CP-201200354, Response to Request for Additional Information, 2RF12 Steam Generator Tube Inservice Inspection Report - TAC No. ME7345
| ML12109A051 | |
| Person / Time | |
|---|---|
| Site: | Comanche Peak  |
| Issue date: | 04/10/2012 |
| From: | Flores R Luminant Power |
| To: | Document Control Desk, Office of Nuclear Reactor Regulation |
| References | |
| CP-201200354, TAC ME7345, TXX-12066 | |
| Download: ML12109A051 (13) | |
Text
Rafael Flores Senior Vice President
& Chief Nuclear Officer rafael flores@Luminant.com Luminant Luminant Power P 0 Box 1002 6322 North FM 56 Glen Rose, TX 76043 T 254 897 5550 C 817 559 0403 F 254 897 6652 Ref. # 10CFR50.55a CP-201200354 TXX-12066 April 10, 2012 U. S. Nuclear Regulatory Commission ATTN: Document Control Desk Washington, DC 20555-0001
SUBJECT:
COMANCHE PEAK NUCLEAR POWER PLANT UNIT 2, DOCKET NO. 50-446 RESPONSE TO REQUEST FOR ADDITIONAL INFORMATION, 2RF12 STEAM GENERATOR TUBE INSERVICE INSPECTION REPORT - TAC NO. ME7345
REFERENCE:
- 1)
Luminant Power letter, logged TXX-11129, from Rafael Flores to the U. S. Nuclear Regulatory Commission dated October 12, 2011, 2RF12 Steam Generator Inservice Inspection 180-Day Report
Dear Sir or Madam:
By means of the letter in Reference 1, Luminant Generation Company LLC (Luminant Power) previously submitted the Comanche Peak Nuclear Power Plant (CPNPP) Unit 2 Model D5 steam generator tube inspection report for 2RF12 as required by Technical Specification 5.6.9.
Based upon questions provided by Mr. Balwant Singal of the NRC in an email dated March 12,2012, Luminant Power hereby provides the following additional information regarding the report detailed in Reference 1. The attachment to this letter contains the NRC questions and Luminant Power's response immediately following each question.
A member of the STARS (Strategic Teaming and Resource Sharing) Alliance Callaway - Comanche Peak
- Diablo Canyon - Palo Verde " San Onofre
- South Texas Project - Wolf Creek
U. S. Nuclear Regulatory Commission TXX-12066 Page 2 04/10/2012 This communication contains no new licensing basis commitments regarding Comanche Peak Unit 2.
Should you have any questions, please contact Mr. Jim Barnette at (254) 897-5866.
Sincerely, Luminant Generation Company LLC Rafael Flores By:
&AAd Russell B. Mays Vice President, Nuclear Engineering and Support Attachment -
Luminant Power Response to Request for Additional Information, 2RF12 Steam Generator Tube Inspection Report - TAC No. ME7345 c -
E.E. Collins, Region TV B. K. Singal, NRR Resident Inspectors, Comanche Peak
j Attachment to TXX-12066 (10 pages not including this cover page)
Comanche Peak Nuclear Power Plant Luminant Power Response to Request for Additional Information 2RF12 Steam Generator Tube Inspection Report TAC No. ME7345 Docket No. 50-446
Attachment to TXX-12066 Luminant Power Response to Request for Additional Information 2RF12 Steam Generator Tube Inspection Report TAC No. ME7345
- 1. Please clarify the following:
- a. Please clarify if Footnote I on Page 6 of the Enclosure should refer to preheater baffle plate D (C3), not C (C3).
Luminant Response:
Correct. The note should read "Tube R42C94 in SG 1 was expanded at preheater baffle plate E (C4) in addition to plates B (C2) and D (C3). Hence support plate E is included in the inspection program when the tube R42C94 in SG I is selected for preheater baffle plate +Point inspection."
- b. Please clarify if Table 2-7 (Page 14) of the Enclosure should refer to tube R8C3 or R8C4, in the object description of object number EC 1-01.
Luminant Response:
It should be R8C3. The item description should read "Legacy part (no change). Rough Metal Strip wedged in place. Wedged in between R7C3, R8C2 and R8C3)"
- c. Page 31 of the Enclosure provides Operational Assessment Conclusion in Section 4.4. Please clarify if as part of the operational assessment for the next operating cycle, the calculated accident induced leakage rate from the portion of the tubes below 16.95 inches from the top of the tubesheet for the most limiting accident in the most limiting SG was zero.
Luminant Response:
Correct. During the normal operation of Cycle 12 there was no measurable primary-to-secondary leakage in any SG. Consequently the estimated leakage during the upcoming operating cycle is zero. Based on the inspection results and the reported degradation, accident leakage expected from indications above the reference location (of 16.95 inch below the top of the tubesheet) in the upcoming cycle is zero. Hence the adjusted allowable operating leakage as per Regulatory Commitment number 37796791, is 455 gpd (= I gpm x 60 x 24 / 3.16), which is higher than the technical specification limit. Hence no change in the operational leakage limit needs to be implemented for the upcoming fuel cycles until the next inspection.
1 This commitment is documented in the letter dated April 6, 2011, from Balwant K. Singal, USNRC, to Rafael Flores, Luminant Generation Company LLC, "Comanche Peak Nuclear Power Plant, Units I and 2
- Issuance of Amendments to Modify Technical Specifications to Establish Alternate Repair Criteria for Steam Generator Program (TAC NOS. ME51 10 and ME51 11)." (ADAMS Accession No. ML110770322) 1
Attachment to TXX-12066
- 2. Page 20 of the Enclosure describes Secondary Side Integrity in Section 3.3. Please provide the scope and results of your upper bundle inspection in SG4 (e.g., was any degradation observed of any of the secondary side internals, were the tube support openings clear of deposits, etc).
Luminant Response:
An upper bundle inspection was performed in SG 4 during 2RF12. In this inspection, support plates "L" and "P" were inspected. The columns inspected on both the hot and the cold leg sides are listed below:
Column Gap 71-72 Column Gap 97-98 The following results of the inspection were captured from the 2RF12 video inspection report.
Support Plate L The tube lane in support plate L contains a partition plate in the oval flow slots, which was intact. The patina color of the tubes in the cold leg was clearly visible.
The hot leg tubes have a fine layer of deposit (magnetite). The quatrefoil flow holes were open and clean.
The hot leg column gaps 70-71, and 71-72 show that the hot leg tubes contain a fine layer of speckled magnetite deposit. Similar trends of deposits were observed in the hot leg column gap 97-98. The wrapper block welds at the end of the each column gap were inspected. The welds were found to be intact with no visible structural degradation. The stayrod in column gap 70-71 was also inspected from that view point and no structural issues were identified.
The cold leg column gaps 70-71, 71-72 and 97-98 were inspected. The patina color of the tubes was clearly visible and the cold leg tubes in general do not contain a thin film of magnetite as compared to the hot leg. The wrapper block welds at the end of the each column gap were inspected. The welds were found to be intact with no visible structural degradation. The stayrod in column gap 70-71 was also inspected from that view point and no structural issues were identified.
In both the hot and cold leg, the quatrefoil flow holes remain open and free of significant deposit, with slightly more deposit formation noted on the hot leg.
The center stay rod in the tube lane and the wrapper block welds located on the nozzle side were inspected from the tubelane and found to be intact with no visible structural degradation.
Support Plate P The center stay nut was in good condition with no noticeable degradation and the welds were intact. The flow holes in support plate P were clean. The U-bend region of tubes contained a light dusting of speckled deposits. There was only a light layer of magnetite on the U-bend tubing. The wrapper block weld located at the nozzle side was viewed from the tube lane and was found to be intact with no visible structural degradation.
2
Attachment to TXX-12066 The hot leg column gaps 71-72 and 97-98 were clean with some speckled deposits noted on the tubes. Views of the quatrefoils revealed that they were open and free of significant deposit Some speckled magnetite deposits were noted on the tubes and flow holes. The wrapper block welds at the end of the column gap 97-98 were inspected. The welds were found to be intact with no visible structural degradation. The stayrod cap and weld in column gap 70-71 was also inspected from that view point and no structural issues were identified.
The cold leg column gaps 71-72 and 97-98 were clean and free of deposits. The quatrefoil flow holes were also free of deposits. The wrapper block welds at the end of the each column gap were inspected. The welds were found to be intact with no visible structural degradation.
During the video inspection, the probe was pushed through the flow slot in support plate P in order to view the top of support plate N. The flow holes in support plate N were also free of deposits. The tubes in the hot leg contained a light dusting of magnetite deposits.
- 3. Table 3-1 (Page 21) and Table 3-4 (Page 24) of the Enclosure provide Summary of Anti-Vibration Bar (AVB) Wear Indications and Summary of Loose Part Wear Indications.
Please provide the location, orientation (if linear), and measured sizes (if available) of the service induced indications. Your submittal does not contain the information for the wear indications at the AVBs.
Luminant Response:
Table 1 (attached) shows the inspection results for AVB wear indications. These are results of bobbin probe inspection and hence orientation information is unavailable. However, since fretting wear affects an area adjacent to the AVB, the tube wall loss is volumetric. Location of the indication is depicted by the columns titled "Locn" and "Inch1". The Locn column shows the reference structure location AVI, AV2, AV3 or AV4; these are AVB locations counted from the hot leg and progressing along the U-bend to the cold leg. The Inch1 column shows the distance from the center of the reference structure (AVB) to the (center of the) flaw indication. The indicated wear depth as a percentage of tube wall thickness is shown in the column titled "Per".
In the case of loose part wear indications, all of the pertinent data was listed in Table 3-4 of the original submittal. These are +Point inspection results. The bobbin inspection data was not interpreted for wear depth measurement. Table 2 (attached) shows both the bobbin and +Point probe inspection results for these locations. Only three loose part wear indications in two tubes were reported during 2RF12 as shown in the table. The description of the column titles for location and depth in the preceding paragraph also apply to Table 2 and to Table 3-4 of the original submittal. The Locn entry of C1 refers to the flow distribution baffle on the cold leg side.
3
Attachment to TXX-12066 Table 1. Comanche Peak 2RF12 AVB Wear Indications (Page 1 of 6)
SGID Outage Row Col Volts Oeg Ind Per Chn Locn Inchli BegT EndT PDia PType 1
U2RF12 25 8
0.8 0 PCT 11 P2 AV3 0 HTE GTE 0.61 ZBAZ1 1
U2RF12 30 11 1.04 0 PCT 15 P2 AV1 0 HTE CTE 0.61 SBACC 1
U2RF12 30 11 1.31 0 PCT 19 P2 AV3 0.21 HTE CTE 0.611 SBACC 1
U2RF12 31 11 0.71 0 PCT 12 P2 AV1 0.19 HTE CTE 0.61 SBACC 1
U2RF12 31 11 0.8 0 PCT 13 P2 AV3 0 HTE GTE 0.611 SBACC 1
U2RF12 31 11 0.63 0 PCT 10 P2 AV4 0 HTE CTE 0.61 SBACC 1
U2RF12 30 12 1.71 0 PCT 21 P2 AV2 0 HTE [ CTE 0.611 ZBAZ1 1
U2RF12 31 12 1.34 0 PCT 17 P2 AV3 0 HTE CTE 0.61 ZBAZ1 1
U2RF12 32 12 1.56 0 PCT 19 P2 AV2 0 HTECTE 0.61 ZBAZ1 1
U2RF12 34 13 2.37 0 PCT 27 P2 AV2 0 HTE CTE 0.61 SBACC 1
U2RF12 34 14 1.12 0 PCT 15 P2 AV3 0 HTE CTE 0.61 ZBAZ1 1
U2RF12 35 14 0.87 0 PCT 12 P2 AV2
-0.03 HTE CTE 0.61 ZBAZ1 1
U2RF12 36 15 0.79 0 PCT 13 P2 AV2 0 HTE TCE 0.61 SBACC 1
U2RF12 36 15 0.98 0 PCT 15 P2 AV3 0 HTE CTE 0.611 SBACC 1
U2RF12 35 16 0.871 0 PCT 12 P2 AV2 0 HTE CTE 0.61 ZBAZ1 1
U2RF12 36 16 1.66 0 PCT 20 P2 AV3 01 HTE CTE 0.61-ZBAZ1 1
U2RF12 37 16 1.98 0 PCT 23 P2 AV2 01 HTE CTE 0.61 ZBAZ1 1
U2RF12 37 16 1.98 0 PCT 21 P2 AV2 0 HTE CTE 0.61 ZBAZC 1
U2RF12 38 17 3.23 0 PCT 31 P2 AV2 0 HTE CTE 0.61 SBACC 1
U2RF12 35 17 0.91 0 PCT 13 P2 AV4 0 HTE CTE 0.61 SBACC 1
U2RF12 37 17 3.2 0 PCT 32 P2 AV2 0 HTE CTE 0.61 SBACC 1
U2RF12 39 17 0.86 0 PCT 13 P2 AV3 0 HTE CTE 0.61 SBACC 1
U2RF12 39 17 2.12 0 PGT 12 P2 AV2 0 HTE CTE 0.61 SBAGC 1
U2RF12 39 17 0.84 0 PCT 13 P2 AV3 0 HTE CTE 0.61 SBAG1 1
U2RF12 39 17 0.83 0 PCT 13 P2 AV2 0 HTE cTE 0.61 SBAZ1 1
U2RF12 37 20 0.83 0 PCT 13 P2 AV2 0 HTE CTE 0.61 ZBAZ1 1
U2RF12 403 20 2.83 0 PCT 29 P2 AV2 0 HTE CTE 0.61 ZBAZ1 1
U2RF12 40 20 3.9 0 PCT 13 P2 AV2 01 HTE CTE 0.61 ZBAZI 1
U2RF12 40 20 0.94 0 PCT 13 P2 AV3 0_ HTE CTE 0.61 ZBAZ1 1
U2RF12 41 20.0.9 0 PCT 13 P2 AV4 0 HTE CTE 0.61 ZBAZ1 1
U2RF12 41 20 0.93 0 PGT 13 Pý2 AV OIHE GTE 0.611 ZBAZ1 1
U2RF12 44 23 0.78 0 PCT 12 P2 AV4 0
HTE CTE 0"61i SBACC I _U2RF12 44 25 1.43 0 PGT 20 P2 AV2 0
HTE CTE__0.61 SBAGC 1
U2RF12 45 26 2.64 0 PCT 28 P2 AV2 0 HTE CTE 0.611 ZBAZ1 1
U2RF12 45 26 0.89 ____0 PCT 12 P2 AV3 0 HTE GTE 0.611IZBAZ1 I
U2RF12 44 27 1.12 0 PCT 16 P2 AV2 0
HTE CTE 0.611 SBACC I
U2RF12 46 27 0.69 0 PCT 11 P2 AV1 0 HTE CTE 0.61 SBACC 1
U2RF12 46 27 1.21 0 PCT 17 P2 AV2 0 HTE CTE 0.611 SBACC 1 -_ U2RF12 46 27 0.62 0 PCT 10 P2 1 AV4 0
HTE CTE 0.61} SBACC
'1 U2RF12 45 29 0.96 0 PCT 15 P2 AVI
-0.19 HTE CTE 0.61 SBACC
-I U2RF12 45 29 1.01 0 'PCT 15 P2 AV2
-0.22 HTE CTE 0.61 SBACC
'1
-- U2RF12 45 29 0.85 0 PCT 14 P2 AV3
-0.19 HTE CTE 0.61 SBACC I
U2RF12 401 30 1.32 0 PCT 19 P2 AV2
-0.11 HTE CTE 0.61 SBACC "1_
U2RF12 40 30 1.141 0 PCT 17 P2 AV3
-0.33 HTE CTE 0.61 SBAGC - U2RF12 40 30 1.2 0 PCT 19 P2 AV4
-0.14 HTE CTE 0.61 SBACC
-1 U2RF12 48 30 0.54 PCT 11 P2 AV1
-0.11 HTE CTE 0.61 ZBAZI r1 U2RF12 40 31 0.71 0 PCT 10 P2 AVI 0
HTE CTE 0.61 ZBAZ1 1
U2RF12 40 31 1.41 0 PCT 18 P2 AV2 0 HTE CTE 0.61 ZBAZI
'i
,U2RF12.
401 31 1.91 01 PCT 22 P2 AV3 0 HTE G
CTE 0.61 ZBAZ1 I
U2RF12 401 311 1.44 01 PCT 181 P2 I AV4 01 HTE I CTE 0.61 ZBAZ1 181 P2 I AW HTE I CTE 4
Attachment to TXX-12066 Table 1. Comanche Peak 2RF12 AVB Wear Indications (Page 2 of 6)
SGID Outage Row Col Volts Deg Ind Per Chn Locn Inchl BegT EndT PDia PType 1
U2RF12 46 31 1.55 0 PCT 21 P2 AV2 0.03 HTE CTE 0.61 SBACC 1
U2RF12 46 31 1.22 PCT 19 P2 AV3 0.16 HTE CTE 0.61 SBACC 1
U2RF12 46 31 2.07 0 PCT 25 P2 AV4
-0.13 HTE CTE 0.61 SBACC 1
U2RF12 41 32 0.9
__PCT 16 P2 AV2 0.13 HTE GTE 0.61 ZBAZ1 1
U2RF12 35 34 1.32 PCT 18 P2 AV2 0.24 HTE CTE 0.61 ZBAZI 1
U2RF12 35 34 0.871 PCT 13 P2 AV3 0.21 HTE CTE 0.61 ZBAZ1 1
U2RF12 45 34 1.1 PCT 18 P2 AV2 0.14 HTE CTE 0.61 ZBAZ1 1
U2RF12 45 34 1.02 PCT 17 P2 AV3
-0.08 HTE CTE 0.61 ZBAZ1 I
U2RF12 43 35 0.86 0 PCT 14 P2 AV2
-0.24 HTE CTE 0.61 SBACC 1
U2RF12 34 36 0.65 0 PCT 12 P2 AV4 0.09 HTE CTE 0.61 SBACC 1
U2RF12 38 36 0.7 PCT 11 P2 AV2 0.22 HTE CTE 0.61 ZBAZI 1
U2RF12 40 41 0.91 PCT 16 P2 AV4
-0.05 HTE CTE 0.61 SBACC 1
U2RF12 40 43 2.9 0 PCT 31 P2 AV2
-0.13 HTE CTE 0.61 SBACC 1 I U2RF12 40 43 3.19 0 PCT 33 P2 AV3 0.11 HTE CTE 0.61 SBACC 1
U2RF12 40 43 1.71 PCT 24 P2 AV4 0.08 HTE GTE 0.61 SBACC 1
U2RF12 40 45 1.2 PCT 19 P2 AV2 0.08 HTE CTE 0.61 SBACC 1
U2RF12 47 50 0.7 0 PCT 13 P2 AV4
-0.19 HTE CTE 0.61 ZBAZI 1
U2RF.2 33 56 0.77 PCT 12 P2 AV3 0.17 HTE CTE 0.61 SBACC 1
U2RF12 49 56 1.28 PCT 18 P2 AV4 0.11 HTE ICTE 0.61 SBACC 1
U2RF12 40 60 1.22 0 PCT 16 P2
. Av4 0.71 HTE CTE 0.61 SBACC 1
U2RF12 44 60 0.46 0 PCT 6
P2 AV3
-0.16 HTE CTE 0.61 SBACC 1
U2RF12 40 71 1.19 0 PCT 17 P2 AV1 0 HTE CTE 0.61' SBACC 1
U2RF12 40 74 1.08 0 PCT 15 P2 AV1 0.39 HTE CTE 0.61 SBACC I
U2RF12 43 77 1.45 0 PCT 20 P2 AV4 0
HTE CTE 0.61 SBACC I
U2RF12 39 78 1.17 0 PCT 16 P2 AV3
-0.11 HTE GTE 0.61 SBACC 1
U2RF12 39 78 1.57 0 PCT 20 P2 AV4 0.521 HTE CTE 0.61 SBACC 1
U2RF12 45 79 2.96 0 PCT 31 P2 AV4 0 HTE CTE 0.61 SBACC 1
U2RF12 43 81 1.26 0 PCT 17 P2 AVi 0
HTE CTE 0.61 SBACC 1
U2RF12 43 81 2.19 0 PCT 25 P2 AV2 0
HTE CTE 0.61 SBACC 1
U2RF12 43 81 2.87 0 PCT 27 P2 AV3 0.08 HTE__
CTE 0.61 SBACC I 1
U2RF12 45 82 0.73 0 PCT 12 P2 AV1
-0.251 HTE CTE 0.61 SBACC 1
U2RF12 45 82 1.06 0 PCT 16 P2 AV2 0.34 HTE CTE 0.61 SBACC I
U2RF12 45 82 0.8 0 POT 13 P2 AV4
-0.03 HTE CTE 0.61 SBACC 1
U2RF2 45 83 2.56 011 POT 251 P2 AV2
-0.251 HTE GTE 0.61 -SBAC 1
U2RF12 46 83 2.6 01 POT 25 P2 AV2 0.24 HTE CTE 0.61 SBACC 1
U2RFI2 45 84 1.36 0 POT 19 P2 AV2 0.05 HTE GTE 0.61 SBAGCC 1
U2RF12 45 84 1.651 0 POT 21 P2 AV3 0.15 HTE GTE 0.61 SBAOO 1
U2RF12 45 84 2.16 01 POT 25 P2 AV41 0.141 HTE GTE 0.61 SBAGG 1
U2RFI2 331_
86 1.08 POT 16 P2 AV2 0.08 HTE G-TE 0.61.SBAGO 1
U2RFI2 331 86 0.91 POT 15 P2 AV3 0.05 HTE GTE 0.61 SBAOO 1
U2RFI2 46 86 0.64 POT 11 P2 AVI
-0.11 HTE GTE_
0.61 SBAGG!I 1
U2RF12 46 86 3.56 0 POT 33 P2 AV2
-0.05 HTE G TE-0.61 SBAOO 1l U2RF12 46 86 1.7 0 POT 20 P2 AV3
- 0. 13 HTE G-TE 0.61 SBACC 1l U2RF12 43 87 1.3 POT 17 P2 AVI 0.13 HTE GTE 0.61 SBAGO r1 U2RFl2 43 87 2.15 0 POT 23 P2 AV2
-0.03 HTE GTE 0.61 SBAGO-1i_
U2RF12~ 431 87 1.68 0 POT 19 P2 AV3 0.08 HTE GTE 0.61 SBAGO 1l U2RF12 45 87 1.261 0 POT 17 P2 AV2 0 HTE GTE 0.61 SBAGOC 1 _U2RFI2 45 87 2.74 0 POT 26 P2 AV3 0
OHTE GTE 0.61 SBAOO 1i U2RF12 45 87 1.41 0 POT 1 7 P2 AV4 0.031 HTE OTE 0.61 SBAOO 11 _U2RFI2 42 88 1.42
___POT f20 P2_I AV3 0.081 HTE GTE 0.61 SýBAGO I 5
Attachment to TXX-12066 Table 1. Comanche Peak 2RF12 AVB Wear Indications (Page 3 of 6)
SGID I
1 1
Outage!
U2RFI2 U2RFI 2 U2RF12
_ Row Col 38_'
-89 Volts!
DegI Ind Per Chn ý Locn I InchlI BegT EndT r-C-TE-1.67 0 PCT 191 P2 1 AVI1 0.051 HTE 381 891 2.9 0 PCT 271 P2 I AV2 0
381 891 1.52 01 PCT 181 P2 LAV4 t
ý, ý
ý 0
0 HTE HTE HTE 1
1 U2RF12 U2RF-2 URiký2' 391 89! 1.11 0
PCT 15! P2 I AV2 GTE CTE GTE CTE PDia-PType 0.611 SBACC
-0.61! SBACC1 0.61 SBACC 0.61 SBACC 0.61 SBACC
-0. 61-- SAGCC 0.61 SBACCG i
46§ 89
-- 461 189 1.421 0 PC j
17P2IA2 0.051 HTE 2.051 0! PCT 1 22!
P2 I AV4 1 -0.05! HTE T_
TU2Rý12 [
0
_ I-ju2RF12u 36' 901 1.11 1 1 FUi:2_RF1i2I 381 901 0.98 l
t0___0 PCT PCT 15----! P2 AV1 1 0.03 161 P2 I AV4 I 0.17 HTE HTE HTE CTE CTE 0.61, SBACC CTE
-O.611 SBACC
-1 JU2RF12 1
-U2RF-12 381-90
-190 41t o9 1 rU2RF12 90 2 '
1__
1.09 2,11
_1.08 0.88 1.01 PCT[
17_
P2 I AV4_1 0.14 PCT 251 P2 tAV2 I 0.14 I1 1
1
'U2RFI2
'U2RF12 SU2RF 12 39!
91 391 91 HTE HTE
-HTE CTE GTE CTE 0.61 0.61 0.651
- 0 0
PCT 151 P2 I AV4
-0.16 PCT 131 P2
'AV1 PCT 1 13! P 2tAVV2
-i-..
.4 -
-f
. - L -.
0 PCT 13 T__
___'t2 rU ýRl 39 91!
1.44 0
0 i
1 U2RF12 41!
93!
1.4 PCT PCT 17 17 P2 I AV3 P2 IAV4
__ 0- HTE 0 FITE 0 HTE 0 HTE 0.03 HTE CTE CTE CTE GTE CTE 0.61 0.61 0.61 0.61 0.616-SBACC SBACC SBACC SBACC SBACC SBACC SBACC SBACC 1
!U2RF12 411 93!
1.74 0
21!
P2 I AV3 0! HTE I CTE 1 0.61! SBACC 1
I U2RF12 431 931 1.13 0! PCT 16!
P2 I AV3 0 HTE 1
1 I
U2RF12 U2RF12 U2RFI2 41 94 2.61 0-411 94!
0.81!
0 PCT 27! P2 I AV2 0.12 HTE HTE CTE 0.61 CTE 0.61 CTE (0.61 PCT 11!
P2 I AV3
-0.11 IIJ P2 V3 HTE
ý
-42 941 3.08
)
1 I
1 U2RF12 1 41!
U2RF121 391 951 1.4 96!
1.4
-0.4! HTE GTE 17 18 11 P2 P2 P2 AV3 AV4 AVI 0.03
-0.03 0
4 4 ~--
4 U2RF12 33!
97-f-------.-4 1
1 U2RF12 40!
97! 1.19 161 P2 I AV3
_1 IU2RF121 361.
981 0.98
-1 U2RF-121 361 981 1.13 0' PCT 0 PCT 0 PCT 14 16 13 P2 P2 P2 AVI AV3 AVi 0
0.08 0.03
-0.08 HTE HTE HTE HTE_
HTE FITE HTE CTE GTE CTE
'* CTE_
cTE GTE GTE 0.61 0.61 0.61 0.61 0.61 0.61 0.61 0.61 0.61 SBACC SBACC SBACC SBACC SBACC SBACC SBACC SBACC SBAGC SBAGG SBAGC SBAGG SBAGG SBAGG S--S-C--
SBACC SBACC SBACC SBACC 1
1 I
1 LU2RF1 2 U2RF12 U2RFI2 U2RF12 38 38 38 98
'98 98 98' 0.92
[
[
I I
0.91 1.38 01 PCT 131 P2 I AV2
--- 4....
0.08 HTE {_GTE
-0.11! HTE !GCTE 0! PCT 18! P2 1 AV3
-ý 4---~--4-----4------
0.87 PCT 151 P2 I AV4 0.08! HTE l 0.6 1 11 U2RF121 321 991 0.771 0
1 U2RF121 d 6!
99!
0.77!
0_
PCT 12!
P2 I AV3 0
HTE
' PCT 111 P2 I!AV2 0.11 HTE CTE-1 0.61
"--U2RF12 36 99 [-3.09 0- PT-11P2
-A3- _0 H1 CPTE 0.61 0_61 G
U2RF12 17 21 AV3 0.03H 0.61 U2RF12 38 99 1.41 0 PCT 17 _8 P2_AV 0.03 HTE GTE 0.61 1
U2RF12 38-99 1.33 0 PGT 18 P2 AV2 0! HTE.GTE 0.61 SBACC I ___
-_____BAC I U2_RF12 1 384 99 183
-0 _PGT 20 P2 AV3 0.03 FITE GTE 0.61 SBAGG 1 U2RF2 38 99 1.17 0 PCT 1
P2 0
AV4 0 HTE CTE 0.61 SBAGG r-1_
U2RF12 133 __190 0069 0 PCT 10__P2 AV3 0.08 HTE GTE!
0_.61! SBAGGC I-1-U2RF-12 34 100 1.53 0 PCT 22 P2 AV3 0.05! HTE CTEI 0.61 SBACC 1l U2RF12 35]
100k 10.15
-0 PGT 16 P2 AV3"---O.3-HTE-E 0.61 SBACC 1
U2RF12 36]100 0.98 0 PCT 14 P2 AV2
-0.031_HTE GTE**EO.
SBAGC
-_RF_-2
-35_
101 1.83 0 PCT 231 P2 JAV2
-0.16 HTE GTE!
0.61 SBACC tII U2RFI2 35!
101 1.09 0PGT 15j P2 AV3 0.33 HTE GTE 10.61! SBAGG 7I-U2Rý
-- 351*_
t1--.68 0-PCT 20! P2-AV4-0.26 HTE GTE 0.61 SBACC
--..208CT HP-2 AV1**
-' CTE 0.61 SBAGC 1 1 U2RF12 33 M.___H________+___
U2RFI2I 34 1021 2.591 0! PCT 1 28 P2 1 AV2 1_
01 HTE_
CGTE 1021 1.261 0] PT!_1 P21 Ayi j__01 HTE j GTE 0.611 SBACC 0.61! SBACC 6
Attachment to TXX-12066 Table 1. Comanche Peak 2RF12 AVB Wear Indications (Page 4 of 6)
SGID Outage Rows Col Volts Deg Ind Per Chn Locn Inchl BegT EndT PDiaj PType 1
U2RF12 34 102 1.3 0 PCT 17 P2 AV2 0.08 HTE GTE 0.61 SBACC 1
U2RF12 34J 102 2.24 0 PCT 25 P2 AV4 0.03 HTE CTE 0.611 SBACC I 1
U2RF12 31 103 1.3 0 PCT 17 P2 AV3
-0.08 HTE CTE 0.61 SBACC I I
U2RF12 32J 103 1.08 0 PCT 15 P2 AV2
-0.16 HTE CTE 0.61 SBACC I 1
U2RF121 33}
103 1.29 0 PCT 17 P2 AV2
-0.21 HTE CTE 0.61 SBACC 1
U2RF12 28 104 0.86 0 PCT 131 P2 AV1 0
HTE CTE 0.61 SBAC'C 1
U2RF12 28 104_ 0.78 0 PCT 12 P2 AV4 0
HTE CTE 0.61f SBACC 1
U2RF12 30 104 0.66 0 PCT 10 P2 AV1 0
HTE CTE 0.61 SBACC 1
U2RF12 28 105 0.99 0 PCT 14 P2 AV2 0
HTE CTE 0.61 SBACC 1
U2RF12 23 108 0.71 0 PCT 12 P2 AV2
-0.03 HTE CTE 0.61 SBACC 2
U2RF12 27 8
2.94 0 PCT 29 P2 AV2
-0.03 HTE CTE 0.61 ZBAZC 2
U2RF12 27 8
5.54 0 PCT 39 P2 AV3
-0.15 HTE CTE 0.611 ZBAZC 2
U2RF12 27 8
3.04 0 PCT 31 P2 AV2
-0.11 CTE HTE 0.611 ZBAZC I 2
U2RF12 27 8
3.49 0 PCT 44 P5 AV3
-0.18 CTE HTE 0.611 ZBAZC 2
U2RF12 26 9
0.75 0 PCT 12 P2 AV2
-0.22 HTE CTE 0.61 ZBAZC 2
U2RF12 30 10 3.59 0 PCT 31 P2 AV1 0
HTE CTE 0.611 ZBAZC 2
U2RF12 30 10 4.49 0 PCT 35 P2 AV2
-0.05 HTE CTE 0.61 ZBAZC 2
U2RF12 30 10 3.74 0 PCT 32 P2 AV3 0
HTE CTE 0.61 ZBAZC 2
U2RF12 30 10 0.72 0 PCT 11 P2 AV4 0.49 HTE CTE 0.61 ZBAZC 2
U2RF12 30 11 1.5 0 PCT 19 P2 AV2 0.31 HTE CTE 0.61 ZBAZC I 2
U2RFi2 30 11 1.34 0
PGT 17 P2 { AV3 0
HTE GTE 0.61 ZBAZC 2
U2RF12 34 13 2.03 0 PCT 22 P2 AV2 0
HTE CTE 0.61 SBACC 2
U2RF12 34 13 1.33 0 PCT 16 P2 AV3 0.11 HTE CTE 0.61 SBACCI 2
U2RF12 39 19 1.87 0 PCT 22 P2 AV2
-0.22 HTE CTE 0.61 ZBAZC 2
U2RF12 39 19 1.35 0 PCT 18 P2 AV3
-0.25 HTE CTE 0.61 ZBAZC 2
U2RF12 39 19 1.31 0 PCT 18 P2 AV4
-0.06 HTE CTE 0.61 ZBAZC 2
U2RF12 40 29 1.68 PCT 20 P2 AV2 0.08 HTE CTE 0.61 SBACC 2
U2RF12 40 29 2.08 PCT 23 P2 AV3 0.08 HTE CTE 0.61 SBACC
-2 U2RF12 39 34 1.26 0 PCT 17 P2 AV2
-0.06 HTE CTE 0.61 SBACC 2
U2RF12 39 34 1.83 PCT 1 23 P2 AV3 0
HTE CTE 0.61 SBACC 2
U2RF12 41--
34 1.25 0 PCT 19 P2 AV3 0.05 HTE CTE 0.61 SBACCG 2
U2RF12 45 37 0.9 0 PCT 15 P2 AV1 0
HTE CTE 0.61 SBACC 2
U2RF12 38 56 1.04 0 PCT 15 P2 AV3 0.14 HTE CTE 0.61 SBACC
_2 U2RF12 48 56 0.81 0 PCT 12 P2 AV2
-0.08 HTE CTE 0.61 SBACC 2
U2RF12 47 59 2.75 0 PCT 29 P2 AVi
-0.08 HTE GTE 0.61 SBACC 2
U2RF12 47 59 0.89 0 PCT 15 P2 AV2 0.08 HTE CTE 0.611 SBACC 2
U2RFI2 47 59 1.38 0 PCT 20 P2 AV3 0.14 HTE CTE 0.61 SBACC 2
U2RF12 47 59 2.98 0 PCT 30 P2 AV4 0
HTE CTE 0.61 SBACC 2
U2RF12 481 69 1.47 0 PCT 19 P2 AV4 0.05 HTE CTE 0.61 SBACC 2
U2RF12 461 75 0.93 0 PGT 13 P2 AV3
-0.16 HTE CTE 0.61 SBACC 2
U2RF12 461 75 1.42 PCT 18 P2 AV4 0
HTE CTE 0.61 SBACC 2
U2RF12 37 76 1.09 0 PCT 14 P2 AVI 0
HTE CTE 0.61 SBACC 2
U2RF12 37 76 0.91 0 PCT 13 P2 AV2
-0.22 HTE CTE 0.61 SBACC 2
U2RF12 381 76 0.93 0 PCT 13 P2 AV2
-0.11 HTE CTE 0.61 SBACC 2
U2RFI2
- 40.
76 0.85 0 PGT 21 P2 AV2 0
HTE CTE 0.61 SBACC 2
U2RF12 331 86 1.28 0 PCT 17 P2 AV2
-0.03 HTE CTE 0.61 SBACC 2
U2RF12 331 86 0.9 0 PCT 13 P2 AV3 0 HTE ICTE 0.61 SBACC 2
U2RF12 401 86 1.08 0 PCT 15 P2 AV2
-0.19 HTE I CTE _0.61 SBACCI
-2 2RF1g_ ____
86[ 0.95
- 0. PGT 13 P2 AV3 0.05 - HTE_
GTE 0
SBACC I 1 2 U2RF12 471 881 1.36 01 PGT 181 P2 I AV4 0.081 HTE I GTE 0.611 SBACC I 7
Attachment to TXX-12066 Table 1. Comanche Peak 2RF12 AVB Wear Indications (Page 5 of 6)
SGID Outaget Row o
Col Vo2lts Deg Ind Per Chn Locnilnchl BegT EndT PDia PType 2
U2RF12 44 89 2.91 0 PCT 28 P2 AV2
-0.031 HTE CTE 0.61 SBACC 2
U2RF12 44 89 2.14 0 PCT 23 P2 AV3 0.11 HTE CTE 061 SBACC 2
U2RF12 44 89 1.141 0 PCT 15 P2 AV4 0.16 HTE CTE 0.61 SBACC 2
U2RF12 44 91 1.08 0 PCT 15 P2 AV3 0.06 HTE CTE 0.61 SBACC 2
U2RF12 45 91 1.73 PCT 22 P2 AV3 0.05 HTE CTE 0.611 SBACC 1 2
U2RF12 45 91 1.6 PCT 21 P2 AV4 0 HTE CTE 0.61 SBACC 2
U2RF12 36 99 3.12 0 PCT 29 P2 AV2
-0.05 HTE CTE 0.61 SBACC 2
U2RF12 30 104 1.3 0 PCT 17 P2 AV1 0.03 HTE CTE 0.61 SBACC 2
U2RF12 30 104 0.75 0 PCT 11 P2 AV4 0.03 HTE CTE 0.61 SBACC 2
U2RF12 24 108 1.12 0 PCT 15 P2 AV4 006 HTE CTE 0.61 SBACC 3
U2RF12 32 12 1.49 0 PCT 21 P2 AV2 0.17 HTE CTE 0.61 SBACC I 3
U2RF12 33 17 0.92 PCT 13 P2 AV3 0.14 HTE CTE 0.61 ZBAZC 3
U2RF12 41 24 0.96 0 PCT 16 P2 AV3 0.03 HTE CTE 0.61 SBACC 3
U2RF12 43 24 0.61 0 PCT 11 P2 AV2 0 HTE CTE 0.61 SBACC 3
U2RF12 491 35 0.89 0 PCT 16 P2 AV4
-0.05 HTE CTE 0.61 SBACC 3
U2RF12 49 36 1
0 PCT 14 P2 AV4
-0.06 HTE CTE 0.61 SBACC 3
U2RF12 49 38 0.88 0 PCT 13 P2 AV1 0.18 HTE CTE 0.61 SBACC 3
U2RF12 49 38 0.6 0 PCT 10 P2 AV4 0.36 HTE CTE 0.61 SBACC 3
U2RF12 49 42 0.81 0 PCT 12 P2 AV4 0.38 HTE GTE 0.61 SBAG_
3 U2RF12 49 43 0.53 0
PCT 11 P2 AV1 0.03 HTE CTE 0.61 SBACC 3
U2RF12 49 47 0.42 0 PCT 9
P2 AV1 0.16 HTE CTE 0.61 SBACC 3
U2RF12 49 49 0.46 0 PCT 10 P2 AV1
-0.59 HTE CTE 0.61 SBACC 3
U2RF12 49 49 0.73 0 PCT 14 P2 AV4 0.36 HTE CTE 0.61 SBACC 3
U2RF12 17 56 2.31 0 PCT 26 P2 AV4
-0.13 HTE CTE 0.61 SBACC 3
U2RF12 48 62 0.74 0 PCT 14 P2 MAV -0.22 HTE CTE 0.61 SBACC 3
U2RF12 49 64 0.44 0 PCT 9
P2 1AV -0.19 HTE GTE 0.61 SBACC 3
U2RF12 49 67 0.61 0 PCT 10 P2 AV1
-0.28 HTE CTE 0.61 ZBAZC 3
U2RF12 43 68 1.06 0 PCT 18 P2 AV2
-0.11 HTE CTE 0.61 SBACC 3
U2RF12 43 68 0.84 0 PCT 15 P2 AV3 0.3 HTE CTE 0.61 SBACC 3
U2RF12 49 68 0.78 0 PCT 14 P2 AVI 0
HTE CTE 0.61 SBACC 3
U2RF12 43 82 0.96 0 PCT 13 P2 AVI 0.28 HTE CTE 0.61 SBACC r
3 U2RF12 43 82 2.05 0 PCT 24 P2 AV2 0.24 HTE GTE 0.61 SBACC f
3 U2RF12 43 82 2.55 0 PCT 27 P2 AV3
-0.11 HTE CTE 0.61 SBACC 3
U2RF12 43 82 2.24 0 PCT 25 P2 AV4
-0.11 HTE CTE 0.61 SBACC 3
U2RF12 41 831 0.73 PCT 14 P2 AV2 0.08 HTE CTE 0.61 ZBAZC 3
U2RF12 41 83 0.43 0 PCT 10 P2 AV3
-0.11 HTE CTE 0.61 ZBAZC F3 U2RF12 39 84 3.96 0 PCT 35 P2 AV3 0
HTE GTE 0.61 SBACC t 3 U2RF12 39 84 1.75 0 PCT 21 P2 AV4
-0.17 HTE CTE 0.61 SBACC 3
U2RF12 39 84 5.53 0 PCT 42 P5 AV2 0
HTE CTE 0.61 ZBAZC t
3 U2RF12 39 84 3.59 0 PCT 33 P2 AV3 0
HTE CTE 0.61 ZBAZC 1 3 U2RF12 39 84 1.68 0 PCT 20 P2 AV4 0.1 HTE CTE 0.61 ZBAZC r 3 U2RF12 41 85 1.17 PCT 19 P2 AV3 0.17 HTE CTE 0.61 ZBAZC i
3 U2RF12 33 87 1.37 0 PCT 19 P2 AV4
-0.14 HTE CTE 0.61 ZBAZC 3
U2RF12 41 87 0.89 0 PCT 14 P2 AV1
-0.11 HTE CTE 0.61 ZBAZC 3
U2RF12 41 87 1.27 0 PCT 18 P2 AV2
-0.25 HTE CTE 0.61 ZBAZC
! 3 U2RF12 41 87 1.53 0 PCT 21 P2 AV3 0.36 HTE CTE 0.61 ZBAZC 1F 3 U2RF12 40 88 0.85 PCT 12 P2 AV2 0.17 HTE GTE 0.61 ZBAZC I
3 U2RF12 39 93 0.73 PCT 11 P2 AV2 0.09 HTE CTE
-0.61 ZBAZC 3
U2RF12 43 93 0.87 0 PCT 14 P2 AV2 0
HTE CTE 10.61 ZBAZC L3 U2RF12 40 9
.03 0 PCT 16 P2 AV3
-0.11 HTE CTE 1 0.61 ZBAZC 8
Attachment to TXX-12066 Table 1. Comanche Peak 2RF12 AVB Wear Indications (Page 6 of 6)
SGID Outage Row Col Volts De Ind Per Chn Locn Inch1 BegT EndT PDia PTypel 3
U2RF12 40 95 0.99 0 PCT 15 P2 AVI
-0.17 HTE CTE 0.611 ZBAZC 3
U2RF12 40, 95 0.87 0 PCT 14 P2 AV2
-0.3 HTE CTE 0.61 ZBAZC 3
U2RF12 40 95 0.66 0 PCT 11 P2 AV3 0.22 HTE CTE 0.61 ZBAZC 3
U2RF12 98 2.06 PCT 23 P2 AV2
-0.14 HTE CTE 0.61 ZBAZC 3
U2RF12 38i 98 0.96 PCT 13 P2 AV3 0.14 HTE CTE 0.61 ZBAZC 3
U2RF12 351 100 0.99 0 PCT 16 P2 AV2 0.47 HTE CTE 0.61 SBACC 3
U2RF12 341 101 2.41 0 PCT 28 P2 AV2
-0.19 HTE CTE 0.61 ZBAZC 3
U2RF12 35 101 0.64 0 PCT 11 P2 AV1 0.18 HTE CTE 0.61 ZBAZC 3
U2RF12 35!
101 0.55 0 PCT 10 P2 AV4 0
HTE CTE 0.61 ZBAZC 3
U2RF12 31!
103 0.95 0 PCT 15 P2 AVM
-0.15 HTE CTE 0.61 ZBAZC 3
U2RF12 33!
103 1.26 0 PCT 18 P2 AVl 0.38 HTE CTE 0.61 ZBAZC 3
U2RF12_
33 103 0.94 0 PCT 15 P2 AV2 0.44 HTE CTE 0.61 ZBAZC 3
U2RF12 33 103 1.34 0 PCT 19 P2 AV3
-0.19 HTE CTE 0.61 ZBAZC 3
U2RF12 33 103 1.23 0 PCT 18 P2 AV3 01 HTE CTE 0.61, ZBAZC 3
U2RF12 31 104 0.62 0 PCT 11 P2 AV4 0
HTE CTE 0.61 SBACC 3
U2RF12 301 105 1.9 0 PCT 24 P2 AV2 0
HTE CTE 0.61 SBACC 3
U2RF12 24{
107 1.32 0 PCT 21 P2 AV2
-0.09 HTE CTE 0.61 ZBAZC 3
U2RF12 26 107 1.4 0 PCT 20 P2 AV2
-0.13 HTE CTE 0.61 ZBAZC 4
U2RF12 39 19 0.6 0 PCT 12 P2 AV2
-0.06 HTE CTE 0.61 SBACC r4 U2RF12 391 22 0.84 0 PCT 16 P2 AV4 0.11 HTE CTE 0.61 SBACC 4
U2RF12 45' 24 0.98 0 PCT 18 P2 AV4 0
HTE CTE 0.61 SBACC I 4 U2RF12 271 50 1.44 0 PCT 21 P2 AV4 0d HTE CTE 0.61 SBACC t 4 U2RF12 47 59 0.66 0 PCT 14 P2 AV4
-0.03 HTE CTE 0.61 SBACC t4 U2RF12 38 68 0.76 0 PCT 14 P2 AV2 0.03 HTE CTE 0.61 SBACC
! 4 U2RF12 381 71 1.22 0 PCT 20 P2 AV2 0
HTE CTE 0.61 SBACC I 4 U2RF12 38 71 0.84 0 PCT 16 P2 AV3 0.08 HTE CTE 0.61 SBACC Ir 4 U2RF12 38 79 0.79 PCT 15 P2 AV3
-0.11 HTE CTE 0.61 SBACC r 4 U2RF12 371 84 1.3 0 PCT 19 P2 AV2
-0.25 HTE CTE 0.61 SBACC r" 4 U2RF12 37i 84 2.1 0 PCT 26 P2 AV3 0.28 HTE CTE 0.611 SBACC 1 4 U2RF12 37 84 0.78 0 PCT 14 P2 AV4 0.25 HTE CTE 0.61 SBACC
[ 4 U2RF12 44, 89 0.93 PCT 15 P2 AV2 0.05 HTE CTE 0.61 SBACC r 4 U2RF12 44 89 1.16 PCT 18 P2 AV3 0 HTE GTE 0.61 SBACC t 4 U2RF12 44 89 0.93 PCT 15 P2 AV4 0.08 HTE CTE 0.61 SBACC 4
U2RF12 37!
92 0.77 PCT 13 P2 AV2 0.06 HTE CTE 0.61J SBACC 1 4 U2RF12 23 93 0.33 0 PCT 7
P2 AV2 0.08 HTE CTE 0.61J SBACC 4 4 U2RF12 38 97 0.81 0 PCT 14 P2 AV2 0
HTE CTE 0.614 SBACC 4
U2RF12 381 97 1.03 0 PCT 171 P2 AV3 0
HTE CTE 0.61 SBACC 4 4 U2RF12 40' 97 1.09 0 PCT 171 P2 AV3 0
HTE CTE 0.611 SBACC r
4 U2RF12 40 971 1.11 0 PCT 181 P2 AV4 0
HTE CTE 0.61J SBAGC
!4 U2RF127V-9 0.47 0 PCT 91 P2 AV 0 HTE GTE 0.61 SBACC I 9
Attachment to TXX-12066 Table 2. Comanche Peak 2RF12 Loose Part Wear Indications SGID Outage Row Col Volts Deg Ind Per Chn J Locn Inchl BegT EndT PT_
Dia PType
-2 U2RF12 6
1 4.18 81 PLP 1 11t C1 0.441 C1 C1 0.611 ZPS3C 2 2 U2RF12 6
1 1.05 114 PCT 22 6
C1 0.45 C1 Cl 0.61 ZPS3C S2 U2RF12 6
1 5.34 80 PLP f 11 Cl 0.55] Cl C1 0.61 ZPS3C
" 2 U2RF12 6
2 0.57 101 DSS P1 Cl 0.49 Hll CTE 0.611 ZBAZC r 2 U2RF12 6
2 1.12 294 PLP 8
Cl 0.64 H11 CTE 0.61 ZBAZC r 2 U2RFI2 6
2 0.28 68 DFS Y
3 Cl 0.93H ZBC "2
U2RF12 6
2 6.23 78 PLP F
Cl 0.9"C1 C1 0.61} ZPS3C S2 U2RF12 6
2 0.39 101 WAR_
r6 C1 0.46 C1 C1-0.611 ZPS3C F"2 U2RF12 6
2 4.1 83 PLP I-11 Cl 0).- J8C1
-CT- -0.61 ZPS3C I 2 U2RF12 6
2 0.18 50 WAR r 6 Cl 0.84 Cl-0.61 ZP S-C
( 2 U2RF12 6
2 6.81 78 PLP 1 11 Cl 0.31 Cl Cl 0.61 ZPS3C r 2 U2RF12 6
2 1.79 101 PCT 301' 6 Cl 0.44 Cl C1 0.61 ZPS3C r 2 1U2RF12 6
2 4.18 81 PLP I__ 11 Cl 0.78 C1 Cl1 0.61 ZPS3C f 2jU2RF12 6
2 0.85 108 PCT 19" 6
C1 0.84 C1 I C-1 0.611 ZPS3C 10 A.