Document: Ansys Input Files and Calculation Package Drafts

ML103440451
Person / Time
Site:	Salem
Issue date:	04/23/2010
From:	- No Known Affiliation
To:	Office of Information Services
References
FOIA/PA-2010-0334
Download: ML103440451 (95)
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Appendix A ANSYS INPUT FILES File name Descffption 12AF 4sch8O.inp ANSYS model input 'file for location I2AF 14AF 4sch8O.inp ANSYS model input~file forildeation 14AF 14AK 4sch8O.inp ANSYS model input file for location 14AK AF13T 4sch8O.inp AN SYS model input file for location AFI3T tuesday 4sch8O bndng EP.inp ANSYS model input file for location between AF4T and AF5T File No.: 1000494.301 Page A-i of A-]

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OP-AA-108-1.15 Revision 3 ATTACHMENT 1 Operability Evaluation Page 1 of 15

1. ISSUE IDENTIFICATION:

1.1 Notification (Order)#: 20460078 (70109482 Op 0010) 1.2 OpEval #: 10-005 Revision: 0 General Information:

1.3 Affected Station(s): Salem

1.4 Unit(s)

2

1.5 System

Auxiliary Feedwater (AF) 1.6 Component(s) Affected: 4" NPS Pip.,2AF1019 and-2AF1013 1.7 Detailed description of what SSC is degraded' or,,the*nonconforming condition, by what means and when first discovered, and extent of condition for all similarly affected SSCs: . ,

During Si R20 Unit 1 refueling outage, corrosion was found on the 4" Auxiliary Feedwater (AFW) buried piping that supplies the 12 and 14 steam generators. The corrosion exceeded the minimum wall criteria and the coro.sion was.seen on all excavated piping. This inspection was performed as partof planned buried pipe inspections during S1 R20. This operability evaluation assesses the applicability ofthefinndings to the Salem Unit 2 AFW piping Unit 1 Buried AFW Piping.

Auxiliary Feedwater pipes connect to the,#12'and #14 main feedwater lines in the outer penetrationn area. Thisilocation requires the #12 and #14 AFW pipes to travel approximately 30' underground along the edge of the containment building before entering the outer

,penetration areatat elevation 94 8 and 96' 2' for #12 and #14, respectively.

The Guided Wave inspections of the Salem Unit 1 #12 and #14 Auxiliary Feedwater (AFW) buried piping during Salem's S1 R20 refueling outage revealed degraded pipe wall conditions due to external corrosion in excess of the design minimum wall thickness due to heavy exter'ial uniform corrosion, The apparent cause of the corrosion was the improper application (or la'ck)'of the specýified pipe coatings, X-Tru-Coat, an adhered polyethylene protection system, 'a Bituia stic, which was specified per drawings and pipe specifications to be applied at the welded joints. Visual inspections of this piping after excavation showed a lack of coating. The only remnant of coating found was a portion of coal tar which was approximately 9 inches in length and 7 inches in circumference. This piece of coating was in the shape of the 4 inch AFW piping and conformed to that same surface.

The piping is 4-inch NPS, Schedule 80, A106 Gr B seamless carbon steel. It is classified as Nuclear 3, Seismic Category I. Per the Pipe Specification S-C-MPOO-MGS-0001, SPS 54E, the design Pressure-Temperature limit is 1950 psi at 140 F. The nominal wall thickness is 0.337 inches +/- 12.5%.

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OP-AA-1 08-115 Revision 3 ATTACHMENT I Operability Evaluation Page 2 of 15 Using the Guided Wave inspection results to target specific pipe areas of the 12 and 14 AFW piping during S1R20, NDE Services initially performed confirmatory UT measurements on 378 grid areas. Approximately 76 percent of these UT measurements were non-conforming, having a minimum wall thickness less than the design minimum wall thickness of 0.278 inches. For the worst case UT measurements, the minimum wall thickness for the #12 AFW buried piping showed a 55 percent loss (0.152 inches). For the #14 AFW buried piping, the greatest loss was approximately 78 percent (0.077 inches). As of 4/19/2010 the following number of UT readings were taken:

1. 14 AFW Line (Upper Pipe): 8,904 readings total. 1,194 are below 0.278"

1. 12 AFW Line (Lower Pipe): 8,852 readings total. 192 readings are below 0.278' Removal of sections of the Salem Unit 1 #12 and 14 AFW piping during S1 R20 and subsequent visual examinations has validatedathat the corrosion identified above is external.

These inspections also revealed that there isevidence of the X-Tru-Coat, an adhered polyethylene protection system only on the thrui wall portions of the #12 and # 14 AFW piping where it passes into the fuel transfer tube area. Itis#obvious this coating system was not on the buried portions of these lines and validates that the corrosion is due to lack of coating.

The ground fill of the AFW piping is not a harsh environment (harsh with regard to coating),

and there does not appear to be a correlation between the missing/deterioration of coating and the buried pipe environment.

Summary of StructuralIntegirity Associates (SIA) Finite Element Analysis Report The underground auxiliary fee'dwater piping at Salem, Unit 1 was designed to the tmin requirement given in the B31.1: Power Piping Code. B31.1 does not provide specific criteria for the evaluation of non-uniform wall thickness or local thinning. However, guidance for stress analysis may be taken from the ASMESCode,Section III as described below.

The technical appr6ach taken herein is based on the premise that while piping may have localized thinned regions that violate the design tmn requirements, the non-uniform wall thickness of the pipe cross-section may be shown to meet design stress allowables. This approach is possible for the~pipe section exhibiting thinning when a remaining wall greater than tmn, surrounds the thinnedregion. This approach is similar to the basis for qualifying pipe penetrations using branch reinforcement rules in the ASME Code.

Design requirements for Class 3 piping are provided in ND-3600 (similar to B31.1 rules) of the ASME Code,Section III [2]. More rigorous analyses are allowed under ND-3611.3:

"The .specificdesign requirements qfND-3600 are based on a simplified engineering approach. A more rigorousanalysis such as described in NB-3600 or NB-3200 may be used to calculate the stresses required to satisfy.these requirements. These calculated stresses must be compared to the allowable stresses in this Subsection. In such cases, the designer shall include the appropriatejustification for the approach taken in the Certified Design Report.

Thus, NB-3200 design by analysis is employed. Based on the linear-elastic finite element analysis results which showed that the section of pipe between AF4T and AF5T was ra n^ ...mnf- nnrlrnfc~innc\-i (11 \~I -,= TMA-mn~rna

OP-AA-108-115 Revision 3 ATTACHMENT 1 Operability Evaluation Page 3 of 15 bounding, it was required to perform additional analysis only for that section of pipe in order to show operability. The more rigorous analysis employed is described in Section NB3228.1, Limit Analysis. Specifically Section NB-3228.1 states that limits on Local Membrane Stress Intensity need not be satisfied at a specific location if it can be shown by limit analysis that the specified loadings do not exceed two-thirds of the lower bound collapse load. Also, NB-3228.1 states that the yield strength to be used in this calculation ,is 1.5Sm. In this evaluation, the value of yield strength is equal to 1.5S, where Sisrtaken as the value of Sh, 15.0 ksi, from the original 1967 B31.1 Power Piping Code. Thus, a yield strength of 22.5 ksi is used.

The thinned section of pipe is modeled using the as-foundd wva.IIthickness values for the region specified in S-TODI-2010-0005 which includes a minimur"i all thickness of 0.077 inches. A pressure load of 1.5 times the specified design pressuredis applied (1943 psi=

1.5*[1310psia-14.7psi]) to the pipe.

The results of the finite element analysis showvthat the thinned pipe in this section remains structurally stable at 1.5 times the specified design pressure and therefore passes the limit load analysis. .

Unit 2 Buried AFW Piping,-.

At Salem Unit 2, the AFW discharge lines.supplying the #22 and #24 SGs are also buried and run alongside the Unit 2 coairnmert %'tiniiar to the hUnit 1 #12 and 14 AFW lines. The piping and coatings specified for Unit 2 AFW are identical to those in Salem Unit 1 AFW buried piping.

December 199 Inslnectlion t ý,

In December 1994, three areas of the buried Salem Unit 2 AFW piping were excavated due to a concern over water entering the Williamson penetration seals into Outer Penetration area. The concern was that this-water could potentially be coming from a degraded buried

1. 22 and/or #24 AFW line. Work order (94.1017262) created to excavate specific areas of the yard area containing these buried lines to rule out any degradation of the #22 or #24 AFW ihpes andprove that ground water was the source of the ingress.

Once excavation was comn.plete in the three areas identified, coatings on these lines were inspected and phot6graphs-.ere taken. Per Report SCI-94-0877, the coal tar coating on the

.%#22 and #24 Aux Feed lines appeared to be in excellent condition. It was noted that some of "the coating had adhered very well and in other areas it had flaked off.

In one of the excavated areas, the coal tar coating was removed from the #22 and #24 AFW piping to*'allow for UT examination. These UT examinations revealed the following:

.Upper AFW Pipe (#24):

No degradation of the piping was observed, with 50% of the piping at or above nominal thickness. No thickness readings below the manufacturer's tolerance of 87.5%. The lowest recorded value was 0.321" which was within the manufacturer's tolerance. ikefnce r.\nrrrimcznt-c inri cattinrficMT r)1\1 nr~ qPttinn0\Timncnr~rv Tntprnpl-

OP-AA-108-115 Revision 3 ATTACHMENT 1 Operability Evaluation Page 4 of 15 Lower AFW Pipe (#22):

No degradation of the piping with 55% of the piping at or above nominal thickness, no thickness readings below the manufacturer's tolerance of 87.5%. The lowest recorded value was 0.306" which was within the manufacturer's tolerance. R.f£§i Post-inspection:

Any exposed carbon steel was prepped and recoated, and includ.*dthe areas of minor flaking and sections where coating was removed for UT. All work was performed lAW work order instructions and station procedures. Two coats of Bitumrastic 50 were applied over exposed metal surfaces lAW work order instructions. (See Report SCi-94'4,0877).

Recent AFW Excavation Inspection On 4/22/2010, several areas were excavated to inspect a sampling of Unit 2 Aux Feed piping that was not part of the 1994 inspection Salem" Buried Pipe Program Engineer performed a visual inspection of the Salem Unit 2 AuxiliaH' Feedwater Buried Pipe for the No.. 24 Aux Feed Train going to No. 24 Steam Generato:..The subjectipe was unearthedin the Fuel Transfer Area just as it exits the building headingNorthtlw6ards the Outer Penetration. This 4" diameter pipe was completely exposed for a niapproý mate 2 foot length at the wall penetration. Only the No. 24 Ii 4was exposed du~ringhis examination. The Bitumasitic coating was fully intact on the pip[eaIndI dýshowed no sigisof deterioration or any flaking.

Visual inspection included a look at the'8te66arance, anrd'nriping a hand over the pipe surface looking for loose coating or'lack of adh'ion. Th*eeWas no loose coating or lack of adhesion, the coating was in excelleit.conditioqi,.: -k Pooling Water Notification 20459941 identified that poolinig water was found in the area between Unit 2 containment and fuel handling building. Sampling results by chemistry detected measurable traces of amm*:onia. The results of an evaluation stated that the source of the water was not from the Unit 2 Auxiliary Feedwater system..rre

,AFW Temperature Difference On 4/20/2010 temperatur*s*were taken on AF piping at various points upstream of the AF23 check valves. The purpose of this evolution was to determine if any of the AF lines is

,-,experiencing back leakage (which could be an indication of thru-wall leak). The results of the analysis shows thathtte temperatures measured seem appropriate for normal conduction of hea't through the valVe'plug into fluid within the pipe. The pipe temperatures would be expectedto stay elevyated for longer lengths if there were a constant source of heated water moving through the'pipe. Additionally, a review of operator log entries, SAP, and surveillance test results in-dic'dtes that there has been no appreciable loss of inventory in the AFWST over the previous operating cycle.

Analysis The piping is 4-inch NPS, Schedule 80, A106 Gr B seamless carbon steel. It is classified as Nuclear 3, Seismic Category I. Per the Pipe Specification S-C-MPOO-MGS-0001, SPS 54E, the design Pressure-Temperature limit is 1950 psi at 140 F. The nominal wall thickness is 0.337 inches.

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OP-AA-108-115 Revision 3 ATTACHMENT I Operability Evaluation Page 5 of 15 To assess the available margin in the degraded Salem Unit 1 Piping, the maximum credible operating pressure was developed using all AFW system operating conditions (see SAP 70108698-0100). The resulting pressure is 1275 psi. The pipe wall tmin for this pressure is 0.185 inches. This operating pressure evaluation also applies to Salem Unit 2.

Since the AFW piping was found to be in good condition during 1994 inspection, and again during the current inspection, an average corrosion rate of 6 mils/year is conservatively assumed. The proposal is to perform excavation and inspections.during the upcoming Unit 2 refueling outage ($2R18) scheduled for April 2011. This isa span of 16.5 years from the last inspection in 1994. The projected wall loss assuming a corrosion rate of 6 mils/per year is 0.099 mils (16.5 x 0.006). The projected wall thickness would be 0.207, which meets the minimum thickness requirement of 0.185 inches to support maximum, credible operating pressure .of 1275 psi Note that this projection assumes a nominal co'rrosion rate, even though spot inspections performed in 1994 and again in April 2010 showed that coating was intact and in good condition. Corrosion rate for sound coated carbon steel piping is zero.

Coating Life Span ..

Proper preparation of the carbon steel piping and application of the coating will ensure proper adherence to the piping. The recent inspections performed on 4/22/2010 of piping buried since construction showed that' the coating was intact and in good condition, and the piping showed no indication of degradation or~ corrosion. Therefore, the coating is assumed to remain intact until next Unit 2 refueling outage.

In-service testing The latest in-service testing for Unit 2 pumps :and valves are provided below. Results of all testing was SAT.

Procedure Component Work Order Date Results S2.OP-SO.AF-0005 21 & 22 Motor Driven Pumps 50114298 11/5/2009 SAT S2.OP-SO.AF-0006 AF23 Stop CheckValves 50128109 01/24/2010 SAT S2.OP-SO.AF-0007 23 Turbine Driven Pump 50113100 10/13/2009 SAT Conclusion Considering the positive inspection findings for both coatings and UT readings of the Salem Unit 2 #22 and #24 AFW buried lines, coupled with fact it is apparent that the Salem Unit 1

1. 12 and 14 AFW lines were not coated or improperly coated, there is reasonable assurance that the buried #22 and #24 AFW lines are protected from corrosion at this time by the coating system applied and are structurally sound, and the coating is assumed to remain intact until next Unit 2 refueling outage. Per the table above, recent In-service testing results for the AFW components were all SAT.

Based on the above information, it is concluded that Unit 2 AFW buried piping can perform its intended function until the next Unit 2 refueling outage ($2R18).

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OP-AA-108-115 Revision 3 ATTACHMENT 1 Operability Evaluation Page 6 of 15 Future Actions and/or Compensatory Actions Implement planned inspection per the buried pipe program in next outage of sufficient duration or S2R18. Perform Guided Wave examinations of the #22 and # 24 AFW buried piping during the next Unit 2 refueling outage - S2R18 As such, Guided Wave inspections of the Unit 2 AFW buried piping will be performed at locations to survey for areas of general or pitting corrosion. The results from the Guided Wave inspebtibns will be used to target areas of interest for follow-up direct visual and confirmatory TUT inspections to determine pipe minimum as-found wall thicknesses. Any portion of the pipin- if found unacceptable will be replaced.

2. EVALUATION:

2.1 Describe the safety function(s) or safeytsupport function(s) of the SSC. ¢As a minimum the following should be addressed ,as appjicible, in describing the SSC safety or safety support function(s): ,

UFSAR Section 10.4.7.2: Auxiliary Feedwater 1<

The AFW System serves as a backup sysIte for supplying feedwater to secondary side of the steam generators at times whenthe Main Feedwater System is not available. The AFW System is rehied,'upobinto prevent core damage and system overpressurization in the event of accidents such as a loss of normal feedwater or a secondary system pipe rupture, and to, provide a means for plant cooldown.

Each unit liýequipped with 'one turbine-driven and two motor-driven auxiliary feed pumps. Each motor-driven ump-discharges to two steam generators with a normally isolated (21 and 22AF923 valves) cross-connect line joining the motor-driven pump discharge headers. The turbine-driven pump feeds all four steam generators.

Feedwater flow is controlled from the Control Room by remotely operated flow control valves in the supply lines to each steam generator. In order to prevent a runout

.condiion of the motor driven pumps the steam generator flow control valves (AF21's)

"..-'ýmodulates to control the motor-driven auxiliary feedwater pump discharge pressure.

The minimum performance limits required for the auxiliary feedwater pumps to satisfy the design bases analyses, as verified during quarterly (minimum flow/recirculation) and Full*Flow Te~chnical Specification Inservice Testing, are included below. Note that these values account for test instrumentation uncertainties.

S2.RA-ST.AF-0002 (*22AFP Min Flow Test)

Min Flow Test 21 motor-driven AFWP* 160 gpm and 1369 psid 22 motor-driven AFWP 160 gpm and 1389 psid 23 turbine-driven AFWP 400 gpm and 1506 psid at 3600 rpm

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OP-AA-1 08-115 Revision 3 ATTACHMENT 1 Operability Evaluation Page 7 of 15 S2.RA-ST.AF-0005 (*22 AFP Full Flow Test)

Full Flow Test 21 motor-driven AFWP 440 gpm and 1184 psid 22 motor-driven AFWP* 450 gpm and 1114 psid 23 turbine-driven AFWP 880 gpm and 1269 psid at 3600 rpm All auxiliary feed pumps normally take suction from the auxiliary feed storage tank. A safety grade, automatic low pressure trip is provided as backup protection for each pump in the event that tornado missile damage to the, auxiliary feedwater storage tank results in loss of suction pressure. To protect against spurious activation, this trip will be made operable only during "tornado warnings" issued by the National Weather Service. The tank has sufficient capacity to allow residual heat removal for 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />. Backup water sources for the auxiliary feed pumps are the two demineralized water storage tanks (500,000 gallons capacity each), the two fire protection and domestic water storage tanks (350,000 ga'llons capacity each) and the station Service Water System, which must first have a spool piece installed. The quality of water from these sources is lower and is therefore intended for use only in the event of emergency situations.

• Does the SSC receive/initiate an RPS or ESF actuation signal?

YES. The Auxiliary Feedwater System (AFWS) is an Engineered Safeguards System (ESF). The motor driven auxiliary Feedwater pumps (MDAFPs) start automatically due to (1) trip of both main Feedwater pumps (LQONF), (2) Safety Injection signal, and (3) a Low-Low signal from any one SG*The two MDAFPs are loaded onto the emergency diesel generators by the automatic load sequencer. The turbine driven auxiliary Feedwater pump (TDAFP) starts automatically on (1) a Low-Low level in two of the four SGs, (2) Loss of 125VDC control power, (3) Loss of Control Air, and (4) undervoltage on the reactor coolant pump group buses on I out 2 logic. For anticipated transients without scram (ATWS) events, which are not design basis transients analyzed in Chapter 15 of the FSAR, Westinghouse plants such as Salem have an ATWS Mitigation System Actuation Circuitry (AMSAC) to initiate a turbine trip an actuate auxiliary feedwater flow independent of the Reactor Protection System or the ESF Actuation System (ESFAS). When SG level drops below the AMSAC set point in 3 of 4 SGs, AMSAC initiates tripping the turbine, initiates AFWS, and isolates the SG blowdown and sample lines. AMSAC is non-safety related.

• Is the SSC in the main flow path of an ECCS or support system?

NO. The AFWS is not an Emergency Core Cooling System (ECCS) or an ECCS support system. The AFWS serves as a backup system supplying feedwater to the secondary side of the SGs when Main Feedwater system is unavailable. It is relied upon to prevent core damage and RCS overpressurization in certain design basis accidents such as Loss of Offsite Power (LOOP), LONF, Feedwater Line Break (FWLB), Main r(\flnr-,mPnf-, ;nti1 ;Pttinnv\T1 fl1\1 ncal Settinas\Temnoorarv Internet

OP-AA-1 08-115 Revision 3 ATTACHMENT 1 Operability Evaluation Page 8 of 15 Steam Line Break (MSLB), Steam Generator Tube Rupture (SGTR), or Loss of Coolant Accident (LOCA) by providing a means for plant cooldown from normal operating conditions to initiation of low pressure residual heat removal systems. It functions during startup, shutdown, and hot standby (HSB).

• Is the SSC used to:

Maintain reactor coolant pressure boundary integrity?

YES. The Auxiliary Feedwater system supplies water to°the SGs for reactor decay heat removal when the normal Feedwater sources are unavailable due to loss of offsite power (LOOP) or other malfunction. By maintaining water'l,evels in the SGs and thus ensuring an adequate heat sink, the AFWS functions to removeb'decay heat, reactor coolant pump heat, and sensible heat during plant cooldown. In addition, the AFW system functions to prevent overpressurization of the RCS, thereby 'rotecting the reactor coolant pressure boundary (RCPB) integrity.

o Shutdown the reactor?

NO. The AFWS does not provide a reactivity. control safety function for shutting down of the reactor; although it does help to cooldown the reactor. The AFWS does not affect the rod control system or the alternative boron chemical shim system that control reactivity in the core. By providing the SG secondary side heat sink medium capable of receiving heat transfer from the reactor coolant system, the AFWS has an indirect positive reactivity effect, by cooling and thus increasing the density of the reactor coolant neuitrbn moderator.

• Maintain the reactor in a safe shutdown condition?

YES. The licensing basis for safe shutdown at Salem is hot standby (HSB). The AFWS must peroi~j~'i. its safe shutdown function to maintain the plant in HSB. The AFWS can be manual lycontrolled to maintain HSB conditions until cooldown can be established.

The,,AFWS is provided with sufficienttwat6r from the Auxiliary Feedwater Storage Tank

,.'I(AFST);to allpw thliBýSGs to provide decay heat removal for 8 hours9.259259e-5 days <br />0.00222 hours <br />1.322751e-5 weeks <br />3.044e-6 months <br />. In addition, backup

'water sour*ies are**ae provided from the Demineralized Water Storage Tanks (DWSTs), the Fire ProtectionWater Storage Tanks (FPWSTs), and a normally disconnected connection to the ServiceWater system for use in an emergency in the event of a

-'seismic event that incapacitates AFST, DWSTs, and FPWSTs. During normal cooldown, each of.the MDAFPs has the capacity to remove heat from the SGs at a sufficient rate to prevent RCS overpressurization and to maintain SG levels to prevent thermal cycling,.,

• Prevent or mitigate the consequences of an accident that could result in offsite exposures comparable to 10 CFR 50.34(a)(1), 10 CFR 50.67(b)(2), or 10 CFR 100.11 guidelines, as applicable.

YES. The AFWS performs a safety function in mitigating design basis accidents, including LOOP, LONF, FWLB, MSLB, SGTR, and small break LOCA (SBLOCA) by supplying adequate feedwater to the secondary side of the Steam Generators to prevent overheating the reactor coolant system and to provide a means for achieving plant cooldown to initiation of the residual heat removal system. Depending on the design basis accident, the AFWS either maintains or limits feedwater to the SGs, For C:\Dorume~ntq and SePtltnrc\T1 0~1\I r-rc;l q~tn6~nrn Tnforrjet

OP-AA-108-115 Revision 3 ATTACHMENT 1 Operability Evaluation Page 9 of 15 the SBLOCA, LONF, and LOOP/LONF, the AFWS must maintain adequate feedwater.

For the FWLB, the AFWS must preserve inventory while maintaining level. For the MSLB and SGTR events, the AFWS must limit feedwater flow as too much water delivery will result in overcooling the reactor coolant system or overpressurization of the containment.

Does the SSC provide required support (i.e., coolging, lubrication, etc.) to a TS required SSC?

YES. During normal plant cooldown, the AFWS removes' sufficient heat from the SGs to prevent overpressurization of the RCS and to maintain SG.levels sufficient to prevent thermal cycling.

• Is the SSC used to provide isolationý between safety trains, or between safety and non-safety ties?

NO. The AFWS does not perform an solation function per se; however,,whenever either the MDAFPs or the TDAFP automatically startsasignal is sent to the isolation valves of the Steam Generator Blowdown and Sampling Systems to close. The isolation signal to the Sample System isolatioinvadves can be bypassed using a keylocked switch located in theControl Room. ,*.

• Is the SSC required to-jbie operated.manually,1to mitigate a design basis event?

NO. The AFW pupnpscan be operated manually attheir local control panel or from the main ControlRoom. A*utomatic initiatio'tignals are designed to prevent system malfunction given a single failure. AFW'flow is controlled from the Control Room using remotely-;perated flow control valves,(AF21's) in the supply lines to each SG. Safety-related flow indication to each SG is proviided in the Control Room. The flow control valves have reduced cap'aDty trim to limit'the maximum flow under certain plant conditions.

Have all specifired safety functions described in TS been included?

YES. Salem T/Ssirequirethat at least three independent AFW pumps, their associated "manual activation sswitchesý inthe Control Room, and their flow paths are operable in

'Modes 1 though 3. The two MDAFPs must be capable of being powered from separate vital-busses and the'rTDAFP must be capable of being powered from an operable steam supplysystem. Operability of the AFWS ensures that the Reactor Coolant System can be cooled down to iess than 350 F from normal operating conditions in the event of a total loss olf'offsit power (LOOP).

• Have'all safety functions of the SSC required during normal operation and potential accident conditions been included?

YES. The AFWS safety functions include LONF, FWLB, MSLB, LOOP, and LOCA during accident conditions and plant cooldown during normal plant conditions. The AFWS supplies water to the SGs for reactor decay heat removal if the normal Feedwater sources are unavailable due to loss of offsite power or other malfunctions.

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<"S S OP-AA-108-115 Revision 3 ATTACHMENT 1 Operability Evaluation Page 10 of 15

• Is the SSC used to assess conditions for Emergency Action Levels (EALs)?

NO. The AFWS is not used to assess conditions for EALs.

2.2 Describe the following, as applicable: (a) the effect of the degraded or nonconforming condition on the SSC safety function(s); (b) any requirements or commitments established for the SSC and any challenges to these;. (c)the circumstances of the degraded/nonconforming condition, including the possibl.,failure mechanism(s);

(d) whether the potential failure is time dependent and whetlher the condition will continue to degrade and/or will the potential consequences increase; and (e) the aggregate effect of the degraded or nonconforming condition in light of other open Op Eval s: -

Table: List of Existing.OpEvalsi*,

NUMBER NOTFIORDER ENTRY DESCRIPTION OWNER STATUS EXPECTED NUMBER DATE ESCRIPTON OWNER CLOSURE 80094618-issued, S12 ECCS.robm6 need orders coole t4herrn, t~ planned081 07-033 80094618 9/07r07 (DCP 80094618a.l, (DCP40094Bh ardwa]-.: 80095613- ders ne Issued,

_________ .. planned 230VMooO dS112 On-Line DCP 00 Mo O80099509 to be 08-040 70087831 8/08/08, /;**!*!:Valvevoltagr6,,.

• ;:*."ii - degraded Ciarlante planned, scheduled, 12/23/10 IIl n einstalled

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09-09 60084229 ' ,4107/O9-1 CAAI41CAI17/CAA20 Hassler Perform Inspections 5131/10 09-019 60085180 *8I10109 SRW watertight door Hassler eplace door seal 52110 "4;,

_________ *.:* WW 0022 06-021 70103767 11/5109 Can Liner Curran Repair In S2R18 S2R18

. Heate b.usses *E "Procure new panel

,u***

• * **PZR Heater busses Edordsgl610 090023 :, 70104221 .-. 1:1'/9/09

• ,-, *-.Implement

• • .- &G 3 R. Smith lement new ne1w10

-.  : overheating

...... design

• -,-:. ,.'.4,Develop repair plan 9/71 10-001 ":*:70106347 1/28/108il 21 SI pump oil leak Hummel Repair Oil Leak 9/27/10

1. 4 SW Bay Ventilation 10-002 60089385 3/19/10 Temp Controller Hayman Perform repairs 4/27/10 22SW34 Valve failed 10-003 20455408 3/25/10 ASME code reverse Hassler Perform repairs 5/30/10 flow check 10-004_ 20457356 2045356_ 4/07/10 4/0710 #3 SW Bay for controller Vent temp 1SWV3 __

Hayman Perform repairs 9/30/10 A) THE EFFECT OF THE DEGRADED OR NONCONFORMING CONDITION ON THE SSC SAFETY FUNCTION(S)

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OP-AA-108-115 Revision 3 ATTACHMENT 1 Operability Evaluation Page 11 of 15 The nonconforming condition potentially affects the structural integrity of the AFW discharge piping, reducing the margin of the Tmin wall thickness for a given pressure and would limit the maximum pressure to a value less than the design pressure. Based on an assumed constant corrosion rate, the wall thinning reduces the life expectancy of the buried pipe. If structural integrity is lost and a breach in the pipe occurs, the AFW system can no longer fully perform its design safety function. It should be noted that there has been no identified active leak reported.

B) ANY REQUIREMENTS OR COMMITMENTS ESTABLISHED FOR THE SSC AND ANY CHALLENGES TO THESE The requirement associated with minimum wall-thicknessl (min) for buried AFW pipe is governed by the ANSI B31.1, 1967 Edition, Power Piping code.

C) THE CIRCUMSTANCES OF THE DEGRADED/NONCONFORMING CONDITION, INCLUDING THE POSSIBLE FAILURE MECHANISM(S)

The degradation of the auxiliary feed Water piping at Unit 2 is substantially less than that at Unit 1. Based on the existing data, it is concluded that the AFW piping will be able to perform its intended design function at least until the next Unit 2 refueling outage (April 2011) when an extensive investigation will be performed. A complete loss of wall thickness would result in rupture in the pipe. Any rupture will result in loss of coolingiof the steam generators.

D) WHETHER THE POTENTIAL FAILURE ISTIME DEPENDENTAND WHETHER THE CONDITION WILL CONTINUE TO DEGRADE AND/OR WILLTHE POTENTIAL CONSEQUENCES INCR EASE; AND The potential failure of the pipe is-time dependent based on the assumed corrosion rate. Based on earlher'assessments of carbon steel corrosion due to exposure to brackish Service Water,,the buried AFW pipe wall thickness will continue to degrade 6 mils per year until the pipe will no longer be capable of supporting the maximum credible: operating pressure Without margin to eminent failure.

E) THE AGGREGATE EFFECT OF THE DEGRADED OR NONCONFORMING CONDITION IN LIGHT OF OTHER OPEN OPEVALS (SEE TABLE OF OPEN OPEVALS ABOVE)

The aggregate impact ofithe non-conformance being evaluated was assessed against outstanding OpEVals listed in the Table above. Each of the ODs was reviewed in depth for the description of condition and the basis of the operability determination to determine if the non-conformance described in this OpEval will make any SSC. covered in the other outstanding ODs inoperable or degraded. In conclusion, itheOpEval discussed herein has no aggregate impact on any SSC safety ,functioni or other OD currently open.

YES NO 2.3 Is SSC operability supported?

Explain basis (e.g., analysis, test, operating experience, [X] [

engineering judgment, etc.):

Summary SIA Finite Element Analysis Report The preliminary analysis of the Salem Unit 1 underground auxiliary feedwater piping is complete. The analysis evaluated the region specified in S-TODI-2010-0005 which r-\nnrttmontc nnei Cnf+inýcTl

OP-AA-108-115 Revision 3 ATTACHMENT 1 Operability Evaluation Page 12 of 15 includes a minimum wall thickness of 0.077 inches. A Limit Analysis was performed as described in NB-3228.1. NB-3228 allows relaxation of basic stress limits if plastic analysis is used. An elastic-perfectly plastic finite element analysis was performed and the results show that the criterion specified in NB-3228.1 is satisfied.

If 2.3 = NO, notify Operations Shift Management immediately.

If 2.3 = YES, clearly document the basis for the determination.

YES NO 2.4 Are compensatory measures and/or corrective',actions required? [X] [X]

If 2.4 = YES, complete section 3.0 (if.NO,, N/A section 3.0).

Reference Documents:

2.4.1. Technical Specifications Section(s):

TIS 3/4.7 Plant Systems, LCO 31. 7.1.2,*Auxiliary Feedwater System 2.4.2. UFSAR Section(s):

3.7.3.9 3.9.4: Inservice Testing Pumps andValves .

10.4.7.2, Auxiliary Feedwater System-.,

15.2.8, Loss o~fNormal Feecdwater 15.2.9, Loss of Offsite Power to Station Auxiliaries (LOP) 15.3.1, Loss of ,Reactor Cooiant from Small Ruptured Pipes (SBLOCA) 15.4.1, Major Reactor Coolant SystemyipeRuptures (LBLOCA) 15.4:2,1Major Secondary System Pipe' Rupture (MSLB)

,5.4.3, Major Rupture of Main Feedwater Line (FWLB) 15.4.4, Steam Generator Tube Rupture (SGTR) 2.4.3. ,,Other:

J,Technical Evaluation-70108698, Rev. 0 Technical Evaluation 20459941 Potential Water Sources Inner Mechanical Penetration ANSIU B31.1, 1967 Ed., Power Piping DWG 205336 Sheet i Rev. 49 DWG 218233 Sheet 1 Rev. 11 S-C-MPOO-MGS-0001, SPS54, Rev. 6, Piping Schedule, Auxiliary Feedwater S-C-AF-MDC-0445, Rev. 3, Auxiliary Feedwater System Hydraulic Analysis S-C-F400-MDC-0096, Rev. 4 Auxiliary Feedwater Storage Tank (AFWST) Capacity S-C-A900-MDC-005, Rev. 0, Pipe Wall Thickness Calculations (Info Only)

S2.OP-ST.AF-0002 Rev 18 S2.RA-ST.AF-0001 Rev. 6 (21 Aux Feed Pump)

S2.RA-ST.AF-0002 Rev. 9 (22 Aux Feed Pump)

S2.RA-ST.AF-0005 Rev. 9

(-.\ner1jr",nnJC nMel Cýf+j- ýn (')Il - I _.

OP-AA-1 08-115 Revision 3 ATTACHMENT 1 Operability Evaluation Page 13 of 15 SC.DE-BD.AF-0001(Q), Rev. 0, Auxiliary Feedwater System (Info Only)

[SIA Finite Element Analysis Report]ýSýO Dl--2O10'O05 SCI-94-877 LTR dated 12/16/1994 - Excavated Auxiliary feedwater Piping Walkdown/Disposition of Coating Requirements 20459689 Work Order 941017262 Duane Arnold Energy Center Relief Requests NDE-R004 and NDE-R007 (Info Only)

3. ACTION ITEM LIST:

If, through evaluating SSC operability, it is determined:ihait the degraded or nonconforming SSC does not prevent accomplishment of the specified safety fundti.nh() in the TS and the intention is to continue operating the plant in that *&ondition, then recdordbelow, as appropriate, any required compensatory measures to support operability,and/or corrective actions required to restore full qualification. For'corrective actions, document when the actions should be completed (e.g., immediate, within next 1ý3 week period, next outage, etc.)

and the basis for timeliness of the action. Corrective action timeframes longer than the next refueling outage are to be explicitly justified as part of'th*e'OpEval or deficiency tracking documentation being used to perorm the corrective action.

Compensatory Measure #1: None ResponsibleiDept../.SupV.:* ,

Action, Due:

Action Tracking #:

Compensatory Measure #2: None Responsible Depf/,Supv.:

Action Due:

Action Tracking #:

-4 C^++; --- IM n1\1 -]

OP-AA-108-115 Revision 3 ATTACHMENT 1 Operability Evaluation Page 14 of 15.

Corrective Action #1: Perform Guided Wave examination and visual examination of the excavated area for the #22 and # 24 AFW buried piping during the next Unit 2 refueling outage - S2R18. The results from the Guided Wave inspections will be used to target areas of interest for follow-up direct visual and confirmatory UT inspections to determine pipe minimum as-found wall thicknesses. Replace if necessary , all non-conforming buried AFW piping. Work Order 60084161 is created to performlthis task.

Responsible Dept./Supv.: TBD Action Due: S2R18 Refueling Outage (April 2011)

Action Tracking #: Work Order 60084161 Corrective Action #2:

Responsible Dept./Supv.:

Action Due:

Basis for timeliness of action:

Action Tracking #:

4. SIGNATURE S:.'

4.1 Preparer(s) Mark Puher Date 04/22/2010 Robert Down Date 04/22/2010 4.2 Reviewer Kiran Mathur Date 04/22/2010 (10 CFR 50.59 screener qualified or active SRO license holder) 4.3 Sr. Manager Design Engr/Designee Concurrence Date 4.4 Operations Shift Management Approval Date 4.5 If the OpEval is to declare a Shutdown Safety System or component Operable but Degraded, then the following signatures are required: (CAPR 70103591) f-.ý n- -4 C-#+i-,%-r1 n1 \I - I C.++i-NT--- Týi--+,

OP-AA-108-1 15 Revision 3 ATTACHMENT 1 Operability Evaluation Page 15 of 15 Operations Director Date Engineering Director Date

• Shutdown Safety Manager Date

• When in Modes 4, 5, 6, Defueled (SA) or Modes 3, 4, 5 (HG).

4.6 Ensure the completed form is forwarded to the OEPM for processing and Action Tracking entry as appropriate.

5. OPERABILITY EVALUATION CLOSURE:

5.1 Corrective actions are complete, as necessary, and the OpEval is ready for closure Ij ) "U"*1VI K.-- Date _ _'

5.2 Operations Shift Management i Approval ___________________________,_.

....... Date 5.3 Ensure the completed form is fo~riWarded to';`h"OEPM for processing, Action Tracking entry, and cancellatIion of any ope':comrenseatory measures, as appropriate.

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Appendix A ANSYS INPUT FILES File name DescriptiOný 12AF 4sch8O.inp ANSYS model inputdfije for location I 2AF 14AF 4sch8O.inp ANSYS modtlfinputfile'rf6o16eation 14AF 14AK 4sch8O.inp ANSYS modeljnput file for location 14AK AF13T 4sch80.inp ANSYS model input file for location AF13T tuesday 4sch8O bndng EP.inp ANSYS model input file for location between AF4T and AF5T File No.: 1000494.301 Page A-I of A-i Revision: C F0306-O1RO

Ahmed, Mohammad 1.

From: Romero, Martin [MVromero@Structint~com]

Sent: Wednesday, April 21,2010 111:11 PMvi To: Adair, Mark; Davies, Steven B.; Ahmed, Mohammad I,; Hennessy, Philip; Johnson, Alan A.

Cc: Gerber, Nancy; McGill, Bob: Bax, Rich; Jenson, Craig

Subject:

Salem Unit 1 Underground Auxiliary feedwater Piping preliminary evaluation results Hello:

The preliminary analysis of the Salem Unit I underground auxiliary feedwater piping is complete. A non-linear elastic-perfectly plastic finite element analysis was performed on the bounding location of the auxiliary feedwater piping and it was found to remain structurally stable using stress limits from the original 831.1 Power Piping Code. The fo!lowing sections were evaluated: 12AF, 14AF, 14AK, AF13T, and a section of pipe between AF4T and AF5T. The section of pipe between AF4T and AFST was found to be bounding based on a linear-elastic finite element analysis and required a more rigorous analysis described below.

The underground auxiliary feedwater piping at Salem, Unit 1 was designed to the tmin requirement given in the B31.1 Power Piping Code. B31.1 does not provide specific criteria for the evaluation of non-uniform wall thickness or local thinning. However, guidance for stress analysis may be taken from the ASME Code, Section Ill as described below.

The technical approach taken herein is based on the premise that while piping may have localized thinned regions that violate the design tK,., requirements, the non-uniform wall thickness of the pipe cross-section may be shown to meet design stress allowables. This approach is possible for the pipe section exhibiting thinning when a remaining wall greater than trrin surrounds the thinned region. This approach is similar to the basis for qualifying pipe penetrations using branch reinforcement rules in the ASME Code.

Design requirements for Class 3 piping are provided in ND-3600 (similar to 831.1 rules) of the ASME Code,Section III

[2]. More rigorous analyses are allowed under ND-3611.3:

"The specific design requirements oJ'ND-3600 are based on a simplified engineeringapproach, A more rigorous analysis such as described in NB-3600 or .B -3200 may be used to calculate the stresses required to satisfy these requirements. These calculatedstresses must be compared to the allowable stresses in this Subsection. In such cases, the designer shall include the appropriatejustificationJbr the approachtaken in the CertifiedDesigan Report."

Thus, NB-3200 design by analysis is employed, Based on the linear-elastic finite element analysis results which showed that the section of pipe between AF4T and AF5T was bounding, it was required to perform additional analysis only for that section of pipe in order to show operability. The more rigorous anaysis employed is described in Section NB3228.1, Limit Analysis. Specifically Section NB-3228.1 states that limits on Local Membrane Stress Intensity need not be satisfied at a specific location ifit can be shown by limit analysis that the specified loadings do not exceed two-thirds of the lower bound collapse load. Also, NB-3228.1 states that the yield strength to be used in this calculation is 1.5Sr . In this evaluation, the value of yield strength is equal to 1.5S, where S is taken as the value of S.I: 15.0 ksi, from the original 1967 531,1 Power Piping Code. Thus, a yield strength of 22.5 ksi is used.

The section of pipe between AF4T and AF5T is modeled using the as-found wall thickness values for the region specified in S-TODI-2010-0005 which includes a minimum wall thickness of 0.077 inches. A pressure load of 1.5 times the specified design pressure is applied ( 1943 psi = 1.5*(1310psia-14.7psi) ) to the pipe.

The results of the finite ele.,men*, ana!ysis show that the thinned pipe between AF4T and AF5T remains structurally stable at 1,5 times the specified aesign pressure and therefore passes the limit load analysis.

A draft calculation package will be transmitted Friday morning. If there are any questions, please do not hesitate to call me on my cell phone (408)218-2349.

Thank you, Martin Romero, P.E.

Senior Consultant

1ý_M An Assessment of "ASME Code,Section III, Design by Analysis Evaluation of a 4-inch Auxiliary Feedwater Piping" for Salem Generating Station, Unit 1.

Background

The licensee identified localized wall thinning in several regions of the buried auxiliary feedwater (AFW) piping at Salem Generating Station, Unit 1, based on the guided wave technology. The licensee excavated the affected piping regions and found significant external corrosion. Subsequently the licensee inspected the affected piping segments using straight beam ultrasonic testing to determine the pipe wall thickness. Several measurement locations showed pipe wall thicknesses less than the design minimum wall thickness. The licensee performed stress calculations todemonstrate that the degraded AFW piping still meets allowable stresses of the ASME B31.1 Code of Construction and that the piping was operable during past operation.

Discussion Under ASME Section Xl, a planar or laminar flaw is dispositioned by the acceptance standards of IWB-3515. If the flaw is within tlfe acceptance standards of IWB-3515, the flaw can be left in service. If the flaw exceeds IWB-3514, the flaw may be accepted by analysis of IWB-3600 followed by 3 successive examinations. A pipe that contains a flaw that exceeds IWB-3600 will need to be repaired or replaced.

The ASME Code,Section XI, is stringent in that it minimizes flaws from growing uncontrollably to rupture. A pin hole leak that is caused by wall thinning, in general, does not lead to pipe rupture [I believe that a pipe rupture is defined as when the leak rate from a crack is so large that the pump cannot provide sufficient makeup to achieve the intended function of the pipe]. Salem's AFE pipe degradation mechanism is wall thinning.

The ASME Code, Section Xl, does not have requirements for analyzing wall thinning condition except in Code Case N-513-2. However, N-513-2 is not applicable to high energy line such as AFW line.

Code Case N-561-2, Alternative Requirements for Wall Thickness Restoration of Class 2 and High Energy Class 3 Carbon Steel Piping, provides guidance for high energy Class 3 piping. However, the, NRC has not approved N-561 in Regulatory Guide 1.147, Revision 15.

Therefore, the licensee used the rules of the ASME Section III to satisfy 10 CFR 50.55a. Under the ASME Code, Section II1,the same pipe would not need to be repaired as long as the pipe satisfies the allowable stresses of NB-3200 or NB-3600. The AFW piping is ASME Class 3 pipe and should follow the rule of ND-3000 for piping design. However, the licensee selected the rules of Class 1 piping, (i.e., NB-3200 and/or NB-3600) because rules in NB-3000 provide more detailed analysis procedures and allowables.

The licensee analyzed five pipe segments, 12AF, 14AF, 14AK, AF13T, AF4T/AF5T. The resultant stresses are shown on Pages 11 to 13 and page 16 of the report. As shown on those pages, each of the pipe segments has certain locations that exceed the allowable stresses. However, when the licensee linearized the stresses in all the nodes in the model and calculated a single stress, the linearized stress for each of the pipes is within the allowable as shown in Table 1 (page 8). In other words, even though localized stress at certain node in each of the pipes exceeds the allowable stress, the overall (global) stress of each of the pipe are within the allowable.

The licensee did not use the as-found pipe wall thickness (the thinnest wall thickness) for the entire pipe in calculating the stresses. For example, the licensee did not use 0.077 inch to calculate the stress for

the entire pipe segment. Instead, the licensee used the as-found wall thickness (0.077 inch) to calculate the local stresses at the node (location) where the wall thinning was found. For other nodal points of the pipe, the licensee used the nominal thickness or as-found pipe thickness at those nodes which may not be degraded. Although some pipe locations have severe wall thinning degradation, the licensee was able to demonstrate that the structural integrity of the pipe as a whole is acceptable.

Conclusion The staff finds that the degraded AFW piping satisfies the requirements of ASME Code,Section III, NB-3213.10, NB-3221.2, and NB-3228.1. However, the staff concludes that the subject AFW piping is operable but degraded.

Recommendations

1. Page 4, last paragraph. The licensee stated that the worst wall thickness is 0.077 inch. Confirm that the minimum allowable pipe wall thickness is 0.190 inch as shown on page 5, second paragraph.

2. The stress analysis needs to include detailed pipe wall thickness measurements in all 5 subject AFW pipes so that the reviewer can understand the extent of the wall thinning.

Transmittal of Design Information Transmittal Number: S-TODI-2010-0004 Date: 04/16/2010 To: Robert McGill Structural Integrity Associates 5215 Hellyer Avenue, Suite 210 San Jose, CA 95138-1007 From: Arie Blum Salem Design Engineering - Mechanical/ Structural P.O. Box 236, M/C 29, Hancocks Bridge, NJ 08038

Subject:

Confirmation of design input information for Salem Unit 1, Underground Auxiliary Feedwater Piping Follows are the description of the Attachments contained in this TODI: - Specification No. S-C-MPOO-MGS-001, Pipinq Schedule SP54 The piping is classified as Nuclear Class 3 and Seismic Class 1. The material is ASTM A106 Grade B. The maximum temperature is 140 0F. For the pressure see Attachment 2. - Technical Evaluation (TE) No. 70108698-005 The TE establishes the maximum credible operating pressure of 1275 psia. However, it is requested that the evaluation establishes a maximum design pressure for the Underground Auxiliary Feedwater piping based on its degraded condition, using ASME factor of 3.5 and 4. - Ultrasonic Thickness Examination record The NDE data report is generated under work order number 60084266. As documented in this report the Pipe is 4" diameter with Nominal wall thickness of 0.337". It includes the UT data for the entire exposed Auxiliary Feedwater piping.

Intended use of the information being provided:

To generate analysis related to Salem Unit 1 Underground Auxiliary Feedwater Piping thinned wall piping, inspection/ evaluation scope during S1R20 refueling Outage.

Limitations on the use of the transmittal information:

This information is intended only to be used for Salem Unit I affected piping evaluation.

S-TODI-2010-0004 Page 1 of 2

References:

(1) Notification 20456999 (2) PSEG Calculation 6S0-1882, Rev. 1 (3) PSEG Drawing AF-13A (4) PSEG P&ID No. 205236 Signatures Preparer: Date: 04/16/2010 Arie Blum Reviewer: Date: 04/16/2010 Mohammad Ahmed Approver: Date: 04/16/2010 Phil Hertessy S-TOD1-2010-0004 Page 2 of 2

USER RESPONSIBLE FOR VERIFYING REVISION, STATUS AND CHANGES 1 w9 w 5-T~%

A-rrA ciA .ACir-&1r I ZCLo -e4>4 SPECIFICATION NO. S-C-MPOO-MGS-0001 PIPING SCHEDULE SPS54 AUXILIARY FEEDWATER SERVICE: - Demineralized water (emergency - fresh water, demineralized water and salt water)

Group A B C D E*

Pumn Alternate Minimum flow Pump Level Valve Suction Pump Recirculation Discharge to Suction in up to level Isolation

. yard - Control Check valve valve W.W.P., Maximum, psi 30 to 1951 '25 100 1950 1950 Normal, psi 30 j 25 100 1600 1195 W.W.T., Maximum, OF 120 120 130 120 140 Normal, OF Ambient Ambient Ambient Ambient 140 Seismic Design Class 3 1 1 1 Nuclear Class 3 None 3 3 PRIMARY SERVICE PRESSURE RATING:

Pressure, lbs 150 150 150 900 900 Temperature, OF 500 500 500 850 850

• For piping between isolation check valve and steam generator feed line see Piping Schedule SPS16 Group A II - 189 REV. 6 NP 8402/01

rz-~ IL~ - Zc~o -oexo4 SPECIFICATION NO. S-C-MPOO-MGS-0001 PIPING SCHEDULE SPS54 AUXILIARY FEEDWATER PIPE:

MATERIAL ASTM A106 Gr. B, seamless carbon steel, silicon killed.

ASTM A335 P22, seamless alloy steel.

Mill inspection and test reports required.

Check analysis and flattening test of one length of each lot required.

Flush piping with fresh water immediately after using salt water or demineralized water.

For protection of underground piping in the yard see page 11*88 of Piping Schedule SPS28 of'this specification.

.X-tru-coat"l may be used.

Dimensions ANSI B36.10 For the 25 psi, 50, psi and 30 to 195 psi maximum systems:

Schedule 40 for 10 inch and small-er.

z 0.375 inch wall for 12 inch thru 16 inch U For the 1950 psi maximum systems:

Z Schedule 80 for 1 inch and 4 inch.

D Schedule 160 for 1-1/2, 2, 2-1/2 and 3 inch sizes.

LSchedule 120 for 6 inch thru 24 inch.

0 3/4 inch minimum size for 25 psi, 50 psi and 30 to 195 psi maximum systems.

>U L1 inch NPS minimum size for 1950 psi maximum systems.

0 z

Li 0Z II -190 nREV. 6 U NP 8402/01 Li-

-D

A

- 01

. - -jx6 SPECIFICATION NO. S-C-MPOO-MGS-0001 PIPING SCHEDULE SPS54 AUXILIARY FEEDWATER FITTINGS AND FLANGES:

MATERIAL ASTM A234 WPB and A234 WP22 seamless, for butt welding fittings.

ASTM A105 for forged socket welding fittings.

ASTM A182 F22 for forged chrome-moly alloy steel socket welding fittings.

ASTM A182 F316 for blind flange only and with Engineering' s approval.

.ASTM A181 Cl'.60 or.ASTM AIOS for flanges' in *the. 25 psi,,

50 psi and 30 to 195 psi maximum systems.

ASTM A105 for flanges in the 1950 psi maximum systems.

Mill inspection and test reports required,.

Dimensions of fittings CT)

ANSI B16.9 for butt welding fittings.

ANSI B16.11 for socket welding fittings.

z Socket welding ends for 2 inch and smaller.

C) Butt welding ends for 2-1/2 inch and larger.

Dimensions of flanges ANSI B16.5 for flanges.

'Li All flanges to be welding neck type.

Facings for 25 psi, 50 psi and 30 to 195 psi maximum systems.

Lr- Raised face with stock spiral serrated finish.

Facings for 1950 psi maximum systems.

z.

0 CL 2-1/2 inch and smaller - large male and female.

LU 3 inch and larger - small tongue and groove.

Contact facing machined per drawing 25057-L.

LU II - 191 REV. 6 Li NP 8402/01 LU^

.:D l

2

$Th.D 5, i- ,t(c> c SPECIFICATION NO. S-C-MPOO-MGS-0001 '

PIPING SCHEDULE SPS54 AUXILIARY FEEDWATER JOINTS:

Socket weld for 2 inch and smaller.

Butt welding for 2-1/2 inch and larger.

Full strength, full penetration, fusion welded in accordance with ASME Boiler and Pressure Vessel Code,Section III.

Stress relieving not required.

Heat treatment, welding and brazing as specified in applicable PSE&G Nuclear Welding and Brazing Manual, NC.ER-TM.ZZ-0002(Q).

Random. magneti:c:paticlQ; examination of, .lletwelds.,

socket welds., and welded branch.:connectionp.s qver.,4 inch pipe size for Nuclear Class 3 piping in abcordance with Table A.7(b) of ANSI B31.7.

Random magnetic particle or liquidpenetrant examination required for all Nuclear Class 3 welds 4 ' inch size and smaller. (Should not. MT under 2 inch).

Hydrostatic pressure.test of erected system shall be

(),

performed.

z o BOLTING:

MATERIAL V Alloy steel bolt-studs ASTM A193 Gr. B7 Carbon steel nuts - ASTM A194 Gr. 2H o_Dimensions

>ANSI B18.2.1 - Heavy hex bolts.

ANSI B18.2.2 - Heavy hex nuts.

ANSI B1.1 - Threads 1 inch diameter and smaller - coarse thread series with fit specified in ANSI B1.1 standard.

1-1/8 inch diameter and larger - 8 pitch thread series, O Class 2A for bolts and studs, Class 2P for nuts.

Li0 zII - 192 o REV. 6 UNP 8402/01 C,)

AT-r(?AAa42r' 2 20lý- ~'

SPECIFICATION NO. S-C-MPOO-MGS-0001 PIPING SCHEDULE SPS54 AUXILIARY FEEDWATER BOLTING - (Cont'd)

Nuts shall be hot-forged or machined from hot-forged bars.

GASKETS:-

For the 25 psi, 50 psi and 30 to 195 psi maximum systems Sheet'packing, 1/32 inch Garlock Blue-Gard Style 3400.

For the 1950 psi maximum systems Flexitallic spiral-wound gaskets, style R-1 or RIR, with Typ'e 304 S.S. .and Flexie-Super or Grafoil filler for large male'and female, flanged: joints.,

Flexitallic spiral-wound gaskets, style R-4,' with Type 304 S.S, and Flexite Super or Grafoiýl filler for small tongue and groove joints.

Dimensions to cohform'to ANSI B16.5. .

4P V-) Piece Mark IdentiffiCation---AF---(Prefix Station;Unit No. to AF) wj 0

z V) 0 0*

UJ z II - 193 0

0- REV. 6 V-)

NP 8402/01 W

C/i

A-r-rAcZ~oA--5FT 2 (2tco4 Tech Eval prepared

• • • • • • • • • • • • • • Long Text Object Identification***.***********

Order 000070108698 Operation 0050 Confirmation 0008163337 Confirmation counter 00000001 Long text Document #: 70108698-0050 TITLE: Maximum Pressure in Underground Auxiliary Feedwater Piping REASON FOR EVALUATION / SCOPE:

Degradation was found in the underground Auxiliary Feedwater (AFW) piping prior to entering the Outer Penetration Area per Notification 20456999. This is the supply piping to 12 & 14 Steam Generators (SGs), downstream of the AFW pumps. This Technical Evaluation determines the maximum potential pressure in this piping for input into a subsequent evaluation on minimum wall.

DETAILED EVALUATION:

Auxiliary Feedwater Operation:

The AFW System provides flow to the SGs during plant cooldown and startup conditions for decay heat removal when the Main Feedwater (MFW) System is out of service. The AFW System also provides flow to the SGs during transient conditions such as Steam Line Break (SLB), Feedwater Line Break (FLB), Small Break Loss of Coolant Accident (SBLOCA), Loss of Normal Feedwater (LONF), Loss of Offsite Power (LOOP) and Station blackout (SBO).

The system consists of two Motor Driven AFW Pumps (MDAFPs), each of which feeds two SGs, and one Turbine Driven AFW Pump (TDAFP),

which feeds all four SGs. During plant cooldown and startup, operators manually control AFW flow via the AF21 control valves for the MDAFPs and via the AF11 control valves for the TDAFP.

During transient conditions, the AF21 control valves are in automatic and control to maintain MDAFP discharge pressure; the AF11 control valves are full open.

The maximum potential pressure in the system would be with all the AFW pumps deadheaded. However, this is an unrealistic condition. The actual maximum system pressure is a function of the maximum potential SG pressure. Per Reference 3, the maximum SG pressure is assumed to be the lowest Main Steam (MS) safety valve setting (1070 psig - Reference 2) plus 3% accumulation, or 1102 psig (1117 psia).

The maximum system pressure would occur with all three pumps running on their design performance curves. Reference 3 provides a hydraulic analysis for the system transient conditions, using the AFW System hydraulic model. The SLB Inside Containment transient is analyzed with this pump

Ar-rctok>.e-r Z ~-2I oc 2

alignment for two conditions - no failures and MDAFP runout protection failure, which is a failure of one of the AF21 valves to the full open position. The actual maximum pressure in a particular SG supply line would occur for a failure of an AF21 valve to the full closed position, which maximizes pressure in the SG supply line that remains aligned to the associated MDAFP.

This condition was not analyzed in Reference 3 as the parameter of concern was maximum total SG flow. As such, additional cases were run with 1lAF21 closed, to maximize pressure in the 12 SG supply piping (Case A), and with 13AF21 closed, to maximize pressure in the 14 SG supply piping (Case B). For conservatism and simplicity, it was assumed that the remaining AF21 valves are full open. In reality they would be throttled to maintain MDAFP discharge pressure; however, determining their position is an iterative and cumbersome process. Case 4 from Reference 3 Proto-Flo database S-C-AF-MDC-0445-R3.DBD was modified accordingly. The pressure in the underground piping is assumed to be that from the nearest upstream node in the model, which are the tie-ins between the MDAFP and TDAFP discharges in the Auxiliary Building. The resulting pressures at these nodes are 1259 psia (1244 psig) for 12 SG supply (Case A) and 1270 psia (1255 psig) for 14 SG supply (Case B). The Proto-F7o output reports are included as Attachments 1 and 2, respectively.

During normal plant cooldown and startup, it is unlikely all three AFW pumps would be running. Furthermore, the AF21s and/or AFIls are manually throttled to control cooldown rate and/or maintain SG level, which reduces the downstream pressure and thus the pressure in the buried piping. Therefore, this condition is bounded by the SLB transient condition with respect to pressure in the buried piping.

Auxiliary Feedwater System Testing:

MDAFP and TDAFP full flow testing to the SGs is performed per References 7 & 8 during each Refueling Outage. The highest pump discharge pressure occurs for the TDAFP test. The TDAFP discharge pressure was originally base lined at 1250 psig in 1998 (WO #960829007). Since then the TDAFP discharge pressure has varied been between 1235 and 1248 psig. These pressures are bounded by the limiting SLB Case from above (Case B, 13AF21 fails closed). Furthermore, similar to normal plant cooldown and startup, the AF21s and AFlls are manually throttled during testing to set the required flow, and so the pressure in the buried piping to 12 and 14 SGs would be even less. Therefore, full flow testing is bounded by the SLB transient condition.

During quarterly surveillance testing (References 4-6), the AF2is and AFlls are closed, with flow going through the respective pump recirculation line, and thus is not applicable to this evaluation.

Main Feedwater Operation:

During normal plant operation, the MFW System provides flow to the SGs, and the AFW System is isolated from the SGs. During this condition, there is a potential for back leakage through the AF23 stop check valves, which are located just upstream of

r-- P-7"

-2o3o-o 4 the AFW tie-ins to the MFW System. A leak check of these valves is performed quarterly per Reference 9. Trending of past test results finds no indication of significant leakage past these check valves. Test results found AFW line pressures typically around 25-30 psig with a MFW pressure of around 835-845 psig. A couple exceptions were for the test on 8/30/09, where the 12AF23 upstream pressure was 150 psig, and for the test on 3/1/10, where the 11AF23 and 12AF23 upstream pressures were about 115 psig. If these couple results were an indication of actual leakage, the AFW line pressure was still significantly below the MFW line pressure. Thus, even if the MFW System flow was low, 4 with corresponding higher system pressure, the resulting AFW line pressure with any leakage past 12AF23 would still be very low compared to that with the AFW System in service.

CONCLUSIONS/FINDINGS:

The maximum potential pressure in the buried AFW piping during an accident is 1259 psia (1244 psig) for 12 SG supply and 1270 psia (1255 psig) for 14 SG supply. This occurs for a SLB Inside Containment transient with a single failure of an AF21 valve to the closed position, at the maximum potential SG pressure. For conservatism, the maximum operating line pressure in the buried AFW piping is set at 1275 psia

REFERENCES:

1. P&ID 205236, Revision 54, Unit 1 Auxiliary Feedwater

2. P&ID 205203, Sheet 1, Revision 77, Unit 1 Main, Reheat &

Turbine By-Pass Steam

3. S-C-AF-MDC-0445, Revision 3, Auxiliary Feedwater System Hydraulic Analysis

4. Sl.OP-ST.AF-0001, Revision 15, Inservice Testing - 11 Auxiliary Feedwater Pump

5. Sl.OP-ST.AF-0002, Revision 16, Inservice Testing - 12 Auxiliary Feedwater Pump

6. Sl.OP-ST.AF-0003, Revision 38, Inservice Testing - 13 Auxiliary Feedwater Pump 7 Sl.OP-ST.AF-0005, Revision 11, Inservice Testing Auxiliary Feedwater Valves Mode 4-6 S. Sl.OP-ST.AF-0007, Revision 19, Inservice Testing Auxiliary Feedwater Valves Mode 3

9. Sl.OP-ST.AF-0006, Revision 10, Inservice Testing Auxiliary Feedwater Valves

10. UFSAR Section 10.4.7.2, Auxiliary Feedwater System; Section 15, Accident Analysis

A7T'ACA6at&-T" 2. S-7bDI 2a (0-e~C4 ATTACHMENTS

1. Case A Proto-Flo Ouput Reports: SLB Inside Containment with 1lAF21 Failing Close

2. Case B Proto-Flo Ouput Reports: SLB Inside Containment with 13AF21 Failing Close NOTE: The complete Technical Evaluation, including attachments, has been submitted to Records Management, Document Number 70108698.

CO-PREPARER: Kevin King Date: See SAP INDEPENDENT REVIEWER: Michael Crawford Date: See SAP APPROVED: Alan Johnson Date: See SAP

A~*C~~ 3~b R~h3L1 4.(

ILTRASONIC THICKNESS EXAMINATION RECORD I

Under Ground Aux Feed Water Pipe VDE Lab Station Unit Outage Order # Procedure # Rev. Couplant Exam Date ITyp e Batch OIISTRAS Salem I RFO# 20 60084266 1oU-AA-335-004 1 SONOTRACE 40 96243 EXAMINATION AREA MATERIAL Component I.D. System Location Fab. Isometric Elev. (Type/Spec) Dia. Size Component Type Surface Temp.

Aux. Feed Water Yard NIA 94' P-1 4" PIPE AMBIENT SEARCH UNIT DESCRIPTION EQUIPMENT WALL THICKNESS Size X Y Brand Serial # Size Frequency Instr. Brand/type Serial# Nominal .875 Norm. T mrin. X .... Y anametric 0.312 5mhz PANAMETRICS 0.337 0.278 _, _ ,

D 790RL 37 DL I PLUS __ __

ilibration Block # I SIN  : CalibrationBlock Temp. AMBIENT Actual Effective Initial Final 0.100 0.100 0.100 0.100 CALUBRATION TIME 0.200 0.200 0.200 0.200 Initial Calibration 0.300 0.300 0.300 0.300 CalibrationCheck See pipe sketch for location of readings.

0.400 040oo 0.400 0.400 Final Calibration Check 0.500 0.500 0.500 0.500 Vfibration Block # 2 SIN  ;. CalibrationBlock Temp.

Actual Effective Initial Final Thermometer Serial # Cal. Due Min. Max.

.IMITATIONS: Readings taken through rough surface. File Name Thickness Thickness N/A Thickness readings taken at intersections of 1" grid.

,OMMENTS: Grinding was done to clean surface of AF13T rows 47 to 69.

Notified:

B. Montgomery Attachment x Yes No PSE&G Review: Adam Burke Date: SNT-TC-1A LEVEL II

Af 8 ~AFA 10 74/ 1Gj 5Or'~

AFTTop Pipe AFB:Bottom Pipe SSuppolt Red =Compoete No4

ýk ý tý

Unit: Salem 1 RFO 20 Date; 04/11/10 T-MIN= 0.278 87.5% Norm. Wall= Nom. Wall = 0.337 ISI ID. AFPT Lowest Reading 0.264 Highest reading 0.344 Color Code: 0.000 to T-MIN >'f-,Mq to 87.5% Norn Waol >87,5% Nom. Walrto Nom. Wall >Nom. Wall A a C 0 E F G H I. J K L M N 1 0.271 0,278 0,298 0.273 0.273 0.280 0,323 0.304 0.287 0,302 0.301 0.334 0.275 0.313 2 0.271 0,280 0.333 0.301 0.266 0.284 0.322 0.291 0,309 0.298 0.291 0.306 0.319 0.299 3 0.270 0.314 0.333 0.271 0.268 0.302 0.322 0.333 0.305 0.283 0.288 0.331 0.301 0.298 4 0.311 0.288 0.288 0.297 0.268 0.265 0.276 0.307 0.301 0.284 0.292 0.284 0,308 0.333 5 0.334 0.290 0,306 0.303 0.287 0.296 0,306 0.290 0,301 0.293 0.290 0.291 0,308 0,304 6 0,334 0,285 0.289 0.306 0.270 0.297 0.292 0,301 0.303 0.281 0.288 0.291 0.300 0.303 7 0,324 0.297 0.282 0.291 0.278 0.298 0.313 0.304 0.296 0.299 0,300 0.292 0,312 0,301 8 0.296 0.298 0.293 0.290 0.275 0.298 0,318 0.302 0.287 0.291 0.292 0.290 0,291 0.298 9 0,297 0.274 0.276 0,301 0.268 0.302 0.335 0.290 0.285 0.291 0.294 0.299 0.298 0.298 10 0,319 0.277 0.280 0.329 0.287 0.295 0.335 0.319 0.311 0,306 0.297 0.309 0.332 0.285 11 0.320 0.277 0.295 0.329 0.295 0.290 0.321 0.292 0.299 0.315 0.305 0.291 0.334 0.333 12 0.320 0.278 0.295 0.328 0.284 0.273 0.326 0.293 0.289 0.286 0.296 0.298 0.309 0.305 13 0.319 0.328 0.295 0.298 0,291 0.281 0.323 0.325 0.291 0.287 0.294 0.298 0.290 0.285 14 0.324 0.306 0.297 0.297 0.300 0.282 0,326 0.302 0.297 0.309 0.296 0.290 0.309 0.304 15 0,289 0.338 0.298 0.297 0.280 0,291 0325 0.325 0.297 0.285 0.299 0.294 0,302 0.309 16 0.285 0.322 0.298 0.271 0.286 0.282 0.288 0.286 0.290 0.286 0.297 0.289 0.290 0,328 17 0,285 0.322 0.287 0 298 0,308 0302 0,286 0.301 0.290 0.290 0.299 0.296 0.314 0.302 18 0,279 0.315 0.265 0.302 0.327 0.290 0.293 0.302 0,291 0.301 0.305 0.278 0.315 0.298 19 0,296 0.287 0.282 0.297 0,326 0.286 0.296 0.302 0,290 0.302 0.289 0.299 0.302 0.304 20 0.295 0.288 0.290 0,302 0.289 0.279 0.328 0.289 0.304 0.285 0,294 0.336 0.304 0.273 21 0.265 0.296 0.272 0.291 0.314 0.282 0.295 0.291 0.316 0.289 0.281 0.306 0.283 0.273 22 0.337 0.286 0.301 0.299 0.289 0.281 0,293 0.291 0.315 0.282 0.274 0.304 0.309 0.295 23 0.338 0.291 0.275 0,294, 0,286 0.281 0.325 0.315 0.298 0.295 0.290 0.285 0.286 0.291.

24 0.313 0.275 0.302 0.312 0.285 0.281 0.325 0.315 0.294 0.280 0.291 0.298 0.338 0,295 25 0,335 0.307 0.301 0.324 0,287 0.277 0,294 0.316 0.322 0.293 0.280 0.289 0,321 0.271 26 0,306 0,304 0.305 0,329 0,286 0.280 0.295 0.316 0.323 0.304 0.282 0.298 0.322 0.271 27 0.329 0.302 0.304 0.327 6.296 0.300 0.295 0.339 0.299 0.298 0.280 0.297 0,299 0301 28 0.301 0.301 0.273 0.332 0,298 0.306 0.296 0.302 0.299 0.301 0.292 0.279 0.321 0.302 29 0,296 0.301 0,317 0.338 0,291 0.286 0.296 0.329 0.319 0.315 0.292 0.302 0.304 0.298 30 0.270 0.284 0.278 0.298 0.296 0.269 0.299 0.341 0.316 0.325 0.290 0.298 0.308 0.298 31 0.282 0,313 0.264 0.278 0.302 0.293 0.298 0.312 0.319 0.321 0,302 0.299 0.332 0.270 32 0.298 0.281 0.280 0.280 0.309 0.290 0.331 0.311 0.320 0.303 0.300 0.316 0.279 0.282 33 0.299 0.281 0.278 0.280 0,310 0.286 0.330 0.310 0.316 0.305 0.301 0.312 0.309 0.270 34 0.305 0,312 0.278 0.283 0.312 0,278 0.331 0.309 0.317 0.302 0.296 0.302 0.307 0.286 35 0.299 0.282 0.291 0.282 0.276 0.278 0,331 0,302 0.289 0.295 0.294 0.311 0.306 0.308 36 0.293 0.310 0.297 0.280 0,209 0.311 0.296 0,329 0.292 0.294 0,272 0.286 0.306 0.286 37 0.291 0.278 0.295 0.281 0296 0.310 0.294 0.327 0.287 0.295 0.293 0.283 0.294 0.334 38 0.303 0.278 0,295 0.281 0.321 0,311 0.295 0,292 0.291 0.299 0.299 0.300 0.281 0.290 39 0.280 0.276 0.286 0.277 0,296 0.313 0.295 0.291 0.292 0.305 0.291 0.273 0.281 0.283 40 0,267 0.278 0.282 0.274 0.296 0,291 0.295 0.293 0.291 0.278 0.299 0.273 0.283 0.286 41 0.294 0.282 0.327 0.278 0.285 0.291 0.295 0.293 0.291 0.299 0.299 0.291 0.291 0,293 42 0.306 0.284 0.296 0.281 0.289 0.322 0.292 0.291 0.304 0.290 0,291 0.281 0.314 0.283 43 0.293 0.264 0,305 0.281 0.294 0.299 0,293 0.291 0.305 0,291 0,294 0.291 0.328 0.291 44 0,293 0,290 0.290 0.283 0.296 0.298 0.291 0.293 0.303 0.294 0,336 0.288 0.319 0.298 45 0.285 0.317 0,296 0.284 0.299 0.308 0.291 0,294 0,316 0.291 0.337 0.289 0.318 0.289 46 0.283 0.315 0,272 0.287 0.298 0.332 0.282 0.296 0,320 0.291 0.289 0,292 0.297 0.297 47 0.283 0.288 0.326 0.3 13 0.286 0.329 0.292 0.297 0.317 0292 0.287 0.289 0.321 0.269 48 0.306 0,279 0.315 0,283 0.289 0.331 0.283 0.297 0.304 0.292 0.286 0.291 0.323 0.282 49 0.307 0.313 0.292 0.298 0.304 0.303 0,294 0.289 0.295 0.298 0.286 0,297 0.320 0.297 50 0.291 0.276 0.289 0.282 0.305 0.330 0.293 0.285 0.316 0.291 0.286 0.280 0.318 0.295 51 0.297 0.275 0.297 0.280 0.302 0,331 0.299 0.288 0,332 0.290 0.297 0.292 0.314 0.298 52 0.292 0.276 0.296 0.279 0.291 0.322" 0.295 0.287 0.344 0.295 0.293 0.289 0.274 0,293 53 0.290 0.278 0.271 0.278 0.288 0.323 0.293 0.288 0.343 0.300 0.294 0.288 0.314 0.295 544 0.289 0.279 0.300 0.278 0.286 0.328 0.286 0.289 0.288 0.298 0.293 0.299 0.315 0.285 55 0.289 0.295 0,271 0.277 0.289 0.323 0.287 0.298 0,313 0.300 0.291 0.293 0,314 0.291 56 60286 0.297 0.274 0.277 0.297 0.298 0.290 0.291 0.312 0.301 0,293 0.293 0.317 0.299 57 0.294 0.296 0.279 0.286 0.296 0.323 0.293 0.305 0.311 0.271 0.283 0.308 0.318 0.294 588 0,293 0,336 0.279 0.290 0287 0.298 0.290 0.326 0.298 0.271 0.282 0.310 0.316 0.291 9 0.295 0,294 0.277 0.289 0.289 0.299 0.291 0.294 0.298 0,301 0.283 0.320 0.314 0.291.

610 0.295 0.312 0.279 0.294 0.287 0.321 0,291 0.287 0.299 0.301 0.283 0.310 0.314 0.298 61'I 0.295 0.315 0.298 0.279 0.298 0,321 0.291 0.287 0.299 0.300 0.280 0.280 0,311 0.297

Unit: Salem 1 RFO 20 Date: 04/11/10 T-MIN= 0.278 87.5% Nom. Wall= Norn. Wall = 0.337 ISI ID. AFIB .ýPýly46gRadig 0_272 Highest reading 0.356 Color Code: 0.000 to T-MIN -,T. "01N I r 8 7 ý5 '! 1 ',;I W.) I >87.5% Norm. Wall to Nom. Wall >Nom, Wall A B C D E F G H I J K L M N 1 0.289 0.330 0.299 0.305 0,292 0 .322 0,292 0.321 0,342 0,317 0.294 0.327 0.330 0.322 2 0.289 0,311 0.315 0,303 0.288 C'.296 0.300 0,349 0.341 0,298 0.279 0.328 0.329 0.341 3 0.290 0.334 0.313 0.303 0.293 C4.291 0281 0.350 0.315 0,297 0.312 0.330 0.334 0.336 4 0.288 0.305 0.298 0 279 0,330 C4.288 0.335 0.317 0.306 0.297 0,312 0.294 0,294 0.296 5 0.289 0.289 0.291 0,303 0,316 C,325 0.329 0.317 0,332 0.294 0.322 0.319 0.293 0.312 6 0.277 0.298 0.294 0.289 0.313 C.320 0.355 0.326 0,331 0.330 0.326 0.293 0.305 0.299 7 0.278 0.284 0,304 0.279 0,305 C.291 0.324 0.323 0,329 0.300 0.278 0.304 0.326 0.304 8 0.319 0,280 0.299 0.314 0,296 C.317 0.281 0.297 0.295 0.302 0.285 0.325 0.325 0.295 9 0,351 0.282 0.300 0,289 0.303 C.291 0.292 0.296 0.333 0.301 0.340 0.326 0.329 0.295 10 0.306 0.316 0.285 0.297 0.309 C1.283 0.291 0.330 0.330 0.293 0.320 0.302 0,332 0.318 11 0,315 0.317 0.296 0.294 0.308 C1.309 0.341 0.308 0.331 0.303 0.340 0.329 0.339 0.332 12 0.316 0.317 0.274 0.301 0.289 C0.282 0.339 0.311 0.332 0.303 0.333 0.330 0.333 0,329 13 0,292 0.291 0.284 0.303 0.309 0.282 0.322 0.283 0.343 0.301 0.331 0.333 0,332 0.337 14 0,315 0.311 0,291 0.275 0,291 1.299 0.327 0.283 0.325 0,301 0.331 0.335 02332 0.337 15 0.316 0,308 0,314 0.293 0285 C 0.301 0.327 0.283 0.292 0.305 0.349 0,335 0,294 0.296 16 0,318 0.306 0.342 0U298 0.283 0.302 0.329 0.310 0.332 0,305 0.349 0,334 0.341 0,307 17 0.318 0.306 0.314 0.328 0.277 0.289 0,333 0.310 0.338 0.331 0,305 0.334 0.338 0,307 18 0.317 0.305 0.313 0-55 0.301 0.299 0.333 0.282 0.330 0.334 0.306 0.351 0,348 0.307 19 0.317 0.305 0.293 0.355 0.302 0.301 0.350 0.305 0.330 0,350 0.330 0.348 0.347 0.306 20 0.277 0.291 0.340 0.307 0.316 0.304 0.340 0.326 0.313 0.350 0.334 0.349 0.346 0,305 21 0.309 0.290 0,305 0.309 0.318 0.294 0.331 0.325 0.310 0.'336 0.332 0.351 0,342 0,305 22 0.314 0.296 0.287 0.305 0,318 0.305 0,321 0.328 0.309 1).'55 0.330 0.344 0.340 0307 23 0,307 0,306 0.315 0.305 0.319 0,285 0.331 0.315 0.332 0,351 0.331 0.336 0.339 0.307 24 0.300 0.291 0.319 0.299 0.290 0.317 0.292 0.312 0.332 0.331 0.332 0.338 0.339 0,318 25 0.300 0.299 0.319 0.335 0.292 0.297 0.333 0,325 0.332 0.329 0.330 0.323 0.340 0.327 26 0.300 0.297 0,298 0.292 0.296 0.297 0.329 0.328 0.334 0,336 0.322 0.347 0,340 0.296 27 0.346 0.299 0.322 0.333 0,315 0.297 0.293 0.314 0.293 0.339 0.345 0.340 0.338 0,332 28 0.290 0.296 0.323 0.325 0.306 0,297 0.294 0.293 0.323 0.336 0.329 0.340 0.337 0 295 29 0.288 0.303 0.305 0.296 0.301 0.302 0.292 0.301 0.322 0,342 0.343 0.346 0.335 0.311 30 0.327 0.310 0.302 0.290 0.301 0.301 0.313 0,295 0.299 0.345 0.325 0.335 0.335 0.311 31 0.310 0.311 0.299 0.285 0.301 0.301 0,341 0.304 0.334 0,319 0.307 0.325 0,335 0.312 32 0.312 0.339 0.302 0.299 0.303 0.296 0,307 0.304 0.318 0,318 0.303 0.319 0,344 0,294 33 0.332 0.305 0.299 0.341 0.305 0.294 0.293 0.305 0,324 0.342 0.303 0.305 0.347 0,278 34 0.313 0.331 0.295 0.291 0.292 0.298 0.308 0.304 0.322 0,327 0.285 0-340 0.327 0.290 35 0.280' 0.331 0.337 0.299 0.309 0.294 0,309 0.301 0.324 0,327 0.334 0.299 0.317 0.281 36 0,288 0.337 0.303 0.305 0.310 0.295 0.334 0.298 0.324 0.320 0.305 0.302 0.317 0.281 37 0.273 0.337 0.301 0.308 0.308 0.299 0,292 0.292 0.326 0.319 0.306 0.301 0.330 0.281 38 0.312 0.305 0.302 0.292 0.308 0.296 0,329 0.282 0,326 0.319 0.324 0.308 0,317 0.282 39 0.309 0.307 0.302 0.331 0,307 0.296 0.299 0.283 0.325 0.322 0.326 0.308 0.317 0.282 40 0.293 0.289 0.301 0.323 0.307 0.294 0.319 0.284 0,331 0,322 0.339 0.307 0.313 0.280 41 0,286 0.302 0.301 0.324 0.313 0.290 0.319 0.282 0,333 0.327 0.330 0.310 0.294 0.274 42 0.284 0.317 0.307 0.322 0.312 0.288 0.317 0.324 0.336 0.324 0.327 0.314 0.311 0.272 43 0.296 0,309 0.300 0.299 0.310 0.287 0.320 0.325 0,324 0,334 0.329 0.314 0.309 0.298 44 0.291 0.302 0,300 0.299 0,314 0.287 0.315 0.303 0.322 0.339 0,326 0.313 0.313 0.298 45 0.300 0.309 0,301 0.321 0,315 0.287 0.344 0.306 0.319 0.329 0.315 0.318 0.313 0.317 46 0.302 0.331 0.303 0.325 0.297 0.280 0.342 0.339 0,316 0.344 0 319 0.317 0.314 0,318 47 0.298 0.331 0.308 0.307 0.308 0.283 0.346 0,338 0,320 0.290 0.354 0.298 0.315 0.316 48 0.296 0.330 0.312 0.326 0,282 0.304 0.344 0.338 0.333 0,290 0,335 0.328 0.312 0.316 49 0.290 0.332 0,311 0294 0.286 0.341 0.328 0.345 0.335 0.294 0,338 0.317 0.313 0.317 504 0,290 0.306 0,312 0.296 0.310 0,340 0,327 0.335 0,332 0.332 0.337 0.320 0.314 0,302 51 0.290 0.300 0.311 0.309 0.311 0.346 0.325 0.332 0:331 0.292 0.336 0.319 0.315 0,306 52 0.290 0.299 0.308 0.288 0.310 0.317 0.326 0.299 0.332 0.308 0.334 0.320 0.326 0,305 53 0.290 0.300 0.306 0,289 0.285 0.273 0.326 0.335 0.331 0.332 0.308 0.324 0.327 0.307 54 0,302 0.299 0.296 0,290 0.309 0,283 0,323 0.342 0.329 0.298 0,353 0.295 0.297 0.310 555 0,309 0.300 0.297 0.289 0.285 0.309 0.323 0,343 0.331 0.342 0.338 0.324 0.328 0.291 5' 6 0.309 0,305 0.297 0.290 0.255 0.287 0.322 0.340 0.292 0.342 0.335 0.325 0.326 0.307 577 0285 0.304 0.300 0.289 0,276 0.308 0.322 0.331 0.322 0,336 0,333 0,325 0,326 0.305 588 0.283 0.303 0,297 0,289 0.281 0,333 0.320 0,339 0.322 0.336 0,33CI 0.326 0.328 0.300 599 0.284 0,302 0.297 0,292 0.277 0.294 0.323 0.320 0.319 0.336 0.328 0.329 0.327 0.312 A-Aý4-4

Unit: Salem 1 RFO 20 Date: 04111110 T-MIN= 0.278 87.5% Nom. Wall= Nom. Wall= 0.337 ISI ID. AF2T Lowest Reading 0.265 Hghest reading 0.351 Color Code: 0.000 to T-MIN T'-MIN tsx 137.% Norn Wall >87.5% Nom. Wall to Nom. Wall >Nom. Wall A B C 0 E F G H I J K L M N 1 0,306 0.284 0,268 0,325 0,305 0,316 0,297 0.278 0.315 0,286 0.283 0.317 0U315 0.280 2 0.306 0.274 0.304 0.303 0.308 0.317 0.291 0.295 0.312 0,288 0.284 0.299 0.301 0,293 3 0.282 0,284 0.315 0.304 0.300 0.302 0.299 0.295 0.290 0.289 0.285 0.275 0.305 0.283 4 0.322 0.299 0.315 0.306 0.304 0.316 0.292 0,318 0.302 0,290 0.285 0.303 0.297 0.311 5 0.322 0.309 0.316 0.305 0,290 0.316 0.291 0.285 0.302 01290 0.298 0,303 0.297 0.298 6 0,297 0.301 0,316 0.283 0.309 0,322 0.296 0.291 0.306 0,287 0.276 0,301 0.292 0,294 7 0.294 0.305 0.307 0.284 0.309 0.302 0,297 0.295 0.283 0.200 0.276 0.298 0.292 0.311 8 0.294 0,292 0.331 0.301 0,305 0.317 0.326 0.295 0.304 0.321 0.298 0.299 0.292 0.304 9 0.276 0.300 0.293 0.275 0.292 0.317 0.290 0,290 0.290 0,290 0.317 0,299 0,292 0.307 10 0.275 0.304 0,302 0.275 0.285 0.317 0.290 0266 0.294 0,290 0.305 0.271 0.291 0,304 11 0.298 0.209 0.303 0.305 0.299 0.313 0,284 0,298 0.294 0.295 0,322 0.268 0.293 0.304 12 0.311 0,299 0304 0.283 0.302 0.319 0.281 0.297 0,299 0.307 0285 0.305 0.291 0.319 13 0,312 0.298 0.302 0.283 0,305 0.290 0.284 0.299 0.295 0.303 0.297 0.294 0.328 0.319 14 0.311 0.319 0,329 0.301 0305 0.290 0.283 0.314 0.292 0,298 0.291 0,332 0.304 0.275 15 0.313 0.286 0.335 0.295 0.305 0.290 0,291 0293 0.294 0.269 0.293 0.333 0.305 0,306 16 0.306 0.286 0.333 0.292 0.298 0.288 0.295 0,298 0,293 0,296 0.291 0.333 0.311 0,314 17 0.330 0.289 0.332 0.291 0.305 0.287 0.293 0.309 0.298 0.293 0.302 0.292 0.289 0,298 18 0.312 0.300 0.324 0.294 0.291 0.289 0,299 0.291 0.282 0,295 0.301 0.292 0.288 0.277 19 0.311 0.305 0.324 0.285 0.291 0.288 0.301 0.296 0.281 0.298 0.297 0.301 0.310 0.265 20 0.313 0.301 0.308 0.298 0.280 0.288 0.299 0.279 0.308 0.317 0.291 0.298 0.318 0,349 21 0.311 0.313 0.345 0.291 0.290 0.287 0.299 0.305 0.299 0,319 0.330 0.299 0.318 0,322 22 0.312 0.314 0274 0.291 0.291 0.288 0.296 0.298 0.298 0,317 0.305 0.315 0.319 0.294 23 0.325 0313 0.286 0.296 0.296 0.287 0,297 0.265 0.297 0.281 0.284 0.318 0.299 0301 24 0.303 0.312 0.285 0291 0.274 0.286 0,298 0,267 0.319 0.269 0,315 0,308 0.294 0.296 25 0.304 0.322 0.266 0.292 0.274 0.287 0.299 0,267 0,318 0,299 0.306 0.294 0.292 0,324 26 0.313 0.323 0,285 0,292 0.272 0,291 0.301 0.301 0.297 0.305 0.305 0.329 0.292 0.324 27 0,325 0,292 0.285 0.304 0,272 0.290 0.288 0.302 0.288 0,299 0,326 0.320 0.289 0,295 28 0.315 0.286 0.276 0.299 0.298 0.294 0.321 0,313 0,287 0,277 0.316 0.319 0.308 0,340 29 0.311 0.283 0.275 0.305 0,290 0.290 0.298 0,301 0.293 0,304 0,318 0,311 0.307 0.3!0 30 0.315 0.298 0.313 0.327 0,304 0.305 0.294 0.301 0.306 0.268 0.289 0.293 0.283 0.333 31 0:315 0.300 0.298 0,280 0.291 0.301 0.296 0.298 0.301 0.299 0.290 0,290 0.291 0.310 32 0.317 0.299 0.275 0.279 0.291 0.299 0.292 0.325 0,316 0.337 0.289 0.309 0.296 0.312 33 0.317 0.299 0.292 0,280 0,292 0.293 0.291 0.331 0,299 0.308 0.345 0.322 0.296 0.290 34 0.300 0.304 0.289 0.279 0,288 0,297 0.298 0.298 0.287 0.308 0.344 0.338 0.293 0.293 35 0.298 0.310 0.298 0.309 0.289 0.298 0.286 0.308 0.287 0.301 0.299 0.337 0.292 0.298 36 0.299 0.314 0.321 0.282 0,288 0.278 0.283 0.292 0.288 0.293 0.344 0.339 0.318 0.318 37 0,299 0.326 0,295 0292 0.288 0.276 0.285 0.298 0.285 0.311 0.301 0.301 0.318 0.300 38 0.302 0.327 0.307 0.272 0,294 0.291 0,282 0,273 0,285 0.306 0.347 0.301 0.327 0.297 39 0.298 0.318 0.306 0.272 0.272 0.285 0.284 0.318 0.287 0.339 0.350 0.301 0.289 0,295 40 0.299 0.320 0,310 0.305 0.292 0.287 0,284 0.317 0.287 0.276 0,308 0.292 0.339 0.292 41 0,320 0,318 0.299 0,299 0,293 0,288 0.315 0.314 0,289 0.278 .0.308 0.295 0.326 0.293 42 0,319 0.318 0.275 0.296 0.297 0.289 0,318 0.297 0,291 0.279 0,280 0.302 0,295 0,308 43 0.302 0,312 0.277 0.332 0.287 0.290 0.314 0,296 0.290 0.298 0.310 0.303 0.295 0.291 44 0.285 0.302 0.274 0.289 0.269 0.313 0U314 0.338 0,298 0.291 0,311 0.278 0.296 0,308 45 0.347 0.314 0.286 0.298 0,312 0.290 0.290 0,301 0.320 0.322 0.329 0.275 0.290 0.330 46 0.287 0.312 0.278 0,291 0.289 0.290 0.290 0.299 0,320 0.325 0,295 0.269 0.290 0,312 47 0.286 0.310 0.280 0.290 0.290 0.290 0.268 0.291 0.315 0.293 0,296 0.271 0.284 0.315 48 0.286 0.307 0.298 0.290 0.294 0.290 0.269 0.299 0.314 0.268 0.291 0.271 0.288 0.312 49 0.322 0.308 0.331 0.294 0.302 0.290 0.310 0.318 0,307 0.322 0,291 0.309 0,290 0.312 50 0.313 0.313 0.331 0.307 0.300 0.290 0.309 0U287 0.308 0.296 0.338 0.311 0.297 0.312 51 0.304 0.307 0.293 0.279 0.300 0.281 0,269 0.320 0.306 0,299 0.305 0.320 0.290 o, 52 0.316 0.335 0.293 0.279 0,300 0,280 0.300 0.293 0.306 0.299 0.276 0.313 0,298 0.303 53 0.335 0.303 0.299 0.279 0.301 0.291 0.300 0.298 0.307 0.298 0.277 0.305 0.267 0,295 54 0,303 0.333 0.302 0.280 0.305 0.291 0,298 0.292 0.307 0.288 0,275 0.293 0,314 0.290 55 0.300 0.307 0.300 0.273. 0.298 0.331 0.302 0.297 0,308 0.311 0.268 0.291 0.290 0.305 56 0.300 0.308 0,300 0.274 0,301 0.314 0.299 0.297 0.307 0.291 0,292 0.279 0,300 0.311 57 0.287 0.296 0.298 0.276 0.341 0.284 0.267 0.297 0.307 0.294 0.292 0.280 0.325 0.327 58 0,308 0.331 0.297 0.275 0.295 0.285 0.267 0.298 0.307 0.318 0.312 0.299 0.330 0.306 59 0,308 0.296 0.295 0.296 0.298 0.289 0.267 0,298 0.307 0,335 0.325 0.297 0.303 0.304 60 0.286 0.335 0.295 0.312 0,298 0.290 0.268 0.301 0.306 0.280 0.329 0,294 0.331 0.303 61 0.285 0.332 0.297 0,287 0.288 0.290 0.268 0,308 0.329 0.304 0.298 0.320 0,296 0.303 62 0 '45 0.332 0.295 0,286 0.287 0.291 0,265 0.290 0.328 0.290 0.342 0.319 0.332 0.303 63 0.296 0.332 0,295 0.293 0.294 0,298 0.268 0.300 0.328 0.287 0.316 0,317 0,306 0.299 64 0.318 0,332 0.295 0.293 0.314 0.289 0.272 0.298 0.330 0.339 0U298 0.301 0.309 0,296 65 0.318 0.334 0.289 0.280 0,291 0.289 0,290 0.292 0.331 0,296 0,278 0,332 0.302 0,298 66 0.329 0,335 0.290 0 280 0.299 0.270 0.288 0.306 0,332 0.314 0.280 0.318 0.327 0,303 67 0.328 0,326 0.290 0.292 0.298 0.290 0266 0,327 0.336 0.295 0,280 0.320 0,324 0.307 944

Unit: Salem I RFO 20 Date. 04!11i10 T-MIN= 0.278 87.5% Nom. Wall= Nom, Wall= 0.337 IS! ID. AF2T Lowest Rgading 0.265 Higestredj~no-0 35 Color Code; 0,000 to T-MIN *-T-MIN m 817.511/ý Norr, *%Phill >87,5% Nom. Wall to Nom. Wall >Nom. Wall A B C D 6 F G H  ! J K L M N 68 0.325 0.325 0.291 0.286 0,298 0.272 0,287 0.327 0.304 0.277 0.280 0,320 0.327 0.309 69 0.328 0.326 0.290 01278 0.298 0.272 0,290 0.327 0,310 0.307 0.282 0.318 0.332 0.308 70 0,327 0.327 0.290 0.278 0.292 0.291 0.290 0,304 0,328 0.306 0.320 0,317 0.334 0.306 71 0.328 0.327 0,288 0.290 0,291 0.269 0.317 0.294 0.345 0.303 0,320 0,317 0.331 0.303 72 0.326 0.327 0.290 0.289 0.292 0.270 0,316 0.294 0.296 0.279 0.319 0.314 0.318 0,303 73 0.326 0,326 0.290 0.275 0.293 0.269 0.314 0.294 0,327 0.280 0.319 0,314 0.325 0,302 74 0.326 0.327 0.291 0.275 0.298 0.259 0.284 0.295 0.297 0.289 0,318 0,316 0.349 0.310 75 0.327 0.326 0.290 0.273 0.320 0.289 0.279 0.296 0.291 0.283 0.317 0,318 0.348 0,307 76 0,327 0.326 0.297 0.271 0.320 0.270 0.278 0,269 0.292 0.303 0.317 0.316 0.348 0.308 77 0.328 0.326 0.297 0.267 0.320 0.289 0279 0,296 0.292 0.298 0.317 0.316 0.348 0.305

Unit: Salem 1 RFO 20 Date: 04111110 T-MIN= 0.278 87.5% Noa. Wall= Noa. Wall = 0.337 ISI ID. AF2B Lowest Reading 0.280 Ihighest reading 0.371 Color Code: 0.000 to T-MIN >.'r-miN to 87.K% Norn Wall >87.5% Nom. Wall to Nom. Wall >Nom. Wall A B c D E F G H I J K L M N 1 0.280 0,327 0.295 0.314 0.341 0.291 0.304 0.352 0.321 0355 0.321 0.333 0.339 0.336 2 0.298 0.311 0.296 0.305 0.359 0,282 0.323 0.345 0.340 0.346 0,354 0.323 0.341 0.336 3 0.305 0.294 0.283 0.301 0.363 0.363 0.282 0.333 0,336 0.340 0.336 0.357 0,335 0.325 4 0.321 0.310 0.285 0.321 0.315 0,302 0.333 0.330 0.334 0.332 0,339 0.332 0.330 0.327 5 0.325 0.320 0.357 0.331 0.324 0.305 0.325 0.352 0.338 0.320 0.333 0.330 0,319 0.326 6 0.325 0.345 0.357 0.335 0,320 0,302 0.324 0.355 0.336 0,318 0.332 0,334 0.329 0.330 7 0,322 0.328 0.338 0.333 0,328 0.311 0.322 0.339 0.294 0.324 0,339 '0.333 0.329 0.357 8 0,320 0.338 0.334 0.348 0,330 0.355 0.304 0.351 0.292 0.321 0.322 0.331 0.318 0.325 9 0.320 0.360 0.328 0.347 0.324 0.355 0.303 0.335 0.354 0.320 0.344 0.330 0.329 0.316 10 0.327 0.337 0.328 0,348 0.328 0.316 0.295 0.360 0.365 0,343 0.356 0.330 0.318 0.317 11 0.331 0.328 0.330 0.347 0.311 0,327 0.296 0360 0,338 0.313 0.334 0,340 0,332 0.316 12 0.328 0.318 0.328 0,304 0.318 0.316 0.337 0.356 0.337 0.312 0,326 0.330 0.340 0.322 13 0.317 0,316 0.328 0.330 0.351 0,326 0,365 0.349 0.334 0,325 0.326 0.333 0.335 0.327 14 0.300 0,351 0.352 0.325 0.320 0,323 0,340 0,308 0,334 0.336 0.339 0.304 0.335 0,341 15 0.290 0,332 0.329 0.349 0,324 0.324 0.340 0316 0.334 0.336 0.329 0.355 0.337 0.339 16 0322 0.339 0.334 0.349 0.321 0315 0.311 0315 0,313 0.339 0.346 0.310 0.338 0,345 17 0.304 0.334 0.333 0.365 0.319 0.322 0.302 0.323 0.313 0.341 0.344 0.311 0.339 0.341 18 0,319 0.342 0,332 0,326 0.321 0,324 0.307 0,322 0.319 0.338 0.332 0.331 0.351 0.353 19 0.315 0,326 0.331 0.322 0.318 0.323 0.309 0.316 0.321 0.341 0.360 6,331 0.325 0.348 20 0,308 0.329 0,354 0.328 0.319 0.320 0311 0.326 0.345 0.342 0.308 0.332 0,306 0.342 21 0.314 0.342 0.348 0.315 0.310 0,319 0.370 0.313 0.340 0,344 0.306 0.333 0,360 0.360 22 0,311 0,327 0.339 0.315 0.363 0.320 0.350 0.318 0.302 0.337 0.345 0.332 0,317 0.338 23 0.306 0,335 0.336 0.297 0.348 0.322 0.298 0.290 0.300 0.340 0.289 0.334 0.323 0.339 24 '0.302 0.342 0.301 0.295 0.337 0.307 0,294 0.336 0.353 0.345 0,306 0.335 0.323 0.339 25 0.302 0.314 0.336 0.330 0.331 0.306 0,297 0.335 0,346 0.341 0.305 0.332 0.350 0.346 26 0.333 0,318 0.339 0.296 0.335 0,323 0.286 0,335 0.345 0.325 0.335 0.329 0.316 0.338 27 0.343 0.324 0.308 0.365 0.327 0.323 0.360 0.331 0.345 0.359 0.328 0,321 0.316 0.331 28 0.318 0.292 0.302 0.317 0,333 0,324 0.362 0.331 0.339 0,342 0.348 0.333 0.340 0.323 29 0.357 0.338 0.300 0.313 0.320 0.292 0.314 0.318 0.337 0.336 0.330 0.322 0.337 0.338 30 0,306 0.343 0.325 0.342 0.334 0.316 0.293 0.318 0.351 0.365 0.332 0.354 0.354 0.338 31 0.307 0.325 0.359 0.333 0.336 0.329 0.352 0.353 0,351 0,345 0.354 0.352 0.355 0.331 32 0.313 0.324 0.297 0.331 0.331 0,320 0.343 0.315 0,317 0.334 0.350 0.352 0.343 0,337 33 0.322 0.364 0.299 0.333 0.328 0.331 0.326 0.323 0.318 0.330 0.350 0.358 0.340 0.342 34 0.298 0.370 0.370 0.321 0.339 0,333 0.323 0.319 0319 0.328 0.350 0,352 0.341 0.334 35 0.320 0.304 0.305 0.305 0.289 0.309 0.291 0.317 0.323 0.325 0,340 0.340 0.341 0.325 36 0.328 0.338 0,311 0,329 0,331 0,355 0.286 0.315 0.325 0,327 0.339 0,338 0.347 0.318 37 0,321 0.333 0,311 0.321 0.335 0.359 0.292 0,317 0.326 0,327 0.353 0.333 0.338 0.319 38 0.331 0.303 0 316 0.322 0,360 0.353 0.326 0,320 0.322 0,324 0,331 0,329 0,348 0.330 39 0.348 0.330 0.317 0.282 0.351 0.313 0.319 0.320 0.323 0.350 0.334 0.346 0.349 0.332 40 0.336 0.303 0.298 0.285 0 333 0.307 0.353 0323 0.323 0.349 0.343 0.342 0.335 0336 41 0.330 0.348 0.284 0.338 0.357 0.306 0.345 0.322 0.321 0.350 0.345 0.334 0.336 0.335 42 0,305 0.351 0.297 0.337 0.324 0,310 0,340 0.335 0,321 0,347 0.332 0,337 0.341 0.333 43 0.302 0.314 0.320 0.333 0.326 0.308 0.333 0.351 0.342 0.345 0,324 0,351 0.330 0M339 44 0,322 0.363 0.313 0,300 0.317 0,309 0,332 0.329 0,364 0.366 0.332 0.342 0.329 0.344 45 0.315 0.304 0.311 0.350 0.322 0.341 0.330 0,336 0.354 0,363 0.345 0.335 0.331 0.354 46 0,319 0.304 0.312 0.332 0,322 0.322 0.330 0.343 0.343 0.365 0.345 0.351 0.345 0.331 47 0.309 0.295 0.311 0.332 0.324 0,343 0.331 0.333 0.342 0C..3"Y0.329 0.355 0.336 0,326 48 0.297 0.342 0.331 0.357 0.365 0.365 0.331 0.329 0,342 0.334 0.330 0,340 0.335 0.335 49 0.292 0,310 0.331 0,314 0.341 0.365 0.333 0.367 0,338 0.331 0.325 0.337 0.356 0.319 50 0.296 0.314 0.331 0.347 0.298 0.301 0.333 0.337 0.331 0,342 0.325 0.332 0.322 0.339 51 0.356 0.313 0.330 0.310 0,348 0.301 0.323 0.295 0.349 0.342 0,325 0.355 0.324 0.340 52 0.341 0.351 0.331 0.306 0.348 0,303 0.321 0.321 0.364 0.337 0.318 0.321 0.324 0.345 53 0.296 0.352 0.328 0.292 0.349 0.308 0.325 0.320 0,334 0.334 0.321 0.340 0.320 0.347 54 0.321 0.301 0.330 0.292 0,365 0.313 0,326 0.319 0.335 0.355 0.323 0.339 0.337 0.350 55 0.290 0.301 0.315 0.349 0.362 0.315 0.323 0.319 0.333 0.336 0.325 0.342 0.336 0.344 56 0.319 0.296 0,318 0.349 0.332 0.320 0.334 0.324 0.337 0.335 0,322 0.340 0.335 0,342 57 0.330 0.334 0,289 0,347 0,301 .0.322 0.318 0.320 0,332 0.336 0.322 0.342 0.335 0,347 58 0.309 0.288 0.315 0.308 0.354 0.321 0,316 0.319 0,332 0.347 0.356 0.339 0.329 0.361 59 0.342 0.283 0.314 0.308 0,330 0.330 0.317 0.321 0.333 0.346 0.317 0.330 0.336 0.360 60 0.314 0.282 0.332 0.338 0.352 0,332 0.317 0.353 0.338 0.330 0.324 0.325 0.327 0.348 61 0.313 0.2B3 0.327 0.337 0.295 0.322 0.324 0.327 0.367 0.361 0.320 0.327 0.329 0.348 62 0.293 0,293 0.352 0.298 0.304 0.339 0.325 0.335 0.365 0.343 0.332 0.358 0.364 0.338 63 0.297 0.2999 0.362 0.325 0,304 0.327 0.317 0.340 0.315 0,342 0.329 0.354 0,340 0.367 64 0.349 0.3288 0.330 0.328 0,304 0.330 0,295 0.336 0.313 0,355 0,317 0.352 0,347 0,359 65 0.297 0,325 0,326 0.317 0,294 0.326 0,298 0.334 0.337 0.355 0.318 0.338 0.342 0,344 66 0.324 0.3266 0.328 0.313 0.295 0,321 0,297 0,339 0.336 0.356 0.320 0,337 0.335 0.341 67 0.320 0.3258 0355 0,315 0.315 0.323 0,352 0.309 0.333 0.345 0.335 0.338 0,324 0.345

Unit: Salem 1 RFO 20 Date: 04111110 T-MIN= 0.278 87.5% Norm, Wall= Nom. Wall = 0.337 ISI 10. AF28 .t~west Rea ding_0.2_0 Higbest reading 0. 71 Color Code: 0.000 to T-MIN T 4,0" to M 11 's"ft vi-all >87.5% Nom. Wall to Nom, Wall >Norm. Wall A B C D E F G H I J K L M N 68 0.331 0.327 0.339 0,326 0.340 0,325 0.356 0.299 0.332 0.345 0,328 0.330 0.334 0.347 q69 0.322 0.326 0.301 0.369 0.312 0,295 02342 0.325 0.335 0.343 0.357 0.334 0.332 0,358 70 0.305 0.317 0.300 0.316 0.333 0,342 0.330 0.327 0,339 0.323 0.334 0.336 0,341 0.355 71 0.314 0.316 0.300 0.315 0.358 0.341 0.331 0.299 0.345 0.321 0.330 0.341 0.334 0.350 72 0.311 0.353 0.301 0.316 0.360 0.336 0.287 0.324 0.352 0.340 0,339 0.332 0,338 0.350

• 73 0.298 0.319 0.299 0.326 0.336 0,336 0.286 0.319 0.354 0.366 0.338 0.339 0.331 0,345

• 74 0,305 0310 0,361 0.321 0,334 0.346 0.298 0.319 0.343 0.336 0.343 0.335 0.334 0.347

• 75 0302 0.336 0312 0.318 0.326 0.334 0297 0.320 0.349 0.320 0.335 0.333 0.333 0.339 1% A (ý

A Unit: Salem 1 RFO 20 Date: 04111/10 T-MIN= 0.278 87.5% Nom. Wall= Nom. Wall = 0.337 ISI ID. AF3T Lowest Reading 0.267 Highest reading 0,344 Color Code: 0,000 to T-MIN JýT-MIN in 87.6% Horn Wall >87.5% Nom, Wall to Nom. Wall >Nom. Wall A B C D E F G H I J K L M N 1 0.331 0.298 0.278 0.280 0,271 0.294 0.290 0.332 0.323 0,297 0.306 0.307 0,327 0.298 2 0.338 0.294 0.301 0.272 0.289 0.293 0.301 0,332 0.300 0.325 0.281 0.337 0.306 0.305 3 0.320 0.307 0.322 0.297 0.274 0.291 0.329 0.333 0.299 0.306 0.289 0.291 0.309 0.302 4 0.307 0.300 0.302 0.296 0.279 0.291 0.314 0.332 0.297 0.337 0.302 0.309 0.303 0.308 5 0.308 0.319 0,327 0.287 0,278 0.288 0.306 0,302 0.322 0.308 0.302 0.321 0.274 0,340 6 0.307 0.319 0,322 0.270 0.270 0.288 0.298 0,331 0.297 0.306 0.299 0.306 0.314 0,300 7 0.322 0.317 0.322 0.299 0.291 0.284 0.283 0.308 0.305 0,306 0.299 0.307 0.305 0.324 8 0,326 0.303 0.325 0.315 0.289 0,284 0.299 0.269 0.303 0.319 0.302 0.322 0.292 0.340 9 0 -. 14 0.302 0.318 0.306 0.305 0.287 0.318 0.311 0.328 0.315 0.299 0.306 0.306 0.315 10 0.333 0.302 0.303 0.286 0.281 0.286 0.303 0.307 0.333 0,338 0.299 0.303 0.323 0,319 11 0.328 0.300 0,307 0.283 0.286 0.301 0.311 0,297 0.320 0.313 0.316 0,321 0.320 0.305 12 0.305 0.302 0.306 0,291 0.317 0.301 0,297 0.292 0.289 0,301 0.305 0.312 0.340 0,305 13 0,338 0.297 0,305 0.293 0 317 0.297 0,295 0.292 0.337 0,31 3 0.323 0.305 0.324 0307 14 0.305 0.296 0.301 0.286 0.305 0,296 0,302 0.298 0.303 0.303 0.322 0.305 0.322 0.308 15 0.306 0.298 0.309 0.286 0,283 0.296 0.321 0.299 0.305 0,304 0.298 0.306 0.311 0302 16 0,327 0.296 0.308 0.324 0.325 0.296 0.321 0.301 0.309 0.298 0.309 0.305 0.331 0,299 17 0,324 0.336 0.320 0.320 0.296 0.324 0.297 0.302 0.302 0.298 0.308 0.335 0.305 0,311 18 0.324 0.336 0.309 0.326 0.313 0.326 0.324 0.297 0.323 0,308 0.301 0.320 0.306 0.311 19 0.314 0.336 0.304 0.315 0.311 0, 344 0.291 0.302 0.305 0.315 0.295 0.326 0,314 0.313 20 0.315 0.336 0.309 0.317 0,280 0. .44 0,286 0.301 0,314 0.291 0.285 0,304 0.302 0,293 21 0.302 0.325 0,316 0.315 0.279 0.327 0.283 0.311 0.314 0.310 0.272 0.305 0.308 0.300 22 0.309 0.334 0.338 0,333 0.283 0.317 0.281 0.280 0.310 0.275 0.333 0,305 0.307 0.293 23 0.324 0.301 0.329 0.332 0.321 0.314 0.283 0.302 0.314 0.315 0.284 0.289 0.315 0.297 24 0.310 0.297 0.334 0.295 0.319 0.314 0.309 0.330 0.337 0.340 0.313 0.283 0,285 0.328 25 0.300 0.296 0.334 0.295 0.319 0.315 0.306 0.325 0.338 0.307 0.305 0.276 0.305 0.307 26 0.304 0.305 0.333 0.332 0.330 0.315 0,333 0,324 0.308 0.291 0.297 0.312 0.288 0.289 27 0.307 0.291 0.332 0.306 0.297 0.302 0.307 0.325 0,313 0,290 C.296 0,299 0.286 0 330 28 0.334 0,294 0.299 0.297 0,305 0.312 0.296 0.328 0.273 0,308 0.295 0.316 0.289 0,297 29 0.320 0.298 0,309 0.309 0.306 0.309 0.313 0.281 0.317 0.339 0.317 0.283 0.290 0.298 30 0.305 0.299 0.310 0.293 0,309 0.306 0.309 0.308 0.317 0.316 0.316 0.334 0.289 0.313 31 0.339 0.327 0.310 0,308 0.309 0.306 0.309 0.268 0.301 0.312 0.341 0,311 0.318 0.285 32 0.311 0.329 0.324 0,314 0.292 0.309 0,333 0.306 0,302 0.312 0.313 0.281 0.337 0.306 33 0.313 0.334 0,325 0,314 0.293 0.325 0,305 0.312 0.301 0.300 0.294 0,284 0.295 0.302 34 0.318 0.342 0.324 0.314 0,302 0,305 0.297 0.312 0.301 0.302 0,295 0.284 0,304 0.326 35 0.310 0.309 0.284 0.318 0.321 0.304 0.298 0.317 0.294 0,292 0.296 0.315 0.287 0.316 36 0.312 0.328 0.283 0.321 0.288 0.302 0.302 0,313 0,294 0.293 0.316 0.301 0.290 0.319 37 0.306 0.329 0.320 0.292 0,288 0.304 0.322 0.316 0.295 0.302 0.291 0,300 0.289 0.294 38 0.300 0.312 0.321 0,295 0.297 0.317 0.322 0.309 0.295 0.303 0.297 0.298 0.283 0,291 39 0.302 0,303 0.321 0.297 0,297 0.306 0.322 0.309 0,305 0.290 0.296 0.287 0.287 0.270 40 0,301 0.300 0,320 0299 0.304 0,298 0.288 0.308 0.298 0.290 0.314 0.304 0.305 0.289 41 0,300 0305 0.318 0.332 0,308 0.296 0.286 0.308 0&286 0,290 0,311 0.292 0.317 0.319 42 0.302 0.291 0.321 0.303 0,306 0.295 0.316 0.268 0,286 0.340 0.305 0.309 0.328 0,322 43 0.302 0.291 0.324 0.327 0.306 0.294 0.288 0.284 0.283 0.335 0.307 0.305 0.317 0.320 44 0.303 0.308 0.323 0.305 0.309 0.297 0.288 0.275 0,283 0.340 0.307 0.303 0.331 0.302.

45 0.303 0.308 0,307 0.300 0.311 0,282 0.319 0,277 0.292 0.313 0.309 0.304 0.342 0,320 46 0.277 0,318 0.305 0.300 0.309 0.282 0.320 0.305 0.293 0,313 0,308 0.334 0.296 0.305 47 0.277 0.316 0.292 0.319 0.309 0.283 0.323 0.278 0.283 0.313 0,287 0.325 0,296 0.324 48 0.276 0.331 0.279 0.271 0.308 0.264 0.286 0.277 0.283 0.310 0.328 0.293 0.277 0.308 49 0.298 0.295 0.277 0.272 0.310 0.281 0.290 0.277 0,305 0.310 0.327 0.296 0.302 0.297 50 0.304 0.301 0.276 0.305 0.285 0.278 0.295 0,284 0.306 0,312 0.327 0.279 0.302 0.294 51 0.279 0.305 0.309 0.294 0.308 0.274 0.298 0.284 0.306 0.315 0.285 0,279 0.301 0.298 52 0.281 0.297 0.303 0.305 0.309 0.306 0.30C1 0.289 0.302 0.316 0.310 0.286 0.310 0.315 53 0.310 0.297 0.326 0,296 0.298 0.304 0.302 0.283 0.310 0.318 0,308 0.289 0.310 0.304 54* 0.311 0.297 0.322 0.287 0,316 0.271 0.30, 0.283 0.309 0.318 0.283 0.283 0.314 0.282 555 0.309 0.297 0.276 0.284 0.315 0.270 0.30, 0.283 0.308 0.312 0.305 0.289 0.315 0.298 5 6 0.307 0.276 0.276 0.283 0.313 0.269 0.3011 0.284 0.309 0.312 0.306 0.297 0.300 0.288 5 7 0.306 0.323 0.305 0.282 0.310 0,267 0.28!5 0.290 0.311 0.311 0.306 0,285 0.306 0.290 588 0.305 0,298 0.305 0,275 0.293 0.297 0,282? 0.314 0,312 0.313 0.305 0,289 0.302 0.291 5 9 0.280 0,298 0.304 0,275 0.310 0.294 0.3119 0.314 0.321 0.285 0,305 0.289 0.326 0.294 6 0 0.281 0.298 0.275 0.275 0.306 0.294 0,28' 7 0.313 0.321 0.320 0.306 0.306 0.308 0.295 6 1 0.281 0.298 0.274 0,275 0.308 0.299 0,28'7 0.287 0,320 0.316 0,302 0.306 0.330 0.295 6 2 0.305 0.298 0.274 0.277 0.307 0.298 0.28& 9 0.289 0,319 0.317 0.302 0.305 0.329 0.290 6 3 0.281 0,298 0.273 0.280 0.308 0.297 0.30' D 0.283 0.321 0.319 0.311 0.316 0.302 0.290 6 4 0.305 0.298 0.298 0.280 0.307 0.297 0.29 7 0.313 0.321 0.317 0.302 0.303 0.302 0.298 65 0.280 0.298 0.297 0.280 0,307 0.280 0.296 0.287 0.322 0.302 0.305 0.328 0,302 0.290

Unit: Salem I RFO 20 Date: o4111190 T-MIN= 0.278 87.5% Nom. Wall= Nom. Wall = 0.337 ISI ID. AF3B Component ID. .1owest Reading 0.294 Highest reading 0,369 Color Code: 0.000 to T-NMIN >T-ml4 to v7.5"% No.m MM >87.5% Nom. Wall to Nom. Wall >Nom. Wall A a C 0 E F G ,H I J K L M N 1 0.306 0.297 0.303 0.353 0.305 0.335 0.336 0.316 0.325 0.321 0.364 0.326 0.331 0.338 2 0.308 0.327 0.314 0.340 0.340 0.333 0.335 0.314 0.323 0.324 0.322 0.324 0.367 0.316 3 0,336 0.320 0.331 0.330 0.339 0.342 0.357 0.322 0.335 0.367 0.327 0.361 0.312 0.363 4 0,349 0.335 0.343 0.325 0.325 0,351 0.354 0.363 0.356 0.336 0,318 0.307 0.357 0.346 5 0.321 0.315 0,338 0.328 0.349 0.336 0,351 0.331 0.333 0.325 0.318 0.309 0.317 0.317 6 0,323 0.325 0.331 0.356 0.339 0.302 0.337 0.351 0,330 0.336 0.317 0.316 0.313 0.316 7 0.343 0.321 0.310 0.351 0.368 0,304 0.339 0.326 0,352 0.357 0.324 0.315 0.337 0.318 8 0.349 0,359 0.318 0.342 0.337 0.332 0,338 0.324 0,335 0.351 0.320 0,301 0.333 0.356 9 0.342 0.333 0.346 0.326 0.338 0.332 0.311 0.326 0.349 0.323 0.313 0.302 0.311 0.335 10 0.325 0.354 0.347 0.361 0,336 0.344 0.322 0.344 0.327 0.319 0.320 0.339 0.301 0,351 11 0.335 0.307 0.358 0.330 0.316 0,337 0.321 0.368 0,321 0,331 0.365 0.295 0.316 0.353 12 0.353 0.326 0.367 0.350 0.319 0.359 0.308 0.310 0.316 0.316 0.329 0.318 0.322 0.356 13 0.323 0,325 0.329 0.318 0.347 0.333 0.311 0.324 0.338 0.320 0.295 0.319 0.322 0,358 14 0.339 0,325 0337 0.349 0,342 0.330 0.315 0.345 0.341 0.325 0.300 0.335 0.317 0.338 15 0.346 0,343 0.296 0.327 0.337 0323 0,315 0.336 0.366 0 312 0.336 0,335 0.320 0.336 i6 0.354 0.345 0,339 0.333 0.322 0.356 0.338 0,353 0.318 0.336 0.324 0.301 0.318 0.337 17 0.319 0,298 0.328 0.332 0.325 0.326 0.337 0.307 0.318 0.317 0.349 0.302 0.322 0,338 18 0,336 0.347 0.304 0.332 0.322 0.342 0.338 0.333 0.311 0.327 0.348 0.323 0.322 0.341 19 0.347 0.335 0.343 0.306 0,338 0.333 0,357 0.333 0.315 0.358 0.336 0.342 0,319 0.343 20 0.321 0.336 0.340 0.305 0.326 0.368 0.322 0.333 0.323 0328 0.328 0.348 0.346 0343 21 0,334 0,334 0.329 0,321 0,327 0.344 0,319 0.333 0.327 0.348 0,336 0.347 0,345 0.324 22 0.339 0.301 0.351 0.324 0.327 0.328 0.318 0.331 0,325 0.340 0,316 0.347 0.310 0.324 23 0 327 0.308 0.342 0.351 0330 0.325 0.336 0.328 0,325 0.335 0.365 0.325 0.312 0327 24 0,338 0.303 0.349 0348 0.331 0.325 0,339 0342 0.337 0.359 0.318 0.319 0.313 0,332 25 0,327 0.294 0.342 0.342 0.336 0335 0.325 0.331 0,338 0.356 0.312 0.318 0.313 0366 26 0.344 0,294 0.356 0,357 0.364 0.332 0.317 0.327 0.354 0,351 0.356 0.307 0,339 0319 27 0.360 0.297 0.357 0,366 0.361 0.329 0.316 0.322 0.351 0.347 0.321 0,308 0.338 0,319 28 0.333 0.303 0.352 0.335 0,359 0.327 0,313 0.304 0.311 0.334 0.320 0.308 0.338 0.324 29 0.339 0.305 0.352 0.325 0.355 0.337 0.338 0.323 0.312 0.306 0.303 0.309 0.364 0.325 30 0.342 0.339 0.356 0.345 0.351 0.322 0.333 0.321 0.309 0.324 0,304 0,311 0.341 0.326 31 "0.339 0.336 0.334 0.355 0.356 0.330 0.333 0.328 0.334 0.323 0.354 0.329 0.313 0.324 32 0.324 0.338 0.343 0.352 0.341 0.331 0.343 0.343 0.329 0.349 0.304 0.363 0.312 0.323 33 0.347 0,362 0,347 0.332 0.334 0.325 0.330 0.338 0.322 0.323 0.305 0.299 0,339 0.328 34 0.361 0.317 0.341 0.332 0,334 0.321 0,331 0.301 0.347 0,320 0.354 0,305 0.312 0.338 35 0.355 0,316 0.366 0.308 0,349 0.323 0.327 0.335 0.355 0.329 0.327 0,323 0,309 0.308 36 0.355 0.359 0.357 0.328 0,343 0.335 0,320 0.345 0,331 0.330 0.296 0.321 0.309 0.317 37 0.309 0.327 0,341 0.362 0.340 0.334 0.321 0.327 0,343 0.334 0.349 0.323 0.308 0,325 38 0.335 0.311 0.327 0.348 0.325 0.343 0.332 0.327 0.347 0.329 0.342 0,309 0.312 0.332 39 0.333 0.335 0.335 0.319 0.321 0.322 0.330 0.331 0.368 0.330 0.329 0.340 0.313 0.344 40 0.327 0.328 0.327 0.339 0.336 0.346 0.334 0.333 0.324 0.353 0331 0.342 0.315 0.310 41 0.332 0,307 0.315 0.333 0.319 0.318 0.345 0.342 0.306 0.320 0,329 0.335 0,327 0.364 42 0.309 0.314 0.306 0.358 0.341 0.320 0.341 0.342 0.308 0.319 0.323 0.332 0.325 0.331 43 0.308 0,343 0.309 0.323 0.332 0.338 0,341 0.340 0.322 0.319 0.320 0.332 0.345 0,345 44 0.329 0.333 0,362 0.316 0.353 0.332 0.342 0.332 0.315 0.320 0.318 0.325 0.331 0.344 45 0.354 0.313 0.329 0,303 0.330 0,352 0.344 0.333 0.301 0.337 0.324 0,333 0.337 0.343 46 0,339 0.362 0.313 0.334 0.331 0.336 0.341 0.333 0.295 0.309 0,320 0,329 0.336 0.334 47 0.351 0.334 0.342 0,348 0.340 0.336 0.354 0,329 0.336 0.326 0.320 0.330 0.337 0.333 488 0.335 0,344 0.321 0,314 0.319 0,342 0,347 0.328 0,311 0.321 0.333 0.327 0.353 0.332 499 0.345 0.324 0.327 0.321 0.329 0.330 0,346 0.320 0.363 0,321 0.325 0.328 0,353 0.331 5O0 0.341 0.324 0.328 0.340 0.352 0.361 0.358 0.320 0.358 0.341 0.328 0.319 0,329 0.359 51 I 0.337 0,343 0.329 0.350 0.325 0.364 0,349 0.323 0,334 0.341 0.328 0.315 0.337 0.358 2 0.357 0.326 0.335 0.315 0.348 0.355 0,339 0.348 0.333 0.336 0.322 0.314 0.323 0.357 5:

3 0.335 0.325 0.326 0.325 0.326 0.334 0.350 0.347 0,329 0.3400 0.359 0.329 0.328 01.36 5'

0340 0.363 0.336 0,337 0.311 0.331 0.347 0.324 0.327 0,349 0.358 0.328 0,331 0.383 554 5 0330 0,322 0.358 0337 0,350 0.355 0,342 0.323 0335 0,3500 0.359 0.356 0.360 0,366 5'

6 0.354 0.353 0.338 0,335 0.314 0,344 0.335 0.347 0.323 0.3218 0.326 0.358 0.351 0.346

.5.

7 0360 0.330 0.337 0.327 0.324 0.344 0.330 0.348 0.331 0,3218 0.328 0.329 0.323 0,347 5

8 0.350 0,325 0,348 0.325 0.310 0,351 0.338 0.358 0,331 0,31 7 0.324 0.333 0.320 0,344 5

9 0.347 0.326 0.323 0,320 0,351 0.343 0.341 0.354 0.321 0.32,9 0,347 0,331 0.318 0.345 60 0.348 0.330 0.312 0,310 0.360 0.342 0.340 0.318 0.320 .0.3216 0.344 0.329 0,314 0.341 61 0.348 0,332 0.328 0.321 0.317 0,355 0.334 0,339 0.319 0.32 7 0.345 0.325 0.340 0.342 62 0,368 0,326 0.313 0,318 0.317 0.351 0.333 0,334 0.321 0.34 5 0.339 0.317 0,337 0.333 83 0,364 0.335 0.348 0.328 0.316 0,355 0.335 0.335 0,339 0.34 5 0.331 0.332 0.338 0.342 64 0.335 0.343 0.337 0.333 0.358 0.353 0.332 0.336 0.326 0,33 3 0.333 0.331 0.308 0.339 65 0.366 0.319 0.339 0,341 0.322 0.346 0,332 0.339 0.321 0.34 5 0.335 0,330 0.307 0.339 66 0.308 0350 0.317 0.321 0.323 0.348 0.334 0:340 0,337 0.35 2 0,340 0.353 0.332 0.338

\0o

. ~ -

Unit: Salem 1 RFO 20 Date: 04113/10 T-MIN= 0.278 87.5% Nom. Wall= Nom. Wall = 0.337 ISI 1D).AF4T Component ID. Lowest, Reading 0,260 Wifghest reading 0,358 Color Code: 0.000 to T-MIN >'TMII-N to 87.5% NamIr W*I >87.5% Norm, Wall to Nom. Wall >Nom. Wall A B C D E F G H I J K L M N 1 0.304 0.316 0.348 0.295 0.278 0,287 0.334 0,279 0.317 0,310 0.325 0.316 0.298 0.314 2 0.311 0.318 0.350 0.293 0.290 0.291 0.297 0.317 0.325 0.297 0.283 0.303 0.297 0,307 3 0.332 0306 0,351 0.289 0.333 0.278 0.323 0.316 0.317 0.274 0.310 0,298 0,298 0.302 4 0,335 0,300 0.307 0.312 0.332 0.301 0.338 0.323 0,314 0.288 0.301 0,296 0.268 0 302 5 0322 0,317 0301 0.312 0,271 0.302 0.293 0.319 0.316 0.292 0.294 0,284 0,311 0.298 6 0.298 0,352 0293 0.203 0,274 0.327 0.313 0.323 0.324 0,294 0,308 0.269 0,319 0.294 7 0.283 0.287 0,328 0.290 0.299 0.307 0.300 0.308 0.315 0.298 0,259 0.279 0,297 0.302 8 0.271 0.297 0,270 0.344 0.261 0.309 0.278 0,300 0.302 0.316 0.291 0.298 0.268 0.305 9 0.318 0.355 0.272 0.337 0.263 0.286 0,330 0.301 0.297 0.318 0.302 0.335 0.268 0.311 10 0,302 0.323 0.268 0.339 0.278 0,275 0.312 0.303 0.311 0.294 0.310 0.286 0.267 0,299 11 0.301 0,304 0,318 0.311 0.272 0.314 0.311 0.266 0.303 0.294 0.283 0,285 0.312 0.297 12 0290 0.301 0.310 0.318 0.271 0,282 0.301 0.266 0.313 0.298 0.276 0.312 0.287 0.306 13 0.287 0.272 0,283 0.339 0.265 0.318 0.299 0.294 0.309 0.275 0.270 0.312 0.309 0.296 14 0.267 0.292 0.283 0.310 0.291 0.273 0.299 0.313 0.275 0.305 0.314 0.277 0.329 0.293 15 0.273 0.297 0.328 0.306 0292 0.296 0.291 0.317 0.285 0.308 0.271 0.281 0.303 0.292 16 0.262 0.283 0.301 0.291 0.285 0.314 0.292 0,312 0.323 0.309 0.280 0.275 0.288 0.293 17 0.296 0.282 0.302 0.291 0.332 0.273 0.308 0.310 0.263 0.296 0.304 0.308 0.289 0,297 18 0.294 0,283 0.320 0.299 0,264 0.332 0.309 0.298 0,267 0.329 0.278 0.288 0.307 0,299 19 0.264 0,288 0.295 0.298 0.292 0.318 0.270 0.339 0.269 0.297 0.281 0.301 0.291 0.295 20 0.314 0.307 0.302 0.299 0296 0.291 0.275 0.316 0.263 0.300 0.294 0.269 0.265 0.292 21 0.316 0.289 0.305 0.272 0.296 0.265 0,267 0.320 0.264 0,305 0,286 0.274 0,321 0.291 22 0.265 0,299 0.305 0,305 0.254 0.263 0.297 0,314 0,281 0.309 0.291 0.318 0.287 0.295 2.3 0.294 0.355 0.322 0.281 0.300 0.299 0.296 0.309 0.266 0.313 0.313 0.293 0.315 0.297 24 0.270 0.350 0.273 0.299 0.270 0.278 0.300 0.311 0.270 0.312 0.286 0.292 0.314 0.299 25 0.270 0,320 0.310 0.321 0.268 0.280 0.298 0.285 0.287 0.321 0.295 0,314 0.287 0.295 26 0,288 0.309 0.321 0,290 0.292 0,306 0.273 0.297 0,301 0.307 0.303 0320 0.314 0.291 27 0.285 0.314 0.344 0.291 0.294 0.310 0.284 0.301 0.276 0.309 0,303 0.288 0.337 0.291 28 0.269 0.331 0.293 0.294 0.2B2 0,311 0.299 0.309 0.306 0,310 0.278 0.308 0.314 0.308 29 0.324 0.294 0.272 0.305 0.291 0,264 0.311 0.266 0.297 0.319 0.279 0.311 0.295 0.312 30 0.323 0,323 0.354 0,267 0.328 0.295 0.308 0.308 0.294 0.321 0.281 0.303 0,295 0.314 31 0.285 0.338 0,330 0.324 0,321 0.296 0.288 0,310 0.298 0.322 0.280 0.328 0.299 0.311 32 0.300 0.306 0.292 0.301 0.292 0.305 0.291 0.307 0.303 0.315 0.278 0,280 0.302 0.314 33 0,317 0.306 0.294 0.297 0.291 0,302 0.261 0.318 0.314 0.291 0.283 0,304 0.305 0.315 34 0.274 0.335 0.305 0,329 0.290 0.279 0.264 0.320 0.322 0.321 0.288 0.326 0.301 0.273 35 0.279 0.309 0.322 0.326 0.295 0.283 0.269 0.310 0.345 0.318 0.285 0,303 0.298 0.288 36 0.331 0.309 0.275 0.267 0.317 0.308 0.280 0,316 0,343 0,347 0,272 0.278 0.298 0.265 37 0,295 0.331 0.299 0.295 0.313 0,280 0.285 0,320 0.293 0.319 0.347 0.277 0.309 0.298 38 0.290 0.336 0,290 0.298 0.262 0.274 0.279 0.291 0.323 0.319 0.282 0,285 0.313 0.294 39 0,328 0,342 0.276 0.304 0.297 0.302 0328 0,293 0.314 0.320 0.283 0.314 0,282 0.298 40 0.309 0.357 0.296 0.277 0.299 0.300 01268 0.297 0.286 0,324 0.282 0.333 0.280 0,300 41 0.310 0.326 0.298 0.269 0.296 0.274 0.269 0.322 0U315 0,328 0.286 0.306 0.276 0.305 42 0.303 0.347 0.356 0.261 0&274 0.273 0.315 0.276 0.313 0.295 0.322 0.301 0.274 0,314 43 0.308 0,341 0.332 0.267 0.304 0.303 0.310 0.305 0.284 0.299 0M329 0.329 0.276 0.322 44 0.335 0.348 0,286 0.263 0.265 0.316 0.288 0,325 0.282 0.297 0.325 0.305 0.283 0,326 45 0,336 0.348 0.330 0.268 0,283 0.326 0.290 0.312 0.285 0.320 0,324 0.303 0.303 0.341 46 0,327 0,349 0.284 0.262 0,321 0.274 0,298 0.283 0,321 0.318 0.322 0.301 0.330 0.348 47 0.308 0.3-9 0.330 0.276 0,295 0.316 0306 0,306 0.326 0,312 0.321 0.304 0.286 0,312 48 0.278 0.286 0,283 0.261 0.284 0.354 0.311 0.311 0.325 0.292 0.295 0.322 0.300 0.311 49 0.307 0.280 0.288 0,269 0.264 0.264 0,284 0.316 0.325 0.292 0.306 0,289 0.286 0.276 50 0.332 0,321 0.309 0.316 0.263 0.273 0.327 0.310 0.321 0.299 0.309 0.287 0.295 0.304 51 0.322 0.294 0.336 0.299 0.292 0.297 0.279 0,311 0.296 0.302 0.312 0.285 0.283 0,282 52 0,337 0.309 0.350 0.278 0.267 0.290 0.268 0.316 0.325 0.302 0.315 0.306 0.285 0.336 53 0.289 0.303 0.335 0.271 0,279 0.296 0.289 0.323 0.273 0,308 0.303 0.307 0.291 0.329 54 0,344 0,303 0.336 0.279 0.262 0,281 0,337 0,302 0,274 0.316 0.305 0.338 0.296 0.329 55 0.300 0.306 0.316 0.280 0.321 0.289 0,315 0.297 0,303 0.326 0,282 0.308 0.301 0.299 56 0.332 0,350 0.342 0.290 0.287 0.299 0.302 0.298 0.306 0.327 0.300 0.315 0.305 0.318 57 0,291 0.352 0.315 0,318 0.290 0.292 0.302 0.297 0.311 0,331 0.281 0.304 0.290 0.317 58 0;330 0321 0.317 01283 0,327 0.276 0.316 0.298 0,312 0.304 0.290 0.310 0.284 0.316 59 0,311 0.285 0.320 0.323 0.289 0.280 0,313 0.339 0.314 0.302 0,318 0.329 0.287 0.311 60 0.304 0.290 0.351 0,288 0.307 0.265 0.325 0.302 0,317 0.307 0.312 0,288 0,288 0,313 61 0.300 0.291 0.346 0319 .0,327 0.274 0.317 0.308 0,318 0,311 0.280 0.329 0,292 0,312 62 0.321 0,321 0.316 0.293 0.293 0,275 0.285 0.292 0,301 0.315 0.283 0.310 0,290 0,321 63 0,335 0.289 0,340 0.320 0.313 0.282 0.288 0.309 0.277 0.304 0.329 0.295 0.289 0.322 64 0,319 0,319 0.316 0,314 0.281 0.290 0.318 0.313 0.297 0.342 0.302 0.294 0,299 0.304 65 0.315 0,287 0.322 0,287 0.319 0.285 0.321 0,330 0.309 0.306 0.315 0.290 0,294 0.32S 66 0.3 17 0.293 0,353 0,282 0.317 0.283 0.320 0305 0.288 0.322 0,315 0.308 0,288 0.303 67 0,315 0,297 §.K1 0,279 0,321 0.267 C.292 0,323 0.284 0.330 0.339 0.310 0.288 0.302 k\ AVý{

Unit: Salem I RFO 20 Da te: 04/13110 T-MIN= 0.278 87.5% Nom. Wall= Nom. Wall = 0.337 IS! ID. AF4T Component ID. Lowest Reading 0.260 Hihet epi nqP _8 Color Code: 0.000 to T-MIN '.T-TIINll'to 87.5%, Now,.Wall >87.5% Nora. Wall to Nom, Wall >Norm. Wall G H A B C D E FF G H I J K L M N 68 0.315 0.290 0.336 0.315 0.273 0255 0.308 0325 0,2e1 0.280 0.307 0,285 0302 0.299 69 0.325 0.290 0.332 0.292 0 273 0.260 0 332 0.306 0.279 0.319 0.279 0.283 0.299 0 297 70 0.312 0.35,1 0.332 0.300 0.294 0.262 0,315 0.306 0.313 0,306 0.278 0.309 0.299 0.293 71 0.327 0.326 0.332 0.303 0.283 0.296 0.329 0.315 0,306 0.291 0.269 0.309 0.297 0,290 72 0321 0326 0.324 0.307 0.279 0.294 0.329 0.306 0.275 0.298 0.300 0.290 0.289 0,286 73 0.326 0.347 0.2e8 0.305 0,271 0.322 0.285 0.266 0.311 0.299 0.293 0.296 0.281 74 0.323 0.332 0.314 0.273 0.274 0.265 0.305 0.292 0.287 0.309 0.299 0.283 0.307 0.281 75 0.321 0.309 0.308 0,307 0.271 0,311 0.297 0.297 0,283 0.325 0.305 0.284 0.308 0.280 76 0.344 0.309 0.281 0.318 0.308 0.316 0.318 0.303 0.292 0.332 0.346 0.285 0.300 0.279 77 0.349 0.335 0.310 0.324 0,297 0.271 0.320 0.311 0.296 0.315 0.304 0.288 0.299 0.282 78 0.347 0.354 0.309 0.325 0.285 0.312 0.319 0.322 0.308 0.309 0.295 0.318 0.298 0.280 79 0.347 0.356 0.278 0.328 0.320 0.290 0.294 0.307 0.310 0.315 0.294 0.305 0.308 0.308 80 0.347 0.294 0.299 0.355 0.288 0.294 0.316 0,298 0.295 0.305 0.298 0.314 0.309 0.305 I D, ') 9

Unit:" Salem I RFO 20 Date: 04111/10 T-MIN= 0.278 87.5% Nom. Wall= Nom. Wall= 0.337 ISIID. AF4B Component ID. Lowest Reading 02c72 Highest reading .0_"62 Color Code: 0.00 to T-MIN -T-PMN Ito 37.5% Narn Wall >87.5% Nom. Wall to Nom. Wall >Nom. Wall A B C D E F G H 1 J K L M N 1 0.321 0.302 0.313 0,309 0,337 0,325 0.320ý 0.343 0,317 0.297 0.312 0U289 0.309 0.308 2 0.320 0.322 0U343 0.309 0.337 0.350 0.292 0.338 0.295 0.292 0.333 0.300 0.272 0.311 3 0.321 0.325 0,323 0.331 0,335 0.353 0.293 0.290 0.320 0.293 0.321 0.344 0.298 0.321 4 0.309 0.347 0.322 0.324 0.348 0.353 0.298 0.310 0.296 0,328 0.315 0.2303 0,282 0.319 5 0,332 0.299 0.320 0.327 0.307 0.337 0.308 0.326 0.290 0.320 0.312 0.293 0.290 0.339 6 0.320 0.294 0.315 0.324 0.346 0.310 0.313 0,308 0.282 0.339 0,322 0.302 0319 0.336 7 0.317 0.336 0,352 0.316 0.339 0291 0.308 0,315 0.2e1 0.299 0,313 0,299 0.293 0.324 8 0,334 0.322 0.347 0,301 0.331 0.305 0.299 0.325 0,291 0.324 0.322 0.297 0.284 0 320 9 0.301 0.322 0.317 0,303 0.332 0,307 0.353 0,321 0.292 0.328 0,306 0.2B7 0,282 0.318 10 0.313 0.308 0.317 0.315 0.337 0,327 0.303 0,310 0.321 0.331 0,322 0,299 0,316 0.332 11 0.313 0.331 0.325 0,310 0,342 0,335 0.349 0.317 0.324 0,320 0.323 0,297 0.309 0.315 12 0.2B4 0,327 0,348 0.317 0.327 0,339 0.321 0.312 0.296 0.317 0.327 0,289 0.295 0.336 13 0,286 0,321 0.361 0,322 0,331 0.338 0299 0,314 0.322 0.316 0.291 0.287 0.292 0,315 14 0.330 0.322 0,344 0.323 0.321 0,326 0.325 0,329 0.300 0,323 0,288 0.305 0.300 0.338 15 0.320 0,322 0.361 0,316 0,331 0.341 0,331 0.331 0.299 0.299 0.287 0.325 0.307 0.291 16 0.321 0.307 0.344 0.327 0,321 0,334 0,292 0.328 0.300 0.301 0.299 0,315 0.319 0,290 17 0,322 0331 0,342 0.320 0.315 0.336 0.295 0,325 0.299 0.287 0.292 0.296 0,300 0,308 18 0.283 0,307 0.336 0.331 0.317 0.333 0.303 0.322 0.301 .0.320 0.289 0.304 0.322 0.286 19 0.291 0.328 0.333 0.327 0.315 0.330 0,355 0,317 0.324 0.323 0.322 0,335 0.302 0.312 20 0.291 0.329 0.333 0.327 0.334 0.353 0.316 0,316 0.299 0,316 0.324 0.340 0U293 0.285 21 0.308 0.335 0.331 0,325 0.289 0,354 0,316 0.340 0.284 0.312 0,350 0.337 0.299 0.313 22 0.299 0.341 0.333 0.320 0.300 0.353 0.333 0U337 0.287 0.291 0.312 0,307 0.304 0,325 23 0.325 0.340 0.358 0.320 0.297 0.329 0.292 0,311 0.282 0.298 0.311 0.309 0.297 0.335 24 0.347 0.338 0.326 0.320 0.311 0.328 0.332 b.286 0.293 0.300 0.303 0.311 0.297 0.339 25 0.348 0.339 0.320 0.351 0.311 0.325- 0.304 0.316 0.303 0.305 0.315 0.325 0.312 0.315 26 0.325 0.322 0.321 0.335 0,308 0.321 0,303 0.333 0.284 0.315 0.319 0.304 0,294 0.275 27 0,323 0.322 0.323 0.359 0.339 0,325 0.320 0.296 0.277 0,326 0,315 0.312 0.293 0.305 28 0.326 0.348 0.306 0.355 0.322 0.325 0.309 0.288 0.306 0.309 0.316 0.292 0.317 0.314 29 0.310 0.351 0.309 0.317 0.325 0.325 0.337 0.290 0.307 0.291 0.320 0.325 0.275 0.300 30 0.315 0.324 0,315 0.320 0.302 0.329 0.327 0.303 0.348 0.298 0.348 0.292 0.297 0.305 31 0.359 0.334 0.345 0.322 0.300 0.339 0.300 0.324 0,286 0.294 0.315 0U324 0.293 0,310 32 0.302 0.337 0.295 0.358 0.322 0.325 0,305 0.331 0.290 0.310 0.309 0.283 0.307 0.312 33 0,331 0.335 0.283 0.323 0.331 0.349 0.298 0.279 0,300 0.320 0.307 0.291 0.294 0.300 34 0,330 0.330 0.309 0.323 0,335 0.299 01299 0.275 0.309 0.327 0.309 0.321 0.337 0.307 35 0.309 0.328 0.319 0.324 0,322 0.296 0.323 0.287 0.317 0.325 0.353 0.327 0.330 0.329 36 0.327 0.327 0.322 0.317 0,318 0,311 0,324 0.338 0.294 0.309 0.312 0.314 0.321 0,329 37 0.330 0,328 0,328 0.320 0.322 0.345 0.322 0.327 0,290 0.327 0.321 0.303 0.314 0.318 38 0.322 0.330 0,329 0,322 0.308 0.305 0.283 0.311 0.291 0.353 0.291 0.297 0,318 0.304 39 0304 0.331 0.306 0.327 0.302 0.330 0.325 0.309 0.355 0.290 0.321 0.267 0.311 0.300 40 0.295 0,333 0,306 0.321 0,339 0.311 0,330 0.313 0294 0,299 0.324 0.298 0.317 0311 41 0,337 0.346 0.326 0325 0,336 0,325 0.325 0U316 0,317 0,304 0,357 0.305 0,343 0.327 42 0.301 0.335 0,329 0.326 0.335 0.332 0,315 0.327 0U331 0,308 0.324 0.296 0,315 0.302 43 0,328 0.318 0.326 0.324 0.326 0.317 0,324 0.316 0.326 0,311 0.297 0.295 0,286 0.332 44 0.329 0.314 0,320 0.316 0,326 0.314 0,326 0.318 0.325 0.310 0.296 0.298 0.296 0.304 45 0.307 0.319 0.299 0.314 0.325 0U319 0.325 0.348 0.318 0.303 0.294 0,302 0.307 0.301 46 0.294 0,322 0.326 0.331 0.298 0.302 0.295 0.286 0.308 0.2890.288 0.289 0.306 0,318 47 0.335 0.322 0.290 0.338 0.301 0.298 0.294 0.317 0.297 0.320 0.324 0.285 0,308 0.341 48 0.353 0,323 0.292 0.338 0.306 0.318 0.294 0.299 0.310 0.318 0.323 0.285 0.298 0.287 49 0.306 0309 0.309 0.342 0,304 0.318 0.329 0.283 0.319 0.327 0.352 0.273 0.298 0.292 50 0.290 0.308 0.294 0.312 0.310 0.297 0.296 0.339 0.293 0,316 0.304 0.316 0.286 0.336 51 0.287 0.330 0.291 0.316 0.303 0.320 0.295 0.339 0.306 0.324 0,308 0.289 0.320 0.302 52 0.302 0,287 0.300 0.339 0.293 0.297 0,281 0.346 0.322 0.315 0.311 0.286 0.341 0.290 53 0.298 0,309 0.292 0.317 0.293 0.318 0.335 0.310 0.331 0.317 0.277 0.293 0.3111 0,287 54 0.313 0.292 0,287 0.318 0.320 0.324 0,323 0.315 0.275 0.326 0,333 0.294 0.312 0.288 55 0.302 0.332 0.312 0,311 0.310 0.308 0.339 0.333 0.328 0,302 0.312 0.308 0.313 0.295 56 0.328 0.332 0.303 0.315 0.337 0.305 0,321 0.319 0.303 0.300 0.286 0.335 0.310 0.316 57 0.300 0.328 0.327 0.321 0.314 0.305 0.298 0.324 0.293 0.307 0.291 0.293 0.301 0,309 58 0.307 0.291 0,328 0.311 0.293 0.304 0,309 0.325 0,313 0.304 0.301 0.279 0.294 0.324 59 0.317 0.295 0.305 0.311 0.320 0.303 0.332 0.328 0,311 0.306 0.324 0.309 0.299 0.276 60 0.321 0.283 0.309 0.316 0.321 0.306 0,306 0.342 0,302 0.325 0,318 0.274 0.300 0.311 61 0.321 0.294 0,311 0.312 0.322 0.289 0.299 0,311 0.337 0.299 0.311 0,278 0.277 0.346 622 0.308 0,300 0.281 0.316 0305 0.318 0.298 0.310 0.326 0.307 0.316 0.284 0.298 0.313 63 0,305 0300 0.279 0.332 0.305 0.315 0.338 0.312 0.330 0.308 0.330 0.285 0.323 0.314 6' 4 0,306 0.302 0,281 0.319 0.311 0,326 0.298 0.318 0.306 0.286 0.315 0.314 0,312 0.329 65 0.304 0.313 0.293 0312 0308 0,318 0.292 0.316- 0.309 0.291 0.304 0,313 0.316 0.308 66 0 320 0345 0,290 0,318 0,308 0.315 0.305 0,338 0.342 0,302 0,299 0.283 0,278 0,320 677 0,343 0.307 0,333 0.331 0303 0,315 0,308 0,298 0,307 0.329 0.292 0,279 0.317 0.335

Unit: Salem i RFO 20 Date: 04111110 T-MIN= 0.278 87.5% Nom. Wall= Nom, Wall= 0.337 ISI ID. AF4B Component IDý Lowest Reading 0.272 .fiighest reading 0.362 Color Code: 0.000 to T-MIN >T4AIN *m87.5% Nofn Wajll >87.5% Nom. Wall to Nom. Wall >Nom. Wall A B C D E F G H I J K L M N 68 0.302 0.305 0.317 0,346 0.302 0.309 0,338 0.275 0.311 0.300 0.298 0.289 0.295 0.311 69 0.344 0.351 0.319 0.312 0.301 0.314 0.315 0.275 0,337 0.308 0.297 0.323 0.284 0.334

• 70 0.346 0.351 0,305 0,292 0.284 0.328 0,337 0.309 0.314 0,310 0,305 0.320 0.289 0.325

• 71 0.345 0,295 0,302 0.292 0.289 0.298 0.325 0.298 0,307 0.329 0.325 0.337 0.284 0.299

• 72 0,301 0.291 0.302 0,290 0.318 0.289 0,298 0 296 0322 0.327 0.326 0.286 0,296 0.338 73 0299 0281 0,295 0,275 0.322 0.308 0 300 0.269 0,308 0.325 0.303 0,325 0302 0.344

74 0.302 0.283 0,289 0.277 0.323 0.312 0.306 0,285 0].328 0.297 0.294 0.292 0.280 0.308

75 0.296 0.294 0.282 0.320 0.320 0.311 0.308 0.280 0,325 0,302 0.303 0.327 0.297 0.313 76 0.308 0.281 0.310 0.306 0.320 0.316 0.324 0.293 0.302 0.298 0.323 0.326 0.286 0.310 77 0.309 0.279 0.309 0.310 0.336 0.281 0.293 0.301 0.329 0.306 0.325 0.294 0.304 0,331 78 0.311 0.295 0.315 0.285 0,333 0.303 0.317 0.328 0.293 0.329 0.327 0.336 0.319 0.309 79 0.281 0.286 0.313 0.275 0 330 0.287 0.318 0.327 0.304 0.326 0.299 0.310 0.314 0.308 80 0.315 0.288 0.313 0.285 0.328 0,289 0.317 0.323 0,323 0,305 0.288 0312 0.318 0.294 81 0.286 0.303 0,310 0.289 0.328 0.316 0.314 0.322 0.300 0,301 0.289 0,325 0.322 0.326 82 0.289 0,303 0.310 0.327 0.328 0.320 0,339 0.316 0,294 0,313 0.299 0.322 0.312 0.294

Unit: Salem 1 RFO 20 D ate:__ 04111110 T-MIN= 0.278 87,5% Nom. Wall= Nom. Wall = 0,337 ISI ID. AFST Component ID. LowestR Hihst read0rIn 0.354 Color Code; 0.000 to T-MIN ~T-MlN in 7M~ Non Woll >87.5% Nom. Wall to Nom. Wall >Nom. Wall A B C D E F G H 1 J K L M N 1 0.322 0.325 0.318 0.284 0.296 0.317 0.311 0,309 0.281 0,294 0.295 0.296 0319 0.272 2 0.308 0,302 0.294 0.284 0,293 0.290 0.345 0.312 0.281 0 .302 0,294 0.297 0,277 0.271 3 0.329 0.319 0.315 0.284 0.298 0.290 0.347 0.314 0.302 0 .307 0.269 0.267 0.290 0.285 4 0,295 0.319 0,301 0.313 0,295 0.294 0,293 0,313 0,310 0.289 0.287 0U282 0.299 0,316 5 0.293 0,307 0.293 0.305 0.260 0.295 0.290 0.341 0U314 0.284 0.292 0.278 0.291 0.2865 6 0.293 0,307 0.292 0.310 0.308 0.295 0.296 0.312 0.304 0.284 0.300 0,276 0.291 0.281 7 0.287 0.307 0,297 0.312 0.270 0.293 0.299 0.306 0,350 0 .317 0.300 0.274 0.292 0.274 8 0.321 0.311 0.284 0.311 0.299 0293 0.296 0,306 0.267 0 .317 0,307 0.271 0.294 0.273 9 0.272 0,334 0.284 0.276 0.205 0.320 0.292 C.311 0,315 0.283 0,297 0,271 0.294 0.273 10 0,305 0.319 0,298 0,289 0.271 0.273 0.282 0.339 0.351 0 ,287 0.298 0.268 0.265 0,271 11 0,302 0.311 0.302 0.265 0.296 0.269 0.282 0.305 0,334 0 .287 0,305 0.267 0.264 0.289 12 0.309 0.310 0.328 0265 0.305 0.271 0.279 0.305 0.335 0 .282 0.301 0,305 0.289 0.287 13 0.341 0.309 0.299 0.294 0.269 0.268 0,279 0.304 0.336. 0 .273 0.311 0.311 0.310 0.287 14 0.289 0.337 0.286 0.298 0,270 0.271 0276 0.294 0.289 0'.273 0.305 0.296 0.326 0.284 is 0.280 0294 0,285 0.336 0.302 0.287 0.280 0.292 0.311 0 ,297 0.298 0,321 0,333 0.302 16 0.311 0.330 0 190 0,323 0,301 0.271 0U322 0.285 0.289 C.305 0.300 0.311 0,308 0,289 17 0.317 0.303 0,291 0.299 0.297 0.280 0,323 0.285 0.274 0 .264 0 301 0.348 0.307 0.281 18 0.285 0.304 0.292 0.299 0.298 0.279 0.323 0.284 0,292 0 .286 0.261 0.348 0.309 0,264 19 0.271 0.305 0.306 0.272 0.299 0.304 0.282 0.278 0.340 C.285 0.276 0,347 0.308 0.263 20 0.283 0.303 0.299 0.299 0.313 0.304 0.282 0.304 0.315 0 .267 0.281 0.286 0.305 0,298 21 0.284 0.307 0.291 0.285 0.311 0.315 0.347 0.311 0.341 C,.303 0.280 0.287 0.276 0.269 22 0,271 0.325 0,292 0.289 0.310 0.314 0.284 0.313 0.340 C.301 0.310 0.3i17 0.276 0.260 23 0.313 0.303 0.288 0.263 0.337 0.314 0.267 0.298 0,316 C,.301 0.310 0,316 0.306 0.267 24 0.303 0.303 0.267 0,263 0.309 0.267 0.265 0.299 0.297 1,302 0.309 0.317 0.275 0.265 25 0.302 0.334 0.290 0.291 0,306 0.291 0U289 0.262 0.289 00.283 0.294 0.310 0.276 0.261 26 0,325 0.312 0.268 0.323 0.298 0.291 0.287 0.288 0.312 C0.300 0.293 0.311 0.308 0.278 27 0.293 0.283 0.28B 0.316 0,278 0.267 0.285 0,285 0.312 1.299 0,301 0.311 0.264 0.326 28 0.291 0.283 0.289 0.299 0.272 0.296 0.278  ?,54 0.273 0.297 0.321 0.305 0.263 0.299 29 0.266 0.321 0,287 0.285 0.265 0.295 0.279 0.351 0.275 01.3010.323 0.312 0.280 0,289 30 0.289 0.270 0.262 0.327 0.298 0.296 0.299 0.273 0,278 0.311 0.314 0.299 0.337 0.271 31 0.265 0.321 0.289 0.328 0.294 0,268 0.292 0.321 0,281 0,314 0.322 0.274 0.262 0.295 32 0.281 0.294 0.265 0.295 0.292 0,275 0.323 0.325 0.283 0.322 0.320 0.318 0.302 0.299 33 0.287 0.296 0.265 0,298 0.297 0.336 0.322 0.295 0.273 0.314 0.312 0.319 0.291 0.300 34 0,291 0.318 0.329 0.298 0.311 0.322 0.278 0.343 0.278 0.314 0.309 0.319 0.315 0.299 35 0.306 0.317 0.302 0.298 0.300 0.339 0.278 0.307 0.282 0,318 0.308 0.284 0.272 0,300 36 0.302 0.317 0,305 0,278 0.270 0.270 0.277 0.343 0.329 0.342 0.315 0.277 0,270 0.278 37 0.323 0.292 0.277 0.320 0.270 0.330 0.300 0.343 0.306 0,342 0.292 0.299 0.292 0.280 38 0.266 0.293 0.299 0.319 0,298 0.296 0.291 0.299 0.307 0.342 0.317 0.273 0.289 0.279 39 0.302 0.264 0,277 0.329 0.296 0,308 0.297 0,302 0.277 0,342 0,312 0.337 01289 0.286 40 0.301 0,284 0,275 0.305 0.271 0.346 0.295 0.304 0.277 0.315 0.306 0.337 0.264 0.279 41 0.302 0.287 0.263 0.305 0.298 0.326 0.261 0,305 0.271 0.274 0.300 0.289 0,286 0.281 42 0.311 0.267 0.265 0.293 0.271 0.280 0.277 0.304 0.271 0.302 0.295 0.311 0.282 0.285 43 0.296 0.314 0,313 0.291 0.301 0.279 0.264 0.306 0.278 0.274 0.298 0.331 0.285 0.284 44 0.284 0.301 0.313 0,265 0.280 0.280 0.302 0266 0.281 0.309 0.305 0.298 0.282 0.283 45 0.312 0U313 0.313 0.271 0.280 0.279 0.320 0.268 0.283 0.336 0.306 0.288 0.287 0,283 46 0.305 0.298 0-323 0,281 0.289 0.279 0.272 0.271 0.261 0,315 0,306 0.289 0,290 0.282 47 0.331 0.283 0.327 0.284 0.278 0,298 0,275 0,273 0.252 0.272 0.304 0,348 0.292 0.280 48 0.328 0.295 0.298 0.321 0.278 0.289 0.295 0.272 0,278 0.269 0.303 0.271 0.322 0.283 49 0,288 0,295 0.293 0.301 0.278 0.279 0.308 0.270 0.309 0,296 0.300 0.301 0.323 0283 50 0.281 0,290 0.293 0.319 0.298 0.271 0.328 0.270 0.294 0.297 0.320 0.280 0.323 0,287 51 0,266 0.304 0,299 0.314 0.262 0,313 0.321 0.304 0.309 0.317 0.321 0.303 0.288 0.284 52 0.289 0.302 0.295 0.289 0,261 0.314 0U278 0.328 0.309 0,314 0.287 0.313 0.292 0.283 53 0,333 0.287 0.294 0.290 0.339 0.302 0.290 0.272 0.290 0.315 0.291 0.314 0,307 0.287 54 0.313 0.302 0.294 0.291 0.286 0.303 0.290 0.272 0,274 0,316 0.291 0.294 0.279 0.285 55 0.322 0.292 0.314 0,317 0U260 0.297 0.289 0.272 0.275 0.311 0.315 0.300 0.280 0.290 56 0,314 0,303 0.3114 0.287 0.260 0,297 0.266 0.270 0.309 0.340 0.316 0.287 0.279 0.290 57 0,301 0,276 0.290 0.287 0.264 0.301 0.267 0.350 0.311 0.314 0.322 0.272 0.275 0.290 58 0.2955 0.290 0.294 0.317 0,265 0.301 0.267 0.296 0.298 0.304 0.332 0.271 0.296 0,293 59 0.294 0.296 0.290 0.318 0.292 0.300 0.282 0.299 0.296 0.304 0,327 0.289 0.316 0.292 60 0.3000 0.295 0.261 0.292 0.292 0,299 0.306 0.298 0.297 0,304 0,303 0,276 0.261 0.294 61 0.3155 0.294 0.267 0.294 0,314 0.262 0.282 0.281 0.298 0,340 0,311 0.275 0.263 0.299 622 0.31' 4 0.294 0.267 0,296 0290 0,341 0,283 0.271 0.296 0.322 0.321 0.320 0,263 0,308

Unit;._* Salem I RFO 20 bate; 0411t/10 T-MIN: 0.278 87.5% Nom. Wall= Norn. Wall = 0.337 ISI ID. AF5B Component ID, Lowest Reading 0,27z Highest reading 0,394 Color Code: 0.000 to T-MIN  ;,.'[,rNI to *.%No~ra WIait >87.5% Norn. Wall to Nom. Wall >Nom. Wall A B C 0 E F G H J K L M N 1 0,319 0,303 0.310 0.326 0.334 0,303 0.277 0.332 0.351 0.372 0.333 0.310 0.307 0.340 2 0334 0.307 0.309 0.328 0,351 0.297 0,369 0,330 0.381 0.382 0.298 0.309 0,351 0.369 3 0,331 0.314 0.353 0.309 0,349 0.322 0,323 0.347 0.378 0.275 0.274 0.310 0.347 0.356 4 0,298 0.379 0.359 0.38-4 0.349 0,393 0.343 0.343 0.339 0,350 0.307 0.309 0.310 0.344 5 0.323 0.355 0.363 0.352 0.378 0.389 0.362.0.341 0.340 0,378 0,303 0.306 0,374 0,377 6 0.347 0.335 0,372 0,350 0.367 0.358 0.351 0.382 0.340 0.364 0.294 0,305 0.361 0,308 7 0.378 0.332 0.332 0.341 0.387 0.353 0.350 0.379 0,336 0.284 0.295 0.303 0.337 0.333 8 0.301 0.313 0.339 0.348 0.330 0.340 0.295 0.343 0.385 0.360 0.345 0.323 0.324 0.362 9 0.330 0.320 0.339 0,317 0.363 0.338 0.356 0.342 0.292 0.277 0.343 0.330 0.323 0.350 10 0.368 0.335 0.334 0.325 0,314 0.350 0.379 0.374 0.298 0.331 0.338 0.353 0.320 0.316 11 0,372 0.384 0.363 0.321 0.375 0.340 0.345 0.326 0.281 0.328 0.359 0.356 0.328 0.314 12 0.306 0.359 0.346 0,385 0.374 0.340 0,379 0.325 0.335 0.357 0.345 0.344 0.355 0.328 13 0,354 0.369 0.367 0,336 0.323 0.338 0.317 0.330 0,337 0.356 0.348 0.301 0.343 0.327 14 0.333 0.371 0.299 0.360 0.319 0.339 0.312 0.335 0.375 0.373 0.349 0.274 0.344 0.326 15 0.322 0.312 0.329 0.328 0.331 0.348 0.297 0.337 0.351 0.336 0.345 0.276 0.363 0.320 16 0.311 0.308 0.330 0.325 0.379 0,339 0,287 0.347 0,320 0.357 0.324 0.292 0.322 0.333 17 0.342 0.280 0,351 0.328 0.322 0.351 0,372 0.366 0.383 0.355 0,323 0.338 0,355 0.338 18 0.350 0.279 0,378 0.336 0,326 0.346 0.366 0.291 0.345 0.361 0,336 0.342 0.316 0.318 19 0.378 0.304 0.380 0.348 0,357 0.338 0,346 0.301 0.347 0.356 0.340 0.363 0,326 0,290 20 0.354 0,326 0,368 0.392 0 367 0.351 0.375 0.292 0.337 0.373 0.346 0.314 0.311 0.335 21 0.338 0.345 0.377 0.371 0,335 0.344 0.348 0.298 0.359 0.380 0.330 0.337 0,341 0,302 22 0.368 0.299 0.351 0,374 0,336 0.374 0.319 0.275 0.387 0.359 0.331 0.340 0.327 0.328 23 0,314 0.306 0.284 0.305 0.342 0.342 0.347 0.302 0.291 0.385 0,332 0.338 0.283 0.302 24 0.321 0.392 0.285 0.363 0.344 0.382 0.360 0.291 0.325 0.325 0.338 0.324 0.277 0.329 25 0.360 0.284 0.363 0.359 0.340 0.361 0.336 0.297 0.352 0,326 0.339 0.344 0.302 0.356 26 0.354 0.338 0.352 0.380 0.310 0.380 0.342 0.300 0,291 0.355 0.337 0.374 0.278 0.333 27 0.310 0.301 0.332 0.389 0.363 0,363 0.338 0.278 0.353 0.325 0.385 0.358 0.303 0.360 28 0.307 0.375 0.368 0.375 0.361 0,360 0.337 0.332 0,325 0.348 0.329 0.359 0.299 0.333 29 0311 0.354 0.333 0,307 0.359 0,358 0,284 0.365 0.337 0 360 0,337 0.365 0.345 0.340 30 0.346 0.381 0.343 0.342 0.383 0.388 0.280 0.298 0.331 0.298 0.345 0.345 0.278 0.338 31 0.335 0315 0,338 0.369 0.358 0,332 0279 0.290 0.387 0,290 0.332 0.347, 0.330 0.333 32 0.359 0.314 0.342 0.361 0.360 0.334 0.276 0.321 0.365 0,283 0.363 0.378 0.334 0,290 33 0.387 0.331 0.349 0.342 0,352 0.380 0.348 0,314 0.299 0.338 0,344 0.342 0,328 0.296 34 0.363 0.330 0,379 0.339 0.349 0.382 0.371 0,313. 0.334 0.336 0.320 0.379 0.358 0.336 35 0.338 .337 0,333 0.341 0.339 0.354 0.366 0,314 0.330 0.283 0.335 0.319 0.317 0,377 36 0.333 0.331 0.356 0.281 0.348 0,388 0,342 0.326 0.338 0.293 0.321 0,310 0.358 0.319 37 0,339 0.369 0.341 0,358 0.328 0.385 0.293 0.327 0.338 0.277 0,322 0,311 0,307 0.293 38 0.344 0.381 0,339 0.306 0.330 0.353 0.296 0.330 0.341 0,373 0.326 0.312 0.283 0.326 39 0.342 0.350 0.336 0.280 0.334 0.354 0,303 0.308 0.322 0.371 0.323 0.313 0.278 0.326 40 0.340 0.317 0.307 0.355 0.332 0.372 0.349 0.308 0.334 0.305 0.332 0.291 0.274 0.342 41 0.324 0.304 0,310 0:292 0.342 0.373 0.299 0.328 0,351 0.383 0.386 0.321 0.351 0.290 42 0.317 0.361 0.302 0.298 0.347 0.382 0.297 0.324 0.372 0.337 0.336 0.311 0.352 0,334 43 0.314 0.299 0.301 0.340 0.348 0.380 0.298 0.383 0,315 0.298 0.300 0,344 0.326 0.295 44 0,336 0.298 0.315 0.332 0.368 0i.3.4 0.334 0.355 0.320 0.378 0,296 0,306 0,321 0.350 45 0.346 0.299 0.317 0,330 0.363 0.341 0.364 0,374 0.349 0.340 0.304 0.303 0,293 0.345 46 0,342 0.379 0.320 0.350 0.381 0.361 0.367 0.359 0.313 0.326 0.305 0.303 0.291 0.361 47 0.337 0.392 0.323 0.348 0,369 01334 0.342 0.357 0.363 0.334 0a281 0.306 0.333 0,365 48 0.364 0362 0.324 0,342 0.371 0.359 0,348 0,333 0.377 0.342 0.358 0.307 0.325 0.337 49 0.355 0.374 0.320 0.353 0,384 0.352 0.348 0.392 0,363 0,346 0.355 0.325 0.330 0.322 50 0,326 0,344 0.317 0358 0.383 0.369 0.292 0.354 0.323 0.351 0.300 0.325 0.352 0.347 51 0.374 0.349 0.318 0.349 0.334 0.369 0,320 0.371 0.317 0.352 0.297 0.326 0,333 0.307 52 0.337 0.393 0.328 0.353 0.326 0.358 0.376 0.321 0.356 0.352 0.272 0,330 0.340 0.334 53 0.341 0.353 0.330 0.374 0.370 0.319 0,360 0.350 0.353 0.377 0.294 0.377 0.294 0.328 54 0.339 0.337 0.326 0.340 0.349 0.388 0.355 0,349 0.336 0.357 0.291 0,301 0.310 0.332 55 0.296 0.342 0.329 0.345 0,355 0.356 0,322 0U292 0.274 0.357 0.285 0,324 0.307 0.341 56 0.344 0,375 0,328 0.334 0.383 0.389 0.322 0.296 0,344 0.341 0.338 0.333 0.307 0.327 57 0.361 0,344 0.289 0.332 0.367 0.359 0.320 0.312 0.355 0.311 0U325 0.367 0.296 0.332 58 0.309 0.279 0.345 0.333 0.333 0.388 0.296 0.296 0,328 0.341 0.307 0.353 0,315 0.326 59 0,322 0.347 0343 0.357 0.335 0.365 0,364 0.281 0.339 0.350 0,283. 0.333 0.317 0.324 60 0.346 0.339 0.331 0.334 0,329 0.353 0.296 0.283 0,321 0.368 0.308 0.330 0.331 0,308 61 0.324 0.337 0,368 0.337 0.349 0.344 0.323 0.303 0.337 0.356 0.309 0.290 0.364 0.276 62 0.362 0.339 0.330 0374 0,363 0.347 0.330 0.296 0.327 0,330 0.369 0.274 0.327 0.287

Unit: Salem I RFO 20 Date: 04111110 T-MIN= 0.278 87.5% Nom. Wall= Nom. Wall = 0.337 SI ID. AF6T Component ID. -L..west Readfing 0-2,?2 Highest reading 0.356 Color Code: 0.000 to T-MIN ,ý1,-V,1M,trý 87,41%NC,ýri wo 11 >87.5% Nom. Wall to Nom. Wall >Norn. Wall A B C 0 E F G H I J K L M N 1 0.265 0.328 0.297 0.272 0.325 0.302 0.299 0.318 0.330 0.318 0.333 0.267 0.293 0.286 2 0.284 0.266 0.327 0.315 0.304 0.268 0.318 0.293 0.333 0.344 0.299 0.285 0.298 0.308 3 0.302 0.345 0.322 0.274 0.307 0.281 0.281 0.289 0.320 0,306 0.309 0.316 0.299 0.337 4 0.335 0.317 0.261 0:273 0.288 0.305 0,307 0.259 0.322 0.349 0.339 0.314 0.318 0.323 0289 0.329 0.274 0.296 0.304 0.291 0.285 0.295 0,321 0.354 0.338 0.310 0.302 0.299 6 0.307 0.305 0,326 0,253 0,298 0.299 0,293 0.332 0.322 0.271 0.333 0,312 0.287 0.295 7 0,310 0,309 0,269 0,252 0.290 0.272 0.298 0,270 0.335 0.333 0.330 0.305 0.303 0.324 8 0.287 0.310 0.269 0.254 0.285 0.281 0.331 0.299 0.299 0330 0.310 0.284 0.312 0.298 9 0,305 0.311 0,329 0.255 0.287 0.312 0.317 0,321 0.305 0.320 0,302 0.300 0.337 0.342 10 0.295 0.310 0.320 0.298 0.292 0.280 0.283 0.338 0.304 0.308 0.299 0.302 0.344 0.315 11 0.283 0.293 0,314 0.292 0.289 0.286 0.288 0,310 0.319 0.313 0.306 0.280 0.314 0.308 12 0.293 0.337 0,271 0.273 0,278 0.280 0.287 0.309 0.305 0.310 0.3 10 0.299 0.305 0.293 13 0,259 0.334 0.277 0.295 0.293 0.272 0.300 0.300 0.327 0.319 0.312 0.294 0.301 0,293 14 0318 0.317 0.267 0.297 0318 0.315 0.286 0.305 0.277 0.337 0.330 0.332 0.294 0.287 15 0322 0.323 0.300 0.315 0,289 0.315 0.305 0,301 0.307 0.291 0.321 0.305 0,303 0.286 16 0.277 0,303 0.311 0.323 0.317 0.307 0.313 0,305 0.264 0.287 0.324 0,341 0.291 0.297 17 0.264 0.295 0.351 0,327 0 296 0.285 0.284 0.312 0.325 0.291 0.313 0,326 0.320 0.297 18 0,312 0.313 0,293 0.302 0,296 0.282 0.290 0,312 0.314 0,314 0,278 0.328 0.322 0.289 19 0.326 0.317 0.299 0.320 0.309 0.271 0.295 0.281 0 310 0.295 0.282 0.330 0.327 0.291 20 0.312 0.313 0,271 0.317 0.311 0.282 0.283 0.297 0.344 0.318 0.291 0.297 0.276 0.299 21 0,326 0.298 0.286 0.320 0,314 0.272 0.268 0.275 0.264 0.290 0.308 0.271 0.288 0.323 22 0.286 0.305 0,331 0.326 0,300 0.298 0,302 0.276 0.341 0.319 0.303 0.329 0.294 0.320 23 0.295 0.274 0.303 0.282 0.275 0.299 0.270 0.279 0.278 0.301 0.297 0.314 0.313 0,338 24 0.321 0.272 0.275 0.284 0.317 0.289 0.286 0.280 0.318 0,304 0,300 0.280 0.312 0.317 25 0.355 0.278 0.297 0.288 0.315 0.307 0.322 0.312 0.283 0.305 0.286 0.277 0.280 0.300 26 0,306 0.309 0.276 0.320 0.307 0.266 0.272 0.309 0.284 0.302 0.288 0.288 0.302 0.317 27 0.257 0.305 0.270 0.321 0.298 0,299 0.267 0,302 0.315 0.321 0.306 0,275 0.306 0.320 28 0.303 0.281 0306 0.318 0.288 C.292 0.316 0.308 0.331 0.321 0.275 0.276 0.291 0,288 29 0,327 0,324 0.275 0.300 0,336 0,322 0,303 0.334 0.349 0,306 0.302 0,291 0.289 0.290 30 0,303 0.314 0.297 0.323 0.287 0.302 0.311 0,303 0.301 0.278 0.316 0.277 0,271 0301 31 0,311 0.305 0.279 0.324 0.286 0,351 0.303 0,304 0.335 0,325 0.310 0.280 0.308 0.313 32 0.310 0.305 0.285 0.304 0.277 0.267 0.296 0.342 0.332 0.303 0.296 0.281 '0.282 0.309 33 0.290 0.306 0.309 0.303 0,326 0.314 0.338 0.341 0.333 0.302 0.258 0.272 0,343 0.314 34 0.336 0.312 0.309 0.314 0.327 0.269 0.315 0.318 0.299 0.310 0.257 0.304 0.278 0.289 35 0.333 0.287 0.304 0,298 0.282 0.321 0.309 .303 0,336 0.315 0.284 0.281 0.348 0.264 36 0.309 0.308 0,266 0.327 0.318 0.332 0,35.C 0.307 0.335 0.317 0.302 0.296 0.284 0.309 37 0.326 0.315 0.279 0.343 0,327 0.301 0.292 0.306 0.266 0.331 0.279 0.294 0.301 0.282 38 0.341 0.293 0.348 0.353 0.282 0.307 0.294 0.312 0.298 0.310 0.320 0,328 0.307 0.289 39 0.355 0.291 0.305 0.305 0.283 0.305 0.281 0.315 0.316 0,310 0.321 0.304 0.307 0305 40 0.307 0.299 0.299 0.306 0.284 0,329 0,300 0.311 0.311 0.311 0.319 0.316 0.282 0.305 41 0.306 0,317 0,354 0304 0.324 0.304 0.303 0.310 0.309 0,305 0.345 0.318 0,282 0.330 42 0.305 0.353 0.322 0,306 0,296 0.291 0.300 0.310 0.328 0.317 0.305 0.298 0.282 0,308 43 0.305 0.303 0.335 0.306 0.295 0.320 0.299 0.305 0.304 0,305 0.291 0.299 0.305 0.329 44 0.329 0.337 F.356 0.333 0.304 0.300 0,299 0.302 0.286 0.2S8 0.292 0.296 0.'5- 0,351 45 0.329 0.316 0.336 0.307 0.305 0.317 0.307 0.303 0,286 0.299 0.304 0.298 0.336 0.319 46 0.307 0.315 0.336 0.332 0.304 0.292 0.307 0.302 0.286 0.298 0.304 0.325 0.332 0.297 47 0.355 0.315 0.310 0.332 0.307 0.291 0.309 0.301 0.287 0,328 0,303 0.299 0.332 0.351 48 0.350 0.341 0.309 0.330 0.305 0.289 0.307 0.295 0,284 0,330 0.302 0.299 0,322 0.299 49 0.319 0,311 0.308 0.310 0.290 0.288 0,322 0.294 0.289 0.322 0.292 0.300 0.332 0.300 50 0.314 0.309 0,305 0.310 0.290 0.336 0.324 0.294 0.294 0.327 0,323 0.300 0.311 0,345 51 0.319 0.306 0.305 0,310 0.291 0.336 0.320 0.312 0.342 0.306 0.309 0,300 0V.56 0.315 52 0,319 0,305 0.306 0.335 0.308 0.295 0.325 0.317 0.289 0.306 0,298 0,299 0,304 0.310 53 0.320 0,298 0.306 0.312 0.343 0,305 0.329 0.304 0.292 0.301 0.305 0.300 0.353 0U314 54 0.320 0.298 0.283 0.338 0.354 0.291 0.322 0.311 0.307 0.301 0.319 0,301 0.306 0.310 55 0.322 0.297 0.284 0.322 0.305 0.291 0.318 0.302 0.306 0.299 0,305 0.299 0.305 0.343 56 0.320 0.297 0.284 0.346 0.317 0.292 0,311 0.313 0.305 0.295 0.305 0.335 0.351 0.306 57 0.321 0.303 0.279 0.306 0,318 0.293 0.298 0.331 0.339 0.289 0.346 0,351 0.280 0.304 58 0.325 0.305 0.280 0.306 0,320 0.293 0.295 0.307 0,320 0.294 0.337 0.290 0.273 0.305 59 0.324 0.284 0.280 0.354 0,324 0.292 0,334 0.289 0.328 0.295 0,335 0.318 0.270 0.309 60 0.324 0.283 0.279 0,325 0.298 0.289 0.348 0,304 0.303 0.293 0.339 0.313 0.268 0ý311 61 0.323 0.283 0,279 0,326 0,299 0.292 0.317 0.305 0.308 0.345 0.304 0.331 0.270 0.301 62 0.322 0,283 0.279 0.346 0,296 0.291 0,318 0.267 0,309 0.305 0.253 0,319 0,270 0.302 63 0.305 0.281 0.279 0,312 0.295 0.29 1 0.298 0.292 0.311 0.339 0.313 0.341 0.335 0.305 64 0.322 0.283 0.280 0.308 0,289 0.29 2 0,298 0.285 0,310 0.292 0,314.0.319 0.321 0,300 65 0.322 0.330 0.281 0.300 0.290 0.29 0.298 0.284 0.309 0,292 0,313 0.285 0.325 0.291 66 0.325 0.330 0.281 0.303 0.305 0.2922 0.292 0.303 0.309 0.291 0.350 0.285 0.327 0M291

'67 0.326 0.305 0.281 0.300 0.309 0.313 0.339 0.301 0.310 0.290 0.328 0.286 0.325 0.355

Unit: Salem I RFO 20 Date: 04/11/10 T-MIN= 0.278 87.5% Nom. Wall= Nom. Wail = 0.337 ISI ID. AF6T Component ID. _Lo-est Reading 02-52 IjighBst reading .56 Color Code: 0.000 to T-MIN ..'i..*,jI~ý '*T5 Norai W,,jj >87.5% Nora. Wall to Norm. Wall >Nom, Wall A B c 0 E F G H I J K L M N 68 0.326 0.286 0,282 0.300 0.309 0,312 0.317 0302 0308 0.291 0.327 0,287 0.327 0,289 69 0.326 0.290 0,283 0.301 0.289 0.301 0.287 0.300 0,3!1 0.294 0U305 0.285 0.345 0.259 70 0,324 0.288 0.281 0.301 0,294 0.298 0.293 0.300 0.341 0.322 0,304 0.284 0.332 0.289 71 0,325 0.288 0.281 0.304 0.294 0.291 0.291 0.299 0.302 0.350 0.304 0.284 0.329 0.290 72 0.322 0.324 0282 0.300 0.294 0,292 0.289 0.299 0.341 0,322 0.302 0.287 0.322 0,333 73 0.320 0.324 0,282 0.301 0.294 0.291 0.269 0,301 0,321 0.293 0.274 0.286 0.323 0,327 74 0.324 0.292 0.282 0.301 0,296 0.293 0,270 0.302 0.334 0.319 0.275 0.332 0.314 0.355 75 0.293 0.289 0.277 0.340 0.297 0.294 0.270 0.296 0.339 0.320 0.274 0.283 0.312 0.349 76 0.293 0.290 0,278 0.303 0.303 0.294 0.298 0.292 0.305 0.320 0.289 0.282 0.312 0.285 77 0.293 0.299 0.278 0.305 0.306 0.302 0,300 0.300 0.305 0.319 0.270 0.308 0.298 0,286

ýý4 4

Unit-- Salem I RFO 20 Date: 04111/10 T-MIN= 0.278 87.5% Nom. Wall= Nom. Wall = 0.337 ISI ID. AF6B Component ID. Lowest Readin. 0.271 Highest readina 0.382 Color Code: 0.000 to T-MIN >T.MN to 87.5% Norn Wall >87.5%h Nom. W~all to Nom. Wall >Norm. Wall A B C D E F G H I J K L M N 1 0.337 0.337 7 3&2 0.307 0.338 0.319 0.329 0.287 0.299 0293 0,273 0.305 0311 0.306 2 0.334 0.324 0,288 0,294 0.302 0.299 0.334 0,294 0,281 0.293 0,319 0,328 0.311 0.305 3 0.342 0.321 0.301 0.285 0,335 0.298 0.331 0.290 0.330 0.360 0.319 0.336 0.312 0.306 4 0.379 0.321 0.325 0.286 0.329 0.310 0,322 0.290 0.305 0,360 0.319 0.335 0.311 0.345 5 0.333 0.320 0.327 0.291 0.334 0.308 O315 0.296 0.335 0.318 0.321 0.336 0.308 0.3 19 6 0.341 0.324 0.328 0.335 0.333 0.306 0.317 0.290 0.297 0,318 0,321 0,333 0.308 0,317 7 0.314 0,318 0332 0.275 0,332 0 306 0,322 0.299 0,336 0.324 0.325 0.329 0.313 0.320 8 0.303 0.319 0.331 0.343 0,322 0.277 0,321 0.302 0.333 0,298 0.351 0.335 0.311 0.318 9 0.331 0,317 0,333 0.297 0.332 0.278 0.324 0.276 0.331 0.298 0.320 0.337 0.328 0.317 10 0.317 0,322 0.333 0,279 0.303 0.306 0.314 0.328 0.319 0.322 0.321 0,347 0.329 0.316 11 0,332 0.322 0.335 0,280 0.285 0.306 0.310 0.278 0.319 0.327 0.327 0.345 0.340 0,312 12 0,338 0.307 0.328 0.298 0.311 0.276 0.312 0.371 0.329 0,326 0.336 0.342 0.328 0,312 13 0,339 0,308 0.293 0.299 0.299 0.309 0,322 0.276 0.302 0.299 0.338 0,329 0.336 0.320 14 0.291 0.309 0.292 0,329 0.295 0.308 0.322 0.275 0.301 0.281 0.317 0.329 0.323 0,318 15 0.311 0.306 0,290 0304 0,302 0.334 0.327 0,274 0.326 0.290 0.317 0.324 0.371 0.316 16 0.312 0.306 0M290 0,284 0.332 0.336 0.327 0,297 0,325 0.282 0.319 0.347 0.337 0.315 17 0,311 0.324 0,290 0.311 0.308 0.290 0.310 0.321 0.300 0.331 0.322 0.347 0.338 0.314 18 0.308 0.321 0.288 0,303 0.306 0.290 0.323 0.296 0,323 0.305 0.325 0,346 0.338 0,323 19 -0.303 0.322 0.338 0.331 0.303 0.339 0.318 0.274 0,300 0,298 0,328 0.322 0.352 0.333 20 0.302 0,273 0.334 0.282 0.305 0.295 0,327 0,274 0.301 0.317 0.330 0.317 0.354 0.347 21 0.303 0,296 0.306 0,286 0.307 0.301 0.334 0.297 0.301 0.333 0,332 0.319 0.336 0.329 22 0.303 0.294 0.301 0.286 0.308 0.309 0,312 0.321 0,324 0.336 0,332 0.319 0,333 0,319 23 0,311 0.295 0.300 0.307 0.306 0,322 0.321 0,296 0.305 0.336 0,334 0U319 0.351 0331 24 0.301 0,308 0.275 0,331 0.308 0.328 0.322 0.297 0,305 0.338 0,331 0.319 0,349 0,326 25 0,316 0,305 0.274 0.285 0.305 0.209 0.325 0.277 0.317 0.340 0.332 0.294 0.349 0,328 26 0.302 0.306 0.274 0.330 0.308 0.336 0,335 0.303 0,316 0.300 0,331 0.320 0.325 0.348 27 0.310 0.307 0.299 0.307 0.292 0.290 0.329 0.307 0,319 0.302 0,331 0.319 0.339 0.348 28 0.312 0.312 0.274 0.307 0.272 0.288 0.331 0,309 0.299.0,305 0.297 0.294 0.333 0.328 29 0.307 0.314 0.280 0.288 0,274 0.315 0.324 0.311 0.298 -0.299 0.323 0,323 0.326 0.330 30 0.312 0,314 0.283 0.288 0.303 0.312 0.330 0.310 0.302 0.304 0.326 0.323 0.331 0.329 31 0.335 0.338 0,310 0.287 0.305 0.339 0.329 0.308 0,308 0.301 0.329 0.328 0.332 0.331 32 0,306 0.325 0,311 0,291 0.311 0.339 0.332 0,283 0.315 0.312 0,336 0.326 0.342 0,330 33 0.335 0.323 0.317 0.296 0.314 0.319 0.330 0.315 0,316 0,317 0.331 0.357 0.301 0.326 34 0.311 0,321 0.296 0.331 0.316 0.299 0.322 0.326 0.312 0.320 0.334 0.356 0.302 0.334 35 0.335 0,323 0.324 0.302 0.319 0.346 0.330 0.302 0.309 0.330 0.338 0,351 0.299 0.332 36 0,312 0,324 0,323 0.297 0.320 0.309 01271 0.273 0.308 0.316 0.332 0.312 0.298 0.336 37 0.310 0.326 0.322 0.323 0.323 0.305 0.272 0.356 0.309 0.345 0.306 0.293 0.318 0.328 38 0.311 0.339 0.322 0,299 0.327 0.309 0.308 0.359 0.324 0.308 0.329 0.294 0.299 0.326 39 0.307 0333 0.319 0.321 0.327 0,336 0323 0.336 0,315 0.335 0,327 0,294 0.297 0.329 40 0,308 0.339 0292 0.322 0.328 0.335 0.310 0.291 0.322 0,339 0.329 0.334 0.298 0.329 41 0.308 0.281 0.294 0,329 0.330 0.305 0.310 0.331 0.339 0,317 0.327 0.335 0.321 0.329 42 0.306 0.293 0.292 0.363 0.333 0.335 0.315 0.293 0.334 0.327 0.334 0.297 0.322 0.305 43 0,332 0.330 0.290 0.337 0.317 0.327 0.322 0.317 0.331 0.327 0.329 0.314 0.319 0.305 44 0.328 0.329 0.298 0.336 0.289 0.327 0.324 0.318 0.335 0.330 0.331 0.313 0.316 0.305 45 0.328 0.330 0.308 0.327 0.290. 0.308 0,327 0.317 0.331 0.333 0.335 0.313 0.318 0.306 46 0.334 0.319 0.302 0.293 0.289 0.311 0,325 0.293 0.336 0.317 0.340 0.297 0.317 0.306 47 0.328 0.299 0.304 0,292 0.288 0.286 0,330 0.290 0.321 0.279 0.339 0.297 0.315 0.355 48 0.355 0.296 0.300 0.296 0.290 0.312 0.332 0:298 0,318 0.323 0.342 0.357 0.315 0.330 49 0.346 0.296 0.296 0,296 0.290 0.311 0.325 0.316 0,316 0.332 0.333 0.334 0.316 0.331 50 0.329 0.302 0.272 0.311 0.295 0.336 0.318 0.308 0.317 0.330 0.333 0.326 0.323 0.324 51 0,278 0.298 0.296 0.309 0.295 0.336 0.316 0.326 0.315 0.323 0.332 0,325 0.320 0.326 52 0.358 0.304 0.332 0.293 0.294 0.334 0.318 0.325 0.311 0,293 0.331 0.351 0,350 0.346 53 0.331 0.329 0.334 0.309 0.297 0.333 0,319 0.325 0.318 0.326 0.332 0,350 0,330 0.331 54 0,330 0.276 0.294 0.325 0315 0.329 0.328 0,277 0.324 0.305 0.337 0.325 0.353 0,335 55 0.328 0324 0,295 0.286 0,290 0.331 0.311 0.299 0,333 0.325 0,308 0.325 0.352 0.307 56 0.328 0.335 0.297 0.286 0.289 0,327 0.311 0,279 0,329 0,322 0.307 0.327 0.347 0.309 57 0.336 0.327 0,298 0.330 0.315 0.330 0.309 0.298 0.330 0.326 0,311 0.344 0.336 0,299 58 0.294- 0.328 0,344 0,326 0.290 0.336 0.311 0.285 0.328 0.325 0.315 0.338 0.326 0.288 59 0,293 0.320 0,290 0.330 0.290 0.342 0.326 0.285 0.333 0.329 0,311 0.305 0.321 0.320 60 0.329 0.325 0.299 0.332 0.290 0,330 0.272 0.284 0.333 0,330 0,340 0,308 0.302 0.322 61 0.301 0,322 0.323 0.284 0,314 0.320 0325 0.284 0,365 0323 0.307 0U310 0.303 0.336 62 0,301 02318 0.323 0.330 0.287 0.318 0,312 0.309 0.341 0.359 0,340 0.306 0,345 0.335 63 0.299 0.321 0.300 0.336 0.296 0.321 0.315 0.308 0,340 0,323 0,308 0.304 0*306 0.316 64 0.293 0.322 0.298 0.329 0.297 0.321 0,325 0.308 0.338 0.284 0,309 0.307 0.325 0,316 65 0.340 0.275 0.297 0.326 0.304 0.320 0.329 0.308 0.332 0.299 0.305 0.313 0.321 0,315 66 0.304 0.326 0.326 0.335 0.303 0.319 0.315 0.334 0.336 0.316 0.302 0.313 0,318 0,317 67 0.332 0.324 0.300 0.332 0.303 0.319 0.309 0,318 0.335 0.289 0.337 0,312 0.317 0.324

\cA\4 4

Unit: Salem 1 RFO 20 Date: 04m11/10 T-MIN= 0.278 87.5% Nom. Wall= Nom. Wall = 0.337 IS! ID. AF6B Component ID. .LowestReadngL 0.271 Highest reading 0,382 Color Code: 0.000 to T-MIN >T4-AAM to~ P7-';i' Norn Wall >87.5% Nom. Wall to Nom. Wall >Nom. Wall A B C D E F G H I J K L M N 68 0.324 0.322 0.298 0.311 0.302 0.327 0.326 0.296 0.335 0.309 0.338 0,313 0.317 0.349 69 0.321 0.323 0.298 0.314 0.281 0.322 0.338 0.318 0.316 0.328 0.341 0,316 0.293 0.326 70 0.326 0.319 0,274 0.307 0.280 0.328 0.324 0.320 0.273 0.329 0.321 0,328 0.298 0.325 71 0334 0.320 0.323 0.275 0,296 0.325 0,329 0.277 0.318 0,314 0.342 0,330 0.300 0.356 72 0.325 0,322 0.300 0.289 0.302 0.319 0,328 0.317 0.289 0,314 0321 0,335 0.301 0,340 73 0,329 0279 3,272 0.290 0.323 0.317 0,345 0.317 0.305 0,291 0322 0,333 0,309 0.321 74 0323 0.348 0,323 0.335 0.341 0.321 0,330 0,320 0343 0.317 0.325 0.334 0.3!4 0,294 75 0.327 0272 0,324 0.338 0.342 0,328 0.337 0.311 0,296 0.317 0.321 0.332 0.309 0298 76 0.327 0.368 0311 0.332 0.296 0.328 0.332 0.288 0,296 0.320 0,299 0.332 0.307 0.300 77 0,330 0,279 0.309 0.331 0.315 0.317 0,305 0,293 0,271 0.339 0,299 0,308 0.313 0.301 78 0.317 0,290 0.279 0.272 0,314 0.318 0.284 0.297 0,298 0.281 0.301 0,310 0.312 0298 79 0.321 0.289 0,300 0.294 0.312 0.311 0.283 0.290 0.299 0,339 0.306 0,310 0.317 0.299 80 0.318 0.287 0.306 0.335 0.318 0.325 0.335 0.299 0.293 0.305 02305 0.308 0.317 0.320

?1i() 1ý +ý

Unit: Salem I RFO 20 Date: 04/11110 T-MIN= 0.278 87.5% Nom. Wall= Nom. Wall - 0.337 SIID_. AF7T Component ID. Lowest Reading 0,271 Highest reading, 0.376 Color Code: 0.000 to T-MIN N,, to V-7.5% Hitn Wall >87.5% Nom, Wall to Nom. Wall >Nom. Wall A B C D E F G H I J K L M N 1 0.217 0.298 0,315 0.300 0320 0.315 0.311 0.329 0,314 0.337 0.328 0.302 0,313 0.312 2 0,299 0.287 0,294 0336 0.305 0.311 0.318 0.332 0,313 0,311 0.334 0.337 0,319 0.321 3 0.318 0.288 0298 0.288 0.319 0,317 0326 0,326 0.329 0.317 0.313 0.312 0.306 0.290 4 0.304 0.287 0.295 0.293 0,282 0,308 0.329 0.329 0.336 0.294 0.312 0.299 0.294 0,328 5 0.285 0.278 0.311 0.285 0.307 0,335 0.343 0.339 0.320 0.301 0.317 0.306 0.302 0.291 6 0.310 0.323 0.287 0.320 0,328 0310 0.333 0.338 0.328 0.285 0.302 0.307 0.299 0.295 7 0.307 0.315 0.290 0.327 0.319 0.287 0.279 0.333 0.324 0.284 0,331 0.313 0.313 0,323 B 0.305 0.303 0.325 0.326 0.340 0.338 0.326 0.325 0.326 0.288 0.339 0.304 0.314 0.314 9 0.357 0.320 0.317 0.325 0337 0.282 0.312 0.322 0322 0.278 0.329 0.308 0.297 0.281 10 0.295 0.287 0.305 0,335 0.299 0.335 0,309 0.322 0.329 0.282 0.308 0,308 0,299 0.314 11 0.300 0.303 0.279 0.334 0,298 0.294 0.331 0.300 0.313 0.274 0.335 0.305 0.293 0.290 12 0.291 0.290 0.286 0,294 0.318 0.300 0,300 0.302 0.306 0.304 0.302 0.320 0.295 0.299 13 0.322 0,334 0.290 0,293 0.329 0.295 0.297 0.292 0.308 0.307 0.334 0.306 0.299 0,279 14 0.287 0.286 0.337 0.283 0.355 0.299 0,277 0.317 0.310 0,302 0.294 0.301 0.308 0.281 15 0.2?2 0.317 0.313 0.312 0.325 0.306 0.325 0.337 0.306 0.281 0,292 0.294 0.312 0.279 16 0.278 0.318 0,320 0.292 0.290 0.306 0.319 0.310 0.322 0.312 0.284 0.323 0.321 0.333 17 0.285 0.347 0.325 0.279 0.291 0.299 0.322 0.339 0.336 0.318 0.304 0.293 0.317 0.299 18 0.290 0.346 0.346 0.298 0.327 0.294 0.293 0.325 0,311 0312 0.274 0.290 0.294 0.288 19 0.292 0.311 0.282 0.337 3.280 0.290 0.303 0.320 0.314 0.304 0.318 0.275 0.333 0,305 20 0.3Z3 0.299 0.303 0.324 0.277 0.289 0.364 0.312 0.308 0.303 0.312 0.290 0.333 0.307 21 0.2/6 0.307 0,322 0300 0,320 0,337 0.334 0.314 0.307 0.291 0.283 0.297 0.278 0.335 22 0.3P7 0.336 0.302 0,301 0.318 0.305 0.337 0.325 0.333 0.304 0.303 0.299 0.310 0.325 23 0.326 0.303 0.301 0.303 0.283 0.295 0,338 0.320 0.320 0.292 0.297 0.293 0.290 0.334 24 0.299 0,290 0.277 0.339 0.274 0,34" 0.349 0.319 0.333 0.284 0.298 0.293 0.311 0.325 25 0.301 0,293 0.336 0 282 0.320 0.320 0,325 0.315 0.325 0282 0.304 0.321 0.305 0,291 26 0,297 0.326 0.288 0,319 0.300 0.339 0.331 0.332 0.318 0.310 0.293 0.311 0.329 0.334 27 0.300 0.299 0.309 0.323 0,293 0,332 0.325 0.307 0.328 0,313 0.308 0.315 0.325 0.309 28 0.304 0,301 0.288 0.322 0.334 0.308 0.315 0.327 0.339 0.315 0.312 0.325 0.305 0.298 29 0 334 0.320 0.278 0.334 0.352 0.297 0.303 0.294 0.331 0.336 0.279 0.317 0.322 0.278 30 0.327 0.311 0.275 0.284 0.303 0.306 0.305 0.278 0.332 0.304 0.331 0.308 0.321 0.325 31 0.327 0.307 0.315 0.321 0.299 0.312 0.294 0.273 0.330 0.305 0.293 0.315 0.282 0.323 32 0.295 0.306 0.317 0.318 0.303 0.282 0.337 0.315 0.337 0.320 0.288 0.330 0.298 0.332 33 0.294 0.297 0.295 0.309 0,318 0.320 0.335 0.319 0.329 0.313 0.326 0.308 0.301 0.339 34 0,312 0.356 0,295 0.320 0.334 0.322 0.331 0.333 0.324 0.285 0,307 0.319 0.306 0,333 35 0.314 0,298 0.296 0.316 0.305 0.314 0.295 0.312 0.326 0.276 0.307 0.302 0.293 0.282 36 0.321 0.304 0.277 0.308 0.307 0.315 0.299 0.305 0.337 0.274 0.290 0.317 0.318 0.334 37 0.313 0.323 0279 0.318 0.314 0.328 0.336 0.303 0,344 0.275 0,294 0.317 0.322 0.293 38 0.344 01299 0.288 0314 0.303 0.330 0,336 0.313 0.322 0,284 0.305 0.303 0.289 0.308 39 0.308 0.287 0.299 0.308 0.307 0.318 0.315 0,315 0,328 0.273 0.314 0.294 0.294 0.315 40 0.282 0.289 0,297 0.291 0.323 0.328 0.338 0,323 0.287 0.273 0.311 0.319 0,297 0.318 41 0.283 0.291 0.299 0309 0,310 0321 0.374 0,315 0.310 0.319 0.314 0.299 0.311 0,310 42 0.294 0.296 0.337 0.352 0.317 0.298 0.328 0.323 0.313 0.321 0.291 0.324 0.314 0.305 43 0.334 0.338 0 295 0.313 0.309 0.305 0.327 0.302 0.325 0.324 0.304 0.320 0,318 0.272 44 0.286 0.315 0.303 0.307 0.315 0.303 0.331 0.297 0.338 0.298 0.316 0,324 0.306 0.306 45 0.311 0.312 0,315 0,321 0.326 0.306 0.320 0.314 0,325 0.292 0.294 0.324 0,294 0,306 46 0.313 0.311 0.311 0.308 0.292 0,315 0.283 0.323 0,327 0.298 0.283 0.301 0,297 0.330 47 0.334 0.337 0.325 0.305 0,338 0.316 0.291 0.299 0.323 0.276 0.293 0.318 0.282 0.312 48 0.313 0.310 0,307 0,311 0.341 0.334 0.322 0.290 0.339 0.287 0.297 0.285 0,281 0.305 49 0.314 0.335 0.3122 0.298 0.337 0.300 0.332 0.293 0.342 0.304 0.276 0.302 0,274 0.305 50 0.284 0.324 0.304 0.299 0,317 0.286 0.320 0.308 0.333 0,328 0.318 0.302 0.300 0.323 51 0.314 0.326 0.3388 0.309 0.311 0,321 0.327 0.329 0.280 0,336 0.301 0.312 0.273 0.320 52 0.338 0.298 0.33'4 0.301 0,305 0.284 0.327 0.333 0.311 0.274 0.285 0.315 0.271 0.299 53 0.293 0.330 0.33:2 0.309 0.339 0.329 0.330 0.297 0.319 0.302 0.310 0.306 0.289 0.297 54 0.344 0.333 0.31 7 0.301 0.336 0.280 0.323 0,320 0.310 0.275 0.301 0.323 0.284 0.330 55 0.342 0.329 0.29.4 0.307 0,302 0.294 0.292 0.321 0.319 0.280 0.294 0.290 0.303 0.292 56 0.307 0.279 0,31 5 0.296 0.309 0.353 0.279 0,344 0.326 0.293 0.283 0.292 0.310 0.331 57 0,349 0.322 0.27 9 0.330 0313 0.304 0.291 0,315 0.333 0,274 0.294 0.305 0.291 0,318 583 0,334 0.285 0.33 3 0.315 0.331 0306 0.315 0.328 0.307 0.282 0.299 0.314 0.282 0.320 599 0.304 0.317 0.29 1 0.323 0.338 0.299 0.299 0.312 0.335 0.299 0.311 0.303 0.287 0.293 640 0.312 0,318 0.32 2 0.315 0.338 0.299 0.287 0.314 0.322 0.275 0.311 0.319 0,316 0.331 6 1 0,313 0.313 0.31 9 0,328 0.313 0.325 0.274 0.337 0.328 0.303 0.318 0.280 0.318 0.321 6 2 0316 0.315 0.29 4 0.313 0,304 0.332 0.290 0.300 0.291 0.315 0.307 0.282 0.295 0.320 63 0317 0.323 0.30 3 0,318 0.300 0.358 0,294 0.321 0.312 0.314 0.324 0.292 0.305 0.321 64 0,325 0.358 0.29 6 0.298 0.302 0.341 0,291 0.311 0.317 0.332 0.325 0,286 0.312 0.290 6 5 0,323 0.322 0.29 5 0.309 0.334 0.328 0,335 0.291 0.293 0,323 0,298 0,346 0.315 0.290 6 6 0.313 0.313 0.30 2 0.311 0.343 0.337 0.340 0.316 0.328 0.313 0.287 0.328 0.302 0,285 6 7 0,340 0.316 0.32 8 0.307 0.326 0.346 0.329 0.315 0,322 0.316 0.289 0.285 0,316 0.302 Qa\ V4-

Unit: Salem 1 RFO 20 Date: 04/11/10 T-MIN= 0.278 87.5% Nom. Wall= Nom. Wall = 0,337 ISI ID. AF7T Component ID. Lgwest Reading 0.271 Highest reading 0,376 Color Code: 0.000 to T-MIN tt8751%N'frn WNill vIAI >87,5% Nom. Wall to Nom. Wall >Nora. Wall A B C D E F -G H I J K L M N 68 0.315 0.310 0.289 0.317 0.331 0.309 0.338 0.319 0.309 0.318 0.278 0.325 0.315 0.293 69 0.319 0.308 0.309 0.311 0.313 0.328 0.327 0.322 D.299 0.326 0,331 0.308 0.306 0.275 70 0.324 0.318 0.337 0,290 D0.314 0.342 0.337 0.304 0.315 0.319 0.299 0.266 0,301 0.307 71 0.328 0.306 0.303 0.321 0.287 0.322 0.333 0.337 0,321 0.316 0.298 0.338 0.320 0.329 72 0.326 0.302 0,298 0.306 0.307 0.327 0.353 0.338 0.304 0.325 0,321 0.306 0,295 0.325 73 0.329 0.289 0.301 0.30"1 0,319 0.323 0.305 0,339 0.324 0.320 0.276 0.301 0,312 0.335 74 0,330 0.307 0.306 0.307 0,322 C 375 0,321 0.336 0ý321 0.323 0.306 0.317 0.279 0.333 75 0.325 0,315 0.307 0.313 0.31B 0.329 0.301 0.316 0.313 0.324 0.323 0,318 0.295 0.307

.4 Unit: Salem 1 RFO 20 Date: 04111/10 T-MIN= 0.278 87.5% Nora. Wall= Nom. Wall = 0,337 ISI ID. AF7B Component ID. Ra~ing~22Q .HiqbeSt reading o1a-Color Code: 0.000 to T-MIN :v.M.'iNl ft'i aM7f%Non,. WMA >87.5% Nom. Wall to Norm, Wall >Nom. Wall A B C D E F G H I J K L M N 1 0.292 0.318 0.317 .310 0.311 0,315 0.324 0.323 0.313 0.331 0.306 0,301 0.280 0.330 2 0,295 0.307 0.315 .308 0,326 0,328 0,324 0,322 0.334 0.287 0.287 0,323 0.285 0.299 3 0,333 0.333 0319 .307 0,306 0.328 0.310 0.323 0.327 0.323 0.292 0,322 0.2E7 0.286 4 0.316 0.280 0.289 0.303 0,310 0.327 0.302 0.303 0,327 0.325 0.307 0.292 0.287 0.291 5 0.296 0.311 0.292 0.303 0,313 0.300 0.298 0.301 0.331 0.266 0.322 0,301 0.287 0,298 6 0.299 0.311 0.329 0.302 0.324 0.300 0.296 0.308 0.303 0.290 0.326 0,299 0.290 0.301 7 0.314 0.340 0,285 0.301 0.299 0.301 0.294 0.304 0.306 0.293 0,325 0.289 0.282 0.310 8 0.312 0.343 0.318 0.301 0.332 0.301 0.308 0.308 0,326 0.325 0.311 0.287 0.272 0.290 9 0,293 0.338 0.311 0.319 0,330 0.293 0.322 0.308 0.326 0.328 0.310 0,285 0.291 0.295 10 0,334 0.283 0.309 0.297 0,300 0.284 0,325 0,327 0.329 0.331 0.292 0.293 0,285 0.302 II 0.299 0.296 0.308 0298 0.320 0.335 0.300 0.328 0,302 0.330 0,296 0.302 0.288 0.321 12 0.285 0.275 0.307 0.282 0.319 0.309 0,294 0.328 0.314 0.288 0.277 0.310 0.292 0.289 13 0.343 0.299 0.312 0.279 0.313 0.301 0.294 0.326 0.288 0.301 0,335 0.324 0.270 0.295 14 0.280 0.286 0.316 0,308 0.311 0.300 0.294 0.319 0.310 0,305 0.309 0.317 0.287 0.299 15 0.289 0.313 0.327 0.296 0.280 0,299 0,307 0.315 0.336 0.291 0.335 0.305 0.289 0.311 16 0.290 0.312 0.318 0.297 0,284 0.298 0.333 0.318 0.297 0324 0.285 0.299 0.292 0300 17 0.300 0.299 0.321 0.328 0.285 0.325 0.333 0.320 0,287 0.303 0.282 0.293 0.327 0.296 18 0.326 0.320. 0,319 0302 0.285 0299 0.337 0.338 0.286 0,307 0,277 0.288 0.330 0.295 19 0.327 0.311 0.323 0,329 0.286 0.282 0.300 0,327.0.284 0.291 0.288 0.282 0.292 0.300 20 0.313 0.317 0.325 0:341 0,282 0.296 0.328 0.319 0.283 0.289 0,286 0.303 0.293 0,302 21 0.312 0.290 0,327 0.336 0.313 0.299 0.329 0.289 0.282 0.345 0,282 0.275 0.275 0.289 22 0.315 0.307 0.325 0.309 0.285 0.281 0.326 0.321 0.288 0.298 0.277 0.282 0.292 0.307 23 0.309 0.317 0.324 0.272 0.313 0,283 0.296 0.278 0.293 0,324 0.320 0.292 0.301 0.311 24 0,309 0.319 0,317 0.276 0.287 0.283 0.294 0.304 0.301 0.336 0.281 0.272 0.295 0.303 25 0.309 0.320 0.316 0.271 0.286 0.323 0.331 0.338 0.292 0.327 0.278 0.290 0,294 0.311 26 0.306 0.324 0.309 0.307 0.284 0,313 0.293 0.309 0.292 0.329 0.297 0,293 0.293 0.326 27 0.313 0.309 0.315 0.307 0.311 0.297 0.294 0.303 0.303 0.337 0.306 0.279 0.292 0.312 28 0.313 0.321 0,314 0.319 0.283 0.298 0,294 0.307 0.331 0.305 0.311 0.297 0.297 0.324 29 0.304 0.322 0.333 0.314 0.292 0.285 0.330 0.302 0.272 0.306 0.312 0.322 0.305 0.312 30 0.305 0.321 0.313 0.318 0.296 0.309 0.329 0.301 0.327 0.292 0.310 0.337 0.291 0.330 31 0.306 0.319 0:295 0.317 0.296 0.294 0.294 0.311 0.293 0.338 0.316 0.300 0.296 0.282 32 0.325 0.324 0.301 0.316 0.283 0.301 0.299 0.313 0.303 0.293 0.314 0.304 0.299 0.313 33 0.278 0.300 0.316 0.316 0.285 0.298 0.290 0.305 0.282 0,284 0.322 0.301 0,272 0.270 34 0.283 0.281 0,293 0.327 0.287 0.299 0.294 0.300 0.280 0,292 0,286 0.280 0.295 0.280 35 0.292 0.283 0.307 0,324 0.331 0.299 0,337 0,321 0.280 0.296 0.280 0.287 0.304 0.274 36 0315 0,285 0.308 0.323 0.311 0U326 0,312 0.294 0.312 0.298 0.276 0.304 0.290 0.263 37 0.313 0.289 0.328 0.282 0.332 0,309 0.292 0.319 0.312 0.277 0.296 0.327 0.291 0.280 38 0.289 0,307 0.287 0.283 0.331 0.316 0.332 0.309 0.289 0.281 0,307 0,307 0.290 0,274 39 0,334 0.337 0.305 0.287 0.304 0.307 0337 0.301 0.288 0.281 0.286 0.311 0.293 0.284 40 0.290 0.337 0.314 0.296 0,331 0.320 0.310 0.330 0.282 0.312 0.280 0.286 0.296 0.300 41 0.293 0.304 0.303 0.336 0,279 0.316 0.336 0.303 0.280 0.277 0.290 0.305 0.295 0.302 42 0.294 0.302 0.272 0.318 0.304 0.303 0 316 0.271 0.284 0.283 0.306 0.309 0,299 0.303 43 0.292 0,306 0.314 0,287 0,305 0,306 0.315 0279 0,283 0.287 0,282 0.310 0.303 0.286 44 0.292 0,298 0.276 0311 0.325 0.311 0.314 0.281 0.285 0.285 0.289 0.282 0.299 0,272 45 0.290 0290 0,282 0318 0.339 0,314 0.313 0.282 0.284 0.276 0.327 0.279 0.297 0.299 46 0.301 0.292 0,275 0.293 0,294 0.304 0.317 0.271 0.288 0.284 0,333 0.277 0.314 0.284 47 0.309 0.274 0.276 0.294 0.300 0.310 0.314 0.321 0.283 0.277 0.284 0.307 0.318 0.272 48 0.34U 0.280 0.281 0.302 0.336 0.335 0.289 0.323 0.279 0.285 0.287 0.281 0,281 0.294 49 0.301 0.289 0.283 0.331 0.331 0.306 0.299 0.330 0.281 0.290 0.293 0.307 0.299 0.287 50 0.304 0.290 0.287 0.307 0.331 0.304 0299 0,304 0.291 0.315 0.297 0.307 0.318 0,282 51 0,278 0.296 0.278 0.310 0.326 0,304 0.296 0.307 0.286 0.282 0.308 0.278 0,315 0.287 52 0,296 0.322 0.279 0.339 0U333 0.309 0.298 0.322 0.287 0.278 0.285 0.306 0.294 0.272 53 0.302 0.294 0.281 0.302 0.308 0.311 0.307 0,331 0.302 0.287 0.298 0.276 0.316 0,276 54 0.305 0.272 0.282 0.300 0.308 0.313 0.295 0.305 0.319 0.303 0.285 0.279 0.316 0.287 55 0,288 0.283 0.283 0.274 0.326 0.310 0.299 0.307 0.325 0.290 0.299 0:303 0,304 0.278 56 0.307 0.290 0.311 0.273 0.318 0.312 0.307 0.323 0.309 0.300 0.301 0.295 0.297 0.281 57 0.315 0.280 0.326 0.273 0.335 0.303 0.307 0.326 0.319 0.288 0.297 0.289 0.291 0.282 58 0.317 0.307 0,320 0.282 0.334 0.315 0.315 0.330 0.298 0,285 0.303 0.274 0.320 0.287 59 0.316 0,302 0.307 0.276 0.297 0,299 0.288 0.322 0.311 0,308 0.310 0,306 0.327 0.287 60 0,317 0.272 0.308 0.31) 0.300 0.301 0.293 0.321 0.283 0.307 0.312 0,277 0.298 0.283 61 0.314 0.312 0.302 0.320 0,297 0.307 0.331 0.321 0299 0.286 0.308 0.282 0.302 0.273 62 0,316 0.313 0.308 0.318 0.309 0.296 0,330 0.307 0.279 0,296 0.301 0.293 0.334 0.300 63 0.319 0.299 0.290 0.313 0.308 0.295 0.295 0,310 0.297 0.313 0.300 0.292 0.328 0.292 64 0.331 0,274 0.275 0,306 0.303 0.335 0.323 0.310 0.321 0.284 0.305 0.296 0.319 0.281 65 0.333 0.323 0.273 0.306 0.311 0.345 0.321 0.308 0.321 0.298 0.301 0.304 0.314 0.297 66 0.317 0.325 0.286 0.311 0.312 0,340 0.318 0.309 0.287 0.310 0.298 0.304 0.301 0.290 67 0,302 0.324 0.308 0.313 0.321 0.297 0.313 0.315 0.292 0.288 0.297 0.314 0.295 0,305

Unit: Salem 1 RFO 20 Date: 04111110 T-MIN= 0.278 87.5% Nom. Wall= Noram. Wall = 0.337 ISI ID. AF78 Component ID. Lowest Reading 0.270 Hiqjhe-st-readIn-g 0 348 Color Code: 0.000 to T-MIN -T-l10111` to 7.-) Namr 104,0 >87.5% Noa. Wall to Nora. Wall >Noam. Wall A B C D E F G H 1 J K L M N 68 0.334 0.300 0.310 0.317 0.310 0.293 0,309 0.314 0.314 0.298 0,296 0.306 0.276 0.305 69 0.306 0,276 0.284 0.309 0.278 0.299 0.307 0.322 0.330 0,303 0.296 0.297 0.302 0.321 70 0,307 0.300 0.311 0.309 0.334 0,305 0.307 0.323 0.333 0.302 0.339 0,296 0.334 0.306 71 0.331 0,327 0,313 0.310 0.272 0,293 0,333 0.330 0.331 0.311 0.296 0.303 0.307 0.318 72 0.341 0.311 0.314 0.295 0.340 0.322 0,328 0.333 0.330 0,329 0.318 0.278 0.308 0.287 73 0.318 0,322 0.295 0,299 0.312 0,320 0.331 0.321 0.267 0.347 0,315 0.282 0,292 0.304 74 0,343 0.319 0.298 0.300 0.314 0.318 0,328 0.323 0,299 0.321 0.285 0.271 0.297 0.283

Unit:__ Salem 1 RFO 20 Date:" 04111110 T-MIN= 0.278 87.5% Nom. Wall= Nom. Wall= 0.337 ISI ID. AF8T Component ID. .owest Reading 0.240 Highest reading 0.356 Color Code: 0,000 to T.MIN >1-,,IN to 87.5% No r! Wll >87.5% Nom. Wall to Nom. Wall >Nom. Wall A B C 0 E F G H I J K L M N 1 0.322 0 327 0,295 0.282 0.298 0.285 0.353 0.291 0338 0.325 0.267 0.303 0.299 0.289 2 0.333 0.330 0.286 0,281 0.298 0,283 0.354 0.298 0,340 0,324 0.250 0.264 0301 0,288 3 0.298 0.322 0.290 0,289 0.299 0.293 0.350 0,274 0.289 0.289 0.298 0.311 0.296 0.287 4 0.304 0.320 0.306 0,280 0,3158 0,272 0.322 0,283 0,305 0,289 0.305 0.290 0.296 0.286 5 0,331 0.318 0.308 0.269 0,318 0.296 0.321 0.296 0.324 0.295 0.302 0,290 0.303 0.282 6 0.315 01318 0.290 0.297 0.269 0,282 0.317 0.298 0.298 0.292 0.311 0.289 0.300 0.282 7 0.295 0.325 0.290 0,268 0.270 0.305 0.314 0.297 0.286 0.299 0.310 0.289 0.296 0.286 8 0.297 0.328 0.289 '0.268 0.270 0.289 0.317 0.275 0.262 0.288 0.350 0.289 0.297 0.287 9 0.312 0,344 0.292 0.273 0.298 0.292 0,314 0.277 0.282 0,300 0.344 0.311 0.297 0.289 10 0.297 0.333 0,292 0.328 0.288 0.263 0.328 0.251 0.296 0.315 0.344 0.319 0.301 0.269

~11 0,335 0.322 0.294 0.333 0.285 0.262 0.333 0,284 0.308 0,276 0.295 0.318 0.303 0.272 12 0.282 0.290 0.291 0.277 0.285 0.276 0.330 0,264 0.289 0,261 0.298 0.305 0.319 0.274 13 0,282 0.304 0,306 0.274 0.274 0.269 0.325 0.295 0,300 0,276 0.283 0.312 0,306 0.277 14 0267 0.262 0.305 0.276 0,276 0.244 0.328 0.298 0.299 0.308 0.289 0.309 0.321 0,282 Is 0.272 0.311 0.299 0.277 0.281 0,252 0.283 0.265 0.288 0.281 0.304 0.341 0.291 0.332 16 0.296 0315 0297 0.298 0.277 0.263 0,319 0.268 0.308 0.283 0.306 0.298 0,303 0,341 17 0,292 0.309 0,306 0.298 0.279 0.263 0.313 0.271 0.308 0.279 0.278 0.289 0.276 0.336 18 0.287 0.311 0329 0.285 0.293 0.279 0.330 0.272 D.312 0,310 0.349 0.287 0,297 0,335 19 0.298 0.304 0.277 0.290 0.298 0,302 01321 0.267 0.313 0.302 0.298 0.295 0.297 0.287 20 0,298 0.308 0.286 0.310 0.286 0.303 0.325 0.280 0.246 0,293 0.336 0,319 0.280 0.323 21 0,314 0.319 0,300 0.283 0.285 0.251 0.322 0.298 0,337 0.292 0.336 0.303 0.289 0,298 22 0.336 0.328 0,321 0.270 0.287 0,260 0.315 0.294 0.337 0.288 0.302 0.303 0.280 0.283 23 0.313 0.335 0.325 0277 0.290 0.278 0.312 0.291 0.308 0.281 0.298 0.312 0.288 0.283 24 0.299 0.330 0.313 0.298 0.282 0.262 0.332 0.290 0.306 0.314 0.265 0.306 0.279 0.335 25 0,327 0.317 0,316 0.298 0.298 0.257 0.307 0.288 0.335 0.302 0.31.6 0,301 0.298 0.295 26 0,299 0.332 0.321 0.292 0.288 0,258 0.298 0.314 0.335 0.297 0.314 0.334 0.313 0.270 27 0.297 0.298 0.286 0.292 0,288 0.290 0.305 0.322 0,292 0.302 0.296 0,334 0.313 0.267 28 0.296 0.303 0.296 0.279 0,296 0.286 0,278 0.292 0,290 0.314 0.297 0.310 0.273 0.267 29 0.342 0,322 0.295 0.281 0.283 0.290 0.261 0.268 0.308 0.329 0.298 0.278 0.274 0.296 30 0.336 0.318 0.311 0.280 0,283 0.311 0,289 0.292 0.290 0.274 0.296 0.278 0.269 0,332 31 0.283 0.348 0.319 0.300 0299 0,319 0.270 0.294 0.296 0.242 0.297 0.260 0.288 0.293 32 0.298 0.320 0.326 0,300 0.269 0,298 0.270 0.314 0,290 0.269 0.299 0.276 0.280 0,267 33 0.281 0321 0.298 0,302 0.283 0.262 0.319 0,288 0.321 0,268 0,319 0,277 0,285 0,267 34 0.274 0.320 0,288 0,305 0.298 0.284 0.314 0.297 0 311 0.279 0.306 0.279 0.287 0.293 35 0.290 0,321 0.297 0.286 0 287 0,266 0.310 0.286 0.309 0.279 0.342 0.279 0.280 0,289 36 0.353 0.321 0.323 0,333 G1.289 0.254 0,309 0.289 0.310 0.280 0,304 0.289 0.308 0,299 37 0.354 0.318 0.324 0.335 0.288 0.265 0.289 0,309 0.310 0.280 0.295 0.279 0,341 0.299 38 0.345 0.318 0.346 0.333 0.282 0.258 0.289 0.315 0.312 0.279 0,268 0.284 0.266 0,341 39 0.333 0.320 0.346 0.333 0.292 0.293 0.287 0.298 0,311 0.280 0.299 0.284 0,314 0,336 40 0.331 0.321 0.346 0.308 0.302 0.297 0.289 0.315 0 315 0.291 0.297 0.285 0.316 0.338 41 0.331 0.319 0.345 0.290 0.272 0,267 0.279 0.301 0.318 0.278 0.263 0.262 0.287 0.305 42 0.338 0.322 0.310 0.288 0.286 0.305 0.279 0.273 0.318 0.277 0.287 0.336 0.297 0.279 43 0.337 0,323 0.311 0.288 0,258 0.273 0.296 01273 0M317 0.274 0.281 0,322 0,289 0,277 44 0.334 0.322 0.292 0,287 0.298 0,309 0.293 0.274 0,315 0.282 0.306 0.323 0.314 0.275 45 0,329 0.323 0.291 0.287 0.306 0,249 0.316 0.275 0.316 0.279 0.323 0.298 0.313 0.275 46 0,289 0.322 0.292 0,287 0.296 0,291 0.290 0,276 0.317 0.279 0.285 0.278 0.337 0,275 47 0,288 0.314 0.279 0.262 0.298 2 0.299 0.278 0.276 0.320 0.279 0.284 0.299 0.287 0.274 48 0,332 0355 0.279 0.289 0,289 0.305 0.276 0.298 0,324 0.289 0.283 0,301 0.339 0.273 49 0,333 0i3`1b 0.279 0.289 0.29136 0,327 0.279 0,287 0.323 0.289 0.282 0.309 0.270 0.271 50 0.332 0316 0.279 0,313 0.29. 7 0.305 0.251 0.286 0.309 0.296 0.282 0.310 0,289 0.313 51 0,302 0.301 0,280 0.311 0.291 0.278 0.262 0,277 0,309 0.284 0.285 0,306 0.284 0.313 52* 0.301 0.300 0.280 0.286 0,271 0.298 0.264 0.274 0.310 0.284 0,286 0.303 0.272 0.290 53 3 0.301 0.299 0.280 0,285 0.27: 0.298 0,248 0.278 0.303 0.350 0.287 0.302 0.313 0.287 54 0.302 0.302 0.281 0.309 0,241 0,287 0,254 0.279 0.285 0,300 0.292 0.303 0.337 0.311 55 0.304 0.304 0,261 0.285 0.24 0.288 0.249 0.275 0.289 0.300 0.293 0.303 0.271 0.311 56 0,305 0.306 0.282 0.285 0.24 0.279 0.264 0.276 0.298 0.305 0.290 0.303 0.278 0.264 57 0.305 0.306 0,283 0.308 0.24.4 0.279 0.288 0.274 0,285 0.292 0.291 0.295 0.289 0,289 58 0.304 0.337 0.282 0.262 0.24 0 0.278 0.267 0.292 0.298 0.293 0.292 0.290 0.298 0.284 59 0.303 0.336 0.280 0,285 0.285 0.290 0.265 0.269 0,282 0.297 0.293 0,293 0.278 0.288 60 0.315 0,311 0.281 0,289 0.288 0.297 0,262 0.270 0,280 0.298 0,290 0.298 0,289 0.286 C0ý5 dýt

Unit:_,/ Salem I RFO 20 Date-- 04,111110 T.MlN= 0.278 87.5% Nom. Wall= Nom. Wall = 0.337 ISI ID_

. AF8B Component ID. Lowest Readtog_0,2ý,, Higbest reading 0.352 Color Code: 0.000 to T-MIN .'7 .NAINt'o .27,5%!Nom W'aft >87.5% Nom. Wall to Norn. Wall >Nora. Wall A B C D E F G H I J K L M N 1 0.313 0.307 0.304 0.307 0.333 0.315 0.343 0.310 0.312 0.338 0.333 0,334 0.305 0.285 2 0314 0.299 0.332 0.313 0.333 0.315 0.337 0,309 0.310 0,315 0.330 0.332 0.306 0.276 3 0.266 0.301 0.305 0.302 0.334 0,333 0.328 0.296 0.314 0.327 0.329 0,339 0.307 0.305 4 0,313 0.308 0,305 0.302 0294 0.316 0.331 0.312 0.339 0.304 0.329 0.325 0,308 0.304 5 0.326 0.301 0.319 0,270 0.304 0.318 0.328 0.291 0,337 0,312 3.2 0,331 0.306 0.287 6 0.324 0.305 0.319 0.267 0.301 0.318 0.330 0.343 0.342 0.343 0.324 0.341 0.304 0.302 7 0,329 0.297 0,318 0.316 0.300 0.336 0.322 0.342 0.321 0,292 0.329 0.324 0.335 0,330 8 0,316 0.304 0.312 0.296 0.321 0.332 0.317 0,344 0.323 0,290 0.333 0.319 0.336 0,330 9 0.313 0.278 0.318 0.344 0.282 0.331 0.310 0.307 0,329 0.289 0.336 0,328 0.272 0.286 10 0.339 0.304 0.309 0.338 0,290 0.326 0,310 0.342 0.322 0.290 0.327 0.326 0,332 0.290 11 0.304 0.303 0.323 0.318 0.300 0.325 0.310 0.312 0.320 0.289 0.326 0.334 0.263 0.294 12 0,306 0,304 0.319 0314 0294 0.300 0.309 0,313 0.321 0,294 0,326 0,294 0,296 0,307 13 0,305 0,279 0.303 0320 0.327 0.331 0.322 0.307 0.341 0.325 0.331 0,290 0.334 0,308 14 0.302 0.282 0.302 0.327 0.341 0.325 0.327 0.282 0.318 0,295 0.328 0.284 0.297 0.304 15 0.301 0.282 0.287 0.322 0.319 0.308 0,325 0.306 0.318 0.275 0.330 0.282 0.309 0.292 16 0,297 0.312 0.298 0.322 0.322 0.308 0,325 0.282 0,332 0.292 0.332 0.283 0.309 0.326 17 0.297 0.341 0,306 0.334 0,341 0.309 0,325 0,304 0,328 0.289 0.308 0.295 0.309 0.315 18 0.299 0.298 0.296 0.321 0.321 0.331 0.325 0,313 0,309 0.306 0.307 0 299 0,279 0.342 19 0.325 0.323 0.298 0.328 0.340 0.328 0.331 0.311 0.317 0.338 0.296 0.326 0.350 0.295 20 0.300 0.312 0.347 0.324 0.332 0.312 0.345 0.295 0,317 0.308 0.297 0.293 0.301 0.336 21 0.304 0.317 0,342 0.321 0,335 0.311 0.344 0.295 0.312 0.305 0.296 0.328 0.316 0.312 22 0300 0.320 0.293 0.321 0323 0.343 0.350 0.295 0,315 0.304 0,296 0,325 0,307 0.339 23 0,293 0.320 0.291 0.314 0,332 0,288 0,298 0.321 0.314 0,308 0.294 0.327 0.295 0.305 24 0.297 0.319 0.295 0,316 0.302 0.292 0.298 0.297 0.312 0,333 0.293 0.349 0.295 0,304 25 0.300 0,310 0.296 0.325 0.346 0,293 0,309 0.297 0.310 0.332 0.297 0.325 0,299 0.3O4 26 0.300 0.322 0.327 0.311 0.300 0.265 0.300 0.297 0,312 0,332 0.300 0321 0.317 0.326 27 0,322 0,332 0.319 0.322 0.300 0.331 0.297 0.303 0,312 0,295 0.303 0,329 0.317 0.344 28 0.325 0.345 0.323 0.331 0,301 0,315 0.293 0.305 0.328 0.297 0,301 0.300 0.318 0.279 29 0.325 0.337 0.332 0.324 0.305 0,308 0.302 0.305 0.321 0,331 0.298 0.305 0.317 0.319 30 0.301 0.331 0.320 0,328 0.338 0.308 0.302 0.302 0.328 0.323 0.300 0.305 0.337 0.338 31 0.307 0.334 0.326 0323 0.337 0,348 0.304 0.309 0.325 0.319 0.323 0.304 0.345 0.316 32 0,308 0.333 0,323 0.328 0.339 0,328 0.302 0.315 0,324 0,328 0.336 0,300 0.288 0.330 33 0.300 0.343 0.310 0,337 0.300 0.335 0.299 0.319 0.326 0.319 0.308 0.351 0.290 0.333 34 0.326 0.326 0.341 0.335 0,331 0.333 0,299 0.320 0.344 0.322 0.310 0.314 0.320 0.322 35 0,327 0,310 0.315 0.332 0.324 0.328 0,296 0.320 0.331 0.318 0.316 0.289 0.336 0,319 36 0.321 0.309 0.317 0.328 0.323 0,334 0.321 0.317 0.332 0.317 0.312 0.325 0.301 0.328 37 0.285 0.308 0.3!7 0.344 0.326 0,330 0.315 0,318 0,335 0.319 0.315 0.332 0,301 0,310 38 0,284 0 311 0.314 0.321 0,326 0.324 0.321 0U318 0.3234 0.325 0.281 0.326 0,306 0.324 39 0,286 0o312 0,328 0.325 0,329 0.335 0.317 0.328 0,332 0.294 0.314 0.336 0.306 0.316 40 0.324 0,313 0.311 0.324 0.333 0.316 0.316 0.324 0.311 0,294 0.313 0.329 0,307 0.338 41 0.341 0.314 0,310 0351 0.330 0,319 0,313 0,323 0.316 0.296 0,313 0,328 0.329 0.301 42 0.303 0.318 0.311 0.327 0.326 0,317 0.339 0.323 0.322 0.302 0.323 0.328 0.329 0.326 43 0.302 0,312 0.326 0.330 0.323 0.328 0.333 0.321 0.319 0.335 0.328 0.330 0,327 0.326 44 0.299 0.316 0.321 0.324 0.325 0.328 0.332 0.319 0.309 0.312 0,345 0.330 0.323 0.325 45 0.297 0.312 0.309 0326 0.325 0334 0.317 0.326 0.306 0311 0.342 0.318 0,307 0,326' 46 0.297 0.340 0.311 0.324 0,320 0,331 0,320 0.328 0.327 0.309 0.315 0317 0.321 0.331 47 0,297 0.318 0.308 0.327 0.315 0.334 0.322 0.333 0.350 0.308 0.316 0.313 0.319 0.346 48 0.292 0.328 0.337 0.331 0.290 0.329 0.328 0.331 0.290 0.305 0.317 0317 0.320 0.335 49 0.294 0.332 0.305 0.329 0,292 0.323 0.327 0.330 0.286 0.333 0.318 0,320 0,321 0.314 50 0.332 0.325 0.320 0,322 0.293 0.321 0.333 0.333 0.297, 0,335 03229 0,319 0.318 0,322 51 0.323 0.322 0.321 0,320 0.314 0.321 0.323 0,331 0.298 0,341 0.331 0.328 0.319 0.333 52 0.323 0.346 0.306 0.320 0.317 0,321 0,323 0.335 0.299 0,341 0.328 0,330 0.319 0.339 53 0.282 0.325 0.315 0.322 0.319 0.333 0.326 0.321 0.300 0.284 0.303 0.316 0.324 0.339 54 0.334 0.319 0.324 0.324 0.346 0,323 0.330 0.301 0,300 0.283 0.304 0.324 0.327 0.326 55 0,327 0.320 0.321 0.325 0.324 0.318 0.330 0.305 0.293 0.283 0.305 0.330 0.323 0,324 56 0.322 0.327 0.320 0,325 0.320 0.317 0.329 0.307 0.296 0.345 0.319 0.322 0.347 0.328 57 0.303 0.341 0,317 0.324 0,317 0,314 0.346 0.313 0.294 0.322 0.3233 0.322 0,319 0.327 58 0.316 0.334 0.313 0.326 0.321 0.322 0.341 0.307 0,321 0.319 0.3222 0.338 0.304 0.311 59 0.347 02328 0.325 0.321 0.348 0,319 0,318 0.341 0.328 0,348 0.325 0.308 0.322 0,309 60 0.317 0,302 0.316 0,313 0.347 0.318 0,318 0.311 0.26B 0.336 0.290 0.306 0.335 0.313

ý?,( v1{

Unit.:.. Salem I RFO 20 Date.:,. 04114110 T-MIN= 0.278 87.5% Nom. Wall= Norm. Wall = 0.337 ISI ID. AF9B Component ID. Lowest Reading _Q0,9j Highest reading 0.371 Color Code: 0.000 to T-MIN >Tf.flNici B7.5% 1hnWall >87.5% Norn. Wall to Norn. Wall >Norn. Wall A B C D E F G H I J K L M N 1 0.326 0.322 0.322 0.362 0,317 0.312 0.315 0.322 0.346 0,323 0,330 0,322 0.322 0.318 2 0.355 0.352 0,311 0.360 0.324 0.337 0.318 0.337 0.326 0,291 0.330 0,318 0,356 0.330 3 0.344 0.319 0.314 0.334 0.318 0.323 0.313 0.323 0.318 0,321 0.328 0.325 0.320 0.327 4 0.343 0.335 0.338 0.354 0.319 0.332 0,313 0.318 0.334 0.320 0.339 0.332 0.316 0.331 5 0.336 0.319 0.316 0.353 0.316 0.333 0.314 0.329 0.331 0.320 0.343 0.322 0,337 0.333 6 0,318 0.320 0,311 0.350 0,341 0.321 0.320 0.318 0.316 0.319 0.344 0317 0.329 0,325 7 0323 0,307 0.351 0U343 0,314 0.354 0.325 0.348 0.337 0.320 0.344 0.321 0.341 0.316 8 0.321 0.340 0.314 0.328 0.326 0.354 0.323 0.335 0.339 0.321 0.339 0.322 0.323 0,312 9 0.319 0.337 0.312 0.325 0.324 0.341 0.335 0.320 0.316 0.316 0.325 0.317 0.319 0.356 10 0.364 0.336 0.353 0.327 0.326 0.353 0.335 0,342 0.313 0.308 0.360 0.329 0,323 0.311 11 0.353 0.356 0.352 0,335 0.317 0.317 0.334 0.353 0,330 0.308 0.325 0.347 0.338 0.298 12 0.363 0.328 0.311 0.326 0.329 0.336 0.314 0.342 0.325 0.306 0.324 0.329 0.364 0,303 13 0.325 0.346 0.324 0,359 0.312 0.348 0.348 0.353 0.326 0.350 0.293 0.322 0.331 0.316 14 0.320 0.345 0.315 0.352 0.338 0.322 0.309 0,365 0.329 0,315 0.369 0.320 0.362 0.326 15 0.318 0.351 0.341 0.327 0.341 0.346 0.309 0.322 0.330 0,313 0.301 0.319 0,329 0.331 16 0.306 0.321 0.364 0.354 0.347 0.324 0.326 0.306 0.334 0.315 0,302 0.319 0.325 0.358 17 0.316 0,331 0.365 0,330 0.363 0,316 0.312 0.313 0.319 0.319 0.304 0.328 0.322 0.322 18 0.33 1 0U314 0.315 0.369 0,353 0,343 0.310 0.357 0.316 0.320 0,306 0.327 0.342 0.311 19 0.347 0.322 0.320 0.341 0.321 0.330 0.312 0.324 0.314 0.318 0,307 0.331 0.332 0.322 20 0.362 0,314 0.313 0.338 0.321 0.360 0.306 0,313 0.315 0.328 0,307 0.329 0.324 0,325 21 0.321 0.316 0.368 0.354 0,332 0.321 0,311 0.333 0314 0.331 0.335 0,328 0361 0.328 22 0.311 0.312 0.313 0.323 0,344 0.357 0,324 0,326 0.319 0.330 0.332 0.321 0.359 0.329 23 0,344 0.335 0,308 0.324 0.317 0 317 0.324 0,322 0,318 0.324 0.336 0.322 0.329 0.343 24 0,343 0.344 0.310 0.316 0.339 0.320 0.335 0.321 0.320 0.320 0.317 0.315 0,332 0.329 25 0.342 0.352 0.307 0.335 0.320 0.315 0.322 0.324 0.319 0.318 0.336 0.334 0,333 0.343 26 0.314 0,306 0.361 0.327 0.321 0.313 0.331 0.327. 0,323 0.321 0.324 0.335 0.335 0.337 27 0.314 0.321 0.310 0.331 0,328 0.331 0.318 0,314 0.321 0.319 0.316 0.332 0,323 0.335 28 0.313 0.312 0,352 0.317 0.364 0.316 0.314 0.309 0.325 0.326 0.319 0,330 0.320 0,312 29 0.334 0.329 0,357 0.322 0.329 0.326 0.315 0.362 0.336 0.329 0.321 0.325 0.325 0.368 30 0.312 0.324 0.346 0.361 0.339 0.335 0.347 0.331 0.338 0.328 0.304 0 322 0.335 0,322 31 0.305 0.314 0,350 0.313 0.334 0.369 0.352 0.329 0,336 0.330 0.304 0.312 0.332 0.314 32 0.316 0.348 0.317 0,365 0.327 0.327 0.360 0.313 0.328 0.331 0.308 0.311 0.330 0.312 33 0.314 0.330 0,307 0.359 0.335 0.320 0.304 0.327 0.326 0.332 0.324 0.316 037*1 0.327 34 0.318 0.340 0.313 0,322 02325 0.321 0,330 0.317 0.317 0.325 0.320 0.325 0.315 0,322 35 0.353 0.350 0.300 0.319 0,341 0.312 0,327 0.321 0.357 0.330 0.320 0.328 0.369 0.308 36 0.359 0.349 0.329 0.317 0U348 0.314 0.322 0.321 0.322 0.339 0.321 0.324 0.359 0.320 37 0.317 0.343 0.315 0.326 0.325 0.363 0,325 0.365 0,324 0.338 0.327 0.326 0.370 0.335 38 0,312 0.334 0.360 0.350 0.331 0.314 0,324 0.304 0.319 0.341 0,317 0.321 0.327 0,339 39 0.325 0,350 0.335 0.316 0.308 0.313 0,312 0.332 0.323 0.329 0.320 0.324 0.327 0.322 40 0.321 0.341 0.308 0.353 0.308 0.317 0.345 0.319 0.321 0.334 0.317 0.325 0.335 0.329 41 0.344 0.324 0.310 0.320 0,309 0.333 0,352 0.310 0.330 0.364 0.343 0.366 0.328 0,330 42 0.318 0,324 0.306 0.351 0.318 0.358 0.314 0.317 0.322 0.351 0.340 0.362 0.366 0.336 43 0.342 0.354 0347 0.345 0.364 0,318 0.316 0.303 0.322 0.319 0.339 t)371 0.336 0.338 44 0.317 0.335 0,318 0.328 0,327 0,315 0.313 0,306 0.351 0.354 0.328 0.368 0,331 0.336 45 0,341 0.358 0.322 0.355 0.326 0.323 0.315 0.330 0.319 0.330 0.327 0.324 0.335 0.324 46 0,331 0.327 0.323 0.306 0.322 0,316 0.330 0.303 0.323 0.326 0.342 0.354 0.343 0.326 47 0.325 0.323 0.319 0.317 0.328 0.311 0.323 0.316 0.333 0.323 0.331 0,370 0.334 0.320 48 0.340 0.317 0.295 0.313 0.329 0.324 0,345 0.306 0.316 0.362 0.323 0,369 0,328 0.332 49 0,351 0,321 0.317 0.308 0.359 0.326 0.327 0.313 0.322 0.347 0.342 0,355 0,322 0.324 so 0,333 0.313 0.346 0.344 '0.327 0.325 0.328 0,311 0.320 0.345 0.339 0.325 0.364 0.332 51 0 325 0.311 0.310 0,312 0.317 0.333 0.336 0,324 0,319 0.328 0.324 0.344 0.356 0.318 52 0.324 0.305 0,306 0.315 0.319 0.360 0.331 0.307 0.321 0.337 0.323 0.340 0.356 0.319 53 0.318 0.320 0.343 0,303 0.318 0,346 0.334 0,302 0,310 0.324 0.324 0.320 0.370 0.319 54 0.321 0,327 0,348 0.332 0.362 0.351 0.327 0.367 0.312 0.331 0.345 0.324 0.358 0.321 55 0.335 0.327 0.317 0.360 0.323 0348 0.355 0.361 0.320 0324 0,324 0.358 0.321 0,313 56 0.327 0,334 0.299 0.319 0,317 0,326 0.334 0.359 0,305 0.333 0.334 0.348 0.364 0,325 57 0,329 0.324 0.331 0.326 0.330 0.324 0.319 0.369 0.353 0.341 0.328 0.331 0.330 0.317 58 0.338 0,330 0.365 0.328 0.340 0358 0.326 0.320 0.355 0.342 0.333 0.330 0.337 0.327 59 0.356 0,346 0.316 0,325 0.336 0.318 0,323 0.319 0.325 0.322 0.338 0.316 0.363 0.323 60 0.328 0.332 0,322 0.338 0,345 0.312 0356 0,330 0,314 0.327 0.332 0.354 0.339 0.330 61 0.338 0,340 0,328 0.332 0,352 0,365 0.313 0.326 0.318 0.327 0,329 0,311 0370 0.327 62 0.359 0.335 0.333 0.328 0.341 0.335 0.364 0,320 0.310 0.33B 0.361 0.328 0,331 0.330 63 0.333 0.321 0.350 0.332 0.333 0.336 0,332 0.320 0,344 0,358 0,327 0,324 0.329 0.347 64 0.333 0.329 0.348 0.335 0.328 0,341 0.330 0.312 0,339 0.328 0.328 0,368 0.325 0.337 65 0.333 0,366 0.321 0,321 0.337 0.344 0.341 0.324 0.357 0.331 0,322 0.334 0.333 0.335 66 0,342 0.330 0.345 0,349 0.321 0.334 0.347 0.323 0.361 0,333 0,328 0.341 0.316 0.339 67 0,367 0,321 0.323 0,352 0,338 0,304 0,322 0.325 0.324 0.341 0.325 0.326 0.319 0.322 441

q Unit: Salem 1 RFO 20 Date: 04114110 T-MIN= 0.278 87.5% Nom. Wall= Nom. Wall = 0.337 ISI ID. AF9B C( mponent ID. Lowest Reading 0.29. Hihcest reading 0.371 Color Code: 0.000 to T-MIN >'T-MiN to 82.5 Noir Wall >87.5% Nom. Wall to Nom. Wall >Nom, Wall 8A C U F G H .1 J K L M N 68 0.342 0.325 0.329 0.336 0.329 0.346 0.322 0.313 0,320 0.321 0.318 0.337 0.334 0.323 69 0.356 0.330 0,332 0,323 0,339 0.331 0.321 0.316 0.311 0.322 0.326 0.342 0.324 0.326 70 0.347 0.325 0.325 0.324 0.327 0,339 0,350 0.318 0.327 0.324 0.338 0.331 0,331 0.332 71 0,325 0.322 0.364 0.337 0.335 0.322 0.320 0,325 0.317 0,327 0.330 0354 0333 0.331 72 0.325 0.353 0.361 0.335 0.337 0337 0.359 0.321 0.334 0,329 0.326 0,343 0,330 0329 73 0,322 0.358 0.314 0.339 0,359 0.334 0.319 0.325 0.316 0,322 0.323 0.331 0.326 0.320 74 0.321 0333 0.319 0.338 0,353 0.350 0.326 0.310 0.325 0.335 0.357 0324 0.334 0.362 75 0.335 0.360 0.363 0.338 0.321 0.337 0.364 0.330 0,313 0.329 0.331 0.323 0,340 0.315 76 0.329 0.336 0.329 0.343 0.334 0.332 0.323 0.333 0.309 0,331 0.335 0.330 0.338 0.326 77 0.361 0.351 0,321 0.333 0.325 0,319 0.309 0.323 C 37 0322 0.349 0.336 0.340 0.342 78 0.316 0.363 0,318 0.337 0.332 0.305 0.317 0.326 0.322 0.325 0.341 0.325 0,362 0.333 79 0.319 0.339 0.334 0.339 0.326 0.367 0.315 0.327 0,322 0.337 0.330 0,340 0.341 0.342 C) , q4.

Unit-- Salem I RFO 20 Da__te: 04/14110 T-MIN= 0.278 87.5% Nom. Wall= Nom. Wall = 0.337 ISI ID. AFI3T Component ID. Lowest Reading. 0.141 Highest reading 0,367 Color Code: 0,000 to T-MIN ,T-MIN t.* 87.5% Nomr' Woll >87.5% Nom. Wall to Nom. Wall >Nom. Wall A B C D E F G H I J K L M N 1 0.314 0.324 0,336 0.312 0.282 0.309 0.306 0.320 0.292 0,281 0.309 0.300 0,316 0.289 2 0,340 0.314 0.286 0.294 0.294 0,300 0.313 0.327 0.318 0.338 0.308 0.308 0.338 0 330 3 0.301 0.315 0.299 0.298 0.296 0.310 0.318 0,323 0.321 0.310 0.321 0.304 0,275 0.308 4 0,312 0.303 0.292 0.275 0.331 0.333 0.305 0.316 0.326 0.279 0.300 0.309 0,322 0.270 5 0.313 0,329 0.293 0.280 0.288 0.331 0.306 0.317 0.314 0.282 0,299 0.319 0,331 0.3!8 6 0.327 0.298 0.285 0.309 0,297 0.330 0.307 0.305 0.329 0.328 0.303 0.320 0,337 0.323 7 0.328 0.282 0.295 0.327 0.321 0,293 0.303 0.313 0.325 0.327 0.319 0.286 0.320 0.308 8 0.313 0.303 0.300 0.295 0,311 0.303 0.302 0.317 0.331 0,335 0.343 0.294 0.324 0.305 9 0.301 0.299 0.297 0.287 0.338 0,306 0.304 0.306 0.332 0,326 0.306 0.287 0.328 0.324 10 0.353 0,323 0.301 0.303 0.316 0.308 0.332 0.314 0.305 0.308 0.298 00.288 0.330 0.344 11 0.295 0.323 0.306 0.296 0.327 0.310 0.308 0.312 0.292 0.325 0.299 10.287 0.332 0.335 12 0.292 0.305 0.288 0.305 0.313 0.325 0,311 0.310 0.292 0.311 0.318 0.291 0.327 0.325 13 0.335 0.300 0.326 0.294 0.283 0.319 0.312 0.311 0.296 0.313 0.312 0,288 0.310 0.327 14 0.294 0.306 0,302 0.289 0.290 0.324 0.311 0.309 0.285 0.297 0.306 0,305 0.329 0.315 15 0.297 0.309 0.307 0.285 0.326 0.321 0.310 0.299 0.295 0.299 0,315 0.282 0.325 0.308 16 0.302 0,314 0.324 0.290 0.278 0.320 0.332 0.304 0.299 0.304 0.305 0.283 0.330 0.306 17 0.321 0.307 0.331 0.301 0,325 0.337 0.278 0.303 0.289 0.296 0.307 0.317 0.333 0.326 18 0.344 0.306 0.275 0.284 0.288 0.319 0.303 0,311 0.291 0,302 0.315 0.301 0.302 0.335 19 0.320 0.298 0.291 0,294 01282 0.330 0.292 0.303 0.315 0.304 0.332 0.307 0.339 0.307 20 0.333 0.313 0.319 0.300 0.280 0.295 0.274 0.305 0.309 0.309 0.320 0.309 0.324 0.324 21 0.298 0.309 0.317 0.276 0,295 0.285 0.301 0.317 0.310 0.313 0.324 0.303 0.288 0.319 22 0.293 0,323 0,323 0.298 0.290 0.312 0.297 0,318 0.313 0.299 0.321 0.311 0.309 0,298 23 0,305 0.298 0,304 0.330 0.279 0.311 0.291 0.316 0.315 0.298 0.326 0.322 0.329 0.332 24 1C7 0.335 0.279 0.296 0.297 0.336 0.314 0.306 0.319 0,311 0.335 0.317 0,324 0.335 25 0,291 0.321 0.294 0.285 0.292 0.312 0.308 0.307 0.337 0.303 0,322 0.287 0.311 0.326 26 0.317 0.288 0.305 0.304 0.298 0.314 0.288 0.313 0.336 0.319 0.325 0.332 0,321 0.337 27 0.330 0.298 0,314 0.290 0,305 0.307 0,312 0.307 0.328 0,321 0.321 0.312 0.306 0.316 28 0313 0.321 0.307 0.291 0.324 0.306 0.313 0.304 0.326 0.326 0.286 0.313 0.314 0,332 29 0.299 0.301 0.297 0.282 0.298 0.322 0.288 0.294 0.324 0,335 0.290 0,281 0.318 0.320 30 0.295 0.289 0.285 0.293 0.269 0.306 0,318 0.296 0.330 0.318 0.288 0.290 0.337 0.284 31 0.279 0.300 0,280 0.304 0.297 0.305 0.317 0.299 0.309 0.324 0.333 0.295 0,315 0.307 32 0.316 0.279 0.291 0.301 0.311 0,269 0.307 0.296 0.319 0.313 0.321 0.288 0.285 0.314 33 0.306 0.302 0.298 0.302 0.278 0.301 0,312 0.325 0,324 0.287 0.324 0.275 0.284 0,292 34 01278 0.297 0.308 0.304 0,297 0.287 0.313 0.312 0.322 0.315 0.300 01279 0.294 0.290 35 0.292 0.299 0.306 0.307 0,298 0.314 0.308 0.284 0.326 0.300 0.336 0.281 0.332 0.339 36 0.285 0.274 0.298 0,311 0.308 0.311 0.284 0.323 0,327 0.320 0,313 0,302 0.268 0,270 37 0,316 0.298 0.308 0.344 0,288 0.283 0.297 0,315 0.325 0.282 0.309 0.329 0,292 0,293 38 0.325 0.307 0.316 0.299 0.291 0.274 0.316 0.320 0.292 0.283 0.312 0,319 0.304 0.320 39 0.283 0.277 0,281 0.310 0.306 0.285 0.338 0.333 0,285 0264 0.326 0.308 0.288 0.296 40 0,285 0.293 0.309 0.299 0,289 0.295 0.321 0.290 0287 0.298 0.332 0,314 0,281 0,294 41 0.316 0.299 0.311 0.321 0,292 0,299 0.329 0.332 0.287 0,312 0.302 0.330 0.310 0,272 42 0.268 0,300 0.312 0.324 0.291 0.305 0.333 0,324 0.332 0.317 0.307 0.315 0.280 0,303 43 0.279 0.298 0.313 0.300 0.315 0.308 0.338 0,325 0,299 0.310 0,311 0.316 0.287 0.318 44 0.301 0.279 0.318 0.332 0.311 0.311 0.315 0.334 0.297 0.326 0,314 0.325 0.298 0,303 45 0.280 0.339 0.328 0.294 0.312 0.312 0.334 0.333 0.305 0.325 0.339 0.337 0.270 0.301 46 0.278 0.300 0.330 0.285 0.327 0.291 0.335 0.319 0.339 0.281 0.307 0.321 0.333 0.297 47 0.312 0.175 0,224 0.242 0.212 0.262 0,245 0.179 0.161 0.164 0.194 0.225 0.223 0.216 48 0.309 0.311 0.215 0.247 0,186 0.255 0.200 0,194 0,225 0.243 0.245 0.226 0.222 0,207 49 0.300 0.3Z1 0.212 0.248 0.200 0.265 0.184 0A171 0.192 0.176 0.230 0.219 01215 0.183 s0 0.295 0.306 0.244 0.225 0,193 0,253 0.181 0.144 0.179 0.178 0.209 0.218 0,217 0.174 51 0,244 0.276 0.305 0.239 0.209 0.247 0.167 0.149 0.177 0.177 0.193 0,217 0.209 0.246 52 0,237 0.251 0.190 0.283 0.230 0.228 0.143 0.154 0.164 0,192 0.197 0.278 0.236 0.190 53 0,257 0.222 0,220 0.237 0.243 0.163 0.143 0.192 0.239 0.192 0.201 0,214 0.240 0.190 54 0,145 0.266 0.256 0.235 01222 0,190 0,169 0.195 0.154 0.184 0,214 0,214 0.272 0.167 55 0,154 0.235 0.257 0.262 0,262 0.206 0.165 0.164 0,146 0.175 0,225 0.208 0.230 0.190 56 0.244 0.193 0,261 0.237 0,273 0.201 0.156 0.189 0.191 0.193 0.220 0.199 0,228 0.176 57 0.218 0.189 0.192 0.231 0,261 0,199 0,177 0.182 0.158 0.202 0,223 0.182 0,218 0.174 58 0.198 0.235 0,195 0.202 0,167 0.259 0,165 0.169 0.1760,214 0.204 0,191 0.219 0,179 59 0.209 0.212 0.250 0.190 0.226 0.223 0,198 0.176 0.164 0.196 0.268 0.216 0.217 0.219 60 0.216 0.229 0.262 0.160 0.152 0.217 0.179 0.185 0.237 0.209 0.228 0.208 0.175 0.222 61 0,234 0.248 0.147 0.141 0.236 0.252 0,169 0.174 0.178 0,224 0,212 0.205 0.209 0.230 62 0.220 0.242 0.264 0.174 0.245 0,206 0.185 0.198 0,171 0.221 0.230 0.201 0.224 0,220 63 0.227 0.231 0.187 0.178 0.188 0.189 0.187 0.200 0.186 0.207 0.219 0.198 0.224 0,233 64 0.223 0.222 0.225 0.197 0.239 0.207 0.210 0.171 0.199 0.207 0.242 0.215 0.224 0.228 65 0.193 0.248 0,203 0,202 0.201 0.197 0.201 0.170 0.205 0.193 0R227 0.233 0.217 0,226 66 0.185 0.280 0.245 0.206 0.194 0.234 0.190 0.170 0.190 0.198 0,205 0.238 0.225 0.232 67 0.187 0.240 0.240 0,192 0.175 0.223 0.206 0 169 0.188 0.212 0.208 0.224 0.219 0-225 q4

I Unit: Salem I RFO 20 Date: 04114/10 T-MIN= 0.278 87.5% Nora. Wall= Noa,. Wall 0.337 ISi ID. AF13T Component ID. Lowest Reading 0,141 Highest reading 0.367 Color Code: 0.000 to T-MIN '.'l"-,4l4tn o /17A,'.

3 N~oin WaV~ll >87.5% Nona. Wall to Nora. Wall >Nom. Wall A B C D E F G H I J K L M N 68 0.180 0,232 0.149 0.209 0.222 0.221 0.228 0.207 0.195 0.200 0.214 0,234 0.232 0,224 69 0.189 0.204 0.234 0.190 0.226 0.222 0,195 0.156 0.200 0.205 0.228 0.240 0.239 0.243 70 0.253 0.291 0.254 0.306 0.299 0.279 0.282 0.288 0,321 0.291 0,311 0.284 0.299 0.277 71 0.301 0,288 0,284 0.284 0.273 0275 0.286 0.303 0.325 0.306 0.298 0.327 0.302 0.282 72 0.306 0.265 0.297 0.303 0.335 0.317 0.304 0,301 0.324 0.313 0.293 0.287 0.314 0.310 73 0.285 0.305 0.295 0.281 0.291 0.291 0.292 0.296 0.294 0.332 0.289 0.298 0.317 0.308 74 0.294 0.283 0.312 0.328 0.280 0.295 0.309 0.269 0.295 0,331 0.285 0.301 0.30' 0,285 75 0.293 0.292 0.324 0.303 0.332 0.305 0.280 0.302 0.302 0.296 0,279 0.304 0,298 0.295 75 0.283 0.276 0,311 0,284 0.258 0.309 0284 0,303 0M277 0,304 0,282 0.309 0,301 0.298 77 0.289 0.278 0.308 0.306 0.277 0.290 0,270 0.290 0.275 0.277 0.281 0.315 0.302 0,300 78 0,278 0.287 0.291 0.292 0,318 0.292 0.272 0.288 0.290 0.278 0.326 0.304 0,305 0.291 79 0.304 0.280 0.312 0,325 0,285 0.326 0.304 0.323 0,310 0,291 0,324 0.300 0.280 0.298 I

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I Unit: Salem I RFO 20 Date: 04-11/10 T-MIN= 0.278 87.6% Nom. Wall= Nom, Wall= 0,337 ISI ID, AF14B Component ID. .LgwestRea jg,71 Hicthest reading 0344 Color Code: 0,000 to T-MIN Nofn Wail >87.5% Nom, Wall to Norn. Wall >Nom. Wall A B C 0 E F G H I J K L M N 0 306 0.339 0,339 0.291 0.292 0.303 0.298 0.294 0.335 0.305 0.282 0.316 0.285 0.302 0.290 0.297 0.328 0.321 0.292 0.336 0.296 0.290 0.274 0.299. 0.300 0,307 0.299 0.299 0,298 0.291 0,294 0.308 0.290 0.304 0.293 0,294 0.273 0.307 0.335 0,308 0.298 0.279 0.301 0.292 0.291 0.309 0.299 0.291 0,298 0.277 0.306 0.306 0.321 0.277 0,294 0.290 0.299 0,331 0.301 0.340 0.2S3 0.293 0.293 0.290 0.304 0,299 0.321 01275 0.294 0.318 0,289 0,279 0.296 0.339 0.305 0,294 0.293 0.302 0.281 0.294 0.326 0.298 0.295 0.323 0.309 0.273 0.314 0.320 0.278 0.295 0,290 0.338 0.289 0.308 0.323 0.298 0.342 0.324 0,298 0.281 0,302 0.308 0,278 0.299 0,295 0.303 0.306 0.292 0.278 0.328 0.316 0.300 0.298 0.331 0.297 0.308 0.304 0,298 0.289 0.303 0.311 0.309 0.276 0,286 0,317 0.301 0.299 0.293 0.280 0.285 0.281 0.292 0.289 0,271 0.305 0.311 0.326 0,305 0.297 0,307 0,269 0.296 0.298 0.286 0.289 0.296 0.304 0,293 0.279 0.301 0.325 0.306 0.297 0.285 0.291 0.282 0.302 0.339 0,291 0,297 0.309 0.283 0281 0.291 0.328 0.305 0.296 0,294 0.290 0.294 0.293 0.339 0,305 0.297 0.309 0.315 0.285 0.274 0.308 0.309 0,275 0.292 0.299 0293 0,292 0.294 0.282 0,302 0.311 0281 0,294 0,31,1 0.278 0.309 0.295 0.295 0.298 0.296 0,289 0.271 0.337 02339 0,308 0.281 0,300 0.312 0.277 0.303 0,293 0.273 0.305 0.328 0.341 0.273 0.337 0,322 0,289 0,287 0.303 0.315 0.290 0.299 0.307 0,272 0,306 0,305 0.284 0.300 0,305 0,306 0,299 0,296 0,295 0.280 0.305 0.303 0.299 0.291 0.289 0.295 0,292 0.335 0.298 0.275 0.291 0.294 0.299 0.304 0.286 0,298 0,295 0.278 0.289 0.291 0,297 0,335 0.292 0,322 0.305 0,300 0,300 0.279 0295 0.326 0.301 0.288 0.287 0.289 0.292 0,300 0.294 0,290 0M288 0.295 0.304 0,282 0.324 0.329 0,294 0,299 0.289 0.330 0.297 0.328 0,293 0ý292 0.287 0.293 0.285 0.294 0.323 0.306 0.289 0.272 0.280 0.279 0.299 0.276 0,295 0.292 0.289 0.324 0.282 0.292 0.302 0.305 0.293 0.274 0,292 0.315 0.322 0290 0,328 0U297 0.294 0.320 0.281 0.284 0.298 0,302 0.297 0.301 0.316 0.287 0.295 0.282 0.277 0.280 0U300 0.278 0.278 0.281 0.298 0,316 0.281 0.290 0,290 0.289 0.298 0.290 0.278 0.300 0,301 0,278 0.278 0.303 0.305 0,274 0.284 0.301 0,278 0,294 0.298 0.282 0,292 0.299 0,294 0.289 0.282 0,279 0.303 0,293 0,297 0.274 0,290 0.295 0.295 0.296 0.279 0.311 0.297 0.335 0,306 0.296 0.343 0.279 0290 0.293 0,300 0.294 0.296 0.284 0.279 0.290 0.296 0,334 0.307 0.302 ,,44 0.283 0.304 0.291 11 ý Jý ýý

Unit: Safemn I RFO 20 Date: 04111110 T-MIN= 0.278 87.5% Nom. Wall= Nom. Wall = 0.337 ISI ID. AF14B Component ID. Loweste_.dijn.0.2_1 Highest reading 0.344 Color Code: 0.000 to T-MIN YT-FIN to 27.5% Nom Wall >87.5% Nom. Wall to Norn. Wall >Nom. Wall A B C 0 E F G H  ! J K L M N 1 0.306 0,339 0339 0.291 0,292 0 303 0.298 0,294 0,335 0.305 0.282 0.316 0.285 0.302 2 0.290 0.297 0,328 0.321 0 292 0.336 0.296 0,290 0.274 0.299 0.300 0.307 0,299 0,299 3 0.298 0.291 0.294 0,308 0.290 0,304 0.293 0.294 0.273 0,397 0,335 0.308 0.298 0,279 4 0.301 0.292 0,291 0.309 0.299 0.291 0.298 0.277 0.306 0.306 0.321 0,277 0.294 0.290 5 0.299 0,331 0.301 0,340 0.293 0.293 0.293 0,290 0.304 0.299 0.321 0.275 0.294 0.318 6 0.289 0.279 0.296 0,339 0.305 0.294 0.293 0,302 0.281 0.294 0.326 0.298 0.295 0.323 7 0.309 0.273 0.314 0.320 0.278 0,295 0.290 0.338 0.289 0.308 0.323 0.298 0.342 0.324 8 0.298 0.281 0.302 0.308 0,278 0.299 0.295 0.303 0.306 0.292 0.278 0.328 0.316 0.300 9 0.298 0.331 0.297 0.308 0.304 0.298 0.289 0.303 0.311 0.309 0.276 0.286 0.317 0.301 10 0.299 0.293 0.280 0.285 0.281 0.292 0.289 0.271 0.305 0.311 0.328 0.305 0.297 0,307 11 0.289 0.296 0.298 0.286 0.289 0.296 0.304 0.293 0.279 0,301 0,325 0.306 0.297 0.285 12 0.291 0.282 0,302 0.339 0.291 0.297 0.309 0.283 0.281 0.291 0.328 0.305 0.296 0.294 13 0,290 0.294 0.293 0.339 0.305 0.297 0.309 0.315 0.235 0.274 0.308 0.309 0.275 0.292 14 0,299 0.293 0.292 0.294 0,282 0.302 0.311 0.281 0.294 0,311 0.278 0.309 0.295 0.295 15 0.298 0.296 0.289 0271 0,337 0.339 0,308 0,281 0.300 0.312 0,277 0.303 0,293 0.273 16 0 305 0,328 0.341 0.273 0.337 0.322 0.289 0,287 0.303 0,315 0.290 0.299 0.307 0.272 17 0.306 0.305 0,284 0.300 0.305 0.306 0,299 0.296 0,295 0280 0.305 0,303 0299 0,291 18 0.289 0.295 0,292 0,335 0.298 0.275 0.291 0.294 0.299 0.304 0.286 0.298 0.295 0,278 19 0,289 0.291 0.297 0,335 0.292 0.322 0.305 0.300 0.300 0.279 0.295 0.326 0.301 0.288 20 0,287 0.289 0.292 0.300 0.294 0.290 0.288 0.295 0.304 0.282 0.324 0.329 0.294 0.299 21 0,289 0,330 0,297 0.328 0.293 0.292 0.287 0.293 0.285 0.294 0.323 0,306 0.289 0.272 22 0.280 0,279 0.299 0.276 0.295 0.292 0.289 0.324 0.282 0.292 0.302 0,305 0.293 0.274 23 0.292 0.315 0.322 0.290 0.328 0.297 0.294 0.320 0,281 0.284 0,298 0.302 0.297 0,301 24 0.316 0.287 0.295 0.282 0.277 0.280 0.300 0,278 0.278 0.281 0.298 0.316 0,281 0.290 25 0.290 0,289 0.298 0.290 0.278 0.300 0,301 0.278 0.278 0.303 0.305 0.274 0.284 0.301 26 0.278 0.294 0.298 0.282 0.292 0.299 0.294 0.289 0.282 0.279 0.303 0.293 0.297 0.274 27 0.290 0.295 0.295 0.296 0.279 0,311 0.297 0.335 0.306 0.296 0.343 0.279 0.290 0.293 28 0.300 0.294 0,296 0 284 0.279 0.290 0.296 0.334 0.307 0,302 Oi-AA 0.283 0.304 0.291

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OU-AA-335-004 Revision 1 Page 12 of 14 ATTACHMENT 3 UT THICKNESS DATA SHEET PAGE 1 OF f 1 iF F

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-Iv Level: ( Dare: f 1 Reviewer: Date:

ANV:

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Plant: q m . Unit: I Date: q/3 // Page (if" (I 'ý

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Collbrollun D*ta Calibrntion Block Calibration Block Readings Type: p Amial (T): ,-L - Moameurd M:T0)ID .

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OU-AA-335-004 Revision 1 Page 12 of 14 ATTACHMENT 3 UT THICKNESS DATA SHEET PAGE 1 OF 1

!- ULT*RASON IC THICKNESS CALIBARAITION DATA SHEET Recport Numobcr Plant; _______________ Unit: IDawe /zt ofe____it ProcedureNutnber/Rv': 0U- AoA 33 S-oD0 Rw MON 4009471e(o Equinmerut DatR Instnrument Information Transducer Inforinalk Manu facturcr: ?kf nr :L,ý Size:

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'o 0S Exame r Date: /2/0 Reviewer: Date:

AMl i Date: _________

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I ULNUASONIC THIjCKNESS CALIBARATION DATrA SHEET Plant: _AUnit: I owe _____

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ltcvivvcr; Daow ANII: ____

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Plant: Unit: Datc: 11011)j6 puge 01 _____

Prtocedure NumbutR(K\ 0v- RA S35 - 004 92-y-1j WIO .4-(p()o 3 4Z EIjuninmn D Irntrumena Inforatinlon 'rrnnmduccnr inorntntion 4

Mn tacturnr A. Manuractarar: R ANAM E (- IL CS iz: 3___

Modil~ i~EJsi Scrial Number. 7h-3-7 .Freq: W)h2 ScrnamNun 2i+/-iOiL2 01a' Stylc: tlLJDu\ .Coupltimtt uIt: m Cnalbrollon Data Culibratic UIoaI< Callbr~ation Block Readings Typ. - A ctual rT): (00 Mreasuredl (T): -_______

Cal.Blk N: -7 3o?

C-alBlk Te~mp Toup S/N r

C,,,,rim,, i,,: q* : "30)4 Check:

D11) ________________ Cal Out limc: A Cgomponent Fxamintinflor Iformatian Tgg, j-6flmtft hbiTWPOW mbmm~~

" -- ~~i~~t~~~

~- .~,~

LL~~~

NOr 14, Ip _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _

Reviewer': Datc:

ANII: ______________________Datel _________

-~

OU-AA-335-004 Revision 1 Page 12 of 14 ATTACHMENT 3 UT THICKNESS DATA SHEET PAGE 1 OFI-F- ' ULTIASoNIC THICKNESS CALIBARATION DATA SHEET Report Nm-nbc' Plant; , Uu unit: Date: puge C,f_______

N'oceduac Nulnberlitcv. [U -AA -L- - o0 4.~~i Ertuipment Dstm Instroment Informatiohn Transducer Infornsatin, Mmifncrueren.2 r AM A , Manutbecta-rcr Size: L3 Modelc-DL9 Serial Number: 7 0 737S CFphreq: '

Serial Numbiter 011j57 q I+/- Stylc: 1tDL 'c I Cnhllbrltiun D'al" Calibratina Block Calibration Block Readings

[ype: Aeti*l (T): 10(0 Measured (T): 0I 0) m'aterial:

C~atBlk S/N: ,300 .3o0z Cal Blk Tempn Temp SIN  !

Cal Time in: 00 ArA4 Cul Cheek: a Cal0_*a_limr: I30 4M Con1ayonentExmnto nrmin

- 66 bb~i~~. .0 W 'a etl hii

____________________ WWI0021111 ~il~C MION I Comments:

Examin DVte:

Reviewver YV Date:

ANt1i _____________ __Dale _______

+() 6ý 4

OU-AA-335-004 Revision 1 Page 12 of 14 ATTACHMENT 3 UT THICKNESS DATA SHEET PAGE 1 OF I F

UUMPASONIC THICKNESS CALIBARArtIoN DATA SHEET' Rleport I'41nbern Plant: Unit;:'i/IL) I Page fir_ _____

Procedure NUnbrKv 0- AA- s)35 -) o04 'e.1 w/Qo _____

XIqu iCmeriL DMAl Intunnnormati~on Tralniducer 1nfurptallon wnufaturer Monulacturer: M A ~FZ-rcC S ize:

7 7S Freq: E M 'r)2-L Moe N_7D Style; rDLjP, -Cuplunt; l: r.e Rat*h:

cuilbr~illion DOAl Calibration -Eloelt Callbr-,ation Block Readings ypc: Actual (T): (00 M uesuredT) OL) 0 Material:

Cal ElkS1N:

NCal Elk Tempi Temnp SfN t.

Cal Time in: 1: 06 F9 C41lCheck: ___________Cal Out tinl:c o pj I Com~uwieni Examntnfifon lnfnrmua(io~

-~ -n I ~f4'~.Grlar~Ile,-

uzwtlnms@M-W4

__R1.

AN!!: Date-. /

K~

OU-AA-335-004 Revision I Page 12 of 14 ATTACHMENT 3 UT THICKNESS DATA SHEET PAGE 1 OF I F ULTRASONIC THICKNESS CALIBARATriON DATA SHEET Rcpnrl Nttnbcr:'

Unit: Da c:# / Pnl' of ____

Procedure Numubtx/Rcv': p V) - A FA- 3735 - 00 h?-. -i W/0-4 ,Ioqi42J4 Eisuipmen~riDtA Instrtumiieut InformaltIion Tfransduer 1narornsaion Mrniiincturcr:  ? ým--cIt Manufaciircmr: RANAME.2 ~rlIc IS ize , q 3 Model 3 7DL2WVj2 Serial Numtbe~r. 7, 7073-7-S Freq: ~ YK Serial Number 11 SLIyk: CDu A\1i ouplant:

Batch:

Cnllbrllaon Data Cualibratiots Hlack Callbration [lock Readings Type: Actim) (T): _(0c Muasured MT: - 06

,2.06 Cal Rik SN:

.100 Cal 1Bk Tempi ,

Tctup SIN ____ ' Soo Cal Time in:

• 30~ AP\ CAl C~heck: ____________ Cal Ow tial;e *:~~r.

CownponenCt Esamlinatios Infocrmation Comments:

Date; Reviwr Date:

j I (f+ ý6

OU-AA-335-004 Revision 1 Page 12 of 14 ATTACHMENT 3 ,

UT THICKNESS DATA SHEET PAGE I OF I F

ULITASONIC THICKNESS CALIBARA'FiON DATA SHEET R[{epo Number:'

Palge Of 7roccdure Nu..bu e: . D .. 3 s,5 -0,,S 0 4 o MvOO ýoeoos4Z(,ý Equipment flat Instrument Information Transducor Informallon Mot*,*rcturer: '-A 2 -r i e,< Manurlc :turcr. R NAGnc i,c: , q3 22 Model 3-1DL 911 jsýL ScritleN umber: 7 "., Freq: 5j* 2.

Serini"Nurntlcr oll iIiiq+/-LL0iL S-.yn: n L.\Cupi: UI-&rp Batch: 301E CnIlbrnt.aon Calibratiou Block Calibration Block Readings Type: Achmlj(T): ( 00 McSured(T): M: O/

Cal B smI-:7 .300 30 Cal BN Temp 66 , 34oo .____

,5Soo ____

~Tetp SIN P Cal Time in: t ' 0O PA Cal Check: Cai owt tie: 3: 30 ?NA Cornponont Examination Ininrmalion Date:

Date:

AN1i;

OU-AA-335-004 Revision 1 Page 12 of 14 ATTACHMENT 3 UT THICKNESS DATA SHEET PAGE I OFI r-uLTRASONIC THflICKNESS CALIBARA~rIoN DATA SHEET lRcpw1Nt~unbcr _________

Plant: SAUnit: Date: (Ifg_______'r Proceduec Nutnbur/Rcv; OQQ-kA-f~- ' 5 - 00o4 1e wIol, 69ooc424h,ý CituiflmOJnt'Nlm Instrument Inrormatlion Transducer lnf(rtIsrmatto fa t Maicmre: A, r I e,< Manufa ctttrcr: s -L 9~ 3 Serial Number. 707-3-7-S Freq:

Serial Nutmber Style: __________ Couplant: lullrie e, Batch:

Calibrutiin1DatA Calibration Block Calibration Bloc), Rteadings Actual (T): too melcatrd mB:

matedial.

Ca l ,kSIN:-0 .3 OD Cr BkTe

• AM TIc~pSIN W ,500 ~ _500 Cal Timetin: S" A rA Cail Civeck: Cal 0111time: I 1 :36 Ai~

Component Examination lnfnrmation ptic7 re1

.m Ml*~"~ ~~u~~.-.

-l -)A

~I'R _ ____ oPAttf UNN Commnnts:

Examiner . 1iJ1I\

& V .WiŽ Lvl Dote:

Rviewe:Dte 44- (1.4-L

OU-AA-335-004 Revision 1 Page 12 of 14 ATTACHMENT 3 UT THICKNESS DATA SHEET PAGE 1 OFI.

ts dý- ý6

i& rT ~r 3 zat4o of- 4G OU-AA-335-004 Revision 1 Page 12 of 14 ATTACHMENT 3 UT THICKNESS DATA SHEET PAGE 1 OF 1 F "ULTRASONIC THICKNESS CALIBARA'rION DATA SHEET RcpnAtN"nbcr.'

Plant: unSt: D 14/1 IN

~ate: 1b PIge (t Procedure Nu*ub*/Rev: L2- A- S35 - 00 . R.UA- __

E.quirimnnL Dsiui Instrument In rormation r'ransducer Informatic MaMuLtfacturcr , _ Manur'cturcr Size: q3 Modef 3"7DLV1 Serial Number. 7 o -.3-7S .r'q: 5 M1h SoriaiNunmber 0 1I 7q Style: Couplant: u+N'r i!

Batch: Qý 3"Z£"

Calibristion Data Calibra tion1 lock Calibration Block Readings Typa: Acial (T): 00 NwMcsured (T): ,____

Materint:

. %oh 2.o&

CatlElk SIN; Cal b1k Temmp Am L4o~Li Temp SIN W, (

, o,5 ,'Soo

!Cal lime in:,3 Cl Check: Cal o04ttime: I!" 06 AM Comrn*onent Fxamnation Informatian Exammner:, ,f I

MA A,- I. re Vc Date: / I b Seviewer: Dlate ANIL; d-( A