Text

Rev 1 Summary Exam Rept for 1990 Steam Generator Eddy Current Insp.
	ML17250B176
Person / Time
Site:	Ginna
Issue date:	05/08/1990
From:	James Smith, Wachter K; ROCHESTER GAS & ELECTRIC CORP.
To:	;
Shared Package
ML17250B173	List: ML17250B172; ML17250B176;
References
	NUDOCS 9005310500
	Download: ML17250B176 (142)
	v • d • e

Docket 0 o -a~

Accession 0 oo~ o a Date // of Ltr Regulatory Docket File ROCHESTER GAS AND ELECTRIC CORPORATION 89 EAST AVENUES ROCHESTERI NY 14649 MATERIALS ENGINEERING AND INSPECTION SERVICES

SUMMARY

EXAMINATION REPORT FOR THE 1990 STEAM GENERATOR EDDY CURRENT INSPECTION AT R. E. GINNA NUCLEAR POWER STATION REVISION 0 APRIL 25, 1990 REVISION 1 MAY 8, 1990 PREPARED BY: DATE:

evi . Wachter Mat ials Engineering and Inspection Services Level III Eddy Current Examiner REVIEWED/

APPROVED BY: DATE: 5 ~ 0 Jo n F. Smith, Manager Materials Engineering and Inspection Services 90am<8 9005'3 g 05000 0 5000244 7

PDP ADOCK PDC 9

II 1

r

TABLE OF CONTENTS

1.0 INTRODUCTION

2.0 DATA ACQUISITION PROGRAM 3.0 DATA, ANALYSIS RESULTS

SUMMARY

10 4.0 OBSERVATIONS 40 5.0 CORRECTIVE ACTIONS

J t

1.0 INTRODUCTION

The following is a summary report of the results of the multifrequency eddy current examination performed during the April 1990 Annual Refueling and Maintenance Outage at the R. E. Ginna Nuclear Power Station in Ontario, New York. The examination was performed in both the "A" and "B" recirculating steam generators which are Westinghouse Series-44 design. Each generator contains 3260 Inconel 600 Mil Annealed U-Bend tubes having an outside diameter of 0.875" and a nominal wall thickness of 0.050".

The purpose of the eddy current examination was to assess any I

corrosion or mechanical damage that may have occurred during the cycle since March 1989. Particular attention was given to the detection of:

1) Intergrannular attack (IGA) and intergrannular stress corrosion cracking '(IGSCC) within the inlet tubesheet crevice region.

2) Intergrannular attack (IGA) and intergrannular stress corrosion cracking (IGSCC) within the outlet tubesheet, crevice region (none detected).

3) .Primary water stress corrosion cracking (PWSCC) at the inlet tubesheet roll transition.

4) Primary water stress corrosion cracking (PWSCC) at the outlet tubesheet roll transition (none detected).

Page 1 of 69

q1

5) Pitting and wastage between the tubesheet and first support plate.

6) Wear at the antivibration bar to tube intersections in the U-bend region.

7) Denting at all tube support intersections.

8) Primary water stress corrosion cracking (PWSCC) in the Row 1 and Row 2 U-bend area (none detected).

9) Intergrannular attack (IGA) and intergrannular stress corrosion cracking (IGSCC) at the g1 tube support plate region on the inlet side (none detected).

The examination was performed by personnel from Rochester Gas and Electric'(RG&E) and Allen Nuclear Associates, Inc. (ANA).

All personnel were trained and qualified in the eddy current examination method and have been certified to a minimum of Level I for data acquisition and Level II for data analysis.

In addition, all acquisition personnel were trained and qualified to site specific procedures and all analysis personnel were trained and qualified to the site specific "Steam Generator Data Analysis Guidelines 1

RG&E Ginna Station". These analysis guidelines were prepared is

'll accordance with Revision 2 of the Electric Power Research Institutes (EPRI) "PWR Steam Generator Inspection Guidelines".

Page 2 of 69

r. s

~ I'

The data analysis was performed by two independent teams. One team utilized the ZETEC Computer Data Screening (CDS) System with a manual review of the CDS calls. The other team performed their analysis manually utilizing the Zetec DDA-4 Digital Data Analysis System. The results of these two analyses were compared for discrepancies using the TUBAN computerized data management system. The typical data flow chart is shown on Figure 1 (Page 5). The following list describes some typical discrepancies between analysis teams requiring resolution by the Level III resolution team.

o Any indication that is reported as >204 by either team indifference.

and is not reported by the other team or is sized at >104 0 Any indication spanning the repair limit, (394 vs. 41%).

0 Any difference of >1 inch in the axial location of a flaw.

0 Any tube which was analyzed by one team but not the other.

0 Any difference in the reported test extent.

0 All indications identified as IGA and/or SCC regardless of whether one or both parties have reported it.

0 Any tube reported as obstructed by one team but not the other.

0 Any tube for which a retest was requested by one team but not the other.

Page 3 of 69

o All Roll Transition Indications P

(DRT/DRI) reported by one team but not the other.

In addition to the above, all tubes requiring repair whether reported by one or both teams were reviewed by the resolution team (usually consisting of two Level III individuals). In all cases, the removal of a repairable indication from the data base required the concurrence of two Level III individuals.

Page 4 of 69

Dace Tape Coopucer Kanual Data ScreeninS Analysis v/ Hanual Review Data ManaSeaent Coaparison Do Results YES ASree 2

YES epairable Indications 2

N Resolucion Data ManaSeaent Eddy Curzenc Leal III S ceaa Caneracor Croup Figure 1 Page 5 of 69

I J e

2.0 DATA AC UISITION PROGRAM The eddy current examination of the "A" and "B" steam generators was performed utilizing the Zetec Miz-18 Digital Data Acquisition System. The frequencies selected were 400, 200, 100 and 25 kHz. The selected frequencies were all operated in the differential and absolute modes. The examination was performed primarily with a standard 0.740" or 0.720" O.D. bobbin coil probe with smaller diameter probes used to traverse the smaller radius U-bends and dented regions.

Prior to examination of the steam generators, an inspection program was established for the inlet and outlet sides of both the "A" and "B" steam generators. The inlet or hot leg examination program plan was generated to provide the examination of 1004 of each open unsleeved steam generator tube from the tube end to the first tube support, along with 204 of these tubes being selected and examined for their full length (204 random sample as recommended in the Electric Power Research Institute (EPRI) guidelines). In addition, 204 of each type of sleeve was examined and the remaining tube examined full length. All previous tubes with indications greater than 204 through wall (TW) depth were examined as a minimum to the location of their degradation. All Row 1 and Page 6 of 69

Row 2 U-bend regions selected as part of the 204 random sample were examined with the Motorized Rotating Pancake Coil (MRPC) between the N6 TSP H and the N6 TSP C from the cold leg side.

Table 1 is a breakdown, by steam generator, of all tubes examined and to the extent inspected.

Page 7 of 69

STEAM GENERATOR iiAn 1990 EDDY CURRENT INSPECTION EXTENTS PRIOR TO CORRECTIVE ACTION Total Tubes 3260 Out of Service 173 Sleeved Tubes 172 Open Unsleeved Tubes 2915 REQ'D NUMBER NUMBER MIN PROGM'D INSPT'D COMPLETE Hot Leg to 41 TSP 2915 2915 2915 100.04 Full Length (20% Random) 583 586 585 100. 34 Previous Ind. > 204 9 100- 04 Sleeves 35 36 35 100.04 Table 1

'er Appendix B requirement.

' Complete = Tubes Inspected/Required Minimum.

Page 8 of 69

STEAM GENERATOR "B 1990 EDDY CURRENT INSPECTION EXTENTS PRIOR TO CORRECTIVE ACTION Total Tubes 3260 Out of Service 340 Sleeved Tubes 642 Open Unsleeved Tubes 2278 REQ'D NUMBER NUMBER PROGM'D INSPT'D COMPLETE MIN'278 Hot Leg to gl TSP 2278 2278 100.0%

Full Length (20% Random) 456 461 460 100.94 Previous Ind.

~

~ > 204 19 19 19 100.04 Sleeves 129 131 131 101.64'00.04 Deplugged Tubes (F/L) 28 28 28 NOTE: 15 additional tubes were examined from CTE to H6.

Table 1 (Cont'd)

'er Appendix B requirement.

' Complete = Tubes Inspected/Required Minimum.

'ne plugged tube listed on examination plan was not examined.

Page 9 of 69

l

3.0 DATA ANALYSIS RESULTS

SUMMARY

The data analysis was performed using the Zetec DDA-4 Digital Data Analysis System and Edition 18.6 Revision 5 software with the CDS (Revision 27) and MRPC (Revision 13) supplements.

All data was reviewed by displaying the 400 kHz data on the CRT along with the vertical component of the differential and absolute mix outputs in strip chart form (where applicable).

Other frequencies and their components were selected as necessary for the evaluation of indications. All recordable indications were logged into the computer and stored on floppy disk. The final report form summarizing all indications >204 TW (including IGA and PWSCC which is assumed to be >204) for each generator can be found in Table 2. An explanation of the abbreviations and nomenclature used on these lists has been compiled for ease of interpretation.

Table 3 has been compiled to show a list of the total number of dents at each axial elevation. The dent indications on this table are only those with signal amplitudes that exceed the 5.0 volt (approximately 0.0025" diametric dent) recording criteria.

Page 10 of 69

c<

LIST OF >20 INDICATION AND CREVICE INDICATION NOMENCLATURE To of List Information ROW ROW number from the tube identification.

COL Column number from the tube identification.

OUTAGE Year examination was performed.

INDICATION. Type of damage mechanism.

VALUE Percent through wall depth or code for non-measurable indications.

VOLTS Amplitude of the measured indication signal response.

LOCATION Reference point from which the indication was measured.

INCHES Axial distance from reference point.

Information Under Value XX% TW The measured percent TW depth of the indication..

ADI Absolute Drift Indication Signal which is indicative of IGA.

ADS Absolute Drift Signal which may be indicative of IGA.

DRT Distorted Roll Transition may be indicative of PWSCC.

DRI Distorted Roll Indication indicative of PWSCC.

RTI Roll Transition Indication MRPC verified DRT Page 11 of 69.

4 W

LIST OF >204 INDICATION AND CREVICE INDICATION NOMENCLATURE CON'T Information Under LOCATION HTS PF Primary face. of inlet tubesheet.

HTS SF Secondary face of inlet tubesheet.

TSP Tube Support Plate CTS PF Primary . face o f outlet tubesheet.

CTS SF Secondary face of outlet tubesheet.

AVB Antivibration Bars

-XX.X Axial distance below the secondary face of the tubesheet or support plates where the indication is located.

+XX.X Axial distance above the secondary face of the tubesheet or support plates where the indication is located.

H Hot Leg (inlet side)

Cold Leg (outlet side)

Page 12 of 69

J

~

Plant-'utage- R. E. Binna Station Generator:

199!3 Resolution A1 1 Repov tab le Indi cat i ons (2!4/tw and greater)

RQW COL IND I CAT ION VALUE VOLTS LOCATION lNCHES 6 4 ROLL TRANS 8. 58 HTS PF + .84

~

7 OD (genej.al ) TN 2. 79 AVB2 8 gg 9 12, ROLL TRANS !d. 67 HTS PF + 2 $8

~

1<3 12 ROLL TRANS .1. 87 HTS PF + 2. 8!d 13 DISTORT ROLL S~ 34 HTS SF -19 3<3

~

1 14 ROLL TRANS <3. 67 HTS PF + 2 73

~

16 OD SCC 26 TW g. 39 HTS SF -12.58 16 ROLL TRANS 1.17 HTS PF + '2.55

4. 17 ROLL TRANS 1.14 HTS PF + 2.53 6

7 17 18 '8 OD WASTAGE DISTORT ROLL OD WASTAGE 2g TW TW

8. 63 3 '9

!3. 93 HTS HTS HTS SF SF SF 19 '8

+ 1. 6!3

+ 1.88 g 18 ROLL TRANS 1. 48 HTS PF + 2 46

~

6 19 DISTORT ROLL 3. 82 HTS SF -19. 6!3 19 DISTORT, ROLL 3 49

~ HTS SF -19.58

+ 2.59 5

7 7

2g 2g 8

ROLL TRANS OD OD WASTAGE NASTAGE 28 e/

2? /

TW TN 3

~

'8 1 rjj2

~

.41 HTS HTS HTS PF SF SF

+ 1. 83!

2 4!4 2g /

~

8 2g QD WASTAGE TN 1 94

~ HTS SF 2 1!4

~

14 2< j OD (general) 24 TW 8. 54 HTS SF + 1.18 24 2g OD IGA AD I 1 28 HTS PF + 5. 4<3 24 /

~

8 21 OD WASTAGE TW 1.. 45 HTS SF + 1.78 9 OD WASTAGE / TW 1. 58 HTS SF + 1. S!3

+ 2.18' OD WASTAGE 25 TN 4. 47 HTS SF OD WASTAGE / TN 4.!d 1 35 HTB SF =. 7r4

+ 3 ~ 38 21 OD WASTAGE 24 TN 1 HTS SF 18 1!3 QD OD NASTAGE WASTAGE 22 I

/ TW TW

~

1. 42 8.72 HTS'F HTS BF

+ 2.88

+ 2.58 11 QD WASTAGE 25 TW 6. 47 HTS SF + 2 r48 26 /

~

13 21 OD WASTAGE . TW 1. 86 HTS SF 1. 98 OD WASTAGE TW 4, 21 HTB SF + 2.38 14 21 OD WASTAGE '23 TW. 1. 67 HTS SF + 1.48 15 21 OD WASTAGE TW 6 84 HTS SF 1 38 15 17 21 OD OD WASTAGE NASTAGE 34 // TW TN

~

1. 88

3. 62 HTS HTS SF SF 2, 1<3

+ 1.!i><3 28 21 QD IGA AD I 1 53 HTS PF + 5. 4 ~

73 /

~

28 OD SCC TW !3. 61 HTS SF -14.38 38 8

OD OD (general)

WASTAGE e/

/ TW TW

1. 87 8.92 AVB3 HTS SF.

8. 88

+ 1.68 1!d OD WASTAGE 24 TN 2. 25 HTS SF + 3. 1(j 11 OD WASTAGE 22 TN 2 91 HTS SF 2 5g 12 16 OD QD NASTAGE WASTAGE n2 2<3 0/

/ TN TW

~

4. 33

2. 81 HTS SF HTS SF

~

+ =. 4rd

+ 1. 5<3 18 OD WASTAGE / TW 4 42

~ HTB SF + 1 88

~

-17.48 27 27 27 OD QD OD IBA SCC SCC AD I 73 89

// TW TN

1. 31 8 36

~

rd 55

~

HTS SF HTB SF HTS SF 7 'g

-12.48 ig 24 OD WASTAGE 38 TW 1 g8 HTS SF + 1 . 3!3

/ 1.'96

~

1<3 OD WASTAGE 34 TW MTS BF + ~.18 23 OD WASTAGE TW 14. 24 HTS SF + 3 88

~

14 23 QD WASTAGE 34 0/ TW 1 96

~ HTS SF + 1.68 14 23 OD WASTAGE 0/ TW 6. 66 HTS SF 9<4 23 25

//

OD WASTAGE TW 1. 11 HTS SF + 1. 3<3 18 24 OD NASTAGE nS TW 2. 64 HTS SF 1. 88 il 11 il OD OD OD NASTAGE WASTAGE NASTAGE 21 34

// TW TW TW

1. 16 4 42

~

1. 51 HTS SF HTS SF HTS SF

+ 1 48

~

+ 2.!ij<8

+ . 4!4

~

24 OD OD WASTAGE NASTABE

~

28 22

// TW TN 1 35

~

7.!33 HTS SF HTS SF

+ 2.18

+ 2.98 1 N 24 OD OD WASTAGE NASTAGE

~

26 // TW TW

4. 63

7. 43 HTS SF HTS SF +

2 4!4

~

3.88 24 OD WASTAGE 21 TN 2 68 HTS SF + 1.78 22 24 OD OD WASTAGE WASTAGE 24

/I TN TW

~

%.89

5. 47 HTS SF HTS SF

2. 18 13 OD WASTAGE 28 TW 7. 82 HTS SF 17 25 OD WASTAGE 2 jrj TW 4. 12 HTS SF + 1.78 Table 2 Page 13 of 69

Plant: R~ E. Ginna Station Generator:

Outage: 1 99!!3 Reso 1 ut i on All Reportable Indications (28%tw and greater)

ROW CQL INDICATION VALUE VOLTS LOCATION INCHEB 17 OD NASTAGE 24 % TW 9. 49 HTS SF +

24 26 25 OD WASTAGE OD IGA ADI

/ TW 8. 88 6 74 HTS HTS SF SF

+ 8.87

-18.>5 44 /

~

26

~8 OD BCC TW 8.3 ~

HTS SF -16.85.

OD IBA ADI 6. 83 HTS SF -18.24 DS 8. 35 Hi 8.88

14. 8>

OD IGA AD I. 4. 88 HTS SF 9 26 OD WASTAGE 24 / TW 4 46 HTS SF + 8.88 24, / TN

~

24 26 OD NASTAGE 2. 13 MTS SF + 1.48, 17 27 OD WASTAGE 28 TW HTS SF + ~

48 29 / TN

~

17 OD WASTAGE 6. 75 HTS SF + 3.86 27 27 OD OD WASTAGE WASTAGE 25

/ TW T,N 2, 58

7. 74 HTS SF MTS SF

+ 1.37

+ 2 16 26 / TW

~

27 OD WASTAGE 9. 81 HTS SF + 2.67 23 23 27 OD OD WASTAGE WASTAGE 35 / TW TW l. 78

<d.

17 HTS SF HTS SF

+ 1.83 2 44

~

24 27 OD WASTAGE 25 TW 3. 35 HTS SF + 1 ~ 64 25 OD WASTAGE TW 2 37

~ HTS SF + 1.18 27 OD IGA ADI 4. 35 HTB SF 6. 53 27 27 QD IGA .,ADI 3 42

~ HTS SF -14.16 3<d DIS TORT ROLL 2. 91 HTS SF -19.48 38 27 ROL L TRANS 1 44

~ HTS PF + 2 27~

34 27 ROL L,TRANS 2. 85 HTS PF 2 ~ 42 48 QD IGA ADI 1. 16 HTS PF + 3.87 48 27 OD SCC 55 TN 8. 56 HTS SF 17 52~

48 27 OD SCC 73 TW 8 58 HTS SF -17.97 28 /

~

14 28 OD WASTAGE TW 1. 97 HTS SF + 2.33

~8 OD WASTAGE 29 / TN 3 29 HTS SF f2 26 /

~

23 28 OD NASTABE 1. 79 HTS SF + 2.48 28 /

TW'W 24 28 OD WASTAGE 7. 54 HTS SF + 1 48~

25 28 OD NASTAGE 31 TN 1. 21 Hi + 1.31 28 ROL L TRANS 2. 9!i> HTS PF + 2 ~ 7 28 /

~

15 OD WASTAGE TW 4, 29 HTS SF + 3.88 15 29 OD WASTAGE 38 / TM 1. 66 HTS SF + 3.41, 34 RQL L TRANS 3 ~ 88 MTS PF + 2 46~

11 3!d OD IGA AD I 3. 88 HTS SF -18. 48 3<8 OD WASTAGE TW 5 72 HTS SF + f.36 24 38 OD OD WASTAGE NASTAGE 36 34

// TW TW 8.

3

~

82 72 HTS SF HTS SF

+

1.69 1.63

///

~

25, 38 OD WASTAGE TW 9 ~ 47 HTS SF + 1.47 31 QD WASTAGE 29 TW 7. 89 HTS SF + 1.8>

3f OD WASTAGE 26 TW 8 39 HTS SF 2 43

///

~ ~

OD NASTAGE 23 TW 3. 68 CTS SF + 1.48 31 OD WASTAGE 23 TW 3. 6!d CTS SF 1. 48

.8 OD WASTAGE 36 TW 8. 98 HTS SF + 2 59 28 OD OD WASTAGE WASTAGE 31 27

// TW TW 5.

3.

96 51 HTS SF HTS SF

+

~

2.84 1.47 OD OD WASTAGE WASTAGE 29 / TM TW 12.

2.

72 84 HTS SF HTS SF

+

2 88

~

94 31 /

1 ~

9. 12 OD WASTAGE TM HTS SF + 2 49

~

24 32 OD WASTAGE 24

'24 TW 18 15

~ HTS SF + 1.66 32 QD WASTAGE TN 6. 41 HTS SF + !d.78 28 32 OD WASTAGE 28 / TW 1. 94 CTS SF + 8 78 28 2f

&2 QD OD NASTAGE WASTAGE

'28 28

/ TM TW 1.

5 94 84 CTS SF HTB SF,

+

~

8 78

~

2 89 27 /

~ ~

33 OD WASTAGE TW 2. 58 HTS SF + 1.31 OD WASTAGE 28 TN 11. 39 HTS SF 2 22 23 33 OD OD WASTAGE WASTAGE 28 /

/ TW TW

4. 73

6. 59 HTS SF HTS SF +

~

2.67 33 OD WASTAGE 26 / TW 8. 18 HTS SF + 1.76 26 33 OD WASTAGE 32 TW 1. 34 HTS SF + 1.59 27 OD IGA ADI 4. 58 HTS SF -15. 48 19 34 OD WASTAGE 34 TW 2. 69 MTS SF + 2.14 19 OD WASTAGE - 28 TW 2. 15 HTS SF + 2.58 19 34-34 OD OD NABTABE SCC

/ TW 83 / TN

8. 72 1.!d8 HTS SF HTS SF

+ 3.19 18.!i>3 Table 2 (Cont'd)

Page 14 of 69

Plan t: R. E. Ginna Station Steam Gener ator:

Outage- 1998 Reeolution Al 1'eportable Indications (28</tw and greater)

ROW CQL IND I CAT ION VALUE VOLTS LOCATION INCHES 34 OD WASTAGE 21 TW 1. 48 CTS SF + =.88 34 OD WASTAGE 24 / TM 2, 12 HTS SF + 1.99 34 OD WASTAGE 29 TW ~

.76 HTS SF + 2.41 25 34 OD WASTAGE 27 TW 9. 74 HTS SF + 1 68 21 / TW

~

26 34 OD WASTAGE 6 52 HTS SF + 1.37 37 / TW

~

27 34 OD WASTAGE g. 75 HTS SF + 1.37 38 34 ROLL TRANS 1..5 HTS PF 2 26

~

18 35 OD IBA ADI 4. 18 HTS SF 3. 91 35 OD NASTAGE 29 TW 4. 58 HTS SF + ~

.45 2g 35 OD WASTAGE 24 / TW 1. 83 HTB SF + 2.26 21 35 OD WASTAGE 23 TN 1 94 HTS SF + 1.99 23 / TW

~

55 OD WASTAGE 6. 49 HTS SF + 2,23 35 OD WASTAGE 28 TW 5 37 HTS SF + 1.44 35 OD OD WASTAGE WASTAGE

-2> // TN TW

~

6. 48 83 HTS HTS SF SF

+ 1.26 25 35 QD WASTAGE 0/ TW 6. 27 HTS SF + 1.62 25 35 OD NASTAGE 38 % TW 3. 52 HTS SF 2. 8%

35 35 OD OD WASTAGE WASTAGE 26 35

/I TM TW 5 76

~

<3. 79 HTS HTS SF SF

+ 1.53

+ 2.68 27 &5 OD WASTAGE 23 TW 3 97

~ HTS SF + 1.29 39 35 OD (general) 39 TN 6. 78 AVB3 8. 88 D5 36 OD (gener'a 1 ) ~

8 / TM 3. 54 8. 88

-19. Sg 15 DISTORT ROLL 2. 85 HTS SF 2f 36 36 OD OD WASTAGE WASTAGE 22 / TW TW

5. 34

2. 19 HTB HTS SF SF

+ 1.94

+ 8.92 26 36 OD WASTAGE 31 / TW 7. 15 HTS SF + 1.43 18 18 37 37 OD OD IGA WASTAGE ADI

/ TW

i. 75

3. 46 HTS HTS SF SF

-15. 98

+ 2.93 37 DISTORT ROLL 6 59 HTS SF -19.32 21 2f 37 37 OD OD WASTAGE NASTAGE 26 /

/ TW TW

~

4. 75

8. 88 CTS HTS SF SF

+ 2 38

~

+ 2 85 26 /

~

37 OD WASTAGE TW 5. 65 HTS SF +.1.67 24 37 37 QD OD NASTABE WASTAGE 2g /

/ TW TW

1. 44

7. 43 HTS HTS SF SF

+ 8.95

+ 2.15 25 37 OD WASTAGE 24 I TW 8. 92 HTS SF + 1 28 24 /

~

25 37 OD NASTAGE TM 6. 12 HTS SF + 2.28 37 QD WASTAGE 28 / TN 4 77 HTS SF + 1.58 21 /

~

37 OD WASTAGE TW 3. 93 HTS SF 2, f2 4 38 OD WASTAGE 24 / TW 8 92

~ HTS SF + 8.42 16 38 OD IBA ADI 1 . 58 HTS SF -11. 3<9 38 38 OD WASTAGE 23 / TN 1. 96 HTS SF + 1.Sg 1.88 23 38 38 OD OD OD WASTAGE WASTAGE WASTAGE 24 2g 29

// TW TW TN 1 71

~

8. 99

6. 74 HTS HTS HTS SF SF SF

+

2 'g

+ 1.44 5.'5 25 25 26 38 iS 38 OD OD OD WASTAGE WASTAGE WASTAGE 28 26 21 I// TW TW TW

9. 83

5. 87 HTS HTS HTS SF SF SF

+ 1..38

+ 2 3&

~

+ 1.62 18 18 OD OD, WASTAGE WASTAGE 22 24

// TW T.N

8. 61

1. 98 HTS HTS SF BF

+ 2.14

+ 2.64 28 39 39 OD'ASTAGE OD NASTAGE 21

// TW TW

5. 52 6 84 CTB CTS SF SF 2 2g

~

+ 2.18 OD WASTAGE / TW

~

3. 81 HTB SF + 1.43 25 25 OD QD WASTAGE WASTAGE 24 21 I TW TW 2 87

~

6 15 HTS HTS SF SF

+ 1 83

~

+ 2 15 26 28 OD OD WASTAGE WASTAGE 23 28

// TN TW

~

11. 29

7. 36 HTS HTS SF SF

~

+ 2.57

+ 1.93 7 4</ D I STQRT ROLL 2. 14 HTB SF , -19. 38 17 4g ROLL TRANS 2. 77 HTS PF + a ~ M%I 18 48 OD NASTAGE 21 TN 1. 37 HTS SF + 2 2g 18 48 OD WASTAGE 25 TW 1. 68 HTS SF + 2.59 22 24 48 4g OD NASTAGE OD WASTAGE ~

28 25 I TN TW l.

1. 38

>8 HTS HTS SF SF

+ 1.68

+ 1.27 24 4 OD WASTAGE 24 TW 1. 58 HTS SF + 1.91 26 4g OD WASTAGE 21 TW 6. 63 HTS SF + 2.19 27 4<i'd OD WASTAGE 21 TN 8. 75 CTS SF + 8.68 27 4g OD WASTAGE 24 / TW 6. 13 HTS SF + ~~

Table Z (Cont'd)

Page 15 of 69

4 0

Plant: R. E. Ginna Station Generator:

Qutage- 1998 Resolution All Reportable Indications (28/tw and greater)

RQW COL INDICATION VAL VOLTS LOCATION INCHES 27 48 OD WASTAGE TW 6. 58 HTS SF 2 62~

ZS 3Q 48 OD NASTABE TW 6. 38 HTS SF + 2.14 48 OD IGA AD I 2. <93 HTS SF 6. 94 4g OD IGA AD I 2, 32 HTS SF =13. 69 24 18 41 41 OD OD NASTAGE WASTAGE 36 24

/I TW TN

<9. 96

1. 27 HTS SF HTS SF 2 12
+ 1.83
~
25 41 41 OD OD WASTAGE WASTAGE 2S / TW TW
4. 27
8. 28 HTS SF HTS SF + 1.93 26 41 QD WASTAGE TW HTS SF + 1.8$
26 41 OD WASTAGE 24 TN 4 31
~ HTS BF + 2.13 28 41 OD WASTAGE 27 TW 4 62
~ HTS SF 28 41 OD NASTAGE 28 TN 4. 71 HTS SF + 2.75 41 OD WASTAGE 24 TN =. 5S HTS SF + 1 77 3g 41 41 OD OD WASTAGE NASTAGE 29 22
/I TM TN 3.!d5
2. 19 HTS SF HTS SF
+
+
~
2.65 2.19 24 42 42 OD OD WASTAGE WASTAGE 2g 24 I/ TM TW 3 81
~
6. 87 HTS SF HTS BF +
1 .2g 1 82 27 42 42 OD OD WASTAGE WASTAGE
/ TM TW
2. 81
5. 75 HTS SF HTS SF
+
2r
~
1.73 td f 37
. w7 42r 42 OD OD (general)
(general) 35
/ TW TN
8. 63 5 41
~
AVB1 AVB2
~
8. 88
<3. 8!d
&7 42 OD (general) TN 3. 82 AVB3 8. 88 3? QD (general) 27 I TN 3. 37 AVB4 8 gr 23 /
~
.8 43 OD WASTAGE TN 1 23 HTS SF f 2g 25 /
~ ~
28 43 OD NASTAGE TW 8 ~ 71 HTS SF 24 43 OD WASTAGE 2f / TW ~
.26 HTS SF + 1.58 24 43 OD WASTAGE 34 / TW 8. 68 HTS SF + 2.53 27 43 OD WASTAGE 28 TW 4. 18 HTS SF + 2.83
-g4 / 2.58 27 43 OD NASTAGE TN 1 89
~ HTS SF +
~8 43 OD WASTAGE w TW 4. 19 HTS SF + 1.17 28 43 OD WASTAGE 26 8. 88 HTS SF 6 44 DISTORT ROLL TW 1 . 52 HTS SF -f 9. 9!d 24
/II 1. 18
44. OD NASTAGE TN HTS SF Sg 15 44 OD SCC 96
~4 TN !d. 57 HTS SF 2. jr' 15 44 QD WASTAGE TW 8 76
~ HTS SF .w ~ 37 17 44 OD WASTAGE 2g TW 8 79 HTS SF 18 18 44 44 OD OD WASTAGE WASTAGE 36 29
/ rW TW
~
8. 48
1. 45 HTS HTS SF BF
+
+
2.18 2.88 22 44 OD NASTABE 27 r/ TN 1. 63 CTS SF 2,gg 44 44 OD WASTAGE DISTORT ROLL I TW 8. 88 6 34
~
HTS HTB SF SF
+ 2.18
-19. 29 27 44 OD WASTAGE 32 I/ TW 8. 85 HTS SF 1. 48 28 44 OD WASTAGE 24 / TN 18. 41 HTS SF + 2 83 44 44 OD OD WASTAGE WASTAGE w34 I TM TW
8. 46
5. 69 HTS HTS SF SF
+ 1.28
+ 1 65
~
f2 13 45 45 OD OD WASTAGE WASTAGE 28 2!d
// TN TW
4. 38
1. 49 HTS HTS SF SF
+ =.11
~
1. 87 45 64
// 4. 48 14 OD SCC TN rd. 58 HTS SF 15 45 OD SCC 81 TW 3 86
~ HTS SF -11. 4!i>.
19 45 OD'ASTAGE ~
w6 e/ TM 8. 79 HTS SF + 3.68 21 27 45 45 OD OD WASTAGE WASTAGE
.8 / TW TW
=. 96
7. 62 HTS HTS SF SF
+
+
1.36
!d ~ 87 28 45 OD NASTAGE TN 3. 38 HTS SF + 8.95 28 45 OD WASTAGE ~
22 II. TW 1. 69
6. 98 HTS SF + 1.32 28 45 QD WASTAGE TN HTS SF + 1.88 45 45 OD OD WASTAGE WASTAGE I TW TW
3. 94
2. 54 HTS HTS SF SF
+
+
8.67 1.68 38 14 45 46 QD WASTAGE ROLL TRANS Uf / TW f.66
18. 78 HTS HTS SF PF
+ 1 2 48
~
~
!d4 19 46 OD WASTAGE TW 8. 56 HTB SF + 9.85 46 46 OD WASTAGE OD WASTAGE >8
/ T(J TW
8. 73
7. 39 HTS HTS SF SF
+
+
1.23 1.28 31 46 47 OD WASTAGE ROLL TRANS 28 / TW 2 38
~
2. 99 HTS HTS SF PF
+
+ 2.43 13 47 ROLL TRANS 7. 85 HTS PF + 2.48 18 47 OD WASTAGE 27 TW 8. 75 HTS SF + 2.78 Table 2 (Cont'd)
Page 16 of 69
1 Plant: R~ E. Ginna Stat ion Steam Generator:
Outage: 1998 Resolution All Reportable Indications (2!ij/tw and greater)
ROW CQL INDICATION VALUE VOLTS LQCAT ION INCHES 2f 47 ROLL TRANS 5. 68 HTS PF + 2.49 22 47 OD WASTAGE TN <3. 99 CTS SF + 1.88 3!d 34 47 47 OD WASTAGE ROLL TRANS 22 / TW 9. 82
1. 44 HTB HTS SF PF
+ 8.95 2 27 1 48 49 OD OD SCC WASTAGE 78 32
/ TN TW
!d.
!3.
53 69 HTS HTS SF SF
~
-19. 58
+ <3. 5!3 14 49 OD IGA ADI 5.!ij4 HTS SF 5. <3!d 14 49 OD WASTAGE 31 TW 8. 59 HTS BF + 3.68 19 49 OD IGA ADI 2. 54 HTS SF -11. 52 49 OD NASTAGE 34 TW 8. 83 HTS SF + 1.1!3 26 49 OD WASTAGE 21 / TW 5. 87 HTS SF + f.4rd 28 49 QD WASTAGE 24 / TW 9. 35 HTS SF + 8.4<3 28 49 OD WASTAGE 25 / TW 8 48
~ HTS SF + 1.48 6 58 ROLL TRANS 24. 36 HTS PF 16 2g 5!d 58 OD WASTAGE OD NASTASE 35 2g / TN
/ TW 1. 27
1. 16 CTB HTS SF SF
+ 1. 9!d 2 2<3 24 27 5!3 5<3 QD OD WASTAGE NASTAGE 27 28 / TN 7N i.
2.
88 11 HTS HTS SF SF
+
+
~
1.98 1.48 2g / TW 2.88 27 37 59 58 58 OD OD OD WASTAGE WASTAGE (general )
2g
// TN TN 2 8g
~
4. 99 HTS HTS AVB3 SF SF
+
8 'g88
!3.
19 51 OD WASTAGE 27 TW 8. 13 HTS SF + 1.78 24 nj 51 ROLL TRANS 3. 81 HTS PF 51 51 OD QD WASTAGE NASTASE 3g 22
/ TN TW 1 .!35
1. 84 HTS SF HTS SF
+
+
1.58
f. 18 1 OD SCC / TW 8. 39 HTS SF 8'16.
-17. 3!d 1 52 OD SCC 45 TW 8. 55 HTS SF 1
6 OD SCC ROLL TRANS 58 I TW 8. 45
7. 48 HTS SF HTS PF
-17.98
+ 2.48 13 52 OD NASTAGE 21 TW 4. 25 HTS SF + 1.8<3 18 52 QD WASTAGE 0/ TW HTS SF + =.88 5= OD SCC 8!ij y TW 8. 44 HTS SF -16. 78 16 '53 OD WASTAGE 26 TW 2. 17 HTB SF 5. 5!3 17 19 53 53 QD OD WASTAGE WASTAGE 34 28 /I TW TW f, 22
2. <36 HTS SF HTB SF
+ 3.98
+ .28 5> QD SCC 77 TN 8. 46 HTS SF -15. 7<3 13 18 54 54 OD OD WASTAGE WASTAGE 32 2f I
/ TW TM 2 8~ HTS SF HTS SF
+ 2.88
+ 2.68 27 54 ROLL TRANS 9 29 HTS PF + 2.58 39 /
~
54 OD WASTAGE TW !3. 69 HTS SF + 1 . 5<3 54 OD SCC e/ TW !d. 64 HTS SF -17. 1!d 8 55 OD SCC 32 / TW 8. 28 HTS SF -17. 6<3 8 55 OD SCC I~ TN 8. 38 HTS SF -18. 48 13 55 OD WASTAGE TN 1. 84 HTS SF + 1.58 15 55 55 OD WASTAGE / TW !d. 79 HTS SF + 4 58
~
16 OD NASTABE 2<3 TN 6. 58 HTS SF 4. 1!3 17 55 55 OD OD WASTAGE SCC 31
/ TW TW
1. 88
g. 31 HTS SF HTS SF
+ 4.38
16. 2<3 16 56 OD WASTAGE -32 TW 1. 14 HTS SF + 4. 2!3 17 56 OD WASTAGE 23 TW 1.61 HTS SF + 3.54 19 56 OD WASTAGE 25 TW 8. 85 HTS BF + 1.25 28 56 OD WASTAGE
// TN 1. 74 HTS SF 38 56 OD WASTAGE TW 4 61 HTS SF + 8.61 95 /
~
34 56 OD SCC TN 8. 43 HTS SF -18. 58 18 57 OD ISA ADI 4. 67 HTS SF -17. 87 57 OD WASTAGE 18. 85 HTS SF + 1.45 24 57 DISTORT ROLL 8. 28 HTS SF -19. 44
24. 57 OD WASTAGE 31 TW 8. 78 HTS SF 1. 48 57 ROLL TRANS 5. 82 HTS PF + 2.38 28 57 OD WASTAGE 0/ 1. 34 HTS SF + !3. 75
-1 j. 35 TW 34 57 OD SCC 96 TN !d. 65 HTS SF 17 19 58 58 OD OD NASTABE WASTAGE 28 24
/ TW TW
8. 71
8. 51 HTS SF HTS BF
+ 3 98
~
+ 1.83 2g
~<d 8
58 OD OD WASTAGE WASTAGE 35 22
// TW TN
1. 84
1. 83 HTS SF HTS SF
+ 1.91 Q4 24 58 OD NASTAGE TW 2 42
~ HTS SF + 1.37 Table 2 (Cont'd)
Page 17 of 69
4
%)
Plant: R~ E. Binna Station Generator:
Outage- 1998 Resolution All Reportable Indications (28/tw and Sveatev)
RON COL INDICATION VAL VOLTS LQCAT ION INCHES 25 58 59 OD WASTAGE WASTAGE 28
// TW i.
1 ~ 25 61 HTS SF 1. 34 QD TW HTS SF !d. 47 17 59 59 OD WASTAGE 2f 21
// TW 3. 72
2. 31 HTS SF 2. 38 OD WASTAGE TW HTS SF 1 89 9 68 QD WASTAGE 28 / TW 1. 27 HTS SF
~
8. 33 2g 6!3 68 OD OD WASTAGE WASTAGE n3 / TW TW
2. 28
8. 75 HTS HTS SF SF i.
f 42
~
17 2g 68 QD WASTAGE 2g I/ TW !d. 94 HTS SF 1. 89 73 6!3 OD WASTAGE TW 3. 46 HTS SF 1'. 5a
~f 6!d ROLL TRANS 1. 94 HTS PF 2. 34 "13 61 QD NASTAGE / TW 2. 51 HTS 1 . 55 13 14 61 bl 'D OD WASTAGE WASTAGE 0/
0/
TW TW 1.3a
7. 1<3 HTS HTS SF 1 .
2 19 94 15 17 61 61 OD WASTAGE NASTABE 28 // TN 7 1!d 4 ~ 23 HTS SF
~
2. 25 QD TW HTS SF 1. 72 19 61 OD WASTAGE 25 nS TW 5. 31 HTS SF 1. 58 28 61 QD WASTAGE TW 4. 38 HTS SF 1. 67 25 12 61 bl 62 QD OD OD WASTAGE NASTAGE WASTAGE 22 24 /// TW TW TW
2. 98
i. 88
4. 61 HTS HTS HTS SF SF SF 1 . 69 8 89
~
1. 82 18 62 OD WASTAGE ni / TN 3. 91 HTS SF i. 44 19 8
62 63 OD QD WASTAGE WASTAGE 2<i! /
23 /
TW TW
7. 28 1 .!d2 HTS HTS SF SF
i. 71
8. 47 13 63 OD WASTAGE 21 TW 2 92 HTS SF 2 ~ 47 17 2g 63 63 OD WASTAGE WASTAGE 2& /
/ TW
~
18. 53 3 18 HTS HTS SF 1. 47
1. 39 21 25 63 63 63
'D OD ROLL TRANS IGA ROLL TRANS ADI TM ~
2. 57
!3. 41
1. 73 HTS HTS HTS SF PF PF PF 2 ~ 34
3. Sf
2. 34 13 64 OD WASTAGE 22 % TW 6. 28 HTS SF 1. 48 13 a4 64 64 OD OD WASTAGE NASTABE 24 23
// TN TW
l. 91 7 b9 HTS HTS SF SF
2. 1<3
1. 7!d 14 16 64 64 OD NASTAGE WASTAGE 26 29 /// TW l. <34
~
5. 34 HTS SF 2 gg
~
17 18 64 64 OD OD OD NASTABE WASTAGE 23 24 //
TW TW TW
7. 84
6. 18 HTS HTS HTS SF SF SF l... 2!3 1
4<3 5!i>
64 OD NASTAGE .4 TN 9 25 HTS SF l.
1 1!3
//
, ~
19 64 OD WASTAGE 26 TN 4 68 HTS SF 1. 28 9
64 65 OD OD WASTAGE WASTAGE 28 TW TW
~
8 66,
~
6. 98 HTS HTS SF SF
i. 8
8. 5<!
1!3 65 65 OD WASTAGE 24 // TW 7. 27 HTS SF <3. 6<3 8.
il 11 15 65 65 OD OD OD WASTAGE WASTAGE WASTAGE 21 28 "3!3
// TW TN TW 2 91
~
4 72
~
6. 64 HTS HTS HTS SF SF SF 1. 78 SQ>
1. 8<3 18 65 OD NASTAGE 26 TW 5. 49 HTS SF 1. 58 f<3 2
66 66 OD OD NASTAGE WASTAGE 26 25
/ TW TW 4 58
~
4 64 HTS HTS SF SF 8.
f.48 9<3 1
14 66 66 OD OD WASTAGE WASTAGE 28 26
// TW TW
~
8 61
~
6. 28 HTS HTS SF SF 1.
1. 88 4<3 15 66 OD WASTAGE 27 TW 8 34 HTS SF 1. 78 18 19 66 66 QD OD WASTAGE WASTAGE 26 2g
// TW TW
~
5. 95 18.86 HTS HTS SF SF 1 5!3 i.~
78
// 3.38 28 66 OD WASTAGE 29 TW HTS 1. 38 2f 66 OD WASTAGE 26 TW 7. 66 HTS 1. 48 31 66 DISTORT ROLL 1. 69 HTS -19.58 7
67 67 OD OD WASTAGE IGA 28 ADI
/ TW 1. 87
5. 22 HTS HTS SF SF
+ 8. 4!i>
-16.78 9 67 WASTAGE TN 7 95 HTS SF 8. 88 if 11 67 67 QD OD OD WASTAGE WASTAGE 23 /
.24 /
TM TN
~
5. 85
5. 86 HTS HTS SF SF 1 . 2<3
1. 6<3 13 67 OD WASTAGE 29 % TW 6. 18 HTS SF 1. 78 19 67 OD WASTAGE 26 %,TW 5 51 HTS SF 1. 98 21 / TN
~
2f 67 OD WASTAGE 2. 39 HTS SF 8. 6!d 38 67 OD (Senegal) 25 TW 2. 99 AVB3 8.!dg 38 67 OD (general) 38 / TW 4. 8> AVB4 8. 88 68 OD WASTAGE 2!3 / TW 5,!jf3 HTS SF =. 88 Table 2 (Cont'd)
Page 18 of 69
I ~ ~
Plant: R. E. Ginna Stat ion Steam Generator: A Outage- 199!3 Resolution All Reportable Indications (2<3/tw and greater)
RON COL INDICATION VALUE VOLTS LOCATION INCHES 68 OD WASTAGE 26 TW 4 9"- HTS SF + 1.78 68 68 OD QD
'WASTAGE SCC 28 67
// TW TW
2. 4 ~
l. 69 HTS HTS SF SF
+ 1 . 4~i!
-13. 2<3 OD SCC 78 TW 8. 9!i> HTS SF 19. 9<i!
f2 14 69 69 OD OD WASTAGE WASTAGE 35
// TW TW
8. 44
1. 67 HTS HTS SF SF
+ 1.58
+ 2. <3!i>
16 69 OD NASTAGE 2g TW 4 g2 HTS SF + 1.88 5
f!i!
7!d 7<3 OD OD SCC NASTAGE ~7
/ TN TW 1
~
8. 91
. 94 HTS HTS SF SF
-19.38
+ 1.38 11 14 7g 7g OD OD WASTAGE WASTAGE 2<3 / TW TW
4. 66
4. 67 HTS HTS SF SF
+ 1. 1!i!
+ 2. 1!d 15 6
78 71 OD OD WASTAGE WASTAGE 25
// TW TW 7 '9
1. 15 HTS HTS SF SF
+ 1.58
+ l. 1!3 6 71 71 OD OD WASTAGE WASTAGE 28
/ TN TW
8. 71
4. 18 HTS HTS SF SF 1.43
+ 1.68 13 5
71 72 OD OD WASTAGE NASTAGE 23 2<d
/ TW TW .
1. 92
2. 65 HTS HTS SF SF
+ 1 68
~
+ 8.5!3 6
13 7Q 72 QD OD WASTAGE WASTAGE
-9 f 28
// TW TW
5. 92 3.!d5 HTS HTS SF SF
+ 8 Bd<
~
+ 1.48 6 OD WASTAGE 2g // TW 4. 42 HTS SF + 8.7!d 8
8 12 73 73 73 OD QD OD WASTAGE WASTAGE NASTAGE
'525 23 //
TW TW TW
l. 18
6. 21
18. 13 HTS HTS HTS SF SF SF
+ 1. 8<3
+ 1.58
+ 1.38 8 74 OD WASTAGE TW 5. 8 HTS SF + 8.78 f2 13 74 74 OD OD NASTAGE WASTAGE 21 26
// TW TN
6. 27
2. 11 HTS HTS SF SF
+ 1.38
+ 8 98
~
16 74 OD SCC 2g TW 8. 92 HTS SF 18. 9<3 17 74 OD IGA ADI 3. 68 HTS SF -18. 58 18 74 OD IGA ADI 4. 47 HTS SF -18. 1!3 5 76 OD WASTAGE 28 / TW 1. 11 HTS SF 8 7g 16 87 QD WASTAGE 36 / TW 14 HTS SF +12. 13 11 91 OD WASTAGE 2f / TW ~
1 ~
~ HTS SF + 1.88 TOTAL TUBES FOUND 325 TOTAL INDICATIONS FOUND 428 Page 19 of 69
Plant: R. E ~ Ginna Stat ion Steam Outage: 199<8 Resolution Generator-'ll RePortable Indications (.8/ and greater)
ROM CQL INDICATION VALUE VOLTS LOCATION INCHES 18 18 5
6 OD (general (general
)
35
/ TW 1. 88 Cl 8. 88 QD ) TW 2. 39 C2 8. 88 18 17 6
7 QD (general ROLL TRANS
) 36 / TW 1. 97
!d. 88 Ci 8. 88 HTS PF 2 4g 8 OD (general ) 26 / TW 2. 81 Cl
~
~3. 88 il 11 13 ROLL TRANS OD SCC / TW
1. 54 8 68~
3. 96 HTS HTS PF SF
+ 2.85
18. 5<8
-19.43 17 19 2
1~
15 DISTORT ROLL OD IGA OD IBA ADI ADI 5 42 5.1"
~
HTS HTS HTS SF SF SF
-15
-17. 88
'5 2 16 OD IGA ADI 6. 47 HTS SF -15. 49 7 16 QD IGA ADI 2. 89 HTS SF 8 28~
17 17 ROLL TRANS 8. 82 HTS PF + 2.96 18 OD IBA ADI 1. 67 HTS SF -16. 88 11 19 OD IGA ADI 8. 47 HTS PF + 5.94 17 19 DISTORT ROLL 1. 29 HTS SF -19. 58 2g ROLL TRANS 8. 49 HTS PF + 3.83 2g OD ISA ADI 2. 58 HTS SF -14.78 11 OD WASTAGE 23 / TM 9.'78 HTS SF + 1 48 16 24 21 OD, IGA ADI i.
1.3 68 HTS SF 15. 88
-18 88
~
il 17 21 OD IGA OD WASTAGE OD IGA ADI 2g /
ADI TW 8. 26 8 37~
~
HTS HTS HTS SF SF PF
+
+
1.38 4.57
~
17 22 ROLL TRANS 1. Yd6 HTS PF + ~
~ 98 17 DISTORT ROLL 2. 74 HTS SF -19.68 OD IGA ADI . 75 HTS SF -16. 58 28 /
1 QD WASTAGE TM 1. 85 HTS SF + 8.98 li 15 DISTORT ROLL OD OD WASTAGE WASTAGE 28 25 // TM TW
2. 31
18. 52
1. 74 HTS HTS HTS SF SF SF
+
2ig ~
1.48 1
gg
. 28 OD WASTAGE 2g TM l.. 23 HTS SF + 1 . 3!3 38 OD IGA ADI 3 18
~ HTS SF -18. ig8 16 24 QD IGA ADI 1. 47 HTS SF -12.28 2 25 OD, SCC 59 / TW 8. 77 HTS SF -18 88 F 2 OD IGA ADI 13. 96 HTS SF -16.62 2g 24 25 QD OD WASTAGE WASTAGE
'25 28 /
/ TM TM
2. 56 11 ~ 68 HTS HTS SF SF
+ l.
+ 1.18 1<d 1 26 OD IGA ADI 2. 83 HTS SF -17.48
17. 8<3 OD IGA ADI 2. 43 HTS SF 15 OD IBA ADI 2. 45 HTS SF -17 28 28 /
~
16 QD WASTAGE TW 8. 24 HTS SF + 1.48 17 26 OD WASTAGE 29 / TM 18. 81 HTS SF + 1 38 ~
18 OD WASTAGE 29 TW . 16. 99 HTS SF + 1.48 19 OD WASTAGE 38 / TW 11. 82 HTS SF + 1 . 3<3 2g 22 OD OD WASTAGE WASTAGE 21 / TW 6. 81
18. 83 HTS SF + 1.>!d
+ 1 . 5($
TW HTS SF 24 OD WASTAGE 27 / TM 1!d. 78 HTS SF + 1.58 27 26 -18. 4!d 2
2 27 27 OD OD OD IGA SCC IGA ADI 93 /
ADI TW
1. 78 8 88
~
7. 66 HTS HTS HTS SF SF SF
-18
-15. 35
'8 13 27 27 OD WASTAGE 24 /
/ TM 5 69
~ HTS SF + 1.28 OD WASTAGE TW 6 2g HTS SF + 1. 5!d 2!d /
~
23 27 OD WASTAGE TW 1. 38 HTS SF + 1.68 27 OD* WASTAGE 2g / TW 11. 94 HTS SF + 1.48 24 27 OD IGA ADI 8. 51 HTS PF 4. 88 24 27 OD ISA ADI 2 g6
~ HTS SF -17.
13.
<gi<>
11 OD ISA ADI 5. <39 HTS SF 6<3 19 OD WASTAGE 21 TW 13. 8!i> HTS SF 1 ~ 4g OD IGA ADI g, 52 HTS PF + 5.56 OD WASTAGE 28 / TW 8. 61 HTS SF + 1 ~ 48 41 DISTORT ROLL 1. 43 HTS SF -19.68 3g 8. Bg -15.94 15 17 38 OD IGA OD IGA OD WASTAGE I
ADI ADI 2g TW 2 42
~
8. 78 HTS HTS HTS SF SF SF 5 '8
+ 1. 8!<')
17 38 QD !AASTAGE 27 / TW 8. 62 HTS SF + 8.5<d 17 3g OD WASTAGE 27 / TW 1. 62 HTS SF + 2 8<8~
Table 2 (Cont'd)
Page 20 of 69
Plant: R. E~ Ginna Station Steam Generator:
Outage: 1998 Resolut ion All Reportable Indications (28/ and greater)
ROW COL IND I CAT I QN VALUE VOLTS LOCATION INCHES 24 OD IGA ADI 5. 98 HTS SF -15.18 28 3!3 OD SCC 69 % TW .2. 84 HTS SF -18.79
~8 39 OD SCC 69 / TW 2- 55 HTS SF -16. 9<d 17 31 OD WASTAGE 28 TW g 66 HTS SF + 1.38 42 OD (general) 25 / TW 4. 38 CTS SF +1S.28 17 OD IIA ADI 4. 94 HTS SF 18. 2!3 19 OD IGA ADI 8. 31 HTS PF + 2 96 33 QD IGA ADI 7. 58 HTS SF -f5. 5<3
~
18 14 34 34 OD WASTAGE DISTORT ROLL 24 / TW 2 23~
2. 15 HTS HTS SF SF 8 48
-19 86!
81 /
~
34 OD BCC TW 3. 99 HTB SF -16.98 2f ~4 OD IGA ADI 1 . 69 HTS PF + 4.13 21 34 ROLL TRANS 8. 75 HTB PF + 3.13 2f 34 DISTORT ROLL 3 85~ HTS SF 19. 7<3 8 35 OD IGA ADI 3. 83 HTB SF -1S. 28 31 35 OD SCC 55 / TN 1 . 58 HTB SF -17.18 31 34 35 35 OD OD SCC IGA 69 ADI
/ TW 3 96
~
4 49
~
HTS HTS SF SF
-18. 28
-17. 98 36 OD SCC 17 TW 8. 84 HTS SF -17.48
-15.'98 36 OD IGA ADI 5. 82 HTS BF 24 37 OD WASTAGE 4. 79 HTS SF + 1.48 37 OD IGA ADI 2. 18 HTS SF -17 48~
38 OD SCC 82 TN 1. 88 HTS SF 8. 4<3 41 41 38 OD OD (general )
.(general) 38
// TW TW
4. 84
2. 82 HTS HTB PF PF
+ 7.21
+ 6.89 24 OD WASTAGE 21 / TN 1. 96 HTB SF + 1. 1!3 a4 OD WASTAGE TW 4. 78 HTS BF + 1 4<3
~
35 OD IGA ADI 3. 81 HTB SF -17. 88 45 39 QD (general) 3 / TW 1. 14 HTB SF +41.68 11 4.g OD WASTAGE 34 / TW 1. 3S HTS SF + !i!. 3<3 48 OD WASTAGE 23 / TW 7 86 HTB SF + 1.78 26 /
~
24 48 OD NABTABE TW 5. 33 HTS SF + 1.38 24 48 OD WASTAGE 28 / TW 8. '99 HTS SF g 9g
=5 4!3 OD WASTAGE 2g / TN g. 83 HTS SF 2 4g
~
34 4!d OD IBA ADI 4 26 HTS SF -18. 68 96 /
~
36 48 OD SCC TN 1. 72 HTS SF -18.78 7 41 OD IGA ADI 5. 38 HTS SF -15.58 15 3!3 41 OD IGA ADI 4. 61 HTS SF ~
41 DISTORT ROLL 3. 38 HTB SF -19. 98 OD NASTAGE 21 TW 3 >4 HTS SF f 7<3 24 41 OD NASTAGE 38 / TW 3. 54 HTS SF f, 2g 28 41 QD IBA ADI 1. 26 HTS PF +18. 55 44 41 QD SCC 93 / TN 2 64
~ HTS SF 1 8 ~ 7Q>
6 42 OD NASTAGE 23 TW 5. 16 HTS SF + 9.59 6 42 OD WASTAGE 26 / TN 4. 89 HTS SF + 8.68 7 OD IGA ADI 5 ~ HTS SF -15.98 f 6 ti!!ij 7 42 OD IGA ADI 7. 3S HTS SF ~
8 42 OD IGA ADI 4. 71 HTS SF -15. 5<3 14 42 OD IGA ADI 3. 98 HTS SF 5 BS
~
31 42 QD IGA ADI 5. 95 HTS SF -18. 3<3 41 42 OD IBA ADI 4 27
~ HTB SF -18.28
7. 43 OD 'IGA ADI 6. 81 HTS BF -16.!39 8'8 43 QD IGA ADI 4 83 HTS SF -14 38~
43 DISTORT ROLL 3. 26 HTS SF -19. 48 14 35 43 43 OD WASTAGE OD IGA 2!i!
ADI
/ TW 6 58
~
8 73
~
CTS HTS SF PF
+ 1.48
+ 4 -6~
35 OD IGA ADI 3. 43 HTS SF -17. 4!d 41 43 OD SCC 77 TN 1. 93 HTS- SF -18.28 Z7 43 44 OD SCC OD WASTAGE 94 29 TN TW
~
i.
1. 35 81 HTS HTS SF SF
-18.<38
+ 2.5!3 "8
44 OD IGA ADI !3. 37 HTS PF + 3.6 ~
44 ROLL TRANS 1. 85 HTS PF + 1.74 48 44 OD IGA ADI 2. 68 HTS SF -17. 38 1 45 OD SCC \/ TN 8 ~ 63 HTS SF -17. 98 4 45 OD (general) 28 TW 1. 28 HTS SF g 3g 45 OD WASTAGE 2<3 / TN g. 61 HTS SF + 1.38 Table 2 (Cont'd)
Page 21 of 69
0 Plant: R. E. Ginna Station Steam Gener ator:
Outage: 1998 Reeolution Al l Reportable Indicatione (2!i!/ and greater)
ROW CQL INDICATION VALUE VOLTS LOCATION I NCHES'16.88 45 OD IGA ADI ~
.98 HTS SF 26 45 OD WASTAGE
.OD SCC 3!d 5!d
/ TW 8. 99
8. 52 HTS SF + 1.88
17. Srd TW HTS SF 31 45 OD WASTAGE 29 / TN 2. 61 HTS SF + !d. 38 41 45 ROLL TRANS 2. 18 HTS PF + 2.35 46 OD WASTAGE 38 TW 8 73 HTS SF + 8 68 28 /
~ ~
46 OD NASTAGE TW 1. 83 HTS SF + 8 78~
46 OD IGA ADI g 34 HTS PF + 6.57 2g 46 OD (general ROLL TRANS
) / TW 1. 1 f 1 . 38 HTS HTS SF PF
+ 3.48
+ 2.36 27 46 OD WASTAGE .8 TW 6 64 HTS + 1.7<3 n7 32 46 OD OD WASTAGE IGA 28 /
ADI TW l.
3 37
~
16 HTS SF HTS'SF 2 3g
-17. 48 4rd 46 OD IGA ADI 41 /
~
3. 82 HTS SF -lb.88
+ 8.68 3 47 OD WASTAGE TN 8. 77 HTS SF 8 47 OD IGA ADI 8. 14 HTS SF 15. 2!d 18 47 OD WASTAGE TW 3. 88 CTS SF + 1.38 47 QD WASTAGE 2g / TM !d. 58 HTS SF 2.rg 32 47 OD SCC 75 TW 8. 83 HTS SF -18. 26 38 47 OD IGA ADI 7. 34 HTS SF 38 47 ROLL TRANS 8. 96 HTS PF + 2.55 48 OD IGA ADI 6. 74 HTS SF 6. 86 8 48 QD IGA ADI 4. 16 HTS SF -17.25 48 OD WASTAGE 24 TW 1. 77 HTS SF + 3 98~
35 48 OD SCC 84 TW 8 82 ~ HTS SF -18.67 2 49 OD IGA ADI 6. 45 HTS SF 8. 83 34 49 OD IGA ADI 2e 23 HTS SF -17. 18 35 49 OD SCC 54 / TW <iJ ~ 31 HTS SF -17. 13 3? 49 OD SCC 41 / TN g 48 HTS SF -18. 47 48 49 OD IGA ADI 9. 95 HTS SF -17. 19 1 58 OD IGA ADl 4 67 HTS SF -17. 88 58 5!d OD OD SCC SCC 69 72 /
/ TN TW
~
8. 62
8. 88 HTS HTS SF SF 1 l.
17. 14 81 4 58 OD IGA ADI 4. 85 HTS SF -15.
16.88
<8!d 6 58 OD IGA ADI 42 HTS SF 17 8 S<8 58 OD QD SCC IGA 63 /
ADI
~
TM l.
1. 76 16 HTS HTS SF SF
-18. 4r<.>
9. 6<3 Q3 58 OD SCC 82 / TM 8. 8 HTS SF -18. 68 3g 58 58 QD QD WASTAGE SCC 24 93 /
TN TN
i. 93
!d. 54 HTS HTS SF SF
+ 3.45
-18. 14 2 51 OD SCC 72 / TW g 58 HTS SF -15. 87 51 OD IGA ADI 8. 77 HTS SF -13 96 28 /
~
18 51 OD WASTAGE TM 1. 21 HTS SF + 2.68 51 OD WASTAGE 31 TN 2 24 HTS SF + 3.19 89 /
~
31 51 OD SCC TW 8. 56 HTS SF -1S.67 35 il 51 OD OD SCC IGA 87 ADI
/ TM g. 78 3 84~
HTS HTS SF SF 18 57
-16.88
~
13 Cg OD IGA AD I 2. 88 HTS SF -17. 8rd 24 52 OD IGA ADI 4 72~ HTS SF 5. 23 25 OD WASTAGE .21 TW !d. 76 HTS SF + 3. 5<i!
27 52 OD OD WASTAGE WASTAGE 26
/ TN TW
!i>. 81 1.28 HTS HTS SF SF
+ 2.98
2. 69 52 OD SCC 82 / TN 8. 75 HTS SF -18. 27 38 ROLL TRANS 8. 75 HTS PF + 2.88 53 OD WASTAGE 2g / TW HTS SF
+ 4.87 28 S3 OD IGA ADI 8. 56 HTS PF + 5 f5 44 /
~
54 OD SCC TN 8. 72 HTS SF 12 ~ 89 2 54 OD SCC 45 / TN 8. 53 HTS SF -1 b. 52 54 OD IGA ADI 3. 88 HTS SF -17. 9<d f9 54 OD WASTAGE 28 TN 9. 76 HTS SF + 2.2S 54 OD WASTAGE 24 / TW 8. 88 HTS SF + 4.78 17.!i>g 1 55 OD IGA ADI 9 51 HTS 48 /
~
55 OD SCC TW 8. 31 ~ HTS SF -14. 6!3 5 55 OD IGA ADI 2 fg HTS SF -12.88 16 55 OD IGA ADI > 96
~
~ HTS SF -lb.98 19.68 19 55 OD IGA ADI 3. 76 HTS SF Table 2 (Cont'd)
Page 22 of 69
Plant: R. E. Ginna Station Steam Generator:
Outage: 1998 Resolution Al l Repovtable lndirations <2<3% and Sweater)
RON CQL I ND I CAT I QN VOLTS LOCATION INCHES 1
55 56 OD WASTAGE OD SCC 2!i> / TN 74 '// TW
1. 84
!3 ~ 95 HTS HTS SF SF -17 '8 g 96 2 S6 OD SCC TN 2. 11 HTS SF -18.95 17 56 ROLL TRANS ga 55 HTS PF 67 18 56 OD IGA ADI g, 44 HTS PF + 5.21 27 56 OD WASTAGE 28 TW 8. 98 HTS SF + 3.8!3 56 OD (qeneval) 26 I TN 1 !d5 HTS SF + <3. 4!d 15 8!d 2 57 OD IGA ADI 3. 24 HTS SF ~
17. i~id 1 57 OD IGA ADI 4. 88 HTS SF 15 57 ROLL TRANS 2 24 HTS PF + 2 79 2g 22 57 57 OD WASTAGE ROLL TRANS 24 I TN 1
~
8. 47
~ 59 HTS HTS SF PF +
2
~
~
2.91 25 57 OD WASTAGE 21 TW 1. 58 HTS SF + 1.68 25 57 57 OD,SCC QD SCC 71 79
/ TW TW
8. 44
8. 59 HTS HTS SF SF
-17. 8!3
-18.48 31 57 OD SCC 69 / TW 8 36
~ HTS SF -17. 6!d 57 OD SCC 79 TW 8. 69 HTS SF -14. 82 57 QD SCC 84 / TW !3 62 HTS SF -14 59 79 I
~ ~
36 57 OD SCC TW g 31 HTS SF -17.48 57 OD SCC 49 TW !3. 95 HTS SF -18. 43 39 57 C)D ISA ADI 1 . 33 HTS PF + 3.38 48 57 OD SCC 34 / TW 8 68
~ HTS SF 18. }<3 5 58 OD IGA ADI 2. 49 HTS SF -14.18 13 58 OD IGA ADI 3.!37 HTS SF -}6.25
+ 2.35 2!8 58 OD WASTAGE 23 TN 3. 15 HTS SF 58 OD SCC 69 / TW <3. 41 HTS SF -}S. 43 58 OD SCC 86 / TW 8. 57 HTS SF -17. 84 58 OD SCC 92 / TW 1. 82 HTS SF -18 13~
59 OD IGA ADI 5. 67 HTS SF -14. 88 4 59 OD SCC 82 / TN <3. 67 HTS SF 18. 2<3 59 OD SCC 42 / TW g HTS SF -13. 2!d 21 59 OD IGA ADI 7. 74 HTS SF 5. 8<3 6!d OD SCC 86 TM 42 HTS SF -17. 5!3 5 6!3 OD SCC 26 TN 8 ~ 37 HTS SF -16 58~
8 6!i) OD IBA ADI 1. 93 HTS SF -16. 78 11 6!d QD. IBA AD'I 2 ~ 25 HTS SF -17 8!3
~
12 14 17 6!3 6<3 6!d
'D OD OD IGA WASTAGE SCC ADI 28 /
37 TW TW 4
8.7
~
3. 51 44
~
HTS HTS HTS SF SF SF 1
17.
6
+ !3. 81
!d!d 93 17 6!3 OD IBA ADI 8. 61 HTS PF 4 ~ 2g 17 6!d ROLL TRANS 2 HTS PF 2 57 27 6g OD WASTAGE 28 % TW 8. 93 HTS SF + 1.68 61 OD SCC 64 I TW 1. S5 HTS SF -18 86 69 I
~
2 61 OD SCC TW 1 ~ 52 HTS SF -13 96~
62 OD IGA ADI Do Sa HTS SF -14. 6<9 15 OD IGA ADI 4 85
~ HTS SF -16.88 18 OD IBA ADI 5 34 HTS SF -12.38 88 I
~
19 62 QD SCC TM g, 52 HTS SF'F -11.98 62 OD SCC TW g 64 HTS -13.17 62 OD NASTAGE 25 / TW 3. 69 HTS SF + 1.78 27 62 QD IGA ADI 6 3!8 HTS SF 4.48 nj 62 OD IGA ADI
~
3 95
~ HTS SF 4.48 1 63 OD IGA AD I" 4. <3<3 HTS SF -16.S8 63 OD SCC 59 TW 1. 83 HTS SF -18.45 63 QD SCC 75 / TN !d. 75 HTS SF -16.6>
16 63 OD IGA ADI 6. 68 HTS SF -15.38 19 63 OD SCC 43 / TW g, 27 HTS SF -18.5S 28 63 OD IGA ADI 1. 88 HTS SF -14. }u) 22 63 QD WASTAGE 28 / ~
TN 1}.36 HTS SF + 1.98 27 63 OD WASTAGE 21 / TM 1. 76 HTS SF + 1..78 28 63 QD WASTAGE 28 / TW 4 37
~ HTS SF + 1.78 4 64 OD IGA ADI 1. 65 HTS SF -12.28 5 64 OD IGA ADI HTS SF -15. 1!d 8 64 OD IGA ADI 2, ig HTS SF 18 78~
19 64 OD IGA AD I 1. 57 HTS SF -11.34 64 OD WASTAGE TW 8. 88 HTS SF + 1.98 Table 2 (Cont'd)
Page 23 of 69
Plant-'utage: R. E~ Ginna Station Generator:
1998 Reeolut ion All Reportable Indicatione (28/ and greater)
ROW COL INDICATION VALUE VOLTS LOCATION INCHES 24 OD IGA ADI 4. 83 HTS SF -18. 48 25 64 OD IGA ADI 1. 78 HTS SF -17. 76 64 OD NASTAGE 23 / TN 6. 41 HTS SF + 2 18 74 /
0 65 OD SCC TW 8. 91 HTS SF -18. 32 65 OD SCC 76 / TW 8. 88 HTS SF 15 26
~
1 66 OD SCC 68 TN 2 g2 HTS SF 18. 1<3 56 /
~
2 66 OD SCC TW 1. 18 HTS SF 15. 73 2 66 QD SCC 65 / TW << HTS SF -16.
16. 18 79 7 66 OD lGA ADI 1 . 94 HTS SF 28 66 OD IGA ADI Ze 77 HTS SF -16. 88 67 68 / 8. 78 -16. 57 I'N
~
OD SCC HTB SF 67 OD SCC 68 TW 8. 8> HTB SF -17. 41 25 67 QD WASTAGE 21 / TN 2. 38 HTS SF + 8. 88 67 QD SCC 73 / TN 1. 63 HTS BF 16.
25 67 OD SCC 93 / TW <if. 52 HTS SF -17. 88 67 OD SCC 83 / TN g 47 HTS SF, 6. 5!d 39 67 OD (general ) 27 / TN 2 38 Ci <d, fijg 27 /
~
39 67 OD (general ) TN 8. 87 C3 g, 88 67 67 OD (general ) 28 /
28 /
TW i. 51
1. 36 C3 <3. +l!3 8 83 39 67 OD DS (general ) TW C3 C2
~
g, <<d8 68 QD SCC 65 / TW 8.64 'HTS SF -16. 51 n<d 68 68 OD QD SCC IGA 72 ADI TW l. 16
6. 47 HTS HTS SF SF
-18. 74
17. 48 2 78 OD SCC 85 / TN 2. 35 HTS SF -17. 88 i3 78 OD WASTAGE 21 / TW 2. 96 HTS SF 88 78 71 OD OD SCC SCC 78 / TN 76 / TW 1 ~
2.93 75 MTS HTS SF SF
-is.
1
-16. 1!d 68 7 71 OD IGA ADI 2 76 HTS SF 16 48 86 / TW
~
2 72 OD SCC 2. 41 HTS SF '16.
78 73 OD SCC 94 / TW ~
.18 HTS SF -17. 73 16 73 OD IGA ADI 2. 55 HTS SF -17. <d <d 1 74 OD IGA ADI 4. 58 HTS SF -17. 38 2 74 OD SCC 72 / TW 3 53 HTS SF -18 59~
28 74 OD IGA ADI
~
6. 84 HTS SF -18. 38 2 75 OD SCC 87 TW 5 41
~ HTB SF 17. 81
17. 78
? 75 OD IGA ADI 5. 27 HTS SF 18 75 OD WASTAGE 28 / TW 1. 76 HTS BF g, sn 75 DISTORT ROLL 2. 32 HTS SF -19. 34 28 75 OD IGA ADI 4. 77 HTS SF -17. g <<<d 33 2
75, 76 OD OD SCC SCC 9<9 // TN TN
2. 18
4. 88 HTS HTS SF SF -18. 88 1!3 76 OD IGA ADI 4. 58 HTS SF -16. 55 8 76 OD IGA ADI 4 17
~ HTS SF -15 79~
18 76 OD IGA ADI 3. 19 HTS SF -15. 87 17 76 QD IGA ADI 3. 72 HTS SF -17 88 2 77 77 OD QD SCC IGA 86 / TW ADI
i. 81 5.25 <
HTS HTS SF SF -16.
'17.
45 5 77 OD IGA ADI 5. 58 HTS SF -16 ' 38 16 77 OD SCC 79 / TW 8 HTS SF 7 18 77 77 OD OD SCC SCC 97 93 / TN TN i. 17
~
1. <88 HTB HTS SF SF
~
-18. 88
-18. 78 6 78 OD IGA ADI 5. 68 HTS SF -15. bn 7 78 OD IGA AD I 6 43 HTS SF -18. 5?
2<d 78 OD IGA ADI
~
5. 88 HTS SF -17. 3<3 2
1 79 88 OD OD SCC IGA 94 ADI
/ TW l. 94
5. 27 HTS HTS SF SF
17. 98
-16 ' 76 8!d OD SCC 88 / TW 4 26 HTS SF 18. n7 96 / TN
~
2 88 QD SCC 2. 38 HTS SF 17. 2g 15 88 OD IGA ADI 7.8 ~
MTS SF -17. <d2 5 81 OD IGA ADI 3. 75 HTS SF. -16. 74 7 82 OD IGA ADI 5. 57 HTS BF -16. 83 n4 4 83 83 OD OD SCC SCC 81 91
// TN TN
8. 36 2 24 HTS HTS SF SF
18. 78
-18. 55 66 /
~
18 84 OD SCC TW 8. 39 HTS SF -17 58 8 85 OD IGA ADI 8. 84 HTS SF '18.
96 Table 2 (Cont'd)
Page 24 of 69
Plant- R. E. Ginna Station Steam Gener ator: 8 Outa8e: 1 998 Resolution Al I Reportable Indications <28/ and greater)
ROW COL INDICATION VAL(JE VOLTS LOCATION INCHES 11 85 OD IGA ADI 4. 46 HTS SF -16.87 14 86 OD SCC 89/TW 8. 37 HTS SF -15. 98 15 15 86 86 OD OD SCC SCC 7
77
~
// TW TW
2. 17
8. 96 HTS HTS SF SF
-17 69
~
-18. 29 1 92 OD WASTAGE 27 % TW 1. 4Z HTS SF +11.19 1 OD WASTAGE 28 / TW l. 84 CTS SF +11.24 TOTAL TUBES FOUND: 282 TOTAL INDICATIONS FOUND: 336 Page 25 of 69
l 4
R<<L<L TU<<A<<<T<<l <VCR 5 0) oosooe Tuesday APt' I 24 ~ <991 <2s2<< P<< oosooo Pa~Je Plant- GINNA Steam Generator- A Outa8e- 1998 Res.
VOLTS LOCATION (6. 88 6. 8!ij-11 1=. 8<3-1 18. 88- ~
>8. 88-S >59. 99 TOTAt.
~
i. ~
HTS PF HTS HID 42
!ij 188 g
94
!ij 82
<ij gi 2 <ij 8
418
<jj z HTS SF 15 4 8 8 4 ~ HTS-Hi 2 14 4 5 2 2 5 ~
6. Hl-H2 Hl 1 19 iv "8
25 19 12 ~s 179 7 ~ H2 8 g g <3 <ij !3 8 ~ H2-H ~ 1 4 3 1 12
9. H~ 8 1 8 g !3
18. H3-H4 !3 g 8 <3 8 <ii 8
11. H4 !ii g jij <3 g !< j H4-H5 '8 g 8 8 8 g <3 1%. H5 ~e 4 g 7 tij 1 15 14 H5-H6
~ 8 6 2 6 5 19
15. H6 7 11 12 18 19 62
16. >H6 1 1 6 Qj ai
17. AVB1 !3 g 8 <jj !ii <ij
18. >AVBl !3 8 8 <3 <3 <ij <3 19 AVB2 8 g 8 g 8 8
'<ii
~ >AVB2 8 g 8 <ij <3 g <Zi 21 ' >AVB ~ 8 8 8 8 8 gi AVB3 g 8 8 <3 8 8 Iij Q ~ >AVB4 !3 8 g 8 g 8 tg w4 AVB4 8 !ii <3 8 g 8 g
25. >C6 2 15 1<3
'52 tij g C6 12 7
27. C6-C5 8 8 !ij 8 1 1 C5 4 4 <<j 1 1 8 18 C5-C4 <3 1 1 8 3<
g 2 Zg. C4 2 ii
~2
~
~
C4-C 5 C~
<3 g
g 1
8 1 1 1
g 1
tij g
8 Iij tij
!ij 2 4
~~i~ e C3-C2 !3 !ij 8 1 !ii !ij
34. C2 8 !3 1 2 2 <3 5 w'5 e C2-C 1 8 8 8 g !ii
>6. Cl 5 1 8 <3 ig
~>7 ~ Cl-CTS 1 4 1 8 g 8
38. CTS SF 15 18 g 8 !ij CTS HID 3i 18 1 g 58 4!3 ~ CTS PF 8 8 g <3 <ij
41. OTHER g g 8 8 8 !ij 148 781 186
!i'OTALS 199 118 S2 1876 PERCENTS ia.8 35. 4 17. 3 18 5 ~ 18. 2 4 8
~
Table 3 Page 26 of 69
'l ssssss <<0<< T<<<<A<<<T<<) <V<:R. 5.8)ssssss Tussdsy <<Ss< l <2 ~ 2<< <t<< ssssss ssssss Pa< Je 2 Plant: 6INNA Steam Generator:
Outage-'.99!3 Res.
A OBSTRUCTED MILS LOCATION <618 618-679 68!d-699 7cdg-719 72!3-739 >739 TOTAL
1. HTS PF !3 g !3 8 tij 1 HTS MID !ij g g 8 8 !ij 3 HTS SF
~ g 8 !(j 8 8 tij HTS-Hl C(j g !3 g 8 18
5. Hi <3 8 8 g 9
6. Hl-H2 8 8 8 g g 1 1
7. H2 g g 8 9 8 C(j
8. H>-H3 g'rd 8 g g 8 g !d
9. H3 8 8 !3 <ij 18 H3-H4
~ 8 8 r(j 8 8
11. H4 g !3 !3 <d 8 H4-H5 g 8 8 8 8
13. H5 8 <ij !3 g !ij 1 14 H5-H6 <3 g rd !ij 1 1
'5.
H6 8 8 8 g 1 6 ?
16. >H6 g 8 g r(j g 8
17. AVB1 8 8 !3 8 9 tij 9
18. >AVB1 g !ij . g 8 8
19. AVB2 8 8 g g 9 g 'r9 2g, >AVB2 g 8 g g 8 !3
>AVB3 !3 8 <ij !d 8 8 g AVB3 g g 9 8 8 8 8
>AVB4 !3 8 8 9 9 8 g 24 AVB4 g 8 8 8 g 8 8
'5
>C6 g 9 rd 8 2 6
'6.
C6 8 8 8 g 2 !3 2 C6-C5 8 8 8 g 9
~8 C5 8 8 g g !3 1 1 C5-C4 8 g 8 8 8 9 3Igj. C4 g g !d g td 1 C4-C3 8 8 8 g !ij 9
=.'-:': C3 C3-C2
!ij 8
g g !ij 8
8 9 8 !3
!ij
!d
'CA C2 8 g 8 8 !ij !d g 35 C2-Ci
~ !d 8 8 8 9 g 8
36. Ci g 8 g !d 8 g !ij 37m Ci-CTS g 8 8 !3 !3 g g
38. CTS SF g g 8 g '!3 g
39. CTS MID 8 g !3 8 !d g 48 ~ CTS PF !3 8 g !3 !(j
41. OTHER g g 8 8 g !d TOTALS 8 8 rd 7 27 PERCENT: !d. 8 g g 8.!ij 8.!3 28 6
~
e
79. 4
'Table 3 (Cont'd)
Page 27 of 69
<<<<o<<<<<< RULC TURA<t<T<t) !VCR, 5,0)<<oooo<< Tuosdoy April 2'AS <2<24 Pr< <<<<<<<<<<<< oooo*<< Page F'1 Outage:
an t: G INNA 199<3 Res.
Steam Generator: A BULGES VOLTS LOCATION 19.!dg 18. 88-} 2r3. <d!d-2 39. 8<3-3 >39.99 TOTAL HTS PF g 8 8 g HTS HID ij g g 8 rd <3
3. HTS SF 8 g g rij <d <8 HTS-H} !ij <3 tij 8g' 8 8 5 ~ Hl !iS rji g 9
6. Hl-H2 8 8 8 ig
7. H ~
8 <3 8 Ig <3 tjj 8 H'2-H3
~ g 8 rji ig
9. H3 g g 8 g <3 <3 1!3. H3-H4 8 8 g 8 g 1}. H4 8 tij id 9 H4-H5 !3 8 g !ij g H5 <3 8 8 i<j 9 rij 14 H5-H6
~ !ij g <3 gt rd !3
15. H6 8 g !ij g !ij <3 16 ~ >H6 !ij g g g 8 !S
17. AVB} tij !ij <3 9 td
18. >AVB} tij g g g rd 8 AVB2 8 !ij ilj g 8
28. >AVB2 g !ij U <3 8 !ij
>AVB3 g 8 td 8 !ij 22 ~ AVB3 <3 rij g g !3
>AVB4 g r3 8 9 <3 24 AVB4 !ij g g 8 8 rij
'5
~ >C6 rd 8 8 8 g 26 ~ C6 8 8 g !ij td <ij C6-C5 g 8 8 8 <3 g
28. C5 g 8 rij <3 g !ij C5-C4 8 tg !3 <d rij td C4 g g <3 g 0 g C4-C3 g 8 !3 g 8 ty 32 ~ C3 g g g 8 id 33 ~ C3-C2 8 g 8 td 9 g 34 ~ C2 g <3 8 rd g 35 ~ C2-Ci 8 <3 <3 <3 rd
36. Ci 8 !ij g 8 8 8
7. Cl-CTS <8 rij 8 8 td 38 ~ CTS .SF 8 g 8 8 8 g
39. CTS HID 4 1 td g E 8
48. CTS PF !ij !ij <3 tij 8
41. OTHER !d 8 8 8 td td TOTALS 1 rd 9 PERCENT- 37 5
~ 58. 8 12 5
~ 8.8 g g Table 3 (Cont'd)
Page 28 of 69
AOLC TUQAM<TH) (VCR 5 0)osssoo Tuesday APt'll 24m !090 !212' eeeoeo ~ 11110 F age Plant:
Outage:
GENNA 1998 Res.
Steam Gener ator' OD SCC -/ TM LOCATION SIlR <28 28-39 48-59 68-69 78-79 88-89 >89 TOTAL 1 ~ HTS PF 8 8 8 8 8 &
2. HTS HID 4 3 6 4 5 27
3. HTS SF
4. HTS"HI 5.. H1
6. HI-H2
7. H2
8. H2-H3
9. H3
18. H3-H4
11. H4
12. H4-H5
13. H5
14. H5-Hb
15. Hb
16. >H6
17. AVBI 1B. >AVBI
19. AVB2
28. >AVB2
21. >AVB3
22. AVB3
23. >AVB4
24. AVB4
25. >Cb
26. Cb
27. C6-C5
28. C5
29. C5-C4
38. C4
31. C4M
32. C3
33. C3-C2
34. C2
35. C2"C1
36. C1
37. C1-CTS
38. CTS SF
39. CTS HID
48. CTS PF
41. OTHER TOTALS : 8 5 4 3 6 4 5 27 PERCENT: 8.8 18.5 14 ~ 8 11.1 22.2 14.8 18.5 Table 3 (Cont'd)
Page 29 of 69
1
!'! 24'OOO I 'age
~
RQ4L
'10000 TUQ4N!TI1) <VCR, 5,0)oooooo Tueadag Ate oosoos F'I an t ' INNA &
Steam Gene..atua: A Outage: 199!3 Rem.
OD IGA -! TM LOCATION ADI <28 28-39 48-59 68-69 78-79 88-89 >89 TOTAL 1 ~ HTS PF 8
2. HTS HID 23
3. HTS SF
4. HTS-H1
5. H1
6. H1"H2
7. H2
8. H2"H3
9. H3
18. H3-H4
11. H4
12. M4-H5
13. H5
14. H5-H6
15. H6
16. >H6
17. AVBI
18. >AVB1
19. AVB2
28. >AVB2
21. >AVB3
22. AVB3
23. >AVB4
24. AVB4
25. >C6
26. C6 27 ~ C6<5
28. C5
29. C5-C4
38. C4
31. C4-C3
32. C3 33, C3-C2
34. C2
35. C2-C1
36. C1
37. C1-CTS
38. CTS SF
39. CTS IIID
48. CTS PF 41 ~ OTHE TOTALS : 8 8 8 8 8 8 PERCENT: 8.8 8.8 8.8 8.8 8.8 8.8 Table 3 (Cont'd)
Page 30 of 69
>>>>>>>>>>>> TVQAN<Tt4) (VCR. 5.1)>>>>>>>>>>>> Tu>>sd>>Y APe tl 21 ~ I 090 ~ >>>>>>>>>> Page F'I an Outage:
t: G INNA 1 '99!3 Res.
Bteam Genevatov: A OD NASTASE -/ TN LOCATION UDS <29 28-39 49-59 69-69 78-79 88-89 >89 TOTAL
1. HTS PF 8 9
2. HTS MID 8 8
3. HTS SF 8 8
4. HTS-Hl 877 313 1192
5. Hl 9 8 9
6. Hl-H2 5
7. H2 8 9
8. H>-H3 8 8 8
9. H3 8 8 9
18. H3-H4 8 8 8
11. H4 9 8 8
12. H4-H5 8 8 8
13. H5 8 8 9
14. H5-Hb 8 8 8
15. Hb 9 9 8 lb. >Hb 8 8 9
17. AVB1 8 9 9
18. >AVB1 8 8 8
19. AVB2 8 8 8
28. >AVB2 8 8 9
21. >AVB3 8 9
22. AVB3 8 8 8 23 'AVB4 8 9 9 24, AVB4 8 8 8 26 '6
25. >C6
27. C6-C5 8
9 8
9 8
8 8
8
28. C5 8 8 8
29. C5-C4 9 8 9
38. C4 8 8 8 31 '4-C3 9 8 8
32. C3 8 8 &
33. C3-C2 8 8
34. C2 8 8 8
35. C2-Cl 8 8 8
36. Cl 8 8 8
37. Cl<TS 161 12 174 38, CTS SF 8 8 8
39. CTS MID 9 9 9
49. CTS PF 8 8 9
41. OTHER 9 8 TOTALS : 3 1942 326 8 8 9 8 PERCENT: 8.2 76.8 23.8 9.8 8.8 8.8 8.8 Table 3 (Cont'd)
Page 31 of 69
0 I
<<<<<<<<<<<< RORIC TUQANITH) <VCR 5,0)<<<<<<<<<<<< Tv<<<<d<<Y Ate tl 21 ~ 1990 ~ <<<<<<<<<< Pa'ge Plant: GONNA Steam Generator: A Outage: i998 Res.
OD ( eneral) - % PA LOCATION (28 28-39 48-59 68-69 79-79 88-89 >89 TOTAL HTS PF 8 8 8
2. HTS HID 21 9 21 HTS SF 9 8
4. HTS-H1 1
5. H1 8
6. H1-H2 8
7. H2 8
'2-H3
8. 8 8
9. H3 8 8
18. H3-H4 8 8
11. H4 8 8
12. H4-H5 9 8 13 H5 8 8
'4.
H5-Hb 8
15. H6 8 8
16. >H6 8 8
17. AVB1 8 1
18. >AVB1 8 8
19. AVB2 8 2 28, >AVB2 9 8
21. >AVB3 8 8
22. AVB3 8 5
23. >AVB4 8 *8 24, AVB4 8
25. >C6 8
26. C6 8 8
27. C6-C5 8 8 28I C5 8 9 29 C5-C4 8 8
39. C4 9 9 C4M 8 8
32. C3 8 8 C3"C2 8 8
34. C2 9 8
35. C2-C1 8 8
36. C1 9 8
37. C1-CTS 8 8
38. CTS SF 9 8
39. CTS HlD 2 8
48. CTS PF 8
41. OTHER 8 8 TOTALS : , 24 4 12 8 8 8 8 8 PERCENT: 69.8 19.9 M.9 9.8 8.8 8.9 9.8 8.8 Table 3 (Cont'd)
Page 32 of 69
soteLo RN TUBAN <T<t) <VER 5 0) 4i+OOO Monday'Pe < 1 25e < <PO <<41 27 PH 1041 10 Page P anl t: G E NNA Steam Generator: B Outage: 1998 Res.
DENT VOLTS LOCATEON <6.8!ij 6 gg ll 12.!ij<3 1 18.88-2 3!ij.88-5 >59.99 TOTAL HTS PF g !ij !ij 8 8 8 HTS NED 7<gj 2!d6 95 78 25 <3 474 4 ~ HTS SF 38 17 6 4 2 59 4 ~ HTS-Hl g 1 1 8 !ij g
5. Hl 8 g '2
6. Hl-H2
7. H2 13 1
1 4 8 8
5 3
ll 1 4
8
"!ij 19 8 ~ H2-H3 g 8 <3 rg 8 g 8 H3 <3 8 8 rij 4
18. H3-H4 <3 g g !ij 8 8
11. H4 18 8 1 8 21
]2~ H4-H5 2 g 8 8 8 !ij 13." H5 !ij 4 1 rij rij 5
14. H5-H6 11 15 3 8 8 31 15 ~ H6 6 17 5 6 1
16. )H6 15 19 8 4 g 38
17. AVBl 8 8 !ij !3
18. >AVBl !ij g 8 8 !9 g
19. AVB2 <2$ 8, !ij g g !iS
~~rjj, >AVB2 <3 ig g rij
>AVB3 8 8 8 8 !ij 8 AVB3 !ij 8 8 g 8 g
~O ~ >AVB4 rg <3 g 8 <3 24 ~ AVB4 8 g 8 !ij 8 8 8
25. >C6 36 16 2 9 73 C6 8? 2 2 7 7 2rtj 27 ~ C6-C5 1 8 1 1 7
28. C5 ? 8 8 8 C5-C4 !ij 8 g r 8 8 38.
'T C4 4 1 8 <9 g g 5 t C4-C3 8 1 8 8 8 g 1 C3 C3-C2 8 8 i8 1 8 2 g 8 g 8 1 <3 1
34. C2 1 1 1 1 g 8 C2-Cl 1 8 1 Iij 5
~6. Cl 8 1 <ij gj 14
37. Cl-CTS 4 8 8 v3 8 !ij 4
38. CTS SF 58 5 g tg fcj 97
- 39 CTS NED
~ 85 186 2g 1 I/I
48. CTS PF 8 r g 8 8 jYj
41. OTHER 8 8 8 8 8 8
'192
<8 TOTALS 315 585 156 128 71 25 PERCENT: 26. 4 42 4 ~ 13. 1 18.1 6.8 2. 1 Table 4 Page 33 of 69
~ soon'I< TU<<A<t<Ttl< tvN 5.0)eeoeoo <<o<<day t<t< i< 25e <09<< <<i<27 p<t ooeooe Page P 1 an Outage:
t- G INNA Steam Generator: B 1998 Res.
OBSTRUCTED M I LS LOCATION <618 618-679 688 699 7i38 719 728 739 )73/ TOTAL HTS PF rd g 8 td g
~ ~ HTS MID. g <3 g !3 8 <3 8 g g 4 ~
HTS SF HTS-H1 <ij g 8 g
<3
!3 '48 8 4
5. Hi !ij 8 !ij 8 <3 1 1 6 Hi-H2
~ 8 8 g <3 1 1
7. H2 <3 g <3 ig 8 gj
8. H2-H3 g <3 8 g g H3 !ij rij 8 rd g <3 1!3. H3-H4 g 8 <3 re <ij g
11. H4 <3 g !ij !ij 8 g
12. H4-H5 g 8 8 8
'3
<ij <3 H5 g g 8 <3 8 g rij
14. H5-H6 .g 8 8 8 <3 rd g,
15. H6 ig g rd 8 8 8
16. >H6 8 8 8 g !if 8 <3
17. AVB1 r 8 <3 8 8 8 8
18. >AVBi 8 8 8 8 8 g 8
19. AVB. g 8 r<<j 8 8 rd tij 2g, >AVB2 8 <3 <3 <3 8 !ij
)AVB3 !ij 8 8 g !ij 8 8
~ ~ ~ AVB3 8 g !3 <3 1 8 1
>AVB4 g re g g 8. 8 rd AVB4 8 8 <3 <d 8 8 8
25. >C6 8 2 2 8
26. C6 g g g g !3 8 8 27 C6-C5 g !3 g 8 rd g 8
'8.
C5 8 8 g 8 8 8 C5-C4 8 8 g 8 g <3 3g. C4 " g 8 8 g 8
31. C4-C3 ig 8 g 8 8 td C3 g g <3 e 8 !ij !3 C3-C2 g g g i3 !ij g <3 34 ~ C2 8 <3 8 8 td 8 8
35. C2-C 1 8 g 8 g g 8
>6. Ci 8 8 8 8 <ij g <3 w'7 ~ C1-CTS rd g 8 8 8 <3
38. CTS SF 8 8 8 8 8 <3 g CTS MID g 8 g g g rd g
48. CTS PF 8 g g 8 8 rd g
41. OTHER 8 8 8 8 8 g <3 TOTALS <3 PERCENT- 8.!3 8.8 13 3
~ 13. 3. 28. <3 53. 3 Table 4 (Cont'd)
Page 34 of 69
l Rrt<C TU<<AN<T<rr <VCR, 2 rrr>>>>>><<>>>> Hond>>Y Aria'r t 2Jq t<r<<rr O>><22 rrrr >>>>>>>>>>>> ~ >>>>>>>>>> Page Plan t -'
INI jA Steam Generator: B Outage- 1998 Res.
BfJLGES VOLTS LOCATION f 18 ~ gg } tjf ~ !if<if 1 2<if, <3<3 ~<3.88-3 > ~V. 99 TOl AL
i. HTS PF HTS MI D g
8 rif g 8
8 8
td
!ij 8
2 3e HTS SF tif g <d td tjj HTS-Hl !d <3 9 8 1 1 5 ~ Hi g !ij 8 8 tg g
6. Hi-H2 g g 8 8 9 8
7. H2 g g <3 <3
8. H2-HZ g !d 9 8 8 tif 9 ~ H~ !ij g 8 !ij
19. HZ-H4 8 !ij 8 8 g !3!
11. H4 g rd rd 8 2 H4-H5
~ !3 <3 rd tif <3 td 1 ~. H5 8 !ij g 8 !cf
14. H5-H6 g 8 8 !d g !if
15. H6 g g <3 8 g <d
16. >H6 8 8 8 8 8 17 AVB}
~ 8 g g 8 <3 9
18. >AVB} g <3 8 8 g
19. AVB2 rd g 8 <8 8 g 2g. >AVB2 !ij 8 9 8 8
21. )AVB3 <3 tif rd g 8 22 AVBZ
~ rd <3 <3 rd
~~~ ~ >AVB4 g cd g <ij 8 8 24 AVB4
~ g rd 9 8 8 25 )C6
~ g 8 8 g g 8
26. C6 8 8 8 <3 8 8 C6-C5 !d g 8 <8 <3
28. C5 8 g 8 8 g 8 C5-C4 8 !ij g 8 g rd a<3. C4 8 g 8 9 9 8 C4-C3 8 g 8 O~ ~ C3 <3 8 8 8 9
~~~~ s CZ-C2 <3 8 8 8 8 <3
>4. C2 8 9 !3 <d
35. C2-C 1 <3 g w6. Cl g g g g g Z7 Ci-CTS
~ g rif !t!f 9 w8. CTS SF g 8 9 tif g CTS MID g 8 8 8
48. CTS PF 8 8 8 8 8 <3
41. OTHER g g ii) 8 TOTALS g g 8 PERCENT- 8.8 66 7 ~ !3. 8 tif, g Table 4 (Cont'd)
Page 35 of 69
I
>>>>>>>>>>>> ROLC TUQ4N<TM) <VCR. 5.0)>>>>>>>>>>>> Monday 4pwll 22 y l OOO ~ >>>>>>>>>> Pao e F'I an Outage:
t: 6 INNA 1998 Res.
Steam LTenerator: 8 OD SCC-LOCATION SQR <28 28-39 48-59 68-69 78-79 89-89 >89 TOTAL
1. HTS PF 8 8 8
2. HTS HID 15 21 17
3. HTS SF 8 8 8
4. HTS-Hl 8 8 8
5. Hl 8 9 8
6. Hl-E? 8 8 8
7. H2 8 8 8
8. H2-H3 8 8 8
9. H3 8 8 9
19. H3-H4 8 8 8
11. H4 8 9 9
12. H4-H5 8 8 8
13. H5 8 8 8 14 '5-H6 8 8 8
15. Hb 8 8 8 lb. >Hb 8 8 8
17. AVB1 8 8 8
18. >AVB1 8 8 8
19. AVB2 8 8 8
28. >AVB2 8 8 8
21. >AVB3 8 8 8
22. AVB3 8 8 8
23. >AVB4 ,, 8 8 8
24. AVB4 8 8 8
25. >C6 8 8 8
26. C6 8 8 8
27. CbM 8 9 8
28. C5 8 8 8
29. C5-C4 8 8 8
38. C4 ,8 8 8
31. C4<3 8 8 9
32. C3 8 8 8
33. C3-C2 8 8 8
34. C2 8 8 8
35. C2-Cl 8 8 8
36. Cl 8 8 8
37. Cl-CTS 8 8 8
38. CTS SF 8 8 8
39. CTS HID 8 8 8
48. CTS PF 8 8 8
41. OTHER 8 8 9 TOTALS ': 8 13 15 21 28 17 91 PERCENT: 8.8 1.1 4.4 14.3 lb.5 23.1 22.8 18.7 Table 4 (Cont'd)
Page 36 of 69
sasosa R4Lc TU0ANc TNI (vcR. 5.elssssss Honday Ape 1 l 2$ i TO9e ~ 40%40 Pa'$e Plant- GINNA Steam Gener ator: 8 Outage: l998 Res.
OD ISA X TW LOCATION ADI <28 28"39 48-59 68-69 78-79 89-89 >89 TOTAL 1 ~ HTS PF 8 &
2. HTS HID 126 126
3. HTS SF
4. HTS-Hl
5. Hl 6, Hl-H2
7. H2
8. H2-H3
9. H3
18. H3-H4
11. H4
12. H4M
13. H5
14. H5-H6
15. H6
16. >H6
17. AVB1
18. >AVB1
19. AVB2
28. >AVB2
21. >AVB3
22. AVB3
23. >AVB4
24. AVB4
25. >C6
26. C6
27. C6-C5
28. C5
29. C5-C4
39. C4
31. C4-C3
32. C3
33. C3-C2
34. C2
35. C2-Cl
36. Cl
37. Cl-CTS
38. CTS SF
39. CTS HIO
48. CTS PF
41. OTHER TOTALS: 126 8 8 8 8 9 8 126 PERCENT: 188.9 9.8 9.8 9.8 9.9 8.9 9.9 Table 4 (Cont'd)
Page 37 of 69
~ ooiio ROC TUOAN!TH) <VCR J.elseosso HOnday Arrll 2J> iPPQ ~ ooses Page Plant - 6 INNA Steam Generator: B Outage- 199!3 Res.
OD WASTAGE " % TM LOCATION <28 28-39 48-59 69"69 78-79 8&-89 >B9 TOTAL
1. HTS PF 8 8
2. HTS HID 8
3. HTS SF 9 9 8
4. HTS-Hl 652 74 727
5. Hl 8 8
6. Hl-H2 9 8
7. H2 8 8
8. H2"H3 8 8
9. H3 8 8
18. H3-H4 8 8
11. H4 8 8
12. H4-H5 8 8
13. H5 8
14. H5-Hb 8 8
15. H6 8 8
16. >Hb 9 8
17. AVBI 8 8
18. >AVBl 9 8
19. AVB2 8 8
29. >AVB2 8 8
21. >AVB3 8 8
22. AVB3
23. >AVB4 8 8
24. AVB4 9 9
25. >Cb 8 8
26. C6 9 8
27. C6-C5 8 8
28. C5 8 9
29. C5-C4 8 8 38'. C4 9 9
31. C4-C3 8 8
32. C3 8 8
33. C3-C2 8, 8
34. C2 8 8
35. C2-Cl 8
36. Cl 8 8
37. Cl-CTS 197 118 3B. CTS SF 8 9
39. CTS HID 8 8 8 48 CTS PF 8 8 9 41.
~
OTHER '8 8 TOTALS : 8 768 77 1 8 8 8 8 838 PERCENT: 8.8 98.7 9.2 8,1 9.8 9.8 8.9 8.8 Table 4 (Cont'd)
Page 38 of 69
i
~ sssss RQC 1ESAN<TH) <VCR. 5.4)ssssss Hondsy !!sing'4 l QJ! loSh5 44!25 PH ssssss ssssss Pa'ge Plant - 61NNA Steam Generator: E!
Outage- 199!9 Res.
OD ( eneral) - / TM LOCATlON (28 28-39 48-59 68-69 78-79 88-89 >89 TOTAL HTS PF 8
2. HTS HlD 48 HTS SF
4. HTS"Hl 8
5. Hl 8
6. Hl-H2
7. H2 8
8. H2-H3 8
9. H3 8
18. H3-H4 8
11. H4 8
12. H4-H5 8
13. H5 8
14. H5-H6 8
15. H6 8
16. >H6 8
17. AVB1
18. >AVB1 8
19. AVB2 1
28. >AVB2 8 21 >AVB3 8
'2.
AVB3 1
23. >AVB4 8
24. AVB4 8
25. >C6 8 26 ~ C6 8
27. C6-C5 C5 8 29 ~ C5"C4 8
38. C4 C4-C3 8
32. C3 2 C3-C2 1
'34 ~ C2
35. C2<1 8
36. Cl 4
37. Cl-CTS 2
38. CTS SF 8
39. CTS HID 1
48. CTS PF 41 ~ OTHER 8 TOTALS : 39 7 15 8 8 8 8 8 PERCENT: 63.9 11.5 24.6 8.8 8.8 8.8 8.8 8.8 Table 4 (Cont'd)
Page 39 of 69
4.0 OBSERVATIONS The results of the examination indicate that IGA and IGSCC continue to be active within the tubesheet crevice region on the inlet side of each steam generator. As in the past, IGA/SCC is much more prevalent in the "B" steam generator with 108 new (plus 5 deplugged) IGA indications and 49 new (plus 23 deplugged) IGSCC indications reported. In the "A" steam generator, 16 new IGA indications and 22 new IGSCC indications were reported.
The majority of the inlet tubesheet crevice corrosion indications are IGA/SCC of the mil-annealed 'Inconel 600 tube material. This form of corrosion is believed to be the result of the tubesheet crevices forming an alkaline environment.
This environment has developed over the years as deposits and active species like sodium and phosphate, have reacted, changing a neutral or inhibited, crevice into the aggressive environment that presently exists. Table 5 shows the steam generator IGA/SCC history.
Page 40 of 69
lg GINNA'S STEAM GENERATORS CREVICE CORROSION INDICATION HISTORY B-Steam Generator A- Steam Generator Not A-S/G B-S/G Sizeable 0-254 26-504 51-754 76-100% Total Total March 1979 0 0 2 0 (0) 2 December 1979 5 0 (0) 11 April 1980 19 (0) 31 November 1980 (0)
April 1981 5 (0) 14 February 1982 (0) 13 October 1982 7,(1) 16 59 r
April 1983 11 (3) 3 (1) 15 15 (4) 51 March 1985'7 1984 23 0 (1) 9 (1) 27 (1) (2) 69 February 1986 3 (2) 9 (2) 14 (1) 25 (5) 52 February 1987 82 (17) 1 8 (1) 16 (3) 46 (13) (34) 153 February 1988 22 (3) 0 7 (2) 11 (2) (7) 41 March 1988 1 0 (0) 6 March 1989 150 (14) 35 (2) 79 (8) (24) 268 April 1990 108 (16) 1(2) 8 (3) 8 (6) 32 (11) (38) 157 TOTALS 454 (55) 28 (5) 61 (5) 131 (16) 264 (35) (116), 938 TABLE 5 Page 41 of 69
4.0 OBSERVATIONS CONT Along with IGA/SCC in the crevice, PWSCC at the roll transition appears to have a slight increase in growth during the last operating cycle. This mechanism was first addressed in 1989 and this year there were 23 PWSCC indications in "B" steam generator and 37 PWSCC indications in "A" steam generator. These numbers include tubes that may have PWSCC in combination with IGA or SCC in the crevice.
A large volume, typically <204 TW, wastage type condition exists just above the tubesheet secondary face of both generators. A small percentage of the tubes, generally toward the center of the bundle, have this condition. Several of the tubes did have penetrations >204 TW. One tube in the "B" steam generator was listed for corrective action from this
~ condition. These tubes were essentially unchanged from prior inspections. It is believed that these wastage indications were caused by the original water chemistry when phosphate was used as a buffering medium.
Small indications of probable copper deposits were also found in the tubesheet crevice region randomly located throughout each steam generator.
Page 42 of 69
fl 4.0 OBSERVATIONS CONT Minor denting has been detected at the tubesheet secondary face for many years in both steam generators, primarily on the inlet side. Denting was also detected at the 1st, 2nd and 6th tube support plates randomly throughout the generator, and in most cases was of greater magnitude on size than that at the tubesheet secondary side face. In general, minor distortions of most of the tube support signals were seen.
The denting phenomenon and minor distortions at the tubesheet and support plates can be attributed to secondary side corrosion product buildup in the annular region between the tube outside surface and the carbon steel support member.
Comparisons with previous data indicates that a small increase
~
in the extent or magnitude of denting has occurred from what has been detected by previous inspections.
Indications were detected at the support plates in the cold leg of the "B" steam generator in tube R39-C67. A review of the data base and previous data revealed these indications to be present and were recorded. Examination of these intersections with MRPC indicated shallow indications within the support plates believed to be less than 404 TW. Due to, a distortion of the signal on the bobbin coil examination, this tube was preventatively plugged.
Page 43 of 69
4.0 OBSERVATIONS CONT Additional MRPC at tube intersections in the Hot Leg of both steam generators showed no indications within the support plates. This sample included tubes with and without denting at the support intersection.
In summary, the "A" Steam Generator had 75 tubes that were found to have "new" tubesheet crevice indications. The "B" Steam Generator had 180 "new" tubesheet crevice indications.
There were six (6) tubes in the "A" Steam Generator and two (2) tubes in the "B" Steam Generator recorded with indications at the anti-vibration bar intersections. These indications a
are greater than. 204 but less than the repair limit and have not changed significantly since previous examinations. These tubes will be reexamined at the next inspection to reconfirm no active fretting wear damage mechanism exists. In light of the fact that only a small number of tubes exhibit these indications, AVB fretting wear is not considered to be a major concern at this time but will be monitored for any growth during future outages.
Page 44 of 69
AP 5.0 CORRECTIVE ACTION Table 6 has been generated to identify tubes with crevice indications or with indications which exceed the repair criteria. This table also shows the location and the axial extent of the indication and what corrective action was taken on these tubes. Tubes requiring repair due to hot leg tubesheet crevice indications were identified by the appropriate codes: an absolute drift indication signal (ADI) of the Mix-2 Channel along with the IGA designation and/or quantifiable IGSCC indications on the 400 kHz data.
There were 28 tubes deplugged in the "B" generator in an effort to return them to service. These de-plugged tubes consisted of tubes with tubesheet crevice indications recorded in earlier outages. These tubes were inspected full length to insure no indications existed that would prevent them from being returned to service.
The "A" steam generator had a total of 75 new repairable indications. The "B" steam generator had a total of 183 new repairable indications (not counting the de-plugged tubes).
A Ginna Steam Generator Tube Inspection and Corrective Action History has been tabulated on Table 7.
Page 45 of 69
e" s 1990 Outage Repairable Tubes PLANT'INNA GENERATOR, A TOTAL TUBES'260 OUT OF SERVICE (0): i73
~~ PNSCC 57) r- SCC tSR) i os IQA (f8)
TOTAL TUBES ASSI6HHL 75
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ZHLET tHot Lef)) - h faery Face COLQSS Figure Z
l
<<ssosa RM TllSAN<T<<) <VCR 5 <<) soaoss %+day Ar<'< 1 25'904 <<4 ~ 56 Ptl 101101 asooos f a JJe Plant- GINNA Steam Generatar-'
Outa8e- 199!d Res.
QUERY: Repairable indi cat ians RON COL OUTAGE INDICATION VALUE VOLTS LOCATION IN( 'HES 4 1998 Res. TYPE 1 11. 68 HTS SF -19.98 199<3 Res. ROLL TRANS 8. 58 HTS PF + 2.84 1998 Res. PLUGGED CE-NECH CTB PF 199<3 Res. PLUGGED CE-MECH HTS PF f2 1998 Res. TYPE 1 1. 46 HTB SF -1 Y. !3 199!3 Res. ROLL TRANS . 67 HTS PF 199<3 Res. SLEE VED CE-NELD HTB PF +27.!3<i'd 1998 Res. TYF'E 2. 96 HTS SF -19. 88 1998 199!3 Res.
Res. SLEEVED 1
ROLL TRANS CE-<AELD
l. 87 HTB HTS PF PF
+ 2. E!8
+27.88 f,3 1998 Res. DISTORT ROLL 5. 34 HTS SF 1'/. 3!d 1998 Res. SLEEVED CE-MF.'LD HTS PF +27.!dg 14 199!ii Res. TYPE 1 l.4.
8.
HTS BF '-1'i.
88 199!i! Res. ROLL TRANS 67 HTS PF + ~ 73 199!3 Res. PLUGGED CE-NECH CTS PF Res.
199!3 16 1998 f 99!d Res.
Res.
PLUGGED OD WASTAGE OD SCC ll /
CE-NECH 26 %
TN TN 1
8. 39 83 HTS HTB HTS PF BF SF
+ 8 4!d
-1 . 58
~
~
1998 Res. SLEEVED CE-WELD HTB PF +27. d<<if 16 1998 Res. -1 7. 2<3 1998 1998 Res.
Res.
TYPE 1 ROLL TRANS SLEEVED CE-CRV
l. 57 3a 17 HTS HTS HTS SF PF PF
+ 2.55
+27.!dg 17 1998 199!3 Res.
Res.
OD WASTAGE TYPE 1 11 / TW 1.24 3.58 HTS HTS SF SF g 4g
-19 88 1998 1998 Res.
Res.
ROLL TRANS SLEEVED CE-MELD
l. 14 HTS HTS PF PF
+ 2.56
+27.88
~
18 1998 Res. DISTORT ROLL 3. 79 HTS SF -19.58 199!3 Res. SLEEVED CE-MELD HTS PF +27. 88 18 1998 Res. TYPE 1 3. 62 HTS SF -19.58 199<3 Res. ROLL TRANS 1. 48 HTS PF + 2.46 199!3 Res. SLEEVED CE-CRV HTS PF +27 8!d ~
199<i! Res. DISTORT ROLL 3. 82 HTS SF -19.68 1998 Res. SLEEVED CE-WELD HTS PF +272.:>'rd <j! <0 19 1998 199rd Res.
Res.
OD WASTAGE DISTORT ROLL 1 ~
/ TW 3 71~
3. 49 HTS HTS SF SF -1~.58
~
1998 Res. PLUGGED CE-NECH CTS PF 1998
'7g 199<3 Res. PLUGGED CE-NECH HTB PF 19.58 Res. TYPE 1 2. 54 HTS SF 199$
199<3 Res.
Res.
ROLL TRANS SLEEVED CE-NFLD
l. 82 HTB HTS PF PF
+ 2.59
+27.!d8
.8 199<3 Res ~ OD <general) ADB 2 6 ">
~ HTS SF 16. 6!d 199!d Res. OD ISA ADI 1. 8 HTS PF + 5.4Id 199!i! Res. SLEEVED CE-WELD HTB PF +2/. 88 21 1998 Res. OD SCC 73 % TM 8. 61 HTS SF -14. 38 1998 Res. OD ISA ADI 1. 53 HTS PF + 5 24 ~
1998 Res. SLEEVED CE-MELD HTS PF +27. rd<d 22 1998 1998 Res.
Res.
OD SCC OD SCC 73 89 / TW
/ TN 8. 36
8. 55 HTB HTS BF SF 7.
f2, 4rd 7!3 1998 199!3 Res.
Res.
OD IGA SLEEVED ADI C E-MP.'LD
l. 31 HTB HTS BF PF
-17. 4r<.!
+27 gri!
25 1998 Res. OD BCC 44 / TW 8. 32 HTS SF -16.85 1998 Res. OD IGA ADI 6. 74 HTS SF -1 8. 25 1998 Res. SLEEVED CE-WELD HTB PF +27 gg ~
28 25 1998 Res. OD IGA ADI 6. 83 HTS SF -1 8.'>4 1998 Res. SLEEVED CE-WELD HTB PF + 7. 88
~
26 199<3 Res. OD IGA ADI 4. 88 HTS SF -14. 8'>
1998 Res. SLEEVED CE-NELD HTS PF +27 88 ~
1998 Res. PLUGGED CE NLD S HTS PF 1998 Res. PLUGGED CE-NECH CTS PF 27 199!3 Res. OD IGA ADI 4. 35 HTS SF 6. 53 199rd Res. OD IGA ADI 3 42
~ HTS SF -14. 16 199!3 Res. SLEEVED CE-MELD HTS PF +27. 88 27 1998 Res. DISTORT ROLL 2. 91 HTS SF -f 9. 48 1998 1998 Res.
Res.
ROLL TRANS SLEEVED CE-WELD
l. 44 HTS HTS PF PF +27.88 27 1998 Res. TYPE 1 3. 49 HTS SF -19.48 1998 Res. ROLL TRANS 2 g5 HTS F'F 2 ~ 42 Table 6 Page 47 of 69
~ oosss <<<<lg T<<<<A<<<T<<> <VCR, a.elssesos <<a<i<<ay ~< <1 2J< <Pate <<4< JP P<< 0%%0%0 Page Plant: B INNA Steam Generator: A Outage- 199!d Res.
QUERY: Repairable Indications ROW CQL OUTAGE INDICATION VALUE VQLTB LOCATION INCHEB 1998 Res. SLEEVED CE-CRV HTB PF +27 8!3 ~
27 199i3 Res. OD (general) ADS 2s 27 HTS SF 7. 73 1 99~8 Res'. OD (qeneral) ADS 3.9" HTS BF -15. 21 1998 199~<.!
Res.
Res.
OD SCC OD SCC 55 7"
// TN TN
<3. 56 HTS SF g 58 HTB SF
17. 52
17. 97 1998 1998 Res.
Res.
OD ISA PLUGGED ADI CE-MECH
i. 16 HTS PF CTS PF
+ 3.87 1998 Res. F'LUGGED CE-MECH HTS PF
'Y,9 28 1998 Res. TYPE 1 3. 54 HTS SF -19. 37 1998 Res. ROLL TRANS 2 98 HTS PF
~ + 2 2? ~
1 99!d Res. SLEEVED CE-(;RV HTS PF +27 gg 199!3 Res. TYPE 1 5. 68 HTS SF -19.52 1998 Res. ROLL TRANS 3. BS HTS F'F 2 46
~
199!3 Res. SLEEVED CE-CRV HTS PF +27.
- i E! 88 199<3 Res. OD IGA ADI 3. 88 HTS SF 48 199!d 199g Res.
Res.
OD WASTAGE SLEEVED 14 CE-NELD
/ TN ..77 CTS SF HTS PF
+ 2.78
+27 88
~
14 / TN
~
1 99!3 Res. OD WASTAGE 6. 1<3 HTS SF + !i>.56 1998 Res. OD IGA ADI 4. 58 HTS SF -15. 4!d 199!d Res. SLEEVED CE-NELD HTS PF +27 8Id ~
34 1 99!i> Res. OD WASTAGE 19 % TN 1. 63 HTS SF + ..69 199<d Res. OD iWASTAGE 29 % TM 2. 76 HTS SF + 2.41 1990 Res. 2, 12 HTS SF 1.99 1998 1998 Res.
Res.
OD QD OD WASTAGE SCC WASTAGE 24 83 21
/
TN TW TN
1. 8!d HTS SF
1. 48 CTS BF
+
-18
+ 2.88
'3 1 99<3 Res. PLUGGED CE-MECH CTS PF 1998 Res. PLUGGED CE-MECH HTB PF 38 34 199!d Res. TYPE 1 5. 68 HTS SF -19. 5V 1999< Res. ROLL TRANS 1. 25 HTS PF 199!i> Res. SLEEVED CE-MELD HTS PF +27. 88 18 35 199<i!
199!3 Res.
Res.
OD OD WASTAGE WASTAGE 14 % TN 8% TN
i. 41 HTB SF
4. 28 HTS SF
+ 3.85
+ =..':~a 199g Res. OD IGA ADI 4. 18 HTS BF 3. Yi 199!3 Res. OD NASTAGE 17 % TN 1. 58 HTS SF + 2.7d 1998 199<3 Res.
Res.
OD OD WASTAGE NASTABE 19 14
// TWTN
8. 74 HTB SF
8. 79 HTS SF
+
+
3e38 2.48 199<9 1 99<3 Res.
Res.
OD PLUGGED WASTAGE 15 CE-NECH
/ TM i. 88 CTS BF CTS PF
+ 3.88 1998 Res. PLUGGED CE-NECH HTS PF 36 199!3 Res. DISTORT ROLL 2. 85 HTS SF -19. 88 i Res. SLEEVED CE-WELD HTS PF +27.!38 18 37 1998 Res. OD IBA ADI 1 75 HTS SF
~ -15.98 199!3 Res. SLEEVED CE-WELD HTB PF + 7 88
~
~
37 1998 Res. OD WASTAGE 26 % TW S. 8!d HTS SF + 2 85 ~
1998 Res. DISTORT ROLL 6. 59 HTS SF -19. ~2 199!3 1998 Res.
Res.
OD WASTAGE PLUGGED 25 CE-MECH
/ TW 4 75 CTS SF
~
CTS PF 2 ~ 3!3 1998 Res. PLUGGED CE-MECH HTS PF 16 38 1998 199!d Res.
Res.
OD WASTAGE OD IBA 16 / TW ADI 1:34 HTS SF
1. 58 HTS SF
+ i.
11. 3!i>
1<3 199< Res. PLUGGED CE-MECH CTS PF 199!3 Res. PLUGGED CE-NECH HTS PF 48 199<3 Res. DISTORT ROLL 2. 14 HTb, SF -1'/ ~ .,g 199!3 Res. SLEEVED LEAKLIM HTS PF . <iS!i$
17 48 1998 1998 Res.
Res.
QD WASTAGE QD WASTAGE 19 15
// TW TW 1 . 36 HTS SF
1. 23 HTS SF + 3 .28
.69 1 99<i!
199!3 Res.
Res.
OD WASTAGE TYPE 1 7 / TW 8. 63 HTS SF
4. 61 HTS SF
+ g . '<<8
-19 38 ~
1 99<3 Res. ROLL TRANS 2 77 HTS PF 2 7 / TW
~
1998 Res. OD WASTAGE 3. <35 CTS SF + . <dg 1998 Res. PLUGGED CE-NECH CTS PF 1998 Res. PLUGGED CE-MECH HTS PF 4!d 1998 Res. OD IGA ADI 2.$ 3 HTB BF 6. V4 1998 Res. OD IGA ADI 2 ~ 32 HTv SF -13. 6V 199<d Res. SLEE.;',VED CE-NELD HTS PF + 27 8!ij 199<d 1998 Res.
Res.
DISTORT ROLL SLEEVED CE-WELD
l. 52 HTS SF HTS PF +27. 88
~
-19. 9<3 Table 6 (Contid)
Page 48 of 69
oooo>>>> <<<<L! TU<<A<<<T<<< <VCR I)so>>os>> <<o<<<<sy <<ps<< 2X< <<<0<< OS<50 pH os>>os>> *oooo>> Pa8e Plant: 6 INNA Steam Generator: A OU'tage 199!ij Res.
QUERY: Repaivab le Indicat iona ROW COL OUTAGE INDICATION VALUE VOLTS LOCATION I NCHES 1998 Res. PLUGGED CE MLD S HTS PF 1999 Res. PLUGGED CE-MECH CTB PF 15 44 1998 199!<.j Res.
Res.
QD WASTAGE QD SCC 24 96
// TW TW
!d.
<d.
76 57 HTS HTS SF SF
+ 3.3)
2. 79 1998 Res. PLUGGED CE-MECH CTS PF 1998 Res. PLUGGED CE-MECH HTS PF 24 44 1998 Res. OD WASTAGE 15 / TW 1. 51 HTS SF + 1.61 199<3 Res. QD WASTAGE 7% TN 3. 68 HTS SF + 1.11 1998 Res. DISTORT ROLL 6. 34 HTB SF -1 <<. 29 199!8 Res. SLEEVED LEAKLIM HTS PF +27 Pljg 14 45 1998 199!3 Res.
Res.
OD WASTAGE OD SCC 3 /
64 % TN TW 8 67~
8. 58 HTS HTS SF BF
+
~
3.44 4, 4g 1 99!ij Res. SLEE VED CE-WELD HTS PF +27. 88 15 45 1998 Res. OD SCC 81 % TN 3. 86 HTS SF -11. 4!3 Res. +27. 8!ij 14 46 1998 1 99<j 19Mj Res.
Res.
SLEEVED QD WASTAGE OD WASTAGE 2//
CE-MELD 18 TN TW l.
i.. 18 16 HTS HTS HTS PF SF SF
+ 3.48
+ 1.5S 199<3 Res. TYPE f. 4. 53 HTS SF 19. 98 199!3 Res. ROLL TRANS fg 7g HTS PF + 2.48 199!3 Res. SLEEVED CE-MELD HTS PF +27. 88 47 1998 Res. QD WASTAGE 14 / TN 2. 26 HTB SF + 1.59 1998 Res. OD WASTAGE 11 % TW 2'15 HTS BF ~ 8.8d 1998 Res. TYPE 1 3. vdl HTS SF -28.88 199!d Res. ROLL TRANS 2 99~ HTS PF 2 ~ 43 199!3 Res. SLEEVED CE-WELD HTS PF +27. 89 1998 Res. PLUGGED CE NLD S HTS PF 199vd Res. PLUGGED CE-MECH CTS PF 13 47 1998 199<ij 1998 Res.
Res Res.
~
OD WASTAGE OD WASTAGE TYPE 1 8//
15 TW TW
1. 68 1 ~
4. 14 25 HTS HTS HTB SF SF SF
+ 3.11
+ 1.86 19.!32 f998 Res. ROLL TRANS 7. 85 HTS PF + 2 4!d 199vd Res. PLUGGED CE-MECH CTS PF 1998 Res. PLUGGED CE-MECH "HTS PF 21 47 199<3 Res. OD WASTAGE 17 % TW 2. 58 HTS SF + f.14 1998 Res. TYPE 1 2. 57 HTB SF 19. 8 1998 Res. ROLL TRANS 5. 68 HTS PF 1998 1998 Res.
Res.
OD WASTAGE OD !AASTAGE
'19 /
12 % TN TN 8. 7>
1. 78 CTS CTS SF SF
+ 1.7'
g. 7!d 1998 Res. PLUGGED CE-MECH CTS PF 1998 Res. PLUGGED CE-MECH HTS PF 34 47 1998 Res. TYPE 1 5. B2 HTS SF -19. '>7 49 199<3 1998 Res.
Res.
ROLL TRANS SLEEVED CE-MELD
i. 44 HTS HTB PF PF +27. 88 1 48 1998 Res. OD SCC 78 % TN !3 ~ 53 HTS SF -19. 59 1 99!3 Res. PLUGGED CE-MECH CTS PF 1998 Res. PLUGGED CE-MECH HTS PF 1 99!ij 199<3 Res.
Res.
OD WASTAGE QD IGA ADI
/ TW 8. 59
5. 94 HTS HTS SF SF
+ 3.6vd
5. 98 1998 Res. PLUGGED CE-MECH CTS PF 1998 Res. PLUGGED CE-MECH HTB PF 19 49 1998 1998 Res.
Res.
OD WASTAGE OD IGA 19 ADI
/ TW 6. 18 2, 54 HTS HTS SF SF
+ 1.66
-11.52 199!3 Res. PLUGGED CE-MECH CTS PF 1998 Res. PLUGGED CE-MECH HTS PF 6 58 199!3 Res. ROLL TRANS HTB'PF + 2.46 1999 Res. TYPE 1 4. 18 HTS SF -28.18 1998 Res. SLEEVED CE-MELD HTS PF +27 ~ <dg 24 51 1998 Res. ROLL TRANS 3. 81 HTS PF 2 ~ 43 199<3 Res. OD WASTAGE 18 % TN <9. 88 HTS SF 1.98
19. 9<3 199<3 Res. TYPE 1 HTS SF 1 99<d Res. SLEEVED CE-MELD HTS PF 7 88
~
52 1998 Res. OD SCC 62 % TN <3. 39 HTS SF -16.18 199<3 1998 Res.
Res.
OD SCC OD SCC 45 58
// TW TN 8 55
~
8 45
~
HTS HTS SF SF
-17. 3' 17 ~ 9<3 1998 Res. PLUGGED CE-MECH CTB PF 199vd Res. PLUGGED CE-MECH HTS PF 6 52 f 99<ij Res. ROLL TRANS 7. 48 HTS PF 2 ~ 4<d Table 6 (Cont'd)
Page 49 of 69
R<<l C TU<<4<<< TH) <VCR 5 0) It1010 <<Onday 4<< !1 2Ji <090 04<JAN P<< asosts 'a9e Plant- G INNA Steam Gener a>or - A OUta9e 1998 Res.
QUERY: Repairable Indications RON COL OUTAGE INDICATION VALUE VOLTS LOCATION IN(."HEB 1998 Res. TYPE 1 2. 53 HTS SF -28. 1!3 199i3 Res. SLEEVED CE-NELD HTS PF +27 8!d 3 / TW
~
199!3 Res. OD WASTAGE 1 .!33 HTB BF + 8.58 199!3 Res. OD SCC 88 / TN S. 44 HTS SF 16. 7'd f 99!d Res. SLEEVED CE-WELD HTB PF +27. 8!d 199i<< Res. PLUGGED CE NLD S HTS PF 1998 Res. PLUGGED CE-MECH CTB PF 53 199!d Res.
1 99!d Res.
OD SCC SLEEVED 77 CE-l4ELD
/ TW S. 46 HTS HTB SF PF
15. 7!d
+27.88 27 54 199!d Res. ROLL TRANS 9. 29 HTS PF + 2.58 1998 Res.
1998 Res.
OD WASTAGE TYPE 1 13 I TW 1. 55
4. 34 HTS HTS SF SF
+ 1 2~
-19 frigg
~ 78 199!d Res. SLEEVED ~ CE-MELD HTS PF +27 ~ !i>8 54 199!3 Res. OBSTRUCTED 748 I1ILS HTS SF +34. 4!3 1 99!d Res.
1 99!3 Res.
OD SCC SLEEVED CE-!AELD I Tl4 8. 64 HTB HTS SF PF
-17.18
+27 egg 55 1998 Res. OD SCC 32 / TW g, 2B HTS SF -17.68 199!3 Res. QD SCC 32 / TN !3. 38 HTB SF -fS.48 1 99!d Res. SLEEVED CE-WELD HTS PF +27 55 1998 Res. OD NASTAGE 4 / TN 8. 89 HTB SF + 1 5!3 31 / TW
~
1 990> Res. OD SCC !3. 31 HTS SF -16.28 1998 Res. SLEEVED CE-!AELD HTS PF +27 gg 34 56 1998 Res. OD SCC 95 % TM <3. 43 HTS BF -fB.SS 1998 Res. SLEEVED CE-NF.'LD HTS PF +27.88 18 57 1998 Res.
1998 Res.
OD WASTAGE OD WASTAGE
. 16 15
// TW TM
5. 38 2.!36 HTB HTS SF + 2.81 46 1998 Res. OD IGA ADI 4. 67 HTB -17. 87 1998 Res.
199!8 Res.
OD iAASTAGE PLUGGED 5%
CE-MECH TW l. 5<d'TS CTB PF
+ 1.71 1998 Res. PLUGGED CE-MECH HTS PF 57 1998 Res.
1998 Res.
OD WASTAGE OD WASTAGE 31 I/ TN T!A
1. 37 S. 7S HTS HTS SF SF 1.
+ 1.48
'<<2 1998 Res.
1998 Res.
OD WASTAGE DISTORT ROLL 5 / TW 4. 81
8. 28 HTS HTB SF BF
+ 1 . 8!8 19 44 ~
1 99!d Res. ROLL TRANS 5. 82 HTB PF 199!d Res. SLEEVED CE-MELD HTS PF +27 ~ SS 34 57 1998 Res. QD SCC 96 % TM !d. 65 HTS BF 17 ~ 35 1998 Res. SLEEVED CE-WELD HTS PF +27. <dg f99g Res. PLUGGED .CE WLD S HTB PF 1998 Res. PLUGGED CE-I'1ECH PF 3f 68 1998 Res. TYPE 1 2, 54 CTS HTB SF - 1'<<. 83 1998 Res. ROLL TRANS 1. 94 HTS PF + '='. 34 1998 Res. SLEEVED CE-MELD HTS PF +27. 88 63 1998 Res. OD WASTAGE TW 7 17
~ HTS SF + 1.52 199!i> Res. TYPE 1 2. 56 HTB SF 19. 81 199 Res. ROLL TRANS 2. 57 HTS PF +
1998 Res ~ SLEEVED CE-WELD HTS PF +27 ~ 8!d 63 1998 Res. TYPE 1 4. 76 HTS SF -19. 32 1998 Res. OD IGA AD I 8. 41 HTS PF + 3.81 1998 Res. ROLL TRANS 1. 73 HTS PF 2 34
~
1998 Res. PLUGGED BAREHOLE HTS PF 1998 Res. PLUGGED CE NLD S CTS PF 3f 66 1998 Res. DISTORT ROLL 1. 69 HTS SF 19. 58 1998 Res. PLUGGED BAREHOLE HTS PF 1 99!3 Res. PLUGGED CE NLD S CTS PF 67 199<3 Res.
1998 Res.
OD WASTAGE IGA 13 ADI
/ TW 2. 6f
5. 22 HTS HTS SF BF g 58
-16. 78 4 2 6S 1998 Res.
f 99!d Res.
QD SLEEVED QD SCC CE-WELD 67 I TW 1 ~ 69 HTS HTS PF BF
+2 j. <d<d 199<3 Res. SLEEVED CE-MELD HTS PF +.<7 !d<d 68 Res. OD (general) AD& 5 4~~ HTS bF 1 Et. 2!i>
f 99!3 Res. OD SCC 78 /. TW S. 98 HTS SF -19.98 1998 Res. SLEFVED CE-WELD HTB PF +27.8Ii!
7<d 199q~ Res.
1998 Res.
OD SCC SLEFVED CE-l4ELD
/ TW !d. 91 HTS HTB SF PF
-19 ..5~d
+2/. Y<'<
16 74 1998 Res. QD SCC 28 / TM S. 92 HTS SF -18. ScI 1998 Res. SLEFVED CE-WELD HTS PF +27 88 Table 6 (Cont'd)
Page 50 of 69
~ oosss NLC TUOANCTH) !VCR 5.0)ooeoae Honday A! ail QJi !OOO 04sJO PH aaoaae 04110% I age Plant: 6 INNA Steam Generator: A Outage: 1998 Res.
QUERY: Repairable Indications RON COL OUTAGE INDICATION VALUE VOLTS LOCATION INCHES 17 74 1998 Res. OD IGA ADI 5. 68 HTS SF -1&. 58 1998 Res. SLEEVED CE-MELD HTS PF +27.!3!8 18 74 1998 Res. OD IGA ADI 4. 47 HTS SF -18. lid 1998 Res. SLEEVED CE-MELD HTS PF ~27.<88 TOTAL TUBES FOUND 75 TOTAL INDICATIONS FOUND 272 TOTAL TUBES IN INPUT FILE 75 TOTAL TUBES INSPECTED 75 Table 6 (Cont'd) page 51 of 69
$ 990 Outage Repairable Tubes PLANT: 6INMA 6ENERATOR 8 TOTAL TUBES: 3260 OUT OF SERVICE(0)l 3i2
~
X~
~ RCCC 8?S)
SaataSe 0)
$ >SCC Pg a- ISA (ttS)
H Cold Ley Indication 0) o BN Sleeve 0)
TOTAL TUKS ASSIBHER HX
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I%ET tHot Leg) - Pr isa'y Face COLQtS Figure 3 rr s s
>>>>>>>>>>>> ROtc<< TV<<AN <T<<) <VER 5 <<)>>>>>>>>>>>> ~<<>>Y AP<'< 1 25'11$ N<51 P<l >>>>>>>>>>>> >>>>>>>>>>>> Page Plant: G INNA Steam Genevato<': E<
Qutage- 199!3 Res.
QUERY: Indications on Tubes De-p lugged in 1998 ROM COL OUTAGE INDICATION VOLTS LOCATION INCHEB 15 199!d Res. OD IGA ADI 5 42 HTS BF
~ -15.55 199!d Res. SLEEVED CE-WELD HTS PF, +27.99 16 1998 Res ~ OD IGA ADI 6. 47 HTS -15. 49 199!3 Res. SLEEVED CE-MELD PF SF'TS
+27. <39 25 1998 Res. OD IGA ADI 1 i.96 HTB BF 16 ~ 62 Res. 59 / T!A -18.89 27 199!<!
199!3 1998 Res.
Res.
OD SCC SLEFVED OD IGA CE-NELD ADI
!i~. 77 HTS SF HTB PF
7. 66 HTS SF
+27
-15. o5
'8 1998 Res. QD SCC TN !d. SB HTS SF 1E! . '<!!3 199!3 Res. SLEEVED CE-WELD HTS PF +27.88 i<3 199!! Res. OD IGA ADI 8. 8<3 HTS SF -15.94 1998 Res. SLEEVED CE-NELD HTS PF + . 7. <i!<'!
38 1998 Res. OD SCC 69 / TM 2. 84 HTB SF - f8 jg 69 / TN
~
1998 Res. QD SCC 2. 55 HTS SF 16. )9 199!d Res. SLEEVED CE-WELD HTS PF +27. Si~!
Z5 199!3 Res. OD SCC 69 / TN ~. 96 HTS SF 18. '>!3 1998 Res. OD SCC 55 / TN 1. 58 HTS BF -17.18 1998 Res. SLEEVED CE-WELD HTS PF +27.88
>6 199~i! Res. QD SCC 17 % TN 8. 84 HTS SF -17.49 199!3 Res. SLEEVED CE-MELD HTS PF +27. Q!9 48 199!3 Res. OD IGA ADI 6. 74 HTB SF 6. 86 199!3 Res. SLEEVED CE-WELD HTS PF +.7. 98 49 199!d Res. OD lGA ADI 6. 45 HTB SF B. 83 1998 Res. SLEEVED CE-WELD HTS PF +27. 9<d 5!3 199!3 Res. OD SCC 72 / TM 8. 8!3 HTS SF -17. 14 1998 Res. QD SCC 69 / TN 8. 62 HTS SF -11. 91 199!3 Res. SLEEVED CE-NELD HTS PF +27. 88 51 199!d Res. OD SCC 72 / TN 8. 58 HTS SF -15. 87 1998 Res. OD IGA ADI S. 77 HTS BF 1>. 96 1998 Res. SLEEVED CE-MELD HTS PF +27 <3<3 54 1998 1998 Res.
Res.
OD BCC OD SCC 45 /
44 / TN TW g 5Z HTB SF
<d, 72 HTS SF
. -16.52
-12.99
~
199!3 Res. SLEEVED CE-WELD HTS PF +27. 88 56 199!3 Res. OD SCC 77 % TW 2. 11 HTS SF -18. 95 199<3 Res. SLEEVED CE-NELD HTB PF +27. 88 61 1998 Res. OD SCC 69 / TN 1. 52 HTS SF -13. 96 1998 1999 Res.
Res.
QD SCC SLEEVED 64 /'W CE-MELD
1. 55 HTS BF -a4: B6
+27 9!3 HTS PF 75 / TW -16'.62 ~
63 1999 Res. OD SCC 75 HTB SF 8 ~'gz 199!d Res. OD SCC 59 / TN a. HTS SF -18. 45 199 Res. SLEEVED CE-WELD HTB PF +27 gg ~
65 199!i> Res. OD SCC 74 % TN 8. 91 HTS SF -18. >2 199!d Res. OD'CC 76 / TW 8. 88 HTS SF 15, 26 199!3 Res. SLEEVED CE-WELD HTS PF +27.!dg 66 199!3 199<3 Res.
Res.
OD SCC OD SCC 65 /
56 % TN TM 8. 9~ HTS SF
1. 18 HTS SF
-16.79
-15 1998 Res. SLEE'.VED CE-NELD HTS PF +27. <3<d 67 1998 Res. OD SCC 68 % T<A 8. 78 HTS SF -16 57 68 / TN
~
1998 Res. OD SCC 8. 82 HTS SF -17.41 1998 Res. SLEEVED CE-NELD HTS PF +.7. 99 68 1998 1998 Res.
Res.
OD SCC QD SCC 65 /
72 % TN TW !d. 64 HTS SF
1. 16 HTS SF
-16. 51
-18. 74 a998 Res SLEEVED CE-NELD HTB PF +27.88 86 / TN
~
72 1998 Res. OD SCC 2, 41 HTS SF -16.78 99'! Res. SLEEVED" CE-WELD HTB PF +27.88 73 11998 Res. OD SCC 94 / TN 2. 18 HTS SF -17 ja ~
1998 Res. SLEEVED CE-MELD HTS PF +27 88 72 / TN
~
74 199 Res. 3. 53 HTS SF -18.
+.7 59 OD SCC 199<3 Res. SLEEVED CE-WELD HTS PF 88 87 / TN
~
75 199<3 Res. OD SCC 5. 41 HTS SF -17.!31 1998 Res. SLEEVED CE-MELD HTS PF +27 gg 76 f998 199
Res.
Res.
OD SCC SLEEVED
/ TN CE-WELD
4. 89 HTS SF HTB PF +27. 88
~
18.!i!<3 86 / TN -17.45 77 199!3 79 1998 199<3 Res.
Res.
Res.
OD SCC SLEEVED OD SCC CE-NELD 94 / TN
1. 81 HTS SF HTB PF
1. 94 HTS SF
+27
-aj. @<3'8 1998 Res. SLEE.VED CE-WELD HTS PF +27.!3!d Table 6 (Cont'd)
Page 53 of 69
l
>>>>>>>>>>>> RQLC TuQ4H(TH) (VCR. 5.a)>>>>>>>>>>>> Honday A>>r ! l 2Jr 100N O>>IOS PH >>>>>>>>>>>> >>>>>>>>>>>> Page P lan t: G1NNA Steam Gener ator.- B Outage: i998l Res.
QUERY- Indications on Tubes De-plugged in i99!3 RQW COL OUTAGE INDICATION VALUE VOLTS LUCATIQN INCHES 2 8!d i998 Res. OD SCC 96 2. 38 HTS SF -17.28 i998 Res.
i998 Res.
QD SCC SLEEVED 88 CE-WELD I
% TW TW 4..6 HTS SF HTS PF
-iB.27
27. 88 TOTAL TUBES FOUND 28 TOTAL I ND I CAT IONS FOUND = 78 TOTAL TUBES IN INPUT FILE =- .8 TOTAL TUBES INSPECTED = 28 Table 6 (Cont'd)
Page 54 of 69
I I RO<K Tl<<<AN<T<<) <VCR' I) stsooo <<on<<ay ap~i I 2Ji <9%5 sasoss Pa'JJe Plant: GINNA Steam Genevatav: 8 Outage: 199!d Res.
QUERY: Repaivab le Indicat ic<ns RON COL OUTAGE INDICATION VALUE VOLTS LOCATION INCHES 17 7 1998 Res. TYPE 1 1. 73 HTS SF -1&. 28 199!3 Res. ROLL TRANS !d. 8<3 HTS PF + ~
.48 1998 Res. CE-CRV +2 i'. 88 ll 199!d 1998 Res.
Res.
SLEEVED TYPE 1 ROLL TRANS
2. 84
1. S4 HTB HTS HTS PF SF PF
-19.38
+ 2.85 li 199!3 1998 199<8 Res.
Res.
Res.
SLEEVED OD SCC SLEEVED CE-CRV CE-WELD TN 8. 68 HTS HTS HTS PF SF PF
+27.
-18 88 ~
+27 <3!ii
~
58 17 1=. 1998 Res. DISTORT ROLL 3. 96 HTB SF 19 4" 1998 Res. SLEEVED CE-CRV HTS PF +27.88 15 1998 Res. OD IGA ADI 5 fu HTS SF f 7 +8
~
1998 Res. SLEEVED CE-CRV HTS PF +27. iag 16 199!d 199<3 Res.
Res.
OD WASTAGE OD IGA 12 ADI
/ TW 2. 67
~
.89 HTS HTS SF SF
+ l. ')<jj 1!d 199!3 Res. SLEEVED CE-WELD HTS PF +27. 8III 17 17 1998 Res. TYPE 1 1. 23 HTS SF -2!3.!d<3 1998 Res. ROLL TRANS 8.8 ~
HTS PF + 2.96 199!d Res. SLEEVED CE-WELD HTS PF +27.!d<J>
fS 199<if 199!3 Res.
Res.
OD WASTAGE OD IGA 11 ADI
/ TW 5 76
~
1. 67 HTS HTS SF SF
+ 1.28
-16.88 1998 Res. SLEEVED CE-WELD HTS PF +27.!d8 19 1998 Res. OD (senegal) ADS HTS SF -15.88 1998 1998 Res.
Res.
OD NASTAGE OD IGA 18 ADI
/ TW 1 ~ .74
!3. 47 HTS HTS SF PF
+ 1. 2<8
+ 5.94 1998 Res. SLEEVED CE-WELD HTB PF +27.!dg 17 19 199!d Res. DISTORT ROLL 1 ~
~
9 HTS SF -19.58 1998 Res. SLEEVED CE-NELD HTS F'F +27.!i!8 2i3 199!d Res. ROLL TRANS 8. 49 HTS PF + 3 83 ~
Res. SLEEVED CE-WELD HTS F'F +27 gg ~
28 1998 Res. OD IGA ADI -. 58 HTS SF -14. 78 1998 Res. SLEEVED CE-CRV HTS PF +27. 8!d
- f 5. 8<3 1,6 1998 Res. OD IGA ADI 1. 6!d HTS SF 1998 Res. SLEEVED CE-WELD HTS PF +27.!M 21 199<3 1998 Res.
Res.
OD IGA OD WASTAGE ADI 12 / TN
l. 1!3
l. a> HTS HTS SF SF
-1 8 8<d
~ 8 6<3
~
~
1998 Res. SLEEVED CE-!AELD HTS F'F +27. <dg
19. 68 17 22 1998 Res. DISTORT ROLL 2. 74 HTS SF 1998 Res. ROLL TRANS 1;!36 HTS PF + 2.98 1998 Res. OD IGA ADI 8 ~ 3/ HTS PF + 4.57 1998 Res. SLEEVED CE-WELD HTS PF +27 ~ <ijv(f 199g Res. OD IGA ADI 1. 75 HTS SF -16 ~ 5<3 199!3 Res. SLEEVED CE-NELD MTS PF ~27. ~i!8 1998 Res. DISTORT ROLL HTS SF -28.!d!3 1998 Res. SLEEVED CE-CRV HTS PF ~27.
f Q 8<3 9!3 3<3 1998 Res. OD IGA ADI 3. 18 HTS SF ~
199!3 Res. SLEEVED CE-CRV HTS PF +.7.
88 16 199 Res. OD ISA ADI 1. 47 HTS SF 1 2 ~ 2<d 1998 Res. OD iAASTAGE 14 / TN 6. 88 HTS SF + 1.H!3 1998 Res. OD (general) ADS 1. 88 HTS SF -1 1. 48 1998 Res. SLEE'QED CE-WELD HTS PF +27 88 F 26 1998 Res. QD IGA ADI 2. B3 HTS SF -17.48 1998 Res. PLUGGED CE-t'1ECH HTS PF 1998 Res. PLUGGED CE-t'iECH CTS PF 26 1998 Res. OD IGA ADI 2, 43 HTS SF -17. 88 199<3 Res. SLEEVED CE-NELD HTS PF +27.88 26 1998 Res. OD IGA ADI 2 ~ 45 HTS SF -17. '28 1998 Res. SLEEVED CE-WELD HTS PF +27 igg ~
1998 Res. QD IGA "ADI 1. 78 HTS SF -18. 4!3 1998 Res. SLEEVED CE-WELD HTS PF + 7 88
~
27 1998 Res. OD WASTAGE 2!3 % TN 11. 94 HTS SF 199!i> Res. OD IGA ADI 2 ~ 86 HTS SF -17. 88 199!3 Res. OD (general) ADS 1. 46 HTS SF -17. 48 1998 Res. OD IGA ~ I ADI 8. 51 HTS PF + 4.88 1998 Res. SLEEVED CE-WELD HTS PF +27. gg
~9 1998 Res. OD ISA ADI 5 ~ 89 HTS SF -1 3. 6<3 199~8 Res. SLEEVED CE-WELD HTS PF +27. 8<3 1998 Res. OD WASTAGE 12 / TN 7. 76 HTS + 1.58 Table 6 (Cont'd)
Page 55 of 69
<<<<LC T<<<N<<< T<<< <V<LR 5, 0 osooeo Honday Atr
< < < 25, <0<<<<< OleO! P<< esesoo ~ St%00 1 age Plant:'utage: G I NNA Steam Generator: B 199!d Res.
QUERY: Repair able Indications RON COL 'OUTAGE I ND I CATION VALUE VOLTS LQ( ATIUN INCHFS 1998 Res. QD (gener al ) ADB 1, HTS BF -16.68 199!d Res. OD ISA ADI g, 52 HTS PF + 5.56 199<3 Res. SLEEVED 'CE-WELD HTS PF +27. 8~<j 41 199!3 Res. DISTORT ROLL 1. 4v HTS SF 19. 6!3 1998 Res. PLUGGED CE-NECH HTB PF 199!d Res. PLUGGED CE-1'1ECH CTS F'F 38 1998 Res.
1998 Res.
GD WASTAGE OD WASTAGE 2 /
1Z % TW TW 2. 45
8. 87 HTS HTS SF SF
+ 1. 7!3
+ !ij. 8!3 1998 Res. OD IGA ADI 2. 42 HTB SF 5 2!ij
~
199<3 Res. SLEEVED CE-MELD HTS PF ~27 c(jg 17 / TW
~
~8 1998 Res. OD WASTAGE 1. >5 HTB SF + 8. 8<3 199id Res. OD WASTAGE 19 '/ TW 5. 19 HTS SF + 1.18 199<ij Res. OD IGA AD I 5. /8 HTS SF -15.18 1998 Res. SLEEVED CE-NELD HTS F'F +27, gg 17 32 199!ij Res.
1 99<3 Res.
OD WASTAGE OD WASTAGE 4
18
/ TN TW 2 !82
~
8. 58 HTS HTS SF.
SF
+ =. 6!3
+ 1.18 1 99!d Res.
199!d Res.
OD WASTAGE OD IGA 18 ADI
/
TN i.
4. 94 15 HTS HTS SF SF
+ 8. 8!d-1 8 ~ 2<d 199!d Res. CE-NELD +27.!38 32 1998 Res.
1998 Res.
SLEEVED OD "WASTAGE QD WASTAGE il2 // TN TN
g. 84
2. V9 HTB HTS HTS PF SF SF
+ 2.58
+ 1.98 199!ij Res.
1998 Res.
OD WASTAGE OD (gener al ) ADB 6 / TN 8. 5>
5. 87 HTS HTS SF SF
+ 8.8!3
-17. 68 199!d Res. OD IGA ADI !ij . 5 1 HTS PF + 2 ~ "<<6 1998 Res. PLUGGED CE-NECH HTB PF 1999 Res. PLUGGED CE-NECH CTS PF 1998 Res. QD WASTAGE 11 % TN 1 . 82 HTS SF + 8.S8 199!3 Res. GD IGA ADI 7. 58 HTS SF -15.58 199!d Res. SLEE VED CE-WELD HTB PF 7 ~ <38 199<3 Res.
1 99!3 Res.
OD WASTAGE DISTORT ROLL 6 / TN l. 59
2. 15 HTS HTB SF SF -19.
1 !3 8<3 1998 Res. SLEEVED CE-MELD HTS PF +27 88 ~
Z4 1998 Res. QD WASTAGE 14 % TN ~~ ~ i> S HTB SF + 1 ~ B!8 199!d Res. OD SCC 81 % TW 3. 99 HTS SF -16. 9!d 199<3 Res. DISTORT ROLL 3. 85 HTS BF 7g 199<3 Res. OD IGA ADI 1 . 69 HTS PF + 4.13 199~d Res. ROLL TRANS 8. 75 HTB PF +
199!d Res. SLEEVED CE-MELD HTS PF +27.88
~>5 1998 Res. OD, (qeneral) ADS a. 88 HTS SF -14.78 1 99!3 Res. OD IGA ADI HTS SF -15.""9 1 99!3 Res. SLEEVED CE-WELD HTB PF +27. <3$
35 1998 Res. QD IGA ADI 4. 49 HTS SF -17. 9!ij 1998 Res. SLEEVED CE-CRV HTS PF + .7. 88
- 15.!d<ij
.>6 1 99!3 Res. OD IBA ADI 5. 82 HTS SF 1998 Res; SLEEVED CE-WELD HTS PF +27.88 Zj 1998 Res.
199g Res.
OD WASTAGE OD IGA 22 ADI
/ TW 4. 79
2. 18 HTS HTS SF BF
+ 1.4<ij
-17. 4!3 1998 Res. SLEEVED CE-NFLD HTS PF +27, gg Z8 1998 Res.
1998 Res.
OD WASTAGE OD SCC 14 % TN 82 / TN 1.!ij8 i4 HTS HTS SF SF
+ 1 5<d
8. 4<ij 1998 Res. SLEEVED CE-NELD HTS PF ~27. 88 38 1998 Res. OD (general) =!d / TW 4. 84 HTS PF + 7.'~1 1998 Res. OD (gener al) Zg / TN 2. 82 HTB PF + 6.89 1998 Res. PLUGGED CE NLD S HTS PF 1998 Res. PLUGGED CE-NECH CTB PF 199@ Res. OD IGA ADI 3. 81 HTS SF -17. 8j(l 1998 Res. SLEEVED CE-CRV HTS PF +27.88 49 1998 Res. OD IGA ADI 4. 26 HTS SF -18.68 1 99<3 Res. SLEEVED CE-CRV HTS PF +27 !(jg
~
48 199!3 Res.
Res.
OD SCC SLEEVED
.96 CE-CRV
/ TN 1. 72 HTS HTB SF PF
-18. 7!d
+.7. 8!J 41 199<ij Res. QD WASTAGE 18 / TW 8. 91 HTS SF + g +<d 1998 Res. OD IGA ADI 5. a<3 HTS BF -15. 5!d 1998 Res. SLEEVED CE-MELD HTS PF +27. 8<(j 19 /!8 Res. OD IGA ADI 4. 61 HTS BF -15 2<3~
199!ij Res. DISTORT ROLL ~~. 38 HTS SF -29.99 1998 Res. SLEEVED CE-WELD HTB +27.88 Table 6 (Cont'd)
Page 56 of 69
<<<<< C TUQA<<< T<< < < VCR s.e>o~oa<<<<<<only <<< r<1 2J, <P9e <<i< <<< P<< sass>>o ~ ioooo Pa8e Plant- GINNA Steam Generator: B Outage'- 1998 Res.
QUERY: Repairable Indications RQW CQL OUTAGE INDICATION VALUE VOLTS LOCATION INCHES 41 199!i! Res. OD WASTAGE 19 % TN 7. 75 HTB SF + 1. /8 1998 Res. OD (genera ADS 3. 24 HTS SF 3. 98 1998 Res. OD IGA ADI 1 ~ 26 HTS PF +18.55 1998 Res. SLEEVED CE-MELD HTS PF +27. 8!<'.>
44. 41 199!i! Res. OD SCC 93 / TM 2. 64 HTS SF -18. 7<3 1 99!iI Res. 'PLUGGED CE-NECH, HTS PF 199<3 Res. PLUGGED CE-MECH CTS PF 7 42 199<3 Res. OD WASTAGE 12 % TN 3. 74 HTS SF <jj, 48 1 99~d Res. OD I GA ADI 7. 35 HTS BF -16. 8<d 1998 Res. OD IGA ADI 50 22 HTS SF -15.!i~!d 199(I Res.
199<3 Res.
OD WASTAGE SLEEVED 1
CE-WELD
/ TN =. 86 CTB HTS SF PF
+ l. 8<3
+27. 88 8 42 1998 Res. OD IGA ADI 4. 71 HTS SF 15 5!d 1998 Res. SLEEVED CE-NELD HTS PF +27.88 14 42 1998 Res. OD IGA AD1 3. 98 HTB SF 5.88 1998 Res. SLEEVED CE-MELD HTS PF +.7. <d<3 "31 42 1998 Res. OD IGA ADI 5. 85 HTB SF 18 38 199<3 Res. SLEEVED CE-NELD HTS PF + 7.!d8 41 42 1998 Res. OD IGA AD1 4. "7 HTS SF 1 b. 2<3 199<3 Res. SLEEVED CE-CRV HTS PF +27. <3!d 7 43 199<3 Res.
199!d Res.
OD WASTAGE OD IGA 19/TN ADI 2 43~
6.!d 1 HTS HTS SF SF
+ 8.88
-16.!d8 1998 Res. SLEEVED CE-NELD HTB PF + 7.88 8 43 1998 Res. OD IBA ADI 4. 83 HTS SF -14. 3<3 1998 Res. SLEEVED CE-WELD HTB PF +27.88 1!d 43 1998 Res. OD WASTAGE 7% TN 2. 94 HTS SF + 8.78 1998 Res. DISTORT RO LL 3. 26 HTB SF 19.48 199<3 Res. SLEEVED CE-<AELD HTS PF 27 88 35 43 1996! Res. QD IGA ADI *
3. 43 HTB SF -17.48 199!d Res. OD IBA ADI 8. 73 HTS PF + 4.26 199<3 Res. SLEEVED CE-CRV HTS PF +27. <38 41 43 1998 Res. OD SCC 77 % TN 1 93
~ HTS SF -18. 2<3 1998 Res. SLEEVED CE-CRV HTB PF +27. 88 42 1998 Res.
1998 Res.
OD SCC SLEEVED 94 / TN CE-CRV
l. 81 HTS HTS SF PF
-1 t). 8<3 7 <i!8 35 44 1998 Res. OD (gener al ) ADS 3 58~ HTS SF -17. 5<3
+ 3.62 1998 Res. QD IGA ADI !i>. 37 HTS PF 1998 Res. SLEEVED CE-CRV HTS PF +27. <38 38 44 19'98 Res. TYPE 1 4. 49 HTS SF -11 28 1998 Res. ROLL TRANS 1. 85 HTS PF + 1.74 1998 Res. SLEI..VED CE-CRV HTB PF +27 88~
48 44 1998 Res. OD IGA ADI 2. 68 HTS SF -17. 3<3 1998 Res. SLEEVED CE-CRV HTS PF +27 88~
45 199<3 Res. OD SCC 22 % TW 8 63~ HTS SF -17 98~
1998 Res. PLUGGED CE-NECH HTB PF 199!3 Res. PLUGGED CE-NECH CTS PF
//
23 45 1998 Res. OD WASTAGE 7 TN HTS SF + 1.58 1998 Res ~ OD WASTAGE 17 TN 8 91~ HTS SF + 8.58 1998 Res. OD IGA ADI ~
. "<<8 HTS BF 16. 88 1998 Res. SLEEVED CE-WELD HTS PF + .7.!i!8 26 45 1998 Res.
1998 Res.
OD OD WASTAGE
<AASTAGE 3 // TW TN
2. 81 i..6114 HTS HTS SF SF
+ 2.48
+ 2. 3<3 1998 Res.
1998 Res.
OD QD WASTAGE WASTAGE 15 13
// TM TN
~
1. 82 HTS HTS SF SF
+ 1.78
+ 1.48 1999 Res.
199<3 Res.
OD QD WASTAGE SCC 38 58 %
/ TN TN
!<!>. 99 8 52
~
HTS HTS SF SF
+ 1.88
-17.e8 1998 Res. SLEEVED CE-NELD HTS PF +27.88
-19.18 41 45 1998 Res.
199!d Res.
199<3 Res.
TYPE 1 ROLL TRANS SLEEVED CE-CRV 3 32
~
2. 18 HTS HTB HTS SF PF PF
+ 2 '5
+27.<38 46 199!d Res.
1998 Res.
OD WASTAGE QD (genera 28 ADS
/ TN 1. 83 1 99 HTS HTS BF SF
+ 8.
-15. 1!d 7<3
+ 6.5'/
~
1998 Res. OD IGA ADI 8. 34 HTS PF 1998 Res. SLEEVED CE-<AELD
7 / TN HTS PF +27. 8<3 46 1998 Res. OD WASTAGE 1. 59 HTS BF + 1 . 7<3
19. 3!d 1998 Res. TYPE 1 4. 1<3 HTS SF 1998 Res. ROLL TRANS i. 38 HTS PF 2 36
~
Table 6 (Cont'd)
Page 57 of 69
S ssssss <<<<LC T<<<44<<<TH) <VLR 5.!<>ssssss <<ondsy <Ss< < < QJ, <<<9e Oi< 01 P<< ssssss ssssss Page Plan t: G INNA Steam Generator: B Outage: ~
1998 Res. ~
QUERY: Repairable Indicat ians RQN CQL
~
INDI CAT I QN VALUE VOLTS LUCATIQhl INCHES 199!3 Res. SLEEVED CE-MELD HTB PF +27. 8!d 32 46 199!d Res. OD IGA ADI, 3. 37 HTS SF -17. 4<d 1 9'?!d Res. SLEEVED, CE-WELD HTS PF + 27 8</
~
48 46 199!d Res. OD IGA ADI 3. 82 HTS SF -16. 88 199!3 Res. SLEEVED CE-CRV HTS PF +.7 88 41 / TW
~
47 199!ij Res. OD WASTAGE 8. 77 HTS SF + 8.6<3 1'?98 Res. SLEEVED CE-MELD HTB PF y27 <dg~
47 1998 Res. OD IGA ADI 8. 14 HTS SF -15 2<d~
1998 Res. SLEEVED CE-MELD HTS PF +27. 88 47 1998 Res. QD WASTAGE 15 / TN 3. 82 HTS SF + !d.65 1998 199!3 Res.
Res ~
OD SCC SLEEVED 75 CE-MELD
/ TN. !d, B3 HTB HTS SF PF
-18. 26
+27 88 F 47 199<3 Res. TYF'E 1 3. 66 HTS SF 19.32 1998 Res. OD IGA ADI 7. 34 HTS SF -17.53 1998 Res. ROLL TRANS 8. 96 HTS PF + 2 55 ~
1998 Res. SLEEVED CE-CRV HTS PF ~27 gg ~
48 1998 Res ~ OD IGA ADI 4. 16 HTS SF -17. 25 199!3 Res. OD WASTAGE 1% TW 3. 84 CTS SF + 1 ~ 5!d 199<ij Res. SLEEVED CE-MELD HTS PF +27, grd 48 1998 Res. OD SCC 84 % TW HTS SF -18. 67 199<ij Res. SLEF:.VED CE-CRV HTB PF +27 88 49 199!d Res. QD IGA ADI 2 ~ 23 HTS SF -17 1 rd
~
1998 Res. SLEFVED CE-CRV HTB PF +27.!d<ij 49 1 99<ij Res. OD SCC 54 / TN 8. 31 HTS SF -17.13 1998 Res. SLEEVED CE-CRV HTS PF +27.88 49 199!3 Res. OD SCC 41 / TN 8. 48 HTS SF -18. 47 1998 Res. SLEEVED CE-CRV HTS F'F +27. 88 48 49 1998 Res. OD IGA ADI 9. 95 HTS SF . -17. 19 1998 Res. SLEEVED CE-CRV HTS PF +.7. 88 58 199sj Res. OD IGA ADI 4. 67 HTS SF -17.88 199<3 Res. PLUGGED CE-MECH HTS PF 199!3 Res. PLUGGED CE-MECH CTS PF 5g 1998 Res. OD IGA ADI 4. E!5 HTS BF 15 dg 1998 Res. SLEEVED CE-MELD HTS PF +27. I<j8 58 1998 Res. OD IGA ADI 2 42
~ HTB BF -16. <3<8 199<3 Res. SLEEVED CE-WFLD HTS PF +27. 8!3 58 1998 Res. OD BCC 63 / TW 1 ~ 16 HTS SF -18. 48 199!<.j Res. SLEEVED CE-WELD HTS PF +27. 88 17 5!ij 1998 Res. OD IGA ADI 1. 76 HTS SF V. 68 1998 Res. OD WASTAGE 2 / TN 2. 53 CTS SF + 1.38 1998 Res. SLEEVED CE-WELD HTS F'F ~%7 <d!jj
~
Q3 58 1998 Res. OD WASTAGE 13% TW <d. 89 HTS SF + 1.71 199<ij Res. OD SCC 82 % TW 8. 38 HTB SF 1 Ej. 6!d 199!3 Res. SLEEVED CE-WELD HTS PF ~27. 8!ij 38 58 1998 199!3 Res.
Res.
OD WASTAGE OD SCC 17// TN TN 8. 54 HTS HTS SF SF
+ <3. Ej8
-18. 14 1998 Res. SLEEVED CE-WELD HTS PF +27 88 11 / TW
~
51 1998 1998 Res.
Res.
QD WASTAGE OD SCC 89 / TW
4. 5<3
!iS. 56 HTS HTS SF SF -+ 8.57 1 Ej. 67 1998 Res. SLEEVED CE-WELD HTS PF +27. <38 51 1998 Res. OD SCC 87 / TN !ij. 78 HTS SF 1Ej. 57 1998 Res. SLEEVED CE-CRV HTS PF +27 gg~
52 1998 Res. OD IGA ADI 3. 84 HTS SF -16. 89 1998 Res. SLEEVED CE-NELD HTS PF +27.!d<ij 52 1998 Res. OD IGA ADI 2. 88 HTS SF -17 88 ~
1 99!d Res. SLEEVED CE-NELD HTS PF +27 <dg 18 / TW
~
Res. OD WASTAGE 1. 86 HTS SF 4 67
~
1998 Res. OD IGA ADI 4 72
~ HTS SF 5. 23 199!d Res ~ PLUGGED CE-MECH HTS P.F 1998 Res. PLUGGED CE-MECH CTS F'F 52 199<3 Res. OD WASTAGE 26 % TM 1.,28 HTS SF + 2 6<<
199!3 1998 Res.
Res.
QD SCC PLUGGED 8 ~
CE-MECH
/ TM !3. 75 HTS SF 7
~
~
HTS PF 1998 Res. PLUGGED CE-MECH CTS PF 52 199! j Res. TYPE 1 3s 31 HTS SF 19 2<3
~
Res. ROLL TRANS 8. 75 HTS PF + 2.8!d 199!3 Res. SLEEVED HTS PF +27. 88 Table 6 (Cont'd)
Page 58 of 69
<<<<<<<<<<<<ROLC
~<<
TUQ<M<<T<<) <VCR 5 0) <<<<<<<<<<<<Non<<<<y 4p<~! l 2Je <OIL< O<<<02 !<<< <<<<<<<<<<<< <<<<<<<<<<<< Page Plant: G I I'INA Steam Generator: B Outage: 1998 Res.
QUERY: Repairable Indicat ions RON COL OUTAGE INDICATION VALUE VOLTS LOCATION INCHES-28 53 1998 1998 Res.
Res.
OD WASTAGE OD <senegal> ADS 4 / TM , 2 ~ HTS BF 5 27 HTS SF
~
+ 2.'/8
-15. 75 1998 Res. OD IGA ADI g 56 HTS PF
~ + 5.15 199rd Res. SLEEVED CE-MELD HTS PF +27. <3!3 54 199!ij Res. OD IGA ADI 3 &!3 HTS BF
~ -17.88 199<3 Res. SLEEVED CE-WELD HTS PF +27. 8!d 1 55 1998 Res. OD IGA ADI 9. 51 HTS BF -17.88 1998 Res. PLUGGED CE-NECH HTS PF 1998 Res. PLUGGED CE-NECH CTB PF 199iij Res. OD SCC 48 % TW 8. 31 HTS SF -14.68, 199~j Res. SLEEVED CE-MELD HTB PF +.7.!dg 5 55 199!3 Res. OD IGA ADI 2, 1<3 HTS SF 1 2 r<jg 1998 Res. SLEEVED CE-WELD HTB PF +27 grd 16 55 1998 Res. QD NASTAGE 13 % TN =.66 HTS SF + 1 ~ 57 199zj Res. OD IGA ADI 2. 96 HTS BF -16.88 6% 3. 71 1.68 1998 1998 55 199<3 Res.
Res.
Res.
QD <AASTAGE SLEFVED OD I GA CE-MELD ADI TN
3. 76 CTS HTB HTS SF PF SF
+
+27
-18.68
'8 199!d 199<3 Res.
Res.
QD WASTAGE PLUGGED, 12/
CE-IIECH TN 5. 29 HTB HTS BF PF 2 ~ 42 Res.
1 1998 56 1998 1 99<3 Res.
Res.
PLUGGED OD SCC PLUGGED
'CE-MECH 74 % TN CE-NECH
8. 95 CTB HTS HTB PF SF PF
-17 '8 1998 Res. PLUGGED .CE-NECH CTS PF 17 56 1998 1998 Res.
Res.
OD WASTAGE TYPE 1 5 / TM 1. 76
1. 93 HTS HTS SF BF
+ 2.19
-18.88 199!3 Res. ROLL TRANS 8. 55 HTS PF 2 27~
1998 Res. SLEEVED CE-NELD HTS PF +27. 88 18 56 1998 1998 Res.
Res.
OD WASTAGE (generall 15 / TN 3 28j
~ HTS SF 2 4.
~ 29 1998 Res.
OD ADS ? 53~ HTS SF 34 OD IGA ADI 8. 44 HTS PF + 5 ~ 21 1998 Res. SLEEVED CE-WELD HTS PF +27. 8<3 1998 Res; OD I GA ADI 3. 4 ~
HTB BF 1 5 ~ 8!d 1998 Res. SLEEVED CE-WELD HTS PF +27. 88 57 1998 Res. OD IGA ADI 4. 88 HTB BF -17.!dg 199!3 Res. SLEEVED CE-WELD HTS PF +27.88 15 57 1998 Res. OD WASTAGE 4% TM 2. 88 HTS SF + 8.79 1998 Res. TYPE 1 4. 28 HTS SF -18.83 199!d Res. ROLL TRANS 2. 24 HTB PF + 2.79 199!d Res. OD WASTAGE 11 % TW 2. 81 CTS SF + 1.63 199<ij 1998 Res.
Res.
OD WASTAGE SLEEVED CE-NELD
/ TW 3 13
~ CTS HTS SF PF
+ 1. 5!ij
+27. 88 57 1998 Res. OD WASTAGE 5 / TW 1.79 HTS BF + 2.41 199!3 Res. TYPE 1
4. 75 HTS SF -19. 18 1998 Res. ROLL TRANS 1. 59 KTS PF + 2.91 1998 Res. SLEEVED CE-WELD HTS PF +27. 88 1998 1998 Res.
Res.
OD WASTAGE OD WASTAGE 4 /
21 % TN TN 1. 79
1. 58 HTS HTS SF SF
+
+
1.65 1.68 1998 1998 Res.
Res.
OD SCC'D eCC 71 /
79 / T!A TN 8. 44
<3. 59 HTS HTB SF SF 17.gg
-18.48 1998 Res. SLFEVED CE-NELD HTS PF +27.88 31 S7 1998 Res. OD WASTAGE 15 / TW 2. 81 HTS SF + 1.58 199g Res. OD WABTAGE 16 / TW HTB SF + 8 '/6 79 / TN
~
199!3 Res. OD SCC 8 69 HTS SF -14. 82 69 / TW
~
1998 Res. OD !3. 36 HTB BF -17. 68 1998 Res. SCf'LEEVED CE-WELD HTS~ PF +27. <dg 57 1998 Res. OD WASTAGE 7 / TM 2. 96 HTS BF + 8 7/
84 / TN
~
1998 Res. QD SCC jd. 62 HTS SF -14.59 1998 Res. SLEEVED CE-WELD HTB PF +27 egg 57 1998 Res. OD BCC 79 / TN 8. 31 HTS SF -17. 48 199!ij Res. PLUGGED CE-MECH HTS PF 199<3 Res. PLUGGED CE-I'1ECH CTS PF 57 1998 Res. OD SCC 49 / TW !3. 95 HTS SF -1Ej. 43 199<~j Res. TYPE 1 5. Sg HTS SF -19. 34 1998 Res. OD IGA ADI 1 33 HTB
~ PF + 3.38 199!d Res. SLEEVED CE-CRV HTS PF +27 88 34 / TN
~
48 57 199!3 Res. OD SCC 8.68 HTS SF -1Ej. 18 Table 6 (Cont<d)
Page 59 of 69
l oseees R<<L<>> TU<<A<<<TH< <V<>>R. 0 0>oooo>>>>o H>>>>>>>>dog A<>>>>'< < <<4>> <>><>><0 04>>02 <>>H eooeoe IOItlI Pa 'Je Plant: G INNA Steam Generator: B OUtage>> 19'?8 Res.
QUERY: Repa irab le indications RQM CQL OUTAGE INDICATION VALUE VOLTS LQCATIUN INCHEB 1998 Res. SLEE VED CE-('RV HTS PF +27. 88 58 1?99 Res. OD IGA ADI HTS SF -14. 19 19+@ Res. SLEEVED CE-MELD HTB PF +27.
58 199!d Res. OD IGA ADI 3 97 HTS
~ SF 25 88'16.
199!3 Res. SLEEVED CE-NELD HTB PF +27.88 58 199!d Res. OD SCC 69 / TN <3. 4.1 HTS SF -15. 43 1998 Res. SLEEVED CE-MELD HTB PF +2'j . g!8 Res.
/// 1.69 58 OD WASTAGE 7 TW 9. 76 HTe SF +
199<3 Res. OD WASTAGE TN 2 g5 HTB
~ SF 8. 59 199!3 Res. OD SCC d6 TW 9. 57 HTS SF 17.!d4 199!d Res. OD SCC 92 % TN 1. 82 HTS BF -18.13 1998 Res. SLEEVED CE-MELD HTS PF ~27.!j~i!
59 1998 Res. QD IBA ADI 5. 67 HTS SF -14. !38 199!d Res. SLEEVED CE-iAFLD HTS PF +27. 9<3 59 199<d Res. OD SCC 82 / TW 8. 67 HTS SF 2!3 1998 Res. SLEEVED CE-WFLD HTS PF +27 !J>><3 42 / TW
~
59 199<3 Res. OD SCC g, 42 HTS SF 2g 59 1'? 9!d Res.
199!3 Res.
1,'?9<3 Res.
SLEEVED QD WASTAGE OD IGA CE-NFLD 11 ADI
/ TN 4. 47
7. 74 HTS HTS HTS PF SF SF
+27 89
+ 2 5 99
'7
~
F n 199<3 Res. SLEEVED CE-MELD HTB PF +27.88 6!3 199!3 Res. OD SCC 86 / TN 8. 42 HTS SF -17. 5!d 1 99i3 Res. SLEEVED CE-WELD HTB PF +27. 88 6!3 1'?99 Res. OD SCC 26 % TN !3. 37 HTS SF 16. 5!3 Res. SLEFVED CE-WELD HTB PF +27 gg 68 1998 Res. OD IGA ADI 1. 93 HTS SF -16.78 1998 Res. SLEEVED CE-WELD HTS PF +27.8I<)
6<3 1999 Res. OD ISA ADI 2 25 HTS SF -17.89 1998 Res.
1998 Res.
OD WASTAGE SLEEVED
/ TW CE-<AELD
~
2 96
~ CTS HTS SF PF
+ 1.71
+ 7.98 68 1998 Res. OD IGA. ADI 4 44
~ HTS BF 16.!i>g 1998 Res. SLEEVED CE-MFLD HTS PF ~27, <3!d 17 68 1998 Res. QD WABTASE 13 % TW 1 38 HTB SF + 1 44 199'> Res.
199!3 Res.
QD SCC TYPE 37 / TN
~
<3 72
~
3. 82 HTS HTB SF -17. 93
~
-1 /. 1 i 1 BF 1998 Res. OD IGA ADI 9. 61 HTS PF + 4 '-'8
+ 2.5/
~
1998 Res. ROLL TRANS HTB PF 1998 Res. SLEEVED CE-<AELD HTS PF +27 <0<<9
~
62 199<3 Res. OD IGA ADI HTS BF -14. 6<3 1998 Res. SLEEVED CE-MFLD HTS PF +27. 99 19'?8 Res. OD WASTAGE 7% TN 1 . 67 HTB SF 1. 48 1999 Res. OD IGA AD I 4. 85 HTS SF -16.!38 1998 Res. SLEEVED CE-WELD HTB PF +27. <<lg 199!d Res. OD ISA ADI 5. 34 HTS SF 12>> 3i3 199!3 Res.
1998 Res.
OD WASTAGE 4 CE-MELD
/ TW 5. 21 HTB SF + 1.58
+ 7. 88 62 1998 Res.
1998 Res.
SLEEVED OD OD NASTAGE SCC 6/ TM 8!3 / TW
5. 24
9. 52 HTS HTB HTS PF SF SF
~
+ 1. 5!3
-11. 98 1998 Res.
1998 Res.
OD OD WASTAGE SCC 8/TW 91 / TW
4. 66 8 64
~
HTB HTS SF SF
+ 1.'48
-13 17
+.7
~
1998 Res. SLEEVED CE-WELD HTB PF ~ 88 27 62 1998 Res. OD IBA ADI 3. 95 HTS SF 4. 49 1998 Res. OD WASTAGE 16 / TN 1 66
~ HTS SF + 1. 6!3 1998 Res. OD IGA ADI 6. 3!d HTS SF 4 4 id
~
1 99ig Res. SLEEVED CE-WELD HTS PF +27. 88 63 1998 Res. OD IGA ADI 4. 98 HTS SF -16. 5<3 1 99~d Res. PLUGGED CE-NECH HTS PF 199!d Res. PLUGGED= CE-NECH CTS PF 63 19'? 8 Res. OD WASTAGE 2 / TN 2. 63 HTS SF + 1 ~ 4~i>
1998 Res. OD ISA ADI 6. 68 HTS SF -15. 39 199 Res. SLEEVED CE-WELD HTB PF +27. 99 63 199!3 Res.
199~~! Res.
QD iAASTASE OD SCC 11 43 %
/ TW TM
4. 83
!d. 27 HTS HTS SF SF
+ 1.3!d
-18. 55 199!d Res. SLEEVED CE-NELD HTS PF + .7. <i<9.
63 199!3 Res. QD ISA ADI 1. 88 HTS BF -14. 1
1998 Res. OD iAASTAGE 19 / TW 6. 63 HTS SF + 1.39 1'? 9!3 Res. SLEEVED CE-WELD HTB PF +27. 88 L'able 6 (Cont'd)
Page 60 of 69
ls
~ >>>>>>>>>> R<<dg T<J<<AN<T<<) <VLR 5,0<>>>>>>>>>>>> <<an<<>>Y A<Ir<l M~ <OOO 0>><C<2 Pt1 >>>>>>>>>>>> >>>>>>>>>>>> j a8e Plant: 6 INNA Steam Genevatov- B Outage: 1998 Res.
QUERY: Repair able Indications ROM COL OUTAGE INDICATION VALUE VOLTB LOCATION INCHES 64 1998 Res. OD IGA ADI 1. 65 HTS BF -1 ~
. 28 1998 Res. SLEEVED CE-WELD HTS PF +27.!ijg
15. 1<3 64 199!3 Res. OD IGA ADI HTS BF 1998 Res. SLEEVED CE-MELD HTS PF 27. gg 64 1998 Res. OD WASTAGE 6%TM 1. 72 HTS SF + 8.48 1998 Res.
Res.
QD IGA ADI CE-WELD 18 HTS SF -ld.
+27. <39 79 199~<.j SLEEVED HTB PF 64 1993 1998 Res.
Res.
OD WASTAGE OD IGA 19 ADI
/ TN 8. 98
1. 5'/
HTS HTB SF BF
i. 59
-11.34 1998 Res. SLEEVED CE-WELD HTS PF +27.!3<j 24 64 1998 ResI OD WASTAGE 22 / TW 8. 88 HTB SF + 1.YS 199<3 Res. QD IGA ADI 4 8r HTS bF -18. 49 1998 Res. SLEEVED CE-WELD HTB PF +27. 8!3 64 199!3 1998 Res.
Res.
OD <AASTAGE OD IGA 16 DI
/ TW 6. 33
i. 78 HTS HTS SF BF.
+ 1.8<3
-17.76 1998 Res. SLEEVED E-<AELD HTS PF +27. 9!d 66 1 99!ij Res. QD SCC 68 / TN 2 ~ <32 HTS BF 18. 1<3 1 99!ij Res. PLUGGED CE-MECH HTS 'PF 199!d Res. PLUGGED CE-MECH CTB PF 66 1998 19'/!d Res.
Res.
OD <AASTAGE OD IGA 7 / TN ADI
i. 19
1. 94 HTS HTS SF BF
+ 8.48
-16. ikj 199!8 Res. SLEEVED CE-WELD HTS PF +27 98 ~
199!ij 1998 Res.
Res.
OD WASTAGE QD IGA ADI
/ TW 2. 56
3. 77 HTS HTS SF SF
+ 1.28
-16. 88
=1998 Res. SLEE VED CE-WELD HTB PF +27. <38 67 1998 Res. OD WASTAGE :1 / TN 2 ..><3 HTS SF + 8.8<3 1993< Res. OD SCC 73 / TW 1. 63 HTB BF -16. 2!<'.j
'99!d 199!d Res.
Res.
OD SCC SLEEVED CE-MELD
/ TN 8 52
~ HTS HTB SF PF
-17. 88
+27.8$
67 199!3 Res. OD <AASTAGE 11 / TW 1. 46 HTs SF + 8.79 199Iij Res. OD BCC 83 / TW !d. 47 HTB SF 6. 58 1998 Res. SLEEVED CE-NELD HTS +27. 89 67 1998 Res. OD (geneval> 28 % TN 1. 51 CZ 1998 Res. DS 1. 42 C2 1998 1998 Res.
Res.
OD OTHER
(<<jeneva 1 ) 27 / TM 2. 38 Ci C2 1998 1 99<3 Res.
Res.
OD (8eneval)
OD'general>
27 28
// TW TN
8. 87 C3
1. ~~6 C:5 8. <3Z 1998 Res. PLUGGED CE-MECH HTS 1998 Res. PLUGGED CE-MECH CTS 68 1998 Res. QD IGA ADI 6. 47 HTS SF -17.48 1998 Res. SLEEVED CE-MELD HTS PF +27.98 78 1 99!3 199!d Res.
Res.
OD SCC SLEEVED 85 /
CE-MELD TN HTB HTS SF PF
-17.88
+27.!ij!3 7!d 1998 Res. QD BCC 78 % TN 1. 75 HTS SF 1Ej. 6!ij 199!3 Res. SLEEVED CE-CRV HTS PF +27, <jjg 71 1998 1998 Res.
Res.
OD SCC SLEEVED 76 /
CE-NFLD TM HTS HTS SF PF
-16.18
+27 <3!d
~
'I 7 71 199<3 Res. OD IGA ADI ~ .76 HTS SF -16.48 1998 Res. SLEEVED CE-WELD HTS PF +27.!ijId 7~~ 1 99!3 Res. OD IGA ADI 2. 55 HTB SF -17 88 ~
1998 Res. SLEEVED CE-MELD HTS PF +.7 88 ~
74 1998 Res. OD IGA ADI 4 58
~ HTS SF -17. ~!ij 1998 Res. PLUGGED CE-MECH HTS PF 1998 Res. PLUGGED CE-MECH CTS PF 2g 74 1998 Res. OD IGA ADI 6. 84 HTS SF -18. >9 1 99!<'.j Res. SLEFVED CE-NELD HTB PF +27.!38 75 199!3 Res. OD IGA ADI 5. 7 HTS SF -17. 7'ij 199!ij Res. SLEEVED CE-WELD HTB PF +27 gg ~
75 1999 Res. DISTORT ROLL 2 ~ ~2 HTS SF -19. ~4 1998 Res. SLEEVED CE-CRV HTS PF +2/ 8$ ~
75 1999 Res. OD IGA ADI 4 77
~ HTS SF -17.!d!3 1998 Res. SLEEVED CE-('RV HTB F'F +27 88
/ TN
~
75 1998 Res. QD SCC 98 2. 18 HTS SF 19. 1!d 1998 Res. PLUGGED CE-MECH HTB 1998 Res. PLUGGED CE-MECH CTS PF
-16. 55
"'D 76 1998 Res. IGA ADI 4 58
~ HTS BF Table 6 (Cont'd)
Page 61 of 69
>>>>>>>>>>>> <<<<L< TU<<<<<<<TN> <VO 5 <<) <<>>>>>>>>>> <<On<<<<y Air < < 2Je 1090 O>><02 P<< >>>>>>>><<>> >>>>>>>>>>>> Page Plant: GINNA Steam Generator: B Outage: 1998 Res.
QUERY: Repairable Indicat ions ROW COL OUTAGE IND I CAT I ON VALUE VOLTB LOCATION INCHES 1998 Res. SLEE.VED CE-WELD HTB PF +27.88
4. 17 -15.79 18 8 76 199<3 Res.
199!d Res.
76 199<3 Res.
OD ISA SLEl-'.VED OD WASTAGE ADI CE-WELD 18 % TM f.32 HTS HTB HTS SF PF BF
+27 '8
+ !3. 54 1 99$ Res 3. 11 -15.87
+27 '8
~ OD IGA ADI HTB BF 199!3 Res. SLEEVED CE-WELD HTS PF 17 76 1998 Res. OD IGA ADI 3. 72 HTS BF -17 88 ~
1'? 98 Res. SLEEVED CE-WELD HTS PF +'>7. 8<d 3 77 1998 Res. OD IGA ADI 5 ~ 25 HTS BF -16.13 1'?98 Res. SLEEVED CE-WELD HTS PF +27 8<d 6 / TN
~
5 77 1'? 9!3 R'es. OD NASTAGE 2. 68 HTS SF + !iS. 5/
19'?8 Res. OD IGA ADI 5. 58 HTS SF -16. 38 1'? 9!3 Res. SLEEVED CE-WELD HTB PF + 7.8jd 16 77 199<3 Res.
f 99!d Res.
OD SCC SLEEVED 7'? /
CE-WELD TW <d. 3 ~
HTS HTB SF PF
-17. >3
+27 !d<d
f. 17 'g
~
18 77 1998 Res. OD SCC 97 % TN HTS SF -18.8d 199!d Res. SLEEVED CE-MELD HTB PF +27 1998 Res. OD SCC TW 1. 8<3 HTS SF -18.78 1'? 9!3 Res. SLEEVED CE-CRV HTS PF +27. 8!d 6 78 1 99!3 Res. OD NABTAGE 5 / TN 2.!d5 HTS SF + <3.68 1998 Res. OD IGA ADI 5 6!3
~ HTS SF -15.62 1998 Res. SLEEVED CE-MELD HTS PF ~27 gg 7 78 199g Res. OD ISA ADI 6. 43 HTS BF -18.5/ ~
199<3 Res. SLEEVED CE-WELD HTS PF +27. 8<3 28 7EI 199<3 Res. OD IGA ADI 5.!d8 HTS BF -17. 38 199!3 Res. SLEEVED CE-CRV HTS PF +27.88 B<3 199!3 Res. OD IGA ADI 5. 27 HTS SF -16. 76 199<3 Res. PLUGGED CE-MECH HTS PF 1998 Res. PLUGGED CE-MECH CTS PF 15 8!d 1 99<d Res. OD IGA ADI 7 82
~ HTS
'F
-17. 82 19'?8 Res. SLEE VED CE-WELD HTB F'F +27.88 5 81 f 99!3 Res. OD IGA ADI 3. 75 HTS SF -16.74 1'?98 Res. SLEE:VED CE-CRV HTS PF + 27 8!d 5 / TN
~
7 8 1998 Res.
~
OD WASTAGE 1.1 ~
HTS SF + 8.88 1998 Res. OD IGA ADI 5 ~ 5/ HTB SF 16. 3 1998 Res. SLEEVED CE-CRV HTS PF +27.!d<3 4 83 1998 Res.
1 99i3 Res.
OD SCC PLUGGED Ewi /
CE-MECH TW ig ~ HTS HTS SF PF
-f E! ~ 78 1?98 Res. PLUGGED CE-MECH CTB PF 24 83 1998 Res. OD SCC 91 % TN 24 HTS SF -18.55 Res. SLEFVED CE-CRV HTS PF +.7.88 18 84 199/i 199<3 Res. OD SCC 66 / TW 8. 39 HTS SF -17.5d f 99<8 Res. SLEEVED CE-CRV HTB PF +.7. 88 8 85 19'?!3 Res. OD IGA ADI 8. 84 HTS SF -18. <<6 1998 Res. SLEEVED CE-CRV HTS F'F +27 8!i!
~
11 85 1998 Res. OD IGA ADI 4. 46 HTS SF -16. 87 199!3 Res. SLEEVED CE-CRV HTB PF +27.88 14 EI6 1998 Res. OD SCC 89 / TW 8. 37 HTS SF -15.98 1998 Res. SLEEVED CE-CRV HTB PF 27 8!
72 / TW
~
15 S6 199!d Res. OD SCC 2. 17 HTS SF ,17.69 1998 Res.
1998 Res.
OD SCC SLEEVED 77 / TN CE-CRV
!d HTS HTS SF -f
+27.
E!. 29 8<3 TOTAL TUBES FOUND 183 TOTAL INDICATIONS FOUND 5-1 TOTAL TUBES IN INPUT FILE 183 TOTAL TUBES INSPECTED 183 Table 6 (Cont'd)
Page 62 of 69
GINNA STEAN GENERATOR TUBE INSPECTION AHD CORRECTIVE ACTIOH HISTORY TOTAL PRI NARY TUBES NO. PLUGCED NO. PLUGGED TO REQUI RIHG TYPE 14$ % RETURHED RETURNED SECONDARY CORRECTIVE OF REQUIRED Hl. TUBES IIO. TUBES TO SERVICE TO SERVICE HO. SLEEVES NO. PULLED TOTAL TOTAL DATE NO. TUBES INSPECTED LEAKAGE, GPH ACTIOH DEGRADATION REPAIRS PLUGGED SLEEVED V 1TH SLEEVE V ITHOUT SLEEVE PLUGGED TUBES PLUGCED SLEEVED CONNEHT A 8 A 9 A 8 A 8 A 8 A 8 A 8 A 8 A 8 A '8 A 8 HOT COLD HOT COLD IN FACTORY I I I I I I I I I I I I I I I I I 8 I APRIL 1912 1$ 5$ I I I I I I I I I I I I I I I I I QRCH 1914 3259 516 1898 516 19 I VASTAGE 19 I 19 I I I I I I I 8 2 I 19 I I I NO V. 1974 17II 43I 672 39 2 I VASTAGE 2 I 2 I I I I I I I I I I 2 I I I QRCH 1975 2174 442 1931 442 S.IIS A 5/G 46 11 CRACK INC/VASTACE 46 11 46 11 I I I I I I I 2 I 46 11 I I JAL 1978 I I 53 I I.$91 8 S/G I 2 VASTAGE I 2 I 2 I I I I I I I I I I 2 I I ffB. 1978 3192 3192 3247 3247 39 2 VASTACE 39 2 39 2= S I I I I I I I P 39 2 I I )
APRIL 1978 ISI I 1$ 25 75 l.l99 8 S/G 15 CRACKING I 15 I 15 I I I I I I I I I I 15 I I APRIL 1977 2ll3 268 1525 268 13 2 I/ASTAGE 13 I 13 I I I P I I I I I I 13 I I I JULT 1977 3bl $ .$ 12 B S/G I 6 ID CRACKIHG P 5 I 5 I I I I I I I I I I 5 I I JAL 1918 $ .$ 6 8 S/C I 8 CRACK IHG/VASTAGE I 8 I 8 I I I I I I I I 8 I I APRIL 1978 2$ 49 325 1114 375 I 15 ID CRACKIHG I 15 15 I I I I I I I I I 15 I I FEB. 1979 2$ 49 325 1714 375 I 6 CRACKING/VASTAGE/IQ I 6 I 6 I I I I S I I I I I 6 I I DEC. 1979 $ .$ $ 7 8 S/G I 13 IGA/VASTAGE I 13 I 13 I I I I I I I P I I 13 I I APRIL 198l 3139 325 3182 375 I 31 h'PITTIHC/'8'IQ I 13 I 34 I I I I I I I I 3 I 34 I I I NOV. 198l 3138 325 3151 375 I I ICA I 2 I 5 I I I I I I I I I I 5 2 HAY 1981 3138 325 '3141 4$ I I IQ/VASTAGE I 6 I I 16 I I I I I I 3 I 4 I 16 3 FEB. 1982 3137 526 314$ $ 26 7$ $ 8 5/G I 18 IQ/NECH. DAN I 16 I 18 I I I I I I I I I I 18 I I 4 SEP. 1982 3138 382 3129 893 I 33 IQ I 28 I 33 I I I I I I I I I I 33 I I APRIL 1983 3137 633 3I96 832 4 IGA/SCC I 23 I 3 4 74 I I I I I I I I 4 4 73 5 QRCH 1984 3137 717 3I93 963 I I IQ/SCC $ 5 I I I 9 I I I I I I I I 2 I 8 QRCH 1985 3135 3135 3$ 87 3$ 87 3 IGA/SCC/VASTAGE 3 7$ 2 4 2 67 I I I I I I I 2 4 2 67 6 ffB. 1988 3134 623 3$ 83 77$ 6 27 IGA/SCC/VASTAGE 2 49 I 27 6 3$ I 3 I I I I I I 24 6 33 7 ffB. 1987 3128- I 2884 I 34 73 IGA/SCC 17 78 ll 72 24 8$ I I I I 3 I I II 75 24 71 8 ffB. 1988 3122 1517 2723 13$ 1 7 41 IQ/SCC 18 14 58 I I I I I I I I I 15 59 -1 -I 9 QR. 1988 I I 2$ 8 I $ .13 9 S/G I 9 IQ/SCC I 6 I 8 I I I I I I I I I I 9 I -I IS QR. 1989 3128 1668 28I5 1486 177 445 IQ/SCC/PVSCC/VAS 21 142 36 73 132 3$ 6 64 18 4 5 I I 22 -4 137 365 ll QR. 199$ 2949 663 2437 653 75 211 IGA/SCC/PVSCC/VAS 18 7l 22 2$ 56 163 28 I 5 I 2 I 24 -8 51 19$ 12 43l 981 2$ 8 433 224 75$ 95 18 1$ 13 6 9 197 332 223 832 K. J. Vechter 26-Apr-9$
TABLE Rev. I Page 63 of 69
.A STEAM GENERATOR TUBE INSPECTION AND CORRECTIVE ACTION HISTORY COMMENTS FROM TABLE 7 (1) Pulled R15 C55 and R17 C41 from the hot leg and R17 C40 from the cold leg to determine IGA conditions in the "B" steam generator.
R17 C41 and ECT indications at all. frequencies, R15 C44 had only 100 kHz Absolute ECT indication and R17 C40 had no ECT indication.
Both hot leg tubes had approximately 504 IGA, R17 C41 had a 60% SCC indication associated with the IGA.
(2) Manually sleeved 5 tubes with nickel plated Inconel 600 thermally treated sleeves. Three tubes had IGA indications, two others were preventatively sleeved.
Sleeved 16 tubes with co-extruded sleeves, 13 with defects and 3 preventatively. Pulled Hot Leg tubes R21 C4'6 with a 100 kHz ECT indication, R7 C45 and R28 C 45 which were clean tubes.
(4) Recovery from the January 25, 1982 Tube Rupture Event including removing 26 tube sections by EDM and ID cutters along with the one tube pulled from the secondary side.
(5) The four tubes identified with IGA in the "A" steam generator were sleeved with 22" tubesheet sleeves. The 78 tubes identified in the Page 64 of 69
4 "B" steam generator with IGA and/or SCC in the crevice were repaired as follows:
41 tubes were sleeved with 36" brazed sleeves 9 tubes were sleeved with 28" brazed sleeves 24 tubes were sleeved with 22" tubesheet sleeves 1 tube and 2 sleeves were plugged 1 tube R34 C54 was pulled for metallurgical analysis (6) The two tubes identified with IGA in the crevice in the "A" steam generator inlet were sleeved with 20" tubesheet, sleeves. One indication >40% TWD in the U-bend was permanently plugged. The 70 tubes identified in the "B" steam generator were repaired as follows:
56 tubes were sleeved with 20" tubesheet sleeves 10 tubes were sleeved with 36" brazed sleeves 3 tubes were mechanically plugged (CE removable) 1 tube was explosively plugged 1 tube was sleeved with a 36" brazed sleeve due to the domino effect.
(7) The five tubes identified with crevice indications in the "A" steam generator inlet were s1eeved with 27" Combustion Engineering (CE)
Sleeves. One tube identified with an O.D. general indication above the secondary side tubesheet was also sleeved with a 27" CE sleeve.
Page 65 of 69
l.
0
The 57 tubes identified in the "B" steam generator were repaired as follows:
27 tubes were sleeved with 27" CE sleeves 27 tubes were mechanically plugged (CE removable) 3 CE Mechanical Plugs installed in 1985 were removed and sleeved with 27" sleeves The present sleeve installation status is 83 brazed sleeves, 88 tube sheet sleeves, 30 welded CE sleeves in the "B" steam generator with 6 tubesheet sleeves and 6 welded CE sleeves in the "A" steam generator.
(8) The 34 tubes identified with crevice indications in the "A" steam generator inlet were repaired as follows:
10 tubes were mechanically plugged (CE removable) 24 tubes were sleeved with 27" CE welded sleeves The 153 tubes identified with crevice indications in the "B" steam generator inlet were repaired as follows:
72 tubes were mechanically plugged (CE removable) 80 tubes were sleeved with 27" CE welded sleeves 1 CE welded sleeve (installed in 1987) was plugged with a CE welded sleeve plug due to rejection of upper weld.
Other repairs required in the "B" steam generator are as follows:
2 B&W test brazed sleeves (installed in 1980) were plugged due to the loss of the primary to secondary pressure boundary as detected by the Hydro Test.
Page 66 of 69
5 Westinghouse explosive plugs installed prior to 1987 were removed due to leakage and replaced with CE welded plugs.
1 CE Mechanical Plug on the cold leg was removed and replaced with a CE Mechanical Plug.
4 CE welded sleeves (installed in 1987), are considered as "leak limiting" due to the marginal acceptance of the upper welds.
(9) In the "A" steam generator, 15 tubes were plugged for the following reasons:
7 tubes had tubesheet crevice indications 7 tubes for no confirmed AVB support 1 CE sleeve for unverified upper expansion In "B" steam generator, 61 tubes were plugged for the following reasons:
39 tubes had tubesheet crevice indications 2 tubes were missplugged in the hot leg during 1987 outage 8 tubes to box existing plugs were AVB support could not be verified.
'0 tubes for no confirmed AVB support 1 tube for flow peaking consideration due to AVB placement 8 Westinghouse Explosive Plugs were removed and replaced with welded "Top Hat" Plugs Page 67 of 69
l
~1
) The "B" steam generator had 9 tubes plugged for the following reasons:
6 tubes had tubesheet crevice indications identified by a review of the February data. These were removed from service with CE mechanical plugs.
2 tubes had signal changes from February to March. The tubes were removed from service with CE mechanical plugs.
1 B&W tubesheet sleeve identified by the hydrostatic pressure test was removed from service with a B&W explosive plug in the hot leg and a CE mechanical in the cold leg.
(ll) A total of 177 tubes in "A" steam generator were repaired in 1989 as follows:
137 CE 27" welded sleeves (straight and periphery) 40 Tube and/or sleeve plugs 2 Previously plugged tubes stabilized (not counted as repaired)
A total of 445 tubes were repaired in "B" steam generator were repaired as follows:
367 CE 27" welded sleeves (straight and periphery) 78 Tubes and/or sleeve plugs 1 Previously plugged tube stabilized (not counted as repaired)
Page 68 of 69
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) A total of 75 tubes in "A" steam generator were repaired in 1990 as follows:
51 CE 27" welded sleeves (straight and periphery) 24 Tube and/or sleeve plugs (includes pulled tubes R25-C63 and R31-C66)
A total of 211 tubes were repaired in "B" steam generator were repaired as follows:
191 CE 27" welded sleeves (straight I and periphery) including 28 deplugged tubes 20 Tubes and/or sleeve plugs (includes B&W tubesheet sleeve noted during hydro)
Page 69 of 69
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ML17250B176

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ML17250B176

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