Day Steam Generator Tube Inspection Report for the 14th Refueling Outage

ML071730476
Person / Time
Site:	Waterford
Issue date:	06/21/2007
From:	Murillo R Entergy Nuclear South, Entergy Operations
To:	Document Control Desk, Office of Nuclear Reactor Regulation
References
W3F1-2007-0030
Download: ML071730476 (31)
v • d • e

Text

Etergy Entergy Nuclear South Entergy Operations, Inc.

17265 River Road Killona, LA 70057-3093 Tel 504-739-6715 Fax 504-739-6698 rmurilI~entergy.com Robert J. Murillo Licensing Manager Waterford 3 W3F1 -2007-0030 June 21, 2007 U.S. Nuclear Regulatory Commission Attn: Document Control Desk Washington, DC 20555

SUBJECT:

180-Day Steam Generator Tube Inspection Report for the 14 TH Refueling Outage Waterford Steam Electric Station, Unit 3 Docket No. 50-382 License No. NPF-38

Dear Sir or Madam:

Attached is the 180-Day RF14 Steam Generator Tube Inspection Report for Entergy Operations, Inc (EOI) Waterford Steam Electric Station Unit 3. This report is -being submitted in accordance with Technical Specifications 6.9.1.5 and provides the complete results of Refueling Outage 14 Steam Generator Tube Inspection.

If you have any questions or require additional information, please contact Ron Williams at 504-739-6255.

Very truly yours, RJ M/RLW/d pg Attachments

1. 180-Day Steam Generator Tube Inspection Report for the 14 TH Refueling Outage

2. Tables of Location, Orientation and Measured Sizes of Service Induced Indications

,AOD(

W31F11-2007-0030 Page 2 cc:

Dr. Bruce S. Mallett Regional Administrator U. S. Nuclear Regulatory Commission Region IV 611 Ryan Plaza Drive, Suite 400 Arlington, TX 76011-8064 NRC Senior Resident Inspector Waterford Steam Electric Station Unit 3 P.O. Box 822 Killona, LA 70066-0751 U. S. Nuclear Regulatory Commission Attn: Mr. N. Kalyanam Mail Stop 0-07D1 Washington, DC-20555-0001 Wise, Carter, Child & Caraway ATTN: J. Smith P.O. Box 651 Jackson, MS 39205 Louisiana Department of Environmental Quality Office of Environmental Compliance Surveillance Division P.O0. Box 4312 Baton Rouge, LA 70821-4312 American Nuclear Insurers Attn: Library Town Center Suite 300S 2 9 th S. Main Street West Hartford, CT 061 07-2445

Attachment I To W3FI -2007-0030 180-Day Steam Generator Tube Inspection Report for the 14TH Refueling Outage to W3F11-2007-0030 Page 1 of 7 180-Day Steam Generator Tube Inspection Report for the' 14 TH Refueling Outage

REFERENCES:

1. NRC Letter dated July 31, 2006, 'Steam Generator Tube Integrity" (Amendment 204) from M. B. Fields to J.E., Venable

2. NRC Letter dated August 29, 2006, "Steam Generator Tube Inspections and Repair Criteria Within the Hot-Leg Tubesheet Region" (Amendment 207) from M.B. Fields to J.E. Venable

1.0 INTRODUCTION

This report is submitted in accordance with Technical Specification 6.9.1.5. This specification requires the results of the steam generator tube inspection, performed in accordance with Specification 6.5.9, Steam Generator (SG) Program, be submitted within 180 days after initial entry into HOT SHUTDOWN following completion of the inspection.

This report includes:

A. The scope of inspections performed on each SG.

B. Active degradation mechanisms found.

C. Nondestructive examination techniques utilized for each degradation mechanism.

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

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

F. Total number and percentage of tubes plugged to date.

G. The results of condition monitoring, including the results of tube pulls and in-situ testing and assessment of accident-induced leakage from all tubesheet indications.

H. The effective plugging percentage for all plugging in each SG.

2.0 Steam Generator Design The Waterford 3 Model 70 re-circulating steam generators were designed and fabricated by Nuclear Steam System Supplier Combustion Engineering (CE), Inc. in accordance with ASME Code,Section III NB for Class I vessels. The Waterford 3 steam generators each consist of 9,350 high temperature mill annealed Inconel 600 U-tubes arranged in a one-inch inner diameter triangular pitch pattern representing 103,574 ft2 of heat transfer area. The U-tubes are 3/4" O.D. by 0.048' nominal wall thickness explosively expanded the full depth of the tubesheet (CE's Explansion Process) and welded to the primary cladding. The secondary tube bundle support structure consists of carbon steel eggcrates. The secondary supports are arranged in the following order:

seven full horizontal eggcrate supports six horizontal partial eggcrate supports two anti-vibration straps (hot and cold batwings) ito W3Fl -2007-0030 Page 2 of 7

• seven vertical straps (also called Batwings at Waterford 3)

Waterford 3 began refueling outage (RE) 14 in November 2006 with 8532 tubes in SG #31 and 8643 tubes in SG #32 in service.

3.0 Inspection Content A. The Scope of Inspections Performed on EachSG The RF14 initial inspection plan included:

1.

100% full length 0.600" bobbin examination (Rows 3 and up), 100%/ 0.600" bobbin examination of hot and cold leg straight sections in Rows 1 and 2.

2. 100% +Pt inspection of all eggcrate distorted signal indication (DSI) signals.

3. 100% +Pt inspection of all >2V dents at eggcrates (based on RF1 3 bobbin data).

4. 20% +Pt inspection at dented diagonal bar and vertical strap locations >2V.

5. 20% +Pt inspection at freespan dings >5V.

6. 100% hot leg Top of the Tube Sheet (UTS) +Pt inspection in each SG from 3 inches above to 12 inches below UTS.

7. 100% Row 1 and 2 small radius U-bend +Pt inspection in each SG using a mid-range +Pt coil.

8. 100% +Pt inspection of all newly reported indications at diagonal bar and vertical straps (confirmation of mechanism).

9. 100% +Pt inspection of historical % Through-Wall (TW) indications at diagonal bar and vertical straps.

10. 100% +Pt inspection special interest testing including:

a. freespan signals unresolved in history or showing change;

b. any bobbin signal suggestive of tube wear at eggcrate structures;

c. any bobbin signal suggestive of axial degradation within the cold leg tubesheet region;

d. possible loose part (PLP) or loose part indication (LPI) signals reported either by bobbin or RPC; all surrounding tube locations would also be inspected with RPC;

e. Three tube deep peripheral cold leg top'of tubesheet inspection with +Pt coil from 3 inches above to 3 inches below top of tubesheet (PLP concern)

The inspection plan was developed to specifically address the areas of active degradation as well as areas expected to be affected based on recent industry experience as well as experience from the Spring 2005 Waterford 3 inspection and recent industry inspection results.

to W3F1 -2007-0030 Page 3 of 7 B. Active Degradation Mechanisms Found

• Axial Outer Diameter Sress Corrosion Cracking (ODSCC) at non-dented eggcrate intersections Longitudinal (axial) 005CC at vertical strap structures

• Axial ODSCC in the hot leg sludge pile freespan region and expansion transition region Circumferential ODSCC at the hot leg TTS expansion transition

• Axial PWSCC at the hot leg expansion transition and expanded tubesheet region Circumferential Primary Water Stress Corrosion Cracking (PWSCC) at the hot leg TTS expansion transition and expanded tubesheet region Wear at eggcrate, diagonal bar, and vertical strap structures Tube wear due to foreign objects C. Nondestructive Examination Technique Sheets (ETSS) Utilized for Each Degradation Mechanism Table C-i Techniques Mechanism Location Probe Detection ETSS Sizing ETSS Thinig Los PrtWer obin96001.0 96001.1 Thinin I oos Prt earBobinRev.

11 Rev. 11 Wear at Tube Support Structures (TSP &

Bobbin 96004.1 96004.1 AVB)

Rev. 10 Rev. 10 Axial ODSCC at Dented Locations *5.0 Bobn24013.1N/

Volts in the Freespan BobnRev.

2NA Axial ODSCC at Non-Dented EC and Bobn96008.1 96008.1 Sludge Pile BobnRev.

14 Rev. 14 Pitin i te reenc o Cppr obin96005.2 96005.2 Pitingin hePreenc ofCoperBobinRev.

9 Rev. 9 Axial PWSCC at Dented Support Bobbin 9021N/A Structures <2.0 Volts Rev. 11 Wear at Tube Support Structures (TSP &

+Pin 96910.1 96910.1 AVB) onRev.

10 Rev. 10 Voumtrc t respn egon

+oit21998.1 21998.1 Volmetic t FeepanRegons+PontRev. 4 Rev. 4 Axial ODSCC at Support Structures, 21409.1CE

-li Freespan., Sludge Pile and Tubesheet

+Point Rev. 5 CO-5 Crevice to W31F11-2007-0030 Page 4 of 7 Table C-i Techniques (cont)

Mechanism Location Probe Detection ETSS Sizing ETSS Circ. 005CC at Expansion Transitions

+Point Rev1.1 6

107197 2051.1 20510.19 Circ. PWS CC at Expansion Transition

+Point Rev1.1 70Rev.17 Axil WSC t xpnsonTrnstin Pont20511.1 20511.1 Axil PSC atExanson rasiton+PontRev.

8 Rev. 8 Cic.PWCCatDete Lcaios Pont 20510.1 20510.1 Cir. PSC atDenedLoctios Poit*Rev.

7 Rev. 7 AxalPWCCatDete Lcaios Pont96703.1 96703.1 Axil PSCCat entd Lcatons+PontRev.

17 Rev. 17 Axil DSC a

Dnte Spprt octins Pont22401.1 22401.1 Axil 05C a

Dnte Spprt octins PontRev.

4 Rev. 4 Axial/Circ. PWSCC at Low Row U-Be6d

+Pit96511.2 96511.2 Locations

+PitRev.

16 Rev. 16 Axial 005CC at Low Row U-Bend

+Point 21409.1 CEOG-Il151 Locations Rev. 5 Circ. 005CC at Low Row U-Bend

+Pit21410.1 EPRI TR-Locations

+PitRev.

6 107197

.CEOG-1 151 - Use of this report for sizing SCC at dented intersections will be conservative as the measured flaw amplitude will include dent influence.

D. Location, Orientation (if linear), and Measured Sizes (if avai lable) of Service Induced Indications See Attachment 2 to WYF1 -2007-0030.

0 0

0 0

Table D-1 'Service Induced Indications SG31 - RF14" Table D-2 "Service Induced Indications SG32 - RF14" Table D-3 "Percent of Wall-Thickness Penetrations for SG31 - RF14" Table D-4 "Percent of Wall-Thickness Penetrations for SG32 - RF14" to W3Fl -2007-0030 Page 5 of 7 E. Number of Tubes Plugged During the Inspection Outage for Each Active Degradation Mechanism Table E-1 Waterford 3 RFO 14 Repair Summary November / December 2006 Tube Status SG -31 SG -32 Tubes inservice prior to RF 8532 8643 Total Number of tubes previously removed from service 818 707 Repair Candidates from RF014:

Hot Len Top of Tubesheet Axial Indications (Above UTS) 3 1

Hot Leg Top of Tubesheet Circ. Indications (Above TTS) 0 1

Hot Leg Tube Sheet Axial Indications (Within Tubesheet) 26 5

Hot Legq Tube Sheet Circ. Indications (Within Tubesheet) 35 4

Tubesheet with Axial and Circumferential Indications 4

0 Tubesheet and Support Plate with Axial Indications 1

0 Tubesheet Circumferential and Support Plate Axial Indications 2

0 Support Plate With Axial Indications 89 28 Batwings With Axial Indication 2

7 Batwings With Axial Indication and Support Plate Axial Indication 1

0 Batwings With Volumetric Indication 0

0 Customer Decision Preventative (NSY, PLP. PVN or NTEIPTE) 1 1

Customer Decision Preventative Bobbin Percents <400%

0 0

Hot Leg Volumetric Indications 0

1 Cold Leg Volumetric Indications 0

.0 Row 1 - Row 2 U-Bend Indications 0

0 Bobbin Percents => 40%/

0 1

Total Candidate Tubes to be Repaired 164 49 Hot Leg Stabilizers Installed During RF0114 56 19 Cold Leg Stabilizers installed During lRFO1 4' 12 51 Tubes Plugged During RF014 - EC Results 164 49 Tubes Plugged During RF014 - Batwing Preventative*

206 429 Total Tubes Pluciced -Post RF014 1176 1167 Hot Leg Total Tubes Deplugged and Replugged - Post RFO1 4 11 13 Cold Leg Total Tubes DeiIugged and Replugged - Post RF014 13 18 Note: Above Tubesheet is all calls =>.01 " above.

Note: Within Tubesheet is all calls =<.c00".

Note: ' Denotes Includes Deplugged tubes I___________

Note: SG31 Row 20 Col 68 only De-plugged in Cold Leg Note: SG32 Row 1 Col 115 Has a Plug installed in Cold Leg Only Note: SG31 Row 15 Col 111 Deplugged in error in Cold Leg and Replugged Page 1 Page 112/2212006 3:41 PMV to W3F1-2007-0030 Page 6 of 7 F. Total Number and Percentage of Tubes Plugged to Date Table F-i WF3 Historical Plugging Year Outage EFPY SG31 SG32 Total

% Plug Cumulative Plugs Plugs 1985 Pre-154 169 323 1.7 323 Service 1986 RE0l 1.01 0

0 0

1.7 323 1987 RF02 2.08 0

1 1

1.7 324 1989 RF03 3.31 11 8

19 1.8 343 1991 RF04 4.55 161 161 322 3.6 665 1992 RF05 5.83 4

5 9

3.6 674 1994 RF06 7.15 4

2 6

3.6 680 1995 RF07 8.52 15 4

19 3.7 699 1997 RF08 9.90 29 26 55 4.0 754 1999 RF09 11.02 12 10 22 4.2 776 2000 RF10 12.37 28 38 66 4.5 842 2002 RF1l1 13.70 26 10 36 4.7 878 2003 RF12 15.18 127 50 177 5.6 1055 2005 RF13 16.68 247 223 470 8.2 1525 2006 RF14 18.12 358 460 818 12.5 2343 Total 1176 1167 2343 to W3F1 -2007-0030 Page 7 of 7 G. The Results of Condition Monitoring, Including the Results of Tube Pulls, In-situ Testing, and Assessment of Accident-Induced Leakage from all Tubesheet Indications Waterford 3 did not perform any tube pulls and no in-situ testing was required during RF14.

based on the Waterford 3 RF14 inspection results, no tubes contained indications which represented a challenge to structural or leakage integrity and all condition monitoring requirements are satisfied. Structural and leakage integrity was established by analysis and through comparison of past in situ testing results as well as by comparison of observed flaw parameters against the leaking testing thresholds established by EPRI TR-1 007904 Steam Generator In Situ Pressure Test Guidelines Rev 2.

No primary to secondary leakage is predicted for the eddy current indications observed at RF14 in the event of a postulated SLB event. The relative severity levels of the observed degradation was judged consistent with or bounded by the levels associated with the RF13 inspection, and recent inspections of similar CE SGs.

Waterford 3 has a current Plant Specific Leakage limit of 0.375 gallons per minute for an "accident-induced leakage limit" and applies a reduction of 0.1 gallons per minute (reference 2) to this value to provide the basis for the approved tube leakage integrity criteria. The inspection requirements described in TS 6.5.9.c.1 applies an alternate repair criteria which utilized this reduction. The predicted leakage is zero, thus the accident-induced leakage limit is met.

During the Waterford RF14 steam generator tube inspection, no indications exceeding the structural integrity limits for either axial or circumferential degradation (i.e., burst integrity > 3 times normal operating primary to secondary pressure differential across SG tubes) were detected. Therefore, no tubes were identified to contain eddy current indications that could potentially challenge the tube integrity recommendations of NEI 97-06 Revision 2, "Steam Generator Program Guidelines".

Similarly, all operational assessment structural and leakage integrity requirements are satisfied at EOC-115 for the degradation mechanisms observed at EOC-114.

H. Effective Plugging Percentage for all Plugging in Each SG Table H-I Effective Plugging Percentage Generator

1. Plugged

% Plugged SG31 1176 12.58%

SG32 1167 12.48%

To W3FI -2007-0030 Tables of Location, Orientation and Measured Sizes of Service Induced Indications A to W3F 1-2007-0030 Table D-1 Service Induced Indications SG31 -RE 14 1 of 6 Circ

+Pt Depth Crack Voltage Count SG ROW COL VOLTS DEG IND LOCN INCHI LENGTH Degrees Mechanism Based 1

31 76 38 0.13 100 MAI 01H

-0.77 0.18 ODSCC 27 2

31 9

49 0.23 101 MAI 06H 0.82 1.05 ODSCC 37 3

31 17 15 0.41 123 SAl 03H 0.94 0.44 ODSCC 42 4

31 12 18 0.14 119 SAl TSH 0.13 0.29 ODSCC 28 5

31 22 18 0.62 15 SAI TSH

-9.62 0.15 IDSCC 57 6

31 25 19 0.43 115 SAl 03H 0.98 0.3 ODSCC 43 7

31 49 19 0.7 20 SAl TSH

-10.09 0.09 IDSCC 58 8

31 49 19 0.54 16 SAl TSH

-9.97 0.12 IDSCC 55 9

31 52 20 0.16 150 SAI 01H 0.71 0.24 ODSCC 28 10 31 67 21 0.68 13 SAl TSH

-10.16 0.19 IDSCC 58 11 31 38 26 0.15 120 SAl 03H

-0.08 0.43 ODSCC 29 12 31 11 27 10.25 121 SAl 03H 0.72 0.43 ODSCC 34 13 31 16 32 0.28 118 SAl 01H 0.84 0.4 ODSCC 35 14 31 42 32 0.15 47 SAl BW5 0.79 0.19 ODSCC 29 15 31 42 32 0.14 40 SAl BW5 0.74 0.17 ODSCC 28 16 31 39 33 0.29 118 SAl 03H 0.98 0.48 ODSCC 33 17 31 1

41 0.31 100 SAl 07H

-0.19 0.69 ODSCC 37 18 31 4

42 0.33 104 SAI 01H

-0.19 0.28 ODSCC 38 19 31 56 42 0.25 116 SAl 03H 0.95 0.21 ODSCC 34 20 31 38 44 0.17 139 SAl 06H 0.89 0.39 ODSCC 26 21 31 88 44 0.27 101 SAl 05H 0.49 0.72 ODSCC 38 22 31 95 45 0.14 54 SAI 08H 0.78 0.15 ODSCC 29 23 31 107 45 0.26 103 SAl 07H 0.88 0.19 ODSCC 34 24 31 60 46 0.64 102 SAl 07H

-1.01 0.79 ODSCC 54 25 31 104 48 0.16 105 SAl 01H 0.9 0.21 ODSCC 29 26 31 7

49 0.45 11 SAl TSH

-8.13 0.19 IDSCC 52 27 31 116 50 0.14 163 SAl 02H

-0.03 0.09 ODSCC 27 28 31 4

52 0.34 89 SAl 07H 0.35 0.24 ODSCC 39 29 31 58 52 0.52 112 SAl 05H 0.65 0.66 ODSCC 48 30 31 100 52 0.16 105 SAl 01H

-0.58 0.24 ODSCC 29 31 31 38 54 0.3 104 SAl 07H 0.46 0.77 ODSCC 37 32 31 64 54 0.27 110 SAl 05H 0.61 1.2 ODSCC 32 33 31 72 54 0.31 119 SAl 07H 0.95 0.33 ODSCC 36 34 31 72 54 0.16 ill SAl 03H 0.89 0.32 ODSCC 29 35 31 53 55 0.42 104 1SAl 04H 0.95 0.54 ODSCC 43 36 31 34 56 0.37 117-SýAl1 04H 0.9 0.81 ODSCC 40 37 31 34 56 0.46 112 1SAl 06H 0.5 0.81 ODSCC 45 A to W3F1 -2007-0030 2 of 6 Table D-1 Service Induced Indications SG31 -RF14 Circ

+Pt Depth Crack Voltage Count SG ROW COL VOLTS DEG IND LOCN INCHI LENGTH Degrees Mechanism Based 38 31 29 57 0.19 122 SAl 06H

-0.13 0.24 ODSCC 31 39 31 44 58 0.37 117 SAl 06H 0.49 1.14 ODSCC 40 40 31 47 59 0.27 114 SAI 06H 0.85 0.54 ODSCC 35 41 31 34 60 0.5 104 SAI 04H 0.55 0.69 ODSCC 47 42 31 40 60 0.59 14 SAl TSH

-3.54 0.15 IDSCC 56 43 31 40 60 0.23 95 SAl 07H 0.81 0.36 ODSCC 33 44 31 44 62 0.18 101 SAl 04H 0.98

.0.38 ODSCC 30 45 31 65 63 0.33 127 SAI 08H 0.87 0.72 ODSCC 38 46 31 72 64 0.21 61 SAl 03H 0.58 0.15 ODSCC 32 47 31 72 64 0.41 123 SAl 05H

-0.66 0.53 ODSCC 42 48 31 72 64 0.16 130 SAl 05H 0.71 0.3 ODSCC 29 49 31 43 65 0.71 13 SAl-TSH

-2.41 0.56 IDSCC 59 50 31 38 66 0.38 14 SAl TSH

-2.26 1.6 IDSCC 50 51 31 29 67 0.42 92 SAl 07H

-0.32 0.36 ODSCC 43 52 31 31 67 0.48 12 SAl TSH

-1.42 0.29 IDSCC 53 53 31 82 68 0.09 54 SAl 05H 0.76 0.27 ODSCC 25 54 31 60 74 0.47 108 SAl 05H 0.74 0.45 ODSCC 43 55 31 77 75 0.28 132 SAI 01H 0.3 0.36 ODSCC 35 56 31 77 75 0.26 110 SAI 08H 0.63 0.39 ODSCC 34 57 31 87 75 0.81 11 SAl TSH

-8.78 0.38 IDSCC 61 58 31 1,13 75 0.16 138 SAl 01H

-0.55 0.17 ODSCC 29 59 31 55 81 0.29 129 SAl 05H 0.23 1.01 ODSCC 31 60 31 55 81 0.29 87 SAl 05H 0.9 0.16 ODSCC 35 61 31 63 81 0.18 105 SAl 05H 0.81 0.2 ODSCC 28 62 31 69 81 0.11 105 SAl 04H 0.78 0.4 ODSCC 24 63 31 121 81 0.23 70 SAl 02H 0.69 0.44 ODSCC 26 64 31 69 83 0.85 97 SAl 03H 0.78 0.79 ODSCC 63 65 31 74 84 0.68 23 SAl TSH

-1.83 0.19 IDSCC 58 66 31 90 88 0.32 106 SAl 03H

-0 0.18 ODSCC 38 67 31 72 96 0.3 88 SAl 05H 0.54 0.33 ODSCC 37 68 31 72 96 0.14 87 SAl 06H 0.73 0.24 ODSCC 28 69 31 108 96 0.21 100 SAl 02H 0.79 0.19 ODSCC 32 70 31 94 100 0.34, 143.

SAl 03H

-0.99 0.18 ODSCC 39 71 31 94 100 0.23 91 SAl 04H 0.42 0.36 ODSCC 33 72 31 94 100 0.26 100 SAl BW3 0.97 0.58 ODSCC 45 73 31 54 102 0.32 107 SAl TSH 10.13 0.17 ODSCC 38 74 31 68 104 0.14 116 SAl 04H-T

-0.78 0.39 ODSCC 28 A to W3F1 -200 7-0030 Table D-1 Service Induced Indications SG31 -RF14 3 of 6 Circ

+Pt Depth Crack Voltage Count SG ROW COL VOLTS DEG IND LOCN INCHI LENGTH Degrees Mechanism Based 75 31 90 104 0.28 70 SAl 09H 0.56 0.36 ODSCC 35 76 31 55 105 0.13 97 SAI 01H 0.91 0.33 ODSCC 26 77 31 46 106 0.59 13 SAl

_TSH

-1.02 0.13 IDSCC 56 78 31 46 106 0.52 12 SAl

_TSH

-0.75 0.23 IDSCC 54 79 31 90 106 0.19 97 SAl

_TSH

-0.12 0.15 ODSCC 31 80 31 99 107 0.27 85 SAl

_06H 0.66 0.29 ODSCC 35 81 31 34 108 0.31 12 SAl

_TSH

-0.52 0.13 IDSCC 48 82 31 46 108 0.52 12 SAl

_TSH

-7.33 0.2 IDSCC 54 83 31 46 108 0.3 9

SAl

_TSH

-7.12 0.16 IDSCC 47 84 31 124 108 0.2 121 SAl 0_1H 0.67 0.27 ODSCC 31 85 31 46 110 0.68 16 SAl

_TSH

-2.3 1.87 IDSCC 58 86 31 92 110 0.3 101 SAl 04H 0.6 0.41 ODSCC 37 87 31 33 ill 0.46 11 SAl

_TSH

-1.25 0.19 IDSCC 53 88 31 33 111 0.55 13 SAl

_TSH

-0.85 0.47 IDSCC 55 89 31 67 ill 0.48 19 SAl

_TSH

-6.45 0.18 IDSCC 53 90 31 67 ill 0.45 12 SAl

_TSH

-6.15 0.15 IDSCC 52 91 31 105 ill 0.25 96 SAl 0_1H

-0.58 0.39 ODSCC 34 92 31 31 113 0.45 11 SAl

_TSH

-1.47 0.15 IDSCC 52 93 31 39 113 0.82 13 SAl TSH

-2.94 0.25 IDSCC 61 94 31 39 113 0.56 9

SAlI

_TSH

-0.78 0.25 IDSCC 55 95 31 39 113 0.38 106 SAl 06H 0.93 0.39 ODSCC 41 96 31 73 113 0.08 40 SAl 06H 0.76 0.15 ODSCC 25 97 31 103 113 0.26 80 SAl 09H 0.65 0.15 ODSCC 34 98 31 46 114 0.41 14 SAl TSH

-3.82 0.18 IDSCC 51 99 31 21 115 0.23 83 SAl 05H 0.82 0.28 ODS__

0CC 33 100 31 39 115 0.38 11 SAl TSH

-1.22 0.22 IDS__

0CC 50 101 31 39 115 0.41 8

SAl TSH

-0.44 0.19 IDS__

0CC 51 102 31 51 115 0.32 99 SAl 03H 0.75 0.46 ODSCC 38 103 31 57 115 0.53 14 SAl TSH

-1.55 0.15 IDSCC 54 104 31 59 115 0.6 17 SAI TSH

-5.32 0.12 IDS__

0CC 56 105 31 5

117 0.47 79 SAl 07H 0.1 0.32 ODS__

0CC 45 106 31 39 117 0.62 12 SAl

_TSH

-1.66 0.12 10CC 57 107 31 32

.118 0.69 16 SAl

_TSH

-1.41 0.2 IDS__

0CC 58 108 31 32 118 0.51 16 SAl

_TSH

-0.54 0.2 IDSCC 54 109 31 46 118 0.19 81 SAl 03H 0.94 0.53 ODS__

0CC 31

• 110 31 27 119 0.15 92 SAl 06H 0.85 0.13 ODSCC 29 ill 31 14 122 0.25 151 SAl 01H 0.02 10.19 O___

DSCC 34 A to W3F11-2007-0030 Table D-1 Service Induced Indications SG31 -RF14 4 of 6 Circ

+Pt Depth Crack Voltage Count SG ROW COIL VOLTS DEG IND LOCN INCHI LENGTH Dere Mechanism Based 112 31 14 122 0.24 110 SAl 01H 0.26 0.17 ODSCC 33 113 31 14 122 0.18 116 SAl 02H 0.7 0.26 ODSCC 30 114 31 40 122 0.38 99 SAl 07H

-0.66 0.24 ODSCC 41 115 31 42 122 0.15 70 SAl 01H 0.79 0.3 ODSCC 29 116 31 37 123 0.16 104 SAl TSH 0.68 0.16 ODSCC 29 117 31 40 124 0.1 89 SAl 01H 0.75 0.47 ODSCC 26 118 31 46 124 0.5 96 SAl 06H 1.06 0.55 ODSCC 47 119 31 53 125 0.73 16 SAl TSH

-7.35 0.19 IDSCC 59 120 31 53 125 0.28 24 SAl TSH

-5.75 0.13 IDSCC 46 121 31 119 125 0.38 124 SAl 01H

-0.2 0.46 ODSCC 41 122 31 38 126 0.21 114 SAl 01H 0.73 0.25 ODSCC 32 123 31 44 126 0.19 118 SAl 03H1 0.79 0.39 ODSCC 28 124 31 44 126 0.1 81 SAl 06H1 0.71 0.65 ODSCC 26 125 31 2

128 0.79 19 SAl TSH

-11.16 0.48 IDSCC 60 126 31 4

128 0.36 122 SAl 07C

-0.6 0.3 ODSCC 40 127 31 15 129 0.3 105 SAl 07C 0.82 0.82 ODSCC 37 128 31 12 130 0.23 126 SAl 02H 0.56 0.27 ODSCC 33 129 31 30 130 0.21 109 SAl 06H 0.83 0.22 ODSCC 32 130 31 2

132 0.28 133 SAl 01H1

-0.25 0.23 ODSCC 35 131 31 3

133 0.45 108 SAl 01H1

-0.55 0.24 ODSCC 44 132 31 79 133 0.31 112 SAl 01H

-0.61 0.54 ODSCC 37 133 31 38 134 0.11 95 SAl 01H 0.84 0.63 ODSCC 26 134 31 38 134 0.21 102 SAl 06H 0.88 0.53 ODSCC 32 135 31 40 134 0.32 94 SAl Bw5 0.54 0.26 ODSCC 38 136 31 42 134 0.19 119 SAl 06H 1

0.48 ODSCC 31 137 31 6

136 0.17 92 SAl 02H 0.73 0.19 ODSCC 30 138 31 44 136 0.63 15 SAl TSH

-12.1 0.2 IDSCC 57 139 31 29 137 0.47 94 SAl 07H1 0.76 0.76 ODSCC 45 140 31 87 137 0.68 13 SAl TSH

-6.38 0.16 IDSCC 58 141 31 21 139 0.32 146 SAi 02H 0.84 0.3 ODSCC 38 142 31 16 146 0.1 140 SAl 02H1 0.26 0.14 ODSCC 26 143 31 16 146 0.19 139 SAl 02H1 0.62 0.14 ODSCC 31 144 31 16 146 0.18 106 SAl 0211 0.75 0.17 ODSCC 30 145 31 29 149 0.56 95 SAl 07H

-0.35 0.79 ODSCC 46 146 31 36 154 0.18 130 SAl 0311

-0.63 0.36 ODSCC 30 147 31 15 155 0.22 130 SAi 03H 0.67 0.24 ODSCC 32 18 31 16 156 0.23 120 SAl 0311 0.72 0.26 ODSCC 33 A to W3F1 -2007-0030 5 of 6 STable D-1 Service Induced Indications SG31 -RF14 Circ

+Pt Depth Crack Voltage Count SG ROW COL VOLTS DEG IND LOCN INCHI LENGTH Degrees Mechanism Based 149 31 49 157 0.31 128 SAl 03H 0.53 0.29 ODSCC 37 150 31 10 158 0.18 60 SAl 03H 0.76 0.29 ODSCC 30 151 31 22 158 0,39 107 SAl 06H 0.72 0.56 ODSCC 41 152 31 7

163 0.19 134 SAl 03H 0.73 0.19 ODSCC 31 153 31 12 164 0.14 140 SAl 03H 0.71 0.14 ODSCC 28 154 31 14 164 0.25 138 SAl 03H

-0.16 0.1 ODSCC 34 155 31 4

174 0.15 103 SAl TSH

-0.18 0.22 ODSCC 28 156 31 11 25 0.71 23 SC!

TSH

-13.42 39 IDSCC 59 157 31 19 39 0.29 16 SC!

TSH

-7.7 26 IDSCC 47 158 31 4

40 1.93 22 SC!

TSH

-3.53 84 IDSCC 75 159 31 9

41 0.57 19 SC!

TSH

-7.5 63 IDSCC 55 160 31 43 43 0.39 12 SCI TSH

-9.1 55 IDSCC 50 161 31 43 43 0.29 33 SC!

TSH

-6.55 32 IDSCC 47 162 31 54 44 0.77 38 SCI TSH

-9.22 6IDSCC 60 163 31 37 45 0.46 12 SC!

TSH

-12.08 63 IDSCC 53 164 31 37 45 0.88 34 SCI TSH

-8.89 64 IDSCC 62 165 31 37 45 0.42 16 SC!

TSH

-6.39 34 IDSCC 51 166 31 51 51 0.56 22 SC!

TSH

-5.82 93 IDSCC 55 167 31 44 52 0.25 18 SC!

TSH

-11.69 31 IDSCC 45 168 31 43 57 1.32 17 SC!

TSH

-3.01 64 IDSCC 68 169 31 43 57 0.88 24 SC!

TSH

-2.57 35 IDSCC 62 170 31 43 57 0.7 26 SC!

TSH

-2.29 35 IDSCC 60 171 31 9

59 0.3 21 SC!

TSH

-6.53 47 IDSCC 47 172 31i 47 59 0.38 14 SC!

TSH

-7.22 37

!DSCC 50 173 31 40 62 0.8 23 SCI TSH

-11.99 58 IDSCC 60 174 31 40 62 0.32 13 SC!

TSH

-1.93 48 IDSCC 48 175 31 46 62 0.33 15 SC!

TSH

.-7.41 42 IDSCC 48 176 31 23 63 0.39 16 SCI TSH

-2.77 35 IDSCC 50 177 31 64 80 0.55 22 SC!

TSH

-6.33 39 IDSOC 55 178 31 74 84 0.32 15 SC!

TSH

-5.82 32 IDSCC 48 179 31 76 88 0.48 18 SC!

TSH

-6.22 31 IDSCC 53 180 31 97 95 0.32 19 SC!

TSH

. 4.95 26 IDSCC 48 181 31 97 95 0.27 26 SC!

TSH

-4.88 39

!DSCC 46 182 31 53 103 2

32 SC!

TSH

-11.09 43

!DSCC 76 183 31 84 104 0.56 21 SC!

TSH

-6.99 59

!DSCC 55 184 31 46 106 0.38 20 SC!

TSH

-3.59 43

!DSCC 50 185 31 46 106 0.57 10 SC!

TSH

-2.38 43

!DSCC 55 A to W3F1 -2007-0030 Table D-1 Service Induced Indications SG31 -RF14 6 of 6 Circ

+Pt Depth

-Crack Voltage Count SG ROW COL VOLTS DEG IND LOCN INCHI LENGTH Degrees Mechanism Based 186 31 55 107 0.33 16 SCI

_TSH

-8.48 32 IDSCC 48 187 31 46 108 0.27 24 SCI

_TSH

-2.46 42 IDSCC 46 188 31 46 108 0.26 29 SCI

_TSH

-1.93 55 IDSCC 46 189 31 46 108 0.43 25 SCI

_TSH

-1.81 29 IDSCC 49 190 31 46 108 0.3 20 SCI TSH

-1.42 34 IDSCC 52 191 31 48 110 0.39 16 SCI

_TSH

-1.56 56 IDSCC 50 192 31 41 111 0.29 20 SCI

_TSH

-2.24 43 IDSCC 34 193 31 57 111 0.32 15 SCI

_TSH

-10.72 48 IDSCC 34 194 31 57 ill 0.43 18 SCI

_TSH

-4.34 47 IDSCC 34 195 31 78 112 0.45 20 501

_TSH

-8.09 40 IDSCC 52 196 31 46 114 0.28 17 SCI TSH

-9 58 IDSCC 46 197 31 48 116 0.58 16 501 TSH

-4.34 35 IDSCC 56 198 31 18 118 0.92 25 SCI

_TSH

-9.6 55 IDSCC 63 199 31 48 118 0.41 13 501

_TSH

-8.59 34 IDSCC 51 200 31 29 119 0.36 16 SCI

_TSH

-3.94 50 IDSCC 49 201 31 65 119 0.28 14 SCI

_TSH

-4.18 58 IDSCC 46 202 31 69 119 0.33 17 501

_TSH

-8.62 59 IDSCC 48 203 31 14 124 0.34 17 SCI

_TSH

-6.44 37 IDSCC 50 204 31 38 126 0.63 24 501

_TSH

-11.45 37 IDSCC 57 205 31 38 126 0.51 23 SCI

_TSH

-8.67 43 105CC 54 206 31 38 126 0.33 27 SCI TSH

-7.63 37 IDSCC 48 207 31 34 130 0.55 18 SCI

_TSH

-1 2.29 31 IDSCC 55 208 31 34 130 0.39 17 SCI

_TSH

-9.33 42 IDSCC 50 209 31 45 135 0.7 19 SCI

_TSH

-9.84 50 105CC 58 210 31 43 137 0.2 19 SCI

_TSH

-5.05

.43 IDSCC 43 211 31 33 139 1.05 26 SCI

_TSH

-11.28 100 IDSCC 66 B to W3F1 -2007-00 30 Table D-2 Service Induced Indications SG32 - RF14 1 of 2 Circ

+Pt Depth Crack Voltage Count SG ROW COL VOLTS DEG IND LOCN INCHI LENGTH Degrees Mechanism Based 1

32 1

3 0.49 117 MCI TSH 0.14 188 ODSCC 46 2

32 16 20 0.2 65 SAl 02H

-0.81 0.13 ODSCC 31 3

32 9

21 0.24 103 SAl 05C 0.76 0.15 ODSCC 33 4

32 16 24 0.16 96 SAl 03H 0.83 0.17 ODSCC 29 5

32 16 24 0.11 114 SAl 05H 0.82 0.29 ODSCC 26 6

32 11 25 0.23 100 SAl 04H 0.87 0.23 ODSCC 33 7

32 10 34 0.24 96 SAl 05H 0.91 0.17 ODSCC 33 8

32 10 36 0.34 101 SAl 03H 0.91 0.17 QOSOC 39 9

32 123 41 0.4 109 SAl BW8 1.07 0.57 ODSCC 42 10 32 123 45 0.38 119 SAl 03H

-0.57 0.97 ODSCC 38 11 32 123 45 0.35 140 SAl 03H 0.29 1

ODSCC 38 12 32 40 46 0.24 89 SAl 07H

-0.16 0.45 ODSCC 33 13 32 91 49 0.2 114 SAl BW6 0.85 0.69 ODSCC 31 14 32 10 56 0.19 105 SAl 03H 0.84 0.14 ODSCC 31 15 32 18 56 0.25 95 SAl 03H 0.83 0.17 ODSCC 34 16 32 18 56 0.19 94 SAl 07H 0.75 0.2 ODSCC 31 17 32 123 63 0.15 56 SAl BW2

-0.8 0.2 ODSCC 29 18 32 123 63 0.15 106 SAl BW2

-0.01 0.34 ODSCC 29 19 32 85 67 0.5 15 SAl TSH

-0.87 0.29 IDSCC 54 20 32 51 71 0.31 77 SAI 08H

-0.84 0

ODSCC 37 21 32 124 72 0.25 90 SAl BW2 0.81 0.34 ODSCC 34 22 32 71 75 0.08 66 SAl 01H 0.78 0.11 ODSCC 25 23 32 75 81 0.21 133 SAl 01H 0.83 0.19 ODSCC 32 24 32 61 85 0.23 78 SAl 05H

-0.32 0.26 ODSCC 33 25 32 83 89 0.2 81 SAl 05H 0.65 0.16 ODSCC 31 26 32 91 89 0.18 77 SAl BW3

-0.79 0.2 ODSCC 30 27 32 63 93 0.15 118 SAl 04H

-0.21 0.2 ODSCC 29 28 32 101 93 0.45 18 SAl TSH

-10.68 0.16 IDSCC 52 29 32 101 93 0.47 19 SAl TSH

-10.15 0.13 IDSCC 53 30 32 101 93 0.51 23 SAl TSH

-10.02 0.23 IDSCC 54 31 32 85 95 0.23 112 SAl 03H 0.18 0.21 O___

DSCC 33 32 32-99 95 0.16 140 SAl 05H

-0.16 0.17 ODSCC 29 33 32 69 97 0.13 90 SAl 08H

-0.66 0.27 ODSCC 27 34 32 55 101 0.23 113 SAl 07H 0.74 0.19 ODSCC 33 35 32 95 103 0.22 82 SAl 06H 0.85 0.18 ODSCC 32 36 32 133 103 0.36 78 SAl BW2 0.58 0.59 ODSCC

.40 37 32 50 108 0.24 42 SAl 08H

-0.6 0.16 ODSCC 3

B to W3F1 -2007-0030 Table D-2 Service Induced Indications SG32 - RF14 2 of 2 Circ

+Pt Depth Crack Voltage Count SG ROW COL VOLTS DEG IND LOCN INCHI LENGTH Degrees Mechanism Based 38 32 133 109 0.32 59 SAl BW3

-0.2 0.47 ODSCC 38 39 32 98 110 0.11 88 SAl TSH 0.09 0.19 ODS__

0CC 26 40 32 59 ill 0.69 14 SAl TSH

-2.79 0.29 IDS__

0CC 58 41 32 22 116 0.2 82 SAl 01H 0.91 0.3 SCC 31 42 32 5

121 0.28 94 SAl 01H

-0.96 0.26 ODSCC 35 43 32 107 121 0.36 11 SAl TSH

-10.52 0.13 IDSCC 49 44 32 107 121 0.75 18 SAl TSH

-10.47 0.33 10CC 59 45 32 40 138 0.14 134 SAl 04H 0.93 0.41 ODSCC 28 46 32 51 145 0.18 103 SAl 06H 0.88 0.41 ODSCC 32 47 32 65 151 0.6 19 SAl TSH

-11.66 0.19 IDSCC 56 48 32 21 167 0.22 113 SAl 02H 0.12 0.48 ODSCC' 32 49 32-21 169 0.16 93 SAl 03H

-0.3 0.27 ODSCO 29 50 32 145 75 0.16 125 Sdl

_TSH

-0.24 22 ODSCC 29 51 32 73 91 0.74 17 SCI

_TSH

-0.04 32 IDSCC 59 52 32 73 95 0.24 31 SCI

_TSH

-0.29 45 IDSCC 45 53 32 71 99 0.23 14 SCI

_TSH

-0.16 37 IDSCC 44 54 32_

71 99 0.54 16 SCI

_TSH

-0.13 1____ 35 IOISOCC 55 55 32 92 120 06.08 1

79 SVI

_TSH 0.18 1___ 50 1PLP Wear I___

I_

0 to W3F1 -2007-0030 Table D-3 Percent of Wall-Thickness Penetrations for SG31 - RF1 4 1 of 5 Count SG ROW COL IND PER LOCN INCHI 1

31 41 5

POT 8

06H

-0.83 2

31 8

6 POT 9

03H 0.72 3

31 42_

6 POT 19 BW5

-0.51 4

31 5

7 POT 16 207H

-0.67 5

31 74 14 POT

'15 BW1

-1.9 6

31 74 14 POT 21 BW4 0.73 7

31 19 15 POT 10 BW5

-0.83 8

31 19 15 POT 8

BW5 1.09 9

31 61 15 POT 10 BW5

-0.98 10 31 61 15 POT 8

BW5 0.97 11 31 61 15 POT 23 BW6

-0.91 12 31 61 15 POT 9

BW6 0.97 13 31 36 16 POT 11 BW5 0

14 31 64 16 POT 14 BW5

-0.95 15 31 64 16 POT 8

BW5 0.99 16 31 45 17 POT 12 BW5 0.87 17 31 36 18 POT 12 BW5

-1.18 18 31 36 18 POT

__7 BW5 1.04 19 31 62 18 POT 12 BW4 0.83 20 31 42 20 POT 13 BW5

-0.8 21 31 81 21 POT 23 080 0.79 22 31 32 22 POT 10 BW5

-0.9 23 31 78 22 POT 7

BW5 0.72 24 31 78 22 POT 7

BW6 0.93 25

31.

70 24 POT 11 BW5

-0.9 26 31 70 24 POT 9

BW6 0.85 27 31 37 25 POT 14 BW5

-0.71 28 31 37 25 POT 15 BW5 0.65 29 31 19 27 POT 9

BW5 0.83 30 31 77 27 POT 8

BW4

-0.66 31 31 77 27 POT 10 BW5

-0.72 32 31 77 27 POT 9

BW5 0.9_8 33 31 77 27 POT 15 BW6

-0.72 34 31 77 27 POT 10 BW6 0.76 35 31 50 28 POT 8

BW5

-0.77 36 31 50 28 POT 12 BW5 0.9 37 31 66 28 POT 10 030 0.48 38 31 105 31 POT 9

BW7

-0.92 39 31 107 31 POT 13

_BW7

-0.78 40 31 70 32 POT 9

080

-0.39 41 31 82 32 POT 13 BW4 0.9 42 31 100 32 POT 18 09H

-0.9 43 31 114 34 POT 18 8W9 1.98 44 31 55 35 POT 10 BW4 0.68 45 31 61 35 POT 10 BW5 0.95 46 31 61 35 POT 11 BW6 0.82 47 31 77 35 POT 8

BW5

-0.92 48 31 77 35 POT 7

BWS 0.9 49 31 105 35 POT 28 BW5 0.86 50 31 59 37 POT 16 BW6

-0.75 51 31 80 38 POT 8

BW4 0.73 C to W3F1 -2007-0030 2 of 5 Table D-3 Percent of Wall-Thickness Penetrations for SG31 - RF1 4 Count SG ROW COL IND PER LOCN INCHI 52 31 80 38 POT 7

BW5

-0.87 53 31 80 38 PCT 16 BW6

-0.76 54 31 82 38 PCT 12 BW5

-0.82 55 31 82 38 PCT 25 BW6

-0.79 56 31 21 39 PCT 7

BW5 0.74 57 31 51 39 POT 4

BW6 1.02 58 31 113 39 PCT 18 BW7 0.8 59 31 2

40 PCT 13 04C 0.93 60 31 42 40 PCT 10 BW5 0.89 61 31 50 40 POT 12 BW5

-1.04 62 31 37 41 PCT 10 BW5

-0.86 63 31 39 41 PCT 23 BW5

-0.99 64 31 39 41 POT 10 BW5 0.86 65 31 102 42 PCT 28 BW3

-0.83 66 31 1

43 PCT 4

07H 0.51 67 31 45 43 PCT 8

BW5

-0.89 68 31 45 43 POT 6

BW5 0.92 69 31 59 43 POT 5

BW5 0.93 70 31 105 45 PCT 11 BW7 0.72 71 31 123 45 PCT 10 02H 0.89 72 31 22 46 POT 7

BW5

-0.84 73 31 128 46 POT 15 02H

-0.2 74 31 45 49 POT 12 BWS 0.91 75 31 59 49 POT 13 BW5 0.98 76 31 99 51 POT 7

04H 0.18 77 31 131 51 POT 8

10H 0.64 78 31 46 52 POT 16 BW5 0.72 79 31 43 53 POT 13 BW5 71.01 80 31 105 53 POT 15 BW3

-0.96 81 31 105 53 POT 15

-BW3

-0.84 82 31 133 53 POT 9

090

-0.95 83 31 82 54 POT 15 BW5

-0.8 84 31 82 54 POT 26 BW5 1.14 85 31 82 54 POT 12 BW6

-0.81 86 31 82 54 POT 11 BW6 0.59 87 31 19 55 POT 16 BW5 0.93 88 31 24 56 POT 7

BW5

-0.71 89 31 50 56 POT 10 BW5

-0.84 90 31 50 56 POT 14 BW5 1

91 31 23 57 POT 9

BW5 0.84 92 31 51 57 POT 8

BW4 1.01 93 31 105 57 POT 11 BW3

-0.93 94 31 125 57 POT 10 080 0.89 95 31 135 57 POT 11 10H 0.81 96 31 76 58 POT

___2 BW6

-0.67 97 31 129 59 POT 19 BW3

-0.66 98 31 24 60 POT 18 BW5

-0.96 99 31 30 60 POT 22 BW5 0.96 100 31 32 60 POT 17 BW5 0.65 101 31 138 60 POT 12 09H

-1.11 102 31 81 61 POT 19 BW4 0.8 C to W3F1 -2007-0030 3 of 5 Table D-3 Percent of Wall-Thickness Penetrations for SG31 - RF14 Count SG ROW COIL IND PER LOCN INCHI 103 31 82 62 POT 10 BW4

-0.88 104 31 138 62 PCT 11 01H 0.82 105 31 19 63

ýPOT 11 BW5 1.11 106 31 35 63 POT 13 BW5 0.96 107 31 61 63 POT 11 BW5 1.11 108 31 63 63 POT 9

BW5 1.05 109 31 63 63 POT 11 BW6 0.7 110 31 137 65 POT 19 BW4 0.85 Lill 31 44 66 POT 25 BW5 0.79 112 31 50 66 POT 36 BW5

-0.92 113 31 51 67 POT 24 BW4 0.88 114 31 51 67 POT 12 BW5

-0.92 115 31 135 67 POT 18 BW3

-0.74 116 31 46 70 POT 21 BW5

-0.8 117 31 46 70 POT 30 BW5 0.86 118 31 78 72 POT 14 080

-0.92 119 31 108 74 POT 12 BW3

-0.91 120 31 103 75 POT

__6 02H 0.73 121 31 133 77 POT 18 BW3

-0.66 122 31 133 77 POT 17 BW4

-0.74 123 31 68 78 POT 27 BW6 1.11 124 31 136 78 POT 13 BW2

-0.88 125 31 61 79 POT 8

BW5 0.88 126 31 78 80 POT 11 BW5

-0.72 127 31 78 80 POT 8

BW6 0.85 128 31 83 81 POT I1I BW3 1.02 129 31 107 81 POT 12 BW3 0.65 130 31 143 81 POT 22 03H

-0.89 131 31 82 82 POT 18 BW5 0.92 132 31 119 83 POT 11 070

-0.18 133 31 82 84 POT 6

BW6

-0.82 134 31 82 84 POT 10 BW6 0.82 135 31 70 88 POT 9

BW9

-1.5 136 31 121 91 POT 8

02H

-0.94 137 31 144 92 POT 9

04H 0.78 138 31 71 93 POT 10 BW9

-1.92 139 31 133 93 POT 7

BW1

-1.67 140 31 56 94 POT 22 BW9 2.14 141 31 82 96 PCT 14 BW5

-0.8 142 31 83 97 PCT 13 BW5

-0.77 143 31 83 97 POT 11 BW6

-0.82 144 31 83 97 POT 8

BW6 0.87 145 31 78 98 POT 11 BW4

-0.74 146 31 78 98 PCT 16 BW6 0.73 147 31 134 98 POT 19 01H 0.45 148 31 78 100 POT 13 BW5

-0.74 149 31 78 100 POT 12 BW5 0.79 150 31 78 100 POT 17 BW6 0.76 151 31 98 100 POT 6

04H 0.8 152 31 73 101 POT I11 BW4 0

153 31 145 103 VOL 21 TSO 0.13 0 to W31F11-2007-0030 4 of 5 Table D-3 Percent of Wall-Thickness Penetrations for SG31 - RF14 Count SG ROW COL IND PER LOCN INCHII 154 31 141 105 POT 22 09H

-0.34 155 31 143 107 VOL 15 TSC 0.21 156 31 42 108 POT 32 BW5

-0.96 157 31 42 108 PCT 20 BW5 0.74 158 31 78 108 POT 12 BW4

-0.75 159 31 78 108 POT 11 BW5

-1.18 160 31 78 108 POT

__8 BW6

-0.72 161 31 140 108 POT 12 08H 0.86 162 31 39 111 POT 17 BW5 0

163 31 22 112 POT 4

BW5 1.02 164 31 42 112 POT

__9 BW5

-0.88 165 31 42 112 POT 8

BW5 0.82 166 31 141 113 POT 13 BW9

-1.19 167 31 _

31 115 POT 17 01H 0.69 168 31 45 115 POT 20 BW5

-0.82 169 31 49 115 POT 20 BW5

-0.88 170 3199 117 POT 13

BW4,

-0.73 171 31 135 119 POT 27 BW2

-0.72 172 31 135 119 POT 16 BW2 1.04 173 31 135 119 POT 19 BW3 0.89 174 31 135 119 POT 20 BW4

-0.98 175 31 135 119 POT 18 BW4 0.83 176 31 135 119 POT 11 BW7

-0.81 177 31 137 119 VOL 13 TSC 0.24 178 31 133 121 POT 19 BW2

-0.89 179 31 133 121 POT 29 BW2 0.98 180 31 133 121 POT 11 BW3

-0.49 181 31 133 121 POT 9

BW4

-0.61 182 31 74 124 POT 9

BW4 0.8 183 31 74 124 POT 28 BWS

-0.84 184 31 74 124 POT

__9 BW5 0.69 185 31 74 124 POT 13 BW6

-0.74 186 31 132 124 POT 15 08H 0.81 187 31 133 125 POT 10 070

-1.19 188 31 40 126 POT 10 BW5 0

189 31 72 126 POT 13 BW4

-0.65 190 31 72 126 POT 19 BW4 0.67 191 31 72 126 POT 8

BW5

-1.18 192 31 72 126 POT 8

BWS 0.2 193 31 82 126 POT 10 BW6 1.06 194 31 131 127 POT 9

07H 0.94 195 31 76 128 POT 13 BW4 1.06 196 31 76 128 POT 13 BW5

-0.86 197 31 76 128 POT 11 BW5 1.04 198 31 76 128 POT 13 BW6

-0.79 199 31 76 128 POT 23 BW6 1.07 200 31 105 129 POT 8

BW1 1.97 201 31 127 129 POT 11 BW2

-0.99 202 31 128 130 POT 6

01H 0.73 203 31 74 134 POT 9

BW6 0.82 204 31 63 137 POT 7

BW4

-0.79 C to W3F1 -2007-0030 5 of 5 Table D-3 Percent of Wall-Thickness Penetrations for SG31 - RF14 Count SG ROW COIL IND PER LOCN INCHII 205 31 63 137 PCT 13 BW5

-0.82 206 31 78 138 POT 11 BW4

-0.93 207 31 82 138 POT 7

BW4

-0.92 208 31 82 138 PCT 6

BW4 0.69 209 31 82 138 POT 10 BW5 0.47 210 31 82 138 POT 20 BW6 1.1 211 31 67 139 POT 11 080 0.87 212 31 76 140 POT 11 BW4

-1.05 213 31 76 140 POT 12 BW5 0.76 214 31 76 140 POT 22 BW6 0.98 215 31 82 140 POT 20 BW4 0.42 216 31 82 140 POT 24 BW6

-0.81 217 31 82 140 POT 12 BW6 0.76 218 31 92 140 POT 5

02H 0.49 219 31 78 142 POT 9

BW4

-0.91 220 31 78 142 POT 7

BW5 0.12 221 31 78 142 POT 10 BW6

-0.89 222 31 82 142 POT 14 BW6

-0.67 223 31 48 144 POT 28 BW5

-1 224 31 48 144 POT 15 BW5 0.854 225 31 74 144 POT 7

BW5 0.88 226 31 74 144 POT 10 BW6 0.85 227 31 78 144 POT 30 BW4

-0.78 228 3178 144 POT 27 BW4 0.78 229 31 78 144 POT 15 BW5

-0.78 230 31 78 144 POT 19 BW5 0

231 31 78 144 POT 14 BW6

-0.61 232 31 78 144 POT 24 BW6

-1 233 31 95 145 POT 19 090 0.72 234 31 81 147 POT 13 BW6 0.63 235 31 83 149 POT 17 BW7 0.51 236 31 83 155 POT 12 080

-0.73 237 31 2

156 VOL 21 TSO 0.5 238 31 44 156 POT 12 BW5 0.78 239 31 82 158 POT 27 010 0.84 240 31 81 159 POT 13 BW9 1.85 241 31 12 160 POT 16 03H 0.96 242 31 18 164 POT 14 02H 1.02 243 31 19 167 POT 23 BW5 0.83 244 31 42 170 POT 22 010 0.24 245 31 16

_172 POT 11 010

-0.41 246 31 5

175 POT 11 010

-0.1 0 to W3F1 -2007-0030 1 of 7 Table 0-4 Percent of Wall-Thickness Penetrations for SG32 - RF1 4 Count SG ROW COIL IND PER LOCNI INCHI 1

32 19 3

PCT 28 BW5 0.97 2

32 46 6

POT 17 BW5

-0.96 3

32 2

8 PCT 11 BW9

-0.99 4

32 41 9

PCT 13 BW5

-0.29 5

32 44 10 POT 14 BW5

-0.97 6

32 44 10 POT 26 BW5 1

7 32 65 11 POT 10 010 0.22 8

32 6711 POT 31 BW6

-0.8 9

32 67 11 POT 19 BW6 0.89 10 32 19 13 POT 11 05H 0.38 11 32 23 15 POT 8

BW5

-0.7 12 32 33 15 POT 14 BW5

-0.98 13 32 T44 16 POT 31 BW5

-0.98

,14 32 44 16 POT 22 BW5 0.95 15 32 82 16 POT 11 BW9

-1.26 16 32 35 17 POT 10 BW5

-1.01 17 32 48 18 POT 36 BW5

-0.95 18 32 48 18 POT 28 BW5 1.04 19 32 62 18 POT 11 01H 0.94 20 32 4

20 POT 12 060

-0.1 21 32 74 20 POT 14 BW9

-1.59 22 32,

80 20 POT 15 BW9 1.64 23 32 90 20 POT 21 09H

-1.08 24 32 79 21 POT 18 8W9 1.74 25 32 81 21 POT 17 BW6

-0.87 26 32 82

.22 POT 11 BW9 2.06 27 32 79 23 POT 15 BW9 1.81 28 32 76 24 POT 16 BW4

-0.82 29 32 76 24 POT 17 BW5

-0.67 30 32 76 24 POT 16 BW6 0.93 31 32 19 25 POT 26 BW5

-0.92 32 32 19 25 POT 18 BW5 1

33 32 69 25 POT 18 BW6 0.86 34 32 79 25 POT 16 BW6 0.89 35 32 79 25 POT 24 BW9 1.77 36 32 81 25 POT 14 BW4

-0.82 37 32 101 25 POT 6

BW1

-1.74 38 32 101 25 POT 33 BW1 1.91 39 32 80 26 POT 14 080

-0.98 40 32 82 26 POT 9

BW5

-0.98 41 32 82 26 POT 8

BW5 0.93 42 32 82 26 POT 14 BW6

-0.87 43 32 82 26 POT 18 BW6 0.96 44 32 1

27 POT 10 060 0.42 45 32 23 27 POT 12 BW5

-0.87 46 32 79 27 POT 20 BW9 1.99 47 32 81 27 POT 11 BW4

-0.9 48 32 81 27 POT 10 BW4 0.71 49 32 81 27 POT 17 BW6 0.97 50 32 101 27 POT 16 BW9 1.89 51 32 4

28 POT 13 050

-0.77 D to W3F1 -200 7-0030 2 of 7 Table D-4 Percent of Wall-Thickness Penetrations for SG32 - RF1I4 Count SG ROW COIL IND PER LOCN INCHI 52 32 4

28 PCT 11 030

-0.31 53 32 80 28 POT 15 BW6 1.04 54 32 82 28 POT 13 BW4

-0.62 55 32 82 28 PCT 14 BW5

-1.02 56 32 82 28 PCT 27 BW6 0.92 57 32 1

29 POT 13 03C 0.82 58 32 77 29 POT 21 BW6 0.85 59 32 48 30 POT 11 BW5

-0.81 60 32 94 30 POT

___7 090 0

61 32 94 30 POT 11 090 1.04 62 32 104 30 VOL 19 070 1.22 63 32 3

31 POT 24 050 0.99 64 32 43 31 POT 9

BW5

-0.95 65 32 107 31 POT 11 BWI

-1.41 66 32 4

32 POT 11 050

-0.83 67 32 46 32 PCT 21 BW5

-0.95 68 32 46 32 POT 7

BW5 0.13 69 32 33 33 POT 18 BW5

-0.8 70 32 81 33 POT 20 BW5

-0.86 71 32 81 33 POT 21 B W5 0.9 72 32 81 33 POT 12 BW9 1.9 73 32 83 33 POT 11 BW5 0.82 74 32 59 35 POT 26 BW6 0.86 75 32 69 35 POT 13 BW5 0.98 76 32 83 35 POT 21 BW5 0.82 77 32 83 35 POT 17 BW7

-0.89 78 32 83 35 POT 14 BW7 0.82 79 32

.111 35 POT 17 09H

-0.98 80 32 100 36 POT 8

BW5

-0.88 81 32 108 36 POT 19 BW1 1.83 82 32 43 37 POT 22 BW5

-0.88 83 32 43 37 POT 18

_BW5 0.8 84 32 77 37 POT 13 BW4

-0.91 85 32 77 37 POT 16 BW4 0.88 86 32 77 37 POT 14 BW5

-0.99 87 32 77 37 POT 18 BW5 0.78 88 32 ill 37 POT 15 BWI 1.59 89 32 41 39 POT 13 BW5 0.85 90 32 117 39 POT 17 BW5

-0.85 91 32 44 40 POT 19 BW5

-1.02 92 32 44 40 POT 14 BW5 0.71 93 32 46 40 POT 14 BW5 0.68 94 32 94 40 POT 26 BW3

-0.95 95 32 94 40 POT 12 BW5

-1.03 96 32 94 40 POT 12 BW6

-0.83 97 32 94 40 POT 23 BW6 0.91 98 32 81 41 POT 26 BW5

-0.9 99 32 81 41 POT 27 BW5 0.76 100 32 81 41 POT 24 BW6

-0.95 101 32 81 41 POT 7

BW6 0.91 10-2 32 83 41 POT 12 BW3 0.94-0 to W3F1 -2007-0030 3 of 7 Table D-4 Percent of Wall-Thickness Penetrations for SG32 - R1714 Count SG ROW COIL IND PER LOCN INCHI 103 32 96 42 PCT 14

_BW3

-0.81 104 32 96 42 POT 7

BW3 0.78 105 32 96 42 POT 21 BW5

-1.04 106 32 114 42 POT 19 080 0.88 107 32 119 43 POT 15 080 0.96 108 32 125 43 POT 22 030 0.96 109 32 2

44 POT 13 03H 0.85 110 32 22 44 POT 12 BW5

-0.84 ill 32 124 44 POT 12 BW6 0.79 112 32 1

45 POT 16 04C

-0.34 113 32 1

45 POT 10 040 0.71 114 32 67 45 POT 17__

0.9__

115 32 48 46 POT 12__

-1.08_

116 32 80 46 POT 24 080

-0.9 117 32 44 48 POT 17 0.9 118 32 74 48 POT 21____0.9 119 32 74 48 POT 36 BW5 0.96 120 32 74 48 POT 17___

0.62_

121 32 80 48 POT 29 BW5

-0.86 122 32 126 48 POT 10 090

-0.9 123 32 3

49 POT 14 050

-0.82 124 32 77 49 POT 13 BW5 0.73 125 32 79 49 POT 14 BW6

-0.57 126 32 81 49 POT 23 BW5 0.78 127 32 81 49 POT 20 BW6

-0.72 128 32 81 49 POT 10 BW6 0.66 129 32 81 49 POT 21 080 0.9 130 32 81 49 POT 13 070

-1.03 131.

32 44 50 POT 17 BW5

-0.71 132 32 1

51 POT 14 040 0.78 133 32 47 51 POT 14 BW5 0.88 134 32 77 51 POT 23 8W4

-0.87 135 32 77 51 POT 23 BW6

-0.85 136 32 83 51 POT 9

BW7 1.03 137 32 44 52 POT 17 BW5

-1.09 138 32 44 52 POT 13 BWS 0.72 139 32 46 52 POT 18 BW5

-0.98 140 32 48 52 POT 11 BW5

-1.02 141 32 134 52 POT 11 BW1 1.48 142 32 134 52 POT 13 BW2 0.81 143 32 134 52 POT 15 BW9 1.77 144 32 134 52 POT 12 080

-0.72 145 32 1

53 POT 14 040

-1.05 146 32 35 53 POT 10 BW5

-0.75 147 32 35 53 POT 8

BW5 1.05 148 32 73 53 POT 15 BW5

-0.89 149 32 73 53 POT 20 BW5 0.76 150 32 73 53 POT 28 BW6

-0.91 151 32 73 53 POT 13 BW6 0.15 152 32 73 53 POT 20 BW6 0.73 15-3 32 36 54 POT 15 B-W5 -T

-0.9 D to W3F1 -2007-0030 4 of 7 Table D-4 Percent of Wall-Thickness Penetrations for SG32 - RF 14 Count SG ROW COL IND PER LOCN INCHI 154 32 82 54 PCT 21 BW4 0.81 155 32 114 54 POT 18 BW7 0.92 156 32 107 55 POT 17 BW5 0.25 157 32 107 55 PCT 22 BW5 1.05 158 32 107 55 POT 19 BW6

-0.59 159 32 129 55 POT 21 090 0.9 160 32 24 56 POT 9

BW5

-0.88 161 32 94 56 POT 12 BW3

-0.9 162 32 94 56 POT 15 BW4

-0.87 163 32 73 57 POT 11 BW5

-0.88 164 32 73 57 POT 25 BW6 0.64 165 32 77 57 POT 16 BW5 7-0.81 166 32 77 57 POT 12 BW6

-0.79 167 32 81 57 POT 26 BW4

-0.9 168 32 81 57 POT 16 BW5

-0.96 169 32 81 57 POT 8

BW6

-0.89 170 32 83 57 POT 23 BW3

-0.79 171 32 83 57 POT 15 BW5

-0. 94 172

~

32 83 59 POT 15 BW7

-0.93

.173 32 41 61 POT 15 BW5 0.78 174 32 77 61 POT 27 BW4

-0.67 175 32 77 61 POT 22 BW4 1.13 176 32 133 61 POT 19 BW3 0.76 177 32 133 61 POT 23 BW5 0.93 178 32 137 61 POT 16 090

-0.91 179 32 41 63 POT 11 BW9 1.43 180 32 43 63 PCT 17 BW5 0.86 181 32 137 63 POT 14 090

-0.85 182 32 46 64 POT 21 BW5

-0.74 183 32 46 64 POT 35 8W5 1.07 184 32 82 64 POT 17 BW4

-0.73 185 32 82 64 POT 29 BW4 0.27 186 32 82 64 POT 34 BW4 0.85 187 32 82 64 POT 25 BW6

-0.66 188 32 82 64 POT 15 BW6 0.03 189 32 82 64 POT 14 BW6 0.76 190 32 92 64 POT 18 BW5 1.08 191 32 37 65 POT 15 BW5

-0.78 192 32 119 67 POT 16 090 0.16 193 32 141 69 POT 18 BW5

-0.79 194 32 141 69 POT 12 BW5 0.96 195 32 141 69 POT 18 BW7 0.92 196 32 77 71 POT 17 BW4 0.81 197 32 77 71 POT 18 BW5 0.68 198 32 77 71 POT 15 BW6 0.8 199 32 139 71 POT 19 BW2

-0.89 200 32 92 72 POT 17 BW5

-0.8 201 32 1-41 73 POT 12 05H

-0.21 202 32 141 75 POT 19 BW1 1.98 203 32 143 77 POT 17 BW2

-0.85 204 32 110 78 POT 16 BW6

_r-0.88 D to W3F1 -2007-0030 5 of 7 Table D-4 Percent of Wall-Thickness Penetrations for SG32 - R~l 14 Count SG ROW COL IND PER LOCN INCHI 205 32 112 80 PCT 12 BW3

-1.09 206 32 112 80 POT 8

BW3 0.84 207 32 105 83 PCT 13 08C 1.05 208 32 105 89 PCT 16 BW5 07 209 32 143 89 PCT 12 09H 0.9 210 32 145 89 PCT 16 BW4

-1.01 211 32 145 89 PCT 19 BW7

-0.59 212 32 145 89 PCT 28 BW8

-0.9 213 32 145 89 PCT 20 BW8 0.75 214 32 145 89 POT 15 08C

-0.84 215 32 81 91 PCT 11 BW4 0.65 216 32 81 91 PCT 10 BW5 1.08 217 32 i11 91 POT 14 080 1.03 218 32 119 91 POT 18 080

-0.74 219 32 81 93 POT 13 BW4

-0.68 220 32 81 93 POT 10 BW4 0.88 221 32 98 94 POT 8

BW9

.1.9 222 32 79 95 POT 20 BW4

-0.87 223 32 79 95 POT 17 BW4 0.87 224 32 145 95 POT 23 BW8

-0.92 225 32 145 95 POT

.13 BW8 0.77 226 32 66 96 POT 16 BWI 2.05 227 32 67 97 POT 17 02H

-0.73 228 32 81 97 POT 22 BW4.

0.89 229 32 81 97 POT 26 BW5 0.88 230 32 81 97 POT 15 6W6

-0.69 231 32 144 100 POT 12 BW9

-1.95 232 32 143 103 POT 17 BW9

-1.83 233 32 114 106 POT 14 BW4

-0.25 234 32 77 107 POT 6

BW4

-0.67 235 32 77 107 POT 16 BW5

-0.77 236 32 77 107 POT 31 BW5 0.1 237 32 77 107 POT 31 BW5 0.83 238 32 77 107 POT 16 BW6

-0.7 239 32 77 107 POT 16 BW6

-0.1 240 32 83 107 POT 12 BW3

-0.88 241 32 77 109 POT 21 BW6 0.96 242 32 113 109 POT 21 BW3 0.7 243 32 115 109 POT 10 BW8 1.1 244 32 82 110 POT 13 BW6 0.89 245 32 41 111 POT 20 BW5 0.71 246 32 32 112 POT 9

BW5

-1.18 247 32 32 112 POT 16 BW5 0.78

.248 32 36 112 POT 12 BW5

-1.04 249 32 100 112 POT 12 080 0.75 250 32 114 112 POT 13 BW3 0.89 251 32 81 113 POT 23 BW4 0.95 252 32

.135 113 POT 21 BW8

-0.06 253 32 25 115 POT 9

BW5

-0.89 254 32 123 115 POT 13 080

-0.7 255 32 123 115 POT 10 080 0.98 D to W3F1 -2007-0030 6 of 7 Table D-4 Percent of Wall-Thickness Penetrations for SG32 - Rl 14 Count SG ROW COL IND PER LOCN INCHI 256 32 40 116 PCT 17 BW5 0.97 257 32 46 116 POT 23 BW5 1.04 258 32 106 116 PCT 14 BW7

-0.94 259 32 19 117 PCT 20 BW5

-0.9 260 32 77 117 POT 33 BW6

-0.7 261 32 77 117 POT 21 BW6 0.92 262 32 133 117 PCT 18 BW3 0.78 263 32 74 118 PCT 27 BW4

-0.78 264 32 74 118 POT 31 BW5

-0.75 265 32 74 118 PCT 17 BW6 0.92 266 32 40 122 PCT 10 BW5

-0.97 267 32 40 122 PCT 15 BW5 0.75 268-32 104 122 PCT 17 BW3

-0.88 269 32 37 125 PCT 12 BW5

-0.81 270 32 81 125 PCT 12 BW4 0.81 271 32 127 125 PCT 13 06C

-0.188 272 32 41 127 PCT 18 BW5 0.92 273 32 22 128 POT 11 02H 0.79 274 32 82 128 POT 27 BW5 0.95 275 32 82 128 POT 20 BW6 0.79 276 32 43 129 POT 12 BW5

-0.82 277 32 43 129 POT 12 BW5 0.98 278 32 125 131 POT 16 020 0.91 279 32 111 133 POT 14 BW3 0.83 280 32 123 133 POT 15 030 1.1 281 32 12-5 133 POT 14 BW4

-0.8 282 32 100 134 POT 13 070

-0.16 283 32 92 136 POT 17 BW4

-0.78 284 32 92 136 POT 17 070 0.93 285 32 41 139 POT 14 BW5 0.94 286 32 79 139 POT 17 080

-0.09 287 32 80 140 POT 14 BW9 2.19 288 32 23 141 POT 11 03H 0.89 289 32 37 141 POT 17 BW5

-0.85 290 32 109 141 POT 15 BW5 0.92 291 32 50 142 POT 14 BW5

-0.84 292 32 66 142 POT 13 080 0.84 293 32 105 143 POT 20 09H

-0.76 294 32 105 143 POT 13 09H 0

295 32 105 143 POT 17 BW3 0.92 296 32 105 143 POT 15 BW6

-0.71 297 32 82 144 POT 20 BW5 0.83 298 32 96 144 POT 18 080

-0.78 299 32 104 144 POT 13 04H 0.85 300 32 45 145 POT 30 BW5

-0.81 301 32 45 145 POT 23 BW5 0.88 302 32 84 146 POT

__8 BW9

-1.74 303 32 47 147 POT 13 BW5

-0.81 304 32 47 147 POT 17 BW5 1

305 32 91 147 POT 15 090

-0.96 306 32 103 147 POT 18 090

-1.08 D to W3F1 -2007-0030 7 of 7

.Table D-4 Percent of Wall-Thickness Penetrations for SG32 - RF14 Count SG ROW COL IND PER LOCN INCHI 307 32 82 148 POT 14 BW4

-0.74 308 32 41 149 PCT 37 BW5 0.95 309 32 43 149 PCT 20 BW5 0.91 310 32 49 149 PCT 29 BW5 0.88 311 32 101 149 POT 19 090

-1.05 312 32 101 149 POT 23 090 0.8 313 32 103 149 POT 16 02H 0.85 314 32 103 149 POT 29 09H

-0.21 315 32 103 149 POT 14 09H 0.78 316 32 80 150 POT 10 08H 0.96 317 32 96 152 POT 15 09H

-1.14 318 32 96 152 POT 10 09H

-0.18 319 32 40 154 POT 12 BW5 1.04 320 32 37 155 POT 16 BW5

-0.91 321 32' 66 156 POT 14 080

-0.16 322 32 37 157 POT 20 BW5

-0.99 323 32 37 157 POT 11 BW5 0.91 324 32 85 157 POT 14 090

-1.02 325

.32 86 158 POT 14 BW9 1.82 326 32 83 159 POT 32 BW9 1.5 327 32 70 160 POT 21 080 0.93 328 32 78 160 POT 18 BW9 1.94 329 32 80 160 POT 26 BW9 1.8 330 32 76 162 POT 12 BW1

-1.56 331 32 76 162 POT 20 BW9 1.45 332 32 14 164 POT 16 040

-0.35 333 32 41 167 POT 17 BW5 0.8 334 32 45 167 POT 23 BW5

-0.7 335 32 34 170 POT 15 BW5 0.98 336 32 18 174 POT 16 020

-0.91 337 32 3

175 POT 10 01H

-0.83 338 32 11 175 POT 24 BWI 1.75