INDIANA Indiana Michigan Power MICHIGAN POWER ...m INDIANA MICHIGAN POWER® A unit of American...

m INDIANA MICHIGAN POWER® A unit of American Electric Power

May 22, 2018

Docket No.: 50-315

U. S. Nuclear Regulatory Commission A TIN: Document Control Desk Washington, DC 20555-0001

Donald C. Cook Nuclear Plant Unit 1

2017 STEAM GENERATOR TUBE INSPECTION REPORT

Indiana Michigan Power Cook Nuclear Plant One Cook Place Bridgman, Ml 49106 lndianaMichiganPower.com

AEP-NRC-2018-19 10 CFR 50.4

Technical Specification (TS) 5.6.7 of Appendix A, to the Donald C. Cook Nuclear Plant (CNP) Unit 1 Operating License requires a report to be submitted within 180 days after initial entry into Mode 4 following the completion of an inspection performed in accordance with TS 5.5.7, Steam Generator (SG) Program. CNP Unit 1 entered Mode 4 on November 24, 2017. This report details specific attributes of the inspection in accordance with TS 5.6.7. Consistent with these requirements, Indiana Michigan Power Company, the licensee for CNP Unit 1, is submitting the Unit 1 2017 SG Tube Inspection Report as an enclosure to this letter.

There are no new regulatory commitments made in this submittal. Should you have any questions, please contact Mr. Michael K. Scarpello, Regulatory Affairs Director, at (269) 466-2649.

Sincere~),~

Q.

Si

BMC/mll

Enclosure: Unit 1 2017 Steam Generator Tube Inspection Report

c: R. J. Ancona - MPSC A. W. Dietrich, NRC, Washington DC MDEQ - RMD/RPS NRC Resident Inspector K. S. West - NRC Region 111 A. J. Williamson, AEP Ft. Wayne, w/o enclosures

Enclosure to AEP-NRC-2018-19

Unit 1"2017 Steam Generator Tube Inspection Report

Introduction

In September and October of 2017, Unit 1 steam generator (SG) inservice inspections were conducted at the Donald C. Cook Nuclear Plant (CNP). Mode 4 was entered on November 24, 2017, and the results of the inspection are provided herein, in accordanc.e with the 180 day reporting requirements of CNP Technical Specification (TS) 5.6.7.

Unit 1 SG Description

The four replacement Babcock & Wilcox model 51 R SGs were initially placed in service in December of 2000.

Each of the replacement SGs contains 3,496 thermally treated Alloy 690 tubes with a nominal outside diameter of 0.875 inches and a nominal wall thickness of 0.049 inches. The tubes are arranged in a triangular pitch pattern of 85 rows and 107 columns.

The tube support structure consists of eight lattice grid assemblies and a like number of fan bar (also called flat bar) restraints. Each lattice grid consists of interlocking stainless steel (SA-240-41 OS-modified) high and low bars that form a lattice pattern to provide lateral restraint in the straight portion of the tubes. The fan bar restraints are made of the same stainless steel material and offer support in the U-bend area.

The bare tubesheet is a nominal 21.25 inches (") thick and is made of American Society Of Mechanical Engineers SA-508 Class 3a low alloy steel forging material with Alloy 82 cladding (0.3125" minimum thickness) on the primary side. The tubes are hydraulically expanded over the full depth of the tubesheet and welded to the primary tubesheet face. ·

The Unit 1 SGs accumulated 164.05 effective full power months (EFPM) of operation from initial in-service time until the 2017 inspection. At the time of the inspection, 149.50 EFPM of operation had been accrued toward the sequential inspection periods as defined in CNP TS 5.5.7.d.2. This places the SG in the second inspection period. The SGs operated 31.18 effective full power months since they were all last inspected.

The next planned inspection of these SGs will occur after completion of Unit 1 Cycles 28, 29, and 30 (Spring 2022).

Enclosure to AEP-NRC-2018-19 Page2

A. The scope of inspections performed on each SG

Primary Side Eddy Current Inspection Scope

Bobbin Probe Examinations • A 100 percent (%) examination, covering the full tube length of all in-service tubes, was

completed in all four SGs. This included: • Deposit mapping (SG 14 only) • Sludge height reporting in all SGs

Array Probe Examinations . • A hot/cold leg periphery and no tube lane top of tubesheet examination, extending 5-tubes

deep, from tube end hot/cold to the first support hot/cold, was completed in all four SGs.

• Special interest examinations were performed in each SG. These inspections included: > All historical dent/ding indi.cations greater than or equal to (~) 2 volts reported in the

previous inspection and all new dent/ding indications > 48 tubes in SG 13 with inner diameter scratches in the expanded region (originating

from manufacturing), from tube end hot/cold to the first support hot/cold > 20% of tubes identified with top of tubesheet sludge from the previous inspection,

from tube end hot/cold to the first support hot/cold > All tube-to-tube proximity indications > Affected tubes and bounding tubes for foreign objects*

*SG 13 had a wire bristle detected by visual examination (later removed). The affected and bounding tubes (R27/C41, R28/C42, and R49/C41) were only inspected by Bobbin. The Bobbin examination technique specification sheet (ETSS) for the detection of wear (Electric Power Research Institute (EPRI) 96004.1/96005.2) both have an upper 95th percentile probability of detection for a 1 % through-wall (% TW) defect adjusting for noise at the top of tubesheet location. This provided assurance that any wear meeting the reporting criteria would have been detected (no degradation was detected on any of these tubes).

• The Array probe was used to perform the following examinations (within the bounds of the site ETSS, site validation document, and site specific analysis guidelines):

> Bobbin probe possible loose part (PLP) signals > Bobbin probe I-codes > All bounding tubes within a 1-tube radius of any tube indications of foreign objects

PLP and/or volumetric degradation · · > New fan bar wear ~ 10% TW > Bobbin through-wall degradation calls ~ 25% TW > Repeat fan bar wear with growth ~ 10% TW > Select fan bar through-wall degradation to support condition monitoring/operational

assessment > Select fan bar through-wall degradation in SG 13 for flaw ·profiling (line-by-line sizing)

Enclosure to AEP-NRC.;2018-19 Page 3 ·

Rotating Coil (+Point™) Examinations • Select special interest rotating coil examinations were also performed in each SG. These

inspections included: > All Array I-codes > Select fan bar wear for flaw profiling (line-by-line- sizing) > . All foreign object wear for sizing and flaw profiling (line-by-line sizing)

The following table provides a summary of the above inspections:

EDDY CURRENT EXAMINATION SUMMMARY (Note 1)

"fglo"b~\~~_ee Bobbin 100% 100%

Periphery And No-Tube Lane, For Detection Of Possible Loose Array 25.05% 25.32% Part Or Wear Si nals New Dents/Dings And Dents/Dings ~ 2 Volts Reported Array 100% 100% From The Previous Inspection Affected And Bounding Tubes With Historical And New Foreign Array 100% 100% Ob"ect Indications And Wear Sludge Pile,

Array 20% 20% To of Tube Sheet SG 13 Tubes with ID Scoring · NA NA Su lemental Note 2 100% 100% Supplemental (Note 3) 100% 100%

Note 1 : All values are percentages of the in-service tube population

100%

25.00%

·100%

96.51% (Note 4)

20%

100% 100% 100%

's'G11gf.: i 100%

25.31%

100%

100%

20%

NA 100% 100%

Note 2: All Bobbin I-codes, proximity indications, wear ~ 25% TW, new fan bar wear ~ 10% TW, repeat fan bar wear with growth ~ 10% TW and select fan bar wear indications

Note 3: All Array I-codes, select fan bar wear indications

Note 4: SG 13 (wire bristle) had three total affected tubes and bounding tubes inspected only by Bobbin (see discussion under Array special interest above)

In addition to the tubing examinations, the following related activities were also performed:

• Visual Plug Examination - All installed tube plugs were visually examined to confirm plug location and condition. No abnormal conditions were identified during this examination.·

• Visual Channel Head Examination - Remote visual inspections were performed in each of the hot and cold leg channel heads to monitor the internal surfaces i.e. nozzle_ dam · rings, tubesheet, cladding, divider plate and associated attachment welds.· The. only


abnormal condition was a small ding measuring 0.25" in length and 0.004" in depth in the channel head cladding (0.200" minimum thickness) of SG 14 (cold leg). Following

. consultation with the SG manufacturer, the cladding was confirmed to not be credited for structural strength and the .ding was ultimately dispositioned to leave as is based on the shallow depth and absence of hematite which further confirmed the cladding had not been breached.

In accordance with the site lnservice Inspection Program, enhanced magnification VT-1 examinations were also conducted on the SG 13 and SG 14 SG inlet/outlet primary nozzle inner radius region. The results of these examinations were all determined to be acceptable.

• Secondary Side Inspections at Top of Tubesheet - Visual inspections were completed on each SG at the top of the tubesheet. Areas examined included the annulus region, no-tube lane, select inner bundle passes, internal blowdown ports, shroud support blocks and the underside of the first lattice grid support. The intent of this inspection was to assess material condition, structural integrity, deposit accumulation and foreign objects. No degradation was identified during these inspections.

However, foreign objects were detected at the top of the tubesheet in all four SGs. The top of tubesheet visual inspection results were supplemented by eddy current data reviews for possible loose parts/loose part wear. Visual inspections were subsequently performed at these locations (that were accessible) for confirmation of the foreign objects.

SG 13 had three tubes (R40/C10, R41/C11, and R42/C10) that were ultimately plugged and stabilized for a foreign object that was not detected by eddy current but was detected visually. No wear was present on _the tubes/bounding tubes. However, detailed visual inspections could not be performed to garner the information necessary to perform engineering evaluations due to accessibility issues. As a result, the tubes were plugged and stabilized.

In addition, foreign object wear was identified by eddy current in SG 13 on one · tube (R68/C72) at the 6th hot leg support (06H), which was newly identified during the inspection. The tube was not accessible for visual inspection in the area of interest and was ultimately preventatively plugged and stabilized.

Foreign object evaluations were performed for the non-retrievable objects to ensure tube integrity would not be threatened prior to the next scheduled inspection.

• Water (Sludge) Lancing - Water lancing was performed in each of the SG at the top of the tubesheet. A combined total of 31. pounds of deposits were removed by this process.

Enclosure to AEP-NRC-2018-19 Page 5

B. Degradation mechanisms found

The degradation mechanisms detected during the inspection were fan bar wear, lattice grid wear and foreign object related wear.

The table below summarizes the number of wear indications recorded in each SG during the inspection for the various mechanisms. The specific indications and their associated % TW depths are listed in the Attachments to Section "D" of this report.

INDICATION COUNT

Wear Mechanism SG 11 SGf2 SG13 1 SG14 Totals' Fan Bar 668 463 449 859 2,439 Lattice Grid 22 40 37 23 122 Foreign Object 0 0 2 0 2

Fan Bar Wear A total of 270 new fan bar indications were identified during the inspection. The maximum depth of all reported (new and previously identified) fan bar wear was 36% TW and the maximum growth rate was 5.00% TW per effective full power year. The following tables provide additional details on the fan bar wear depths and growth rates recorded:

FAN BAR WEAR Tubes/Indications

J, ,, De th ,,,,. p ,SG 11,i SG 12· SG 13· SG 14,

. .


Lattice Grid Wear A total of 33 new lattice grid indications were identified during the inspection. The maximum depth of all reported (new and previously identified) lattice grid wear was 17% TW and the maximum growth rate was 2.31%TW per effective full power year. The following tables provide additional details -o"rfttie 18ttice-grid wear depths an·d growth rates recorded: ·· --~--- ··-· .. ··-·--·-·,· - ··

· .Depth


Eddy Current Nondestructive Examination Techniques

Degradation Probe EPRIETSS. Demonstrated/Extended Detection Sizing Applicability Mechanism ·· . Applicability Applicability .

Fan Bar & Lattice Support wear/ freespan volumetric Condition Monitoring

Grid Wear Bobbin 96004.1 (R 13) wear, loose part wear with part All Operational Assessment

present (CMOA) @ Suooort wear

Fan Bar Wear +Point™ 10908.4 (R1) Fan Bar/ PLP Wear with part

All GMOA @ Fan Bar present

Bobbin 96005.2 (R9) Freespan / None All N/A (Size with 2790x.1 series) Volumetric

Array 24998.1 (R1) Freespan / None All N/A

11956.1 (R3) Lattice GridNolumetric Detection of foreign

Lattice Grid Wear Array degradation (PLP wear) at top of material based on material N/A

11956.2 (R2) tubesheet, support structures, and and proximity of foreign

freespan. material to the tube

Bobbin 27091.1 (R2) PLP Wear (part not present)/

All N/A PLP Wear (part present)

27901.1 (R1) Gire groove, Note 1 Detection of Foreign

Material based on material 27902.1 (R2) Axial groove, Note 1 and proximity of foreign

+Point™ 27903.1 (R1) Tapered football, Note 1

material to the tube GMOA Freespan, expansion

27904.1 (R2) Tapered round hole, Note 1 transitions and at structures 27905.1 (R2) Flat wear, Note 1

For sizing of PLP wear (part not present)

27906.1 (R1) Tapered Wear, Note 1 27907.1 (R2) 45° tapered wear, Note 1 when part is present on an

as needed basis. Foreign Object 17901.1 (RO) - Ax.

Wear 17901.3 (RO) - Gire. 17902.1 (RO) - Ax.

17902.3 (RO) - Gire. 17903.1 (RO) - Ax. Freespan (Part not Detection of foreign

CMOA Freespan, expansion 17903.3 (RO) - Gire. present)/Detection of Volumetric material based on material Array 17904.1 (RO) - Ax. degradation (PLP wear) at top of and proximity of foreign transitions and at structures

17904.3 (RO) - Gire. tubesheet material to the tube (part not present)

17905.1 (RO) - Ax. 17905.3 (RO) - Gire. 17906.1 (RO) - Ax. '

17906.3 (RO) - Gire.

Note 1: Demonstrated applicability for 2790x.1 series includes PLP wear (part not present) and extended applicability for 2790x.1 series includes PLP wear at top of tubesheet and tube support plates (part present).

Enclosure to AEP-NRC-2018-19 Page 8·

D. Location, orientation (if linear), and measured sizes (if available) of service induced indications

Please refer to the folJo_wing_~tt~c.hments for the inspection records of $ervice induced indicatio_nlL. _ --·- ___ . Note that percent through-wall is indicated in the attachments in the "%TW'' data column.

Service Induced Indications - Fan Bar/Lattice Grid Attachment 1: SG 11 PCT >0% at Fan Bar/Lattice Grid Attachment 2: SG 12 PCT >0% at Fan Bar/Lattice Grid Attachment 3: SG 13 PCT >0% at Fan Bar/Lattice Grid Attachment 4: SG 14 PCT >0% at Fan Bar/Lattice Grid

Service Induced Indications - Foreign Object WearNolumetric Indications

Row 68/Column 72 6 Hot leg Support 5th Hot le Su ort

36%TW 33%TW

0.28" 0.29"

28.8° 47.1°

E. Number of tubes plugged during the inspection outage for each degradation mechanism

During the inspection, a total of 86 tubes were plugged. The table below provides the distribution of the tubes removed from service during the inspection based on the associated damage mechanism. The one tube plugged due to foreign object wear was also stabilized as were the three tubes under the "Foreign Object (PLP) Bounding" category. The latter grouping refers to tubes preventatively removed from service due to the presence .of a foreign object but with no wear identified.

TUBES PLUGGED BY DEGRADATION MECHANISM

SG 11 25 0 0 25 SG12 20 0 0 20 SG 13 12 1 3 16 SG 14 25 0 0 25 Totals 82 1 3 86


The following table provides details on the specific tubes removed from service:

TUBES REMOVED FROM SERVICE

SG) ;Jfa.owf :P12 58 54 Fan bar wear indication of 31 % TW None 12 62 50 Fan bar wear indication of 30 % TW None 12 62 52 Fan bar wear indication of 33 % TW None 12 63 53 Fan bar wear indication of 32 % TW None 12 64 54 Fan bar wear indication of 30 % TW None 12 66 40 Fan bar wear indication of 30 % TW None 12 67 47 Fan bar wear indication of 29 % TW None 12 67 49 Fan bar wear indication of 29 % TW None 12 67 53 Fan bar wear indication of 32 % TW None 12 67 55 Fan bar wear indication of 31 % TW None 12 67 63 Fan bar wear indication of 35 % TW None 12 68 44 Fan bar wear indication of 34 % TW None 12 70 52 Fan bar wear indication of 32 % TW None 12 70 60 Fan bar wear indication of 29 % TW None 12 70 62 Fan bar wear indication of 29 % TW None 12 73 51 Fan bar wear indication of 29 % TW None 12 75 53 Fan bar wear indication of 33 % TW None


:5G' Row,, Cpturn If '\.;;.:::. , . .. ,,/::Reason* :1


F. The number and percentage of tubes plugged to date, and the effective plugging percentage in each SG

The following table identifies the current total number/percentage of tubes plugged for each SG . . - ··--- -···--·--------- - --··- - . -· ... . . - - .. ------··---------

SG 11 3,496 SG 12 3,496 SG 13 3,496 SG14 3,496 Total 13,984

G. The results of condition monitoring, including the results of tube pulls and in-situ testing

CNP Unit 1 SGs met the structural and leakage performance criteria for Operating Cycles 26 and 27 as required by CNP Unit 1 TS and thus satisfied condition monitoring.

As noted in the figures below, which compare the structural condition monitoring limit to the as-found indication population for each degradation mechanism, no degradation exceeded the TS plugging limit of 40% TW or the associated structural condition monitoring limit.

Condition monitoring leakage integrity of degraded SG tubing is most efficiently evaluated in terms of threshold nondestructive examination signal amplitudes below which there is no leakage under accident conditions. The EPRI In-Situ Pressure Test Guidelines provided the leakage integrity screening values used in the inspection. No indications exceeded the screening criteria; therefore the condition monitoring leakage criteria was met and no in-situ pressure testing was required.

No detectable primary-to-secondary leakage was detected during the cycles leading up to the inspection and no tube pulls were performed during the inspection.


FAN BAR WEAR CONDITION MONITORING LIMIT

1oo..--~~~~~~~~~~B_ob_b_in~, _ET_S_S_H_-9_60_04_.1~~~~~~~~~~~~

90

80

[ 70

-.;,. :;;- 60 a ~ E 50 ::, E "S 40 ::E w 0 z 30

20

10

0 0.0

100

g)

El)

~ 70 C t I!() Q

E j ro " i "'

4)

g 3'.)

20

10

0 OD

\

\

'

0.5

'

0.5

1-~·::.1

--- ---- ----- - --------------------------

1.0 1.5 2.0 2.5

Bounding Length (Inches)

LATTICE GRID WEAR CONDITION MONITORING LIMIT

Bobbin, ETSS H-9'004.1

--- ----

3.0

------- -----------------------

I 1.0 1.5 20 2.5 3.0

B 0tinclng Lai~ (inches)

3.5

3.5

Page 12


FOREIGN OBJECT WEAR CONDITION MONITORING LIMIT

100 ~---------•_Po_ln_~E_T_ss_H_-2_79_03_.1 _________ ~

90

80

~ 70 .... ;; 60 ii " 0 E 50 :,

E x ~ 40 w 0 z 30

20

10

------ ...

0 0

--- --- --- ---- -----

0-+-----~---~---~---~----r------1 0.0 0.5 1.0 1.5 2.0

Bounding Length {inches)

ATTACHMENTS

Service Induced Indications- Fan Bar/Lattice Grid

Attachment 1: SG 11 PCT >0% at Fan Bar/Lattice Grid



Attachment 4 : SG 14 PCT >0% at Fan Bar/Lattice Grid

2.5 3.0

Page 13

Attachment 1 to Enclosure to AEP-NRC-2018-19 Unit 1 2017 Steam Generator Tube Inspection Report

Service Induced Indications - Fan Bar/Lattice Grid

SG 11 PCT>O% at Fan Bar/Lattice Grid

AREVA NP Inc Customer: AEP

UlC28 Bobbin %TWD

QUERY: QueryM5 [2]

ROW COL VOLTS DEG

Plant: DC COOK Unit: 1

.qry

CHN IND %TW LOCATION

10/13/17 16:35:09 Component: S/G 11

EXT EXT UTIL 1 UTIL 2 ------------------------ ======== ========

1

1

1

1

1

1

2

2

63 0.15 0.15

71 0.16

73 0.16

77 0.22

89 0.11

99 0.14

30 0.16

32 0.16

2. 70 0.16

3

3

3

4

4

33 0.21

51 0.21

79 0.09

30 0.17

52 0.23

29 49 0.11

32 24 0.37

34 36 0.44

34 48 0.11

35 65 0.13

38 54 0.10

41 17 0.13

41 45 0.18

42 10 0.22

43 17 0.16

45 63 0.11 0.12 0.17

45 65 0.11

46 66 0.08

50 52 0.12

50 54 0.11

52 52 0.10

52 60 0.45

53 47 0.13 0.13

53 49 0.26 0.27

98 P2 TWD 7 119 P2 TWD 7

100 P2 TWD 8

120 P2 TWD 8

07C -1. 00 06C -1. 06

07C +0.77

FBl +28.61

110 P2 TWD 10 08H +1.01

94 P2 TWD 6

108 P2 TWD 7

110 P2 TWD 8

100 P2 TWD 8

69 P2 TWO 8

07C -1. 78

08C +0.65

06C -1.27

05C +0.83

07C -1. 45

141 P2 TWD 10 05C +0.94

122 P2 TWD 10 06C -1.14

48 P2 TWD 5

111 P2 TWD 8

05C -1. 78

06C -1.21

93 P2 TWD 10 06C -1.08

48 P2 TWD 6 07H +0.67

109 P2 TWD 15 03H +0.62

111 P2 TWD 17 04H -1.47

136 P2 TWD 6

45 P2 TWD 6

123 P2 TWD 5

142 P2 TWD 7

109 P2 TWD 9

03H -1.15

05H +0.60

FB4 -0.08

04H -1.70

FB4 -1.12

133 P2 TWD 10 03H -1.75

140 P2 TWD 8

66 P2 TWD 6 115 P2 TWD 6 143 P2 TWD 8

103 P2 TWD 6

96 P2 TWD 4

113 P2 TWD 6

113 P2 TWD 6

61 P2 TWD 5

04H -1. 69

FB5 -1. 37 FB4 +l. 74 FB4 -0. 72

FB4 -1. 04

FB4 -1.25

FB4 -1. 07

FB5 -0.18

FB4 +0.52

125 P2 TWD 17 FB3 -1.91

64 P2 TWD 6 96 P2 TWD 7

81 P2 TWD 12 51 P2 TWD 12

FB4 +l.14 FB3 +l. 32

FB5 -1.22 FB4 +l. 05

08C TEC 08C TEC

08C TEC

08C TEH LAR

08C TEH

08C TEC

08C TEH

08C TEC

08C TEC

08C TEC

08C TEC

OBC TEC

08C TEC

08C TEC

08C TEC

TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH TEC TEH TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH TEC TEH

TEC TEH TEC TEH

LOCOK

CAL LEG

12 COLD COLD

COLD

36 HOT

HOT

8 COLD

36 HOT

8 COLD

COLD

12 COLD

7

8

COLD

COLD

COLD

COLD

COLD

12 HOT

15 HOT

12 HOT

HOT

11 HOT

HOT

17 HOT-

12 HOT

16 HOT

HOT

11 HOT HOT HOT

3

6

4

7

5

7

HOT

HOT

HOT

HOT

HOT

HOT

HOT HOT

HOT HOT

Page 1 of 12

PROBE IDX

720HS 45 720HS 45

720HS

700CL

700CL

720HS

700CL

720HS

720HS

720HS

720HS

720HS

720HS

720HS

720HS

720HS

720HS

720HS

720HS

720HS

720HS

720HS

720HS

720HS

720HS

720HS 720HS 720HS

720HS

720HS

720HS

720CL

720CL

720HS

720CL 720CL

720CL 720CL

21

49

45

19

20

143

137

26

90

54

35

142

72

20

76

160

34

75

230

22

57

78

21

110 110 110

80

64

111

22

100

75

43 43

63 63

--------------------------------------- .---------------------------------------------------------------------54 56 0.11

0.11 0.17 0.16 0.13

55 45 0.14

57 47 0.09

123 P2 TWD 6 97 P2 TWD 6 64 P2 TWD 8 91 P2 TWD 8 99 P2 TWD 6

92 P2 TWD 7

106 P2 TWD 5

FB6 -1. 40 FB4 -1. 27 FB4 +1.04 FB5 -1. 23 FB5 +l. 06

FB4 +l. 06

FB2 -2.48

TEC TEH TEC TEH TEC TEH TEC TEH TEC TEH

TEC TEH

TEC TEH

5

6

7

HOT HOT HOT HOT HOT

HOT

HOT

720HS 720HS 720HS 720HS 720HS

720HS

720CL

36 36 36 36 36

44

44

AREVA NP Inc Customer: AEP Plant: DC COOK Unit: 1

UlC28 Bobbin %TWD

QUERY: QueryM5[2] .qry

ROW COL VOLTS DEG CHN IND %TW LOCATION

57 51 0.12

57 59 0.11

58 42 0.14

58 48 0.18 0.19 0.18

58 52 0.12

58 72 0.10

59 47 0.12

59 51 0.13

59 57 0.16 0.31 0.18

59 59 0.12

59 61 0.18 0.19 0.13

59 67 0.10

59 69 0.16 0.60

60 54

0.15

0.19 0.45 0.53

23 P2 TWD 6

65 P2 TWD 6

120 P2 TWD 7

106 P2 53 P2 98 P2

TWD 9 TWD 9 TWD 9

132 P2 TWD 6

109 P2 TWD 5

100 P2 TWD 6

68 P2 TWD 6

138 P2 TWD 8 134 P2 TWD 13 133 P2 TWD 9

113 P2 TWD 6

132 P2 TWD 9 147 P2 TWD 9 147 P2 TWD 6

137 P2 TWD 5

FB5 +1. 66

FB6 -1.25

FB4 -1. 30

FB7 +2.43 FB4 -1. 27 FB3 -1. 31

FB4 -1. 37

FB4 -1. 28

FB3 +1.06

FB5 +1.17

FB6 +1.16 FB4 +1. 08 FB5 +1. 01

FB5 -1.68

FB5 +1. 07 FB4 +1.05 FB5 -1. 23

FB4 +1. 00

150 P2 TWD 8 FB5 -1.27 126 P2 TWD 21 FB4 +1.11 129 P2 TWD 7 FB3 +1.22

114 P2 TWD 9 129 P2 TWD 17 129 P2 TWD 19

FB6 -0.09 FB5 -0.04 FB4 -0.16

10/13/17 16:35:09 Component: S/G 11

EXT EXT UTIL 1 UTIL 2 CAL LEG

TEC TEH

TEC TEH

TEC TEH


TEC TEH

TEC TEH

TEC TEH

TEC TEH


TEC TEH


TEC TEH



5

4

7

6

4

HOT

HOT

HOT

HOT HOT HOT

HOT

HOT

HOT

HOT

HOT HOT HOT

21 HOT

4

3

4

HOT HOT HOT

HOT

HOT HOT HOT

HOT HOT HOT

PROBE

720CL

720HS

720CL

720CL 720CL 720CL

720HS

720HS

720HS

720HS

720CL 720CL 720CL

720HS

720CL 720CL 720CL

720HS

720HS 720HS 720HS

720CL 720CL 720CL

Page 2 of 12

IDX

84

60

111

58 58 58

109

149

61

98

45 45 45

23

82 82 82

71

110 110 110

20 20 20

-------------------------------------------------------------------------------------------------------------60 56 0.23

0.27 0.17 0.13 0.51 0.10 0.15

60 58 0.14

60 62 0.15

61 53 0.10 0.22

61 55 0.12

129 P2 TWD 10 138 P2 TWD 12 135 P2 TWD 8 137 P2 TWD 7 135 P2 TWD 19 152 P2 TWD 5 132 P2 TWD 7

130 P2 TWD 7

127 P2 TWD 7

FB3 -1.31 FB4 -1. 24 FB4 +1. 00 FB5 -1.16 FB5 +1.18 FB6 -1. 38 FB6 +1.24

FBl -2.02

FB4 -1.28

73 P2 TWD 5 FB5 +1.18 74 P2 TWD 10 FB4 +1.07

124 P2 TWD 6 FB6 +l. 82

TEC TEH TEC TEH TEC TEH TEC TEH TEC TEH TEC TEH TEC TEH

TEC TEH

TEC TEH

TEC TEH TEC TEH

TEC TEH

5

6

5

HOT HOT HOT HOT HOT HOT HOT

HOT

HOT

HOT HOT

HOT

720CL 720CL 720CL 720CL 720CL 720CL 720CL

720CL

720HS

720HS 720HS

720HS

38 38 38 38 38 38 38

57

93

116 116

23 -------------------------------------------------------------------------------------------------------------61 57 0.13 107 P2 TWD 6 FB4 -1.12 TEC TEH HOT 720HS 42

0.10 117 P2 TWD 5 FB5 -1. 21 TEC TEH HOT 720HS 42 0.11 94 P2 TWD 6 FB5 +0.94 TEC TEH HOT 720HS 42 0.11 68 P2 TWD 6 FB6 -1. 28 TEC TEH HOT 720HS 42

-------------------------------------------------------------------------------------------------------------61 61 0.30

0.70 0.41 0.29 0.19 0.14 0.27

61 63 0.11 0.13

61 79 0.08

110 P2 TWD 13 129 P2 TWD 23 131 P2 TWD 16 120 P2 TWD 13 125 P2 TWD 9 138 P2 TWD 7 124 P2 TWD 12

106 P2 TWD 6 100 P2 TWD 6

45 P2 TWD 4

FB4 -1.24 FB4 +1.10 FB5 -1.19 FB5 +1.19 FB6 -1. 30 FB3 -1. 42 FB3 +l.29

FB5 +1.20 FB4 -1.26

FB4 +l. 05


TEC TEH TEC TEH

TEC TEH


20 HOT HOT

22 HOT

720HS 720HS 720HS 720HS 720HS 720HS 720HS

720HS 720HS

720HS

80 80 80 80 80 80 80

37 37

23 -------------------------------------------------------------------------------------------------------------62 42 0.31 120 P2 TWD' 13 FB5 +l.11 TEC TEH 4 HOT 720CL 110

0.12 152 P2 TWD 6 FB3 -1. 44 TEC TEH HOT 720CL 110 0.27 132 P2 TWD 12 FB4 -1. 39 TEC TEH HOT 720CL 110 0.11 63 P2 TWD 6 FB6 -1. 52 TEC TEH HOT 720CL 110

62 44 0.26 65 P2 TWD 12 FB4 -1.22 TEC TEH 7 HOT 720CL 19


UlC28 Bobbin %TWD

QUERY: QueryM5[2]

ROW COL VOLTS DEG

0.15 95 0.18 128


.qry


10/13/17 16:35:09 Component: S/G 11

EXT EXT UTIL 1 UTIL 2 ------------------------ ======== ========

P2 TWD 7 FB3 -1. 32 TEC TEH P2 TWD 9 FB5 +1.07 TEC TEH

Page 3 of 12

CAL LEG PROBE !DX -----------

HOT 720CL 19 HOT 720CL 19

-------------------------------------------------------------------------------------------------------------62 48 0.17

0.38 0.16 0.15 0.36

62 54 0.16 0.11 0.21


8 6 P2 TWD 8 79 P2 TWD 6 119 P2 TWD 10

FB5 -1.20 FB4 -1. 32 FB3 -1. 33 FB6 +l. 30 FB5 +1.19

FB5 +0.00 FB6 -0.09 FB4 -0.04



5

HOT HOT HOT HOT HOT

HOT HOT HOT

720CL 720CL 720CL 720CL 720CL

720HS 720HS 720HS

57 57 57 57 57

16 16 16

-------------------------------------------------------------------------------------------------------------62 56 0.16

0.12 0.43 0.42 0.31 0.51

62 60 0.21

62 68 0.11

63 41 0 .13

63 43 0.11

63 45 0.15 0.31 0.12

63 53 0.10 0.45

63 69 0.14

64 46 0.13 0.14

64 50 0.36 0.14

64 52 0.14

64 54 0.09

64 60 0.11

64 66 0.20 0.31 0.27

103 P2 TWD 8 FB3 -1. 38 98 P2 TWD 6 FB4 -1.21 131 P2 TWD 17 FB4 +l. 09 132 P2 TWD 16 FB5 -1.23 119 P2 TWD 13 FB5 +l. 03 118 P2 TWD 19 FB6 -1.26

136 P2 TWD 10 FB5 -1.26

124 P2 TWD 6

118 P2 TWD 6

68 P2 TWD 6

119 P2 96 P2 65 P2

TWD 7 TWD 13 TWD 6

FB4 +l. 34

FB4 +l. 08

FB5 -1.22

FB3 +1.28 FB4 +1.15 FB5 -1.29

139 P2 TWD 5 FB5 -1.17 67 P2 TWD 17 FB4 -1.28

127 P2 TWD 7

38 P2 TWD 6 142 P2 TWD 7

FB4 +1.16

FB5 +l. 21 FB4 -1. 04

59 P2 TWD 15 FB5 +1.14 89 P2 TWD 7 FB4 -1.18

52 P2 TWD 7

137 P2 TWD 5

99 P2 TWD 6

135 P2 TWD 9 138 P2 TWD 13 130 P2 TWD 12

FB4 -1. 66

FB5 -0.02

FB5 +1.14

FB5 +1.18 FB5 -1. 25 FB4 +l. 09

TEC TEH TEC TEH TEC TEH TEC TEH TEC TEH TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH


TEC TEH TEC TEH

TEC TEH

TEC TEH TEC TEH

TEC TEH TEC TEH

TEC TEH

TEC TEH

TEC TEH


4

3

4

5

6

7

5

7

4

5

3

HOT HOT HOT HOT HOT HOT

HOT

HOT

HOT

HOT

HOT HOT HOT

HOT HOT

HOT

HOT HOT

HOT HOT

HOT

HOT

HOT

HOT HOT HOT

720HS 720HS 720HS 720HS 720HS 720HS

720C~

720HS

720CL

720HS

720HS 720HS 720HS

720CL 720CL

720HS

720CL 720CL

720CL 720CL

720CL

720CL

720HS

720HS 720HS 720HS

34 34 34 34 34 34

74

95

131

118

46 46 46

105 105

8

37 37

77 77

97

19

72

55 55 55

-------------------------------------------------------------------------------------------------------------64 68 0.09 67 P2 TWD 5 FB5 +1.14 TEC TEH HOT 720HS 94 -------------------------------------------------------------------------------------------------------------65 45 0.60 113 P2 TWD 21 FB6 -1. 30 TEC TEH 7 HOT 720CL 28

0.76 91 P2 TWD 24 FB5 -1.21 TEC TEH HOT 720CL 28 0.80 90 P2 TWD 25 FB4 +l. 03 TEC TEH HOT 720CL 28 0.15 88 P2 TWD 7 FB4 -1.12 TEC TEH HOT 720CL 28 0.36 99 P2 TWD 15 FB3 +1.24 TEC TEH HOT 720CL 28

-------------------------------------------------------------------------------------------------------------65 49 0.30 86 P2 TWD 13 FB6 +1.28 TEC TEH HOT 720CL 66

0.29 134 P2 TWD 13 FB5 +1.16 TEC TEH HOT 720CL 66 0.42 98 P2 TWD 16 FB5 -1.24 TEC TEH HOT 720CL 66 0.97 82 P2 TWD 27 FB4 +1.10 TEC TEH HOT 720CL 66 0.33 96 P2 TWD 14 FB3 +1.14 TEC TEH HOT 720CL 66

-------------------------------------------------------------------------------------------------------------65 51 0.55 89 P2 TWD 20 FB6 +1.26 TEC TEH HOT 720CL 86

0.42 94 P2 TWD 16 FB5 +1.24 TEC TEH HOT 720CL 86 0.28 60 P2 TWD 12 FB4 +l. 02 TEC TEH HOT 720CL 86 0.21 127 P2 TWD 10 FB3 +1.14 TEC TEH HOT 720CL 86

-------------------------------------------------------------------------------------------------------------65 55 0.10 136 P2 TWD 5 FB5 +0.47 TEC TEH 5 HOT 720HS 24 -------------------------------------------------------------------------------------------------------------65 57 0.62 123 P2 TWD 21 FB4 -1.21 TEC TEH HOT 720HS 43

0.65 123 P2 TWD 22 FB4 +1.11 TEC TEH HOT 720HS 43 1.21 122 P2 TWD 30 FB5 -1.22 TEC TEH HOT 720HS 43 0.12 68 P2 TWD 6 FB5 +l. 05 TEC TEH HOT 720HS 43 0 .23 122 P2 TWD 10 FB6 -1. 41 TEC TEH HOT 720HS 43 0.41 134 P2 TWD 16 FB6 +1.25 TEC TEH HOT 720HS 43

AREVA NP Inc Customer: AEP Plant: DC COOK Unit: l

U1C28 Bobbin %TWO



0.15 109 P2 TWD 7 FB3 -1. 34

10/13/17 16:35:09 Component: S/G 11


TEC TEH HOT

PROBE

720HS

Page 4 of 12

IDX

43 -------------------------------------------------------------------------------------------------------------65 59 0.84 126 P2 TWD 25 FB4 +1.13 TEC TEH HOT 720HS 62

0.39 130 P2 TWD 16 FB5 -1.37 TEC TEH HOT 720HS 62 0.35 136 P2 TWD 14 FB6 -1. 30 TEC TEH HOT 720HS 62 0.35 129 P2 TWD 14 FB3 +1.31 TEC TEH HOT 720HS 62

-------------------------------------------------------------------------------------------------------------65 61 0.64

0.81 0 .26 0.86 0.81 0.30

65 63 0.29 0.31 0.10

65 65 0.15 0.27 0.10

65 67 0.08 0.15 0.12

65 69 0.08

66 38 0.11

66 48 0.20 0.22 0.13

66 50 0.18

66 52 0.37 0.54 0.24 0.14

124 P2 127 P2 114 P2 121 P2 125 P2 131 P2

117 P2 120 P2 136 P2

TWD 22 TWD 25 TWD 12 TWD 26 TWD 25 TWD 13

TWD 13 TWD 13 TWD 5

FB6 -1.32 FB3 +1.19 FB4 -1.19 FB4 +1.19 FB5 -1.15 FB5 +1.21

FB6 +1.29 FB5 +1.20 FB3 +1.19

113 P2 TWD 7 FB5 -1.20 135 P2 TWD 12 FB4 +1.04 108 P2 TWD 5 FB3 +1.25

81 P2 TWD 4 130 P2 TWD 7 104 P2 TWD 6

124 P2 TWD 4

121 P2 TWD 6

45 P2 59 P2 136 P2

TWD 9 TWD 10 TWD 6

91 P2 TWD 9

123 P2 TWD 15 113 P2 TWD 19 103 P2 TWD 11 113 P2 TWD 7

FB5 +1.18 FB4 +l. 08 FB3 +1.17

FB7 -0.90

FB3 -1. 33

FB5 +1.16 FB4 -1.10 FB3 -1. 36

FB4 +l. 06

FB6 -1. 28 FB5 -1.19 FB4 +1.11 FB3 -1. 34

TEC TEH 'l'EC TEH TEC TEH TEC TEH TEC TEH TEC TEH




TEC TEH

TEC TEH


TEC TEH

TEC TEH TEC TEH TEC TEH TEC TEH


20 HOT HOT HOT

3

4

5

7

6

HOT HOT HOT

HOT HOT HOT

HOT

HOT

HOT HOT HOT

HOT

HOT HOT HOT HOT

720HS 720HS 720HS 720HS 720HS 720HS

720HS 720HS 720HS

720HS 720HS 720HS

720HS 720HS 720HS

720CL

720HS

720CL 720CL 720CL

720HS

720HS 720HS 720HS 720HS

81 81 81 81 81 81

40 40 40

36 36 36

74 74 74

14

157

56 56 56

89

107 107 107 107

-------------------------------------------------------------------------------------------------------------66 54 0.22 96 P2 TWD 10 FB3 +0.00 TEC TEH 5 HOT 720HS 15

1. 40 122 P2 TWD 32 FB4 +0.00 TEC TEH HOT 720HS 15 1. 23 121 P2 TWD 30 FB5 +0.00 TEC TEH HOT 720HS 15 0.43 126 P2 TWD 17 FB6 +0.00 TEC TEH HOT 720HS 15

-------------------------------------------------------------------------------------------------------------66 56 0.30 122 P2 TWD 13 FB4 +1.16 TEC TEH HOT 720HS 33

0.13 98 P2 TWD 7 FB6 -1. 32 TEC TEH HOT 720HS 33 0.32 126 P2 TWD 14 FB3 +1.21 TEC TEH HOT 720HS 33 0.40 124 P2 TWD 16 FB5 -1. 20 TEC TEH HOT 720HS 33 0.35 131 P2 TWD 14 FB5 +1.16 TEC TEH HOT 720HS 33 0.13 130 P2 TWD 6 FB6 +1.19 TEC TEH HOT 720HS 33 0.18 108 P2 TWD 9 FB7 +l. 31 TEC TEH HOT 720HS 33

-------------------------------------------------------------------------------------------------------------66 58 0.22 115 P2 TWD 10 FB3 -1. 38 TEC TEH HOT 720HS 52

0.15 121 P2 TWD 7 FB4 -1. 35 TEC TEH HOT 720HS 52 0.52 126 P2 TWD 19 FB4 +l. 05 TEC TEH HOT 720HS 52 0.23 107 P2 TWD 10 FB5 -1.18 TEC TEH HOT 720HS 52 0.23 125 P2 TWD 10 FB5 +l. 00 TEC TEH HOT 720HS 52 0.23 131 P2 TWD 10 FB6 +l. 25 TEC TEH HOT 720HS 52

-------------------------------------------------------------------------------------------------------------66 60 0.11 135 P2 TWD 6 FB4 -1. 32 TEC TEH 4 HOT 720CL 73

0.13 128 P2 TWD 6 FB5 -1.23 TEC TEH HOT 720CL 73 0.18 126 P2 TWD 9 FB5 +1. 06 TEC TEH HOT 720CL 73

-------------------------------------------------------------------------------------------------------------66 62 0.69 131 P2 TWD 23 FB3 -1. 44 TEC TEH HOT 720CL 91

1.21 130 P2 TWD 30 FB4 -1.29 TEC TEH HOT 720CL 91 0.92 130 P2 TWD 26 FB5 +1.15 TEC TEH HOT 720CL 91 0.31 137 P2 TWD 13 FB6 +1.24 TEC TEH HOT 720CL 91

-------------------------------------------------------------------------------------------------------------66 64 0.23 122 P2 TWD 10 FB4 -1. 30 TEC TEH 3 HOT 720HS 16

0.24 124 P2 TWD 11 FB5 +1.14 TEC TEH HOT 720HS 16 0.28 130 P2 TWD 12 FB6 +1.23 TEC TEH HOT 720HS 16

-------------------------------------------------------------------------------------------------------------66 66 0.10 90 P2 TWD 5 FB5 +1. 05 TEC TEH HOT 720HS 54

0.23 135 P2 TWD 10 FB4 -1.21 TEC TEH HOT 720HS 54 -------------------------------------------------------------------------------------------------------------66 72 0.12 113 P2 TWD 6 FB4 -1. 31 TEC TEH 6 HOT 720HS 147

67 43 0.16 136 P2 TWD 8 FB4 +l. 09 TEC TEH 5 HOT 720HS 119


UlC28 Bobbin. %TWD



0.12 78 P2 TWD 6 FB5 -1. 31

67 45 0.39 123 P2 TWD 16 FB6 -1.28 0 .24 97 P2 TWD 11 FB5 -1.24 0.16 72 P2 TWD 8 FB4 +l.12 0 .23 118 P2 TWD 10 FB3 -1.29

10/13/17 16:35:09 Component: S/G 11


TEC TEH HOT

TEC TEH 6 HOT TEC TEH HOT TEC TEH HOT TEC TEH HOT

PROBE

720HS

720HS 720HS 720HS 720HS

Page 5 of 12

IDX

119

47 47 47 47

-------------------------------------------------------------------------------------------------------------67 47 0.16

67 49 0.14 0.20

67 51 0.18

67 53 0.11

67 55 0.12 0.20 0.12

67 57 0.10 0.11

67 59 0.41 1. 00 0.40

136 P2 TWD 8

136 P2 TWD 7 105 P2 TWD 9

116 P2 TWD 9

85 P2 TWD 6

116 P2 TWD 6 114 P2 TWD 9 133 P2 TWD 6

124 P2 TWD 5 117 P2 TWD 6

FB4 +1.14

FB6 -1.22 FB5 -1.19

FB4 +l.13

FB7 -0.88

FB5 -1.25 FB4 -1.32 FB6 -1. 40

FB5 +l.13 FB4 -1. 25

136 P2 131 P2 135 P2

TWD 16 FB3 +1.18 TWD 28 FB4 +1.10 TWD 16 FB5 -1.23

TEC TEH

TEC TEH TEC TEH

TEC TEH

TEC TEH


TEC TEH TEC TEH


7

4

HOT

HOT HOT

HOT

HOT

HOT HOT HOT

20 HOT HOT

4 HOT HOT HOT

720HS

720HS 720HS

720HS

720CL

720CL 72-0CL 720CL

720HS 720HS

720CL 720CL 720CL

63

82 82

100

106

29 29 29

39 39

66 66 66

-------------------------------------------------------------------------------------------------------------·67 61 0.18 142 P2 TWD 9 FB3 -1. 43 TEC TEH HOT 720CL 84

0.36 139 P2 TWD 15 FB3 +l. 20 TEC TEH HOT 720CL 84 1.15 127 P2 TWD 29 FB4 -1. 23 TEC TEH HOT 720CL 84 1. 00 125 P2 TWD 28 FB5 -1.41 TEC TEH HOT 720CL 84 0.22 142 P2 TWD 10 FB5 +0.99 TEC TEH HOT 720CL 84 0.37 127 P2 TWD 15 FB6 -1. 46 TEC TEH HOT 720CL 84 0.13 144 P2 TWD 6 FB6 +l.24 TEC TEH HOT 720CL 84

-------------------------------------------------------------------------------------------------------------67 63 0.12

0.16 0.76 0. 71

67 67 0.08

67 69 0.13 0.25

68 40 0.14 0.19 0.12

68 42 0.17

124 P2 TWD 6 FB3 -1. 32 126 P2 TWD 8 FB4 -1. 32 131 P2 TWD 24 FB5 +l.24 130 P2 TWD 23 FB6 +l. 27

128 P2 TWD 4 FB3 +l .16

109 P2 TWD 6 FB4 +1.09 125 P2 TWD 11 FB5 +1.11

147 P2 TWD 7 125 P2 TWD 9 106 P2 TWD 6

134 P2 TWD 8

FB3 -1.29 FB4 -1.22 FB6 +l.17

FB3 -1. 35


TEC TEH

TEC TEH TEC TEH


TEC TEH

3

5

4

HOT HOT HOT HOT

HOT

HOT HOT

HOT HOT HOT

13 HOT

720CL 720CL 720CL 720CL

720HS

720HS 720HS

720CL 720CL 720CL

720HS

102 102 102 102

75

9 9

140 140 140

32 -------------------------------------------------------------------------------------------------------------68 50 0.41 90 P2 TWD 16 FB6 +1.15 TEC TEH 7 HOT 720CL 76

0. 26 100 P2 TWD 12 FB6 -1.19 TEC TEH HOT 720CL 76 0.43 119 P2 TWD 17 FB5 +l. 09 TEC TEH HOT 720CL 76 0.99 103 P2 TWD 27 FB5 -1.21 TEC TEH HOT 720CL 76 0.56 81 P2 TWD 20 FB4 +1.07 TEC TEH HOT 720CL 76 0.53 85 P2 TWD 19 FB4 -1.25 TEC TEH HOT 720CL 76 0.34 94 P2 TWD 14 FB3 -1. 40 TEC TEH HOT 720CL 76

68 52 0.15 95 P2 TWD 7 FB5 +l.18 TEC TEH HOT 720CL 96 0.28 82 P2 TWD 12 FB4 -1.11 TEC TEH HOT 720CL 96

-------------------------------------------------------------------------------------------------------------68 56 0.16 148 P2 TWD 8 FB6 -1. 30 TEC TEH 4 HOT 720CL 36

0.44 131 P2 TWD 17 FB5 -1.17 TEC TEH HOT 720CL 36 0.15 125 P2 TWD 7 FB5 +l. 03 TEC TEH HOT 720CL 36 0.11 141 P2 TWD 6 FB3 -1. 39 TEC TEH HOT 720CL 36 0.23 144 P2 TWD 10 FB4 +0.97 TEC TEH HOT 720CL 36

68 58 0.12 106 P2 TWD 6 FB4 +l.10 TEC TEH HOT 720CL 55 -------------------------------------------------------------------------------------------------------------68 60 0.13 123 P2 TWD 6 FB3 -1. 47 TEC TEH 5 HOT 720HS 71

0.11 110 P2 TWD 6 FB4 -1. 32 TEC TEH HOT 720HS 71 0.55 127 P2 TWD 20 FB5 -1. 21 TEC TEH HOT 720HS 71 0 .25 125 P2 TWD 11 FB5 +l. 02 TEC TEH HOT 720HS 71 0.14 120 P2 TWD 7 FB6 -1. 42 TEC TEH HOT 720HS 71


0.41 126 P2 TWD 16 FB6 +1.14 TEC TEH HOT 720HS 91 0.14 131 P2 TWD 7 FB3 -1.26 TEC TEH HOT 720HS 91 0 .23 127 P2 TWD 10 FB4 -1. 25 TEC TEH HOT 720HS 91


UlC28 Bobbin %TWD

QUERY: QueryM5[2]

ROW COL VOLTS DEG


.qry


10/13/17 16:35:09 Component: S/G 11

EXT EXT UTIL 1 UTIL 2 ======================== ======== ========

68 68

0.35 0.38 0.60

0.30 0.26 0.13

69 43 0.15 0.15 0.16

69 45 0.32 0.18

69 47 0.18 0.19 0.14

119 P2 TWD 14 126 P2 TWD 15 123 P2 TWD 21

128 P2 TWD 13 111 P2 TWD 12 93 P2 TWD 6

124 P2 TWD 7 127 P2 TWD 7 146 P2 TWD 8

FB4 +1.15 FB5 -1. 28 FB5 +1.10

FB6 +1. 19 FB5 +1.09 FB4 -1.14

FB3 +1.25 FB4 +0.98 FB5 -1.18

67 P2 TWD 14 FB6 +l.15 108 P2 TWD 9 FB4 +0.93

49 P2 45 P2 117 P2

TWD 9 .TWD 9 TWD 7

FB5 -1. 24 FB4 +1.14 FB3 +1. 29




TEC TEH TEC TEH


CAL

3

4

7

LEG

HOT HOT HOT

HOT HOT HOT

HOT HOT HOT

HOT HOT

HOT HOT HOT

Page 6 of 12

PROBE =========== 720HS 720HS 720HS

720HS 720HS 720HS

720CL 720CL 720CL

720CL 720CL

720CL 720CL 720CL

IDX

91 91 91

92 92 92

121 121 121

29 29

47 47 47


0.66 122 P2 TWD 22 FB6 -1.25 TEC TEH HOT 720HS 118 0.93 121 P2 TWD 27 FB5 +1.11 TEC TEH HOT 720HS 118 O·. 58 129 P2 TWD 20 FB5 -1.15 TEC TEH HOT 720HS 118 0.75 118 P2 TWD 24 FB4 +1. 09 TEC TEH HOT 720HS 118 0.15 71 P2 TWO 7 FB4 -1.19 TEC TEH HOT 720HS 118 0.78 129 P2 TWO 24 FB3 +1.15 TEC TEH HOT 720HS 118 0.28 129 P2 TWD 12 FB2 -2.22 TEC TEH HOT 720HS 118

-------------------------------------------------------------------------------------------------------------69 55 0.12

0.10 0.25 0.19 0.16

69 57 0.17 0.28 0.13


94 P2 TWD 8 118 P2 TWD 12 113 P2 TWD 6

FB3 -1. 35 FB4 -1. 32 FB4 +1.08 FB5 -1.10 FB5 +1.17

FB4 +1.13 FB5 -1. 20 FB6 -1. 24



5 HOT HOT HOT HOT HOT

HOT HOT HOT

720HS 720HS 720HS 720HS 720HS

720HS 720HS 720HS

25 25 25 25 25

44 44 44

-------------------------------------------------------------------------------------------------------------69 59 0.14 135 P2 TWD 7 FB2 +1. 34 TEC TEH HOT 720HS 63

0.23 131 P2 TWD 10 FB3 -1. 37 TEC TEH HOT 720HS 63 0.46 131 P2 TWD 18 FB3 +1. 21 TEC TEH HOT 720HS 63 0.34 126 P2 TWD 14 FB4 -1. 25 TEC TEH HOT 720HS 63 1.19 122 P2 TWD 30 FB4 +1. 06 TEC TEH HOT 720HS 63 0.11 107 P2 TWD 6 FB6 -1.21 TEC TEH HOT 720HS 63 0.70 129 P2 TWD 23 FB6 +l. 30 TEC TEH HOT 720HS 63 0.73 130 P2 TWD 23 FB5 +l.16 TEC TEH HOT 720HS 63 0.33 122 P2 TWD 14 FB5 -1.26 TEC TEH HOT 720HS 63

-------------------------------------------------------------------------------------------------------------69 61 0.14 117 P2 TWD 7 FB4 +l.13 TEC TEH HOT 720HS 82 -------------------------------------------------------------------------------------------------------------69 65 0.15

0.26 0.89 0.47

69 67 0 .11 0.10

69 69 0.19 0.64

70 42 0.15

70 46 0.56 0.44

70 48 0.15 0.30

70 54 0 .21 0.37 0.26


117 P2 TWD 6 111 P2 TWD 5

FB6 -1.29 FB5 -1.17 FB4 +1.19 FB3 +1.25

FB4 +l. 12 FB3 +l. 21

136 P2 TWD 9 FB5 -1.14 134 P2 TWD 22 FB4 +1.16

147 P2 TWD 7 FB4 -1. 33

117 P2 TWD 20 FB5 +1.23 102 P2 TWD 17 FB4 -1.21

114 P2 TWO 7 FB5 +1.14 89 P2 TWD 13 FB4 -1.27

93 P2 TWD 10 97 P2 TWD 15 82 P2 TWD 12

FB4 +0.00 FB5 +0.00 FB6 +0.00


TEC TEH TEC TEH

TEC TEH TEC TEH

TEC TEH

TEC TEH TEC TEH

TEC TEH TEC TEH


3

4

7

5

HOT HOT HOT HOT

HOT HOT

HOT HOT

HOT

HOT HOT

HOT HOT

HOT HOT HOT

720HS 720HS 720HS 720HS

720HS 720HS

720CL 720CL

720CL

720CL 720CL

720CL 720CL

720HS 720HS 720HS

38 38 38 38

76 76

15 15

108

36 36

55 55

14 14 14

-------------------------------------------------------------------------------------------------------------70 56 0.40

0.41 1. 47 0.53

70 60 0.11 0.15


127 P2 TWD 6 141 P2 TWD 7

FB3 -1. 31 FB4 +1.15 FB5 -1.19 FB6 -1. 33

FB3 -1. 38 FB4 -1.25


TEC TEH TEC TEH

4

HOT HOT HOT HOT

HOT HOT

720HS 720HS 720HS 720HS

720CL 720CL

32 32 32 32

72 72


UlC28 Bobbin %TWO

QUERY: QueryM5[2]

ROW COL VOLTS DEG

0.35 138 0.44 142 0.21 147

Plant: DC COOK 10/13/17 16:35:09

Unit: i' Component: S/G 11

.qry

CHN IND %TW LOCATION EXT EXT UTIL 1 UTIL 2 ======================== ======== ========

P2 TWO 14 FB5 -1.23 TEC TEH P2 TWO 17 FB5 +l. 03 TEC TEH P2 TWO 10 FB6 +l.19 TEC TEH

- ----- - --------~

Page 7 of 12

CAL LEG PROBE IDX ===========

HOT 720CL 72 HOT 720CL 72 HOT 720CL 72

-------------------------------------------------------------------------------------------------------------70 62 0.87

0.40 0.39 0.66 0.38 0.22

70 64 0.11 0.12 0.19

70 66 0.12

70 68 0.15 0.23

70 70 0.14 0.12

71 39 0.12

71 41 0.13

71 43 0.12

129 P2 TWO 26 132 P2 TWO 16 138 P2 TWO 16 133 P2 TWO 22 135 P2 TWO 15 130 P2 TWO 10

126 P2 TWO 6 109 P2 TWO 6 125 P2 TWO 9

111 P2 TWO 6

FB5 +l. 02 FB6 +1.19 FB3 -1. 38 FB4 -1. 22 FB4 +l. 06 FB5 -1.19

FB3 +l. 29 FB4 -1.20 FB5 +l. 05

FB4 +1.12

120 P2 TWO 7 FB6 +1.23 111 P2 TWD 10 FB4 -1.22

88 P2 TWO 7 129 P2 TWO 6

133 P2 TWO 6

142 P2 TWO 6

97 P2 TWO 6

FB5 +1.03 FB4 -1. 29

FB3 +l. 09

FB4 +1.06

FB3 +1.11



TEC TEH

TEC TEH TEC TEH

TEC TEH TEC TEH

TEC TEH

TEC TEH

TEC TEH

3

6

5

4

5


HOT HOT HOT

HOT

HOT HOT

HOT HOT

HOT

HOT

HOT

720CL 720CL 720CL 720CL 720CL 720CL

720HS 720HS 720HS

720HS

720HS 720HS

720HS 720HS

720HS

720CL

720HS

90 90 90 90 90 90

14 14 14

52

91 91

128 128

145

129

120 -------------------------------------------------------------------------------------------------------------71 49 0 .26 127 P2 TWO 12 FB5 +1.21 TEC TEH 6 HOT 720HS 83

0.31 113 P2 TWO 13 FB5 -1. 08 TEC TEH HOT 720HS 83 0.34 103 P2 TWO 14 FB4 +1.12 TEC TEH HOT 720HS 83 0.34 111 P2 TWO 14 FB4 -1.11 TEC TEH HOT 720HS 83 0.17 106 P2 TWO 8 FB3 +1.19 TEC TEH HOT 720HS 83

-------------------------------------------------------------------------------------------------------------71 51 0.90 117 P2 TWO 26 FB3 +1.13 TEC TEH HOT 720HS 101

0.13 95 P2 TWO 6 FB7 -1. 45 TEC TEH HOT 720HS 101 0.46 132 P2 TWO 18 FB6 +l.25 TEC TEH HOT 720HS 101 0.15 104 P2 TWO 7 FB6 -1.17 TEC TEH HOT 720HS 101 0.77 124 P2 TWO 24 FB5 +l. 04 TEC TEH HOT 720HS 101 0.22 120 P2 TWO 10 FB5 -1.22 TEC TEH HOT 720HS 101 1. 24 122 P2 TWO 30 FB4 +l.10 TEC TEH HOT 720HS 101

-------------------------------------------------------------------------------------------------------------71 55 0.17 132 P2 TWO 8 FB5 -1. 20 TEC TEH 4 HOT 720CL 30

0.92 126 P2 TWO 26 FB4 -1.11 TEC TEH HOT 720CL 30 0.30 139 P2 TWO 13 FB3 -1. 30 TEC TEH HOT 720CL 30 0.42 133 P2 TWO 16 FB6 -1. 33 TEC TEH HOT 720CL 30 0. 86 131 P2 TWO 26 FB5 +l.13 TEC TEH HOT 720CL 30

-------------------------------------------------------------------------------------------------------------71 61 1. 23 129 P2 TWO 30 FB5 -1.14 TEC TEH HOT 720CL 85

0.53 134 P2 TWO 19 FB5 +l.13 TEC TEH HOT 720CL 85 1. 41 125 P2 TWO 32 FB6 -1. 24 TEC TEH HOT 720CL 85 0.19 140 P2 TWO 9 FB6 +l.10 TEC TEH HOT 720CL 85 0. 26 141 P2 TWO 12 FB7 -1. 46 TEC TEH HOT 720CL 85 0.15 141 P2 TWO 7 FB3 -1. 30 TEC TEH HOT 720CL 85 0.90 134 P2 TWO 26 FB3 +l. 09 TEC TEH HOT 720CL 85 0.44 132 P2 TWO 17 FB4 -1.22 TEC TEH HOT 720CL 85 1. 61 124 P2 TWO 34 FB4 +1.14 TEC TEH HOT 720CL 85

-------------------------------------------------------------------------------------------------------------71 63 0.37 140 P2 TWO 15 FB3 +l.11 TEC TEH HOT 720CL 103

0.39 129 P2 TWO 16 FB4 +1.14 TEC TEH HOT 720CL 103 0.43 124 P2 TWO 17 FB5 -1.11 TEC TEH HOT 720CL 103 0.68 137 P2 TWO 22 FB6 -1.26 TEC TEH HOT 720CL 103

-------------------------------------------------------------------------------------------------------------71 67 0.13

0.17 0. 21 0.23

71 71 0.16

71 79 0.06

72 38 0.29 0.33

72 40 0.11

72 44 0.30 0.52

108 P2 TWO 6 110 P2 TWO 8 124 P2 TWO 10 127 P2 TWO 10

102 P2 TWO 8

151 P2 TWO 3

-FB6 -1. 33 FB5 -1.18 FB4 +l. 00 FB3 +1.14

FB4 +l.11

FB7 -1. 67

118 P2 TWO 13 FB3 -1.37 130 P2 TWO 14 FB4 -1.21

100 P2 TWO 6 FB5 +l. 03

132 P2 TWO 13 FB6 +1.25 129 P2 TWO 19 FB5 +1.15


TEC TEH

TEC TEH

TEC TEH TEC TEH

TEC TEH

TEC TEH TEC TEH

3 HOT HOT HOT HOT

6 HOT

23 HOT

4

6

HOT HOT

HOT

HOT HOT

720HS 720HS 720HS 720HS

720HS

720HS

720CL 720CL

720CL

720HS 720HS

77 77 77 77

141

20

159 159

141

36 36

AREVA NP Inc 10/13/17 16:35:09 Customer: AEP Plant: DC COOK Unit: 1 Component: S/G 11 Page 8 of

UlC28 Bobbin %TWD


-ROW COL VOLTS DEG CHN IND %TW LOCATION EXT EXT UTIL 1 UTIL 2 CAL LEG PROBE IDX ------------------------ ======== ======== ===========

0.93 118 P2 TWD 27 FB4 -1.17 TEC TEH HOT 720HS 36 0.17 139 P2 TWD 8 FB3 -1. 33 TEC TEH HOT 720HS 36

-------------------------------------------------------------------------------------------------------------72 46 0.11 121 P2 TWD 6 FB7 +l. 28 TEC TEH HOT 720HS 51

0.12 141 P2 TWD 6 FB7 -1. 41 TEC TEH HOT 720HS 51 0.52 119 P2 TWD 19 FB6 +l. 33 TEC TEH HOT 720HS 51 0.28 121 P2 TWD 12 FB6 -1. 27 TEC TEH HOT 720HS 51 1. 71 117 P2 TWD 35 FB5 +1.17 TEC TEH HOT 720HS 51 0 .21 106 P2 TWD 10 FB5 -1.11 TEC TEH HOT 720HS 51 1.18 117 P2 TWD 30 FB4 -1.15 TEC TEH HOT 720HS 51 0.33 114 P2 TWD 14 FB3 -1. 33 TEC TEH HOT 720HS 51

-------------------------------------------------------------------------------------------------------------72 5b 0.27 56 P2 TWD 12 FB6 +l. 22 TEC TEH 7 HOT 720CL 75

0.51 91 P2 TWD 19 FB5 +1.04 TEC TEH HOT 720CL 75 0.54 95 P2 TWD 19 FB4 -1. 25 TEC TEH HOT 720CL 75

-------------------------------------------------------------------------------------------------------------72 54 0.12 127 P2 TWD 6 FB6 -0.07 TEC TEH 4 HOT 720CL 18

0 .25 132 P2 TWD 11 FB5 +0.02 TEC TEH HOT 720CL 18 0.96 133 P2 TWD 27 FB4 -0.13 TEC TEH HOT 720CL 18 0.30 139 P2 TWD 13 FB3 -0.22 TEC TEH HOT 720CL 18

-------------------------------------------------------------------------------------------------------------72 56 0.11 100 P2 TWD 6 FB4 -1.22 TEC TEH HOT 720CL 35

0.14 143 P2 TWD 7 FB3 -1. 22 TEC TEH HOT 720CL 35 0.58 129 P2 TWD 20 FB6 -1. 37 TEC TEH HOT 720CL 35 1.35 128 P2 TWD 32 FB5 -1. 35 TEC TEH HOT 720CL 35

-------------------------------------------------------------------------------------------------------------72 58 0.23 136 P2 TWD 10 FB3 -1. 28 TEC TEH HOT 720CL 54

0.28 128 P2 TWD 12 FB4 -1.14 TEC TEH HOT 720CL 54 0.18 127 P2 TWD 9 FB4 +1.04 TEC TEH HOT 720CL 54 0.62 128 P2 TWD 21 FB5 -1. 40 TEC TEH HOT 720CL 54 0.27 140 P2 TWD 12 FB6 -1. 30 TEC TEH HOT 720CL 54 0.15 139 P2 TWD 7 FB7 -1. 39 TEC TEH HOT 720CL 54

-------------------------------------------------------------------------------------------------------------72 60 0.20 119 P2 TWD 9 FB4 -1.21 TEC TEH 5 HOT 720HS 70

0.16 104 P2 TWD 8 FB4 +l. 03 TEC TEH HOT 720HS 70 0.11 123 P2 TWD 6 FB5 -1.12 TEC TEH HOT 720HS 70


0.36 119 P2 TWD 15 FB4 +1.10 TEC TEH HOT 720HS 90 0.17 130 P2 TWD 8 FB5 -1.18 TEC TEH HOT 720HS 90 0.87 126 P2 TWD 26 FB5 +l ._07 TEC TEH HOT 720HS 90 0.99 121 P2 TWD 27 FB6 +l. 22 TEC TEH HOT 720HS 90 0.33 126 P2 TWD 14 FB3 -1. 29 TEC TEH HOT 720HS 90

-------------------------------------------------------------------------------------------------------------72 64 0.11 118 P2 TWD 6 FB3 -1. 24 TEC TEH 3 HOT 720HS 13

0.11 106 P2 TWD 6 FB4 -1. 33 TEC TEH HOT 720HS 13 0.12 118 P2 TWD 6 FB5 +l. 00 TEC TEH HOT 720HS 13 0.16 127 P2 TWD 8 FB5 -1. 23 TEC TEH HOT 720HS 13 0.13 101 P2 TWD 6 FB6 +l.21 TEC TEH HOT 720HS 13


0.16 134 P2 TWD 8 FB5 +l. 02 TEC TEH HOT 720HS 51 0.53 128 P2 TWD 19 FB4 -1.24 TEC TEH HOT 720HS 51 0.16 145 P2 TWD 8 FB3 -1. 36 TEC TEH HOT 720HS 51

-------------------------------------------------------------------------------------------------------------72 70 0.15

73 41 0.82 0.46 0.20

73 43 0.11

69 P2 TWD 8

123 P2 TWD 25 135 P2 TWD 18 138 P2 TWD 9

122 P2 TWD 6

FB4 -1.20

FB3 +l. 20 FB4 +0.98 FB5 -1.24

FB3 +1.27

TEC TEH


TEC TEH

7

5

4

HOT

HOT HOT HOT

HOT

720CL

720HS 720HS 720HS

720CL

117

125 125 125

122 -------------------------------------------------------------------------------------------------------------73 61 0.11 126 P2 TWD 6 FB3 -1. 23 TEC TEH 5 HOT 720HS 83

0.30 137 P2 TWD 13 FB3 +1.16 TEC TEH HOT 720HS 83 1. 30 125 P2 TWD 31 FB4 +1.17 TEC TEH HOT 720HS 83 0.73 129 P2 TWD 23 FB5 -1.17 TEC TEH HOT 720HS 83 0.51 123 P2 TWD 19 FB6 -1. 32 TEC TEH HOT 720HS 83

-------------------------------------------------------------------------------------------------------------73 63

73 65

0.53 0.28 0.19 0.48 0.15

0.10 0.23 0.20

73 67 0.10

134 P2 119 P2 104 P2 124 P2 103 P2

146 P2 147 P2 126 P2

TWD 19 TWD 12 TWD 9 TWD 18 TWD 7

TWD 5 TWD 10 TWD 9

52 P2 TWD 5

FB6 -1. 30 FB5 -1.24 FB4 +1.17 FB3 +1.26 FB3 -1. 30

FB5 -1.19 FB4 +l. 01 FB3 +l. 23

FB4 +l.14



TEC TEH

20

3

HOT HOT HOT HOT HOT

HOT HOT HOT

HOT

720HS 720HS 720HS 720HS 720HS

720HS 720HS 720HS

720HS

41 41 41 41 41

40 40 40

78

12


U1C28 Bobbin %TWO



0.09

73 69 0.21

74 38 0.11

74 40 0.12 0.16 0 .20 0.18

124 P2 TWD 5 FB3 +1.13

84 P2 TWD 10 FB4 +1.10

120 P2 TWD 6 FB4 -1. 32

155 P2 TWD 6 FB6 +l. 23 51 P2 TWD 8 FB5 +1.12 78 P2 TWD 9 FB4 -1.19 76 P2 TWD 9 FB3 -1. 34

1oi13/17 16:35:09 Component: S/G 11


TEC TEH

TEC TEH

TEC TEH


6

5

HOT

HOT

HOT

HOT HOT HOT HOT

PROBE

720HS

720HS

720HS

720HS 720HS 720HS 720HS

Page 9 of 12

IDX

78

126

159

140 140 140 140

-------------------------------------------------------------------------------------------------------------74 42 0 .24 87 P2 TWD 11 FB4 -1. 35 TEC TEH 4 HOT 720CL 107

0.14 148 P2 TWD 7 FB5 +l. 09 TEC TEH HOT 720CL 107 -------------------------------------------------------------------------------------------------------------74 44 0.84

0.19 0.24 0.59

74 50 0.13 0.12


91 P2 TWD 6 101 P2 TWD 6

FB4 -1.19 FB3 -1. 35 FB6 +1.20 FB5 +1.12

FB5 +1.13 FB4 -1.19


TEC TEH TEC TEH

7

6

HOT HOT HOT HOT

HOT HOT

720CL 720CL 720CL 720CL

720HS 720HS

16 16 16 16

87 87

-------------------------------------------------------------------------------------------------------------74 56 0.13 108 P2 TWD 7 FB4 -1.15 TEC TEH 5 HOT 720HS 31 -------------------------------------------------------------------------------------------------------------74 58 0.45 120 P2 TWD 17 FB5 -1.21 TEC TEH HOT 720HS 50

0.62 124 P2 TWD 21 FB5 +1.12 TEC TEH HOT 720HS 50 0.32 117 P2 TWD 14 FB3 -1. 39 TEC TEH HOT 720HS 50 0.21 126 P2 TWD 10 FB6 +1.15 TEC TEH HOT 720HS 50 0.97 122 P2 TWD 27 FB4 -1.19 TEC TEH HOT 720HS 50

-------------------------------------------------------------------------------------------------------------74 62 0.13 125 P2 TWD 6 FB5 +1.08 TEC TEH 4 HOT 720CL 89 -------------------------------------------------------------------------------------------------------------74 6.4 0.17 144 P2 TWD 8 FB3 -1.36 TEC TEH 3 HOT 720HS 12

0.30 126 P2 TWD 13 FB6 +1.22 TEC TEH HOT 720HS 12 0.39 124 P2 TWD 16 FB5 +l. 01 TEC TEH HOT 720HS 12 0.64 132 P2 TWD 22 FB4 -1.18 TEC TEH HOT 720HS 12


0.33 138 P2 TWD 14 FB5 +0.99 TEC TEH HOT 720HS 50 0.58 137 P2 TWD 20 FB4 -1. 26 TEC TEH HOT 720HS 50 0.17 130 P2 TWD 8 FB3 -1. 34 TEC TEH HOT 720HS 50


0.09 36 P2 TWD 5 FB5 +1.10 TEC TEH HOT 720HS 89 0.21 129 P2 TWD 10 FB4 -1.19 TEC TEH HOT 720HS 89

-------------------------------------------------------------------------------------------------------------74 72 0.13 103 P2 TWD 6 FB4 -1.22 TEC TEH 6 HOT 720HS 145 -------------------------------------------------------------------------------------------------------------75 39 0.11 131 P2 TWD 6 FB4 +1.16 TEC TEH 5 HOT 720HS 144

0.11 142 P2 TWD 6 FB3 +l. 08 TEC TEH HOT 720HS 144 0.22 142 P2 TWD 10 FB6 -1.25 TEC TEH HOT 720HS 144 0.10 147 P2 TWD 5 FB5 -1.20 TEC TEH HOT 720HS 144


0.49 135 P2 TWD 18 FB4 +l. 04 TEC TEH HOT 720HS 121 0. 72 131 P2 TWD 23 FB5 -1. 30 TEC TEH HOT 720HS 121 0.16 93 P2 TWD 8 FB5 +l. 05 TEC TEH HOT 720HS 121 0.74 127 P2 TWD 24 FB6 -1. 33 TEC TEH HOT 720HS 121 0.15 152 P2 TWD 7 FB7 -1. 45 TEC TEH HOT 720HS 121


0.13 89 P2 TWD 6 FB3 -1. 32 TEC TEH HOT 720HS 49 0.18 109 P2 TWD 9 FB6 +1.24 TEC TEH HOT 720HS 49 0.27 133 P2 TWD 12 FB6 -1.19 TEC TEH HOT 720HS 49 1.10 118 P2 TWD 29 FB5 +1.13 TEC TEH HOT 720HS 49 0.32 137 P2 TWD 14 FB5 -1.18 TEC TEH HOT 720HS 49 0.34 119 P2 TWD 14 FB4 +l. 00 TEC TEH HOT 720HS 49

-------------------------------------------------------------------------------------------------------------75 47 0.32 135 P2 TWD 14 FB6 -1.26 TEC TEH HOT 720HS 65

0.60 124 P2 TWD 21 FB5 -1.22 TEC TEH HOT 720HS 65 0.61 125 P2 TWD 21 FB4 +l. 20 TEC TEH HOT 720HS 65 0.15 123 P2 TWD 7 FB3 +1.21 TEC TEH HOT 720HS 65

-------------------------------------------------------------------------------------------------------------75 51 0.23 132 P2 TWD 10 FB7 +l. 38 TEC TEH HOT 720HS 102

0.48 107 P2 TWD 18 FB6 +1.13 TEC TEH HOT 720HS 102 0.18 145 P2 TWD 9 FB6 -1.29 TEC TEH HOT 720HS 102 0.60 125 P2 TWD 21 FB5 +1.15 TEC TEH HOT 720HS 102 0.29 117 P2 TWD 13 FB4 +1.10 TEC TEH HOT 720HS 102 0.26 114 P2 TWD 12 FB4 -1.14 TEC TEH HOT 720HS 102 0.14 115 P2 TWD 7 FB3 +1.13 TEC TEH HOT 720HS 102


U1C28 Bobbin %TWD



75 53

75 57

75 61

75 63

0.12 0 .26 0.43 0 .20· 0 .21

0.11 0.35 0.94 0.16 0.32 0 .24 0.11 0.25

0 .21 1.13 1. 68 1. 34 0.77 0.19

1. 60 0.21 0.38 0.14 0.32 0.62 0.13

75 65 0.12

75 67 0.15 0.15

75 69 0.12 0.09 0 .26 0.14

75 71 0.22 0.10

76 48

76 50

76 52

76 58

76 62

0.23 0 .21 0.65 0.65 0.15

0.16 0.20 0.12 0.12

0.41 0.14 0.32 0.47 0.14 0.25

0.16 0.13 0.43 0.15 0.24

0.17 0.59 0.14 0.12 0.59 0.36 0.34

76 68 0.12 0.31

76 70 0.17


124 P2 131 P2 123 P2 118 P2 126 P2 129 P2 101 P2 125 P2

130 P2 126 P2 128 P2 128 P2 128 P2

. 12 9 P2

130 P2 149 P2 128 P2 154 P2 137 P2 134 P2 152 P2

TWD 6 TWD 14 TWD 27 TWD 8 TWD 14 TWD 11 TWD 6 TWD 11


TWD 34 TWD 10 TWD 15 TWD 7 TWD 14 TWD 21 TWD 6

127 P2 TWD 6

96 P2 TWD 7 128 P2 TWD 7

140 P2 78 P2 128 P2 132 P2

TWD 6 TWD 5 TWD 12 TWD 7

FB6 +1. 33 FB5 +1. 06 FB5 -1.13 FB4 +1.11 FB3 +1. 08

FB2 -1. 50 FB3 -1. 34 FB4 -1.15 FB4 +1. 09 FB5 -1.05 FB5 +1.12 FB6 -1. 28 FB6 +1.23

FB2 +1. 34 FB3 +1. 25 FB4 +1.11 FB5 -1.14 FB6 -1.29 FB7 -1. 51

FB6 -1. 31 FB7 -1.35 FB3 -1. 41 FB3 +1.22 FB4 +1.19 FB5 -1.14 FB5 +0.95

FB4 +1.10

FB5 -1.11 FB4 +1.16

FB6 -1.19 FB5 -1.18 FB4 +1.10 FB3 +1.22

110 P2 TWD 10 FB6 -1.25 68 P2 TWD 5 FB4 +l.16

126 P2 107 P2 126 P2 118 P2 138 P2

99 P2 65 P2 109 P2 79 P2

103 P2 59 P2 78 P2 96 P2 129 P2 116 P2

133 P2 147 P2 144 P2 87 P2 130 P2

125 P2 129 P2 66 P2 83 P2 119 P2 115 P2 138 P2


TWD 8 TWD 9 TWD 6 TWD 6



TWD 8 TWD 21 TWD 7 TWD 6 TWD 21 TWD 15 TWD 14

FB6 +1.24 FB6 -1.20 FB5 +1.16 FB4 -1.19 FB3 -1. 45

FB6 -1.15 FB5 -1. 09 FB5 +1. 05 FB4 -1.08

FB4 -1.12 FB3 -1. 35 FB6 +1.29 FB5 +1.11 FB5 -1. 03 FB4 +1. 09

FB3 -1. 24 FB4 +1. 07 FB5 -1.20 FB5 +1.11 FB6 +1.16

FB3 -1. 28 FB4 -1. 22 FB4 +1. 08 FB5 -1.14 FB5 +1.08 FB6 -1. 35 FB6 +1.19

62 P2 TWD 6 FB6 -1.25 128 P2 TWD 13 FB4 -1.15

115 P2 TWD 8 FB4 -1.17

10/13/17 16:35:09 Component: S/G 11



TEC TEH TEC TEH TEC TEH · TEC TEH TEC TEH TEC TEH TEC TEH TEC TEH



TEC TEH

TEC TEH TEC TEH


TEC TEH TEC TEH


TEC TEH TEC TE_H TEC TEH TEC TEH




TEC TEH TEC TEH

TEC TEH

7

4

3

6

7

4

5

3

7

HOT HOT HOT HOT HOT

HOT HOT HOT HOT HOT HOT HOT HOT



HOT

HOT HOT

HOT HOT HOT HOT

HOT HOT

HOT HOT HOT HOT HOT

HOT HOT HOT HOT


HOT HOT HOT HOT HOT


HOT HOT

HOT

PROBE

720CL 720CL 720CL 720CL 720CL

720CL 720CL 720CL 720CL 720CL 720CL 720CL 720CL

720CL 720CL 720CL 720CL 720CL 720CL

720CL 720CL 720CL 720CL 720CL 720CL 720CL

720HS

720HS 720HS

720HS 720HS 720HS 720HS

720HS 720HS

720HS 720HS 720HS 720HS 720HS

720CL 720CL 720CL 720CL

720CL 720CL 720CL 720CL 720CL 720CL

720CL 720CL 720CL 720CL 720CL

720HS 720HS 720HS 720HS 720HS 720HS

·720HS

720HS 720HS

720CL

Page 10 of 12

IDX

108 108 108 108 108

49 49 49 49 49 49 49 49

86 86 86 86 86 86

104 104 104 104 104 104 104

41

79 79

125 125 125 125

142 142

69 69 69 69 69

74 74 74 74

94 94 94 94 94 94

53 53 53 53 53

89 89 89 89 89 89 89

88 88

116


UlC28 Bobbin %TWD



77 41 0.11 107 P2 TWD 6 FB5 -1.21

10/13/17 16:35:09 Component: S/G 11


TEC TEH 5 HOT

Page 11 of 12

PROBE IDX

720HS 124 -------------------------------------------------------------------------------------------------------------77 45 0.67 90 P2 TWD 22 FB4 +1.11 TEC TEH 7 HOT 720CL 31

0.17 51 P2 TWD 8 FB3 +l.21 TEC TEH HOT 720CL 31 0.16 51 P2 TWD 8 FB6 -1. 70 TEC TEH HOT 720CL 31 0.92 86 P2 TWD 26 FB5 -1.21 TEC TEH HOT 720CL 31 0.13 100 P2 TWD 6 FB7 +l. 31 TEC TEH HOT 720CL 31 0.25 109 P2 TWD 11 FB6 +l.23 TEC TEH HOT 720CL 31

77 47 0.13 39 P2 TWD 6 FB5 -1.17 TEC TEH HOT 720CL 49 -------------------------------------------------------------------------------------------------------------77 49 0.25 124 P2 TWD 11 FB3 +l.11 TEC TEH 6 HOT 720HS 84

0.51 112 P2 TWD 19 FB6 -1.27 TEC TEH HOT 720HS 84 1. 07 120 P2 TWD 28 FB5 -1.21 TEC TEH HOT 720HS 84 1. 01 122 P2 TWD 28 FB4 +1.09 TEC TEH HOT 720HS 84

--------------------------------------------------------------------·-----------------------------------------77 51 0.58 120 P2 TWD 20 FB6 -1.26 TEC TEH 7 HOT 720CL 89

0.86 98 P2 TWD 26 FB5 -1. 09 TEC TEH HOT 720CL 89 1.37 90 P2 TWD 32 FB4 +l.11 TEC TEH HOT 720CL 89 0.27 91 P2 TWD 12 FB3 +l.19 · TEC TEH HOT 720CL 89

77 57 0.12 103 P2 TWD 6 FB3 +l.10 TEC TEH 5 HOT 720HS 46 0.11 81 P2 TWD 6 FB4 -1.23 TEC TEH HOT 720HS 46 0.59 122 P2 TWD 21 FB4 +l.12 TEC TEH HOT 720HS 46 0.17 148 P2 TWO 8 FB5 -1.19 TEC TEH HOT 720HS 46 1. 40 117 P2 TWD 32 FB5 +l. 03 TEC TEH HOT 720HS 46 0.57 124 P2 TWO 20 FB6 -1.21 TEC TEH HOT 720HS 46 0.38 114 P2 TWD 15 FB6 +l.24 TEC TEH HOT 720HS 46 0.17 116 P2 TWO 8 FB7 +l. 35 TEC TEH HOT 720HS 46 0.28 142 P2 TWD 12 FBl +0.56 TEC TEH HOT 720HS 46


0.17 126 P2 TWD 8 FB4 +l.12 TEC TEH HOT 720HS 42 -------------------------------------------------------------------------------------------------------------77 67 0.25 123 P2 TWD 11 FB6 -1. 40 TEC TEH HOT 720HS 80

0.39 121 P2 TWD 16 FB5 -1.15 TEC TEH HOT 720HS 80 0.94 123 P2 TWD 27 FB4 +l.13 TEC TEH HOT 720HS 80 0.33 124 P2 TWD 14 FB3 +1.15 TEC TEH HOT 720HS 80

-------------------------------------------------------------------------------------------------------------77 69 0.07 34 P2 TWD 4 FB4 +1.13 TEC TEH 7 HOT 720CL 115 -------------------------------------------------------------------------------------------------------------78 56 0.09 67 P2 TWO 5 FB5 +l. 09 TEC TEH 5 HOT 720HS 30 -------------------------------------------------------------------------------------------------------------78 60 0.13 121 P2 TWD 6 FB5 +0.94 TEC TEH 4 HOT 720CL 71 -------------------------------------------------------------------------------------------------------------78 66

78 68

0.16 0.68 0.34 0.34 0.21

0.13 0.41 0.11

78 70 0.14

78 72 0.14

120 P2 132 P2 122 P2 122 P2 123 P2

120 P2 108 P2 91 P2

TWO 8 TWD 22 TWO 14 TWD 14 TWD 10

TWD 6 TWD 16 TWD 6

136 P2 TWD 7

84 P2 TWD 7

FB6 +l.23 FB5 +l. 09 FB4 +l. 09 FB4 -1.20 FB3 +l.18

FB5 +l.14 FB4 -1.14 FB3 -1.25

FB4 -1.16

FB4 -1.27



TEC TEH

TEC TEH

3

6

HOT HOT HOT HOT HOT

HOT HOT HOT

HOT

HOT

720HS 720HS 720HS 720HS 720HS

720HS 720HS 720HS

720HS

720HS

48 48 48 48 48

87 87 87

124

144 -------------------------------------------------------------------------------------------------------------79 39 0.17 127 P2 TWO 8 FB6 -1.30 TEC TEH 5 HOT 720HS 143

0.27 127 P2 TWD 12 FB5 -1. 09 TEC TEH HOT 720HS 143 0.20 127 P2 TWD 9 FB4 +l.19 TEC TEH HOT 720HS 143 0.24 118 P2 TWD 11 FB3 +l.27 TEC TEH HOT 720HS 143

-------------------------------------------------------------------------------------------------------------79 43 0.90

0.16 0.28 0.70 1. 41

79 47 0.15 0.16

79 49 0.09

79 63 0.09

79 65 0.20 0.17


102 P2 TWD 7 83 P2 TWD 8

16 P2 TWD 5

146 P2 TWD 5

131 P2 TWD 9 131 P2 TWD 8

FB6 -1. 24 FB7 -1.38 FB3 +l.25 FB4 +1.11 FB5 -1.19

FB6 +l. 20 FB4 +l. 09

FB4 +l.13

FB4 +l.11

FB6 -1. 24 FB5 -1.14


TEC TEH TEC TEH

TEC TEH

TEC TEH

TEC TEH TEC TEH

6

7

4

3

HOT HOT HOT HOT HOT

HOT HOT

HOT

HOT

HOT HOT

720HS 720HS 720HS 720HS 720HS

720HS 720HS

720CL

720CL

720HS 720HS

122 122 122 122 122

66 66

69

105

43 43


UlC28 Bobbin %TWD



79 71

0.41 0.35

0.09

128 P2 TWD 16 FB4 +1.10 127 P2 TWD 14 FB3 +1.18

127 P2 TWD 5 FB4 +1. 08

10/13/17 16:35:09 Component: S/G 11


TEC TEH TEC TEH

TEC TEH 6

HOT HOT

HOT

PROBE

720HS 720HS

720HS

Page 12 of 12

IDX

43 43

143 -------------------------------------------------------------------------------------------------------------80 44 0.20 55 P2 TWD 9 FB5 +1. 21 TEC TEH 7 HOT 720CL 15

1. 34 90 P2 TWD 31 FB4 -1.21 TEC TEH HOT 720CL 15 0.35 75 P2 TWD 14 FB3 -1.31 TEC TEH HOT 720CL 15


0.32 114 P2 TWD 14 FB5 +0.00 TEC TEH HOT 720HS 12 0.14 130 P2 TWD 7 FB6 +0.00 TEC TEH HOT 720HS 12

-------------------------------------------------------------------------------------------------------------80 60 1. 33 123 P2 TWD 31 FB6 +1.18 TEC TEH HOT 720HS 68

0.24 127 P2 TWD 11 FB7 +1.35 TEC TEH HOT 720HS 68 0.13 95 P2 TWD 7 FB2 +1.25 TEC TEH HOT 720HS 68 0.52 124 P2 TWD 19 FB4 +1. 09 TEC TEH HOT 720HS 68 0.15 133 P2 TWD 7 FB5 -1.25 TEC TEH HOT 720HS 68 1. 37 123 P2 TWD 32 FB5 +0.96 TEC TEH HOT 720HS 68 0.18 110 P2 TWD 9 FB3 -1. 47 TEC TEH HOT 720HS 68 0 .28 121 P2 TWD 12 FB3 +1. 06 TEC TEH HOT 720HS 68 1. 06 122 P2 TWD 28 FB4 -1. 22 TEC TEH HOT 720HS 68


0 .21 134 P2 TWD 10 FB4 -1.17 TEC TEH HOT 720HS 27 0.12 106 P2 TWD 6 FB5 -1.22 TEC TEH HOT 720HS 27 0. 29 141 P2 TWD 13 FB5 +1.11 TEC TEH HOT 720HS 27 0.15 127 P2 TWD 7 FB6 -1.14 TEC TEH HOT 720HS 27

-------------------------------------------------------------------------------------------------------------81 61 0.22 125 P2 TWD 10 FB3 +l.13 TEC TEH 4 HOT 720CL 87

1. 06 125 P2 TWD 28 FB4 +l.23 TEC TEH HOT 720CL 87 0.77 141 P2 TWD 24 FB5 -1.21 TEC TEH HOT 720CL 87 0.30 126 P2 TWD 13 FB6 -1. 21 TEC TEH HOT 720CL 87 0.19 152 P2 TWD 9 FB6 +1.14 TEC TEH HOT 720CL 87 0.39 142 P2 TWD 16 FB7 -1. 41 TEC TEH HOT 720CL 87

-------------------------------------------------------------------------------------------------------------82 48 0.12 74 P2 TWD 6 FB4 -1.18 TEC TEH 6 HOT 720HS 68 -------------------------------------------------------------------------------------------------------------82 60 0.56 124 P2 TWD 20 FB6 +1.25 TEC TEH 4 HOT 720CL 70

0.37 127 P2 TWD 15 FB5 +0.99 TEC TEH HOT 720CL 70 0.38 142 P2 TWD 15 FB4 -1.15 TEC TEH HOT 720CL 70 0.11 86 P2 TWD 6 FB5 -1. 30 TEC TEH HOT 720CL 70

83 49 0.30 62 P2 TWD 13 FB5 -1.23 TEC TEH 7 HOT 720CL 70 1.21 112 P2 TWD 30 FB4 +l.17 TEC TEH HOT 720CL 70 0.51 80 P2 TWD 19 FB3 +l.23 TEC TEH HOT 720CL 70 0.30 66 P2 TWD 13 FB6 +1.18 TEC TEH HOT 720CL 70

Total Tubes 238 Total Records: 690

Attachment 2 to Enclosure to AEP-NRC-2018-19 Unit 1 2017 Steam Generator Tube Inspection Report

Service Induced Indications - Fan Bar/Lattice Grid

SG 12 PCT>O% at Fan Bar/Lattice Grid


UlC28 Bobbin %TWD

QUERY: QueryM5[2]

ROW COL VOLTS DEG

Plant: DC COOK Unit: l

.qry


10/13/17 16:35:40 Component: S/G 12

EXT EXT UTIL 1 UTIL 2 ------------------------ ======== ========

1

1

1

1

1

2

2

2

2

47 0.13 0.07

63 0.21

67 0.17

71 0.12

87 0.24 0.20 0 .21

42 0.14

44 0.14

46 0.14

50 0.13

99 P2 TWD 6 07C -0.80 96 P2 TWD 4 07C +1. 48

118 P2 TWD 10 06C +0.77

104 P2 TWD 8

96 P2 TWD 6

116 P2 TWD 11 94 P2 TWD 9 99 P2 TWD 10

123 P2 TWD 7

88 P2 TWD 7

106 P2 TWD 7

64 P2 TWD 6

07C -1. 20

07C -0.97

07C +0.90 08C +l. 46 05C +0.84

06C -1. 24

06C -1. 50

06C -1.25

07C -1. 84

08C TEC 08C TEC

08C TEC

08C TEC

08C TEC

08C TEC 08C TEC 08C TEC

08C TEC

08C TEC

08C TEC

08C TEC

CAL

4

6

4

2

LEG

COLD COLD

COLD

COLD

COLD

COLD COLD COLD

COLD

COLD

COLD

COLD

Page 1 of 9

PROBE -----------720UL 720UL

720UL

720UL

720UL

720UL 720UL 720UL

720UL

720UL

720UL

720UL

IDX

11 11

131

119

107

58 58 58

28

22

16

21 -------------------------------------------------------------------------------------------------------------2

3

3

3

3

3

4

66 0.13 0.13 0.13 0.17 0.12

35 0.16

39 0.17 0.12

51 0.17

61 0.14

77 0.10

26 0.13

24 10 0.11

29 57 0.16

31 21 0.12

31 35 0.27

31 53 0.17

32 52 0.16

34 58 0.11

35 27 0.11

37 51 0.11 0.11

37 61 0.12

38 52 0.11 0.11

39 45 0.22

41 53 0.12

41 61 0.15

42 64 0.18

43 63 0.14

45 51 0.17

45 55 0.11

45 63 0.09


137 P2 TWD 8

128 P2 TWD 8 90 P2 TWD 6

55 P2 TWD 8

143 P2 TWD 7

117 P2 TWD 5

99 P2 TWD 6

90 P2 TWD 5

88 P2 TWD 8

137 P2 TWD 6

06C +0.92 06C -1.17 05C +l. 01 05C -1.27 04C -1.20

07C -1. 05

06C +0.78 05C +0.92

05C -1. 34

06C -1. 21

06C +1.25

06C +0.98

FB5 +1.65

OlH +0.64

FB6 -0.89

119 P2 TWD 12 03H -0.54

85 P2 TWD 8

93 P2 TWD 8

64 P2 TWD 6

118 P2 TWD 6

119 P2 TWD 5 124 P2 TWD 5

88 P2 TWD 6

90 P2 TWD 6 80 P2 TWD 6

05H +0.56

FB4 -1. 29

04H -1. 35

FB6 -0.95

07H +1.03 05H +O. 71

FB4 +0.99

FB4 -0. 72 05H +l.10

135 P2 TWD 10 FB3 +0.58

140 P2 TWD 6

121 P2 TWD 7

117 P2 TWD 9

115 P2 TWD 7

150 P2 TWD 8

134 P2 TWD 6

158 P2 TWD 5

FB4 -0.90

FB4 +1. 06

03H +0.46

FB3 -2.16

FB4 +1. 94

05H +1.10

FB5 -1.28

08C TEC 08C TEC 08C TEC 08C TEC 08C TEC

08C TEC

08C TEC 08C TEC

08C TEC

08C TEC

08C TEC

08C TEC

TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH TEC TEH

TEC TEH

TEC TEH TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH

TEC TEH

6

3

1

5

4

COLD COLD COLD COLD COLD

COLD

COLD COLD

COLD

COLD

COLD

COLD

31 HOT

24 HOT

29 HOT

26 HOT

HOT

HOT

25 HOT

29 HOT

27 HOT HOT

25 HOT

27 HOT HOT

26 HOT

27 HOT

25 HOT

HOT

HOT

27 HOT

HOT

24 HOT

720UL 720UL 720UL 720UL 720UL

720UL

720UL 720UL

720UL

720UL

720UL

720UL

720UL

720UL

720HS

720UL

720UL

720UL

720UL

720HS

720UL 720UL

720UL

720UL 720UL

720UL

720UL

720UL

720UL

720UL

720UL

720UL

720UL

124 124 124 124 124

36

28 28

11

114

80

73

48

207

148

167

31

38

199

67

50 50

185

39 39

93

36

186

85

94

52

24

181


U1C28 Bobbin %TWD

QUERY: QueryM5 [2]

ROW COL VOLTS DEG


.qry


10/13/17 16:35:40 Component: S/G 12

EXT EXT UTIL 1 UTIL 2 ------------------------ --- ======== ========

46 48 0.13 0.16

46 64 0.17

46 66 0.22 0.14

46 68 0.14

47 67 0.12 0.14

48 48 0.10

49 51 0.32 0.31 0.10

49 71 0.27

50 24 0.16

53 49 0.14 0.12

53 67 0.16

54 54 0.07

59 P2 TWD 6 FB5 +1.23 48 P2 TWD 8 FB4 -0.48

139 P2 TWD 8 FB3 +0.79

136 P2 TWD 10 FB5 +1.07 75 P2 TWD 7 FB4 -1.33

61 P2 TWO 7

102 P2 TWD 6 115 P2 TWD 7

132 P2 TWD 5

71 P2 94 P2 41 P2

TWD 14 TWO 13 TWD 5

FB4 -1. 39

FB5 -1. 31 FB4 +1.15

04H +0.48

FB5 -1. 25 FB4 +0.98 FB4 -1.14

131 P2 TWO 12 FB4 +1.53

146 P2 TWO 8

101 P2 TWO 7 65 P2 TWO 6

115 P2 TWO 8

73 P2 TWO 4

04H +0.42

FB5 -1. 25 FB4 -1. 20

03H -1. 65

FB5 +0.00

TEC TEH TEC TEH

TEC TEH

TEC TEH TEC TEH

TEC TEH

TEC TEH TEC TEH

TEC TEH


TEC TEH

TEC TEH

TEC TEH TEC TEH

TEC TEH

TEC TEH

CAL LEG

23 HOT HOT

24 HOT

HOT HOT

25 HOT

24 HOT HOT

22 HOT

HOT HOT HOT

25 HOT

28 HOT

22 HOT HOT

25 HOT

23 HOT

Page 2 of 9

PROBE -----------720UL 720UL

720UL

720UL 720UL

720UL

720UL 720UL

720UL

720UL 720UL 720UL

720UL

720UL

720UL 720UL

720UL

720UL

IDX

74 74

62

58 58

50

53 53

75

35 35 35

107

105

57 57

52

14 -------------------------------------------------------------------------------------------------------------55 87 0.17 139 P2 TWO 8 03H +0.40 TEC TEH 32 HOT 720HS 49 -------------------------------------------------------------------------------------------------------------56 56 0.37

0.28 0.42 0.60 0.34 0.31

56 86 0.38

57 53 0.71 0.11

57 55 0.34

57 59 0.26 0 .28

58 46 0.11

58 48 0.09

58 52 0.20 0.33 0.21 0.18

106 P2 TWD 15 FB6 -1. 39 128 P2 TWO 12 FB5 +1. 09 133 P2 TWD 16 FB5 -1.25 138 P2 TWD 21 FB4 +1.13 128 P2 TWO 14 FB4 -1. 22 122 P2 TWO 13 FB3 +1.26

124 P2 TWO 15 03H +0.70

111 P2 TWO 23 FB4 -1.25 97 P2 TWO 6 FB5 -1.25

129 P2 TWO 14 FB4 +1.47

133 P2 TWO 12 FB5 +1.14 103 P2 TWO 12 FB4 -1.30

87 P2 TWO 6

93 P2 TWO 5

111 P2 TWD 9 95 P2 TWD 14 135 P2 TWO 10 128 P2 TWD 9

FB4 -1. 31

FB5 +0.68

FB5 +1.15 FB4 +1. 02 FB4 -1. 36 FB3 +1.15


TEC TEH

TEC TEH TEC TEH

TEC TEH

TEC TEH TEC TEH

TEC TEH

TEC TEH


15 HOT HOT HOT HOT HOT HOT

33 HOT

22 HOT HOT

15 HOT

HOT HOT

23 HOT

HOT

22 HOT HOT HOT HOT

720HS 720HS 720HS 720HS 720HS 720HS

720UL

720UL 720UL

720HS

720HS 720HS

720UL

720UL

720UL 720UL 720UL 720UL

64 64 64 64 64 64

53

18 18

91

25 25

91

71

31 31 31 31

-------------------------------------------------------------------------------------------------------------58 54 0.52 119 P2 TWO 19 FB6 +0.00 TEC TEH 23 HOT 720UL 13

1. 31 130 P2 TWO 31 FB5 +0.00 TEC TEH HOT 720UL 13 1. 01 129 P2 TWD 28 FB4

INDIANA Indiana Michigan Power MICHIGAN POWER ...m INDIANA MICHIGAN POWER® A unit of American...

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