Steam Generator Tube Inspection Report

ML101030109
Person / Time
Site:	Seabrook
Issue date:	04/07/2010
From:	O'Keefe M NextEra Energy Seabrook
To:	Document Control Desk, Office of Nuclear Reactor Regulation
References
SBK-L-10065
Download: ML101030109 (41)
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NEXTera ENERGY '

,,ABROK April 7, 2010 SBK-L-10065 Docket No. 50-443 U. S. Nuclear Regulatory Commission Attn: Document Control Desk Washington, DC 20555-0001 Seabrook Station Steam Generator Tube Inspection Report Enclosed is the Seabrook Station Steam Generator Tube Inspection Report. NextEra Energy Seabrook, LLC is submitting this report in accordance with Seabrook Station Technical Specification 6.8.1.7, Steam Generator Tube Inspection Report. This report provides the results of the steam generator tube inspections conducted during refueling outage 13 in October 2009.

If you have any questions regarding this submittal, please contact me at (603) 773-7745.

Sincerely, NextEra Energy Seabrook, LLC.

Michael O'Keefe Licensing Manager Enclosure cc:

S. J. Collins, NRC Region I Administrator G. E. Miller, NRC Project Manager W. J. Raymond, NRC Senior Resident Inspector NextEra Energy Seabrook, LLC, P.O. Box 300, Lafayette Road, Seabrook, NH 03874

Enclosure Steam Generator Tube Inspection Report

Steam Generator Tube Inspection Report 1.0 Introduction During Seabrook's thirteenth refueling outage (ORI 3) in October 2009, Steam Generators (SG) A, B, C, and D were inspected. This was accomplished in accordance with Seabrook Station Technical Specification (TS) 6.7.6.k, Steam Generator (SG) Program. This report presents the results of the inspection pursuant to TS 6.8.1.7, "Steam Generator Tube Inspection Report."

Seabrook Station is a Westinghouse four-loop pressurized water reactor with Model F SGs. The SGs are U-bend heat exchangers with tube bundles fabricated using thermally treated Alloy 600 tubing. A row and column number identifies each tube. There are 59 rows and 122 columns in each SG, for a total of 5,626 tubes. Nominal tube outside diameter (OD) is 0.688" with a 0.040" nominal wall.

Seabrook TS 6.7.6.k and EPRI Steam Generator Examination Guidelines, Revision 7, define the required inspection periods and their duration. For Alloy 600TT tubing, the first inspection interval is up to 120 effective full power months (EFPM); the second inspection interval is 90 EFPM; the third and subsequent inspection intervals are 60 EFPM. OR13 was the last scheduled inspection of the second inspection interval (90 EFPM) at Seabrook. The requirement to complete inspection of 100% of the tubes by the end-point of the inspection interval is met by the inspections performed in ORI 3.

Appendix A provides a list of acronyms used in this report.

2.0 Scope of Inspections Performed The inspection program required by the Seabrook Station TS and the EPRI Steam Generator Examination Guidelines, Revision 7, addresses the known degradation mechanisms observed in Seabrook in prior inspections and potential degradation mechanisms. The defined scope implemented in all 4 SGs during ORI 3 included the following percentages indicating the inspection sample needed to satisfy the end-point requirements:

• 100% Bobbin examination of tubes, full length except for Rows 1 and 2, which are inspected with the bobbin from tube end to TSP#7 on both HL and CL.

• 50% of the U-bends in each of Rows 1 and 2 with + Point to complete 100% of all tubes during the second inspection interval.

• 50% of Ding/Dents >5V on the hot straight leg including the U-bend with +Point.

• 50% of Dings/Dents >2V and <5V in the hot leg straight leg with the bobbin probe.

• 50% of Dings/Dents >2V on the hot leg at structures and in the U-bend with +Point

• 50% Hot leg TTS, +/- 3", + Point examination.

• 50% hot leg, TTS -13.1 OXP/BLG + Point examination Special interest, +Point tests at hot leg and cold leg bobbin possible flaw locations (including U-bends), including all "I-code" indications that were new or not resolved after history review.

• Visual inspection of mechanical and weld plugs.

0 +Point inspection bounding the tubes exhibiting possible loose parts (PLP) signals during the inspection.

• 100% inspection of previously reported wear indications.

• Slippage monitoring 1

The NRC granted Seabrook Station a one-time TS change that effectively changed the definition of where a SG tube starts in the tube sheet. This allowed the inspection program to not consider or inspect the portion of the SG tubing below 13.1 inches from the top of the tubesheet.

Inspection Expansion As a result of finding a single axial crack indication during the top of hot leg tubesheet +point inspection program in SG-C, the inspection scope was increased to perform 100% top of tubesheet +point in that steam generator. Scope increase in the other SGs was not required.

Secondary Side The following work was performed on the secondary side of the SGs:

0 0

S 0

Full bundle iron Advanced Scale Conditioning Agents (ASCA).

Sludge Lancing.

FOSAR (Foreign Object Search and Retrieval) in the tube lane and annulus areas.

Upper Bundle in Bundle (UBIB) of tube support plates in SG-C.

3.0 De2radation Mechanisms Found The following degradation mechanisms were observed in the Seabrook Station SGs during OR13:

" A single indication of stress corrosion cracking (SCC) was detected in SG-C, R27C61, at the top of tube sheet (TTS) during the +Point TTS+3 inch inspection program.

" Anti-vibration bar (AVB) wear continues to be an existing degradation mechanism in all four Seabrook SGs. AVB indications were detected in all 4 SGs as expected.

" New volumetric indications were reported in SG-B in tube R5C86 at 04H-0.38", in SG-C in tube R18C1 16 at 07H+0" and in SG-D in tube R1C32 at 01H+0.06".

" Wear at Flow Distribution Baffle (FDB) 4.0 NDE Techniques for Damage Mechanisms The following is the list of EPRI technique sheets used for detection for the degradation modes that may be present during the SG inspection in OR13.

0 0

0 S

0 0

0 0

Tube Wear @ AVB's.

ODSCC @ TSP, Wear due to Foreign Objects FDB/ Support Plate Wear U-Bend PWSCC Ding PWSCC or ODSCC Sludge Pile ODSCC Tubesheet Expansion ODSCC EPRI ETSS #96004.1 EPRI ETSS #96008.1, 128411, 128413 EPRI ETSS #27091.2 for Bobbin and # 21998.1 for RPC EPRI ETSS #96004.1 EPRI ETSS #96511.1 and #96511.2 EPRI ETSS #20510.1, 96703.1 and #20511.1-A for RPC ID ETSS#21409.1, 128424, 128425, 24013.1-A and #21410.1-C for RPC-OD EPRI ETSS #96008.1, 128413 EPRI ETSS #21409.1 and #21410.1 for RPC-OD 2

Tubesheet Expansion PWSCC EPRI ETSS #20510.1 -A and #20511.1-C for RPC-ID OD Pitting EPRI ETSS #96005.2 5.0 Service Induced Flaws AVB Wear AVB wear continues to be an existing degradation mechanism in all four Seabrook SGs. Appendix A summarizes the current inspection results for AVB wear. The total number of AVB indications is typical among the population of Model F SGs.

Outside Diameter Stress Corrosion Cracking (ODSCC)

A single indication of SCC was detected in SG-C, R27C61, at the TTS in the expansion transition during the +Point TTS+/-3 inch inspection program. The indication was confirmed using the Ghent probe and was also detected with the pancake probes. The signal was compared to the signal from ODSCC at TTS detected in a similar SG at another site and therefore was confidently characterized as ODSCC.

SG C R27C61 Probe Call Vpp Phase Crack Angle Length

+Point coil SAI @ TSH-0.26" 0.44V 460 0.12 inch Volumetric Indications Volumetric indications reported during OR13 are summarized (Table 1) below, which also includes prior calls, if any, at OR 1I and OR09.

New volumetric indications were reported in SG-B in tube R5C86 at 04H-0.38", in SG-C in tube R18C116 at 07H+0" and in SG-D in tube R1C32 at 01H+0.06". All other volumetric indications were reported previously at OR 1I and, in most cases, at OR09 without change in the wear depth of the indication. (Small changes are within the uncertainty range of the EC technique.) The new indications are all located at tube support plates, widely distributed over the axial height of the bundle, but in locations near the periphery of the bundle or near the tube lane where foreign objects would likely be encountered. These indications are not considered as evidence of wear at tube support plates, but rather, are attributed to small transient foreign objects which are no longer present at the affected locations.

In SGs A, B and C, indications reported in Row 1, Columns 36, 87 and 112 are all located at approximately 18 inches above the top of the tubesheet. These indications are all maintenance operation induced and are attributed to interaction of the tubes with the sludge lance rail at a prior outage. The sludge lance rail has been re-designed to prevent future tube interaction or aggravation of the existing wear condition. The depths of these indications have been non-variant since at least OR09. Indications of this type have been observed in SGs in other operating plants.

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In SGs-A, B and C, several volumetric indications just above the tube sheet, previously reported at OR09 and ORI 1, and attributed to transient foreign objects, were re-inspected at OR13. These indications were sized for depth using the procedure of EPRI ETSS 21998.1, the same technique used at OR09 and ORI 1. These indications have not grown and are not expected to grow since no foreign objects are resident at these locations.

Table 1 Volumetric Indications Location EC Code Depth (%TWD)

SG Row Col

(@OR13) per ETSS 21998.1 OR09 OR11 OR13 1

87 TSC+18.67" PCT 22%

26%

30%

1 36 TSC+18.62" PCT 19%

27%

26%

49 29 TSH+0.15" PCT/PRC 18%

22%

22%

50 29 TSH+0.20" PCT/PRC 8%

11%

11%

1 87 TSH+18.2" PCT/PCT 36%

32%

38%

1 87 TSC+19.1" PCT 35%

37%

38%

1 112 TSH+18.17" PCT/PCT NA 19%

18%

2 98 06C-0.75" PCT NA 32%

33%

5 86 04H-0.38" VOL/PCT NA NA 21%

43 96 TSH+0.1 1" PCT/PCT NA 22%

21%

1 87 TSH+18.33" PCT/PCT 33%

37%

35%

1 87 TSC+18.4" PCT 28%

34%

31%

1 112 TSH+18.24" PCT/PCT 21%

25%

23%

C 43 26 TSH+0.15" PCT/PCT 20%

21%

23%

44 26 TSH+0.16" PCT/PCT 10%

13%

13%

3 113 05C-0.56" PCT 29%

34%

32%

18 116 07H+0 VOL/PCT NA NA 16%

13 4

O1C+0.45" PCT 23%

26%

22%

1 32 O1H+0.06" WAR/PCT NA NA 23%

Flow Distribution Baffle Wear In each of SG-A and D (Table 2), a single wear indication was originally reported at OR09 at the flow distribution baffle (FDB). These signals are attributed to a prior pressure pulse cleaning (PPC) of the SGs, based on the location of the indications relative to the PPC pulser locations. Similar indications have been observed in other Model F SGs at other plants that have applied PPC. These indications are seen consistently in Row 1 at Columns 31-33 and Columns 91-93 at the FDB, and depth typically from 5%TWD to 25%TWD based on sizing by the technique of EPRI ETSS#21998.1 which generally yields overestimates of the true depths.

These indications were re-tested at ORI 3 to determine if there was any progression of the wear. The re-examination of these indications at OR13 resulted in no degradation found at the location in SG-A and no progression of the wear of the indication in SG-D, confirming the results of the OR 1I inspection.

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Table 2 Table: OR13 Wear Indications at the Flow Distribution Baffle SG Field Sizin per ETSS 21998.1(% TWD)

Row Col Location OR09 ORl1 OR13 A

1 91 O1C-0.28 16 DSS/NDF DSS B

None C

None D

1 32 O1H+0.25 26 23 23 Foreign Objects/PLP Wear due to impingement of foreign objects on the tubes is an existing degradation mechanism due to the confirmation of loose parts in the current and prior inspections at Seabrook. Foreign objects may be identified by both visual inspection from the secondary side and by EC inspection from the primary side.

During the visual inspection (FOSAR Appendix C) of the Seabrook SGs, two foreign objects were identified for review. In SG-C, during ORI 1, fourteen tubes were plugged to provide a safe boundary around a foreign object identified by eddy current in SG-C at R58C55 above the cold leg flow distribution baffle. Visual inspection was performed at OR13 to identify if the foreign object was still in place and if so, if it could be removed allowing the potential for recovery of the surrounding plugged tubes. The foreign object, a nail, was found in the same location and was determined to be fixed in that location. An assessment was made if the nail could be removed and it was determined that the risk involved in removal was too great. Because the object is fixed in place and because it is bounded by surrounding plugged tubes, the object does not represent a potential for continuing wear on active tubes.

In SG-A, a sludge rock was identified at R1C9 on the top of the tubesheet. The presence of this object was subsequently confirmed by EC testing from the primary side. An attempt to remove the object was not successful; this item remains in the SG. There is no degradation associated with this object.

In SG-B, a sludge rock was identified at R55C75 on the top of the tubesheet on the cold leg. During an attempt at retrieval of this sludge rock, it appeared to break and move. This item remains in SG-B and there is no degradation associated with this object.

Table 3 summarizes the possible loose parts (PLP) indications found in the SGs during the TTS (+/-3") 3-coil +Point RPC program and the 100% bobbin inspection of the tubes in the primary side EC inspection. Also shown on Table 3 are the results of prior inspections (OR09 and ORI 1) at the same locations.

In SG-A, PLPs were reported on tubes at, or near, the periphery of the bundle on the hot leg of the tubesheet. All of the indications had been reported previously at OR1I and most at OR09, without evidence of tube damage at any of the inspections. These PLPs are interpreted as sludge, or sludge rocks, which are benign to the tubes. A PLP indication reported at OR 1I in R52C60 was found to be not reportable at ORI 3 in accordance with the inspection/reporting guidelines. All tubes with PLP signals were bounded by +Point, inspections of the surrounding tubes and no wear degradation was present. All tubes with PLP indications at OR13 (and ORI 1) remain in service.

5

In SG-B, 10 PLP indications were reported, principally at, or near, the periphery of the bundle. All but 2 of the indications were also reported at ORI 1; no damage to any tube was detected. Twelve of these PLPs are at, or near, the TTS in an axial range of approximately 0 to 8 inches above the TTS. Five additional PLP signals were found at higher elevations in the SG from TSP3 to TSP5 on both the hot leg and cold leg. One of these 2 PLP signals had been previously reported at ORI 1. None of the PLP signals were associated with any damage. Inspection of the adjacent tubes confirmed the absence of PLP signals in the surrounding tubes. Because of their history and location, the PLPs are attributed to sludge rocks and scale which are benign to the tubes. These tubes remain in service.

In SG-C one tube was reported with a PLP signal at TSH+0.05. A PLP previously reported at OR 1I at TSP5 on the HL was not reported (indication not recordable (INR)) at OR13. The location of these tubes is typical for expected accumulation of deposits. No evidence of tube damage was found. The tubes remain in service.

In SG-D, 6 tubes were reported with PLP signals. Three of the signals had been reported previously at OR 1I and OR09. Three pairs of adjacent tubes constitute the 6 signals, suggesting an accumulation of deposits between tubes. Bounding +Point probe tests were performed that confirmed that the potential for a foreign object in residence at these locations is limited. No damage was associated with any of the PLP signals and the tubes were left in service.

Table 3 Seabrook Steam Generator Potential Foreign Objects (PLP)

SG Row Col Location (OR13)

OR09 OR11 OR13 1

9 TSH+0.43" NDD NDD PLP/NDD A

1 10 TSH+0.18" NDD NDD PLP/NDD 1

11 TSH+0.26" NDD NDD PLP/NDD 52 60 TSH+0.34 NR PLP INR 3

104 TSH+0.09 NR NR PLP 17 34 TSH+1.49 NR NR PLP/NDF 14 66 TSH+1.35 NDD NDF PLP/NDF 22 6

TSC+8.5" NDD PLP PLP 23 6

TSC+8.53" NDD PLP PLP 24 11 TSC+3.83" NDD PLP INF 24 12 TSC+3.73" NDD PLP PLP/INR 24 12 03H+18.96 NR NR PLP/NDF B

27 15 TSC+0.86" NDD FSD/NDD PLP/INR 39 31 TSH+B.07 NDD PLP INR 39 32 TSH+1.0l" NDD PLP INR 52 33 TSC+3.85 NDD PLP PLP/NDD 53 33 TSC+3.87" NDD PLP PLP/NDD 17 25 05H+0.82 NR NR NDF 4

101 06C+1.24 NR NDD INR 4

103 02C+0.66 NR NDD INR/NDD 2

103 02C+0.62" NR NDF INR/NDD 5

81 05H+1.51" NR NDF INR 40 92 TSH+0.05 NR NR PLP 20 28 TSC+.74 NDD PLP PLP/NDD D

20 29 TSC+0.95 NDD NDD PLP 6

SG Row Col Location (0R13)

OR09 OR11 OR13 21 29 TSC+0.98 NDD NDD PLP 21 28 TSC+0.71 NR NR PLP/NDD 41 27 TSH+O.15 NR NR PLP 42 27 TSH+O.18 NR NR PLP NR: Not Reported INR: Indication not Reportable NDF: No Degradation Found 6.0 Plugging In OR13 the following tubes were plugged:

Table 4: OR13 Plugged Tubes SG Tube Degradation Notes R49C67 AVB Wear 42%@AV3 A

R43C77 AVB Wear 41%@AV4 R40C90 AVB Wear 40%@AV5 B

R46C50 AVB Wear 40%@AV5 R51 C51 AVB Wear 45%@AV5 R48C96 AVB Wear 42%@AV4 C

R35C39 AVB Wear 40%@AV5 R27C61 SAI ODSCC at TTS R47C59 AVB Wear 40%@AV2 D

R46C51 AVB Wear 42%@AV4; 41%@AV5 R37C36 AVB Wear 41%@AV5 R48C28 AVB Wear 41%@AV3; 41%@AV4 Table 5 shows the total number of tubes plugged by steam generator as well as the plugging percentages in each steam generator. The effective plugging percentage is equal to the plugging percentage as there are no sleeves installed or blocked tubes.

Table 5 Total Tubes Plugged and Plugging Percentage S/G A S/G B S/G C S/G D Total Tubes Plugged 34 25 50 64 173 Percent 0.6%

0.4%

0.8%

1.1%

0.7%

Plugged I

I I

I I

_I 6.0 Condition Monitoring Assessment Results.

All indications found in ORI 3 satisfy the condition monitoring requirements of Seabrook TS 6.7.6.k and NEI 97-06 for structural and leakage integrity. No indications were found to exceed structural limits.

These conclusions are:

7

1. A single indication of axial outside diameter cracking was detected in SG-C, R27C61 at the top of the tubesheet. This indication did not exceed the screening criteria for in situ proof or leak testing.

The length and depth of the crack were determined to be below a condition that would pose a challenge to structural and leakage integrity.

2. The maximum observed AVB wear indication (45% TWD) meets the condition monitoring requirements at 95% probability when all uncertainties are considered at their 95% probability values

3. AVB wear continues to be an existing degradation mechanism at Seabrook. The overall incidence of AVB wear in the Seabrook SGs is consistent with the Model F SG operating experience.

4. The previously reported wear at the flow distribution baffle was reported again during ORI 3.

Examination of the prior inspection signals shows that the signals are not changing. FDB wear is attributed to the application of pressure pulse cleaning of the SGs and is observed in other Model F SGs at the same locations and depths. The magnitude of the wear does not challenge the requirements for condition monitoring.

5. Volumetric indications meet the requirements for Condition Monitoring at 95% probability and 50%

confidence. The maximum observed indication was 38% TWD.

6. Wear due to foreign objects meets the performance requirements for Condition Monitoring. The maximum wear observed due to foreign objects was 33% TWD; the structural limit for the local wear is 70% TWD. The evaluation of the observed wear flaw shows that the requirements for condition monitoring are met.

7. No pitting was observed.

8. No degradation indications were observed related to potential precursor signals such as dents and dings, or to interferences such as permeability variations, etc.

9. No DSI (precursor) signals were reported at any of the tubes identified as tubes with potentially elevated residual stress (See Appendix C).

10. No degradation was observed in the tubesheet expansion zone in the H* distance (TTS-13.1").

11. The predicted accident induced leakage meets the Condition Monitoring leakage requirements. In SG-B, in which operating leakage has been observed, the predicted leakage from the tubesheet expansion region is 1.75 gpd (.00122 gpm). The indication of ODSCC in SG-C was predicted to not leak. SGs A and D are free from indications with the potential to leak and have no reportable normal operating leakage.

12. The OR13 inspection results validate the projections and conclusions of the Operational Assessment of the previous inspection at OR1 1.

13. No tubes were pulled in OR13.

14. No in-situ testing was performed in OR13.

7.0 Observed Leak Rates The only observed operational leakage is in SG B. The leakage fluctuates between 0.2 and 0.7 gpd. There is no observed leakage in SGs A, C, and D 8.0 Calculated Accident Induced Leaka2e Accident induced leakage for the tubesheet expansion region is predicted as a ratio of observed normal operating leakage that cannot be attributed to a source other than the tubesheet expansion region.

Seabrook has been monitoring a low level of leakage between 0.2 gpd and 0.7 gpd in SG-B. There are no degradation mechanisms in SG-B that have the potential for leakage; therefore, the entire observed leakage is assumed to come from the tubesheet expansion region.

8

For Seabrook, normal operating leakage from the tubesheet expansion region is multiplied by a factor of 2.5 to determine the accident induced leakage. Therefore, since the observed leakage in SG-B is 0.7 gpd (high end of observed range for conservatism), the predicted accident induced leakage from the tubesheet expansion region is:

QDBA = 2.5 x (0.7 gpd) = 1.75 gpd If SG-B is assumed to be the faulted SG under DBA conditions, the total predicted leakage in SG-B is predicted to be 1.75 gpd. The predicted accident induced leakage is well below the accident leakage assumption of 500 gpd in the faulted steam generator.

For SGs-A, C, and D, there is no contribution to accident induced leakage from the tubesheet expansion region because there is no observed leakage in these SGs. Therefore, neither the normal operating leakage limit nor the accident induced leakage limits will be challenged at the end of Cycle 14.

Based on application of very conservative probability of detection (POD) and growth rate, the predicted maximum depth of an undetected ODSCC crack, such as observed at OR13, is less than 100% TWD at EOC14. Pop-through of the remaining ligament and potential crack opening are not an issue because the crack is entirely constrained by the tubesheet and growth is predicted to occur into the tubesheet expansion region. Therefore, no leakage due to ODSCC is projected at the end of Cycle 14.

Therefore, neither the normal operating leakage limit nor the accident induced leakage limits will be challenged at the end of Cycle 14.

9.0 Slippa2e Monitorin2 Results A commitment was made to monitor for tube slippage within the tubesheet region. This was accomplished in accordance with the slippage monitoring guidance. There was no evidence of tube slippage.

10.0 Secondary Side Inspections/Cleaning Full ASCAs were applied to all four steam generators. Approximately 550 lbs of iron were removed from each steam generator.

Sludge lancing removed approximately 164 lbs from the top of tubesheet area.

An UBIB was performed in two columns in SG "C". The visual inspection looked at the condition of the 4th to 7th support plates.

9

Appendix A Accronyms ASCA Advanced Scale Conditioning Agents AVB Anti Vibration Bar DBA Design Bases Accident EC Eddy Current EFPM Effective Full Power Months EPRI Electric Power Research Institute ETSS Examination Technique.

FDB Flow Distribution Baffle FOSAR Foreign Object Search and Retrieval DSI Distorted Support Indication DSS Distorted Support Signal GPD(gpd)

Gallons per Day HL Hot Leg ID Inner Diameter INR Indication Not Recordable NDD No Degradation Detectable NDF No Degradation Found NEI Nuclear Energy Institute OD Outside Diameter ODSCC Outside Diameter Stress Corrosion Cracking PCT Percent PLP Possible Loose Part PWSCC Primary Water Stress Corrosion Cracking SAI Single Axial Indication SCC Stress Corrosion Cracking TS Technical Specifications TSP Tube Support Plate TTS Top of Tube Sheet TWD Though Wall Distance VOL Volumetric 10

APPENDIX B Seabrook OR13 List of Imperfections SG-A SG Row Col Ind Per Cent Location Inch1 A

49 67 PCT 42 AV3 0

A 43 77 PCT 41 AV4 0

A 40 90 PCT 40 AV5 0

A 43 77 PCT 39 AV5 0

A 49 63 PCT 38 AV5 0

A 36 81 PCT 37 AV2 0

A 42 72 PCT 36 AV3 0

A 31 12 PCT 35 AV5 0

A 50 79 PCT 34 AV4 0

A 45 74 PCT 34 AV4 0

A 40 90 PCT 33 AV2 0

A 41 68 PCT 33 AV3 0

A 49 65 PCT 33 AV3 0

A 50 65 PCT 33 AV4 0

A 35 61 PCT 33 AV4 0

A 50 95 PCT 33 AV5 0

A 35 58 PCT 32 AV2 0

A 50 79 PCT 32 AV3 0.03 A

35 58 PCT 32 AV3 0

A 52 88 PCT 32 AV4 0

A 49 67 PCT 32 AV4 0

A 52 89 PCT 32 AV5 0

A 49 67 PCT 31 AV2 0

A 52 89 PCT 31 AV6

-0.03 A

43 77 PCT 30 AV3 0

A 35 61 PCT 30 AV5 0

A 40 90 PCT 29 AV3 0

A 49 88 PCT 29 AV5 0

A 50 95 PCT 29 AV6 0

A 41 59 PCT 28 AV2 0

A 50 85 PCT 28 AV3 0

A 42 80 PCT 28 AV3 0

A 41 68 PCT 28 AV4 0

A 35 58 PCT 28 AV4 0

A 52 88 PCT 28 AV5 0

A 42 72 PCT 28 AV5 0

A 26 107 PCT 28 AV6 0

A 19 40 PCT 27 AVl 0.08 A

40 90 PCT 27 AV4 0

A 50 85 PCT 27 AV4 0

A 53 45 PCT 26 AV2 0.08 A

44 98 PCT 26 AV3 0

A 47 85 PCT 26 AV5 0

11

SG Row Col Ind Per Cent Location Inch1 A

43 77 PCT 26 AV6 0

A 42 80 PCT 25 AV2 0

A 40 71 PCT 25 AV2 0

A 49 88 PCT 25 AV3 0

A 52 89 PCT 25 AV4 0

A 42 80 PCT 25 AV6 0

A 48 60 PCT 25 AV6 0

A 36 81 PCT 24 AV3 0

A 42 58 PCT 24 AV3 0

A 49 88 PCT 24 AV4 0

A 49 63 PCT 24 AV4 0

A 48 63 PCT 24 AV4 0

A 41 50 PCT 24 AV5 0.05 A

46 95 PCT 24 AV6 0

A 49 64 PCT 23 AV1 0

A 19 54 PCT 23 AV1 0

A 49 76 PCT 23 AV2 0

A 28 59 PCT 23 AV2 0.

A 41 54 PCT 23 AV2 0

A 47 95 PCT 23 AV3 0

A 45 74 PCT 23 AV3 0

A 49 63 PCT 23 AV3 0

A 48 63 PCT 23 AV3 0

A 40 103 PCT 23 AV4 0.03 A

41 68 PCT 23 AV5 0

A 46 65 PCT 23 AV5 0

A 41 53 PCT 23 AV5 0

A 48 96 PCT 23 AV6 0

A 40 94 PCT 22 AV2 0.06 A

51 86 PCT 22 AV2 0

A 49 65 PCT 22 AV2 0

A 48 64 PCT 22 AV2 0

A 46 98 PCT 22 AV4 0

A 50 95 PCT 22 AV4 0

A 39 79 PCT 22 AV4

-0.16 A

46 77 PCT 22 AV4

-0.05 A

41 53 PCT 22 AV4

-0.08 A

51 90 PCT 22 AV5 0

A 35 58 PCT 22 AV5 0

A 30 11 PCT 22 AV5 0

A 48 95 PCT 22 AV6 0

A 52 88 PCT 22 AV6 0

A 50 88 PCT 22 AV6 0

A 31 12 PCT 22 AV6 0

A 29 82 PCT 21 AV2 0

A 42 72 PCT 21 AV2 0

A 41 78 PCT 21 AV3 0

A 41 54 PCT 21 AV3 0

A 40 102 PCT 21 AV4 0

A 47 95 PCT 21 AV4 0

A 51 90 PCT 21 AV4 0

12

SG Row Col Ind Per Cent Location Inch1 A

34 87 PCT 21 AV4 0

A 48 83 PCT 21 AV4 0

A 40 103 PCT 21 AV5 0

A 39 79 PCT 21 AV5 0

A 33 15 PCT 21 AV5 0

A 41 103 PCT 20 AV1 0

A 37 102 PCT 20 AV1 0

A 45 74 PCT 20 AV1 0

A 29 94 PCT 20 AV2 0

A 40 86 PCT 20 AV2 0

A 41 78 PCT 20 AV2 0

A 45 74 PCT 20 AV2 0

A 45 68 PCT 20 AV2 0

A 41 68 PCT 20 AV2 0.08 A

41 53 PCT 20 AV2

-0.08 A

51 86 PCT 20 AV3 0

A 39 80 PCT 20 AV3 0

A 41 50 PCT 20 AV3

-0.23 A

42 81 PCT 20 AV4 0

A 49 65 PCT 20 AV4 0

A 46 65 PCT 20 AV4 0

A 41 103 PCT 20 AV5

-0.08 A

41 102 PCT 20 AV5 0

A 48 95 PCT 20 AV5 0

A 46 95 PCT 20 AV5 0

A 50 85 PCT 20 AV5 0

A 46

.71 PCT 20 AV5 0

A 49 67 PCT 20 AV5 0

A 50 65 PCT 20 AV5 0

A 49 65 PCT 20 AV5 0

A 28 59 PCT 20 AV5

-0.09 A

31 11 PCT 20 AV5 0

A 35 58 PCT 19 AV1 0

A 44 98 PCT 19 AV2 0.05 A

47 95 PCT 19 AV2 0

A 25 56 PCT 19 AV2 0

A 43 55 PCT 19 AV2

-0.16 A

34 51 PCT 19 AV2 0.15 A

41 50 PCT 19 AV2

-0.1 A

50 65 PCT 19 AV3 0

A 41 102 PCT 19 AV4 0

A 36 81 PCT 19 AV4 0

A 42 72 PCT 19 AV4 0

A 46 98 PCT 19 AV5 0

A 44 98 PCT 19 AV5 0

A 35 31 PCT 19 AV5 0

A 35 14 PCT 19 AV5

-0.09 A

48 94 PCT 19 AV6 0

A 52 90 PCT 19 AV6 0

A 50 85 PCT 19 AV6 0

A 48 31 PCT 19 AV6 0

13

SG Row Col Ind Per Cent Location Inch1 A

44 98 PCT 18 AV1 0.06 A

33 92 PCT 18 AV1

-0.11 A

40 86 PCT 18 AV1 0

A 19 58 PCT 18 AV1 0

A 18 58 PCT 18 AV1 0

A 46 77 PCT 18 AV2 0.05 A

35 73 PCT 18 AV2 0

A 45 67 PCT 18 AV2 0

A 48 63 PCT 18 AV2 0

A 50 95 PCT 18 AV3 0

A 44 94 PCT 18 AV3 0

A 51 90 PCT 18 AV3 0

A 47 89 PCT 18 AV3 0

A 39 79 PCT 18 AV3 0

A 39 63 PCT 18 AV3 0

A 41 53 PCT 18 AV3

-0.16 A

48 31 PCT 18 AV3 0

A 37 105 PCT 18 AV4 0

A 41 103 PCT 18 AV4 0

A 44 94 PCT 18 AV4 0

A 53 90 PCT 18 AV4 0

A 42 80 PCT 18 AV4 0

A 41 58 PCT 18 AV4 0

A 44 100 PCT 18 AV5 0

A 51 75 PCT 18 AV5 0

A 52 73 PCT 18 AV5

-0.1 A

24 59 PCT 18 AV5

-0.13 A

30 58 PCT 18 AV5 0

A 51 90 PCT 18 AV6 0

A 40 90 PCT 18 AV6 0

A 44 101 PCT 17 AV1 0

A 40 90 PCT 17 AV1 0

A 42 72 PCT 17 AV1 0

A 30 68 PCT 17 AV1 0

A 49 67 PCT 17 AV1 0

A 30 68 PCT 17 AV2 0.08 A

35 61 PCT 17 AV2

-0.1 A

23 59 PCT 17 AV2 0

A 23 52 PCT 17 AV2 0

A 50 29 PCT 17 AV2 0

A 35 14 PCT 17 AV2 0

A 29 11 PCT 17 AV2 0.12 A

40 102 PCT 17 AV3 0

A 32 89 PCT 17 AV3 0

A 52 88 PCT 17 AV3 0

A 41 59 PCT 17 AV3 0

A 41 58 PCT 17 AV3 0

A 44 98 PCT 17 AV4 0

A 42 58 PCT 17 AV4 0

A 47 98 PCT 17 AV5 0

A 47 95 PCT 17 AV5 0

14

SG Row Col Ind Per Cent Location Inch1 A

24 71 PCT 17 AV5 0

A 53 69 PCT 17 AV5 0

A 48 63 PCT 17 AV5

-0.28 A

50 38 PCT 17 AV5 0

A 51 31 PCT 17 AV5 0

A 49 30 PCT 17 AV5 0

A 30 12 PCT 17 AV5 0

A 46 98 PCT 17 AV6 0

A 42 72 PCT 17 AV6 0

A 41 68 PCT 17 AV6

-0.06 A

49 67 PCT 17 AV6 0

A 30 58 PCT 17 AV6 0

A 23 42 PCT 17 AV6 0.03 A

33 106 PCT 16 AV1

-0.03 A

40 96 PCT 16 AVi

-0.1 A

32 89 PCT 16 AV1 0.09 A

49 65 PCT 16 AV1

-0.18 A

24 7

PCT 16 AV1 0

A 41 53 PCT 16 AV1 0

A 57 52 PCT 16 AV1 0

A 31 68 PCT 16 AV2 0

A 50 66 PCT 16 AV2 0

A 50 65 PCT 16 AV2

-0.1 A

27 63 PCT 16 AV2 0

A 57 61 PCT 16 AV2 0

A 24 59 PCT 16 AV2 0

A 41 58 PCT 16 AV2 0

A 44 102 PCT 16 AV3 0

A 37 99 PCT 16 AV3 0

A 50 80 PCT 16 AV3 0

A 34 51 PCT 16 AV3

-0.13 A

35 31 PCT 16 AV3 0

A 46 71 PCT 16 AV4 0

A 48 31 PCT 16 AV4 0

A 35 14 PCT 16 AV4

-0.16 A

37 102 PCT 16 AV5 0

A 43 98 PCT 16 AV5 0

A 23 59 PCT 16 AV5 0.16 A

23 45 PCT 16 AV5 0

A 30 31 PCT 16 AV5

-0.19 A

47 95 PCT 16 AV6 0

A 30 95 PCT 16 AV6 0

A 46 94 PCT 16 AV6 0

A 49 90 PCT 16 AV6 0

A 47 89 PCT 16 AV6 0

A 35 61 PCT 16 AV6 0

A 58 50 PCT 16 AV6 0

A 55 41 PCT 16 AV6

-0.22 A

42 103 PCT 15 AVl 0

A 44 100 PCT 15 AVl 0

A 51 86 PCT 15 AVl 0

15

SG Row Col Ind Per Cent Location Inch1 A

45 76 PCT 15 AV1 0

A 59 58 PCT 15 AV1 0

A 41 58 PCT 15 AV1 0

A 20 48 PCT 15 AV1 0

A 48 31 PCT 15 AV1 0

A 33 14 PCT 15 AV1 0

A 37 87 PCT 15 AV2 0

A 50 85 PCT 15 AV2 0

A 24 71 PCT 15 AV2 0

A 35 70 PCT 15 AV2 0

A 39 63 PCT 15 AV2

-0.03 A

25 59 PCT 15 AV2 0.08 A

28 44 PCT 15 AV2 0

A 47 31 PCT 15 AV2 0

A 49 28 PCT 15 AV2 0

A 52 89 PCT 15 AV3 0

A 34 87 PCT 15 AV3 0

A 35 61 PCT 15 AV3 0

A 46 95 PCT 15 AV4 0

A 48 94 PCT 15 AV4 0

A 45 80 PCT 15 AV4 0

A 41 50 PCT 15 AV4

-0.03 A

50 38 PCT 15 AV4 0

A 30 111 PCT 15 AV5 0

A 49 90 PCT 15 AV5 0

A 42 80 PCT 15 AV5 0

A 42 58 PCT 15 AV5 0

A 41 58 PCT 15 AV5 0

A 28 44 PCT 15 AV5 0

A 51 86 PCT 15 AV6 0

A 24 7

PCT 15 AV6 0

A 35 58 PCT 15 AV6 0

A 23 37 PCT 15 AV6 0

A 34 17 PCT 15 AV6 0

A 33 15 PCT 15 AV6 0

A 31 13 PCT 15 AV6

-0.15 A

30 12 PCT 15 AV6 0

A 27 12 PCT 15 AV6 0

A 37 105 PCT 14 AV1 0

A 41 102 PCT 14 AV1 0

A 47 95 PCT 14 AV1 0

A 19 61 PCT 14 AV1 0

A 25 7

PCT 14 AV1 0

A 44 102 PCT 14 AV2

-0.13 A

54 86 PCT 14 AV2 0

A 33 71 PCT 14 AV2

-0.1 A

29 71 PCT 14 AV2 0

A 31 64 PCT 14 AV2 0

A 49 63 PCT 14 AV2 0

A 36 60 PCT 14 AV2 0

A 34 59 PCT 14 AV2 0

16

SG Row Col Ind Per Cent Location Inch1 A

56 57 PCT 14 AV2 0

A 52 53 PCT 14 AV2 0

A 50 28 PCT 14 AV2 0

A 38 28 PCT 14 AV2

-0.1 A

37 21 PCT 14 AV2 0

A 41 103 PCT 14 AV3 0

A 40 103 PCT 14 AV3 0

A 46 71 PCT 14 AV3

-0.16 A

52 57 POT 14 AV3

-0.05 A

47 40 PCT 14 AV3 0

A 35 14 PCT 14 AV3

-0.13 A

37 102 PCT 14 AV4 0

A 40 86 PCT 14 AV4 0

A 56 81 PCT 14 AV4 0

A 50 80 PCT

.14 AV4 0

A 49 57 PCT 14 AV4

-0.15 A

47 30 PCT 14 AV4 0

A 40 86 PCT 14 AV5 0

A 29 84 PCT 14 AV5 0

A 41 78 PCT 14 AV5 0

A 50 28 PCT 14 AV5 0

A 30 109 PCT 14 AV6 0

A 49 57 PCT 14 AV6 0

A 23 45 PCT 14 AV6 0

A 35 14 PCT 14 AV6

-0.19 A

30 11 PCT 14 AV6 0

A 42 80 PCT 13 AV1 0

A 35 61 PCT 13 AV1 0

A 41 50 PCT 13 AV1

-0.15 A

54 48 PCT 13 AV1 0

A 34 31 PCT 13 AV1 0

A 44 94 PCT 13 AV2 0

A 23 61 PCT 13 AV2 0

A 50 60 PCT 13 AV2 0

A 37 40 PCT 13 AV2 0

A 48 31 PCT 13 AV2 0

A 46 77 PCT 13 AV3 0

A 50 60 PCT 13 AV3

-0.1 A

53 45 PCT 13 AV3

-0.03 A

43 21 PCT 13 AV3 0

A 41 21 PCT 13 AV3 0

A 37 21 PCT 13 AV3 0

A 45 98 PCT 13 AV4 0

A 43 28 PCT 13 AV4 0

A 43 21 PCT 13 AV4 0

A 37 21 PCT 13 AV4 0

A 30 109 PCT 13 AV5 0

A 50 80 PCT 13 AV5 0

A 36 60 PCT 13 AV5 0

A 41 59 PCT 13 AV5 0

A 37 18 PCT 13 AV5 0

17

SG Row Col Ind Per Cent Location Inch1 A

49 88 PCT 13 AV6 0

A 29 82 PCT 13 AV6

-0.03 A

24 59 PCT 13 AV6

-0.14 A

31 11 PCT 13 AV6 0

A 30 109 PCT 12 AV1 0

A 31 105 PCT 12 AV1 0

A 27 93 PCT 12 AV1

-0.03 A

33 71 PCT 12 AV1 0

A 48 63 PCT 12 AV1 0

A 57 53 PCT 12 AV1 0

A 28 44 PCT 12 AV1 0

A 23 36 PCT 12 AV1 0.03 A

30 11 PCT 12 AVI 0.07 A

36 110 PCT 12 AV2 0

A 39 79 PCT 12 AV2 0

A 33 14 PCT 12 AV2 0

A 31 11 PCT 12 AV2 0

A 30 11 PCT 12 AV2 0

A 45 80 PCT 12 AV3 0

A 49 60 PCT 12 AV3 0

A 37 40 PCT 12 AV3 0

A 41 35 PCT 12 AV3 0

A 47 34 PCT 12 AV3 0

A 34 17 PCT 12 AV3 0

A 51 71 PCT 12 AV4 0

A 51 53 PCT 12 AV4 0

A 37 40 PCT 12 AV4 0

A 48 32 PCT 12 AV4

-0.16 A

40 30 PCT 12 AV4 0

A 35 30 PCT 12 AV4

-0.21 A

46 28 PCT 12 AV4 0.19 A

46 26 PCT 12 AV4 0

A 42 26 PCT 12 AV4 0

A 42 22 PCT 12 AV4 0

A 33 15 PCT 12 AV4 0

A 30 102 PCT 12 AV5 0

A 47 26 PCT 12 AV5 0

A 46 26 PCT 12 AV5 0

A 41 21 PCT 12 AV5 0

A 19 61 PCT 12 AV6 0

A 28 59 PCT 12 AV6

-0.09 A

58 52 PCT 12 AV6 29.03 A

17 71 PCT 11 AV1 0

A 49 48 PCT 11 AV1

-0.06 A

33 31 PCT 11 AV1 0

A 30 12 PCT 11 AV1 0.07 A

34 59 PCT 11 AV3 0

A 42 26 PCT 11 AV3 0

A 38 24 PCT 11 AV3 0

A 36 60 PCT 11 AV4 0

A 41 21 PCT 11 AV4 0

18

SG Row Col Ind Per Cent Location Inch1 A

27 112 PCT 11 AV5

-0.2 A

48 31 PCT 11 AV5 0

A 42 26 PCT 10 AV5 0

A 29 11 PCT 10 AV6 0

A 1

87 PCT 30 TSC 18.62 A

1 36 PCT 26 TSC 18.13 A

49 29 PCT 23 TSH 0.12 A

50 29 PCT 13 TSH 0.2 A

35 80 PCT 8

03H

-0.38 A

40 90 PCT 5

03H

-0.52 A

35 88 PCT 5

03H

-1.05 19

Seabrook OR13 List of Imperfections SG-B SG Row Col Ind PerCent Location Inch1 B

22 116 PCT 13 AV1 0

B 29 113 PCT 21 AVl 0

B 27 112 PCT 18 AV1 0

B 30 106 PCT 16 AV1 0

B 45 86 PCT 21 AV1 0

B 30 80 PCT 17 AVl 0.23 B

29 79 PCT 33 AV1 0

B 21 77 PCT 16 AVl 0.2 B

17 77 PCT 16 AV1 0.11 B

58 76 PCT 16 AV1 0

B 18 74 PCT 20 AVi 0

B 47 71 PCT 16 AVi 0.34 B

22 69 PCT 18 AV1 0

B 35 68 PCT 15 AV1 0

B 21 68 PCT 17 AV1

-0.28 B

15 68 PCT 15 AV1

-0.03 B

38 66 PCT 15 AV1 0

B 30 66 PCT 20 AV1 0

B 19 66 PCT 20 AV1 0.03 B

18 66 PCT 18 AV1 0.27 B

12 65 PCT 18 AV1 0

B 17 64 PCT 17 AVI 0.13 B

39 60 PCT 17 AV1 0

B 39 59 PCT 20 AV1 0

B 35 59 PCT 16 AV1 0

B 39 56 PCT 18 AV1 0

B 23 56 PCT 21 AV1 0.14 B

39 54 PCT 17 AV1 0

B 31 52 PCT 16 AV1 0

B 25 51 PCT 17 AVl 0

B 39 49 PCT 19 AV1 0

B 40 48 PCT 12 AVl 0

B 23 47 PCT 22 AVl 0

B 35 44 PCT 14 AVI 0

B 31 112 PCT 23 AV2 0

B 30 112 PCT 21 AV2 0

B 30 111 PCT 19 AV2 0

B

50.

93 PCT 14 AV2 0

B 29 89 PCT 20 AV2 0

B 22 89 PCT 19 AV2 0.11 B

32 88 PCT 18 AV2 0.19 B

37 87 PCT 19 AV2 0.13 B

30 87 PCT 22 AV2 0.15 B

32 86 PCT 19 AV2 0.16 B

22 86 PCT 16 AV2 0.14 B

32 83 PCT 19 AV2 0.16 B

32 82 PCT 24 AV2 0

B 42 81 PCT 25 AV2 0.16 20

SG Row Col Ind PerCent Location Inch1 B

32 81 PCT 15 AV2 0.05 B

30 81 PCT 28 AV2 0.28 B

30 80 PCT 21 AV2 0.18 B

30 79 PCT 19 AV2 0

B 29 79 PCT 29 AV2 0.28 B

49 78 PCT 20 AV2 0

B 28 78 PCT 21 AV2 0

B 43 75 PCT 26 AV2 0.16 B

41 75 PCT 24 AV2 0

B 30 75 PCT 30 AV2 0

B 45 74 PCT 19 AV2 0.16 B

40 74 PCT 15 AV2 0

B 34 72 PCT 20 AV2 0

B 56 71 PCT 14 AV2 0.1 B

47 71 PCT 21 AV2 0

B 34 70 PCT 19 AV2 0.14 B

57 69 PCT 20 AV2 0.15 B

55 69 PCT

.13 AV2

-0.05 B

43 69 PCT 21 AV2 0.11 B

37 69 PCT 25 AV2 0.19 B

58 68 PCT 16 AV2 0

B 56 68 PCT 17 AV2 0

B 35 68 PCT 18 AV2

-0.03 B

35 67 PCT 24 AV2

-0.19 B

30 66 PCT 17 AV2 0

B 36 65 PCT 35 AV2 0

B 42 64 PCT 17 AV2 0

B 30 62 PCT 20 AV2 0.21 B

41 61 PCT 23 AV2

-0.03 B

30 61 PCT 25 AV2

-0.03 B

39 60 PCT 16 AV2 0.08 B

36 59 PCT 21 AV2 0.16 B

35 59 PCT 21 AV2 0

B 35 58 PCT 21 AV2 0

B 39 57 PCT 18 AV2 0

B 27 57 PCT 18 AV2 0

B 39 56 PCT 17 AV2

-0.03 B

23 56 PCT 21 AV2 0.05 B

39 54 PCT 20 AV2 0

B 37 54 PCT 17 AV2 0

B 38 52 PCT 16 AV2 0

B 29 51 PCT 16 AV2 0

B 25 51 PCT 21 AV2 0.16 B

46 50 PCT 20 AV2 0

B 39 49 PCT 23 AV2 0

B 30 49 PCT 16 AV2 0

B 40 48 PCT 19 AV2 0.48 B

40 48 PCT 33 AV2 0

B 39 48 PCT 13 AV2 0

B 23 47 PCT 17 AV2

-0.11 B

35 44 PCT 15 AV2 0.23 B

30 43 PCT 18 AV2 0

B 45 41 PCT 22 AV2

-0.03 21

SG Row Col Ind PerCent Location Inch1 B

29 38 PCT 18 AV2 0.16 B

45 33 PCT 19 AV2 0

B 43 20 PCT 16 AV2 0

B 33 107 PCT 12 AV3

-0.06 B

40 105 PCT 16 AV3 0

B 34 98 PCT 20 AV3 0

B 47 94 PCT 15 AV3 0

B 32 88 PCT 22 AV3 0.35 B

54 87 PCT 17 AV3

-0.08 B

37 87 PCT 20 AV3 0.23 B

54 86 PCT 15 AV3

-0.03 B

32 86 PCT 19 AV3 0.18 B

58 76 PCT 16 AV3 0

B 43 75 PCT 23 AV3 0.05 B

41 75 PCT 24 AV3 0.18 B

47 71 PCT 27 AV3 0.16 B

35 71 PCT 19 AV3 0.22 B

43 70 PCT 15 AV3 0.11 B

34 70 PCT 15 AV3 0

B 43 69 PCT 17 AV3 0.16 B

59 68 PCT 12 AV3

-0.13 B

50 68 PCT 17 AV3 0

B 35 68 PCT 25 AV3 0.25 B

54 66 PCT 20 AV3 0

B 46 66 PCT 18 AV3 0

B 36 65 PCT 26 AV3 0

B 36 64 PCT 19 AV3 0

B 39 60 PCT 25 AV3

-0.05 B

35 59 PCT 19 AV3 0

B 37 58 PCT 17 AV3 0.03 B

35 58 PCT 24 AV3 0

B 39 54 PCT 24 AV3 0

B 46 50 PCT 32 AV3 0

B 39 49 PCT 28 AV3 0

B 40 48 PCT 39 AV3 0

B 39 48 PCT 20 AV3 0

B 45 41 PCT 19 AV3 0.16 B

33 109 PCT 16 AV4 0

B 40 105 PCT 18 AV4 0

B 33 104 PCT 18 AV4 0

B 49 96 PCT 19 AV4 0

B 50 93 PCT 16 AV4 0

B 32 86 PCT 19 AV4 0.15 B

49 78 PCT 19 AV4 0

B 58 76 PCT 16 AV4 0

B 43 75 PCT 32 AV4 0.05 B

41 75 PCT 22 AV4 0.26 B

47 71 PCT 19 AV4 0.11 B

34 70 PCT 17 AV4 0

B 43 69 PCT 24 AV4 0.38 B

35 68 PCT 28 AV4 0

B 36 65 PCT 15 AV4 0

B 36 64 PCT 21 AV4 0

22

SG Row Col Ind PerCent Location Inch1 B

44 62 PCT 16 AV4 0

B 41 61 PCT 24 AV4 0.1 B

39 60 PCT 20 AV4

-0.08 B

35 59 PCT 17 AV4 0

B 35 58 PCT 25 AV4 0

B 39 57 PCT 16 AV4 0

B 35 55 PCT 21 AV4 0

B 39 54 PCT 24 AV4 0

B 37 54 PCT 23 AV4 0

B 46 50 PCT 32 AV4 0

B 39 49 PCT 19 AV4 0.03 B

40 48 PCT 33 AV4 0.1 B

39 48 PCT 20 AV4 0

B 45 41 PCT 18 AV4 0.05 B

28 115 PCT 18 AV5 0

B 29 113 PCT 20 AV5 0

B 30 112 PCT 19 AV5 0.03 B

31 111 PCT 25 AV5 0

B 30 111 PCT 22 AV5 0

B 33 109 PCT 36 AV5 0

• B 32 109 PCT 21 AV5 0.12 B

33 107 PCT 19 AV5

-0.31 B

34 103 PCT 18 AV5 0

B 34 94 PCT 18 AV5 0

B 53 90 PCT 23 AV5 0

B 32 88 PCT 17 AV5 0

B 54 87 PCT 24 AV5 0

B 30 87 PCT 31 AV5 0.26 B

54 86 PCT 20 AV5 0.05 B

22 86 PCT 19 AV5 0.08 B

32 83 PCT 20 AV5 0

B 56 82 PCT 22 AV5 0

B 32 82 PCT 20 AV5 0

B 30 81 PCT 32 AV5 0

B 27 81 PCT 17 AV5 0.05 B

30 80 PCT 21 AV5 0.08 B

29 79 PCT 24 AV5 0

B 48 78 PCT 18 AV5

-0.08 B

43 75 PCT 31 AV5 0.18 B

30 75 PCT 24 AV5 0.05 B

30 73 PCT 21 AV5

-0.39 B

51 70 PCT 20 AV5 0

B 43 69 PCT 26 AV5

-0.05 B

57 68 PCT 19 AV5 0.03 B

35 68 PCT 29 AV5 0

B 30 66 PCT 22 AV5 0

B 36 65 PCT 26 AV5 0

B 27 63 PCT 18 AV5 0

B 41 61 PCT 23 AV5 0

B 30 61 PCT 36 AV5 0

B 35 58 PCT 23 AV5 0

B 30 58 PCT 20 AV5 0

B 39 54 PCT 21 AV5 0

23

SG Row Col Ind PerCent Location Inch1 B

48 52 PCT 17 AV5 0

B 31 52 PCT 18 AV5 0

B 25 51 PCT 21 AV5

-0.03 B

46 50 PCT 40 AV5 0.15 B

40 48 PCT 30 AV5 0.37 B

39 48 PCT 22 AV5 0

B 45 47 PCT 19 AV5

-0.05 B

42 47 PCT 17 AV5 0

B 55 43 PCT 17 AV5 0

B 54 43 PCT 17 AV5 0.02 B

30 43 PCT 23 AV5 0

B 28 42 PCT 11 AV5 0

B 54 36 PCT 19 AV5

-0.05 B

50 36 PCT 16 AV5 0.13 B

48 25 PCT 20 AV5 0.17 B

34 14 PCT 18 AV5 0

B 32 109 PCT 17 AV6 0

B 30 106 PCT 18 AV6 0

B 34 105 PCT 18 AV6 0

B 34 103 PCT 22 AV6 0

B 50 95 PCT 22 AV6 0

B 22 89 PCT 20 AV6 0

B 38 87 PCT 17 AV6

-0.27 B

33 87 PCT 16 AV6 0

B 30 87 PCT 19 AV6 0.09 B

34 85 PCT 13 AV6

-0.5 B

32 82 PCT 16 AV6

-0.24 B

29 79 PCT 16 AV6 0.24 B

58 76 PCT 19 AV6 0

B 51 70 PCT 25 AV6 0

B 31 66 PCT 16 AV6 0

B 30 66 PCT 19 AV6 0.05 B

57 55 PCT 18 AV6 0

B 46 50 PCT 20 AV6 0

B 58 48 PCT 19 AV6 0

B 40 48 PCT 21 AV6 0

B 53 44 PCT 17 AV6

-0.32 B

30 43 PCT 23 AV6 0

B 50 36 PCT 16 AV6

-0.27 B

53 34 PCT 25 AV6 0

B 45 27 PCT 16 AV6 0

B 34 14 PCT 21 AV6

-0.08 B

5 86 PCT 13 04H

-0.32 B

2 98 PCT 34 06C

-0.81 B

1 87 PCT 38 TSC 17.64 B

1 87 PCT 38 TSH 18.23 B

1 11 PCT 33 TSC 18.23 B

1 112 PCT 18 TSH 18.31 B

43 96 PCT 21 TSH 0.05 24

Seabrook OR13 List of Imperfections SG-C SG Row Col Ind Per Cent Location Inch1 C

27 61 SAI TSH

-0.26 C

51 51 PCT 45 AV5

.0 C

48 96 PCT 42 AV4 0

C 35 39 PCT 40 AV5 0

C 35 39 PCT 35 AV2 0

C 51 51 PCT 35 AV4 0

C 47 67 PCT 34

- AV3 0.02 C

39 53 PCT 34 AV4 0

C 53 67 PCT 33 AV2

-0.02 C

47 67 PCT 33 AV2 0.02 C

39 49 PCT 33 AV2 0

C 42 66 PCT 33 AV3 0

C 48 96 PCT 33 AV6 0

C 51 84 PCT 32 AV2 0

C 42 66 PCT 32 AV2 0

C 53 67 PCT 32 AV3

-0.14 C

43 102 PCT 32 AV4 0

C 43 100 PCT 32 AV4 0

C 47 99 PCT 32 AV5 0.02 C

47 93 PCT 32 AV5 0

C 39 49 PCT 32 AV5 0.05 C

39 53 PCT 32 AV6 0

C 42 102 PCT 31 AV3 0

C 35 39 PCT 31 AV4

-0.1 C

39 45 PCT 31 AV5 0.17 C

41 41 PCT 30 AV2 0.15 C

41 80 PCT 30 AV3 0

C 47 67 PCT 30 AV4 0

C 43 102 PCT 30 AV5 0

C 44 100 PCT 30 AV5 0

C 48 96 PCT 30 AV5 0

C 39 53 PCT 30 AV5 0.05 C

47 99 PCT 30 AV6 0.03 C

39 49 PCT 29 AV3 0

C 42 102 PCT 29 AV4 0

C 44 100 PCT 29 AV4 0

C 49 95 PCT 29 AV5

-0.1 C

47 67 PCT 29 AV5 0

C 40 46 PCT 29 AV5 0

C 39 69 PCT 28 AV4

-0.09 C

42 66 PCT 28 AV4 0

C 39 49 PCT 28 AV4 0

C 42 66 PCT 27 AV1 0

C 39 53 PCT 27 AV3 0.09 C

35 39 PCT 27 AV3 0.03 C

39 45 PCT 27 AV4 0.05 C

46 36 PCT 27 AV4 0.17 C

35 13 PCT 27 AV5 0

C 39 45 PCT 26 AV3

-0.05 25

SG Row Col Ind Per Cent Location Inch1 C

43 23 PCT 26 AV3 0

C 47 93 PCT 26 AV4

-0.12 C

41 43 PCT 26 AV4 0

C 47 35 PCT 25 AV3 0

C 42 23 PCT 25 AV5 0

C 53 70 PCT 24 AV2 0

C 35 13 PCT 24 AV2 0.07 C

46 79 PCT 24 AV4 0.09 C

53 67 PCT 24 AV4

-0.16 C

39 69 PCT 23 AV2

-0.12 C

39 45 PCT 23 AV2 0.02 C

42 31 PCT 23 AV2 0

C 47 93 PCT 23 AV3

-0.19 C

46 97 PCT 23 AV4

-0.02 C

47 35 PCT 23 AV4 0

C 42 23 PCT 23 AV4 0

C 41 100 PCT 23 AV5 0

C 54 87 PCT 23 AV5

-0.09 C

37 85 PCT 23 AV5

-0.1 C

48 33 PCT 23 AV5 0

C 41 39 PCT 22 AV2 0.03 C

43 102 PCT 22 AV3 0

C 46 79 PCT 22 AV3 0

C 56 65 PCT 22 AV3

-0.02 C

46 36 PCT 22 AV3 0.38 C

47 94 PCT 22 AV4 0

C 42 71 PCT 21 AV2

-0.05 C

47 35 PCT 21 AV2 0

C 37 85 PCT 21 AV4 0.1 C

41 23 PCT 21 AV5 0

C 46 79 PCT 21 AV6

-0.08 C

41 39 PCT 21 AV6

-0.19 C

44 75 PCT 20 AV1 0.05 C

15 67 PCT 20 AV1 0

C 19 62 PCT 20 AV1 0

C 41 41 PCT 20 AV1 0

C 41 23 PCT 20 AV1 0

C 30 113 PCT 20 AV2

-0.18 C

42 92 PCT 20 AV2 0

C 37 85 PCT 20 AV2 0.02 C

41 80 PCT 20 AV2 0.34 C

51 51 PCT 20 AV2 0

C 39 42 PCT 20 AV2

-0.37 C

39 69 PCT 20 AV3 0

C 41 41 PCT 20 AV3 0.03 C

39 42 PCT 20 AV4

-0.27 C

48 35 PCT 20 AV4 0

C 43 100 PCT 20 AV5

-0.11 C

41 93 PCT 20 AV5

.-0.07 C

39 69 PCT 20 AV5

-0.09 C

47 67 PCT 19 AVI

-0.24 C

46 79 PCT 19 AV2 0

C 44 75 PCT 19 AV2 0

26

SG Row Col Ind Per Cent Location Inch1 C

39 53 PCT 19 AV2 0.03 C

51 49 PCT 19 AV2 0

C 41 43 PCT 19 AV2 0

C 44 100 PCT 19 AV3 0

C 48 96 PCT 19 AV3 0

C 42 92 PCT 19 AV3 0

C 37 85 PCT 19 AV3 0.04 C

41 41 PCT 19 AV4 0.12 C

46 79 PCT 19 AV5 0.14 C

37 23 PCT 19 AV5 0

C 37 85 PCT 19 AV6 0

C 54 68 PCT 18 AV2 0

C 37 55 PCT 18 AV2 0

C 36 43 PCT 18 AV2

-0.08 C

47 94 PCT 18 AV3 0

C 51 51 PCT 18 AV3 0

C 41 93 PCT 18 AV4

-0.1 C

37 47 PCT 18 AV4 0

C 40 46 PCT 18 AV4

-0.08 C

43 23 PCT 18 AV4 0

C 47 94 PCT 18 AV5 0

C 47 83 PCT 18 AV5 0

C 42 71 PCT 18 AV5 0

C 42 66 PCT 18 AV5 0

C 42 25 PCT 18 AV5 0

C 41 22 POT 18 AV5

-0.27 C

30 11 PCT 18 AV5 0

C 42 102 PCT 18 AV6 0

C 47 94 PCT 18 AV6 0

C 42 66 PCT 18 AV6 0

C 39 45 PCT 18 AV6

-0.12 C

42 25 PCT 18 AV6 0

C 35 13 PCT 18 AV6 0

C 47 76 PCT 17 AV1

-0.1 C

53 70 PCT 17 AV1 0

C 30 11 PCT 17 AV1 0

C 48 96 PCT 17 AV2 0

C 38 79 PCT 17 AV2 0

C 47 76 PCT 17 AV2 0.14 C

53 35 PCT 17 AV2 0

C 42 25 PCT 17 AV2 0

C 41 43 PCT 17 AV3 0

C 41 22 PCT 17 AV3

-0.07 C

33 106 PCT 17 AV4 0

C 47 98 PCT 17 AV4 0

C 54 87 PCT 17 AV4

-0.16 C

38 102 PCT 17 AV5 0

C 41 39 PCT 17 AV5

-0.05 C

47 30 PCT 17 AV5

-0.11 C

41 30 PCT 17 AV5

-0.18 C

43 102 PCT 17 AV6 0.03 C

53 67 PCT 16 AV1

-0.05 C

40 46 PCT 16 AV1 0

27

SG Row Col Ind Per Cent Location Inch1 C

42 31 PCT 16 AV1 0

C 32 17 PCT 16 AV1

-0.09 C

42 102 PCT 16 AV2 0

C 28 66 PCT 16 AV2 0

C 22 34 PCT 16 AV2 0

C 48 97 PCT.

16 AV3

-0.05 C

46 97 PCT 16 AV3 0

C 53 70 PCT 16 AV3 0

C 38 102 PCT 16 AV4 0

C 41 100 PCT 16 AV4 0

C 42 25 PCT 16 AV4 0

C 37 23 PCT 16 AV4 0

C 35 13 PCT 16 AV4 0

C 33 111 PCT 16 AV5 0

C 47 96 PCT 16 AV5 0

C 42 92 PCT 16 AV5 0

C 47 86 PCT 16 AV5

-0.25 C

37 17 PCT 16 AV5 0

C 38 101 PCT 16 AV6

-0.08 C

47 67 PCT 16 AV6 0

C 11 67 PCT 15 AV1

-0.05 C

10 64 PCT 15 AV1 0.14 C

43 102 PCT 15 AV2 0

C 48 97 PCT 15 AV2

-0.02 C

47 94 PCT 15 AV2 0

C 46 36 PCT 15 AV2 0.1 C

41 22 PCT 15 AV2 0.02 C

47 98 PCT 15 AV3 0

C 35 13 PCT 15 AV3 0

C 47 99 PCT 15 AV4 0

C 42 92 PCT 15 AV4 0

C 41 80 PCT 15 AV4

-0.02 C

34 28 PCT 15 AV4

-0.05 C

41 80 PCT 15 AV5

-0.18 C

41 43 PCT 15 AV5

-0.68 C

43 23 PCT 15 AV5 0

C 44 100 PCT 15 AV6 0

C 41 100 PCT 15 AV6 0

C 26 8

PCT 14 AV1 0

C 30 114 PCT 14 AV2 0

C 33 111 PCT 14 AV2 0

C 43 100 PCT 14 AV2

-0.17 C

41 93 PCT 14 AV2 0

C 40 46 PCT 14 AV2 0.07 C

41 100 PCT 14 AV3 0

C 54 87 PCT 14 AV3

-0.25 C

35 73 PCT 14 AV3

-0.05 C

37 40 PCT 14 AV3

-0.05 C

42 31 PCT 14 AV3 0.02 C

42 25 PCT 14 AV3 0

C 48 97 PCT 14 AV4 0

C 35 73 PCT 14 AV4 0

C 48 30 PCT 14 AV4 0.02 28

SG Row Col Ind Per Cent Location Inch1 C

31 111 PCT 14 AV5 0

C 47 92 PCT 14 AV5

-0.07 C

46 36 PCT 14 AV5

-0.15 C

48 30 PCT 14 AV6

-0.16 C

44 100 PCT 13 AV2 0

C 35 73 PCT 13 AV2

-0.02 C

33 106 PCT 13 AV3 0

C 45 100 PCT 13 AV3 0

C 40 46 PCT 13 AV3

-0.07 C

47 40 PCT 13 AV3

-0.3 C

53 33 PCT 13 AV3

-0.12 C

47 86 PCT 13 AV4 0.02 C

42 102 PCT 13 AV5 0

C 48 30 PCT 13 AV5 0.02 C

40 46 PCT 13 AV6 0

C 30 11 PCT 13 AV6 0

C 42 102 PCT 12 AV1 0

C 24 98 PCT 12 AV1

-0.03 C

41 93 PCT 12 AV1 0.23 C

55 39 PCT 12 AV1

-0.05 C

24 7

PCT 12 AV1

-0.06 C

37 56 PCT 12 AV2 0

C 41 93 PCT 12 AV3

-0.07 C

54 35 PCT 12 AV4

-0.15 C

30 113 PCT 12 AV6 0

C 41 30 PCT 12 AV6

-0.03 C

24 7

PCT 12 AV6 0

C 43 68 PCT 11 AV3 0

C 41 30 PCT 11 AV4

-0.05 C

30 114 PCT 11 AV5 0.24 C

37 40 PCT 11 AV6 0.38 C

34 28 PCT 10 AV5

-0.22 C

3 113 PCT 32 05C

-0.85 C

5 57 PCT 27 06C

-0.79 C

1 87 PCT 31 TSC 18.83 C

1 87 PCT 35 TSH 18.13 C

32 24 PCT 26 04H

-0.32 C

1 112 PCT 23 TSH 18.5 C

43 26 PCT 23 TSH 0.05 C

18 116 PCT 16 07H 0.07 C

44 26 PCT 13 TSH 0.14 C

3 90 PCT 8

07C

-0.6 29

Seabrook OR13 List of Imperfections SG-D SG Row Col Ind Per Cent Location Inch1 D

46 51 PCT 42 AV4 0

D 48 28 PCT 41 AV3 0

D 48 28 PCT 41 AV4 0

D 46 51 PCT 41 AV5 0

D 37 36 PCT 41 AV5 0

D 47 59 PCT 40 AV2 0

D 41 56 PCT 39 AV2 0

D 37 36 PCT 38 AV4 0

D 52 33 PCT 38 AV4 0

D 47 75 PCT 37 AV5 0

D 32 12 PCT 37 AV5 0

D 44 91 PCT 36 AV3 0

D 35 69 PCT 36 AV3 0

D 46 39 PCT 36 AV5 0.05 D

46 30 PCT 36 AV5 0.02 D

35 69 PCT 35 AV2 0.03 D

41 66 PCT 35 AV2

-0.17 D

29 34 PCT 35 AV2 0

D 52 35 PCT 35 AV5 0

D 46 30 PCT 34 AV4 0

D 41 56 PCT 34 AV5 0

D 47 49 PCT 33 AV2 0

D 52 35 PCT 33 AV3 0

D 44 91 PCT 33 AV4 0

D 37 77 PCT 33 AV4 0

D 47 59 PCT 33 AV4 0

D 56 41 PCT 33 AV4

-0.03 D

50 94 PCT 33 AV6 0

D 36 82 PCT 32 AV2 0

D 40 66 PCT 32 AV2 0

D 49 52 PCT 32 AV2 0

D 46 51 PCT 32 AV2 0

D 41 56 PCT 32 AV3 0

D 39 41 PCT 32 AV4 0

D 44 45 PCT 32 AV5 0.07 D

48 28 PCT 32 AV5

-0.03 D

27 39 PCT 31 AV2 0

D 37 77 PCT 31 AV3 0

D 40 66 PCT 31 AV3 0

D 44 91 PCT 31 AV5 0

D 47 75 PCT 30 AV4 0

D 42 24 PCT 30 AV4 0

D 40 66 PCT 30 AV5 0

D 47 53 PCT 30 AV5 0

D 27 39 PCT 30 AV5 0

D 42 37 PCT 29 AV2 0.08 D

35 37 PCT 29 AV2 0.29 D

47 49 PCT 29 AV3 0

D 44 48 PCT 29 AV3 0

D 56 69 PCT 29 AV5 0

30

SG Row Col Ind Per Cent Location Inch1 D

27 44 PCT 28 AV2 0

D 37 36 PCT 28 AV2 0

D 49 52 PCT 28 AV3 0

D 42 46 PCT 28 AV3 0

D 42 37 PCT 28 AV3 0

D 37 36 PCT 28 AV3 0

D 29 34 PCT 28 AV5 0

D 43 21 PCT 28 AV5 0

D 41 20 PCT 28 AV5 0

D 44 91 PCT 27 AV2 0

D 56 41 PCT 27 AV2 0

D 46 51 PCT 27 AV3 0

D 44 36 PCT 27 AV3 0

D 49 81 PCT 27 AV4 0

D 41 59 PCT 27 AV4 0

D 41 56 PCT 27 AV4 0

D 46 38 PCT 27 AV4 0

D 36 82 PCT 27 AV5 0

D 43 51 PCT 27 AV5 0

D 56 41 PCT 27 AV5 0

D 34 40 PCT 27 AV6 0

D 27 8

PCT 27 AV6

-0.52 D

52 33 PCT 27 AV6 0

D 34 69 PCT 26 AV2 0

D 36 82 PCT 26 AV4 0

D 34 69 PCT 26 AV4 0

D 40 66 PCT 26 AV4

-0.33 D

47 53 PCT 26 AV4 0

D 50 94 PCT 26 AV5 0.09 D

46 42 PCT 26 AV5 0

D 27 39 PCT 26 AV6 0

D 24 6

PCT 25 AV1 0

D 34 17 PCT 25 AV1

-0.32 D

47 75 PCT 25 AV2 0

D 30 66 PCT 25 AV2 0

D 47 75 PCT 25 AV3 0

D 39 57 PCT 25 AV3 0

D 39 41 PCT 25 AV3 0

D 35 37 PCT 25 AV3

-0.21 D

39 19 PCT 25 AV3 0

D 49 87 PCT 25 AV4

-0.05 D

37 39 PCT 25 AV4 0.05 D

41 18 PCT 25 AV4 0.02 D

34 69 PCT 25 AV5

-0.23 D

42 47 PCT 25 AV5 0

D 37 39 PCT 25 AV5

-0.05 D

52 33 PCT 25 AV5 0

D 56 69 PCT 25 AV6 0.06 D

24 6

PCT 25 AV6 0

D 47 53 PCT 25 AV6 0

D 37 36 PCT 25 AV6 0

D 59 66 PCT 24 AV1 0

D 47 59 PCT 24 AV1 0

31

SG Row Col Ind Per Cent Location Inch1 D

46 51 PCT 24 AV1 0

D 58 49 PCT 24 AV1 0

D 39 82 PCT 24 AV2 0

D 25 82 PCT 24 AV2 0.09 D

38 73 PCT 24 AV2 0

D 39 57 PCT 24 AV2 0

D 37 45 PCT 24 AV2 0

D 39 82 PCT 24 AV3 0

D 41 35 PCT 24 AV3

-0.11 D

41 20 PCT 24 AV3 0

D 49 52 PCT 24 AV4 0

D 50 50 PCT 24 AV4 0

D 58 49 PCT 24 AV4 0.07 D

46 42 PCT 24 AV4 0

D 46 39 PCT 24 AV4 0

D 44 48 PCT 24 AV5 0

D 34 40 PCT 24 AV5 0

D 46 38 PCT 24 AV5 0

D 41 56 PCT 24 AV6 0

D 43 21 PCT 24 AV6 0

D 47 75 PCT 23 AV1 0

D 40 23 PCT 23 AV1

-0.03 D

34 73 PCT 23 AV2 0

D 45 66 PCT 23 AV2 0.51 D

37 58 PCT 23 AV2 0

D 52 35 PCT 23 AV2 0

D 41 20 PCT 23 AV2 0

D 36 82 PCT 23 AV3 0

D 38 73 PCT 23 AV3 0

D 41 66 PCT 23 AV3 0.26 D

40 66 PCT 23 AV3

-0.26 D

41 51 PCT 23 AV3 0

D 43 49 PCT 23 AV3 0

D 42 47 PCT 23 AV3 0

D 37 45 PCT 23 AV3 0

D 37 39 PCT 23 AV3 0.05 D

35 88 PCT 23 AV4

-0.02 D

42 47 PCT 23 AV4 0.03 D

37 45 PCT 23 AV4 0

D 34 109 PCT 23 AV5 0

D 42 92 PCT 23 AV5 0.07 D

56 81 PCT 23 AV5

-0.06 D

30 66 PCT 23 AV5 0

D 39 41 PCT 23 AV5 0

D 46 25 PCT 23 AV5 0

D 39 18 PCT 23 AV5 0

D 17 75 PCT 23 AV6 0

D 56 41 PCT 23 AV6 0

D 41 56 PCT 22 AV1 0

D 35 51 PCT 22 AV1 0

D 27 76 PCT 22 AV2 0

D 42 24 PCT 22 AV2 0

D 43 21 PCT 22 AV2 0

32

SG Row Col Ind Per Cent Location Inch1 D

35 83 PCT 22 AV3 0.03 D

34 69 PCT 22 AV3

-0.03 D

45 66 PCT 22 AV3

-0.74 D

44 45 PCT 22 AV3 0

D 46 30 PCT 22 AV3 0.03 D

43 21 PCT 22 AV3 0

D 42 19 PCT 22 AV3 0

D 56 69 PCT 22 AV4 0

D 40 66 PCT 22 AV4 0.26 D

40 23 PCT 22 AV4 0

D 49 94 PCT 22 AV5 0

D 49 81 PCT 22 AV5 0

D 42 46 PCT 22 AV5

-0.14 D

49 28 PCT 22 AV5

-0.02 D

40 66 PCT 22 AV6 0

D 49 52 PCT 22 AV6 0

D 46 39 PCT 22 AV6 0

D 46 25 PCT 22 AV6 0

D 42 20 PCT 22 AV6 0

D 41 20 PCT 22 AV6

-0.03 D

39 89 PCT 21 AV1 0

D 17 72 PCT 21 AV1 0

D 44 36 PCT 21 AV1 0

D 35 89 PCT 21 AV2 0.09 D

35 71 PCT 21 AV2 0

D 34 71 PCT 21 AV2 0

D 39 62 PCT 21 AV2 0

D 42 47 PCT 21 AV2 0

D 49 43 PCT 21 AV2 0.03 D

39 41 PCT 21 AV2 0

D 41 34 PCT 21 AV2

-0.03 D

39 19 PCT 21 AV2 0

D 47 59 PCT 21 AV3 0

D 37 48 PCT 21 AV3 0.1 D

42 39 PCT 21 AV3 0.11 D

34 22 PCT 21 AV3 0.03 D

35 83 PCT 21 AV4 0.06 D

38 73 PCT 21 AV4 0

D 35 69 PCT 21 AV4 0.05 D

48 65 PCT 21 AV4

-0.12 D

37 59 PCT 21 AV4 0

D 42 39 PCT 21 AV4 0.03 D

37 38 PCT 21 AV4 0.08 D

43 21 PCT 21 AV4 0

D 42 19 PCT 21 AV4 0

D 37 16 PCT 21 AV4 0.02 D

34 15 PCT 21 AV4 0

D 42 98 PCT 21 AV5 0

D 29 83 PCT 21 AV5 0

D 41 66 PCT 21 AV5 0

D 49 43 PCT 21 AV5 0.03 D

39 36 PCT 21 AV5 0

D 50 35 PCT 21 AV5 0

33

SG Row Col Ind Per Cent Location Inch1 D

37 84 PCT 21 AV6 0

D 37 39 PCT 21 AV6

-0.2 D

26 8

PCT 21 AV6 0

D 38 35 PCT 21 AV6 0

D 39 103 PCT 20 AV1 0

D 53 62 PCT 20 AV1 0

D 58 58 PCT 20 AV1 0

D 27 115 PCT 20 AV2 0

D 37 77 PCT 20 AV2 0

D 58 75 PCT 20 AV2 0

D 36 67 PCT 20 AV2 0

D 49 55 PCT 20 AV2 0

D 41 51 PCT 20 AV2 0

D 50 44 PCT 20 AV2 0

D 53 43 PCT 20 AV2 0.08 D

55 41 PCT 20 AV2

-0.25 D

36 41 PCT 20 AV2 0

D 44 36 PCT 20 AV2 0

D 42 98 PCT 20 AV3 0

D 47 97 PCT 20 AV3

-0.06 D

41 38 PCT 20 AV3 0

D 51 35 PCT 20 AV3 0

D 41 34 PCT 20 AV3 0.03 D

42 92 PCT 20 AV4 0.07 D

44 48 PCT 20 AV4 0

D 56 82 PCT 20 AV5 0.02 D

47 59 PCT 20 AV5 0

D 34 48 PCT 20 AV5 0

D 39 44 PCT 20 AV5 0

D 34 35 PCT 20 AV5 0

D 56 81 PCT 20 AV6

-0.12 D

58 75 PCT 20 AV6 0.03 D

52 35 PCT 20 AV6 0

D 39 102 PCT 19 AV1 0

D 39 82 PCT 19 AV1 0

D 49 43 PCT 19 AV1 0

D 37 36 PCT 19 AV1 0

D 42 24 PCT 19 AV1 0

D 22 93 PCT 19 AV2 0.2 D

42 92 PCT 19 AV2 0

D 35 88 PCT 19 AV2

-0.06 D

37 73 PCT 19 AV2 0.02 D

26 52 PCT 19 AV2 0

D 54 43 PCT 19 AV2 0.11 D

54 35 PCT 19 AV2 0

D 48 28 PCT 19 AV2

-0.06 D

44 26 PCT 19 AV2 0.06 D

39 24 PCT 19 AV2

-0.09 D

34 22 PCT 19 AV2 0

D 39 50 PCT 19 AV3 0

D 56 43 PCT 19 AV3

-0.17 D

34 17 PCT 19 AV3 0.06 D

37 16 PCT 19 AV3 0.11 34

SG Row Col Ind Per Cent Location Inch1 D

42 98 PCT 19 AV4 0

D 39 82 PCT 19 AV4 0

D 41 66 PCT 19 AV4 0

D 47 61 PCT 19 AV4 0

D 46 60 PCT 19 AV4 0

D 43 49 PCT 19 AV4 0

D 42 37 PCT 19 AV4 0.03 D

44 26 PCT 19 AV4 0.12 D

27 115 PCT 19 AV5 0

D 44 102 PCT 19 AV5 0

D 47 97 PCT 19 AV5

-0.13 D

49 87 PCT 19 AV5 0

D 39 82 PCT 19 AV5

-0.03 D

25 82 PCT 19 AV5

-0.09 D

42 77 PCT 19 AV5 0

D 27 76 PCT 19 AV5 0

D 45 40 PCT 19 AV5 0

D 49 94 PCT 19 AV6 0

D 35 86 PCT 19 AV6 0

D 56 82 PCT 19 AV6 0.03 D

44 45 PCT 19 AV6 0.03 D

39 44 PCT 19 AV6 0

D 46 38 PCT 19 AV6

-0.03 D

46 32 PCT 19 AV6

-0.23 D

49 28 PCT 19 AV6

-0.09 D

37 19 PCT 19 AV6

-0.03 D

36 82 PCT 18 AV1 0

D 26 8

PCT 18 AV1 0

D 37 16 PCT 18 AVI

-0.06 D

39 103 PCT 18 AV2 0.12 D

39 89 PCT 18 AV2

-0.03 D

34 76 PCT 18 AV2 0

D 39 74 PCT 18 AV2 0

D 41 71 PCT 18 AV2 0.03 D

34 70 PCT 18 AV2 0.03 D

37 59 PCT 18 AV2 0

D 54 58 PCT 18 AV2

-0.14 D

33 58 PCT 18 AV2 0

D 26 41 PCT 18 AV2 0.07 D

34 35 PCT 18 AV2 0

D 40 24 PCT 18 AV2

-0.09 D

44 101 PCT 18 AV3

-0.03 D

39 94 PCT 18 AV3 0.12 D

42 92 PCT 18 AV3 0

D 41 59 PCT 18 AV3 0

D 37 59 PCT 18 AV3 0

D 34 50 PCT 18 AV3

-0.03 D

54 35 PCT 18 AV3 0.1 D

34 30 PCT 18 AV3 0.03 D

34 73 PCT 18 AV4

-0.03 D

54 43 PCT 18 AV4

-0.03 D

43 22 PCT 18 AV4 0

D 41 20 PCT 18 AV4 0

35

SG Row Col Ind Per Cent Location Inch1 D

50 93 PCT 18 AV5 0

D 28 88 PCT 18 AV5

-0.08 D

37 77 PCT 18 AV5 0

D 58 75 PCT 18 AV5 0

D 39 50 PCT 18 AV5 0

D 26 40 PCT 18 AV5 0

D 34 30 PCT 18 AV5

-0.17 D

45 27 PCT 18 AV5 0

D 30 12 PCT 18 AV5 0

D 28 115 PCT 18 AV6 0

D 49 93 PCT 18 AV6 0

D 44 91 PCT 18 AV6 0

D 47 61 PCT 18 AV6 0

D 58 58 PCT 18 AV6 0.08 D

45 40 PCT 18 AV6 0

D 34 22 PCT 18 AV6

-0.12 D

42 92 PCT 17 AVl 0

D 49 55 PCT 17 AV1 0

D 34 15 PCT 17 AVl 0

D 33 96 PCT 17 AV2 0

D 49 94 PCT 17 AV2 0

D 39 94 PCT.

17 AV2

-0.11 D

36 40 PCT 17 AV2 0

D 37 34 PCT 17 AV2

-0.03 D

34 17 PCT 17 AV2

-0.06 D

35 89 PCT 17 AV3 0.06 D

35 88 PCT 17 AV3 0.17 D

49 87 PCT 17 AV3 0

D 49 55 PCT 17 AV3

-0.08 D

43 51 PCT 17 AV3 0

D 36 40 PCT 17 AV3 0

D 41 36 PCT 17 AV3 0

D.

43 24 PCT 17 AV3 0.03 D

35 86 PCT 17 AV4 0

D 39 57 PCT 17 AV4 0

D 42 46 PCT 17 AV4 0

D 53 34 PCT 17 AV4

-0.08 D

41 34 PCT 17 AV4

-0.02 D

34 22 PCT 17 AV4

-0.07 D

38 73 PCT 17 AV5 0

D 53 35 PCT 17 AV5

-0.02 D

40 24 PCT 17 AV5 0

D 42 98 PCT 17 AV6 0.27 D

22 93 PCT 17 AV6 0

D 42 92 PCT 17 AV6 0.03 D

46 42 PCT 17 AV6

-0.06 D

42 40 PCT 17 AV6 0.18 D

36 40 PCT 17 AV6 0

D 29 83 PCT 16 AV1 0

D 27 8

PCT 16 AV1

-0.68 D

41 36 PCT 16 AV1 0

D 42 19 PCT 16 AVl 0

D 22 86 PCT 16 AV2 0.02 36

SG Row Col Ind Per Cent Location Inch1 D

55 82 PCT 16 AV2 0.06 D

28 69 PCT 16 AV2 0

D 51 62 PCT 16 AV2 0

D 46 32 PCT 16 AV2 0

D 45 32 PCT 16 AV2 0.06 D

49 94 PCT 16 AV3 0

D 46 38 PCT 16 AV3 0

D 40 24 PCT 16 AV3 0.09 D

39 94 PCT 16 AV4 0

D 37 84 PCT 16 AV4 0.07 D

37 48 PCT 16 AV4 0

D 39 44 PCT 16 AV4 0

D 37 40 PCT 16 AV4 0

D 36 40 PCT 16 AV4 0

D 49 36 PCT 16 AV4 0.13 D

40 24 PCT 16 AV4 0

D 28 115 PCT 16 AV5 0

D 34 73 PCT 16 AV5 0

D 39 57 PCT 16 AV5 0

D 37 38 PCT 16 AV5

-0.03 D

44 26 PCT 16 AV5 0

D 42 24 PCT 16 AV5 0

D 34 22 PCT 16 AV5 0

D 49 82 PCT 16 AV6 0.09 D

35 69 PCT 16 AV6 0

D 49 42 PCT 16 AV6 0

D 33 96 PCT 15 AV1 0

D 37 77 PCT 15 AV1 0

D 33 58 PCT 15 AV1 0

D 39 57 PCT 15 AV1 0

D 37 48 PCT 15 AV1 0

D 39 44 PCT 15 AV1 0

D 28 115 PCT 15 AV2 0

D 36 90 PCT 15, AV2 0.11 D

43 51 PCT 15 AV2 0

D 37 38 PCT 15 AV2 0.05 D

33 58 PCT 15 AV3 0

D 39 38 PCT 15 AV3 0.03 D

40 26 PCT 15 AV3

-0.03 D

42 24 PCT 15 AV3 0

D 35 22 PCT 15 AV3 0

D 36 16 PCT 15 AV3 0

D 32 12 PCT 15 AV3

-0.02 D

34 92 PCT 15 AV4 0.12 D

55 76 PCT 15 AV4 0

D 47 28 PCT 15 AV4 0.1 D

57 72 PCT 15 AV5 0

D 49 36 PCT 15 AV5 0.15 D

43 24 PCT 15 AV5 0

D 42 19 PCT 15 AV5 0

D 16 64 PCT 15 AV6

-0.31 D

35 22 PCT 15

.AV6 0

D 45 66 PCT 14 AV1 0

37

SG Row Col Ind Per Cent Location Inch1 D

32 12 PCT 14 AV1

-0.18 D

41 104 PCT 14 AV2 0.03 D

41 90 PCT 14 AV2 0

D 39 75 PCT 14 AV2 0.09 D

37 39 PCT 14 AV2 0.11 D

43 24 PCT 14 AV2 0.03 D

47 92 PCT 14 AV3 0.21 D

36 80 PCT 14 AV3 0.17 D

35 71 PCT 14 AV3

-0.12 D

37 38 PCT 14 AV3 0.2 D

33 107 PCT 14 AV4

-0.11 D

35 22 PCT 14 AV4 0

D 41 104 PCT 14 AV5 0

D 37 59 PCT 14 AV5 0

D 37 48 PCT 14 AV5

-0.35 D

36 40 PCT 14 AV5 0

D 18 93 PCT 14 AV6 0.12 D

54 35 PCT 14 AV6

-0.7 D

40 21 PCT 14 AV6 0

D 37 16 PCT 14 AV6 0

D 31 113 PCT 13 AV1

-0.03 D

35 71 PCT 13 AV1 0

D 27 111 PCT 13 AV5 0

D 39 96 PCT 13 AV5

-0.08 D

36 46 PCT 13 AV5 0

D 27 96 PCT 13 AV6 0

D 42 37 PCT 13 AV6

-0.32 D

46 38 PCT 12 AV2 0.03 D

49 36 PCT 12 AV2 0.06 D

54 80 PCT 12 AV3 0.18 D

55 39 PCT 12 AV3 0

D 44 26 PCT 12 AV3 0

D 27 76 PCT 11 AV1 0

D 43 51 PCT 11 AV4 0

D 35 37 PCT 10 AV6

-0.44 D

1 32 PCT 23 01H 0.06 D

13 4

PCT 22 01C 0.45 38

dl J,i,

• 11 APPENDIX C Seabrook OR13 Post-Inspection Resident Foreign Object Tracking October 2009 SG ID Priority Port ID Date Description Elev Col Row Leg Length Width Height Metallic Retrieved Attemp A

A001 -

NZL 10/11/2009 SLUDGE TTS 9

1 HL 0.292 0.292 0.292 no no yes ROCK B

B001 C

Cool C

C002-C C003 MWY 10/8/2009 SLUDGE ROCK MWY 10/9/2009 DUMBBELL MWY 10/9/2009 SLUDGE PILE NZL 10/12/2009 NAIL F-S 76 55

-nS 11 31 TTS 32 40 FDB 54 58 CL 0.375 0.300 0.500 HL 0.500 0.292 0.292 CL-0.292 0.292 CL 4.000 0.300 -

no no yes no no no yes yes no no yes no 39