Group 7 at 152 steps.

The measured ITC at these conditions was +0.648 pcm/°F.

The predicted ITC of +O. 710 pcm/°F for an RCS boron concentration of 1540 ppm and an RCS temperature of 532°F, adjusted for measured conditions, yields an adjusted, predicted ITC of +0.759 pcm/°F.

Measured ITC = +0.648 pcm/°F Adjusted, predicted ITC = +0.759 pcm/°F Difference = -0.11 pcm/°F Review Criteria is +/- 2 pcm/°F of the predicted ITC.

Review Criteria met? Yes.

The Moderator Temperature Coefficient (MTC) was determined by subtracting the predicted Doppler Temperature Coefficient at the test conditions from the adjusted, measured ITC. The MTC at these conditions was +0.21 x 10-4 ~p/°F. The MPS2 TSs require the MTC be less positive than +0.7 x 10-4 ~p/°F for power levels less than 70% power.

TS limit met? Yes.

3.3 Control Element Assembly Rod Worth Parameters CEA rod worth parameters were measured using the "rod swap" method.

Figure 6.2 shows the CEA group configuration.

Serial No.: 17-277 Docket No.: 50-336 Enclosure Page 6 of 16 CEA Group "A" was used as the "reference" group and its reactivity worth was measured using the "boron exchange" method (dilution results are shown below). The reactivity worth of the remaining CEA groups was measured by establishing a critical condition with the "test" group fully inserted and the "reference" group partially withdrawn.

The results of the CEA worth measurements were:

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A 988.6 pcm 923 pcm 65.6 pcm -7.1 %

B 502.5-pcm 514 pcm -11.5 pcm 2.2 %

1 654 pcm 638,8 pcm 15.2 pcm -2.4 %

2 798 pcm 805.5 pcm -7.5 pcm 0.9 %

3 410.9 pcm 393.3 pcm 17.6 pcm -4.5 %

4 630 pcm 590 pcm 40 pcm -6.8 %

5 373.7 pcm 383.5 pcm -9.8 pcm 2.5 %

6 420.8 pcm 422.8 pcm -2 pcm 0.5 %

7 898.3 pcm 855.4 pcm 42.9 pcm -5 %

Total 5676.8 pcm 5526.3 pcm 150.5 pcm -2.7 %

The Review and Acceptance Criteria are:

1. The measured "reference" group worth is within +/- 10% of the predicted worth.

2. The measured worth of the individual CEA groups is within +/- 100 pcm or+/- 15% of the predicted worth, whichever is larger.

3. The sum of the measured CEA worths is within +/- 10% of the sum of the predicted CEA worths.

Review Criteria met for "reference" CEA group? Yes.

Review Criteria met for individual CEA groups? Yes.*

Acceptance Criteria met for sum of CEA group worths? Yes.

Serial No.: 17-277 Docket No.: 50-336 Enclosure Page 7 of 16 3.4 Rodded Critical Boron Concentration The CBC measured with CEA Group A at 1 step withdrawn and an RCS temperature of 529.5°F was 1442 ppm.

Adjusted to the prediction conditions of Group A at 0 steps withdrawn, RCS temperature of 532°F and zero reactivity (residual rho correction),

yields an adjusted, measured CBC of 1444 ppm.

Adjusted, measured rodded CBC = 1444 ppm Predicted rodded CBC = 1429 ppm Difference = +15 ppm (+130 pcm)

Review Criteria is +/- 50 ppm of the predicted CBC.

Acceptance Criteria is +/- 1000 pcm of the predicted CBC.

Review and Acceptance Criteria met? Yes.

3.5 Control Rod Drop Time Measurements The MPS2 TSs require that all CEAs drop in less than or equal to 2.75 seconds to the 90% inserted position, with RCS conditions at greater than or equal to 515°F and full flow (all reactor coolant pumps operating).

Control rod drop time testing was done at an RCS temperature of 534 °F with all four reactor coolant pumps operating. The average control rod drop time was 2.16 seconds to 90% insertion, with the fastest and slowest drop times being 2.04 seconds and 2.26 seconds, respectively.

TS limits met? Yes.

4. POWER ASCENSION TESTING RESULTS 4.1 Power Peaking, Linear Heat Rate and lncore Tilt Measurements The following core power distribution parameters were measured during the power ascension to ensure compliance with TSs:

Serial No.: 17-277 Docket No.: 50-336 Enclosure Page 8 of 16

• Total Unrodded Integrated Radial Peaking Factor (FrT) is the ratio of the peak fuel rod power to the average fuel rod power in an unrodded core.

This value includes the effect of Azimuthal Power Tilt.

• Linear Heat Rate (LHR) is the amount of power being produced per linear length of fuel rod.

• Azimuthal Power Tilt is the maximum difference between the power generated in any core quadrant (upper or lower) and the average power of all quadrants in that half (upper or lower) of the core divided by the average power of all quadrants in that half (upper or lower) of the core.

The measurements of these parameters were:

Power*.leve1******

69% 1.597 9.37 KW/ft 0.0083 100% 1.579 13.02 .KW/ft 0.0082 The corresponding TS limits for all power levels for these parameters are:

• F/ ~ 1.69 (Note: larger values of FrT are permissible at < 100% power)

• Peak Linear Heat Rate ~ 15.1 KW/ft

• Azimuthal Power Tilt~ 0.02 TS limit for F/ met? Yes.

TS limit for LHR met? Yes.

TS limit for Tilt met? Yes.

4.2 Critical Boron Concentration Measurements CBC measurement was performed at 100% power at equilibrium xenon conditions.

The CBC measured at 100% power with CEA Group 7 at 180 steps withdrawn and an RCS cold leg temperature of 544.5°F was 1084 ppm.

The cycle average exposure at the time of this measurement was 208 Megawatt Days per Metric Ton Uranium (MWD/MTU).

Serial No.: 17-277 Docket No.: 50-336 Enclosure Page 9 of 16 Adjusted to the pred[ction conditions of 100% power at an All Rods Out (ARO) condition and an RCS cold leg temperature of 545 °F yields an adjusted, measured CBC of 1084.5 ppm.

Adjusted, measured 100% power CBC = 1084.5 ppm Predicted 100% power CBC = 1078.9 ppm*

Difference = +5.6 ppm (+45 pcm)

Review Criteria is+/- 50 ppm of the predicted CBC.

Acceptance Criteria is+/- 1000 pcm of the predicted CBC.

Review and Acceptance Criteria met? Yes.

4.3 Hot Zero Power to Hot Full Power Critical Boron Concentration Difference The difference in the adjusted measured CBC performed at Hot Zero Power (HZP) and Hot Full Power (HFP) was determined and compared to the design prediction.

Predicted change in CBC from HZP to HFP = 461 ppm Adjusted. measured change in CBC from HZP to HFP = 464.3 ppm Difference = -3.3 ppm Review Criteria is +/- 50 ppm of the predicted CBC difference.

Review Criteria met? Yes.

4.4 Flux Symmetry Measurements The core neutron flux symmetry was measured at approximately 30% power using the fixed incore detector monitoring system. The differences between measured and calculated signals in operable incore detector locations ranged from -0.031 to +0.030.

Review Criteria is +/- 0.10.

Review Criteria met? Yes.

Serial No.: 17-277 Docket No.: 50-336 Enclosure Page 10 of 16 The maximum azimuthal. asymmetry in the neutron flux from measurements of the variation in incore detector signals from symmetric incore detectors was 3.04%

Review Criteria is+/- 10%.

Review Criteria met? Yes.

4.5 Moderator Temperature Coefficient The ITC measurements were performed at a power level of 99.02 %, an RCS boron concentration of 1084 ppm, and an average RCS temperature of 569.53°F, and CEA Group 7 at 180 steps.

The measured ITC at these conditions was -7.569 pcm/°F.

The predicted ITC was determined for a power level of 100%, an RCS boron concentration of 1085 ppm, an average RCS temperature of 570.0°F, and at an ARO condition.

The predicted ITC at these conditions was -7.80 pcm/°F.

The predicted ITC adjusted for 99.02% power, an actual RCS boron concentration of 1084 ppm and an RCS temperature of 569.53°F yields an adjusted, predicted ITC of -7.802 pcm/°F.

Adjusted, Predicted ITC = -7.802 pcm/°F Measured iTC = -7.569 pcm/°F Difference = -0.233 pcm/°F Review Criteria is +/- 2 pcm/°F of the predicted ITC.

Review Criteria met? Yes.

The MTC was determined by subtracting the predicted Doppler Temperature Coefficient at the test conditions from the measured ITC.

The MTC at these conditions was -0.63 x 10-4 11p/°F. The MPS2 TSs 4

require the MTC be less than or equal to +0.4 x 10- 11p/°F for power levels greater than 70% power.

TS limit met? Yes.

Serial No.: 17-277 Docket No.: 50-336 Enclosure Page 11 of 16 4.6 Reactor Coolant System Flow The RCS flow rate was measured using the secondary calorimetric method in which the RCS flow rate is inferred by performing a heat balance around the steam generators and RCS to determine reactor power and measuring the differential temperature across the reactor core to determine the enthalpy rise.

The measured RCS flow rate at 100% power was 391,936 gallons per minute (GPM).

When 13,000 GPM is subtracted from the measured flow rate to account for measurement uncertainties, the Minimum Guaranteed Safety Analysis RCS Flow Rate is 378,936 GPM. This value is used to satisfy the TS surveillance requirement.

The MPS2 TSs require the RCS flow rate to be greater than 360,000 GPM.

TS limit met? Yes.

4.7 Core Power Distributions I

The core power distribution measurements were inferred from the signals obtained by the fixed incore detector monitoring system. These measurements were performed at 69% power and 100% to determine if the measured and predicted core power distributions are consistent.

The core power distribution map for 69% power, cycle average exposure of 15.6 MWD/MTU, non-equilibrium xenon conditions is shown in Figure 6.2.

This map shows that there is good agreement between the measured and predicted values.

The core power distribution map for 100%, cycle average exposure of 16.5 MWD/MTU, non-equilibrium xenon conditions is shown in Figure 6.3. This map also shows that there is good agreement between the measured and predicted values.

_}

The review criteria for these measurements are:

1. The difference between the measured and predicted Relative Power Densities (RP Os) for core locations with an operable in core detector is less than 0.1.

Serial No.: 17-277 Docket No.: 50-336 Enclosure Page 12 of 16

2. The Root Mean Square (RMS) deviation for radial and axial power distributions between the measured and predicted values is less than 0.05.

Review Criteria met? Yes, for both 69% and 100% power.

4.8 Reactor Coolant System Radiochemistry RCS radiochemistry analysis during the power ascension testing program and during subsequent power operation indicate activity levels with lodine-131 values of approximately 1.9 x 10-4 µCi/ml. .These RCS activity levels show there are no failed fuel assemblies resident in the core.

5. REFERENCES 5.1 EN 21004K, "Cycle 25, Low Power Physics Test" 5.2 EN 21004J, "Cycle 25, Power Ascension Testing" 5.3 EN 21004F, "Control Rod Worth Measurements (ICCE)"

5.4 ETE-NAF-2017-0054, Rev. 0, Attachment A, "Millstone, Unit 2, Cycle 25, Startup and Operations Report," April 2017 (Areva NP, Inc. Proprietary).

5.5 SP 21010, "CEA Drop Times"

6. FIGURES 6.1 Cycle 25 Core Loading Map 6.2 Cycle 25 CEA Group Configuration 6.3 69% Core Power Distribution Map 6.4 100% Core Power Distribution Map

Serial No.: 17-277 Docket No.: 50-336 Enclos*ure Page 13 of 16

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Serial No.: 17-277 Docket No.: 50-336 Enclosure Page 14 of 16 Channel "Y" Uncompensated lonChambe~

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Serial No.: 17-277 Docket No.: 50-336 Enclosure Page 15 of 16 lf-8 lf-10 ll'-12 lf-14 0.221 0.222 0.59

~-5 D<-6 D<-7 P<-9 P<-11 P<-13 P<-15 P<-16 P<-17 0.532 1.237 0.324 0.525 1.213 0.320

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~-2 S-3 S-4 ~5 S-6 ~7 S-9 ~-11 S-13 S-15 S-16 S-17 S-18 S-19 S-20 1.146 1.220 0.387 1.148 1.227 0.393 0.17 0.54 1.55 R-2 R-3 R-4 R-5 R-6 R-7 R-9 R-11 R-13 R-15 R-16 R-17 R-18 R-19 R-20 0.917 1.231 P-1 0.927 1.237 P-21 1.09 0.42 N-2 N-3 N-4 N-5 N-6 N-7 N-9 N-11 N-13 N-15 N-16 N-17 N-18 N-19 N-20 1.196 0.934 1.307 M-1 1.200 0.956 1.332 M-21 0.28 2.35 1.87 L-2 L-3 L-4 L-5 L-6 L-7 L-9 L-11 L-13 L-15 L-16 L-17 L-18 L-19 L-20 1.313 1.234 1.234 1.300 K-1 1.313 1.227 1.227 1.313 K-21

-0.01 -0.58 -0.54 0.99 J-2 J-3 J-4 µ.5 µ.5 µ.7 µ.9 µ-11 µ.13 J-15 J-16 µ.17 J-18 J-19 J-20 0.943 1.295 H-1 0.956 1.287 ~

1.34 -0.61 G-2 G-3 G-4 G-5 G-6 G-7 G-9 G-11 G-13 G-15 G-16 G-17 G-18 G-19 G-20 0.963 0.975 INOP 1.26 F-2 F-3 F-4 F-5 F-6 F-7 F-9 F-11 F-13 F-15 F-16 F-17 F-18 F-19 F-20 1.150 1.237 1.160 1.148 1.227 1.148

-0.11 -0.82 -0.99 E-2 E-3 E-4 E-5 E-6 E-7 E-9 E-11 E-13 E-15 E-16 E-17 E-18 E-19 E-20 0.324 0.322

-0.85 D-3 D-4 D-5 D-6 D-7 D-9 D-11 D-13 D-15 D-16 D-17 D-18 D-19 0.590 1.203 0.921 1.318 0.583 1.180 0.927 1.313 NORTH

-1.16 -1.86 0.70 -0.38 C-4 C-5 1v-6 C-7 C-9 C-11 v-13 C-15 iv-16 C-17 C-18 '~

1.159 1.250 1.154 0.600 1.148 1.230 1.148 0.583

-0.94 -1.56 -0.50 -2.85 8-5 8-6 8-7 8-9 8-11 8-13 8-15 8-16 8-17 0.321 0.532 0.543 0.322 0.525 0.529 0.08 -1.30 -2.71 A-8 A-10 A-12 A-14 Rad ial 0.344 Key 0.345 Roo t Mean Square Deviation 0.36 for all Core Locations - 0.012 - 8-15 0.526 Core Location Measured RPO 0.520 Calculated RPO Axial 0.006 Difference Root Mean Square Core Average Figure 6.4 Deviation = 0.007 100% Core Power Distribution Map All Rods Out, Non-Equilibrium Xenon, 16.5 MWD/MTU