ML20206D176
ML20206D176 | |
Person / Time | |
---|---|
Site: | Millstone ![]() |
Issue date: | 04/27/1999 |
From: | NORTHEAST NUCLEAR ENERGY CO. |
To: | |
Shared Package | |
ML20206D159 | List: |
References | |
PROC-990427, NUDOCS 9905040012 | |
Download: ML20206D176 (200) | |
Text
i c
l WILLSTONE UNIT 3 l
INSERVICE INSPECTION PROGRAW WANUAL SECOND TEN-YEARINTERVAL REVISION 1 1
O b
Northeast Nuclear Energy Company s
OV 73A'288a!3:886~
G PDR,_
I
- (%.
O MILLSTONE UNIT 3 INSERVICE INSPECTION PROGRAM SECOND TEN-YEARINTERVAL ABSTRACT This document describes the second Ten-Year Inservice Inspection Program for Millstone Unit 3. This summary addresses the requirements of the ASME Boiler and Pressure Vessel (B&PV) Code,Section XI, Division 1,1989 Edition. Additional requirements for augmented inspections are also addressed.
Included are relief requests and tables identifying the components subject to examination by code category and code item number.
Pursuant to 10CFR50.55a(g)4(ii) Millstone Unit 3 is committed, as a minimum, to develop this program to the 1989 Edition of ASME Section XI.
1
~
k O
1
I 0
V TABLE OF CONTENTS I
1.
INTRODUCTION 1.1-General 1.2 Anolicable Editions and Addenda to Section XI 1.3 HistoricalISI Program Information 1.4 System Clusification 1.5 Inspection Program 1.5.1 Schedule 1.5.2 Additional Examinations 1.6 Responsibilities i
1.6.1 Technical Programs Group
)
1.6.1 ISI Supervisor 1.6.2 ISI Coordinator f
1.7 Personnel Certification 2.
INSPECTION PLAN a
?
2.1 Class 1 Components j
2.1.1 Selection Basis 2.1.2 Component / Piping Examinations 2.2 Class 2 ComDonents 2.2.1 Selection Basis 2.2.2 Component / Piping Examinations 2.3 Class 3 Components 2.3.1 Selection Basis 2.3.2 Component / Piping Examinations 2.4 Component /PiDine SUDDorts 2.4.1 Selection Basis 2.4.2 Examinations w/
2
p 1
l I
l(
l \\
2.5 Auumented Examinations 2.5.1 Reactor Coolant Pump Flywheels t
2.5.2 High Energy System Break Exclusion Area (BEA) 2.5.3 Class 2 Excluded Systems 2.6 Examination Cateeory and Period Summarv l
2.7 Description ofISI Plan Format 2.8 Procedures 2.9 Examination Zone Listine Table 2.1 Millstone Unit 3 Class 1 ISI Examination Summary Table 2.2 Millstone Unit 3 Class 2 ISI Examination Summary Table 2.3 Millstone Unit 3 Class 3 ISI Examination Summary Table 2.4 Millstone Unit 3 Supports (Class NF) ISI Examination Summary Table 2.5-1 Millstone Unit 3 Augmented Examination Summary
(
Table 2.5-2 Millstone Unit 3 B. E. A. Weld Listing Table 2.6 Category and Period Percentage Summary i
Table 2.8 List of Examination Procedures Table 2.9 Examination Zone Listing 3.
. CODE CASES Table 3.1 Code Case Summary 4.
EVALUATION CRITERIA AND CALIBRATION STANDARDS
\\
4.1 Class 1 Acceptance Standards s
4.2 Class 2 Acceptance Standards l
4.3 Class 3 Acceptance Standards j
1 4.4 Accentance Standards for Supports (classes 1. 2. and 3)
.O\\
4.5 Calibration Standards l Q' 4.6 Analytical Evaluation of Flaws 4.7 Unanticipated Operatine Events i
3
i
}..
(
\\,
5.
SYSTEM PRESSURE TESTS 6.
REPAIRS AND REPLACEMENTS 6.1 Establishment of a Baseline 7.
REPORTS AND RECORDS 7.1 Preparation 7.2 Submittal 7.3 Retention 8.
COMMITMENTS 8.1 Trackine/Looeine of Correspondence 8.2 Code C.satt 8.3 ReliefReauests 8.4 Auemented Exams Table 8.1 Millstone Unit 3 ISI Commitments / Correspondence s
9.
RELIEF REQUESTS g
4 9.1 Alternative Reauirements 9.1.1 Code Cases Not Approved for Use 9.1.2 Hardship or UnusualDifficulty f
9.2 Imorsetical Reauirements 9.3 Format 4
9.4 Relief Reauest Summary Tables 9.4.1 FirstInterval Relief Requests 9.4.2 Second Interval Relief Requests Table 9.4-1 First Interval Relief Request Summary s
Table 9.4-2 Second Interval Relief Request Summary
- 10. PROGRAM INSTRUCTIONS PI-6, Engineering Program Technical Review of DCR/MMODfI'M(s) 4
O
- 11. DRAWINGS O
G 5
l Q
1 l.
INTRODUCTION l_
i 1.1 General 1.1.1 This manual describes the Millstone Unit 3 second Ten-Year Inservice Inspection Plan.-
The inspection plan, which consists of ASME Class 1, Class 2, and Class 3 systems and components (and their supports) has been developed utilizing applicable portions of the following docuruents:
10CFR50.2, Definitions 10CFR50.55(a), Codes and Standards e
ASME Section XI Rules for Inservice Inspection of Nuclear e
Power Plant Components,1989 Edition (1992 Edition, Code Case N-416-1,1995 Edition, Code Case N-546)
{
ASME Sectic n III Rules for Construction of Nuclear Power Plants
- USNRC Standard Review Plan (SRP 6.6, Section II-7)
USNRC Regulatory Guides:
e
- 1. RG 1.14, Rev.1, August 1975
- 2. RG 1.26, Rev. 3, February 1976
- 3. RG 1.65, Rev. O, October 1973
- 4. RG 1.83, Rev.1, July 1975
- 5. RG 1.147, Rev. I1, October 1994
6
z.
.(
ASME Code Cases:
e 1.
N-307-1 2.
N-460 3.
N-461 4.
N-416-1 5.
N-435-1 6.
N-491-1 7.
N-490-1 8.
N-498-1 9.
N-521 10.
N-522 11.
N-533 12.
N-535 4
13.
N-546 14.
N-566 NOTE: Code Case details may be found in Section 3.
i 1.1.2 The programs listed below are addressed in separate program documents:
Inservice Testing of Pumps and Valves Class MC and CC Components i
Examination of Steam Generator Tubing e
Snubber Examination and Testing v
7
ff l
L l..
l Df }
l 1.1.3 Administrative implementing procedures utilized in implementation of the ISI program are listed below:
l CEN 101C, Management ofInservice Inspection Program NGP 3.11, Preparation, Qualification, Approval, and Revision
. of Northeast Utilities Nondestructive Examination Procedures NGP 3.13, Inservice Inspection Unresolved Indication Reporting EN 31063, ASME Section XI Pressure Tests EN 31090, Elevated Pressure Test e
SP 3601F.7, Reactor Coolant System Leak Test
]
SP 31116, Inservice Inspection of Steam Generator Tubes I
e SP 31129, Inservice Inspection Implementation e
WC-3, Repair and Replacement for Class 1,2, and 3 System or e
Component I
CEN 101B, Control ofInservice Inspection Program Manuals e,
e CEN 101D, Management ofISI Databases 3
e 1.2 Anene hle Editions and Addenda to Rh XI 1.2.1 Pursuant to Title 10 of the Code of Federal Regulations, Part 50, Paragraph 50.55a, dated January 1,1997, the inspection requirements applicable to nondestructive examination are based on the rules set forth in the 1989 Edition of ASME Section XI, hereinafter referred to as ASME Section XI.
1.2.2 ' As permitted by paragraph 50.55a(g)(4)(iv), NNECo may elect to meet supplemental requirements as set forth in editions and addenda of ASME Section XI which become effective subsequent to the 1989 Edition of ASMB Section XI. Editions and addenda of
'(
ASME Section XI or ASME Code Cases that are adopted will be
'v identified in the appropriate sections of this inspection program. It.... -
is the intent of NNECo to apply appropriate revisions of ASME 8
\\.
Section XI, with NRC approval, which improve the overall quality of Millstone Unit 3's inspection program. Those changes that are applied will be identified in this Section of the ISI Program.
1.3 HistoricalISI Proeram Information 1.3.1 The base code of record for the preservice inspection was the 1980 Edition through Winter 1980 Addenda of ASME Section XI.
1.3.2 The base code of record for the first Ten-Year ISI inspection interval was the 1983 Edition through Summer 1983 Addenda of ASME Section XI, except for Class 2 piping welds which were updated to the 1983 Edition through Winter 1985 Addenda.
1.4 System Classification
]
1 1.4.1 The construction permit for Millstone Unit 3 was issued in August 1974. The operating license was issued in January 1986.
Northeast Nuclear Energy Company is the owner of record, Stone i
e
& Webster was the Architect Engineer and installer of record.
!\\
1.4.2. The system classifications for the Inservice Inspection Plan are based on the requirements of 10CFR50 and Regulatory Guide 1.26.
s 1.4.3 Class I system boundaries were developed based on 10CFR50.2.
i I
1.4.4 Class 2 and Class 3 system boundaries were developed based on Regulatory Guide 1.26.
1.4.5 Syste n boundary diagrams are listed below and depict the specific boundaries for the Class 1, Class 2, and Class 3 systems. These are j
controlled documents in accordance with site procedures.
Aoolicable Class Drawine Number Class 1 Boundaries 25212-20997 s
Class 2 Boundaries 25212-20998 Sht.1 & 2 Class 3 Boundaries 25212-20999 Sht.1,2, & 3 System pressure test boundaries are described in Section 5.
9
k
\\}
1.5 Inspection Pronram 1.5.1 Schedule -
Examinations for the second ten-year interval are scheduled in l
accordance with Inspection Program B, as described in IWA-2400 l
of ASME Section XI, for the Class 1, Class 2, and Class 3 systems, components, and supports. Where the original schedule conflicts with other activities during the refueling outage, examinations may be rescheduled as long as the requirements ofIWX-2412 are met.
The sequence of examinations established for this inspection interval have been scheduled as close as practical to that of the first inspection interval. The duration between examinations of the first l
interval and the second interval may exceed 10 years due to the extended down time of the unit and interval extensions allowed by IWA 2430.
1 The Second Inspection Interval will begin April 23,1999 and end October 23,2008. The refueling outage schedule and corresponding inspection periods are listed below:
l Refuelina Outane Year Scheduled Insocction Period k
u' 6
1999 1
7 2001 1
l 8
2%3 2
9 2005 2
10 2%7 3
i i
NNECo may increase or decrease the inspection interval (and I
corresponding inspection period) by as much as one year to coincide with plant outages as allowed by ASME Section XI, i
Article IWA-2400. Code Case N-535, IR-2-07, allows l
performance of examinations in overlapping intervals, as long as j
code credit for the given exam is taken for only one of the j
intervals.
j i
Compliance to the scheduling requirements ofIWX-2412 is depicted in Table 2.6. Compliance to commitments for i
performance of augmented examinations is depicted in Table 2.5-1.
j O
,e
O-
\\
I
, x/
1.5.2 Additional Examinations
[4 Commitment Table 8.1, File B16368]
NOTE: Ifin the expansion to perform additional exams it is found that ASME Section XI requirements cannot be met in the performance of these exams, then relief shall be sought as specified in 3.1 of this Program Manual.
A.
Class 1 Additional examinations for Class 1 equivalent components (IWB) shall be in accordance with the requirements of IWB-2430. The additional examination samples are defined as those items (welds, areas, or parts) in a particular examination category and item number. The initial sample is the sample scheduled for examination at a particular outage for ASME Section XI credit.
(1)
Examinations of the initial sample that reveal indications excWing the acceptance standards of IWB-3410-1 shall be extended to include additional examinations in the same outage as the initial examinations.
e The first additional examination sample shall include the remaining items scheduled for this period in addition to the items scheduled for the subsequent period. If examinations for that item are not scheduled in the subsequent period, the most immediate period containing scheduled examinations of that item shall be examined as part of the additional sample.
(2)
If the first additional examinations of A(1) detect indications exceeding the acceptance standards of,
Table IWB-3410-1, further additional examinations shall be performed during the outage. The second.
additional examination sample shall include the remaining items of similar design, size, and function.
l i
V 11
p,,..,.
l' l
- r. ?
V(~h.
B.
Class 2 Additional examinations for Class 2 equivalent components (IWC) shall be selected in accordance with IWC-2430. The additional examination samples are defined as those items (welds, areas, or parts) in a particular examination category.
The initial sample is the sample scheduled for examination at a particular outage for ASME Section XI credit.
(1)
Examinations of the initial sample that reveal indications exceeding the acceptance standards of
' IWC-3000 shall be extended to include an additional number of examinations within the same examination category, in the same outage as the initial examinations. This first additional sample shall include approximately the same number of items examined in the initial sample. The items selected should be those available in the interval O
sample that have the longest service time from its I
previous inservice examination.
l (2)
If the first additional cuminations of B(1) detect indications exceeding the acceptance sta= lards of s-X.
Table IWC-3000, further additional examinations shall be performed during the outage. This second i
additional examination sample shall include the t
remaining number of similar items within the same i
eYamination Category and cyamin=4 to the extent specified in Table IWC-2500-1.
C.
Supports Additional examinations for component supports (IWF) shall be in accordance with section -2430 of Code Case N-491.
NOTE: When an inservice examination of a component -
support reveals conditions described in ASME Section XI (Code Case N-491)-3410(a), and the component support has been analyzed and/or tested to substantiate its integrity O
for its intended service, and has been found to be h
acceptable and corrective measures to restore the support to I
its original condition have been performed, then additional support examinations are not required.
12
L
'\\
(1)
If component supports in the initial sample must be subjected to corrective measures in accordance with (N-491)-3000, the component supports immediately adjacent to those for which corrective action is required shall be examined. Also, the examinations shall be extended to include a first additional l
sample that includes supports within the system, equal in number and of the same type and function
)
as those scheduled for examination during the period.
(2)
When the additional examinations of C(1) require j
corrective measures in accordance with (N-491)-3000, a second additional sample of the l
remaining component supports within the system of the same type and function as in 1.5.2.3(a) shall be extanined.
(3)
When the additional examinations of C(2) require
- O corrective measures in accordance with (N-491)-3000, examinations shall be extended to l
include a third additional sample of the remaining nonexempt supports potentially subject to the same p
failure modes that required corrective measures in C(l) and C(2). These additional examinations shall L
include nonexempt component supports in other systems when support failures requiring corrective measures indicate non-system related failure modes.
'(4)
When the additional examinations of C(3) require 7
corrective measures in accordance with (N-491)-
3000, examination shall be extended to those exempt component supports that could be affected
,y by the same observed failure modes and could affect Ii nonexempt component.
13 L.
'V 1.6 Responsibilities 1.6.1 Technical Programs Group The Technical Programs Group is responsible for the establishment and implementation of the inservice inspection (ISI) program. The following procedures detail the responsibilities related to implementation of theISI Program:
EN 31063, ASME Section XI Pressure Tests EN 31090, Elevated Pressure Test SP 31129, Inservice Inspection Surveillance procedure e
The ISI Coordinator retains primary responsibility for implementation of theISI program.
1.6.2 ISI Supervisor The ISI Supervisor is responsible for ensuring that inservice
(
inspection activities are adequately performed and the appropriate records are retained. The ISI Supervisor shall specify the type and quantity of equipment and materials to be held in storage to support ISI activities during a refueling outage.
N 1.6.3. ISI Coordinator The ISI Coortlinator is responsible for the establishmant and implementation of the ISI program. His duties include the following:
Review of plant design and component arrangement to ensure that the required examinations and tests can be performed satisfactorily and that radiation exposure for perscrmel conducting ISI examinations are maintained as-low-as-reasonably-achievable (ALARA)
Preparation of the ISI program and examination schedule e
Development ofinstructions and procedures, including diagrams or system drawings for identification of components, area (s) subject to examination, and describing the method for component location l-14
k Performance of surveillances for nondestructive examinations (NDE)
Performance of system pressure tests Assurance that examinations are performed by qualified personnel Review of proposed Design Change Requests e
Performance of NDE for components in accordance with the inspection program and written procedures Evaluation of examination results Evaluation of umesolved indication reports (NGP 3.13) to e
verify acceptance in accordance with Section XI, IWX-3000 l
1.7 Personnel Certification
('}.
U Personnel shall be qualified and certified to perform nondestmetive examination (NDE) in accordance with IWA-2330 and applicable site i
procedures.
F Personnel performing VT-2 examinations shall be certified in accordance with IWA-2300 or Code Case N-546 (IR-2-09), Alternative Requirements for Qual @ cation of YT-2 Examination Personnel. The requirements of IWA-5240 are applicable for performance of VT-2 visual examination.
Code Case N-533 (IR-2-08), Alternative Requirementsfor VT-2 Visual Examination ofClass 1 Insulated Pressure-Retaining Bolted Connections, may be utilized for systems borated for the purpose of controlling reactivity.
s
{U 15
~.
, ([ J.
)
2.
INSPECTION PLAN 21
' Class 1 Components
)
2.1.1 Selection Basis l
The classification bar,is for Class I components is described m 1
Section 1.4. Threxemptions ofIWB-1220 are then applied to determine the components subject to the examination requirements
)
of Table IWB-2500-1. ASME Section XI, IWB-1220 exemptions for Class I components are listed below:
1 components that are connected to the reactor coolant system e
and part of the reactor coolant pressure boundary, and that are of such a size and shape so that upon postulated rupture the resulting flow of coolant from the reactor coolant system under normal plant operating conditions is within the capacity of makeup systems which are operable from on-site emergency power piping of NPS I and smaller, except for steam generator tubing e
3 components and their connections in piping of NPS I and i
e 4
smaller '
i, i
reactor vessel head connections and associated piping, NPS 2
,t e
and smaller, made inaccessible by control rod drive penetrations Applicable portions of the systems listed below are included in the Class 1 boundary and are depicted by Zone drawings 1 through 52.
System pressure testing of Class I components is described in Section 5.0. Zone 999 is used for system pressure tests, but not shown on zone boundary drawings.
_2.1.2 Component / Piping Examinations The examination schedule for Class I components during the second inspection interval is depicted in Table 2.1. Major Class I O
components and related information is provided in the following sections.
I6
\\
A. Reactor Pressure Vessel (RPV)
RPV shell examinations are conducted from the internal surfaces utilizing remote examination equipment and techniques. Those areas of the bottom head which are obstructed from a complete ID examination may be supplemented from the OD as practical. The flange to upper shell weld is examined from the upper shell ID and manually from the flange seal surface. The annular area surrounding the bolt holes is examined manually fmm the flange mating surface. Closure studs are manually examined utilizing surface and alternative volumetric techniques, as applicable.
Alternative volumetric examination of the closure studs is in accordance with Code Case N-307-1.
Core support lugs and the applicable portions of the vessel ID are examined visually utilizing a remote examination inspection system.
A The RPV examinations are performed to meet the requirements t
1 of ASME Section XI and the intent of Regulatory Guide 1.150.
U B. Reactor Vessel Closure Head 4
The RPV closure head is ultrasonically examined utilizing 4
tranual techniques from the OD surface. The RPV closure head examinations are performed to meet the requirements -
ASME Section XI and the intent of Regulatory Guide 1.150 and.
The peripheral CRDM welds and extension tube welds are examined utilizing surface examination methods.
C. Steam Generators (Primary Side)
Applicable steam generator welds (e.g.: the tube sheet to channel head weld and nozzle to vessel welds) are ultrasonically examined utilizing manual techniques from the.-
OD surface. Primary manway bolting is visually examined.
pg.
D. Pressurizer h
Applicable pressurizer welds are ultrasonically examined utilizing manual techniques from the OD surface. Manway bolting is visually examined.
17
<1
)
The support skirt-to-shell weld is examined utilizing surface examination methods. Relief was requested during the first ten-year inspection interval due to component geometric configuration.
The nozzle inner radius and nozzle-to-shell welds are ultrasonically examined utilizing manual techniques from the i
OD surface.
E. Pressure Boundary Piping Circumferential and longitudinal piping welds (Code' Case N-524), inchiding branch connections, are examined utilizing volumetric and surface examinations, as appropriate.
Volumetric examinations am conducted from the OD surface, except for the reactor vessel nozzle to pipe welds.
The reactor vessel nozzle-to-safe end welds and safe end-to-pipe welds are examined from the ID surface and a f all volume ultrasonic examination is performed, refer to IR-2-03.
F. Valve Bolting 4
The main coolant isolation valve bolting and flange surfaces -
are examined utilizing volumetric and visual (VT-1) methods l in accordance with Examination Category B-G-1.
Other Class 1 valve bolting is less than 2(two)-inch diameter and is examined utilizing visual (VT-1) methods in accordance with Examination Category B-G-2.
Visual examination (VT-3) of the valve intemal pressure boundary surfaces will be performed in accordance with Examination Category B-M-2 upon disassembly.
{
s l
G. Integrally Welded Attachments l.
Applicable integrally welded attachments are examined utilizing volumetric or surface examination methods, as appropriate.
I l
18
5 TA H. Reactor Coolant Pumps (RCP)
The RCP studs and nuts are examined utilizing ultrasonic and visual (VT-1) examination methods, respectively. The pump interior and flange surface require visual examination (VT-3 and VT-1, respectively) in the event the pump is disassembled.
l l
. I.
Steam Generator ECT The steam generator tubing surveillance requirements are contained in the Unit 3 Plant Technical Specifications. The examination requirements are based on EPRI PWR Steam Generator Examination Guidelines, Rev. 4, Draft, dated July 1996, and ASME Section XI, which contains the requirements for sampling, acceptance, plugging, and reporting.
2.2 Class 2 Components p
2.2.1 Selection Basis-The classification basis for Class 2 components is described in l
Section 1.4. The exemptions ofIWC-1220 are then applied to determine the components subject to the examination requirements of Table IWC-2500-1. ASME Section XI, IWC-1220 exemptions for Class 2 components are listed below:
a) Components _Within RHR, ECC, and CHR Systems (or portions of systems)
I Vessels, piping, pumps, valves, and other components NPS e
1% and smaller in high pressure safety injection systems of pressurized water reactor plants component connections NPS 4 and smaller (including e
nozzles, socket fittings, and other connections) in vessels,,
(
piping, pumps, valves, and other components of any size in all systems except high pressure safety injection systems of pressurized water reactor plants
(
Y.
l t
l 19 i
f.D 6.J
(.
component connections NPS 1 % and smaller (including e
nozzles, socket fittings, and other connections) in vessels, l
piping, pumps, valves, and other components of any size in high pressure safety injection systems of pressurized water reactor plants
.. vessels, piping, pumps, valves, other components, and l
component connections of any size in statically pressurized, l
passive (i.e., no pumps) safety injection systems of pressurized water reactor plants piping and other components of any size beyond the last e
shutoff valve in open ended portions of systems that do not contain water during normal plant operating conditions b) Components Within Systems (or portions of systems) Other Than RHR, ECC, and CHR Systems vessels, piping, pumps, valves, and other components NPS e
O 4 and smaller U
component connections NPS 4 and smaller (including nozzles, socket fittings, and other connections) in vessels, piping, pumps, valves, and other components of any size
-1 vessels, piping, pumps, valves, other components, and component connections of any size in systems or portions of systems that operate (when the system function is required) at a pressure equal to or less than 275 psig and at a temperature equal to or less than 200*F piping and other components of any size beyond the last
+
shutoff valve in open ended portions of systems that do not contain water during normal plant operating conditions Applicable portions of the systems listed below are included in the Class 2 boundary and are depicted by Zone drawings 53 through 133.
h System pressure testing of Class 2 components is described in Section 5.0. Zone 999 is used for system pressure tests, but not 4
shown on zone boundary drawings.
\\
i l
20
LA 2.2.2 Component / Piping Examinations The examination schedule for Class 2 components during the second inspection interval is depicted in Table 2.2. Major Class 2 components and related information is provided in the following sections.
A. Steam Generators (Secondary Side)
The steam generator welds and nozzle inner radius sections (FWS) are examined utilizing manual or automated ultrasonic techniques from the vessel OD of one steam generator (SG "A") as permitted by Examination Category C-A and C-B, Notes 3 and 4, respectively.
Relief request IR-2-05 addresses the component geometry limitations thr.t preclude examination of the main steam nozzle inner radius.
B. Residual Heat Removal Heat Exchangers
.)
The RHR heat exchanger welds are examined utilizing surface l
and ultrasonic examination methods as appropriate. The examinations may be limited to one vessel or distributed among the vessels as permitted by Examination Category C-A x
- and C-B, Notes 3 and 4, respectively.
6 i-The inlet and outlet nozzles were fabricated with reinforcing plate for the nozzle area and are examined utilizing surface and l
visual (VT-2) methods in accordance with the requirements of Code Category C-B, Item numbers C2.31 and C2.33.
9 The support skirt to heat exchanger weld is examined utilizing surface examination techniques.
l.
C. Pressure Retaining Bolting s
The MSIV bonnet bolting and Safety Injection Pump casing.
studs are subject to the volumetric examination requirements of Examination Category C-D.
D. Pressure Retaining welds in Piping Circumferential and longitudinal (Code Case N-524) piping system welds are examined utilizing surface and volumetric 21
j
-()
examination methods as required by Examination Categories C-F-1 and C-F-2. The distribution of pipe weld examinations among systems is depicted in Table 2.2 of this program.
Ultrasonic examination of thin-walled material, less than or equal to 0.531 inch thickness, is accomplished by use of a 70 longitudinal wave transducer. A specific procedure and UT calibration standard using side drilled holes are utilized for these applications in order to achieve meaningful results.
Ultrasonic examination of thin-walled material less than 0.375" inch thickness, is exempt from NDE requirements under table IWC-2500-1, but is part of the weld selection count as noted in Table 2.2. A 7.5 percent sample of these welds in RHR, ECCS, CHR systems have been scheduled for examination in accordance with Table 2.5-1.
j 2.3 -
Class 3 ComD0neDis
~
t 2.3.1 Selection Basis V
j The classification basis for Class 3 components is described in j
Section 1.4. 'Ibe exemptions ofIWD-1220 are then applied to -
determine the components subject to the examination requirements.
ofTable IWD-2500-1. ASME Section XI, IWD-1220 exemptions for Class 3 components are listed below:
4 Integral attachments of supports and restraints to components that are NPS 4 and smaller within the system boundaries of Examination Categories D-A, D-B, and D-C of Table IWD-2500-1 shall be exempt from the visual examination VT-3, except for PWR Auxiliary Feedwater Systems.
l Integral attachments of supports and restraints to components e
exceeding NPS 4 may be exempted from the visual examination VT-3 of Table IWD-2500-1 provided:
- 1. the components are located in systems (or portions of systems) whose function is not required in support of reactor residual heat removal, containment heat removal, and emergency core cooling; and 22
P i-l t
(
I i'd
- 2. - the components operated at a pressure of 275 psig or less i
and at a temperature of 200*F or less.
Applicable portions of the systems listed below are included in the Class 3 boundary and are depicted by Zone drawings 134 through 183,.
l System pressure testing of Class 3 components is described in Section 5.0. Zone 999 is used for ay stem pressure tests, but not shown on zone boundary drawings.
2.3.2 Component / Piping Examinations The examination schedule for Class 3 components during the second inspection interval is depicted in Table 2.3.
Integrally welded attachments of those component / piping supports selected for examination in accordance with (Code Case N-491-1)
-2510 require visual examination (VT-3). In the case of multiple e
components within a system of similar design, function, and
!(
service, the integral attachment of only one of the multiple components shall be examined.
)
2.4 Component /Pinine Suncorts 3
1 2.4.1 Selection Basis Component supports to be examined shall be the supports of those l
camponents that are required to be examined under IWB-2500, i-IWC-2500, and IWD-2500 by volumetric, surface, or visual (VT-1 or VT-3) examination methods. Piping supports to be examined shall be the supports of piping not exempted under IWB-1220,
[
IWC-1220, and IWD-1220. Refer to subsections 2.1 through 2.3 l
for information related to Class 1,2, and 3 selection basis.
l.
l There are no Class MC component / piping supports requiring examination.
2.4.2 Examinations The examination schedule for component / piping supports during the second inspection interval is depicted in Table 2.4.
l l
23 L
Op IV Component and piping supports require visual examination (VT-3) in accordance with Code Case N-491-1, Table-2500-1.
2.5 Auemented Examinations
' The augmented examinations described in this section are summarized in Table 2.5-1.
2.5.1 Reactor Coolant Pump Flywheels The reactor coolant pump flywheels are examined in accordance with Regulatory Guide 1.14, which requires the be imd keyway areas to be ultrasonically examined each period. Also required is a 100 percent volumetric and surface examination near the end of each inspectioninterval.
2.5.2 High Energy System Break Exclusion Area (BEA)
Class 2 high energy piping systems within the designated BEA, as p(*)
described in FSAR Section 3.6 and FSAR Figures 3.6-8 through 3.6-17, shall receive augmented examinations in accordance with FSAR Section 3.6.2.1.2.2F.
4 Piping greater than four inch NPS between the containment penetration and the containment isolation valves outside of containment shall be surface and volumetrically examined (100 percent of the circumferential and longitudinal welds). The examination volumes are defined in accordance with Examination Category C-F-1 and C-F-2 for Class 2 piping welds and are specifically denoted in the inspection plan as requiring augmented t
examination.
The systems affected are:
Main Steam System (MSS)
Main Feedwater System (FWS) e Turbine Plant Drains (DTM)
Piping equal to or less than four inch NPS in the BEA receive surface examinations of the subject circumferential and longitudinal welds.
24
r.....
O The systems affected are:
Ebam Generator Blowdown (BDG)
Main Steam Piping (MSS) e Chemical and Volume Control (CHS) e Main Feedwater System (FWS) e Auxiliary Feedwater(FWA)
Turbine Plant Drains (DTM)
CTMT Atmosphere Monitoring (CMS) e Hydrogen Recombiner(HCS)
+
CTMT Vacuum System (CVS) e U
A list of weld numbers and examination methods for piping subject to the augmented requirements for BEA are included in Table 2.5-2.
2.5.3 Class 2 Excluded Systems The welds in the Chemical and Volume Control System (CHS) and High Fwam Safety Injection (SIH) for Examination Category C-F-1 were excluded from examination because of nominal wall thickness. A 7.5% sample of each system prorated among line sizes is scheduled as an augmented examination during the second inspection interval.
2.6 Examination Cateeory and Period Summary The number of components in each Examination Category selected for.
examination and the percentage of component examinations scheduled each inspection period is der,icted in Table 2.6. Table 2.6 requires periodic update to reflect the components scheduled / examined and the ted percentage projected / achieved for the respective inspection as i
25
i p
2.7 Description ofISI Plan Format The second ten-year ISI plan tables contain component examination information for Millstone Unit 3. The inspection plan sheets are prepared from the computerized database, "DataCheck", utilized to schedule and track ASME Section XI and augmented components for examination.
This database is controlled by Millstone Station Procedure CEN 101D.
The inspection plan has been divided into areas ofinterest identified as
" zones". Each zone is defined by a drawing which identifies and locates the components requiring examination for the subject zone. (except Zone j
999 is not shown on drawings, but is discussed in Section 5.0). The applicable inspection plan sheets and zone drawing provide the information necessary for qualified examiners to determine the appropriate component, examination method, and evaluation criteria. The inspection plan sheets contain the following information:
A. System This field provides the System Code for the individual component b
B. NPS l.
- Nominal Pipe Size of the component s
C. ComponentReferenceID The unique identification number assigned to the component.
These ids appear on the zone isometric drawings.
D. Applicable Code Year ASME Section XI code year and addenda applicable to the examination E. Piping Drawing Number Piping isometric drawing depicting the applicable system (s)
F. Code Category and Item Number O
Applicable code category and item numbers from Table IWX-2500-1 26
I p
G. Exam Method Applicable examination method from Table IWX-2500-1 H. Procedure Examination procedure I.
Period / Outage Schedule The period and outage year in which the item is scheduled for examination 2.8 Procedures Non-destructive examination procedures are listed in Table 2.8-1. Other NDE procedures may be utilized provided they are reviewed and accepted in accordance with NGP 3.11.
2.9 Examination Zone Listine
^
A listing of examination zones and their associated drawings is provided in Table 2.9. The examination zone boundary drawings are controlled plant drawings and are listed below:
Class 1 Boundaries 25212-20997 Class 2 Boundaries 25212-20998 Sht. I and 2 Class 3 Boundaries 25212-20999 Sht.1,2, and 3 s
. L)'
27
a.
eca f
me s
a g tn xn ea e
l m
'e '
e' l f a
m e
e i
m t
t t t
t r
o o
o o o a o C
N N N N Pf r d
d o ri A
ir
/
h e N
TP 2 9 3 4 1
dndo oi A
c r
/
e e N
y SP ra m
d a
l t o i
A m
si r
t r r i e a
/
u N
S FP 4
P 1
no o
it t
a l
s n
e me i
s n
s ei m
e t
m A
I a
V 1 x a
/
r ox N
2E o
NE 2
9 3
8 1
1 EI t
8 c
2 LS a
I B
e o
As R
N 1
Ts n
l s en
~.
am a
i o
t l
s oe N
C d
TI 2
9 3
8 1
1 t
l 3
e l
a W
v t
i r
n e
r g
e U
n b
2 t
em n
i n
e i
n n
o u n
i o
a ZN 1
I 1
2 o
t t
i s
e tc l
R l
m e
i p
M e
e V V
V V
V s
r t
s y P P
P P
P n
u s
i s
S R R
R R
R e
e h
r t
P fo
&e d
c d
o a
A mh l
l l
r n
.f l
e o o
o o u o
e at l
B xEM V V
V VS V
o t
yr re o
f g
l l
e e
e e
a a
g g
s d
i i
t t
n n
d o
t a
l s n a
s n
a a
l t
C d
e n
d e
l l
l e
+
e l
r a
F F
W l
r i
de e
e i
e e n e
l f
v f
o o
o b
W n
h W m d
n i
t t
r i
o i
s g
d u d d
dd m
s i
n i
m C
s l
l i
i e
e m
l i
r r
r e
ee al i
c n a
c r
l l
e t a e
n ax h i
o e
hW HW R
i
'o PE S C L
H C M r
S e
it P
an r
i e
m b 0 1 2 0 1 2 0
0 0
'e mm 1 1 2 2 2 3
4 5
1 t
ax e u l l l l l l l
l l
o E
N B B B B B B B
B B
N t
I
O s
tne m
moC d
d o A
A A
A A A ri i r he
/
/
/
/
/
/
N N
N N N
N TP 1
d' le nd o
s oi A
A A
A A A se c r e e
/
/
/
/
/
/
N N
N N y
V SP 1
1 N
N r
r a
o m
t d
c o
m a
t e
si A
A A
A A A r
R ie
/
/
/
/
/
/
r u
N N
N N N
N S
FP 1
1 n
n o
a h
o i
t ta T
)
s 3
n r me e
e n
O i
ei n
m h
t m
o t
I 1 x O o. a A
A Z
A A
A A a
x
/
/
(
/
/
/
/
2E s
N N
N N NE 2
2 N
N 1
l EI e
9 s
2 LSI s
B e
o 1
?
As V N Ts n
l s m
a i
a m A
A A
A A A t
l s
oe
/
/
/
/
/
/
C d
TI 2
2 N
N 4
N N
N N t
l 3
e W
t i
r n
e e
e e
e g
b U
e e
,6 n em n
n n
n n n n
n o u o
o 4&
o o
o o e
i n
o a ZN 7
N N
35 N
N N N i
t t
s e
l R
l m
i M
e e
r t
S S
S S
S S
S S
s y
C C
C C
C C
C C u
s s
S R
R R
R R
R R R er P
d o
B mh l
l l
l l
l at l
l x
o o
o o
o o
o o -
e B EM V
V V
V V
V V V yro g
l s
e a
)
.d i
e t
t d
t o
hl s
d s
t a
a n
a s
l
- s s
s e d
od
.i C
e e
n d
nS d
t-d
.d cbW
.h e l
hl i
t d
m H e
.l l
l r
l e
e e
ee ce i
e e
f d
e e
e x ud W u
W Gy W hW xW eta hW t
d n
t s i
o r
m a
E o
t O
s m m d ed t d t l s
e g. el i
i d
u g
d C sm s
l l
l l
c n
a ai a
b a aa aeH n b e l
s tr a e
e e r
i o
e e r e
ue ee eh o
uh n ax r
S( H TH HH HSt L TS P
o e
t itan r
i e
m b
0 1
2 0
0 0
0 0
0 0
mm 1
1 1
2 3
4 5
6 7
8 ax e u 2
2 2
2 2
2 2
2 2
2 N
B B B B
B B
B B
B B E
t I
1 1
0 0
2 2
s R-s e
eR t
s n
aI aI e
C C
m 1
1 e2 e2 m
d5 d5 o
o -
o -
C CN CN d
d o ri A A irh e
/
/
B TP 8
8 1
1 4
4 N N ma d
r ndo g
oi A A o
c r
/
/
r ee N N y
P SP 5
5 ra n
m o
d i
o t
t m
c si A A u
e r r
/
/
i e S
p
'I P 4
4 N N s
n n
o I
e i
s n ta s
mim l
n es e a i
m s
tI x a
.E A A e
1 x V
o
/
/
2E n
Nt 8
8 6
6 8
8 N N o
EI 0
i s
LS e
3 I
l B
z o
1 z
N As o
Ts N
am A A l s a
t l
/
/
f oe C
o TI 8
8 6
6 8
8 N N t
3 s
d t
l i
e r
n e
U W
b e
,6 e e e
n nm 4&
o o n n n
o o u 1
7 35 N N ZN o
i t
t s
a l
r li te m
M n
e V
V S
S S
S S
S e
t P
y P
P C'
C C
C C C s
l S
R R
R R
R R
R R luF d
o D
mh at l
l l
l l
l l
l e
o o
o o
o o
o o
B xEM V
V V
V V
V V V yro g
n n
)
n n
e l
s eo s
eo e
s eo o
t e
d di d
d di s
t a
s i
s d dd t
t
.i l
i
- e s c e ec C
. d V oW l
i l
i r
- e s c nS e
e n e d e s
e I S h
V-n e e
oW oW n
iS m
e t
I S z
e G f=
I S s
t t
i c o ns d
n r
r el es x
t I
el es o
el es u
l e
l u
o m
l e
u u
i l
u t
l e
l t a a
zs zd s zs zd a
z s zi E
zd C
s m c zs zi s z s zi
.i zs zd z
e ;P i
oe oa t
o oa 2
n ax e oe oa e oe oa r
o PE R NV NR P NV NR S( NV NR H N NR m ._
t r
it c{.
an re 0
0 0
0 0
0 0
i m
b 0
0 1
2 3
4 5
6 mm 9
1 1
1 1
1 1
1 a
m x
e u 3
3 3
3 3
3 3
3 E.
N B
B B
B B
B B B t
I
-)(
0 0
g t
0 g
t 0
g t
J.
g t
g t
s s
s s
s n
e5 n
e5 n
e5 n
e5 n
e5 i
i i
i i
t r
t t
r t
r t
r r
n u
c n n
u c n u
c n
u c
s u
c t
d mio d mio d mio d mio d mio t i t i t i t i t i n
e at e at e at e at e at t
c mt t
c mt t c mt t
c mt mt e
t c s s e r
s s e r
s s e s s e r
m s s e r
oyoS oyoS oyoS oyoS oyoS r
B m
f s r f s r f s r f s r f s r d e r
d e r ed e r
d e r ed e r e e
e m
o h ye eh ye e
ye e
h h ye eh ye e
C P t hS Pt hS Pt hS Pt hS Pt hS argo d
r d o P
ri i r h e n
TP o
i tce d
p ndo s
oi n
c r I
e e y
SP ra s
l m
e d
s o
m t
s si u
e r r i e S
V FP n
n o
I e
i s
a d
s n t
mi l
m n
e
}
i e a m
W tI x
.E a
n o
1 x o
Nto 2E it EI a
1 LS r
t 3
I B
e o
1 n
As e
N 7
Ts P
l s
a am l
t lC a
oe TI t
it 3
ra t
P r
in e
U g
b n
enm e
i 9
9 9'
9 9
n n
o u 9
9 9
9 9
i o
a ZN1 9
9 9
9 7
9 t
t s
e l
R l
m iM e
e r
t S
S S
S S
u s
s y
C C
C C
C s
S R
R R
R R
er P
do l
l l
l l
a2 a2 a2 a2 a2 E
m h u
u -
u u
u i T-i T-i T-i T-a t
s s
s s
iT s
e B
xEM VV VV VV VV VV y
roge l
s t
e e
s a
s l
e s
z dl C
e n
z o
t r
n zz e
dV o
o Ro n
e o
e z
i N
e i
s i
t d
n r
a N
me t
l r
a l
o
)
o o
l r s e
r e ul s
et u r r s i
t at C
s m c
i ed d
z el s
t t
v r
t z
s ne s
ni l
ane t
a a
tae e
or s o e
r r
n axe r
e e o
PER PPW V
CD nN P HPW r
I ita n
r i
e m
b 0
1 2
3 0
mm 1
1 1
1 2
ax e u 4
4 4
4 4
N B
B B
B B
E t
l l'
,ll l
.NU
/
1 0 s esR tn aI e
C m
1 e2 m
d5 o
o -
C CN d
d o A
A A
A i i d re
/
/
/
/
RP N
N 8
N N
I dndo oi A
A A
A c r y
ee
/
/
/
/
N N
5 N
N r
SP a
m d
m t's i A
A A
A o
u r
r i e
/
/
/
/
S N
N N
N FP no it e
a s n mim n
s d
i eh m
e l
t I
a W
A A
A A
1 x o
/
/
/
/
2E Nt 8
N N
6 N
N o
la EI t
2 LS e
3 B
M o
I 1
A r
N Ts a
l s s
l a m A
A A
A u
a i
l t
C m
oe
/
/
/
/
TI 8
N N
6 N
N t
is 3
s i
t D
r in e
U g
b e
e e
e n
em n
n n
n e
i n
n n
ou o
o o
o N
N 7
N N
i o
a ZN 1
t t
s e
l R
li m
M e
e V
V V
S S
S r
t s
y P
P P
C C
C u
s s
S R
R R
R R
R erP d
e e
&e e
e
&e c
c c
c c
c o
a a
a m h
.f f
a a
6
.f f
f F
t l
r r
l r
r r
a e
o u u
u o u u
u r
B FM VS S
T VS S
S yro s 4 s
r r
g e
s 4
s e
ed e
ed ed e
ed e
l Sfl f
gfl Sfl f
gfl e
ta s
r ae P ae a
r ae Pae a
C e
r
- e
- e e
r ot not ok z
r ot not ok
.d V e
t t t c ot e
o t-t at t t c i
t a -
d n
r e u h e u eo e u h e u eo r
o 4lzB o
s u 4lzB s
zB zS d i
zB zS d s
l l
t l
l t
C s m c
t s
s s S zd s zd zdl r a a S zd s zd zdle e P on e on on t
e n
av e Pon e on on r
o PE R NNE LNE NEW P NNE LNE NEW itan r
i e
m b
0 0
0 0
0 0
mm 1
2 3
4 5
6 ax e u 5
5 5
5 5
5 iN B
B B
B B
B E
t
a m
O m
s tn e
m moC d
d o ri A
A A
A A
i r he
/
/
/
/
/
TP 2
N N
N N
N d
nd o
oi A
A A
A A
c r
/
/
/
/
/
e e y
SP 2
N N
N N
N ra m
)d d
m e
o u
u si A
A A
A A
t r
/
/
/
/
/
S n
r i e t
FP 4
N N
N N
N i
n n
o o
i (c
e t
s n a
mi n
s m
i d
O1 l
e a m
e tI xE A
A A
A A
a W
x o
/
/
/
/
/
a Nt 8
N N
N N
N 2E o
l EI t
3 LS e
3 B
M o
I 1
r N
As Ts a
l s am A
A A
A A
l a
i t
C m
oe
/
/
/
/
/
l TI 8
N N
N N
N t
is m
3 s
i t
D r
in e
,5 1
U g
b 3
e e
e e
e n
nm n
n n
n n
e 1
e i
o o
o o
o n
n ou 24 N
N N
N N
o a
ZN i
1 1 t
t 1
s e
l R
m li M
u e
e r
t S
S S
S S
S s
y C
C C
C C
C u
s s
S R
R R
R R
R er P
d e
e e
e e
e
&a
&a c
c c
c c
c o
a a
m h
.f f
f
.f f
f a
a
- F t
l r
r r
a a
l r
r r
e o u u
u o u u
u x
B FM VS S
S VS S
S yr s
r 4
s o
r r
s 4
s r
s g
o e
ed e
e e
ed e
ed t
a gfed Sfl f
e t
gfl Sfl f
o l
r ae Pae a
a r
r ae P ae a
e C
n
- e
- e h
m d
e r ot not ok c
r ot not ok e
a t-t t c m
e G ot t a
t-t t c x ot t
-e u h e u eo m
d n
e u h e u eo 2
s E 4lzB s
zB zS d o
4lzB zB zS d t
tl l
i O
C s m m
l l
t s zf zdle t
a a
S zd s zd zdl a S zd s
s r
e Pon e on on e Pon e ou on e
n ax t
o PE S
NNE LNE NEW H NNE LNE NEW itan re 0
0 0
i m
b 0
0 0
0 1
2 mm 7
8 9
1 1
1 ax e u 5
5 5
5 5
5 E
N B
B B
B B
B t
I
N' s
tne m
m o
C d
d o ri A
A A
ir h e
/
/
/
TP N
N N
d nd o
oi A
A A
c r e e
/
/
/
SP N
N N
y r
a
)
d m
d t
o m
e si A
A A
r r
u u
i e
/
/
/
S n
FP N
N N
it n
n o
o o
i t
c ta
(
sme n
s n
d ei i
. ]J m
m l
t e
I.a A
A A
a W
ox
/
/
/
1 x NE N
N N
2E l
a EI t
4 LS e
3 B
M o
I 1
N As r
l s
Ts a
am A
A A
g l
a i
t l
oe
/
/
/
C m
TI N
N N
t i
s 3
s i
t r
D e
i n
U g
b
-e e
e em n
n n
n n
n n
o u o
o o
e i
ZN N
N N
i o
a t
t s
e l
R l
i m
M e
e r
t S
S S
u s
s y
C C
C s
S R
R R
e r
P d
e e
e o
c c
c mh a
a a
f f
f F
at r
r r
e x
u u
u B
EM S
S S
yro l
l l
r a 4 a a
g et t
t e
ge S e e
s ta aM PM Md r
C Lrd Nrd l
s s
r e d
r al nal aW e
e ol e aie l
l d
n i
i mW m
g 4 mW h t
o i
e OJL t
C s m n
i i
ik S st s st s
t i
st s s t s c r a p
Pi u ei u io n
ax i
o PE P NDB LDB DS i
t tan re 0
0 0
i m
b 3
4 5
mm 1
1 1
ax e u 5
5 5
E N
B B
B t
I
h h
c c
a a
s e
e tn d
d e
e e
v v e e
m og og m
mt mt a
a o
e u e u C
Ro Ro d
d o ri A A A
irh e 8
8
/
/
/
N N N
TP 1
1 d
r ndo e
oi A A A
te c -
ee 6
8 8
6
/
/
/
m SP 3
1 1
3 N N N
a y
iD r
d a
m n
t o i
si A A A
r m
r s
i e 8
8 8
8
/
/
/
N N N
e FP 1
1 1
1 u
h S
c n
n o
i o
t i
2 s
ta n
men n
a ei t
i m
h I
m T
a A A A
a ox 4
4 4
4
/
/
/
1 x re NE 5
0 5
5 5
N N N
2E t
EI a
5 e
LS r
o 3
I B
G N
1 As l s g
am A A A
ig t
Ts n
oe 4
4 4
4 4
/
/
/
t a
gg TI 5
5 5
5 5
N N N
i t
l t
C lo 3
B
.r t
g e
in n
b e e e
em n n n
U n
i nou o o o
i e
a ZN 7 N N N
1 n
t o
eR ts ll e
m i
r M
u e V S
t s
s s
y P C
r S R R
e P
d e
&e 1
l l
l c
o c
G mh a
a a1 a1 a1 u
u u
.f f
i T-i T-s T-o l
at l
l l
s s
e r
r x
u o
o u o
i B
EM S
V VS V
VV V VV VV yro s
,d d
e g
l s
e e
s s
c e
u a
gs t
s d d
d v t
f n
r a
s a
e e
u u o n S
r i
e 6-C
,d V H S
S m t
t d
u h
h i
,s n S c
=
e e
s d
n r
e ee ee
=
er g u
a o
r r c r r d
e r e n a
e BW i
t u
ua u n a
g uhi s
s o
o s m c
s s sl s
h e
n s s e
t n
t C
e r
su o
a ud t a a
ot op oh hl l
r u
a oa e
n av e
n o
PE R CN Ci Cw TF CWB n B F Na l
l l
l l
n itan r
i e
m b
0 0
0 0
0 0
0 0
mm 1
2 3
4 5
6 7
8 ax e u 6
6 6
6 6
6 6
6 E
N B
B B
B B
B B B
t I
m s
tne m
mo C
d
)
d o A
A A A
A A A
A' A d
ri i r e
h e
/
/
/
/
/
/
/
/
/
u TP N N N
N N N
N N N
n itno d
c ndo
(
oi A A A
A A A
A A A
r c r e
ee
/
/
/
/
/
/
/
/
/
t SP N N N
N N N
N N N
e ma d
y i
t o r
D si A A A
A A A
A A A
a r r m
n i e
/
/
/
/
/
/
/
/
/
FP N N N
N N N
N N N
i m
se u
h S
c o
~
t n
n i
s o
2 me i
n t
ei a
n t
m n
a I
a A A A
A A A
A A A
i h
m T
NE N N N
N N N
N N N
ox
/
/
/
/
/
/
/
/
/
a 1 x re 2E t
EI a
o e
6 LS r
N 3
I B
G l
s As am A A A
A A A
A A A
1 t
g oe
/
/
/
/
/
/
/
/
/
Ts
~
a n
TI N N N
N N N
N N N
t i
l t
C lo r
3 B
e t
b 6
e e
e e
e e
e e
e i
g em n n n
n n n
n n n
n n
n 4&
o o
o o o o
o o o
i o u U
n ZN 35 N N N
N N N
N N N
i e
a n
t o
eR ts ll e
m i
r M
u e
t S
S S
s s
s y C C
C r
S R R
R e
P
.d 1
l l
l l
l l
o G
mh a1 a1 a
a1 a
a1 1
1 u
u u
u u
u i T-i T-i T-o i T-i T-o i T-at l
l l
s s
s s
s s
e x
o B
EM V VV VV V VV VV V VV VV y
ro s
k e
s s
s e
d c
s u
c g
e c
g d
e a
c f.
n s
t a
gs n
a s
t u
t f
n r
f a
r i
r s S r
i h
e r
e S
r e
s S
=
sh e d u
h h
d u
4 h C
d r
e e
o d t
n S u=
g n S a
s n
a n S s
s t h s
g BW g
a e
Ba d
n a
a e Ba n
a e
n s
g
,W e
s g
,W i
s m mr a
o i
t n
s C
t n
r a an t
n l
t ac t
t l
t e e o
a ud e x o a
ud p o a
ud l
n av n
n n
i l
t l
l o
F Na HE B
F Na P B F Na i
tan re 0
0 0
0 0
0 0
0 i
m b
0 0
1 2
3 4
5 6
7 mm 9
1 1
1 1
1 1
1 1
ax e u 6
6 6
6 6
6 6
6 6
E N
B B B
B B B
B B B
t I
w
/(
n n
e e
ed n
e ed n
h e n
h e l
o s
o o
t z
wl z
wb z
b e
d e m d
e m d n
e me e
ne e
m s
t i s t
tc ms c
ms c
m e
a e
a e
l a
l a s l
s o
e1 xi e5 xi e5 C
S1 ed S1 ed S1
)de d
u d o n
ir A
ri i
h e
/
8 8
t N
4 4
n TP oc
(
d r
ndo e
oi A
te c r ee
/
m SP N
a y
i r
D d
a m
n t o i
si A
r m
s i e 4
/
r e
FP 2
N u
h S
c n
n d
d o
o e
e i
t l
l i
2 t
s b
b a
n me m
m n
a n
e e
ei i
h t
s s
m T
m ns ns
/
J I
a
.a eaA ea h s h s
/
8 i
8 1 x r
ox 4
e NE 2
wd N 4
wd 4
i 2E t
EI ae 7
LS r
3 I
o e
e B
G N
h v
1 As l
,g l
s a
a Ts am A
2 /v 2 /v a
a n
t z
i oe 6
/
94 94 l
t TI 9
4 N
t C
1 2 8
1 2 lo 3
B s
s s
t g
r 1
5 e
e e
i e
1
,1 v
v v
n n
b r
3 l
e l e l e i
e p r p e
U n
em pm e m n
& an a n an 1
i n
9 Vo Vo Vo e
a ou
,0 4 u pu o
24 Z
Z Z
n t
ZN 81 2 p 1 p N
1 1 2/
2/
2/
o eR t
s l
l e
m i
r M
u e
t S
S s
s s
y C C
r S R R
e P
d 1
l l
l l
o G
m h a1 a1 a1 a
1 u
u u
u i T-i T-i T-i T-o t
l l
n s
s s
s e
o y
B FM V
VV VV V
VV VV yro e
s d
e s
e c
g d
e g
s u
c u
a n
s t
a g s t
t i
r f
n r
a f
S r
h e
S r
i e
C d
d u
s h d
u h
h n
S u
s n
S s s e
e ua Ba s
a e
d n
i s
a e
s g
BW s m p
s g
,W e
o s
v t
n C
a m
t n
t t
n ax u
o a
ud a
o a
ud t
l l
l r
,(-
l n
l n
o PE P
B F
Na V
B F
Na 4}.
it an re 0
0 0
0 0
0 i
m b
8 9
0 1
2 3
mm 1
1 2
2 2
2 ax e u 6
6 6
6 6
6 E
N B
B B
B B
B t
I
o m
n a
o&
6 e s
i 1
t t
s s
n cd
.t u
e e u m
nt n /n ns ns m
o6 s od t
o c1 u c u t
C I
- n 8 s d
d o n
ri A
n A
i r h e
/
/
o 2 c N
TP N
d n
n ndo n
n oi A
o o
A c r ee
/
c c
/
I 2
N SP N
re y
t r
e d
n t o n
a m
si A
o A
m r
a ie
/
c
/
r m
D FP N
i 4
N u
S n
i e
6) 6)
n s
o s
s n 1
s 1 s
( t
( t mi
.u u
i e
m ta L
e a n /n n /n n
n t
n d
I x s
s m
n
.E A
od od A
i D
a o
/
cu cu
/
o t
t 1 s 8 s N
a Nt N
1 x se 2E h
EI c
LS n
6 )s 6 )s 8
i 1 t 1 t 3
I o
(.u
( u B
2 N
n n n n 1
A l s nd nd h'e Ts g
am A
oa cd A
s o
2 a
n t
c i
oe
/
/
4 h
h l
t N
TI N
C t
I =
8 =
l h
o
+
3 B
t g
r i
e n
n b
e e
,6 e
U n
nm n
i n
e a
ou o
4&
o i
n t
ZN N
7 35 N
o eR ts ll e
m i
r M
u e V S
S S
t s
s s
y P
C C
C r
S R R
R R
e P
- 2 d
l l
l l
o G
mh a
a a1 a1 1
1 u
u u
u i T-i T-i T-at i T-s s
s s
B e
x y
EM VV VV VV VV rog l
e e
t s
a s
s e
e a
s d e d r
r C
d V u e u s u r
e e
e t s z
h s
o h
s g
h s
St St n St t
St d
n ro
,u u
,u a
,u n
,u i
sN mr sN a sN sN o
s m c
t e
t h s
O C
t t
t s
t a n d
ac t a a
d l
l l
l d
e e o n r
d e o n t
e x o n n
ax e o n r
it 1,
an re i
m b
0 0
0 0
mm 1
2 3
4 ax e u 7
7 7
7 iN B
B B
B E
t
/
n s
o s
s wi t
t t
s u
e c u
t n
r e n
n cs n e
pn m
ao s
s m
d Cc d
o u
r u
t 6 e t
C S
1 p S
d d o ri A
)
ir
/
d h e 3
N e
TP 3
7 1
1 1
un it d
n ndo o
oi A
c c r
/
(
e e N
r SP 5
1 2
1 e
y t
r e
d a
m o
m a
si A
t i
r r
/
m D
FP 4
1 2
4 N
ie u
S n
i n
s e
o s
s n i
e mim e
d ta L
e a t
n d
t l
I x on A
i m
n
.E b n a
o o
7
/
o N
a Nt 8 c 4
9 3
4 1
1 x es 2E h
EI c
LS n
o 9
d 3
N e
i I
B 2
l s t
1 l
am o n A
~
As oe b n t
g o
7
/
w-Ts n
N a
TI 8 c 4
9 3
4 1
t i
l t
.2 C
lo 3
B 9
g r
2 1
t 1
s i
1 e
,3 u
n n
b 1
e o
e U
n nm 2, &
i n
i 9
r a
o u 00
,0 a
o i
e ZN 23 81 V
N n
t o
eR ts ll e
m i
r M
u e
S V
t S
S S
I s
y C C
C S H L P
s s
I r
S R R
R H R S R
e P
2 d
l l
l l
o G
mh a1 a1 a1 a
1 u
u u
u i T-at s T-s T-s T-s e
x i
i i
B EM VV VV VV VV yr og g
e n
t s
s i
s a
d d
s d
C d
u u
u u e
e n
s t
s t s o
t s St t
t Stu s S,u H
n S u s
,u d
g s m n
s, N p s, N e sN D sN i
o t
v t
t m
V C
t 1
d l
i PE P Ba P Ba V Ba C Ba ir, t
a d
R o n d
a o n l
l l
d l
r p o n u o n n
ax i
o i
t an re i
m b
0 0
0 0
mm 5
6 7
8 ax e u 7
7 7
7 E
N B
B B
B t
I
O s
t n
t e
s4 m
f e0 e u -
m q2 i
l o
e eR RRI C
d d o A
A ri A
i r h e
/
/
/
TP N
N N
dnd o
oi A
A A
c r e e
/
/
/
SP N
8 N
N y
r d
a o
t m
si A
A A
r r
i e
/
/
/
N N
m FP N
1 u
S o
n t
o s
i me t
n a
ei n
.m t
i I
a A
A A
m O
ox
/
/
/
a NE N
9 N
N 1 x 2E EI 0
.o LS N
4 s
I l
B e
1 l
s As s
am A
A A
s t
Ts e
oe
/
/
/
m a
V TI N
9 N
N t
lC r
o 3
f r
t s
e i
t b
n n
e e
e e
nm n
n n
U e
m o u o
o o
en h
ZN N
7 N
N o
c t
a s
t l
tA m
liM e V S
S S
l t
a s
r y
P C
C C
g S
R R
R R
e tn I
d r e r e r e r e o
o c o c o c o c H
mh a
a a
a
.f
.f
.f
.f l
at l
r r
l l
r r
e o u o u o u o u x
B EM VS VS VS VS yrog l
e e
t s
a s
s s
s s
t t
t s
t e
n r
n s
n r
n C
d V
y e
z y
e y
e e
y e
e ro t
l d m g
l d m e
e l
l d m d
n r l d m l
i l
l n
a eh r
a a eh a
r a eh o a eh u
r me gd c i
r r
t r
o s m c
gd c s
gd c t h gd c O
C a
a n el a ac el a a
s elet e e t
t ex t
t r a a elet e
t et et n
a x e
t t
r t
t t
o PE R nWA P nWA SG nWA HE nWA I
I I
I itan r
i e
m b
0 0
0 0
n n.
1 2
3 4
ax e u 8
R 8
8 E
N B
B B
B t
I
9' s
tne m
moC d
d o ri A
i r h e
/N TP 2
2 3
1 4
1 dndo oi A
c r e e
/N SP 2
2 2
2 1
9 9
4 yra d
t o m
si A
r r m
i e 3
/
N u
FP i
3 3
4 3
1 4
8 1
2 6
S n
o o
t i
s ta ne
- n n
ei i
t m
I m
O(/j a
A a
ox 1
3 2
4 2
0
/
1 x NE 1
0 7
5 4
5 1
4 1
1 1
1 1
0 N
2E EI 1
LS o
4 I
B N
1 As l
s e.
Ts a m A
t a
oe 1
8 0
1 0
3 2
6 5
5 4
5 2
/
N TI 3
8 6
2 1
2 1
1 1
3 6
5 1
1 t
lC g
3 n
S i
k p
o S
S S
P S
S S
S i
n P
Ne P
S S
P P N P P
P S
S S
P S
U z
N P
P N N "5 N N N P P
P N
P e
n ei N N N N N N
n e
i nS "4 2 "0
"2 o
n s
o r 0
1 9
7 o
d Zo "8 "6 1
3 2
2 1
1 1
8 6
4 1
6 N
t l
s e
l W
m liM e
e r
t S
S s
L C
H H
u y
I I
ss S
S R
R S
er P
l l
e o d
e o cV o
c
- J mh aV a
f f
at rd rd B
e x
un un EM S a S a yrog r
l e
a e
t g
i r
t l
a a
n a
C L
e n
d r
i e
r e
d e
d n
o f u
ms i s t
o i
4 m
ud gd C
s t
a S cl nl a x P r e e
n r
o o
PE N CW LW p
i
/\\
t i
an r
7; i
e m
b 0
1 2
mm 1
1 1
ax e u 9
9 9
E N B B B
t I
f
O s
tne m
moC d
d o ri A
i r h e 0
2 0
/N TP 3
1 2
1 8
1 2
1 9
dndo oi A
c r
/
ee 6
3 N
SP 2
1 1
9 7
1 3
8 yra do m
tsi A
r r m
/
i e 0
u FP 1
5 -
3 1
1 6
4 N
S n
o o
t i
s t
a men n
e i.
t i
I w m
A
. O 2E o
6 0
9 8
3
/
a NL 1 x 6
2 4
1 1
0 0
1 2
3 4
2 4
N
)d EI e
2 LS u
o 4
I B
n N i
1 t
s A
n a m 3
5 0
0 A
l Ts o
t sa c
oe 3
8 0
0 6
8 0
6 1
0
/
1 4
8 1
1 2
5 2
4 1
1 1
8 N
l
(
TI t
C g
3 n
S S
S S
S i
t p
oNe S
P S
S P
S P
S S
P S
P S
i i
n P
z P
N P P N P N P
P N P N P
e U
ei n
nS N
"5 N N "5 N "5 N N "5 N "5 N
no e
i o r "3 "2 "3
"2 N
n s Zo "2
"3 2 1
2 1
1 1
1 o
d t
l s
e l
W m
l i
e n
I M
Si S
S S
e u
y Cr C
L H
P H
t r
s a
I I
s S
RD R
S C
H S
ser l
P d
e e o c
o c
aV m h a
f f
J a
t r
rd e
u un ErM B
S S a yro l
g a
e it l
t a
n a
e n
C d
n r
i l
e e
e a
f u
d n
hT4 m
h s
s i
i o
m ud gd s
. O C
sS cl nl t a e
sP r e o
r o PE LN CW LW n
a x e
i i
tan r
i e
2 m
b 0
1 mm 2 2
2 ax e u 9
9 9
N B B
B E
t I
)<
s tne m
moC d
d o ri i r h e TP 1
4 1
1 dndo oi cr e e SP 1
2 4
4 y
ra d
t o m
si r m
ie r
u FP 2
4 2
S n
o o
t i
s ta men n
ei i
t m
m I
a a
or 0
1 x NF 0
1 0
1 0
4 8
1 1
1 0
0 2E
)d EI e
3 LS u
o 4
I B
n N
i 1
t As n
a m l
s Ts o
t oe 1
8 4
6 a
(c TI l
t 1
2 4
2 2
1 1
2 3
2 4
1 C
g 3
n i
S S
S t
p o
S S
S Ne P
P P
S S
S S
P S
P S
P i
i n
P z
U ei N
N N P P
P P N P
N P N N N N
N "5 N
"5 N "5 n
nS "4
"2 0" e
i o r "6 "4 "2
n s
Zo 3
2 1
1 2
1 1
1 1
o d
t l
s e
l W
m liM e
te S
S S
u y
C C
L S
r s
C I
I s
S R
R S
H R
serP d
e e
e o
cl c
c m h ao a
a f
f fV J.
t a
r r
r e
y u
u u
B EM S&
S S
f yro r
g e
e g
s t
s r
d "4
a ed a
l C
pl L
e i e 4
r n
W e
= PW o a
d h
h t
4 t
e o
c s m nn S sS k
n C
t s a
s c
n ay r o P eP o
r o
LN S
e i
9 t
an r
i e
m b
0 1
2 0
mm 3
3 3
4 ax e u 9 9
9 9
E N B B
B B
t I
a O
s t
n e
m m
oC d
d o ri A
A i r h e
/
/
N N
TP 4
dndo oi A
A c r e e
/
/
N N
SP 4
y r
a d
m s
o t
e si A
A m
v r
r id
/
/
u la FP 2
N N
S V
no d
o t
n ita a
sme n
n s
ei i
m p
t m
I m
.a A
A a
1 x u
or
/
/
2E P
NF 8
2 N
N EI
,g LS n
o I
B i
1 p
N As i
l s
Ts P
am A
A a
r toe
/
/
l o
t C
f TI 8
2 N
N 3
s m
t t
n e
o 2
inU m
Ne
,3 z
0 e
e h
ei 3&
n n
e c
nS n
a o r 91 7
o o
o t
Zo 23 2
N N
t tA s
lli l
a m
M r
e S
S S
S g
t e
s t
y C
H C
C n
S R
R R
R I
1 d
r e r e r e o
oc oc oc K
mh a
a a
.f
.f
.f at l r r
l l
r B
e o u o u o u x
y EM VS VS VS rog e
t s
s s
a t
t t
n n
n C
d y
e y
e y
e e
e l
l l d m ad m ad m l
l l
d n
s eh s
a eh eh r
g i
e r
s m n
gd c p
gd c v
gd c r
o C
i a
m elet a
t O
a el a r a elet t
l et p t t
t t
u t
n ax nWA V nWA nWA P
i o
PE P
I I
I i
ta n
r i
e 0
0 0
m b
1 2
3 mm 0
0 0
ax e u 1
1 1
N B
B B
E t
I
no it s
a
's t
l n
s s o e
l l
e s
a e a
ai m
n a r a ht c
c m
rf rf c n er e r n
n u ue t
n o
t u
s m
C I S I S
(
i n
s ni d
ga i t l
d s n e
d o eo W
ri A
A A
d c i r h e
/
/
/
l g
TP N
N N
a as n
noh in i c i
d t
a nd c u o
u (s te oi A
A A
r R
c r m
t ee
/
/
/
s e
SP N
N N
ne r
ot s u
cy
,s s
d e
y s
r e
t o ze a
r si A
A A
h i
r st r
m P
ie
/
/
/
FP N
N N
en mi m
1 -
a s d
d s n u
M-o S
o e
e ei t
l l
n B
s b
b ht t c me m
m f n o
i n
u a
g ei e
e of t
s ns ns e r t
m e s e s n
n I
a A
A h
al r
i i
. a A
h a
a s
s ov
/
m a
t s
/
/
a C
NE N
Wid N
N Wid am i
1 x hi t s 2E p
s n EI m
o e
LS u
N v n 5
g
+
o 4
l l s af I
B P
r A
'n am A
A A
v e 1
t i
oe
/
/
/
9 f p A
Ts TI N
4 N
N 3
ot s
t a
s d
pa l
uh C
e o
N l
t rd Ws 3
o gn ha W
1 t
ge Ne 1
in i
z e
e c
nd ei e
n n
ad e
iB or o
,0 o
o eo W
U n o nS n
9 i
h n
a Zo N
81 N
N n
t e
i t e o
e v h
m t
t Rl i
s a
wg l
e V, m
n li ei r
e M
u2 S
S S
S S
vr t
u s
l s
y C
C C
C C
at s -
e S
R R
R R
R' v c rM a
ef PB n u o na d
e 1 g o
l t
m )n l
c a
s
- n a3 a
3 a
Li m h u
o u
f i T-edi i T-t l
- s a
l s
s r
e o
u o
n t l
Ba FM V
VV S
V VV v
t a c C
a e
y
, t r p o )s o t
p.
om 4
r e
g e
d v eu s
S g
el c
t a r
d sP s r ta P, i
d a yn v
u d a m
le d N a
C l
l k
l 2-d W
e er oh il c Wn Wo Bt ee e
eL n
oB sm p n n
e h
4 ee4 rh r
a r
d s
g g
s i
ac v
yt y
vtaS w
dS s r C;
t a m
i i
d s l
=
s l
ns ax u
=
a a os oP a eP no o r
r oi PE P C C
V Bl BN V gN o
e e
,em.
it id at t
ae ao ngt r
i s
nB i
e 0
0 0
0 0
m e,y s
me b
1 2
3 4
5 ab al m m 2
2 2
2 2
xod v
El n xa e u 1
1 1
1 1
ga EV N
B B
B B
B t
8 I
n f
d o mr r
ni on o
i s
e et og of o
r o
la nye fl i
r t
l l
e n
b b e e r et v
es a mb e vs n o
t e
i i
s s
n m
s 's sh s m
n oei mvm I
i ut ea cdl e
m ce t
d a
r al el ee x y
n o
cr e
a C
AA Atawb Rh e b
t s
n er s
o i
u s
s e t
t d
s s s c a
a c
d o ed ef n
ri A
cl c r n
i u
e i r c
c u r
h e
/N AW AS v
t TP 1
x S
e tr r
o d
o p
nd f
o p
oi A
e c r l
u ee
/
b N
S SP 1
i s
e s
y r
e r
o d
cc a
C o
a t
m si A
d r r i e
/
e m
e FP 1
N d
u d
a m
l S
e n
W e
e e
e s n l
l r
b b s a
o y
mim i
i e t
it l
s s
e a hd s s s c a
a l
tI x co ed ef h
a n
a
.E ai A
cl c r r
t i
e gs o
e r c
cu e
m e
e
/
1 p N
AW AS e r Nt r
o o
a t
1 x n u c
2E I, tc r
u e
e o
EI 2-r l
l t
c LS t
o b
b s NS N
e a
i i
I B
s s
1 s s s c er m
As Bt a
l s
ed ef e
r am A
cl c r h
Ts
- o e
t c
c u t
a ep oe
/
l N
AW AS s p TI t
l w
1 C
s u o
eS 3
V le t
e o
b i
rr Ne d
n oo t
z U
cC ei e
n nS n
a e
a e e
n el or oN o
Rb Zo 1
1 1
v t
a o
s f
l o v ba l
o m
i r
s M
om e
V V
V V
c s.
e t
i e s
a eR y
P P
P P
a e r
t S
R R
R R
pg s a n3 e *t I -,N h o t
d 1NB mh a3 a
a3 a
eg l
l l
l n
1 3
d n u
u u
u i T-ui i T-i T-i T-at s
l s
s s
e s
l e x
Ble EM VV VV VV VV c u nf s
ys e
i r e l
r e) l oV
. e )2-hin2 h a al r
g l
l er e o e
h n
t s
cl m
i c i N-N-
s r
s t
r t
o al al at s
e s
o d
r t
t e p
e o
t l e
t e
t t
Cc d V n
V ABB(
pm) n n
AeBB(
a I
ee e
u g
i r
rd n S u3 m n n
r s )1 r )R o
o n n on o dR o
l i
t o
t e -
o t
i s m c
c a
i i
i r oi e u N-i s N-cW r h r
s Co v
u a
et g
eyg r
t t
r a a
B ad e
t ee otr ns av e eB e
t i ot PE R V(
R( nWR nBR CS(
e P
I I
s in bt n
t e
o e anm t
r n
ih e
0 0
0 0
sa o mc b
1 5
6 7
e p at mm m
a 3
3 3
3 rAo xt e u 1
1 1
1 N
B B
B B
'c EA t
I
r la 0
0 0
t r
s e
s 5
e5 5
h g t
pn n
t n t n c
s s
s i
o eo s
ri t
e o i
t e s1 i
t i n
t t i t
at t
n pue e
mecge mt c
ec s e mge f ot o m
e m
oh N m
sk e
sd e sk e
e a S e oS e a S
t t r t
m
% D e o
ya e
yye ya e
o 0 Re C
SlaS ShS SlaS CS C
1 d
d d o d o ri ri ur ir l
d nd nd oi o o o
i c r cr e e ee SP 4
SP y
r a
d d
m o
t o t
m si si r
r r r
s i e ie u
g FP FP S
n a
i n
s e
o o
u t
t o
s n i
s a
H mi me m
n n
e a ei t
i d
I v t
m m
o I
E a
R o
a o
ox 1 x Nt 4
NE l
2E o
s EI r
tn 7
t LS n
o e
o 4
I B
o N
n N
y A
C 1
l s
o l s am p
s Ts n
am t
a i
oe 8
m t
t oe l
s TI 7
o TI t
C d
l C
~
l 3
e g
W o
n o
t in Ne i
g z
s n
Ne U
n ei g
a ei i
z nS n
t nS 9
9 9
i e
n o r i
e o r 9
9 9
n i
Zo 2
su R
Zo 9
9 9
o a
t t
o s
e e
H r
l R
m n
m li e
e D
s M
V R
e s
s e
r t
S S
S t
s n
y P
S R
C r
y C
C C
s P
S R
R R
s l
e a
l r
r l
P e
A d
r e h
d o
o c p
l l
l O
mh a
i a
a a2 a2 u2 f
r P
m e s T-u at l
u e
i T-i T-e o -
p B
a s
s x
B EM VS r
i EM VV VV VV y
0 y
r 4
r o
f o
o g
g l
l e
e e
e D a
l s
t s
t t
a s
a se R e
i o
C C
.d V Cs V
gy gy m
g~.f d
t r en r
en r
- c. i L n
e e
d n
r ng a
e i
ri a
ri a
u d
o in e
o un d
un d
t n
i i
s m c d s r
o sm c
si m
si n
s i
t o
si
+
t P R* B u
a C
s a s a u
s W
C t
l r a a eteo et tr a a e o e
i e o e
r n
a x e
n a x e
i r
r r
o PE R WH e
gi,,
- c*-
h i
i t
t T
a an r
n r
i e
0 1
0 i
e 0,
1 m
b 1..
m b
1 1
2 mm e
mm 4
t a
5 5
5 ax e u 1
o x
e u 1
1 1
N B
N E
N B
B B
t E
t I
I
l I
G 0
0 0
0 0
t t
t s
s s
e5 5
e5 5
e5 t
t t
n t n n
n t n c
s c
s c
s t
i o e o i o e o i o i
t i t i t
t i t i n
at t
at t
at e
c e c c
mec mt ec m mt mge mt e s
s e ge s
e oS e a S eoS eaS e oS m
t r
t t r t
t r sd e sk e
sd e sk e sd e o
yye ya e
yye ya e yye C
ShS SleS ShS SleS ShS d
d o ri i r h e TP dndo oi c r e e SP yra d
m o
t m
si r r
ie u
FP S
no o
i t
t s
a me n
)
n i
ei t
v 2E m
n I
t m
a o
a 1 x c
ox NE
(
s EI t
LS n
8 I
e o
4 B
n 1
N As o
l s
Ts p
am m
a m
t l
oe o
C TI t
C 3
g t
n o
in in Ne U
i z
a ei e
t nS 9
9 9
9 9
n e
o r 9
9 9
9 9
o R
Zo 9
9 9
9 9
ts e
ll r
i u
m M
ss e
t e
t S
S S
S S
s r
y C C
C C
C P
S R
R R
R R
l lA d
o l
l l
l l
P mh a2 a2 a2 a
a 2
u2 u
u u
u i T-i T-i T-at i T-s B
s s
s s
e iT x
y EM VV VV VV VV VV ro ge ta s
C d
gy r
gy gy e
gy gy s
r o
e e enr t
enr en r
g en r
en r
d m
ri a a
ri a ri a
n ri a
ri a
und r
und un d
a un d
un d
s si n me o
m
]N J
C si n si n
t h si n
si n
s a u a n s a u s a u
ac et s a u
s a u
tr a et n
ax r e o e e et o et r e o ex e o et e
r r e o t
r
[
o PE PRB SG PRB PRB HE PRB PRB ita n
re 1
0 1
0 1
i m
b 2
3 3
4 4
mm a
5 5
5 5
5 x
e u 1
1 1
1 1
E N B B
B B
B t
I i!
f 0
0 0
0 0
0 t
t ts s
s 5
e5 5
e5 5
e5 t
t t
n t n t n c n t n c
s c n s
s s
o t
e o i o e o io e o i
n t i t i t i t i i
t i t
t at t
at t
at e
ec c
ec c
e c c
m mge mt e mge mt s
s e mge mt e s
ea S
eoS ea S
e oS e a S
e oS m
sk e
sd e sk e
sd e sk e
sd e t
t r t
t r
t t r o
ya e
yye ya e
yye ya e
yye a
C SlaS ShS Sl S ShS SlaS ShS d
iomi r
h e TP d
ndo oi c r e e SP y
r a
d m
o t
m si r r
i e u
FP S
no o
i t
t s
a me n
)
n ei i
t t
m n
I m
a o
.a 1 x (c
ox 2E NE s
EI t
LS n
9 4
I e
o B
n N'
1 As o
l s
u..
Ts p
a m
am toe lC o
TI t
C
+
3 g
t n
o in in Ne U
i z
a ei e
t nS 9
9 9
9 9
9 n
e or 9
9 9
9 9
9 o
R Zo 9
9 9
9 9
9 t
s e
ll r
i u
m M
ss e
t S
S S
S S
S e
s r
y C
C C
C C
C P
S R
R R
R R
R llA d
l l
l l
l l
o P
m h a2 a 2 a2 a2 a2 a2 u
u u
m u
u i T-i T-i T-s T-i T-i T-a t
s s
s s
B e
v i
y FM VV VV VV VV VV VV roge ta C
d g y-gy gy gy gy g y n
r en r
e n e
e en en en r
wi a
ri a
r:
ri ri a
L.
i d
r i n d s
s un d
un d
u d
un d
p si a
g un i
e o
m n
si n
si r
si n
s:
n
~
n v
s a u s :-
u s
i s a n
s a u
m s a a
u C
n t a l
et eteo
,a o
a et o
e t-t r
p et o
r a o
u r
o PE P PRB PRB P PRB PRB V PRB P R. oB e
- f. :
a n
ax e
r r
i r
i j.
tan r
i e
0' 1
0 1
0 1
m b
5 5
6 6
7 7
mm x
e u 1 '
5 5
5 5
5 5
a 1
1 1
1 1
E N
B B
B B
B B
t I
rC lac ri n eno s
phi t
t c a n
e ec e
n m
iTf i
m i
t m
n c a
e o
x ap l
C EPS d
d o ri i r h e TP d
nd o o c,ir e e SP y
d u.
o tsi 1
r r i e r
FP iu S
n n
o o
o t
i i
s l taa t
a me c c n
n ei i i f ni i
t m
nh c t
I QV m
a ox a c e
.a l
ep 1 x NE PTS 2E EI 0
LS o
5 I
B N
0 1
As l
s 0
~..
Ts am 0,
t a
oe 2
TI 2
t lC 3
t o
i Ne n
g z
U n
ei
,6 i
nS 4&
e b
or n
u Zo 35 o
T ts l
r l
o m
i t
M a
e t
S r
s e
y C
n S
R eG m
do a
mh e
t l
t a e o
r S
EM V
- Q B
s
- n y
Ug r
i o
d r ns g
e o
ie t
e n
a gD t
i s m mer n
a ie C
a n bb G
t a r
e e uu n
ax t
i e
0 m
b 2
mm 6
ax e u 1
iN B
E t
1 Ah s
t n
e m
m o
C d
d o ri i r h e TP 1
1 1
l d
nd o
oi c r ee SP 1
1 y
d r
o t
a si r m
r i e m
FP 1
1 u
S e
n s n o
mi m
i s
e a t
l t
a e
I x n
s
.E i
s o
e o
m V
Nt 3
1 1
1 1
a 2 x e
2E r
r r
r u
e r
r e
)r e
)r e
EI s
p
)r pe
)r p
e
)r p
e p
1 LS s
o s
o o
g o
g 5
I e
B r
N d
t d
t d
n d
t d
n a
l a
l l
a l
l 2
eme r
e a
am wan wan wta d=
wan wt h eme eme As P
r r
e l s a c Ts n
t e e ex e e 1 ex 1
e e 1 t
?'
a i
oe 2 3 t 1 ( s g 4( s g 2(h e 4(ts g 2 (1h e l
s TI t
C d
l 3
e W
o n
Ne
,6 6
4
,6 4
t i
5 5
7 5
7 g
z 4 4
4 U
n ei 5&
5&
5&
nS i
e n
or 35 35 3
35 3
n i
Zo 55 55 7
55 7
o a
t t
s eR m
lliM e
e S
S r
ts S S
H S
H u
y S M M
R M
R sser P
do
- A m h t
l l
l a
e o
o o
C-EM V V
V r
yro l
l g
a a
e i
i t
t a
n n
o t
t e
e
- d C
d r
r t l e
e e e e
e f
f e W d
n ms m
h s
s i
o s m l ud d ud el l C
l cl acl b e t a er e ei uh r
r e n
i r
tan re i
m b
0 0
0 2
3 a
m m 1
x e u 1
1 1
E iN C
C C
t
ts n e
ei l
s a z u uqM z i s
e od tne R5Na R
m f0 mr e -
m 2 a e i
l e n RIeRSI o
t n C
d d o ri A
i r h e
/
TP N
1 dnd o
oi A
c r ee
/
SP N
y d
r o
t a
si A
r m
r i e
/
m FP N
2 u
S o
t n
s o
me i
n ta ei t
s m
n I
l A
i e
. a m
s o x
/
a e
NE N
2 1
s 2 x V
2E n
s EI s m )o m )o i
d r
2 r
d LS s
o e at eat l
5 l
I B
d N
we a ea wt l
2 t r r
As 2 s e s e e
l s Ts W
am A
t
( r n 2 r n
(
a oe
/
e e e e l
e TI N
8 pg 8 pg t
C lzz 3
o
.o N
,6
,6 t
in Ne 5
5 g
z 4
4 U
ei e
n nS n
5&
5&
i o
35 35 e
n o r Zo N
55 55 n
i o
a t
t s
e l
R m
liM e
e r
t WS WS s
u y
FM FM s
S se r
P d
d e
ne o
c a c
- B m h f
.f a
a t
l l
a r
r r
u o u o
e C
EM S
VS V
yro l
g o
l d s
ll d n
le el s%
h e eo t
el e
h e O
t l
di
/ gs n SW a
s a m SW t
i s c e
s u WiVh ms o) n e n
C d
n eqos o) a
.s i
s e
e eNe t d I S l
t d s r n r n e a e s c
t o e d
n s s a
e el f h n e
oieNk l
e l
e l
i u
eo ck z
z f l
o sm zs l
ntet zH zi r a zs n ni zH ziaeah c C
z zd c
t i
oel ch or oa n
ax oea h
or i
git N (o NR r n o
PE NVh
%T N (o NRP t
i tan r
i e
m b
0 1
0 1
2 mm 1
2 2
2 1
ax e u 2 2
2 2
2 E
N C C
C C
C t
I
l e
hc s
t a
n e
e s
m ed 2l o m
- z o
Tzi r
oe C
Vnp d
d o ri A
i r h e
/
TP 2
N 2
dndo oi A
c r e e
/
SP 2
N 2
d y
o r
t a
si A
r
)
r i e
/
m d
FP N
2 e
m u
u n
i e
S t
s n n
n o
o mim i
c e a t
(
t a
I x.E A
s n
l i
e o
/
Nto m
4 N
2 ss a
e 2 x V
)
2E r
s
)r n
o st g l t g e
e e
EI i
N d a n z an 3
LS s
I e a ze 5
l B
d l
s e
a h
oh h l
a m wh 2
e t
r c A n
As r c Ts W
TI 8( pe N
4( pe oe
/
t 4 e x 2 e x a
l c
C iz 3
z o
o 4
4 t
N Ne 7
7 in z
e g
ei n
U n
nS o
o r 3
3 i
en n
Zo 7
N 7
i o
a t
t s
e l
R m
liM e
e r
t S
S s
u y
H H
S R
R sser P
d e
o c
l B
mh a
u2 a
f at r
i T-l s
e x
u o
C EM S
V VV yro D
l l
m D
g r
l l
o e
e I
e ne I
t hit o t
h h
n a
e N. s ndd gs S
n a
t e
e s
S esl i
r eie C
d wt
-o)hi b a
n o)hl l
l gns i
dWl c ea i
d web e
e l
t t
es sPs%n oWel i e r
d n
si e
es s s e a s s e a e f. l k
f l
e l
s l
e s s e i
o l
s m z
z d e e zHd ec zHleVc zis ni ntezs ns c
C eVc v
z t n l
z s iaoe or r
a n
a r oeeah c
or e
o PE NRVh T RPNV N (o W foA N (o W f l
n
+
oI itan r
i e
m b
0 1
2 3
mm 1 3
3 3
ax e u 2 2
2 2
E N C C
C C
t I
.l:
l lll
~
i s
tne m
mo C
d d o ri A
i r h e
/
TP 2
1 3
1 2
5 3
N i
dndo oi A
c r ee
/N SP 1
9 1
3 se y
h-d r
o t
a a
si A
m V
e
/
r r i
N m
d FP 5
3 u
n S
a e
s s n n
p o
mim m
e a it t
a u
I x n
P
.E A
i o
6 1
/
m g
Nto 1
1 1
1 3
1 2
1 3
N a
n 2 x ip 2E re
)r
)
i EI P
p e
p
.o g
gm 5
s 4
LS N
A n
uu s
I B
e l
Wt a
l s
2 l
h p
As s
am A
I ac 3 r s
t Ts e
oe
(
ex 6
1 e
/
a V
TI 2 (1h e 1
1 1
3 1
2 1
6 p N
w t
~
l C
r o
2 3
f 9
t s
o 4
6&
0 78 78 4
1 i
t n
n Ne 7
7 8
9
& 602 z
81 U
e ei 67 e
781 n
m nS 9
0
,1 e
o o r 3 502 2
8 8
6 0
%9 58 3
n h
77&
8 N
o c
Zo 7
677 1
5 8
1 t
a s
t l
tA m
liM e
I l
t S
S S
S S
S S
a s
L H
r y H W
P S
S H S I
g S
R F
H M Q R R S R
e tn I
d e
e e
e o
c c
c c
- C mh a
a a
a f
f f
f at r
r r
r e
x u
u u
u C
EM S S
S S
yro y
y g
h h
h l
l l
l e
c ac ac t
a s
r a r a a
t t
gt gt t
n t
t C
d yA y
e eA eA t
t e
e e
l l
d n
r sl d l d m n
n I d I d ul e
ga eh e
a e
i e r r
e o
s m s s gd n gd c pd vd C
el a ml s s el l
i t a l
e pt et e
e r
e et t
u a
n ax r
i o
PE PVInW PInWA PW VW 7
it an r
i e
m b
0 0
0 0
mm 2
3 4
1 ax e u 3
3 3
3 E
N C C
C C
t I
ll
O 1
1 s
r r
t o
o n
ef ef n
e n
ig ig m
mivne mim np m
t t
al al l
o xou xoa C
Eb p Eb v d
n
)
d o n
s A
A o
d ri c2 u irh e
/
/
3 t TP N
N I ( S 1
dndo oi cr A
A ee
/
/
r SP N
N e
te d
y m
o r
t a
a si A
A r
i r
/
/
ie m
D FP N
N m
n i
u o
n S
se t
o n
h i
s tc/
o cn me ed) s i
n ta ei n
i m
ntup t
n 2
I a A A
os m i
n o x
/
/
c2 m
a O2 u
3 a
h NE N
N I ( p 1
x T
2E r
EI e
/
5 s
LS t
o 5
I a
.d B
e N
nu) 2 r
l s
nt p
=
As G
am A A
o m
s Ts c2 t
a g
oe
/
u 3
n TI N
N 2(
F 4
t lC i
t 3
lo 4
.o t
B n
Ne
,6 i
g z
6, &
2 U
n ei e
e i
nS n
n e
o o
0 1 3 n
o r Zo N
N 9
66 n
i o
a t
t s
e l
R m
liM e
e r
t H
S s
u y
I S
S M
sser P
do
- D mh at l
l l
l e o o
o o
x C
EM V V
V V
yrog e
s t
t s
s s
t t
a l
t l
o l
l C
d Bs os o s o s e
e e
d Bd Bd Bd u d
n r s u u
u st ul t gt st i
m s sS nS pS eS e
o v
s O
r a e sd pd md C
s i
t l d n
un a
e o
PE PVa P a P a Va s
n ax r
n n
i i
tan r
i e
m b
0 0
0 0
mm 2
3 4
1 ax e u 4 4
4 4
E N C C
C C
t I
o s
tne m
moC g
d n
d o i
ri p
irhe iP TP
- 6 6
- 4 1
yo ll d
A ndo oi h
cr g
ee i
- 3 7
H
.e y
r l
r o
d p
a o
m l
t m
e si a
r e
r i e s
m tS FP 3
7 u
s S
s 5
e e
7 n
l s n o
n mim ne i
i t
a e a i
a t
t n
S I v mr E
e i
3 m
c o
4 t
o i
Nt 0
0 0
9 6
0 0
7 1
1 e
t a
i d
2 x n
2E e
o t
t EI s
o t
6 LS n
o r
t n
5 I
o/
t u
B A
N f 't c 0
2 1
0 6
0 o
2
/
3 0
6 4
0
/
1 3
c nem As n
l s l
uj o 9
/
/
/
/
/
9
/
/
4 Ts am a i
b d
t t
s oe oour 2
1 1
2 1
4 5
6 0
/
l a
a d
TI TCSF 1
3 1
6 4
1 1
1 3
4 e
l t
C e
w l
W l
3 a
t o
t Ne "8
o g
in n
z r
t U
i ei o
n nS "2 "4 "0 "2 "4 "6 f
e i
n s
o r "8
Zo "6
6 d
1 1
8 1
1 1
1 t
o e
e d
t R
u s
ll e
m c
l i
r M
u te S
S S
n i
s s
H S
H t
s y
u e
S C
Q R
b rP s
d s
d n e e
1 o
a c n
F-mh a
k
.f t
c a
l r
C-EM VS e
x ou h
i t
=
y ll r
a o
l w
g s
a s
i e
s
.e t
o t
n n
t a
d mk>
e e
l C
d e
r oc g u
W N. i n e
f d
e e
hi d
n g
T p4 m
d i
o n
ud e
s m ni iPS cl d
l C
i l
t a r
p8 a r r e u
PE P3WfoT n
ax iW l
i/
N C c
o x
it e
a s
n r
d i
e l
m b
0 1
e mm 1
W 1
ax e u 5
5 E
N C C
t I
,C s
)
t d
n e
e u
m n
m i
tn o
o C
c
(
g d
n d o i
ri p
ur i
l e
2 P
TP 1 3 6
3 1
2 y
o d
l nd lA oi o h
c r e e g
SP 8
3 5
2 iH
.e y
r l
r o
d p
a o
m l
t m
e si e
r a
r t
i e 2
s m
S FP 1
9 u
s S
s 5
n e
e l
s n 7
o n
mi e
m n
i i
t a
e a i.
a t
t n
S I x
.E i
m c
o 0
7 t-o i
Nt 0
0 2
6 0
0 1
8 9
3 1
2 e
t a
2 x n
i d
2E e
o t
t EI s
o t
7 1
LS u
o r
t n
5 7
4 u
I o/ t B
A N
f 't c 0
4 1
8 5
6 2
0 o
2 l
s l n e u
0
/
3 0
0
/
1
/
2 1
2 c
As n
Ts am a uj m
b
/
3
/
9
/
/
2
/
1
/
/
/
i d
t t
s oe ooua 7
4 4
/
9 7
7 8
0 6
2 0
l a
l d
TI TCSE 9
1 3
9 4
4 1
9 1
2 1
2 ew' t
C e
l W
l 3
a t
o to g
i Ne n
n t
z r
U i
ei o
n n
nS "0 "2 "6 "4 "0 "2 "6 f
e i
n a
o r "6 "8 "6
1 1
1 2
d t
Zo 8
1 1
1 8
o e
e d
ts R
u ll e
m c
l i
r n
M u
t S
H L
e i
s s
s y
S t
I I
u e
S R
S S
b r
P s
d s
d n e e
1 o
a c n
F-mh a
k
.f c
at l
r C-EM VS e
i x
o u h,
t y
ll r
a o
l w-g s
a s
i e
s e
t o
t n
n t
a d mk>
e e
l C
d e
r oc g e
u W N. i n hi d
e e
f d
n g
T p4 m
dl i
o m ninl ud e
i s
PS cl d
C i
l (C
t a
u i.
r p8 a rP r e n
ax o
PE P3WfN CW i
i/
o l
cx.
(t i
t e
a s
n r
i e
d l
m b
0 1
e mm 1
W 1
ax e u 5
5 E
N C C
t I
/
ht l i a) wi4 t
)
a n n2 l
s e5 d
t n
o r -
e n
ei t
i eN u
e ndtacf(
u e ms n
m i
i t s s i
n gd r ud i
m t
a l
ecl no o x net r e owicw ni c
C El (gn d
i d o p
ri A
A i r iP he
/
/
N N
TP yo ll d
A nd oio h
cr A
A g
e e 4
/
/
SP 1
4 N
N iH y
r r
o d
a o
l t
m e
si A
A e
r r t
i e
/
/
m N
N S
FP u
s S
s n
e e
l s n es o
n mi a
m C i
i t
a e
a t
t a
4 n
S I x e2
.E d 5 A
A i
m c
o o -
4
/
/
D i
o 1
4 N
N Nt CN t
a 2 x n
i
(
2E e
t EI s
es 8
LS u
o a
5 B
A N
C I
2 4
As_
n l s e2 i
a m d 5 1
A A
Ts t
1 4
N N
s oe o -
7 5
/
/
a d
TI CN t
lC e
l 3
W t
o g
s i
Ne u
n n
z ei o
e e
U i
n n
n nS r
i e
i a
o o
n a
o r Zo V
"4 "3
N N
t o
e ts R
ll e
m i
r M
e I
SS,,S e
S S
t s
y HSHS HL P
s s
I I e
S CQRRSS H
r P
d d
d d
n e n e ne e
1 o a c a c a c c
F mh a
a a
a
.f
.f
.f f
at l
r l
r r
r l
e o u o u o u u
x C
EM VS VS VS S
yro l
g s
a s
i s
e s me n
a t
n d
l t
l a
a d
eNco k >g d l
e n
e l
m C
d r
W i
e e
d W
n e
i i
n f
w hhia d
n u
i gcT p24 n
n t
i t
i e
o s m gd ninl ad gd k
i iPSS cl nl c
C i
l r a nl p5 arPP t
e e
r e i
o o
o n
a x
/WfNN CW LW S
i i
tan r
i e
m b
2 0
1 2
0 2
2 2
3 mm 1
ax e u 5
5 5
5 5
E N C C
C C
C t
I
)d s
e t
u n
n e
m itn m
o o
c
(
C gn d
ip d o A
i ri i r P
h e
/N y
TP o
llA dndo h
oi A
g c r i
e e
/
H SP 1
N y
r r
o a
l d
m ee t o t
si A
m S
r r i e
/
u FP N
s S
s n
e l
o n
e i
i s n t
a mi a
t m
n S
e a
i t
m c
I x
.E A
it a
o
/
2 x n
Nt i
o 1
0 0
0 N
2E e
t EI s
9 LS u
o I
5 B
A N
2 A
n l
s Ts am A
s i
t s
a oe
/
d TI 2
1 1
1 N
C e
t l
l
~-
W 3
t o
g i
Ne n
n z
e U
i ei n
nS n
"0 o
e i
n a
o r "4
N t
Zo 3
8 1
o e
t R
s ll e
m i
r M
u t
S e
I s
y P
L s
s I
e S
H S
r P
d e
e 1
o c
c F
mh a
a f
f at r
r e
x u
u C
EM S
S yro l
g f
a e
og i
t n
ta h'
si n
a l
c n pS e
n C
d n oiP r
i e
e e
atiP N f du d
n r c m
Behch t
i o
i s m n nc ud gd C
e n cl nl tr a p
an r e e
iori s
n ax o
o PE PCB2 CW LW i
itan re i
m b
0 1
2 mm 4 4
4 ax e u 5
5 5
E N C C
C t
I
{
m h
t l
i a) wi4 t
a nn2 l
t n
o e5 s
r n
ei d eN mdtacf e
u em (s m
mit s s
d r ud m
a gl ecl o
x net r e owicw ni C
El
'd d o ri i r h e TP 1
1 5
3 2
d ndo oi c r e e SP 2
1 1
1 2
2 1
2 yra do m
tsi g
r r m
n i e FP 1
1 2
1 3
3 u
i S
p i
n P
e e
o l
s n s
i e
t e
mim Ca a
t e a 4
n S
t i
I x e2 m
y
.E d 5 o
o o-a l
Nt 3
2 3
3 2
8 1
6 7
CN o
2 x l
2E A
EI w
e o
s LS o
o r
t a
B L
N f
c 9
4 1
9 0
1 6
C I
o/t 1
4 2
tujm A
n l s l
ne 3
2 3
2 2
9 8
e2 b a
/
/
/
/
/
/
8 n Ns am a s
i
/
d5 t
t s
oe ooux 9
4 1
9 0
1
/
1 6
o -
a d
TI TCSE 3
2 3
2 2
9 8
7 8
CN t
lC e
l W
3 t
o g
i Ne n
n z
U i
ei n
nS "6 "8 "0 "0
"0 e
i n
a o r t
Zo "6
6 8
1 1
2 "6 "8 3
2 o
e ts R
l l
e m
i r
M u
te A
S S
S W
W S
S s
s s
y e
S F
F M
M r
P d
d d
n e n e
- 2 o
a c a c F
mh a
a
.f
.f at e r
r l
l x
o u o u C
EM VS VS yro l
g 4
a i
e s
S t
l t
P n
a a
d mrN e
n l
C A
e o
r i
of e
d W N.T. >
e e
f u
d n
g g m ti s i
o n
n ud gd s m ni l
C cl nl i
l i tr a e
p8 ap r e i
o n
a x o
PE P3WP CW LW i/
i itan r
i e
m b
0 1
2 mm 5
5 5
ax e u 5
5 5
E N C C
C t
I
s n
t e
m 42 m
5 o
C N
d d o ri A
A A
i r h e
/
/
/
TP N
N N
1 1
dnd o
oi A
A A
)
c r d
ee
/
/
/
e SP N
N N
1 u
l n
i d
t o
y n
tsi A
A A
r o
r r a
c i e
/
/
/
(
FP N
N N
1 m
g m
n
'e u
i S
p s n n
P mi i
m e a o
l t
i e
I xE A
A A
t e
a t
o
/
/
/
n S
Nt N
N N
2 1
0 1
0 o
i m
y o
a l
2 x l
A o
ro/t m 2E N
f ca 3
EI w
t 2
ne r l
s l
4 4
4 6
1 j
/
5 LS o
a m a ubE A
A A
t t
B L
oe oou I
/
/
/
3
/
/
/
/
2 t
o As n
TI TCSt N
N N
2 5
4 4
4 i
Ts s
a d
o y
lC e
Ne 4
l W
z ei e
e e
2 3
t nS n
n n
5 g
or o
o o
"0 in n
Zo N
N N
"6 "8 "6 "8 N
3 U
in
}..
e i
n n
m t
o e
e S
S S
t R
ts S
W S
s ll e
y M
F M
i r
S M
u ss d
e e
e c
e e
o c
c c
c c
r mh a
a a
2 a
f f
f f
P at od u f
l l
r r
r r
e r od x
n n u u
u u
2 EM VaS VaS S
S S
-F C
r<
d f S d
o l
l od e
.P e
5 f n W
d nN W
y
/
l r
1 T. a e
n W
o2 o
l l
2 a
g a
l i
s Cg i
e sl S t
n t
a d aP n
'a d
hi n
d t
eW l
e n
e cp e
l l
W m. N C
d r
e r
i ni e
e d
W aP f
W e
e 2
f u
rh m
n g o g4 m
d t
te Bc i
i u
g o
s m n
u g
k en c
n n N. i S C
c n
c pa r
v i
t a p
pP o
o o
r r
r i
m n
ax i
i iniPiPN C L
S PB2 C
L PE o
i
\\
ta n
re i
m b
0 1
2 0
0 1
2 a
m m 6 6
6 7
8 8
8 x
e u 5 5
5 5
5 5
5 E
N C C
C C
C C
C t
I
en
~
o dna 0
0 t
p t
s s5 e5 m
e t
u t
n n
c s
/ l o
s p
t o
i n
e ai t i tn e
nt at e
c c
c c
m mioe mt e
n s e m
vi S eoS
't
'e e
r t e
y m
t s e c t
r m
t o
o o
n o
ys n e sd e l
e yye nu C N N
o C
SifS ShS f
o d
d n
d o d o o
ri ri ur i
ir t
he a
l e I P 1 n
TP i
m d
a d
nd x
ndo o
e oi oi c r e
cr e e h
ee SP t
SP y
m e
d r
d e )e t
n s
t o a
o t
m si o v y
si r
(l r r r
i e a
s i e m
FP 5 v a
FP u
n S
i o
o e
t n
s t
c s
o e
s i
v me v
me it l
n r
n a
a ei e
ei m
e )e m
t n
V t
s I
n I
i a
o v d
a m
d ov (l
n ox a
1 5 v a
NE a
n NE 2 x a
.f 2E s
n EI p
r o
i 2
e t
LS m
p c
s 6
I B
u o
s n
t o
u n
2 P
N d
f e
N As le )e n
l s Ts n
~
l s
v e
o am a
am wl zd p
oe i
t t
l s
oe 0 5 a i e C
d m
TI t
t s r TI 2
2( v
,i l
3 e
n u o
W q
C g
t ie i
s r n
g o
4 es n
Ne g
o U
n Ne 6
di i
i 2
z z
r s n
ei e
n ei 6&
a e i
n i
v n
nS 9
9 o
a nS l
l t
o r 9
9 i
t t
o r 0 1 3 ma e
Zo 9
9 s
e Zo 9
66 iv R
R s
ll e
f d e
iM n
r m
m o
r a
u e
'e
'e u
e S
es s
s t
s t
H S
vp s
s t
t s
s e
y o
o m
r S
N N
e y
I r
S S
M la P
v u P
p d
e d
d e
e nl H
o l
l G
o c
c ap mh a2 a2 mh a
a u
u f
f si C
at i T-i T-C at t
s s
e r
r pl e
x u
y EM VV VV x
u u
m m r
y EM S S
r u
o o
pf g
g o
e e
e t
g l
p t
s s
a n
y pu a
t t
n n
d t o C
d ge ge i
i C
d s
l e
e a
o r
ug e
e e
e nn en n
n C B
mh d
n r s ri o ri o
d ule unp un p W i
i s
s o
d f c sm s s si s m pd e
si o
m s s s am s a vl oa C
C r a ml t a r
e e et o eeo t
l e
e e
p[
e r
n ax u
a e
n ax r
r o
PE PW VW s g o
i co t
l t
a a
nm n
r n
r I
e i
e a
i m
b 0
0 e
m b
0 0
i mm 1
2 e
mm 2
v a
1 a
t x
e u 6 6
ol x
e u 7
7 a
E N C C
Nv E
N C
C t
t I
I
m m
0 0
0 0
0 t
t t
s s
t ts5 e5 s5 e5 s5 e
t e
t e
n t n n
t n t
n c
c s
/l o i o
/ l o
i o
/l o t
c nt at e ai t i nt at e ai n
e ai t i c nt c
c c
c e
c c
s e mioe mts e mioe m
mioe mt vi vi e viS e oS e r t S e oS e r t S t
m r
o ys n e sd e s e c t r t
s e c t
r t
n e sd e s e c t
e yye ys ne e
yye ys e
nu nu nu C
SifS ShS SifS ShS SifS d
d o ri i r h e TP dndo oi c r e e SP yr d
a o
t m
si r r
i e m
FP u
S o
n t
o s
i me t
n a
ei n
t m
i I
m a
n
)
ox a
NE 2 x tn 2E o
EI c
(
3 LSI s
6 B
t o
2 ne N
As Ts n
l s
a o
am t
l p
oe C
m TI t
3 o
/
C t
in g
o U
n Ne i
e n
ei z n
i o
a nS 9
9 9
9 9
t t
o r 9
9 9
9 9
s e
Zo 9
9 9
9 9
R lliM er m
'e
'e
'e
'e u
e e
s t
s s
t t
t t
t e
y o
o o
o o
r S
N N
N N
N P
d H
o l
l l
l l
C-mh a2 a2 a2 a2 a2 u
u u
u u
i T-i T-i T-s T-s T-at s
s s
e x
i i
y EM VV VV' VV VV VV roge
~
t s
s s
s s
a t
t t
t t
n n
n n
n C
d ge ge ge ge ge e
e enn enn en n
en n enn d
n ri o ri o s
ri o ri o
ri o s
un p
unp e unp g unp unp p si i
o m
n si si si si s a m v s a m s a m
s am m
am C
s i
s t a l
e o r e o a eteo et s
et et r
p eteo r e o u
r n
ax r
i r
o PE P PRC PRC P PRC PRC V PRC
~(
ita n
r i
e m
b 0
0 0
0 0
mm 3
4 5
6 7
ax e u 7
7 7
7 7
E N
C C
C C
C t
I
O 0
tse5 t
n s
c o
t it i n
at e
c m mts e e oS m
t r
sd e o
yye C
ShS d
d o ri d r r e TP dndo oi c r e e SP yr d
a o
t m
sir r i e m
FP u
S o
n t
L o
s I
me S
it n
a ei d
n t
m n
i I
. a a
m O2
)
ox a
NE H
t x
n I
2E o
S EI c
LS S
(
S I
s B
t o
R 2
n As e
N v
Ts n
l s
S a
o am H
j.
t l
p oe R
C m
TI t
3 o
S C
S t
i Q
n g
o U
n Ne S
i e
n ei S
z n
i o
a nS 9
M t
t or 9
s e
Zo 9
R A
lli W
M er m
F u
e s
t e
s s
t S
e y
o H
r S N P
C d
G H
o l
mh a2 D
u B
C at i T-s f
e x
y EM VV e
r r
o a
g s
e m
t s
a t
e n
t C
d ge ys e
e enn s
d n
ri o unp e
i o
m si l
s am b
C s
O t a et a
r e o n
a x c
o lp i
ta p
A n
r i
e m
b 0
'e a
m m 8
t x
e u 7
o E
N C N
t I
et c s0 e
int 5 c
ei n s
s t t
na o n
it t i
e s c m moe edrS m
ts ye o
yh e C S/S d
d o ri A
A A
A ir h e
/
/
/
/
TP 8
N N
N N
d nd oio A
A A
A c r ee
/
/
/
/
y SP 8
N N
N N
ra m
d t o m
si A
A A
A r
r u
n i e
/
/
/
/
S o
FP 7
N N
N N
i n
t o
cn e
i a
u s n t
n F
mim i
e a m
n t
I x w
.E A
A A
A a
3 x o
o 3
/
/
/
/
o 2E d
Nt 2
N N
N N
t
\\
EI u
5 LS h
6 I
S o
B 3
r N
As o
l s Ts t
am A
A A
A a
c t
w l
a oe 3
/
/
/
/
C e
TI 2
N N
N N
.. =
t R
3 f
t o
d i
n t
o n
U r
Ne ha g
o z
e p
ei HuHH e
e e
e n
p nS 9
9 v60 n
n n
n m
o u
o r 9 3
u45 o
o o
o N
N N
N m
s S
Zo 9
1 i t
l 1 1 l
n li i
M m
s m
e AS A
t WS W
e s
t y
s S FM F
y S
=
d l
l l
l l
l o
A mh a2 a3 a3 a
a a 3 3
3 u
u u
u u
u i T-s T-s T-i T-i T-s T-at s
s s
D e
x i
i i
y EM VV VV VV VV VV VV f
rog
. r 4
d e
h h n h
h d s h e u
c a c
c at c J t
c a
s a
d a
ae a oo t
v r
a t
t t n t l t
t C
n t na t a t p t
Lp t s d
ge Ae s Ac c Ay At p Ab st i
i s e
Tts nu A
e en n
nt n l r d
n ri o
aor l
l n ue a go aaS a
l l
l r
i a a ab r
r t rk o
un p
r poa i
r pt gh rb gnp gs e gc C
s m r
sis a m
gmps e
e cd u e r p e np e o i
t a et eyn n
r oy t
oue t
t t
o PE PRC nCSR nMHS npu nCT nh e o t
ax r
I I
I SS I
I S it i
a an r
i e
m b
0 0
0 0
0 0
mm 2
3 4
5 6
1 ax e u 1
1 1
1 1
I N D D
D D
D D
E t
I
,punae lC et c s e
ie0 r
vt 5 e
r c
h ei n p
s st o
t nai s
n it t o
e s c m
m mo e edrS tA m
ts ye o
yh e C S/ S lavo d
m d o ri e
i r R
h e 9
TP 1
7 2
5 3
taeH dndo t
oi n
c r e
ee 0
y m
SP 2
3 6
r n
a i
m a
d t
m n
t o si u
o r r i e 4
S C
FP 1
7 3
n g
o n
e i
i l
s n t
a o
mim n
o e
i m
C a
tI x a
e E
3 x r
o 3
4 2
o o
Nt 5
1 5
5 1
2E C
EI LS y
6 6
I c
o B
n N
3 e
As g
l s
Ts r
am a
e t
l oe 3
4 2
C m
TI 5
1 5
5 1
t E
3 f
t i
o d
n t
o n
s s
s U
r Ne u
u a
u o
z o
o HH H
o e
p ei i
i i
n p
nS 9
r r
54 0
r a
a 56 8
a o r 9 o
u V
t Zo 9
V V
1 1 1
s S
ll n
i i
M m
s EI PSFKP P
P P
P P
m e
t CCCHGVW C
W C
W C
e s
t y
s S CCCCEHS C
S C
S C
y Sl av d
l l
l l
o Bo mh a2 a
a a3 3
u u3 m
u u
i T-s T-i T-i T-at s
s De s
e i
x yR EM VV VV VV VV rt oa ge
. s eH h
h.d h
t r
c ot cy c
s tal s
apn aH ae t
t t
t Ca n
t pi t
t p a
d u
d ge Aur Ans Ay ed e
en n
St s
Tt r
l s
l a
l di n
ri o
a
.e a
e r
r
.b ago os i
un p
r pR gh b gnp r
CeR m
gmd si s
s a m
c i
e e
u e r p t a eteo t e t
r n r ax r
t I
I I SS it t a c n a r
e e
imR b
0 0
0 0
ad mm 2
3 4
1 x n e u 2
2 2
2 Ea N D D
D D
t I
y
,p u'
nae lC ere h
s p
t s
n o
e m
m t
m A,
oC lavo d
m d o i
e ri A r
R h e /
TP N 3
taeH dndo t
oi n
cr A
e ee /
y m
SP N r
n a
i m
a d
t m
n t o si A
r o
r u
ie
/
S C
FP N
n g
o n
e i
il s n ta o
mim n
o e
i m
C a
tI x a
e
.E A 3 x r
o
/
o o
Nt N
3 2E C
EI 7
LS y
6 I
c o
B n
N 3
e As g
l s Ts r
am A
+
t a
e l
oe
/
C m
TI N
3 t
E w
3 f
t i
o
.o n
t U
r Ne o
z e
p ei e
HH n
p nS n
27 o
o r 66 o
u Zo N
t 1 1 s
S l
n li i
M s ).
me mtn t
P s
C e o y
ts (c S
C ySl av d
l l
o a
Bo mh a 3 3
m at u
u i T-i T-s s
De e
/
x yR EM VV VV rt oa ge
. p.
h eH hcu c
tal aS a
Ca t
t t e t
u d
Ap A
sr ed e
y e
di n
l l
aT a
b os r
rk r i
CeR s m g
gc o t
a eL eos r
n r ax t
t b
o o PE nC nhSA I
I it t a ca r
n ie e
mR
- b 0
0 ad mm 5
6 x n e u 2 2
Ea N D D
t I
7
),L et c
se0 ivt 5
r c
ei n s
s t t
na o n
it t i
e s c m mo e edrS m
ts ye o
yh e C S/S loo P
d d o e
ri A
A A
A g
i r h e
/
/
/
/
a N
N N
N r
TP o
tS dnd le o
oi A
A A
A u
c r F
e e
/
/
/
/
N N
N N
SP 1
y t
r n
a e
m p
d m
S t o si A
A A
A r
u m
r i e
/
/
/
/
N N
N N
S o
FP r
n f
o l
e it a
n a
v s
n o
mim m
e a i
m e
I x t
/
E A
A A
A a
R o
/
/
/
/
3 x o
N N
N N
e 2E Nt t
1 a
EI e
8 LS H
6 I
B l
o 3
a As u
N Ts d
l s
am A
A A
A a
i C
e oe
/
/
/
/
t l
s N
N N
N R
TI t
1 3
f t
o i
n t
oNe U
ro z
e p
ei H
e e
e e
n p
nS 9
2 n
n n
n o
o o
o o
u o r 9 5
N N
N N
s S
Zo 9
1 t
l l
n i
i M
m s
m e C C
t e
s t
y F F
s S
S S
y S
d o
l l
l l
l l
C mh a2 a
a a
a a
3 3
3 u3 u3 u
u u
u i T-i T-i T-i T-i T-i T-at s
s s
D s
s s
e x
y EM VV VV VV VV VV VV rog
.d
. r e
h h n h
h d s h e cb t
c c a c
c atr a
s a
d a
a e a
r oo a
t o t
t t n t l t
t C
n t na t a t p t
Lp t s d
ge Ae s Ac c Ay At p Ab e
s s
st i
i l
r Tt nu e en n
nt n l
n ue a
r A
d n
ri o
aori a a ab r go aaS a
l l
l l
o un p
r poa i
r r t rk J
C s m g
pt gh rb gnp gs e gc r
sis a m
emps e cd u eip enp eo tr a et r
e n
ax r e o t
yn oue t
t oy t
t o
I I SS I
I S i
tan r
i e
m b
0 0
0 0
0 0
mm 2
3 4
5 6
1 ax e u 3
3 3
3 3
3 E
iN D
D D
D D
D t
f11l:
l
V s
t n
e m
m oC d d r o ii 6
0 1
4 3
2 h r 3
1 TeP d d n o oi 2
7 5
2 1
1 c r 3 e e y
S P ra m
d m
ts o u
ri 0
8 4
3 1
i r 3
S F eP no ita e
n s n mi i
m m
e qV a
a tI x x
- 4. E E
.oNto 8
5 2
9 2
1 4
9 3
1 3
4 1
0 0
0 1
I ES 9
LI 6
s Bt o
Ar N
To l
s p
am 0 p
~
t u
oe 8
8 3
7 1
2 8
S TI 3
9 1
1 3
1 6
1 1
4 1
1 1
1 t
3 H H t
H s
s s
i n
o 9H u
8 7
u u U
Ne H
31 o 2 3
o o H H H H i
i i
z 1
,4 r
7 0
4 8
r r
e ei a H H a a
1 4
2 3
H & V 7
7 V V 1
n nS o
o r 8
Zo 3
2 2
ts lli s
M r
m S
I S
S H L SN S H L t
I o
e CR C
S H S C H I
I I
I t
p s
p y
C H R R S S RD R S S H u
S S
d A
o a
l mh 3
u F
at i T-s e
x y
EM VV rog e
g t
n a
ip C
d i
e e P st d
n 1 r i
o o
.m s p s
. d C
s tr a ap n
ax u
l o
ta 1
n r
i e
A B
m b
0 0
0 mm 1
1 1
ax e u l
1 l
E N F F
F t
I r
N s
tne m
moC d d r o 9 3
- 2 4
4 4 iiur 1 1 TeP d d n o oi 6
2
- 7
- 7 1 1 4 3
- 1 c r 1
e e S P yra m
d ts o m
ri 6
8 1
4 3
1 1
3 3
u i r 1
S F eP no it e
a s n n
mim i
m e a t
]
a I
x E
x
- 4. E o
1 5
3 0
1 o
2 Nt 5
1 8
1 1
4 1
2 1
1 1
7 0
1 3
/
o Bt N
Ar l
s Top am 9
t x.
p oe 9
9 1
0 5
1 1
7 0
u TI 1
5 3
3 5
1 4
6 4
2 4
2 1
3 1
t S
3 H H H
H s
s t
o 9H u 8 7H 8
u in Ne 31 o 2 30 2
o H
H 6
7 U
z
,4 r
i i
,4 r
H a
4 3
ei a H H &
e nS H & V 7 7
4 V n
or 8
o Zo 3
2 2
2 ts ll m
I S
S H L SN SN H S H L SN i
s M
t CR C
r e
S C H CR CR I
I I
1 I
o ts H
R R S S RD RD S
R S S RD p
y p
S u
S d
o l
A mh a3 u -
at e sT F
x i
EM VV yrog g
e n
t i
a p
C d
i e Ps t e
n 1 r i
o d
m s p o
s s
t a
ap C
J ra x u
l n
N i
t 2
[
1 a
2 n
r 2
i e
B B
C m
b 0 0
0 0
mm 1
1 1
1 ax e u l
1 1
1 E
N F F
F F
t I
l
,C s
tn l
e a
m c
i m
n o
hc C
e2 T 0-d d h 2-t r o iR wI iih r 3
2 1
Te es t
P c e nu a q d e d d r
n o oR oi c r 2
2 cf 1
c e e e ai S P l
y ne r
iR a
d o
m d
net ts o r
m i
e mf ri i r 2
2 u
S F e a er P
x n
e s o
e n i
r o t
e ai a
s n t
s a n
mi r c m
ei i
m e
a bf t
i a
I x b c
~L
- 4. E E
ue x
.o np f
2 Nt 7
2 2
2 1
0 SS 1
o I
ES 1
LI 7
s o
t d)
Bt N
oel Aor n(d a l s ut Tp am 2lcto t
p oe 8
6 nn u
TI 2
8 6
8 3
3 2ii 4
t S
3 H
s H H H t
.o 9H u 7H 8
8 in Ne 31 o 30 2, 2 H
U z
,4 r
,4 i
ei I
H H a H &
e nS H & V 7
4 5
n o r 8
o Zo 3
2 2
4 ts ll m
i s
I S H L SN V
M tr e
S C
CR P
o t
I I
s H
R S S RD R
p y
p S
u S
d l
o A
mh a 3 ui T-F-
at s
e x
y EM VV rog g
e n
t i
a p
C d
i e P st e
n 1 r i
o d
m s
p o
s s
fV
)
C r
t a
a p a x u
l n
i tan r
i e
D E
F m
b 0
0 0
0 mm 1
1 1
1 ax e u 1
l l
l N F F
F F
E t
I
((
ll l
1 s
tne m
moC d d r o 1
5
- 2 3
uir 2 l
e T P d d n o oi 8
5 1
2 1
1 1
1 c r 1
e e S P y
ra m
d ts o m
ri 8
5 3
2 2
2 i r 1
u S
F e P
no i
t e
a s n n
mi m
i
\\
m e a
.fO t
I x a
~
x
.E
- 4. E o
7 5
o 2
Nt 5
1 1
3 O
2 3
2 3
1 3
1 0
2 0
I ES 2
LI 7
s o
Bt N
Ar l s Top am 5 r
t p
oe 5
2 2
1 9
3 9
6 0
u TI 3
9 3
2 I
1 1
1 1
4 1
2 1
1 3
t S
3 H
t H
H s
s s
,A s
s o
0H 7H u H H u u 0
u u i
o o
6 H o o n
Ne H 72 H 98 o 0H2 U
z 7
,7 3
,9 r
i i
i i
, 7 i
r r
a 01 0 r
r ei a a H 9 a
a 6 H A V e
nS 6 H &
1 01 V V 7
V V 5
6 n
o r 1
o Zo 6
9 5
ts ll m
A S S
S S
S L
i s
I S
S L M
t I
r e
S S
S S
I W W S
S H S I
o t
p y
F F
M Q R R S H M Q S H s
p S
u S
d o
l A
mh au3 i T-at s
e F
xEM VV yrog g
e n
t i
a p
C d
i e P st e
n 2 r
i o
do s m s p t
s
^
C r a a p ax u
l n
(
o i
ta 1
n r
i e
A B
m b
0 0
0 mm 2 2
2 ax e u 1
1 l
E N F F
F t
I
O s
tn e
m mo C
d d r o di 7
2 5
2 2
1 1
r i
e T P d d n o oi c r 9
2 2
4 1
0 e e S P yra m
d ts o mu i r 6
3 1
2 2
2 ri S
F eP no it e
a s n n
mim i
m e
O n
t a
I x
.E
- 4. E o
2 o
2 Nt 2
0 3
1 2
4 2
9 1
2 2
0 4
0 1
1 0
0 2
I ES 3
LI 7
s o
Bt N
Ar o l
s Tp am 0
t p
oe 4
0 3
2 2
8 5
1 3
0 u
TI 1
3 2
4 1
2 1
5 8
1 1
4 2
2 6
3 1
1 1
t S
3 H
H s
s H s
s s
s s
s s
s t
.o 7
u u 7H u u u u u u u
8 u
s s in Ne 6
o o 98 o
o o o
o o H o 9 H H o a*
U z
i i
i i
i i
i i
i i
ei r
r
,9 r
r r
r r
r 9
r
, 3 5
r a
a a
a a
a 6
a H 8 7
a e
nS H
a a H & V V V V V V V
7 V
6 V V 6
n o r o
Zo 6
9 9
ts l
l m
A S S
S S
S L i
s I
I S
S S
S S L M
t I
r e
S S W W S S H S
W W S S
H S I
I o
t F
F M Q R S H p
y F
F M Q R R S H H
s p
S u
S d
o l
A mh a 3 u
at s T-e F
x i
y EM VV r
og g
e n
t i
a p
C d
i e Ps t e
n 2 r i
o do s m s p O
s t
a a p C
r ax u
l n
i t
2 a
2 2
n r
1 i
e 2
B B
m b
0 B
0 0
mm 2 2
2 2
a x
e u 1
1 1
l E
iN F
F F
F t
_. )
s tne m
moC d d r o iih r 4
2 2
1 1
TeP d d n o oi c r 2
2 1
1 e e S P y
ra m
d t
m s o ri u
i r 2
2 1
1 S
F eP no i
t e
a s n n
mim i
m e a v
t I
x ax
.E
- 4. E o
(\\
2 Nto 8
0 2
2 0
2 0
2 0
3 0
1 1
1 I
ES 4
LI 7
o Bt N
s Ar o
l s
Tp am t
p oe 1
2 1
8 u
TI 5
2 1
8 3
9 3
1 3
1 2
4 7
5 t
S l
3 H
s s H s
s s
s t
i o
u u 7H u
6 8 HH u
u n
Ne H o o 98 o H H u HH o o H2 o
- 0 5 6 U
z 7
r r
,9 r
0 i
i i
i i
i S
1 1 r
r a 01 0 r
ei a 23 H
e nS 6
a a H & V V
5 V V a
a 1 01 1 1 1 1 n
o V V 5
1 r
o Zo 9
8 ts ll m
A S S
S S
S L
i s
I S
S L
M t
I r
e S
W W S S
H S I
S H S I
o t
p y
F F M Q R R S H R R S H s
p S
u S
d o
a l
A m h 3
us T-a t
F e
r i
y EM VV ro g
g e
n t
i a
p C
d i
e P st e
n 2 r i
o do s m s p OO s
t a
a p C
rax u
l n
(
itan r
i e
C D
m b
0 0
0 mm 2 2
2 ax e u 1
1 l
E N F F
F t
I
~
m.
s tn l
e e
a m
c i
m n
o hc C
e 2 0
I T
d d h 2 R-t r o iwI iih re t
T P es ce nu a q I
d e d d r
n o oR oi cf c r c e e e ai S P l
ne yr iR a
d I
o m
d n
et ts o ir m
e mf ri u
i r S
F e a e 6
r P
x n
e s
o en l
i r o t
e ai a
s n t
s a n
mi r c m
ei i
m e a bf t
i a
I x b c x
.E ue
- 4. E o
np o
2 Nt SS I
ES 5
m LI 7
s o
t d)
Bt N
oel Ar n(d a l
s To ut p
am 3lct m
o t
s.
p oe 2 nn 2
u TI 2ii t
S 3
t o
in Ne U
z ei e
nS n
o r o
Zo ts l
l m
i s
M tr e
o ts p
y p
S u
S d
o l
A mh au3 s T-at e F
x i
y EM VV rog g
e n
t i
a p
C d i's P
e t
e n 2 r i
o do s m s p s
t a
a p C
r
~
ax u
l n
i tan r
i e
E m
b 0
0 mm 2 2
ax e u 1
1 N F F
E t
I
s tne m
moC d d r o 0 5 ii 8
4 3 1
0
- 1 4
h r 2 2
1 Te P
=
d d n o 2
2 oi 3 3
3 1
1 c r 2 1
1 e e S P yra m
d t
m s o 4
3 ri 4
3 3
1 1
1 u
i r 2
1 1
S F eP n
o it e
a s n n
mim i
m e a t
a I x x
.E
'l
- 4. E o
5 0
6 5
3 6
o 2
Nt 7
1 3
3 1
3 2
1 1
0 4
1 1
2 1
I ES 6
LI 7
.o Bt N
s Ar l
s Top am 6 0
2 7
8 5
t p
oe 0
0 2
7 3
1 1
5 4
2 2
5 u
TI 7
1 3
2 8
3 2
1 9
1 4
1 1
2 1
t S
3 s
s s
s s
s s
s t
i o
u u HH u
u u u H u u HH o
n Ne o o o
o o o o 2 4 i
i i
9 i
i 2 4 i
U z
r r
i i
a a
a a a 5 5 r
e nS a
a 5 5 r
r r
3 r
r ei a
1 1 1 1 1 n
o V V V
V V V V V
r o
Zo ts ll m
P A C P
P P A P A C P
i s
M t
C W F W
C W W C W F W
r e
o t
p y
C F S
S C S F
C F S
S s
p S
u S
d o
l A
mh a3 ui T-F-
at s
e xEM VV y
ro g
g e
n t
i a
p C
d i
e Ps t
e n 3 r i
o do s m s p s
t a a p C
r ax u
l n
i t
1 a
1 2
n r
i e
A B
B m
b 0
0 0
0 mm 3
3 3
3 ax e u l
1 l
1 E
N F F
F F
t I
=
s t
n e
m moC d d r o ii 1
1 0
3 3
hr e T P d d n o oi c r 2
2 3
2 1
2 2
e e S P y
ra m
d ts o mu i r 2
2 1
1 2
2 ri S
F eP n
o it e
a s n n
mi m
i m
e a t
a I x x
.E
(
- 4. E o o 2
Nt 5
2 2
1 0
4 2
1 1
7 3
2 0
2 I
ES 7
LI 7
.o Bs An N 's Te l
p am
~
p oe 1
5 8
5 9
3 4
4 4
t u
TI 4
1 1
4 4
3 1
7 9
5 2
1 1
1 t
S 3
s s
s s
s s
s s
s s
t o
u u u u u u u u u H u in Ne o o o o o o o o o o
U z
i i
i i
i i
i i
i 2
i ei r
r r
r r
r r
r r
5 r
e nS a
a a
a a
a a a
a a
1 V V V V V V V V V V
n o r o
Zo ts l
l m
P A P P C P P A C P i
s M
t S
r e
C F W C W F W C W W M o
ts C S S
C F S
S p
y C F S
p S
u S
d o
a l
A m h u-3 a
t siT e
F rEM VV y
r o
g g
e n
t i
a p
C d
i e Ps t e
n 3 r d
o i
o s m s p l
C s
t a
ap r
N u
ax l
ita 2
n r
2 i
e B
C D
m
.b 0 0
0 0
mm 3
3 3
3 ax e u 1
l 1
1 E
N F F
F F
t I
(
,1 s
tn l
e a
m c
i m
n o
h C
c2 e 0 T
d d h 2 R-t r o iwI 0
ii r
he t
TP es c e nu aq d e d d rR n o o
oi cf 0
c r ce e e ai S P l
ne yr iR a
d o
m d
net t
r s o i
m e
mf ri 1
1 u
i r S
F e a er P
x n
e s o
en i
r o t
e ai a
s n t
s a n
mim ei r c i
m e a bf t
i p
I x b c ax
.E ue
- 4. E o
np o
2 Nt SS 1
1 0
I ES 8
LI 7
s o
d)
Bt N
t el Ar od a l
s To nut p
am o
(l ct u.,.
p oe 4 nn t
t u
TI 3ii 4
2 2
S 3
t
.o in Ne H H U
z 1
3 ei 6
5 e
nS 1
1 n
o r o
Zo ts l
l m
P C i
s M
tr e
C F o
ts p
y C S p
S u
S d
o l
A mh a 3 u
at s T-e F
x i
y EM VV ro g
g e
n t
i a
p C
d i
e P st e
n 3 r i
o d
m s p o
s 3
C s
t a
a p rax u
l n
(
o i
tan r
i e
E F
m b
0 0
0 mm 3
3 3
a x
e u l
1 l
N F F
F E
t I
. O s
l tn a
e c
i m
n h
m c2 o
e C
T 0-h 2-t R i
d wI d o ri t
ir es he 0
c e nu 5
1 2
1 2
5 2
2 1
TP 1
aq d e roR d
nd cf o
ce oi ai cr l
ee ne y
SP 6
iR 2
2 1
2 2
r d
o a
et m
d n
r i
e o
mf m
tsi u
r a e r
i e r
x S
FP 9
e s 4
5 4
1 0
n en o
r o i
e ai s n t
ta s a n
mi r c m
ei i
e a bf m
_ O t
i I x b c a
.E ue x
o 5
np 2
- 4. E Nt 2
SS 6
1 4
2 2
1 1
2 7
2 2
2.
1 o
2 I
ES n
9 LI o
i 7
Bt N
s t
o)
Ar l
s To am (n l t
a p
oe 2
4 o 5
0 6
7 t
p TI 6
4t 1
3 1
4 4
2 2
8 1
6 3
4 4
t u
S 3
H t
o s
s s
s s
8 s
s s
n Ne u
u u u u 9 u
u u i
z o
o o o o o
o o HH HH U
ei i
i i
i i
i i
i H
r r
r 34 1 2 nS r
r r
r r
a a
a a
a 7
0 a
a a 55 88 e
o r n
Zo V
V V V V 9 9 V V V 1 1 1 1 o
ts l
m li s
S P A P
M t
e SS S
S S
S C
r t
H S C W F W
o s
CS C
S H H S p
y p
S RM R
M R C Q S R C F S
S I
u S
d o
l A
mh a 3 ui T-at s
e F-EM VV x
yro s) g r
sC e
e a
h ' g C( M t
l a
t C
d o n d
e e
si s n pt a t
d n
ri r oP o3 i
o O
s m p
p C
r a pn p2 t
n ax u a u
h o
PE St S1 ita 1
2 3
n r
1 2 i
e EE 0
G G
m b
0 00 0
0 0
mm 4 44 4
4 4
ax e u l
1 1 1
1 1
E N F FF F
F F
t I
,s 1
2 3
s 5 5
5 tn 2 2
2 e n n
n m o o
o i
i i
m t
t t
c c
c o
e e
e C S S
S d
d o y
ri i r 3
5 r
be 7
7 9
a I P 4
1 4
1 5
5 4
4 m
mu dnd S
o o i
n cr ee 2
1 o
SP 4
5 5
2 i
t a
n d
i t o m
si r a
r i e 5
x FP 4
7 5
2 E
de o
"2 t
t n
'3 e
s d
m me n) %)
n ei ad 0d g
t m "1 o 0 o 1 u I
i i
1 r 2
1 a
- 5. A r
o x ( e ( e 3
7 4
2l NE 4P 4P 2
5 2
5 5
4 4
a 0
Ev 8
r Le
.o Bt N
n AI l s Td am 2
1 t
n oe 3
7 4
0 6
4 1
o TI 4
4 2
5 2
6 5
4 4
t ce S
.o 3
s s
s Ne 0
0 u
u u
t i
z 1
1 o
o o
n ei
,1
,1 i
i i
nS 91 91 r
r r
U or a
a a
"8 6
"8 e
Zo 8&
8&
V V
V 6
no s
s s
t m
u u
u s
l e
o o
o l
i i
i S
i t
S S
M y C C
a a
a H
H s
r r
r I
S R R
V V
V C
S d
e o
&c mh a
.f l
r at e T TT TT T
T o u xEM U US US S
S VS s
~
n y
d l
gS S
a eT o
l a
l P
s t d i
ew e
nP n
i e
e oN n
N d nu t
l el m a
h y h L
e o
e r c n
d wK w
4 C c. 4 WS o
exN e
y y'
d> hi>
P ms i
f m
n e
s l
n lF&
F as s
g
.d cMd nN u d "8 a
i x
sm n
P e P
el cl p
e/
l i4 r
E r
Co C
t a
r r e ad e 3
r n iW<
ax BaW i<
iW C
C P
e t
n r
A.
e e
m b
A.
A.
1 g
m m 4
4 1
u e u G1 G1 E.
E.
E.
5 A
N R1 R1 B
B B
C t
I
TABLE 2.5-2 O
Millstone Unit 3 Second Interval Break Exclusion Area (B.E.A.) Weld Listing el Zone # 057 System: MS Drawine 25212-20959 MSS-502-FW-6 Zone # 058 Syntem: MS Drawinn 25212-20960 MSS-503-FW-8 Zone # 059 System: MS Drawinn 25212-20_9,Q MSS-503-FW-4 Zoneh060 System: MS Drawine 25212-20962 MSS-501-FW-6 Zone # 061
~ System MS Draw:nn 25212-20975
. DTM-34-FW-1.
MSS-29-FW-1-EM MSS-33-FW-1-FM DTM-34-FW-1-EM MSS-29-FW-1-FM MSS-33-FW-1-GM MSS-33-FW-1-FM MSS-29-FW-1-GM MSS-33-FW-1-HM MSS-33-FW-1-GM MSS-29-FW-2 MSS-33-FW-1-JM MSS-28-1-SW-B MSS-29-FW-2-2M MSS-33-FW-1-LM l
MSS-28-1-SW-C MSS-29-FW-2-3M MSS-33-FW-1-LS-1 MSS-28-1-SW-D MSS-29-FW-2-4M MSS-33-FW-1-LS-5 MSS-28-1-SW-E MSS-29-FW-2-5M MSS-33-FW-1-LS-6 MSS-28-1-SW-F MSS-29-FW-2-6M MSS-33-FW-1-LS-7 MSS-28-1-SW-G MSS-29-FW-2-7M MSS-33-FW-1-MM MSS-28-2-SW-B MSS-29-FW-2-8M MSS-33-FW-1-RM >
MSS-28-2-SW-C MSS-29-FW-2 MSS-33-FW-1-TM -
MSS-28-2-SW-D MSS-29-FW-2M MSS-33-FW-1-VM "
MSS-28-2-SW-E MSS-29-FW-3 MSS-33-FW-1-XM -
MSS-28-2-SW-F MSS-29-FW-3M MSS-33-FW-2 MSS-28-FW-1 MSS-29-FW-4 MSS-33-FW-3 MSS-28-FW-2 MSS-29-FW-5 MSS-33-FW-4 MSS-28-FW-3 MSS-29-FW-8 MSS-33-FW-V1-1M MSS-28-FW-4 MSS-33-1-SW-P MSS-33-FW-V1-2M MSS-29-FW-1 MSS-33-FW-1 MSS-33-FW-V1-3M MSS-29-FW-1-BM MSS-33-FW-1-BM MSS-33-FW-V1-4M MSS-33-FW-V1-5M s
O 81
TABLE 2.5-2 f-(
Millstone Unit 3 Second Interval Break Exclusion Area (B.E.A.) Weld Listing Zone # 062 System: MS Drawine 25212-20976 DTM-31-FW-1 MSS-30-FW-1-CM MSS-34-FW-1-LS-5 DTM-31-FW-1-EM MSS-30-FW-2 MSS-34-FW-1-LS-6 MSS-23-FW-1 MSS-30-FW-2-2M MSS-34-FW-1-LS-7 MSS-23-FW-LS-8M MSS-30-FW-2-3M MSS-34-FW-1-MM MSS-27-1-SW-B MSS-30-FW-2-4M '
MSS-34-FW-1-PM MSS-27-1-SW-C MSS-30-FW-2-5M MSS-34-FW-1-RM MSS-27-1-SW-D MSS-30-FW-2-6M MSS-34-FW-1-TM MSS-27-1-SW-E MSS-30-FW-2-7M MSS-34-F.W-1-VM MSS-27-2-SW-B MSS-30-FW-2-8M MSS-34-FW-1-XM MSS-27-2-SW-C MSS-30-FW-3 MSS-34-FW-1-ZM MSS-27-2-SW-D MSS-30-FW-5 MSS-34-FW-2 MSS-27-2-SW-E MSS-30-FW-6 MSS-34-FW-2-GM MSS-27-2-SW-F MSS-34-1-SW-G MSS-34-FW-3 MSS-27-FW-l' MSS-34-FW-1 MSS-34-FW-4 MSS-27-FW-2 MSS-34-FW-1-BM MSS-34-FW-V4-1M MSS-27-FW-3 MSS-34-FW-1-FM MSS-34-FW-V4-2M MSS-27-FW-4 MSS-34-FW-lJM MSS-34-FW-V4-3M MSS-30-FW-1 MSS-34-FW-1-LS-1 MSS-34-FW-V4-4M MSS-34-FW-V4-5M Zone # 063 System MS Drawing 25212-20977 DTM-28-FW-1 MSS-31-FW-1-CM MSS-35-FW-1-LS-5 DTM-28-FW-1-EM MSS-31-FW-2 MSS-35-FW-1-LS-6 MSS-22-FW-1 MSS-31-FW-2-2M MSS-35-FW-1-LS-7 MSS-26-1-SW-B MSS-31-FW-2-3M MSS-35-FW-1-LS-8 MSS-26-1-SW-C MSS-31-FW-2-4M MSS-35-FW-1-MM MSS-26-1-SW-D MSS-31-FW-2-5M MSS-35-FW-1-RM MSS-26-1-SW-E MSS-31-FW-2-6M MSS-35-FW-1-TM MSS-26-2-SW-B MSS-31-FW-2-7M MSS-35-FW-1-VM MSS-26-2-SW-C MSS-31-FW-2-8M MSS-35-FW-1-XM MSS-26-2-SW-D MSS-31-FW-3 MSS-35-FW-1-ZM MSS-26-2-SW-E MSS-31-FW-4 MSS-35-FW-2 MSS-26-2-SW-F MSS-31-FW-5 MSS-35-FW-2-LS-1 s
MSS-26-FW-1 MSS-31-FW-6 MSS-35-FW-3 MSS-26-FW-2 MSS-35-1-SW-P MSS-35-FW-4 MSS-26-FW-3 MSS-35-FW-1 MSS-35-FW-V7-lM MSS-26-FW-4 MSS-35-FW-1-BM MSS-35-FW-V7-2M MSS-26-FW-8 MSS-35-FW-1-FM MSS-35-FW-V7-3M MSS-31-FW-1 MSS-35-FW-1-GM MSS-35-FW-V7-4M MSS-31-FW-1-2M MSS-35-FW-1-HM MSS-35-FW-V7-5M MSS-31-FW-1-BM MSS-35-FW-1-JM 82 l
E l
)
TABLE 2.5-2 Millstone Unit 3 Second Interval Break Exclusion Area (B.E.A.) Weld Listing Zone # 064 System MS Drawine 25212-20978 DTM-25-1-SW-N MSS-32-FW-1-2M MSS-36-FW-1-FM DTM-25-FW-1 EM MSS-32-FW-1-3M MSS-36-FW-1-GM DTM-25-FW-1 MSS-32-FW-1-BM MSS-36-FW-1-BHM MSS-21-FW-1 MSS-32-FW-1-EM MSS-36-FW-1-LS-1M MSS-21-FW-1-LS-8M MSS-32-FW-1-FM MSS-36-FW-1-LS-5M MSS-25-1-SW-B MSS-32-FW-1-GM MSS-36-FW-1-LS-6M MSS-25-1-SW-D MSS-32-FW-11 MSS '6-FW-1-LS-7M MSS-25-1-SW-E MSS-32-FW-2 MSS-36-FW-1-MM MSS-25-1-SW-F MSS-32-FW-2-2M MSS-36-FW-1-RM MSS-25-1-SW-G MSS-32,-FW-2-3M MSS-36-FW-1-TM MSS-25-2-SW-B MSS-32-FW-2-4M -
MSS-36-FW-1-VM MSS-25-2-SW-C MSS-32-FW-2-5M MSS-36-FW-1-XM MSS-25-2-SW-D MSS-32-FW-2-6M MSS-36-FW-1-ZM MSS-25-2-SW-E MSS-32-FW-2-7M MSS-36-FW-2 MSS-25-2-SW-F MSS-32-FW-2-8M MSS-36-FW-3 MSS-25-FW-1 MSS-32-FW-3 MSS-36-FW-4 MSS-25-F'V-2 MSS-32-FW-4 MSS-36-FW-V10-1M MSS-25-FW-3 MSS-32-FW-5 MSS-36-FW-V10-2M Q
MSS-25-FW-4 MSS-36-1-SW-P MSS-36-FW-V10-3M
{
MSS-25-FW-9-1 MSS-36-FW-1 MSS-36-FW-V10-4M i
- MSS-32-FW-1 MSS-36-FW-1-BM MSS-36-FW-V10-5M A
d Zone # 065 System FWS Drawine 25212-20963 4
FWS-23-FW-1 Zone # 066 System FWS Drawine 25212-20964 FWS-21-FW-1 Zone # 067 Svatam FWS Drawing 25212-20965 FWS-22-FW-1 Zone # 068 System FWS Drawing 25212-20966 FWS-24-FW-1 s
4 l
e3
TABLE 2.5-2 p
(
Millstone Unit 3 Second Interval Break Exclusion Area (B.E.A.) Weld Listing Zone #069 System FWS Drawine 25212-20979 FWS-11-FW-10 FWS-11-FW-6-KM FWS-11-FW-11 FWS-11-FW-6-LM FWS-11-FW-12 FWS-11-FW-68-1 FWS-11-FW-54 FWS-11-FW-69-1 FWS-11-FW-6-BM FWS-11-FW-7-BM FWS-11-FW-6-CM FWS-11-FW-7-CM FWS-11-FW-6-FM FWS-11-FW-9 FWS-11-FW-6-GM FWS-12-FW-13
- FWS-11-FW-6-HM FWS-12-FW-6 FWS-11-FW-6-JM FWS-12-FW-7 FWS-11-FW-5-BM FWS-11-FW-5-CM FWS-11-FW-8 FWS-12-FW-3-BM FWS-12-FW-3-CM FWS-12-FW-3-DM FWS-12-FW-5 Zone # 070 System FWS Drawine 25212-20980 FWS-13-FW-13 FWS-13-FW-7-FM FWS-13-FW-9 FWS-13-FW-6-BM FWS-13-FW-7-GM FWS-13-FW-3-BM i
FWS-14-FW-6-CM FWS-13-FW-7-HM FWS-13-FW-3-CM FWS-13-FW-63 FWS-13-FW-7-JM FWS-13-FW-3-DM FWS-13-FW-64 FWS-13-FW-7-KM FWS-14-FW-5 FWS-13-FW-65 FWS-13-FW-73 FWS-14-FW-6 O
FWS-13-FW FWS-13-FW-74 FWS-14-FW-7 V
FWS-13-FW-67 FWS-13-FW-76 FWS-15-FW-77 Zone # 071 System FWS Drawing 25212-20981 FWS-15-FW-12 FWS-15-FW-7-GM FWS-15-FW-8-BM FWS-15-FW-13 FWS-15-FW-7-HM FWS-15-FW-8-CM
. FWS-15-FW-14 FWS-15-FW-7-JM FWS-15-FW-9 FWS-15-FW-6-BM FWS-15-FW-7-KM FWS-16-FW-3-BM FWS-15-FW-6-CM FWS-15-FW-7-LM FWS-16-FW-3-CM FWS-15-FW-62 FWS-15-FW-72 FWS-16-FW-3-DM FWS-15-FW-63 FWS-15-FW-73 FWS-16-FW-30 FWS-15-FW-64 FWS-15-FW-74 FWS-16-FW-32 FWS-15-FW-7-FM FWS-15-FW-75 FWS-16-FW-5 s
O 84
TABLE 2.5-2 Millstone Unit 3 Second Interval Break Exclusion Area (B.E.A.) Weld Listing Zone # 072 System FWS Drawing 25212-20982 FWS-17-FW-10 FWS-17-FW-6-KM FWS-17-FW-9 FWS-17-FW-11 FWS-17-FW-6-LM FWS-18-FW-13 FWS-17-FW-12 FWS-17-FW-60-1 FWS-18-FW-29 FWS-17-FW-5-BM FWS-17-FW-62-1 FWS-18-FW-3-BM FWS-17-FW-5-CM FWS-17-FW-63 FWS-18-FW-3-CM FWS-17-FW-6-BM FWS-17-FW-64 FWS-18-FW-3-DM FWS-17-FW-6-CM FWS-17-FW-7-BM FWS-18-FW-31 FWS-17-FW-6-FM FWS-17-FW-7-CM FWS-18-FW-5 FWS-17-FW-6-GM FWS-17-FW-8 Zone # 107 System CMS Drawine 12179-CK-515502 CMS-515502-FW-1 CMS-515502-FW-3
. CMS-515502-FW-16 CMS-515502-FW-2 CMS-515502-FW-15 Zone # 108 System HCS Drawine 25212-20147 HCS-402014-FW-21 HCS-402700-FW-17 HCS-402700-FW-4
('
HCS-402015-FW-31 HCS-402700-FW-2 HCS-402700-FW-49 HCS-402700-FW-1 HCS-402700-FW-23 HCS-402700-FW-5 HCS-402700-FW-11-1' HCS-402700-FW-24 HCS-402700-FW-50 HCS-402700-FW-12 HCS-402700-FW-25 HCS-402700-FW-51 HCS-402700-FW-13 HCS-402700-FW-26 HCS-402700-FW-52 ~
4 HCS-402700-FW-14 HCS-402700-FW-3 HCS-402700-FW-15 HCS-402700-FW-33 HCS-402700-FW-16 HCS-402700-FW-34 Zone # 109 Svatam CVS Drawine 25212-CV3-410067-FW-1 CVS-410067-FW-3 CVS-410068-FW-2 CVS-410067-FW-2 CVS-410068-FW-1 CVS-410068-FW-3 Zone # 120 System BDG Drawine 25212-20994 BDG-501-FW-1 BDG-501-FW-3 BDG-501-FW-5 BDG-501-FW-1-2M BDG-501-FW-3-2M BDG-501-FW-6-1 BDG-501-FW-1-3M BDG-501-FW-3-3M BDG-501-FW-7 BDG-501-FW-2-2M BDG-501-FW-4 BDG-501-FW-8 BDG-501-FW-2-3 BDG-501-FW-4-2M BDG-501-FW-2-3M
.BDG-501-FW-4-3M 85
l TABLE 2.5-2 h
Millstone Unit 3 Second Interval Break Exclusion Area (B.E.A.) Weld Listing G
Zone # 122 System MS Drawine 25212-20996 DTM-394045-FW-6 MSS-302705-FW-3 MSS-302706-FW-5 DTM-394045-FW-83 MSS-302705-FW-4 MSS-302706-FW-6
)
DTM-394048-FW-16 MSS-302705-FW-5 MSS-302706-FW-7 DTM-394048-FW-17-1 MSS-302705-FW-6 MSS-302706-FW-8 DTM-394048-FW-21-1 MSS-302705-FW-7 MSS-302706-FW-9 DTM-394048-FW-22-1 MSS-302706-FW-1 MSS-302707-FW-1 DTM-394048-FW-25 MSS-302706-FW-10 MSS-302707-FW-15 DTM-394048-FW-26 MSS-302706-FW-11 MSS-302707-FW-16 DTM-394048-FW-4 MSS-302706-FW-12 MSS-302707-FW-2 DTM-394052-FW-1 MSS-302706-FW-13 MSS-302707-FW-3 DTM-394052-FW-2 MSS-302706-FW-14 MSS-302707-FW-4 DTM-394052-FW-3 MSS-302706-FW-15-1 MSS-302707-FW-5 DTM-394052-FW-4 MSS-302706-FW-2 MSS-507-1-SW-2 MSS-302705-FW-1 MSS-302706-FW-29 MSS-507-1-SW-3 MSS-302705-FW-17 MSS-302706-FW-3 MSS-507-1-SW-6 MSS-302705-FW-18 MSS-302706-FW-30 MSS-507-2-FW-11-1 MSS-302705-FW-2 MSS-302706-FW-4 MSS-507-2-FW-8 s
0 86
TABLE 2.5-2 Millstone Unit 3 Second Intenal Break Exclusion Area (B.E.A.) Weld Listing Zone # 122 System MS Drawina 25212-209% (cont.)
MSS-507-2-FW-10 MSS-507-FW-4-1 MSS-508-FW-81-1 MSS-507-2-FW-11-1 MSS-507-FW-6 MSS-509-1-SW-2 MSS-507-2-FW-8 MSS-508-1-FW-84 MSS-509-1-SW-4 MSS-507-2-FW-9-1 MSS-508-1-SW-2 MSS-509-1-SW-5 MSS-507-2-SW-1 MSS-508-1-SW-4 MSS-509-1-SW-6 MSS-507-2-SW-10 MSS-508-1-SW-5 MSS-509-2-FW-10 MSS-507-2-SW-11 MSS-508-2-FW-21-1 MSS-509-2-FW-5 MSS-507-2-SW-12 MSS-508-2-FW-22 MSS-509-2-FW-6 MSS-507-2-SW-13 MSS-508-2-FW-4 MSS-509-2-FW-7 MSS-507-2-SW-14 MSS-508-2-FW-8-1 MSS-509-2-SW-1 MSS-507-2-SW-2 MSS-508-2-SW-1 MSS-509-2-SW-2 MSS-507-2-SW-3 MSS-508-2-SW-2 MSS-509-2-SW-3 MSS-507-2-SW-4 MSS-508-2-SW-3 MSS-509-2-SW-4 MSS-507-2-SW-5 MSS-508-2-SW-4 MSS-509-2-SW-5 MSS-507-2-SW-6 MSS-508-2-SW-5 MSS-509-2-SW-6 MSS-507-2-SW-7 MSS-508-2-SW-6 MSS-509-2-SW-8 MSS-507-2-SW-8 MSS-508-2-SW-7 MSS-509-FW-1-1 MSS-507-2-SW-9 MSS-508-2-SW-8 MSS-509-FW-13 O
MSS-507-FW-1-1 MSS-508-FW-1-1 MSS-509-FW-17-1 MSS-507-FW-2-1 MSS-508-FW-2-1 MSS-509-FW-2-1 MSS-507-FW-23-1 MSS-508-FW-3-1 MSS-509-FW-3-1 MSS-507-FW-24-1 MSS-508-FW-47-1 MSS-507-FW-25-1 MSS-508-FW-48-1 MSS-507-FW-3 MSS-508-FW-5 l
Zone # 126 Svatam CHS Drawinn 25212-20988 CHS-8-FW-17 CHS-8-FW-21-1 CHS-8-FW-4 CHS-8-FW-2 CHS-8-FW-3 CHS-8-FW-47 CHS-8-FW-20-1 CHS-8-FW-39 r
O 87
0 d
d 5
e e
d n
s l
l t
b b
o o
nn i
n m
m ei d d t
e o M
c o gi m l
r e
ad 4
n e
e e
t t
r e 3 4 9
0 e
e e
m ns ns p
r c a i
r u
u S r mer e w e
e e
2 e s e s m
r e
e e
e m f o t
t t
h f f f
e f ap g a h a m
h s c
e e
e e e e s o R-Wd Wd E e D D D S Rtsi P o
el o o o
s i
i a
nr C Dl N N N
a I
e d g o a t
ir n ee P cr 0
0 0
0 0
0 0
0 0
0 0
0 0
" e 0
0 0
0 0
0 0
0 0
0 0
0 0
y 3P 1
1 1
1 1
1 1
1 1
3 1
1 1
r a
m la m
o t
d 6
6 u
oT 3
0 S
i/
4 8
2 3
4 3
0 r
y ed 2
2 2
/
5
/
1 Pe 1
1 1
4 h
/
3
/
/
6
/
9 r
6
/
og
" c 4
/
8 2
3 4
/
0 0
/
/
/
/
e 3S 2
3 2
2 3
5 9
3 1
3 1
1 4
ta
)
C s
t n
n o
e e
m it d g a
oa m
n itr n o
i e e c
6 m P c %e % % % % % 0 % %
0 d e 0 e 6
4 0
1 0
0 6
0 0
2 a r
Ex 2P 2 (s 6 6
5 6
5 1
6 6
2 0
0 0
E L
l Ba la Av t
r 8
Te d o 6
6 8
iH o
3 0
tn r
8 2
3 4
3 I
ed 4
2 2
/
5
/
0 d
Pe 2
3
/
/
4
/
9 1
1 h
2 4
n c
/
/
8 1
0 7
/
0
/
/
"2 S o
5 2
1 1
2 2
9 2
6 2
ce S
'e 3
d g t
a i
ot i
n r n U
ee P c %
0
" e 0
3 8
8 9
7 1
0 0
0 r
en 1 P 2
3 2
1 2
2 1
3 2
1 0
0 0
o t
I s
l ll a
i to M
doH 6
6 3
4 0
ird 4
8 2
3 5
3 0
e e 2 3
2 2
/
/
9
/
1 1
P h 5
/
2
/
/
c
/
/
/
/ %
"1 S 5
1 8
4 1
1 9
2 1
lavl r a et 6
6 t
o 4 8
2 3
4 0
0 nT 2
3 2
2 3
5 9
3 1
1 1
1 4
I l
a t
p 2
oo 4
8 2
6 4
1 0
9 0
TP 2
7 2
2 7
5 9
1 1
4 3
1 1
1 4
no ita y nr i o 2
1 2
2-1 2
3 1
ng at A
B D F G G H K L M
N N N O P Q r e J
xa EC B
B B B B B B B B B B
B B B B B B
n o
it 0 0 0 c
8 8
e 5 5 5 S e
e t
t n n n e
s o
o o o o e
S t
n N
N i i i t
t t
e c
c c
m 8
5 8
6 7
e e
e 6 S
S S m
e e
e e
e e
t t
t t
t e e e
t o o o
o o
o e e e
o0 C N N N N N S S S N5 e
d g oat in r
e e P cr 0
0 0
0 0
0 0
0 0
0 0
y
" e 0
0 0
0 0
0 0
0 0
0 0
r 3P 1
1 1
1 1
1 1
1 1
1 1
a m
mu l
S a
t y
d o 2
9 r
iH o
2 4
og r
9 1
9 3
9 2
e ed 3
/
3 2
9
/
t P e 7
7
/
2 2
/
6
/
/
1 9
a h
C d c
/
/
9
/
2 9
/
3 9
/
4 3S 7
7 3
2 1
3 6
2 9
1 2
n o
i e
t d g a
oa n
i t
i r n e e 6 m P c
% /*. %
% % 0 2 a r
Ex d e 7
7 6 % 4 4
3 5
6 0
2 E
2P 5
5 5
0 6
6 8
6 5
1 6
L l
Ba a
l Av t
r d o 9
9 Te iH 8
o 2
4 t
r 9
2 9
3 9
2 n
I ed 3
1 3
2 9
/
Pe 7
7
/
/
/
6
/
/
1 4
d hc
/
/
2 8
5
/
5 6
/
5 "2 S n
4 4
2 7-2 5
1 5
1 1
oce S
~
3 e
t d ga in ot i
n U
re e e
P c % % %
n e 8 8
0 % 5 1
3 0
7 %
r 1
o "P
2 2
2 0
2 3
8 3
2 0
3 1
ts l
l li a
M o
t diH o
2 9
2 9
9 4
rd 9
1 3
3 9
2 e e 7 7
3
/
/
6 2
/
/
P h
" c
/
/
/
1 2
/
/
7 7
1 S 2
2 8
3 1
5 7
2 7
lavl r a et 2
9 t
o 9
2 9
3 9
4 nT 7
7 3
2 1
3 6
2 9
1 2
I la 6
3 p
2 9
0 too 4
8 3
5 3
2 3
9 5
TP 2
2 4
6 1
4 2
2 9
1 1
no itay nro i
1 2
mge at A B C D F F
G H A B C A
xa EC C C C C C C C C D D D F
s s
n d
o d
r i
n a
ta a
w n
o i
e m
p t
y d
a t
e x
n E
n t
g u
n r
i o
e i
s e
t c
e h
e d
t d
n t
l o
p i
s w
r.
u n
m m
d a
n e
o l
o r
c e
e i
i t
n m
a t
i a
t
/
i i
s n
s a
s n
d e
t t
i l
c n
b f
s e
r e
o o
m y
d w
e n
a p
o e
s o
e r
t x
a t
b n
e s
r e
e i
r p
m d
e l
s p
o o
u t
e r
o n
o m
o P
i m
h o
n o
f la i
u r
d o
T t
c n
p d
e 3
o 2
a m
e S
P c
t t
e s
r c
o c
d t
r y
d n
n f
d o
s c
e r
s o
2 a
e l
e h1 g
e e
d g
d d,
l s
i y
p e
n 2,
p o
l t
i s
t t
o n
n t
t a
a t
l r
e o
e u
n C
"1 "1
o l
d c
e m
n b
e h
r i
t t
e o
n r
r a
l i
p r
n n
o o
o t
u w
o p
i f
f o
i.
e f
m t
n n
n s
o s
d t
a s
s c
e o
t o
i o
o d
m t
r c
n c
i e
t p
o o
x n
c i
i r
6 m t
t a
n g
i a
a w
e 2 a n
n r
e e
s o
e l
o a
r t
p f
Ex i
i t
a a
e m
e E
m m
t L
l a
a d
d C
o o
s r
Ba x
x e
n d
t a
n n
n c
e Av e
e n
a o
n I
v 0
r f
f u
1 i
i l
Te o
o o
2 d
t f
a 9
t 5
o a
d o
v i
n e
n r
r c
e e
t r
i t
n d
N e
m I
a b
b o
t o
n p
d m
m n
e a
s i
a t
r n
s h
x s
a s
u u
s o
n n
d a
c E
a n
p C
a c
i e
d d
e e
n d
m m~.
l n
u e
i S
e e
w d
d h
a a
p M-n n
i i
l o
e t
x 3
i e
e n
t b
b a
C w
v g L-i i
n m
m l
e i
n e
m t
n s
a h
pB i
U o
o e
z a
t v
t n
t i
c c
r i
c e
e c
pd l
e i
e e
e J
m n
e n
t n
h h
u 2
f s,a o
l o
t t
e s
e e2 T-r i
)
r dt t
t t
s c
c e
D i
r V
u nn g L ll e
e h
q ae n
n i
l l
f f
c B
e e
pon o
a M
B e
e
(
r r
i r
r g
t h
e e
0 a
mp a
c,
e g
g 0
s g
um n
xJ e
a po m
eB i
1 a
a m3 l
t t
o n
ec t
t M B-a n
n e
e r
B h
e n2 x
- S c
c e
p c
o r
r e
d e
e no r
rB t
E r
r e
e n
n e
p o
o foy T
P P
a i
1 f
w O
t e
e r
d d
a 0
3 d
r y d
d o N
n n
s 9
al o
n e
eg
.s 3
l l
a a
d 3 e e
c s o u
ut E
s s
e Bg 2
n d
d a l
e oh L
a C
v l
l i t e
eC a
a w
st B
h h
t t
r s r
e t iaw c
c n A
o o
e e
l i
T T
T n
b e b
h n
s s o e
c is e
s si m
u m
a mi m n.
ma t
d d
i.
Y o
o u
up u
t ar n
Nd N
o xo e o ei R
i i
t r
r t i t
n eg it im i
e e
g o
e c
A P
P n
mi m
n et e
ea M
d d
o ee e
a h a h n h x r
u C
t M
2 3
L I
p I
U S
1 2
3 4.
5 6
7 8
9
4 0
4 A
O O
c f
TABLE 2.8-1 b
LIST OF EXAMINATION PROCEDURES
(
Procedure No.
Application
. NU-LP-1 & 2
. Procedure for Liquid Penetrant Exams NU-MP-1 & 2 ~
Procedure for Magnetic Particle Exams NU-VE-1,2, & 3 Procedure for Visual Exams (VT-1,2, & 3)
NU-UT-1 General Requirements
.l NU-UT-2 Austenitic Piping Welda NU-UT-3 Ferritic Piping Welds NU-UT-4 Weld Marking Datum Points and Identifications NU-UT-6 RCP Flywheels NU-UT-7 Ultrasonic Examination of Vessel Welds NU-LW-1 Ultrasonic bamination Procedure for L-Wave Butt Weld Examination
-NU-UT-9 Main SteamIsolation Valve Studs NU-UT-23 Ultrasonic Examination Procedure for Component
. Bolts, Studs, andNuts
- NU-UT-27
'. Manual UT of RPV Studs from the Heater Hole NU-UT-29 Ultrasonic Evamination of Pissarizer Nozzle to Safe End Welds NU-VE-4 Remote Visual Examination of the Reactor Vessel Internals s
~
NU-AMD-001 Ultrasonic Examination Procedure for Automated Inspection of Main Coolant Piping Welds (CCSSj
. Vendor Procedure Ultrasonic Examination Requirements for Outlet Nozzles and Piping Welds from the Nozzle Bores Vendor Procedure Manual Ultrasonic Examination for Reactor Vessel Upper Shell to Flange Weld 91
0 TABLE 2.9 EXAMINATION ZONE LISTING ZONE CLASS 1 SYSTEMS Drawimr No. NDE HANGER 1
Reactor Pressure Vessel 20900 20907 Sh 1 2
RPV Closure Head 20900 N/A 3
Steam Generator I A Primary Side 20901 N/A 4
Steam Generator 1B Primary Side 20902 N/A 5
Steam Generator 1C Primary Side 20903 N/A 6
Steam Generator ID Primary Side 20904 N/A 7
Pressurizer 20905 20993 Sh 7 8
Reactor Coolant Pump 1 A 20906,20914 20993 Sh 8&8A 9
Reactor Coolant Pump 1 20907,20915 20993 Sh 9&9A i
10 Reactor Coolant Pump IC 20908,20916 20993 Sh 10&l0A 11 Reactor Coolant Pump 1D 20909,20917 20993 Sh 11&1lA 12 Reactor Coolant Piping Loop 1 20910 N/A 13 Reactor Coolant Piping Loop 2 20911 N/A 14 Reactor Coolant Piping Loop 3 20912 N/A 15 Reactor Coolant Piping Loop 4 20913 N/A 16 Pressurizer Surge Line 20918 20993 Sh 16 O
17 Pressurizer Spray Line from '
20919 20993 Sh 17 i
Loop 1A 18 Pressurizer Spray Line from 20920 20993 Sh 18 Loop 1B 19 Pressurizer Spray Line Combined 20921 20993 Sh 19 33 20 Pressurizer Safety Line 20922 20993 Sh 20 '
/
21 Pressurizer ReliefLine 20923 20993 Sh21.
22 Safety Injection Loop A(10")
20924 20993 Sh22i
,, p 4 i
23 Safety Injection Loop B (10")
20925 20993 Sh23
++-
24 Safety Injection Loop B (6")
20926 20993 Sh 24 25 Safety Injection Loop C (10").
20927 20993 Sh 25 26 Safety Injection Loop D (10")
20928 20993 Sh 26 27 Residual Heat Removal & 6"HPSI 20929 20993 Sh 27 Combined (Loop A) 28 Residual Heat Removal & 6"HPSI 20930 20993 Sh 28 Combined (Loop D) 29 Loop Bypass Loop A (8"/2")
20931 20993 Sh 29 s
30 Loop Bypass Loop B (8"/2")
20932 20993 Sh 30 31 Loop Bypass Loop C (8"/2")
20933 20993 Sh 31 32 Loop Bypass Loop D (8"/2")
20934 20993 Sh 32 33-Loop Bypass Loop A (3"/2")
20935 20993 Sh 33 34 Loop Bypass Loop B (3"/2")
20936 20993 Sh 34 35 Loop Bypass Loop C (3"/2")
20937 20993 Sh 35 36 Loop Bypass Loop D (3"/2")
20938 20993 Sh 36 37 HPSI Loop A (1-1/2")
20939 20993 Sh 37 92
f
(
TABLE 2.9 EXAMINATION ZONE LISTING ZONE CLASS 1 SYSIJih{S Drawinn No. NDE HANGER 38 HPSI Loop B (1-i G")
20940 20993 Sh 38 39 Int. Head Safety Injection (SIHX6")
20941 20993 Sh 39 40 HPSI Loop C (1-1/2")
20942 20993 Sh 40 41-HPSI Loop D (1-1/2")
20943 20993 Sh 41 42 Reactor Drain Loop A 20944 20993 Sh 42 43 Reactor Drain Loop B 20945 20993 Sh 43 44 Reactor Drain Loop C 20946 20993 Sh 44 45 Reactor Drain Loop D 20947 20993 Sh 45 46 Reactor Drain Combined 20948 20993 Sh 46 47 Chemical & Volume Control 20949 20993 Sh 47 Loop A (2" EL) 48 Chemical & Volume Control 20950 20993 Sh 48 Loop A (3" CL) 49 Chemical & Volume Control 20951 20993 Sh 49 Loop A (2" EL) l 50 Chemical & Volume Control' 20952 20993 Sh 50 O
Loop C (2" EL) 51 Chemical & Volume Control 20953 20993 Sh 51 Loop C (3" EL) 52 Chemical & Volume Control 20954 20993 Sh 52 Loop D (2"EL) 999 See Section 5.0 for description t
s t
G 93
TABLE 2.9 EXAMINATION ZONE LISTING ZONE CLASS 2 SYSTEMS Drawine No. NDE HANGER 53 Steam Generator A Secondary Side 20955 20993 Sh 53 54 Steam Generator B Secondary Side 20956 20993 Sh 54 55 Steam Generator C Secondary Side 20957 20993 Sh 55 56 Steam Generator D Secondary Side 20958 20993 Sh 56 57 Main Steam I.oop A 20959 20993 Sh 57
' Inside Containment 58 Main Steam Loop B 20960 20993 Sh 58 Inside Containment 59 Main Steam Loop C 20961 20993 Sh 59 Inside Containment 60 '
Main Steam Loop D 20962 20993 Sh 60 Inside Containment 61 Main Steam Loop A 20963 20993 Sh 61 Inside Containment 62 Main Steam Loop B 20964 20993 Sh 62 Inside Containment 63 Main Steam Loop C 20965 20993 Sh 63
/
Inside Containment
(
64 Main Steam Loop D 20966 20993 Sh 64 j'
Inside Containment 65 Main & Aux Feedwater Loop A 20963 20993 Sh 65 Inside Containment il I
66
' Main & Aux Feedwater Loop,B 20964 20993 Sh 66
.m
-1 t
Inside Containment 67 Main & Aux Feedwater Loop C 20965 20993 Sh 67 2 y,
i ;
Inside Containment j
68
- Main & Aux Feedwater Loop D 20966 20993 Sh 63 Inside Containment 69 Main & Aux Feedwater Loop A 20979 20993 Sh 69 -
Outside Containment 70 Main & Aux Feedwater Loop B 20980 20993 Sh 70 Outside Containment 71 Main & Aux Feedwater Loop C 20981 20993 Sh 71 Outside Containment s
72
. Main & Aux Feedwater Loop D 20982 20993 Sh 72 Outside Containment 73 Residual Heat Removal Heat 20983 20993 Sh 73 Exchanger "A" 74 Residual Heat Removal Heat 20984 20993 Sh 74 p
I Exchanger "B" 75 Safety Injection Tank A to Loop A 20967 20993 Sh 75 94
p L
l TABLE 2.9 EXAMINATION ZONE LISTING ZONE CLASS 2 SYSTEldS Drawine No. NDE HANGER 76 Safety Injection Tank B to Loop B
-20968 20993 Sh 76 77 Safety Injection Tank C to Loop C 20969 20993 Sh 77 78 Safety Injection Tank D to Loop D 20970 20993 Sh 78
.79 Safety Inject. Penetration 93 to 20971 20993 Sh 79 Loop A, B 80 Safety Inject. Penetration 94 to 20972 20993 Sh 80 Loop C, D 81 Safety Inject. Penetration 95 to 20973 20993 Sh 81 Loop B, D 82 Combined RHR to Loops A, D 20974 20993 Sh 82 83-RHR Pump 1 A to Heat Exchanger 20860 20993 Sh 83 84 RHR Pump 1B to Heat Exchanger 20861 20993 Sh 84 85 RHR Exchanger A Discharge 20862 20993 Sh 85 Header 86 RHR Train B 20863 20993 Sh 86 87 Low Pressure Safety Injection 20864 20993 Sh 87 88 Low Pressure Safety Injection 20865 20993 Sh 88 O
89 Low Pressure Safety Injection' 20866 20993 Sh 39
,h l
90 HPSI 8" & 6" Pumps PI A to P1B 20867 20993 Sh 90 I
91 Low Pressure Safety Injection 20868 20993 Sh 91 92 CVCS From Charging 20869 20993 Sh 92 i
Pumps B & C I
93 CVCS From Charging Pump A 20870 20993 Sh 93 *-
$l 94 HPSI to Charging Pumps 20871 20993 Sh 94.
ll 0'
95 Quench Spray From Chemical 20872 20993 Sh 95 '-
i RefuelTank 96 Quench Spray From Storage Tank 20873 20993 Sh 96 to Pump l
97 Quench Spray From Pumps to 20874 20993 Sh 97 y
Penetration 98 Quench Spray Headers 20875 20993 Sh 98 Inside Containment 99 Recirculation Spray System D 20876 20993 Sh 99 100 Recirculation Spray System B 20877 20993 Sh 100 s
101 Recirculation Spray System C 20878 20993 Sh 101 102 Recirculation Spray System A 20879 20993 Sh 102 p
-103 Containment Sump to Valve V-10 20880 N/A
(.
104 Containment Sump to Valve V-7 20881 N/A 105 Containment Sump to Valve V-4 20882 N/A l
1 106 Containment Sump to Valve V-1 20883 N/A l
)
f 95
l
("
TABLE 2.9
(-
EXAMINATION ZONE LISTING ZONE CLASS 2 SYSTEMS Drawinn No. NDE HANGER 107 CMS 20997 N/A 108 HCS 20998 N/A 109 CVS 20999 N/A 110 Deleted 111 Low Pressure Safety Inject. To 20888 N/A Zone 092 112 Low Pressure Safety inject. from -
20889 20993 Sh 112 Zone 080 113 Low Pressure Safety Inject. from 20890 20993 Sh 113 Zone 082 114 RHR from Heat Exchanger "A" 20891 N/A 115 RSS to LPSI 20892 N/A 116 RSS to RHR 20893 N/A 117 RHR Penetration 092 to PIB 20894 20993 Sh 117 118 RHR Penetration 091 to P1 A 20895 20993 Sh 118 119 Low Pressure Safety Inject. from 20896 N/A 3QSS-TK-1
[]
120 Steam Generator Blowdown 20994 N/A
(/
121 Deleted 122 Main Steam Supply to Steam-Driven 20996 N/A Auxiliary Feed Pump Turbine 123 Chemical & Volume Control 20985.
N/A
-124 Chemical & Volume Control 20986 N/A 125 Chemical & Volume Control 20987 N/A 126 Chemical & Volume Control 20988 N/A 127 Inte mediate Safety Inject. Outside 20047 N/A Containment Penetrations 128-HPSI to Penetration #51 20990 N/A 129 CHS Discharge fmm Pumps 20991 N/A P&B & P&C 130 CHS Discharge from Pump P3A 20992 N/A 131 CHS Discharge Cross Connect 20353 N/A 132 CHS Discharge Outside CTMT 20352 N/A
-133 CHS Discharge to Penetration #26 20354 N/A s
999 See Section 5.0 for description h
t 96
Al i
TABLE 2.9 EXAMINATION ZONE LISTING 70NE CLASS 3 SYSTEMS Drawing. No. NDE HANGER 134 FWA-TK1 to FQA PIA (Suction) 20993 Sh I3' 4 135 FWA from Penetration #81 20993 Sh 135 136 FWA Pump 1B to Valve #22 20993 Sh 136
)
137-FWA-TK1 to Valve 995 20993 Sh 137 138 FWA-TK1 to FQA Pump 2 20993 Sh 138 (Suction) 139 Valve 915 (FWA)to Zone 116 20993 Sh 139 140 FWA Pump 1A to Wall Penetration 20993 Sh 140 Zone 142 141 FWA from Valve 13 to Valve 10 20993 Sh 141
)
142 FWA from Valve 41 to CTMT 20993 Sh 142 Penetration #80
)
143 FWA from Valve 33 to Valve 36 20993 Sh 143 l
144 FWA from Valve 24 to CTMT 20993 Sh 144 Penetration #82
)
20993 Sh 145 145 FWA TK-1 to FWA Pump IB (Suction) 146 FWA Pump 2 (Discharge) to CTMT 20993 Sh 146
(
Penetration #79 147 FWA from Valve 984 to FWA-TK-1 20993 Sh 147 148 FWA from Valve 986 to FWA-TK-1 20993 Sh 148 149 FWA CTMT Penetration 79 and 80 20993 Sh 149 A(
4 150 FWA CTMT Penetration #81 to 20993 Sh 150 -
^
CL.3 Break 151 FWA CTMT Penetration #82 to 20993 Sh 151-j CL.2 Break
}
152 SFC EIA and ElB to Spent Fuel 20993 Sh 152 Pool 153 SFC Discharge Pumps PIA & PIB 20993 Sh 153 to SFC EIA & ElB 154 Spent Fuel Pool to Pumps 1A & IB 20993 Sh 154 155 CCP from Zone 158 to SFC-E1C 20993 Sh 155 156 RHS-ElB to SFC-ElB (CCP) 20993 Sh 156 157 CCP Penetration 42 to CCP PIB 20993 Sh 157 (Suction) 158 CCP Heat Exchanger IB to 20993 Sh 158 Penetration #40 159 Pump ElB to SFC-ElB Discharge 20993 Sh 159 (CCP) 160 CCP 1 A Suction 20993 Sh 160
,V 97
r (d
TABLE 2.9 EXAMINATION ZONE LISTING ZONE CLASS 3 SYSTEMS Drawinn No. NDE HANGER 161 SFC-E1 A Discharge to Valve 107 20993 Sh 161 (CCP) 162 CCP Penetration to System CL.
20993 Sh 162 Break 163 3CCP-E1 A to 3CCP-E1C Discharge 20993 Sh 163 164 SFC-E1 A Suction to RHS-E1 A 20993 Sh 164 (Split System) 165 CCP-PI A Discharge to Pump EI A 20993 Sh 165 (Suction) 166 Heat Exchanger CHS-E2 (Suction) 20993 Sh 166 i
from V-17 167 CCP Penetration 41 to CHS-E2 20993 Sh 167 Pump l
168 CCP Penetration 40 to Valve 958 20993 Sh 168 169 SWP from EGS #E2A and E2B 20993 Sh 169 Pumps to Yard 170 SWP Section to E1 A and ElB 20993 Sh 170 0
171 SWP from EOS #E2A and E2B 20993 Sh 171 Pumps to Yard 172 SWP from Zone 173 to Yard 20993 Sh 172 173 3HVK Chiller 1A to SWP-P2A 20993 Sh 173 l
(Suction) wh 174 SWP Valve 9 Control Building Yard 20993 Sh 174 f u e.
175 SWP Discharge from P2A and P2B 20993 Sh 175
'd to Chill 1A and IB -
4 176 Pumps EI A and E1C Dischargeto 20993 Sh 176i :st l
I Yard 177 RSS-ElB and E1D to Yard 20993 Sh 177 178 Yard to RSS-ElB and E1D 20993 Sh 178 179 RSS-E1 A and E1C to Valve 24 and 20993 Sh 179 Valve 304 180 Comp. Cooling HX-1 A, IB, & IC 20993 Sh 180 (Suction) 181 SWP Strainers 1B & ID to Yard 20993 Sh 181 l
s 182 SWP Strainers I A & IC to Yard 20993 Sh 182 183
- CCP-HX 1 A',1B & IC to Cire.
20993 Sh 183 Water Discharge Tunnel 4
999 Pressure Test (See Section 5.0 for y
description) 98
n-13 V
3.
. CODE CASES Code Cases approved for use in revisions to Regulatory Guide 1.147 that are issued during the inspection interval may be used for the duration of the inspection interval without specific written NRC approval subject to the
- limitations provided in the Regulatory Guide.
Code Cases that are not approved for use in revisions to Regulatory Guide 1.147 j
that are issued during the inspection interval shall require specife written NRC approval prior to use. Requests for approval to use Code Cases not listed in i
Regulatory Guide 1.147 shall be submitted to the NRC in accordance with 10CFR50.55a(a)(3)(i) or(ii).
Code Cases shown in Table 3.1 form an integral part of this piustinii and are identified with either the revision and date of Regulatory Guide 1.147 in which they were approved for use or the NRC safety evaluation report letter that provided approval to use the Code Case. Copies of the Code Cases follow the table.
As Code Cases are applied, they are referenced in the appropriate Sections of this manual.
Table 3.1 - Code Case Summary Table j.
N Code Case Title Documentation / Notes N 307-1 Re+Ad Ultrasonic examination Volume for Code Case N-307-1 is listed as acceptable to the Class 1 Bolting, Table IWB-2500-1, NRCin Rev i1 ofReg Guide 1.147 Examination Category B-G-1, When the Examinations Are C*~l from the Center-Drilled Hole N-389-1 Alternative rules for repair, replacement or Letter B15120 requested permission to use code modification case N-389-1. NRC response letter A13884 (8/20/98) granted permission for the first ten-year interval.
N-416-1 Alternative Pressure Test Requirement for NU Letter Bl4995 (9/30/94) requested approval to Welded Repairs or Installation of Replace.
use this code case in the First Ten Year interval.
Items by Welding, Classes 1,2, & 3.
NRC letter Al2085 (1/18/95) granted approval with conditions.
Approval to use this Code Case in the Second Ten Year interval has been requested in Relief Request IR 2-01.
N-435-1 Alternative Examination Requirements for Code Case N-435 1 is listed as acceptable to the O-Vessels with Wall'Ihickness 2 in. or Less NRC in Rev i1 of Reg Guide 1.147 99
3(d i
Table 3.1 - Code Case Summary Table (continued)
Code Case Title '
Documentation / Notes N-460 Alternative Examination Coverage for Class 1 Code Case N-460 is listed as acceptable to the NRC and Class 2 Welds in Rev i1 of Reg Guide 1.147.
l N-461 Alternative Rules for Piping Calibration Block Code Case N-461 is listed as acceptable to the NRC l
Thickness in Rev i1 of Reg Guide 1.147 l.
N-490-1 Alternative Vision Requirements for Code Case N-490-is listed as acceptable to the NRC Nondestructive Exammers in Rev i1 of Reg Guide 1.147.
N-491-1 Alternative Rules for Examination of Classes I, Code Case N-491 is listed as acceptable to the NRC 2,3 and MC Component Supports of Light in Rev i1 of Reg Guide 1.147.
Water Cooled Plants Use of Code Case N-491-1 is not listed. Approval to use this Code Case has been requested in Relief Request IR-2-01.
N-498-1 Alternative Rules for 10 Yr. System NU Letter Bl4995 (9/30/94) requested approval to Hydrostatic Testing for Class 1,2, & 3 Systems use Code Case N-498 1 in the First Interval. NRC 4
letter A12085 (1/18/95) granted approval.
Approval to use this Code Case in the Second Ten Year interval has been requested in Relief Request IR-2-01.
]
N-521 Alternative Rules for Deferral of Nozzle-to-Use of Code Case N-521 has not been listed as i
i f
Vessel Welds, inside Radius Sections, and acceptable to the NRC in Rev i1 of Reg Guide Nozzle-to-Safe End Welds of a Pressurized 1.147.
Water Reactor (PWR) Vessel Approval to use this Code Case has been requested in Relief Request IR-2-01.
i N 522' Pressure Testing of Containment Penetration Use of Code Case N-522 has not been listed as i
f Piping acceptable to the NRC in Rev i1 ofReg Guide 1.147.
Approval to use this Code Case has been i4
.J.
y
^
in Relief Request IR 2-01.
N-524 Alternatrve harnination Requirements for Use of Code Case N-524 has not been listed as Longthwhnal Welds in Class 1 and 2 Piping acceptable to the NRC in Rev 11 ofReg Guide v
1.147.
5 Approval to use this Code Case has been requested in Relief Request IR-2-01.
N-533 Alternative Requirements for VT-2 Visual Use of Code Case N-533 has not been listed as Examination of Class 1 insulated Pressure-acceptable to tl.a NRC in Rev 11 of Reg Guide Retaining Bolted Connections 1.147.
Approval to use this Code Case has becq requested in Relief Request IR-2-08.
N-535 Alternative Requirements for Inservice Letter B15427 (11/30/95) requested pennission to inspection Intervals use Code Case N-535. NRC response (A12790, 4/5/96) granted permission for the First Ten Year interval.
O Approval to use this Code Case in the Second Ten Year interval has been requested in Relief Request IR 2-07.
100
(~T i
,lC
(
Table 3.1 - Code Case Summary Table (continued) i Code Case Title Documentation / Notes N-546 Alternative Requirements for Qualification of Use of Code Case N 546 has not been listed as VT-2 Examination Personnel acceptable to the NRC in Rev i1 of Reg Guide 1.147.
Approval to use this Code Case has been requested in Relief Request IR-2-09.
N-566 Correct:ye Action for Leakage Identified at Use of Code Case N-566 has not been listed as Bolted Connection acceptable to the NRC in Rev i1 of Reg Guide 1.147.
Approval to use this Code Case has been requested in IR-2-06.
l O)
L.
+
k iV l
101
/
\\
4.
EVALUATION CRITERIA AND CALIBRATION STANDARDS 4.1 Class 1 Acceptance Standards Class 1 acceptance standards are listed in Table 4.1 4.2 Class 2 AcceDiance Standards Class 2 acceptance standards are listed in Table 4.2 4.3 Class 3 Acceptance Standards Class 3 acceptance standards are listed in Table 4.3.
4.4 Acceptance Standards for Sunnerts (Classes 1. 2. and 3)
Acceptance standards to verify component support structural integrity will be in accordance with Code Case N-491-1 (-3400).
p 4.5 Calibration Standards Calibration blocks and standards are listed in Table 4.5. Calibration blocks for piping are located in the ISI calibration CAGC in the waste disposal building. Vessel calibration blocks are stored in the warehouse and need to be requisitioned prior to the outage.
m Code Case N-461 may be utilized when selecting a calibration block in -
h.
s 3 accordance with Section XI, Appendix III. Code Case N-461 allows a y
}
c:dibration block thickness to be used that is within i25% of the pipe wall Gda i
thickness to be examined.
4.6 Analytical Evaluation of Flaws Flaws exceeding the size of allowable flaws defined in IWX-3500 may be evaluated in accordance with IWB-3600 to determine acceptability for continued service. Flaws which meet the acceptance criteria ofIWB-3600 shall be re-examined during the next three inspection periods. If the flaw indications remain essentially unchanged during the next three inspection periods, the component examination schedule may revert to the original schedule of successive inspectiom!.
h NOTE: When an inservice examination of a component support reveals
.w.
\\s#
conditions described in ASME Section XI (Code Case N-491)-3410(a),, moviw.
5 and the component support has been analyzed and/or tested to substantiate m h its integrity for its intended service, and has been found to be acceptable, 102-
j r
(
and corrective measures to restore the support to its original condition f
have been performed, then successive suonort examinations are not reauired.
4.7 Unantieinsted Oneratine Events IWB-3720 requires an engineering evaluation to be performed following an operating event outside the normal operating pressure and temperature j
limits defined in Millstone Unit 3 Plant Technical Specifications. ASMb Section XI, Appendix E, may be utilized to evaluate the event. Th:
evaluation pmcedures are subject to acceptance by the regulatory authority.
l
(
\\
103
)
I L
i I
\\
. Table 4.1 - Class 1 Acceptance Standards l
Examination Acceptance Category Components and Parts Examined Standard B-A Welds in Rx vessel IWB-3510 B-B Welds in other vessels IWB-3510 l
B-D Nozzle welds in vessels IWB-3.512 B-E Partial pen welds in vessels IWB-3522 B-F Rx vesseldissimilar metal welds IWB-3514 B-G-1 Cl 1 Bolting >2" IWB-3515,IWB-3517 i
B-G-2 Cl 1 Bolting m2" IWB-3517 B-H Integral attachments for vessels IWB-3516 B-J Welds in piping IWB-3514 B-K-1 Integral attachments for Cl 1 piping, pumps, valves IWB-3516 B-L-1 Welds in pump casings IWB-3518
' B-L-2 Pump casings IWB-3519 4
B-M-1 Welds in valve bodies.
IWB-3518 f
IWB-3519 B-M-2 Valve bodies B-N-1 Rx vesselinterior IWB-3520.2 gj B-N-2' Rx vesselintegrally welded core IWB-3520.1, IWB-3520.2 ll support structures a
B-N-3 Rx vessel removable' core support structures IWB-3520.2e f
' ')
B-O Weldsin CRD housings IWB-3523.
B-P Pressure Reining Components IWB-3522vl < i B-Q S/G tubing per Tech Specs 4-s O
104
)
RU Table 4.2 - Class 2 Acceptance Standards Examination Acceptance Catenory Components and Parts Examined Standard C-A Welds in pressure vessels IWC-3510 C-B Nozzle welds in vessels IWC-3511 C-C Integral attachments for C12 Pressure vessels, Piping, IWC-3512 Pumps, and Valves C-D C12 Bolting >2" IWC-3513 C-F-1 Welds in austenitic stainless steel or IWC-3514 (IWB-3514) high alloy piping C-F-2 Welds in carbon or low alloy steel piping-IWC-3514 GWB-3514)
C-G Welds in pumps & valves IWC-3515 OWB-3518)
C-H Pressure Retaining Components IWC-3516 QWB-3522)
Table 4.3 - Class 3 Acceptance. Standards Examination Acceptance Catenory Comoonents and Parts Examined Standard D-A Integral Attachment Welds on Systems IWD-3000 GWB-3000) in Support of Rx S/D g
D-B Integral Attachment Welds on Systems IWD-3000 GWB-3000) g in Support of ECC,CHR, AC & Rx RHR D-C Integral Attachment Welds on Systems IWD-3000 GWB-3000) ',
in Support of RHR from Spent Fuel Storage Pool a
d, s
i 1
d 105
V Table 4.5 - Calibration Standards Std. No.
Description Heat Numbers Use Ur1 11" thick clad Ifr# C4068-2 RPV -(SA 533 OR B Cl.1) '
UT-2 9" tinck clad B9804-3 RPV UT-3 7" thick clad B9804-3 RPV Closure Head (SA-533 OR B Cl.1)
UT-4 5" thick clad C4372-2 S/G (SA-533 OR B Cl.8) Primary Weld Ur5 3" thick HTS C4068-2 RCP Safe Ends Ur6 33"x 3" x 11" Iftf 125J596 val RPV Flange Ligament Area (SA 508 Cl.2)
Ur7-2 %" thick ifTs$160C 1 Main Coolant piping (CCSS)(SA-351 GE CPSA)
Main 'ana e piping (CCSS)(SA-351 GRCPBA)
Ur 7A 2 %" thick hts 147895-1 r
171-8 3 %" thick ifr# Til340 Seemm Generator Secondary Side Walds (SA-533 OR A, C1.2)
ITT-9 5" thick clad lili B4804-3 RPV Shell(SA-533 OR A.Cl.4)
)
UT 10 3* thick clad Ifl1 BZ66 Puessurlast Shell (SA-533 OR A, Cl.2)
UT-12
%"T Ifr# 894124W Vatical Residual Heat Exchangers (SA-240 W 304)
UT-15 4 %" dia. M" T SB167 CRDM Tube Wold (IT 16 3" dieu 20"Imag ifrf L 3269-K3,K4 Main Coolant Valve Seeds (SA-453 Condition B, OR 660)
(SA-453, Condition B, OR 660)
UT18 14* Sch.160 ifl1 20873 Ptoss sures Line Safe End (SA-182 OR P316) 2 Ur 19 6" Sch.160 ifly 78809 Press Relief and Safety Line Safe Ends (SA-182 GR P316)
(Tr-20 4" Sch.160 ifly 42018 Press Spray I.ine Safs End (SA 182 GR P316)
Ur-21 4" Sch.160 ifl1 M9593 Class 1 Fiplag(SA-376 W 316)
UT-22 6" Sch,160 ifl10631-29-2 Class 1 Piping (SA-376W 316)
(,
Ur-23 '
8" Sch.160 M M0035 Class I Piping (SA-376 W 316)
- [
Ur 24 10* Sch.160 Ifly 10915-1-2 Gees 1 Piping (SA 376W316)
UT-25 12" Sch.160 Ifly 108144-1 Class 1 Piping (SA-376W 316) -
Ur 26 12" Sch.160 ifl1534982 Class 1 Piping (SA 376W316)
UT 27 14* Sch.160 ifl13-383 -
Class 1 Piping (SA-376 W 316) 3 UT 28 4 5" dia..
Ifl13P4028 RCP Sinds(A-540 B24)
- r.
UT 29 IfTV A 0159 5 IICP Plymheel(A516OR70)
. Ur 31 32" 1.292" T.
Ifly 65817 Main Sesem Piping (EA-155, Cl.1, OR KC-70)
'O Ur-32 30" l 250" T lfT1 89626 Main Steam Piping (SA-155, Cl.1, OR KC-70) b 170 33 6" Sch,160 til112060 Auxiliary Peedweser Piping (SA 106, ORC)
UT-34 31.5" 2.0"T IfTW 803P7323 Main Sessa Piping (SA-155, Cl.l. OR KC-70)
Ur 35 20" Sch.100 HTJ N37344 Main Peedwater Piping (SA-106,OR4)
MPI-tTT 35 10" Sch.80 ifr# 39891 LPSI Outside Contakunent (Zone 88) (SA-240 W 316) s ITT 36 18" Sch.100 ifff 52510 Main Peedweest Piping (SA-106,OR4)
- UT-37 16 Sch.100 IITs N16677 Main Feodwater Piping (SA-106,OR4)
'(,
Ur 38 8" Sch.100 HTW 26737 Main Steam Piping (SA-106, OR4 Auxiliary Peedwater Piping)
Ur 57.700" la liff 83289 RTV Stud 57.570" tens
- Ur 41 35" LO x 2 %" dia.
Ifr# 220690 MSIV Sand j
Ur-LW 3 10" x I %" T SA 240 Type 304 ' thin Walled Class 2 Piping UT-44 9" dia. X 6*
Iftf n/s PressurinerInner Radius
. ITT-45 2.125" dia. x 9.25*
Irrf-90723 SA-193 Or. B7 Stud 106
OU 5.
SYSTEM PRESSURE TESTS 5.1 General Reauirements Pressure retaining components within Class 1, Class 2 and Class 3 system boundaries are subject to system pressure tests in accordance with the following portions of ASME Section XI:
Classification Anolicable Code Reauirements General IWA-5000 Class 1 IWB-2500-1 (Examination Categories: B-E and B-P) and IWB-5000 Class 2 IWC-2500-1 (Examination Categories: C-B
[ Item # C2.33] and C-H) and IWC-5000 Class 3 IWD-2500-1 (Examination Categories: D-A
[ Item # DI.10]; D-B [ Item # D2.10]; and D-C (Item # D3.10j) and IWD-5000
(
Table 5.1-1, System Pressure Test Schedule, lists each system within the scope of this program along with the required test type and schedule.
T The Class 1, Class 2 and Class 3 boundaries shown on the applicable piping and instmmentation diagrams (P& Ids) shall be used in detennining test boundaries. When pressum testing is performed at normal operating conditions, the Operations department shall be responsible for verification that system conditions are normal. Generally, the normal operating conditions are satisfied when the system is operating in a normal alignment with system pump (s) pressurizing the system.
System pressure tests have been designated as Zone 999 in the ISI database (see Section 2.7) and are not shown Zone boundary drawings.
ASME Section XI, Table IWA-5210-1, lists applicable references to determine the appropriate type of system pressure test and related test parameters for each Code Class system. Typical system pressure test parameters are: pressure (as determined by type of test), temperature, holding time, and test boundary. Code Case N-498-1 (IR-2-01),
Alternative Rulesfor 10-Year System Hydrostatic Testingfor Class 1, 2, m(d and 3 Systems, allows system leakage, functional, or inservice tests, as L
applicable, in lieu of the system hydrostatic pressure test required during.
the inspection interval. System hydrostatic pressure testing, if required, 107
V will be performed on a case-by-case basis in accordance with the applicable code of record and site procedure, EN 31090, Elevated Pressure Test.
A Buried components require a pressure loss, change in flow, or unimpaimd flow test in accordance with the requirements ofIWA-5244.
Records of the visual examination conducted during a system leakage test shall include the procedure documenting the system test coadition and.
system pressure boundary. Any source ofleakage or evidence of structural distress shall be itemized, and the location and corrective action documented.
Ferritic steel components shall meet the test temperatum requirements specified by fractum prevention criteria or determined by NNECo, as
- npplicable. Austentic steel components do no require test temperature restrictions.
w t
v 108
m.
'c 'c 'c 'c
'c 'c
'c 'c 'c
'c 'c 'c
'c
'c 'c i i i i
i i
i i
i i
i i i
i i
3 t
t t
t t
t t
t t
t t
t t
t t
d a
a a a
a a
a a
a a
a a
a a a t
t t
t t
t t
t t
t t
t t
t t
o s
s s
s s
s s
s s
s s
s s
s s
i c
o o o
o o
o o
o o o o o
o o
r r
r r
r r
r r
r r
r r
r r
r r
e d d d d
d d
d d
d d
d d
d d
d e P y
y y
y y
y y
y y
y y
y y
y y
lu H H H H H H H H H H H H H
H H de hc l
l l
l l
l S
2 a
a a
a a
a d
d e
e n
e n
e n
n e e
e n e
n e
c o o c
c c
o c
o c
c c
o c
o n
o i
i i
i i
i i
i i
i i
i i
i i
i v
v t
v t
v t
t a
v v t
v t
v a
r r
r c
r c
r c
c r
r c
r c
r e
e e
e n
e n
e n
n m
e e
n e
n e
p P
s s
s s
s s
s s
y n n u n u n u
u r
n n u u
n n
I I
F I
F I
F F
I I
I F
I F
I T
tseT l
l l
l l
l 1
a a
a a
a a
d e
e n
e n
e n
n e
e e n e
n e
o o
c o
c o o c
c c
o c
o c
c c
i i
i i
i i
i i
i i
i i
i i
i i
v v
t v
t v
t t
v v v t
v t
v r
r r
c r
c r
c c
r r
r c
r c
r e
e e
n e
n e
n n
e e
e n e
n e
P s
s s
s s
s s
s s
n n u n u n u
u n n n n
u n
u I
I F
I F
I F
F I
I I
F I
F I
EAC A
C B
2 4 4 1
0 3
a.
0 0 4 3
3 1
e l
1 1
1 1
1 1
u MMM M
M M
de E
h
,E E E
E E
c S
D AB D
D A
)
2 4
0 3
3 3
t 1 s3 0 0 4 3
2 1
- ef e
1 1
1 1
1 1 To b s l
1 MM M
M M
9 5
M e1 aD c
E E
E E
E 0
ert b ue p&
, E, B I
1 l
i l
ash pP A
B C
s e BF C
D E BA A
4 1
4 2 23 0
0 1
35 2
TeS A
4 2
0 0 01 3
3 5
24 1
n.
rP(
2 1
1 1
1 1
1 1
1 1 1 1
1 -
m M
M M MMM M
M M MM M
e E
E E EEE E
E E EE E
ts y
A A A A A AEA A B B C D A AD A AA S
3 5
4 1
4 222 7
0 0
0 1
3 30 5
45 2
0 1
2 0
001 1
3 2
3 5
2 23 1
01 1
1 1
1 1
1 1 1 1
1 1
1 1
1 1 1 1
1 1 M M M M M MMM M M M M M M MM M MM E E E E E EEE E E E E E E EE E EE m
g n
i r
l g
o e
e k
t n
o a
a A t
n i
n a
C n
W W l
r o
T w
oo t
e t
o n
t d
F e
d g C e
l l
e s
g p
n e
a l
w n o
G a
(
l i
o u
i t
/
r l
o o
m p
F e
e r
r h
y S
o l
t C
B o
u m
l t
t 2
e a a) p m
S l
m C P l
s w wT g
p o
r r
o S
n u r
e o
p n C o
e e
'y d
d i
f t
t t
D e eC d (s s
a m o r
i a
(
i t
t e
e l
a W y
r t
n n
e u
m m
d o
y F Fm u
r i
c a
S n P e
l p
r a
a C
c y yo e B e
e S
g e
g n P c
n j
i r
r rf t
n G
n I
r A
e e
a a
a l
t t )
S )n e S s h
i y w o
m g i i
m g
y o l
i c
V e
r r
l l l tc e c
i i
t ni nI n u r
r t
u e
x xp d n ib aS u
e i
e i
e f a
a f
ata r
l e h a
e o o m
u up e a r u
e o S
C S RW B V E A As F C Mt MM Q R u
t G E P
S S
F A A S K S S
S S
I D C C C H H G W W W V S
S S
S B C C C C C E
F F
F H M M
Q Q
'c
'c 'c
'c
'c
'c 'c
'c d
'c 'c 'c 'c 'c e
i i
i i
i i
i i i
i i
i i
3 t
t t
t t
t t
t t
t t
t t
r d 'e a
a a
a a
a a
a i
a a
a a
a t
t t
t t
t t
t a
t t
t t
t s
s s
s s
o g
s s
s s
s s
s s
p o o o o e a
o o
o o
o o o o
i mw r
r r
r r
e k r
r r
r r
r r
r d
d d
d d
d d
d d
d d
d i
e P a d y y
y y
y y
y y
no y
y y
y y
l a
n l
u LaH H H H
H H H H
UF H H H H H d
e h
c d
'l 'l l l l
l e
S 2
a a
a a
r a
a 'e 'e 'e d
d 'c n n e
n e
n e
n n i
n o a
o o c
o c
o c
a o
o c
c c
p i
i i
i i
i i
i v
i i
i i
t v
t v
t t
v v
v a
i a
t t
mw c
c r
r r
e e k c
c r
c r
c r
r n n e n
e n
e s
e s
p P a
n n i
s s
no u
u ns s
u n u n
UF F
F I
I I
a u
u l
n y
T L
F F
I F
I F
I tse d
'l 'l T
l l
l l
e 1
a a
a a
r a
a 'c 'e 'e e
d 'e n n e
n e n e
i n n o
o o o c
o c
o c
a o o c
c p
i i
i i,
i i
i i
i i
i i
v i
a t
t v
t v
t t
t v
v v
m e
k c
c r
c m-r iw c
c r
r c
n n e
s e
n n
P a
n n no u u ns s
u u
a u u l
n UF F
F I
I I
L F
F I
F I
F I
DAB A
D 2 2 4 3
3 e
0 1 4 1
3 1
1 1
l 1
1 u
d MMM M
M e
E E
h E, E, E c
S CAB B
B D
B
)
2 3 3 4
2 3
3 t
1 s3 0 0 1
4 1
3 3
- ef e
1 1
1 1
1 1
1 To b s l
1 cD MMM M
M M
M 0
5 e2 a
1 I
E E
E E
E s e p&
, E, E ert 1
l i
b ae l
ash pP BFA C
A B
B A
Tn(
A 223 2
2 4
3 3
S 001 1
1 4
3 3
P 1 1 1 1
1 1
1 1
m MMM M
M M-M M
e E E,E E
E E,
E E,
t s
y AEBA A C A
AB B B A
A C A A A A S
222S 2
2 1
43 2
3 3
2 6
7 1
1 3
- g 001 S 1
1 1
01 1
3 3
3 0
0 1
1 1
y 1 1 1 I 1
1 1
1 1 1
1 1
1 1
1 1
1 1
MMMM M M M
M M-M- M M
M M M M M M m
EEEE E E E
EE E E E
E E E E E E y
S g
a S
n rp n
R p
g i
)
S d
o i
f i
n t
o p
n n
a c
i o
e e
e p
i g
j l
i a a n
n d
b p
l t
i i
I s
s d
l i
v l
u P
s e
o o
y W
e i
m a t
's o
e c
r C
f c
u m
eR w
a r
S o S )s (a )s b(
t l
e n
R o
a r e r n r
t
(
t r
ts a
t o
e l
a t
r u
eg ee e
l y
o e n P
t n t
t n
u m an a
a S
o H e le o s
u Wh Wo s
a i
p W C
m ut e
l c
c em e
8 7
9 0
9 r
a o
u m
Fa r
c P c e x co c
2 2
5 6
9 c
A t
d a
t i ie ic i
t nf h
vt v
v n n n n n c
i a
s n
er g
L r a rd r
o o o o o i
e e
o pu i
I e e en e
i i
i i
i R
R C6 SP H
S Sh S a S
a a a a a
t t
t t
t r
r r
r r
t t
t t
t P
P P
e e
e e e S
S S
C H
L W W
W n n n n n C
H S F
I I
e e
e e
e R
R R S
S S
S S
S P
P P
P P
'c 'c 'c 'c 'c 'c 'c 'c 'c 'c 'c n
.C C
i i i
i i
i i i i i i i
3 t
t t
t t
t t
t t
t t
s t
t 0 y y
d a a a a a
a a
a a a a
o i
se t
t t
t t
t t
t t
t t
1 r r
h t
o s
s s
s s
s s
s s
s s
n 1 o o
c i
o o o o o o o o o o
o r
r r
r r
r r
r r
r r
e
.g g
i e
r r
oe e
h r
e d d d
d d
d d
d d d d a
t t
u e P y
y y
y y
y y
y y
y y
Na a
w lu H H H H H H H H H H H y
C C
d h
n m
e t
e t
e n n
e p
t o
o t
h s e mi s
l i
c
'l 'l
'l 'l e s d a a
s n
t t
y a
l S
2 t
a a
a a
u nn n
'e a 'e 'e 'e 'e n n 'e n
n n
e a ei i
r o
d d
n o o
c c
c c
o o c o o r c c
i i
u e mm m
a t
i i
i i
i i
i i
i i i
t t
v t
t a a y
a c
a i
a s
a a
n n
t c
c sb Ax x
a u
r r
c c
c w
e e
c h
h h
n n
eg n n n
p P
u u u
u r
nE E
f s
u F
F k F F
pin s
n n
y o
F i
r I
I T
t i 1 1
t o
ca ta -
i i
t t e c0 0
e e
s at i0 0
s c
i e
'l
'l 'l
'l 'l t
e f
2-2 u
v T
s r
i 1
a a
a a
a
'c
'c 'c
'c
'c
'e ou c
a r
e e n n r s eC C
c e
e e
n n e
n d
c o o o o o d s p
e s
o t
t ye SW W
b n
i i
i i i
i i
i i
i i
a a
v a
v.
i v
t t
t r
c c
h r I
I i
r c
c r
c e
e n n n p
l g
e h
h h h
e n n e
ae e
n h
P s
u u u u h m ib b
t t
u cl l
n n
i F
F t
F F
F I
I f o na a
a f
r a
o of hT T
t c
ut er r
e u
p e
r e
m.T e e
p p
u i
i l
r s
l eCeg g
s n
e d
n e
i x-eDpn l
e i
i r
t p
d u
m mtn a
e r ed a
de oa nrat e
m m
r t
h f
age e
o r
c rS
,or r
r o
e f
f S
pH B r u u
r t
- ps
.s t
)
e 1 s3 eC Dt e ge m
s es p
p
- ef e
bf s
r
=
r e
1 To b s
,e p l
yo anAt p
e b
1 x
5 e3 aD em o
m e
y 1
i e rt cI mm Druo g o s
i a
1 lb ue p&
l m
) a i
s s fr nn s e d
e s s
ash pP 1
i 0 yi et l t e
)
TeS A
r
- s r r p ep v
aM 1
P(
2 -
opm l
0 fum a6 Rbth ee ee v 2. 2-u x
r x m
I s e
(
a t e h e n1 R
.M nCn s cs oeI t
1 s
o i i ai id(
y A A A A A A B B B A A 8 t t
nd r er i
ai2u S
9 1
2 2
2 2
4 4
6 5
5 9 ao ee e
lo 2
ri dd d d sG5 1
2 2
2 2
2 4
4 4
5 5
4 e aua e a i
t 1
1 1
1 1
1 1
1 1
1 1
n nl e me yN Neich rh oo r
r M M M M M M M M M M M a g mi y n
oy a
t t e
f aaa E E E E E E E E E E E a
r a s a r a u u C*
xir er l l Cl p
a E m s.
pp mg s
em,eS e
ee d r1 bS uRd t
c oe - sS S
c o
0 l
r Ch 0 sQ aR aeC y
l t
h n5 f
hf L ph l
o2 eo s o I 2i t
t i
- u S
wroDf n S n s w o
Co os ebWl i
i t ae et Rt l
c cd yC n r
I s r n n eo e o l
a a aleip h p ped d
d pb nb d
t m
oo aye f d u
o r
r e
s o e
ciTcd od c
t t
n n 1
s ctaf e ee e t gr n 1 t n
n c
eeed a s
y a cog e
S
- t 0
nfi er not no oii i
6 B A D 5 2
ipe ene enr u r
t g
guompt g pt oiq 5
0 8
2 5
1 2
3 3
1 1
oa o
ne4 n
pce o 1
7 3
7 4
1 1
1 1
1 1
t s
ok o
i r
n n n n n n n n n n n s e eef a ef et o
o o o o
o o
o o
o o
eh ehh
,eh
,h o
TTt TTHLTHTnT h
i i
i i
i i
i i
i i
i t
t t
t t
t t
t t
t t
a a
a a
a a
a a
a a
a
/
r r
r r
r r
r r
r r
r 1 2 34 56 7
8 t
t t
t t
t t
t t
t t
e e
e e
e e
e e
e e
e ee e e ee e
e n n n n n n n n n n n
t t t t t t t
t e
e e
e e
e e
e e
e e
oo oo oo o
o P
P P
P P
P P
P P
P P
NN NN NN N
N
k 5.2 Visual Examination Reauirements Personnel performing VT-2 examinations shall be certified in accordance with IWA-2300 or Code Case N-546 (IR-2-09), Alternative Requirements for Qualipcation of VT-2 Examination Personnel. The VT-2 visual examination is conducted to locate the evidence ofleakage from pressure retaining components, or abnormal leakage from components with or without leakage collection systems. De requirements ofIWA-5240 are applicable for performance of VT-2 visual examination. Code Case N-533 (lR-2-08), Alternative Requirementsfor YT-2 Visual Examination ofClass 1 Insulated Pressure-Retaining Bolted Connections, may be utilized for systems borated for the purpose of controlling reactivity.
5.3 Class 1 System Pressure Test Reaubnis Class 1 systems are subject to system leakage tests, Code Case N-498-1 is utilized to perform a system leakage test in lieu of the system hydrostatic test, at nominal operating pressure and temperature. There is no hold time required after attaining test pressure and temperature conditions for the normal system leakage. test. The system leakage test conducted in accordance with Code Case N-498-1 requires a 10 minute hold time for non-iW~i systems and a 4 hour4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> hold time for insulated systems. Class 1 nominal operating pressure is 2250 psig (2265 psia) at a temperature in accordance with the pressure / temperature limits in Millstone Unit 3 TechnicalSpecifications.
2t r,
The system leakage test boundary subject to pressurization during a a ;pr y y system leakage test extends to the pressure r*ining components withinHn pi; W.
the system boundary containing mareactorcoolantundertheplant a w,j mode ofnormal reactor startup.. He VT-2 examination is required to ~
n extend to and include the second closed valve at the boundary extremity.
Code Case N-498-1 requires a system leakage test boundary subject to pressurization and examination equivalent to the Class 1 system boundary.
Refer to Table 2.1 for information related to system pressure testing of Class I components.
5.4 Class 2 and Class 3 System Pressure Test Reauirements Class 2 and Class 3 systems are subject to system functional and system
-4 3-inservice tests. Code Case N-498-1 is utilized to perform a system w:
x functional / inservice test in lieu of the system hydrostatic test, at system ax w:
nominal operating pressure and temperature. Refer to Table 2.2 and Table w --
112
)
\\
2.3 for information related to system pressure testing of Class 2 and Class 3 components, respectively.
l The boundary subject to pressurization during a system functional test extends to the pressure retaining components within the system boundary pressurized under the test mode required during performance of a periodic system (or component) functional test. There is a 10 minute hold time required after attaining the system operating pressure.
The boundary subject to pressurization during a system inservice test I
extends to those pressure retaining components under operating pressures during normal system service. There is no hold time required provided the system has been in operation for at least 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br />.
Code Case N-498-1 requires the system test boundary to extend to all Class 2 or 3 components, as applicable, included in those portions of systems required to operate or support the safety system function up to and including the first normally close valve, including a safety or relief valve, or valve capable of automatic closure when the safety function is required.
Code Case N-498-1 tequires a 10-minute hold time for non-iel M
{
O systems and a 4-hour hold time for insulated systems.
5.5 Renair and Reolacement Pressure Test Reaulsennents n
The Millstone Unit 3 repair and replacement program is performed ina y r m4..,.
accordance with Millstone Station Procedure 'WC-3. System pressure tests ec - a following repair and replacement activities are in accordance with IWA-t - #
5214 and Code Case N-416-1 (IR-2-01)," Alternative Pressure Test - l 4
- e.
Requirementfor WeldedRepairs ofinstallation ofReplacementitems bya
": s.
Welding, Classes 1, 2 and 3 ". The VT-2 conducted in accordance with
.x Code Case N-416-1 must meet the requirements of the 1992 Edition of -
5.6 Implementine Instructions System pressure tests are performed in accordance with plant procedures, EN 31063,ISISystem Pressure Test and EN 31090, Elevated Pressure Test, or other plant approved procedures or approved work orders.
The procedure or work order shall include the following:
a drawing or description of the test boundary
(
test method and techniques 113 f
k test pressure and temperature holding time e
method for documentation o
The individual responsible for test performance shall ensure the following,
- as required:
certification of test personnel e
preparation of pressurizing equipment e
calibration of test equipment e
preparation ofcomponents/ systems e
5.7 Corrective Measures The sources ofleakage detected during the performance of a system pressure test shall be located and evaluated for corrective measures as follows:
buried components with leakage losses in excess oflirr.its acceptable il y
for continued service shall be repaired or replaced if leakage occurs at a bolted connection, the bolting shall be removed, ;
e VT-3 visually a=nid for corrosion, and evaluated in accordance -
withIWA-3100 repairs or reple-nants of components shall be performed in e
accordance with WC-3, ASME Section XIRepair and Replacement Program.
s
'\\
l!4
[
\\
6.
REPAIRS AND REPLACEMENTS
. Repair or replacement of pressure retaining components and their supports shall be performed in accordance with Millstone Station Procedure WC-3.
6.1 Establishment of a Baseline A preservice examination following repair / rep!a:ement activities shall be performed prior to the return of the system to operation to establish a baseline and to provide data on initial conditions supplementing comparison with subsequent examinations. The preservice examination of the item (s) used for the replacement or repair, including any applicable joints connecting the item to the system shall be made in accordance with IWX-2200. This examination shall therefore make use of the same methods, techniques, and types of equipment as those which are planned to be used later on Shop and field examinations performed during construction may fonn part of the baseline examinations where exam ~mation after final installation and testing is not practical, provided that
- 1. Such examinations are conducted under similar conditions and with equipment and techniques equivalent to those that are planned to be employed during subsequent inservice examinations.
..y.<
3
- 2. Evaminations conducted before a hydrostatic (or pneumatic) pressume: -
test are followed by a confirmatory examination after the test on 5%$$
sample ofinWion areas to demonstrate that no significant change #
has occurred.
- 3. In the case ofcomponents classified as pressure vessels only, examinations are performed after the hydrostatic (or pneumatic) test.
- 4. The shop and field examination records are documented and identified in a form consistent with this manual and the planned records of subsequent inservice examinations.
When improvements are made in the methods, techniques, or new equipment are used in the inservice inspection program, a new baseline shall be established. The new baseline shall be developed for a particular component or portion of a component when the next scheduled examination of the component occurs. To the extent feasible, a correlation between the new and previous baseline shall be established using calibration data and component examination data.
1I5
f%
b 7.
RECORDS AND REPORTS NNECo will maintain adequate inspection, examination, test, and repair and replacement records such as radiographs, diagrams, drawings, examination and test data, description of procedures used, and evidence of personnel qualifications in accordance with IWA-1400(k).
NNECo will retain all inspection, examination, test, and repair and replacement records for the service lifetime of the component or system in accordance with IWA-1400(l).
7.1 Preparation 7.1.1 Plans and Schedules i
i NNECo will prepare plans and schedules for inservice examinations and tests to meet the requirements ofIWA-6000.
O 7.1.2 Examinations U
7.1.2.1 Analytical Evaluations Analytical evaluations for mM of flaws found by volumetric, surface or visual examinations shall be 1
prepared in accordance with IWB-3134(b), IWB-3144(b),
1 orIWC-3134(b) 7.1.2.2 Summary Reports Inservice inspection summary reports will be prepared at the completion of each inspection conducted during a refueling outage. The summary report shall contain the information required by IWA-6220 and Code Case N-460.
r 7.1.3 Tests NNECo will prepare records of visual examinations conducted during a system leakage test as required by IWA-5300 i
D/
l
/
116
[\\
7.1.4 Replacements Reports and Records required by IWA-7520 shall be prepared by NNECo under ASME XI Repairs and Replacement Program WC-3 f
7.1.5 Repairs Records required by IWA-6000 as referenced from IWA-4800 shall be prepared by NNECo under ASME XI Repairs and Replacement Program WC-3. For Class I repairs, these records shall include those listed in IWB-4235.
7.1.6 UnresolvedIndications Unresolved Indications will be reported in accordance with NGP 3.13.
7.2 Submittal 7.2.1 Plans and Schedules y
In accordance with IWA-1400(c), NNECo will file with the t,
enforcement and regulatory authorities plans and schedules for i
inservice examinations and tests prepared as described in 7.1.1.
7.2.2 Summary Reports In accordance with IWA-6230, within 90 Jays of the completion of the inservice inspection conducted during each refueling outage, NNECo shall file with the enforcement and regulatory authorities an inservice inspection summary report prepared as described in 7.1.2.2.
i 7.2.3 Analytical Evaluations In accordance with IWB-3134(b), IWB-3144(b), IWC-3125(b),,
and IWC-3134(b), NNECo shall submit to the regulatory authority analytical evaluations of examination reports prepared as described in7.1.2.1.
l 117 i
r 7.3 Retention 7.3.1 Inspection Records and Reports j
NNECo shall retain inspection records and reports in accordance with IWA-6300, Technical Specification 6.10.3.h, and Northeast Utilities Quality Assurance Topical Report.
7.3.2 Items Subject to Review by Authorities l
NNECo shall retain records which are subject to review by l
enforcement and regulatory authorities in accordance with the following Articles:
l IWA-7132 Replacement Program required by IWA-7130 IWB-3134 Repair program and reexamination results for flaws found by volumetric and surface examinations and accepted by repair in Class I components V
IWB-3144 Repair program and reexamination results for flaws found by visual examinations and accepted by b
repairin Class I components i$-
IWC-3125 Repair program and reexamination results for flaws found by volumetric and surface examinations and ?
accepted by repair in Class 2 components IWC-3134 Repair program and reexarnination results for flaws b
found by visual examinations and accepted by repairin Class 2 components l
118
o 8.
COMMITMENTS This Program addresses the requirements of the ASME Boiler and Pressure Vessel Code,Section XI,1989 Edition. In addition to meeting those
- requirements, the Program also addresses exams that are performed to specific approved code cases, and Augmented Exams that we have committed to car Regulator to perform. NNECo will document those exams performed in lieu of the code (Code Case), and those exams performed in addition to the code (NRC Commitments).
8.1-Trackine/Lonnine of Corr =:::t ce A review was performed July,1996 on the ISI Program in accordance with 10CFR50.54. A search was performed of all correspondence that might be related to meeting commitments made regarding the ISI Program. A Log and summary table of correspondence and/or commitments prior to July, 1996 was cmated. Correspondence after July,1996 relevant to the ISI Program shall be filed in this Log. In addition, a summary of this 3
Correspondence shall be maintained in Table 8.1.
j O
l 8.2 Code Cnasa Section 3 of this document provides guidance in the application of Code Cases. Upon the decision to apply a specific code case, if NRC approval -
i
+
is required a copy of all cormspondence leading to approval shall be l
placed in the Correspondence / Commitment Log.
I 8.3 BeliefRequests Section 9 of this document provides guidance in the utilization and submittal of Relief Requests.
Upon submittal of a Relief Request to the NRC, a copy of the correspondence package shall be placed in the Correspondence /
Commitment Log.
Once a response is received from the Regulator, a copy of the correspondence shall be placed into the Correspondence / Commitment Log.
O i
a i19 l
t 8.4 Auemented Exams Exams that are perfonned outside of the scope of Section XI requirements shall be referred to as Augmented Exams. These augmented exams might come at the direction of the regulatory authority, or might be a result of developing industry issues.
All correspondence leading to the addition of Augmented Exams shall be ~
logged into the Correspondence / Commitmei.t Log.
All correspondence with the Regulator leading to the commitment of performing Augmented Exams shall be logged into the Correspondence /
Commitment Log.
1 (x
t
~;
-e,,
4 s
r 120
tn t
e o
r n
r s
u A
e sey c
i e
u El r a
ol a
0 s
d n h
m Bc t
i d 5
n on nn 1
e A,i t
l n
p ah u l
t s m
Winie n
m i
c o 1
t v
n t
a t,b e
t o
d P Fadl e
e i
rl o e
d y
e u
m
&tewe i
e s t
dI a
uS a 6. i m
q f
s e
m l
r c
l I c3 r nd nS e o
s o
S r c
n o if i
v t
b c
Mipot i
e u
r aRl d
r i
i c
t l
s rht I
e en r e mAi e
e i
y h
owrR a
V S w t
f eU a
f t
m mF bt o
t i
e s
m e
d n as n r
c d g o
r l
u r na v
e e n
mied n
e i
f a
e a Pi e d m pt god I
d wl n
st S
et i
I ot si e
l a
S mw r e p
ev I
m e
pa I
r r
rpm v
Puo m s r e e V
e m
I b g ee et is v P
u o o
o ht bye S o n u n
R S c C
I gi a C
Ti s r I
ecn m
d h
7 e
a e
e s
g
.g b
dI 1 d
e i
iS1 ao h
)
e sl uI e
t n
s d
R ei l
r h
d al n
r l
c o
p a
I s
f d a t
e y od o oS nw.
i p
ytep g
mt s
oCy gn6 Ami l
r t I s
l s ab e
r e
ue a d otu cV san p
c r e nm6 Wot r
pb m eb o nP e
e l
e r
r s Ff o
ddr wtu(
aR rDt e gP si f
o s
C un ot mr Tt s
ns h uR d d o i
/
x l
a m tm anl of Uen GAS n nt i
l r
s u
a o
a t
f e
i f
co h e f ad nI yr c d
n v o Stxr
- m o
e) n l
e t
npa ais S e a
- n o
1 mf o
8 T ia cv o 0t h cn MI b et o
ya e
d e a
I Ukv 8t o t
t S
i t
S t
e a5 d ee rI n 1
r em1 n
I y a
0 sl a.
r i
2 m
o r
l 0
h n o i
t e
dl L
0 e a m5 l
fd n
1 l
af l
e a
o b me m
e a.
e s
t a
1 n v r
n r
s sh n wi ed 6 1 o oh t
. d i
i.
et d T C(
.n
. l nt t
n r
t t a
e n
u d
omfq a a an r_
6 S
i n1 t
UiW t
yiion e
ua s t~
m ms C
gt a o e n
ri t a yc e
I t
t r
cer s=
er S
m g e n. e cd r ar o
t Uac Us r t v e
a Un nt el t g;
I o u noa s
u l
os e e r e ye n
3 C
Al c v Ceir NGi Ngr Ns p NApr s e n
i t
inU CR e
n g
o r U N
U U
U U
i ts O
N N
N N
N n
iM 2
3 3
3 3
3 8
8 8
8 8
8
/
/
/
/
/
/
6 3
1 1
1 1
e t
2 0
0 0
0 0
/
/
/
/
/
/
a 4
5 8
8 8
8 p
D 0
0 0
0 0
0 0
0 0
0 0
1 0
0 0
0 0
0
.o 0
0 0
0 0
0 N
0 4
1 1
1 1
2 5
4 4
4 4
J B
D D
D D
e 7
l F
D D
D D
D D
i
O o
I t
d S
t e s I
u sd r
r al d
ne o
e e
e b e i
n p
f w
a S s r
e r
T w
g l
i Wa s
r u
e ps e
M ql t
a cd me np F1 a
ef rd e0 a c ia 9
sl b p e9 l
t n d "4 n
1 e e s l
s ol h1 e
e e
d a r a o
t Wtc e os ed d c ny d
i u
u>
t ed t u ob t
q a
pu cn nin n.
sd Lst sd ea uh o t e l t e
c cm e
s i
n/
b Usul in l
i f
p r a e y, oci r t i
i s
r et oc t
u r
Nym t
mu t
a s s rih at,u pp pe s
e rt s l
na a one ois d nl us V
a d.
y d
t t b u a
r n bt n
f a o i c a
i l eo g
af o njy n
sf ri v s n e
o "a d n o
i c
sd ot e e
s a ge i
i r
e e s
s s na P4 d m 2 gs d si d
r s nr I
et Til o c o r c n nt e i e u
r c n oc u os u ne S
t i r pl l r h e t h e vg t
o 1 mf n
8 mim nt e e a mee e
s ed f sl t
ui v
eg f
t ed o cs w awp awu i>
8t o i
n r
b n 2
i t
mi.
r o
r n
dl o 2
em2 n
d e e cp pluc of e gt r
g l
il e
pod o cp od v r
s o l
l t s gi t 1
e b mt eei mc r, n u rl le uy i
e wx t
t Pea Ped mt g r
m wl p r
i r
n a
e l
e oi Toh ein c
h uoi s c I wn mul o ) s nn t
l C(S i
i l I
p od et p Sdt S
a ogo (4 tr o
i iwo d t.
m o gi
- 7 a
s v.
I t
cm Il s I
t e
s uu cd cnn r
n t
p 6. /m "4<
S m
e eel ih pi a
i d ct via hoo e
Upc upr r Q, I
l 3 d o4 ed l
Rio Tsa nlew Npt F sdd o
o uuu nf h c i
t r
AS u A p/3 e
3 C
s t
- j i
n U
?
e n
g C
o r
U U
U U
U R
U i
t O N N
N N
N N
N s
lliM 4
4 4
5 5
5 8
8 8
8 8
8 8
8
/
/
/
/
/
/
/
1 1
8 7
7 5
1 e
0 0
1 0
0 2
2 t
/
/
/
/
/
/
/
a 3
5 6
3 5
7 3
D 0
0 0
0 0
0 0
~
O 1
0 0
0 0
0 0
1 0
0 0
0 0
0 0
.o 0
0 0
0 0
0 0
N 3
7 7
0 0
1 1
e 6
3 9
9 6
7 9Q S
U F
G L
G l
iF C
C C
C C
C B
m\\).
(
e t
a g
cl n
s a as a
3 t
t a
8 a at ni I nM d
0 h wnomI 0 w
8 s
S o#
e p8 c oi 1 cil e8 o
t i d
c mRh d sh8 h
r n
4 e e e
uI t oddt N 8
s9 i
md t
pU w
- 4. t aeoE m9 r
r e
r et n
f e
ndd Benmcd o o f
y I
a1 r
o rk r
a e e n
2 r x e moedd gn i
e r l
t 1
ef oi t b a o
po A
6 t
t r ed e rd vmd i
a w
p t
3 aegat P
pe Pt pa n
e c
t oe ul s
me m6 e e m
i I
t s p
S ok r
f S
i e
u1 s s et a e m r
p2 aa um ed e wg ef r
I 9 s o
e s
ao r
r wiyc 8
u u V
9 r l
t r t of n
h r i
o v d
d ctai dA l
s e
t t
k f -
c es
,7 nn ow e n n sl f p e
1 e
r ci s
oT mhePo o od me a n
nf e8 i
aw 4P h
a oo5 n3 r
t t r iw.s P
oxt n
7 7
o il d e2 d#
meet Te oec a
s.
0 d d o d
i p
n m
m d2 e
5 RisCdj pm ea t
gk s0 7 e mnc i
n b oa oT a
t 8 e l
o r
u9 9h oa a1 LvI e ur x eS C
R o8 1 s Cf r#
LrI wSP e ZU l
t e
c
)
f L
n ed 4
i s
e hl e
F ed e R-e n ev
/
d t
n f w b e I
o cl H
l g(
it u a o
ol l l b m
ad cd v S
n p
ee gl i l
e e nn eT r
s dh nwe pi i
f l e
i s s
s b
s gP i
r s
r et c e a nm ntod n
o as s d
i e
ad o
n c s ae h n eM C
ot pai s
dt a c a r
mfd gs l
i e r t xn
/
r t
s ck na wt e eo t
s uus
/
e psi i s nd n
t i n
t i pt l
l p
od a esB at o e) ey r
r s o-m b s nc
/
eoi i i 7
1 mf n
p a
8 r
t r
i i
f d u f
oisA h pr 8tio o
p i f e l
o np op u )m t
y t f s1 a ep 3
em3 n
l e
ius0 l
2 muf mr d s e8 dil 1
ub e t
e n
s l
a oi b me m
me abd a a d f r o
x t
6 x
e xf a
t 8 i
sb a
e Toh s si sV S
i ie ee m4 ei ees C(
melgaM m
R-r cs r
e u r R-n I
u c l
l r
e RTa 4 c e g
l a c r
c i 7 m *H a
a a
oa I
s oI uf ac mf S
m u sf T
f 1
rk ru ier e s r s
I o
R i
r e e u
e a i
I ah n
3 C
R p (s Vpps Vs Pl t S RUi g
' gj t
in U
e n
g C
o r
U U
U U
R i
t O
N N
N N
N s
l l
i M
8 9
9 9
1 8
8 8
8 9
/
/
/
/
/
5 4
4 5
8 e
t 0
0 0
2 0
/
/
/
/
/
a 8
5 5
7 2
D 0
0 0
0 0
)062 1
0 0
0 9
0 0
0 0
5 1
0 f
o 0
0 0
3 0
N 1
2 2
3 R 5
, 2 I
4 6
6 7 C 3
e G
A A
0 l
I R
F B
B B
A A
i
(
O e
ee C
ra sd r
R d
n ao o
s t
e e
bC f
D
.N e
t a e
& %y l
e a
r ar t p b e a
C, 0 o
am s
d d c
v b
9 r
t a a o n
u p
h d
r d e d g n
e s
h p nd s n B, a o
d t
em ad ni t
m e
ui nA ak Ah p
c e s n
n r
t e
r c 4
o i
t t
s c i
r d og c5 a
5 s c t
s m
et n r8 0 r 1 ea i
a t
f t
csi g
4 l
s n
a c
e r
oe o or 6
1 6
f u
oxg e
i t
r e C0 0 g2 c e n pmi pt r
ir q
I 8 1
e e
u Ae n gtin m
L#
aR i
, r h 'W o
r m
Tci ny 1 eI V
f t
S R 5 vt nm aa o
i e
e g
Af r
r aI 1 o s o a b3 i
r t e
d U,o.
md u n t
- c c
l o
Dsi n
2 u
8
- d. h n
e r n
i es 0 eq a
rP Ml n
a e
umi d e ad od i
d t
1 eg p
eS
/id mfin a.
t a e or Ane I
l s cf I xlp d
i ii o
Re e
f I Bgu Sd n nt m
l ei i
o et Bac Eoi oe We m evl r o rl a e a
W h. R n
n r
r h o C
Vi Ami Cmt Ca St c e
c n
R1 o
t 3 a e
I, 1 d d 8 d 5
g f
d 2
R-n n er I n Sd n
o n
a u
2Xe)
/n l
o R
a i
f p
I I,
eg d
s d 3 ea o
ee l
n e
s nd9 s
s0 it lz3 o
bl t
e n e
t 1 bi c
aoA/
z/
nr e a
u s
l i e R-n:
s Ctc5 /
o2 e
3 r
s t f a r o
uI o v pn r
3 nr aic oe r e8 q
e get fb i t go oS C
e9 s n ni f
r0 F
t w
nut i
a uEte8 Bo r
t t
/
l f R-us o y sl ei i
si l s
r 8
ema uw ei
- Mm0 Vl t
- mf r R-n e I, qn n3 vr u is p S 'W 1 t
i o/
nenqs P
e) l o
f e8 ei n
it ae a o
oA A
R 1
dt 1
e r
h f
Ud mar 1
m 'o Po gd oRr e
8t o d
u a r
l c
i t
e I, r a 4
e N,d l em4 n
ci d
t se 5 p v7 a
2 rR4 nd s yl I s etn T4 p nt oe l
e b mt ne f e St 1
o 1
e l
i nhia Uh u 2 andb m
pI R-il ii a
e I
p df l
e r
e ei y
Toh s, t g min v =e l l t
t iam oe e
m m =e S
i C(
p
,I e
w u
ma a
n wo r, n l
s d
=
m a4 c
e r ri C o
1 o
r i a I
3 S
m CR3 B
ss S e r
oc r
g miR fd R vpr a t
1 a pf c 1
o RI, R-B t
Ec p odN Pw6 Rd ue n rl I
s e e5 3
C N3I Amt Ci e
n UcE(
I as pi t
inUe n
g C
C C
o r
R R
R U
U U
i ts O
N N
N N
N N
n iM 1
1 1
1 1
2 9
9 9
9 9
9
/
/
/
/
/
/
8 0
0 0
1 1
e t
0 3
3 3
3 0
/
/
/
/
/
/
a 2
4 4
0 0
6 D
0 0
0 1
1 0
~
C 0
0 0
0 2
0 0
0
.o 9
3 3
0 0
N 1
2 9
1 3
2 4
4 e
9 3
1 P
D 0
K l
iF A
A B
A A
r
]b
/
s h
e t
e ob i
w d
d g
e e
t d
,o o
e n
a oI t t m
g k
o CS pR i
r I
sI e
a c
p e o e
aU y
t d
u a
r s t c
t r
o d
o t
c en n n s
m T.
hi e
n e
y 7
n t
u e
s r
5 i
d qd gU m
o s5 e
8 s
d e i
n t
e9 v
a n/
e s
i a s o pa a
t et e
r f
r b p b ys g
c t 3 i
r R
e uiw o
f i
u r o u s i
we e
I f
r f
e U
q e p s e
,co r
i e
S g.
t r
e m vr ar men P
a n
r o
o pk V Lh e
l r c I
S e
f a y
a s i
t r
o n b /c r
n S
e
/ n n
e t
gyn c
ca o
n y
g ai I
t i
n en d
o d n er n
e d n ol e n
l o
t i
r e e r
nl i
a t
y eo rP d
e d m peg d
i a
m t i w n et nr s
l r t d
r i
n t
I r n e
p ei e
u ae eS o
n si i
l m
ue d
t t l os i r
i i
s s p f I pm %ct u
i c e p
e m MC k
m m
t l
r o t
s o
.R a
u o
t i am u o 5 or c
et I
C GN L*
C Nc Vi CP S c 7 nw n
i o
n S
I I
ec f
V h
n n o g
a e
cu n
6 I
i i
1 3
S h
d M1 s e e
4 f d s i
l n
kl s
l v
R 7
o n i
o c n Tam a
N d0 a e w
h n3 I
p ai e c e
s s
r ri
)
l t
Ulos l
3 a -
t e
cd a v I
is s
t e
2 h N r
l r
S et y r
r d e e e 3
wmk u
3 n s l
I w
e l
o ow b s (9
e2 N1 h
s pon q
n s/
C ad si t
i a mco 1
7 y
a s r1 f6 c
9
/s h n sd s/
r a f -
1 i
a et 4
gt eR o4 Ve s
e t
t e cn e
Pd mc
.1 n
oe ca e
a i
=
0 md o
%uj N
I, s N, Rc
- 5. loi o
l e) mf at f
p e
u n
f 1 mf es f s
-po w
0 t
8 a
r2 e
cE 7 vy 8t o d
ot r
d1 d 6 d
t n
mk ee t
e 5
eR e4 pM md e s
2 l
o Te t i e a5 n
l o e uv v
v nf u
1 I
l t
e i
i b me m
wd U d s t
c e pe o
oS r
o N, o a a w
m p9 p7 rA fl r
r r
s d
a e
e ye d
i 3
Toh o
Uc vht ed ot t
l r ae e
a R-p3 t
p l o e cr v
C(S i
e d e m Nt eeg al Cn I,
4 ws pi u o
a i t e
r c I
ms e
ia rl gt wi C6 C
a o
r S
m l
s p
R N, Uu 9
d l
1 Rd Rvk i ee p
r a ps ep R
t I
o R
Whcp A
et i
ea n
I b P I sl Ui No NI N1 Nts 3
C t
inU en g
C C
C C
C o
r U
U R
R R
R U
U R
i t
O N N
N N
N N
N N
N s
l liM 2
2 3
3 3
3 3
3 3
9 9
9 9
9 9
9 9
9
/
/
/
/
/
/
/
/
/
1 1
1 1
3 3
6 6
5 e
t 0
0 1
1 0
0 2
2 0
/
/
/
/
/
/
/
/
/
a 6
6 2
2 3
3 5
5 1
D 0
0 0
0 0
0 0
0 1
0 1
1 0
0 0
0 0
0 0
0 0
0 0
0 0
0 6
.o 0
0 0
/'
7 8
8 0
0 0
N 2
2 7
8 8
8 8
8 3
4 4
8 0
0 3
3 1
e D
D B
B 1
1 1
C C
l A
F A
A G
G
\\.
A J
J i
I p7 S
n 9
I i
m9 d
ge n
3 u1 p
P e
a i
d t
ts n
M e
hi e
u i
s c
o W
sd f
r e
,e o
e 5
i p
m 93 m
i l n
a1 vu 7
u t
e 93 o
e e
d 5
s 1 7 pe i
i 5 -
t t
7 a
a ph n
w M
g3 t
9 a
9 0 c
c a c o
o n
0 i
i 1
c 3
l l
1 o s it n -
G ir 5
i p
p t
c s8 u8 f
nN u
u t
i ee e
i9 d -
r r
i d
d e
3 e
eh ny s
e4 p
dM o
r s -
V ni 1
1 t
e e
aN s
e d n d
e ow 0
0 mO c
d 0
0 h
o n
C a
y r
e 0
0 u d u
eb d
fW n
s c o
e a
a n h
t p 1
d t
w 9
9 c
oe d m om e
eA r
i nr e
l m
lp d
V V
V p
d a Ca p
pr r
r m
m r
J J
h R co h o o
en ug s g m
t e o
I sd l
i a
c e
e S w o
x c
e e
I C
Ea S
S MhsU nr Tp C
Tu r
I P ec t
e s
n t
a os n
u o
3 a
a1 sWt l
e t
8 o n t
e l
s Goe d
l t
f9 t
s u
t s r1 n
s f
oe o1 neC e
e
/
t al S d w
nu TI o
t i
t t
k d
l t
r o a n
e p
o eo d q V
l a o mt p
s b s gl t
l i e U
m "8 f
e oi r osl t
u e
l r
x s
r e d s1 t o s
r Vo of d f gi m
e es -
m l
e nd a9 e f s r
Pb n o ei ia gt e0 r4l g
u 9 oe n
nr0 oC RV d
we m e oNr pt t
l s
a e p5 8
1 Roy
/
rI i t s
oS d s r
r g
t 9
h m
c g *m 2
r es 4
r e
t o
g ps e I
ps n
fM d u n e f
a at t
cu D
eg r
I N
f&g leq mr pn -
I a
e g1 S c e 1
e) p yW e a e
- r e
f 1 mf 7 o wr h e i7 8
em.
o l
i R
e sI S d 8tio 0 f f
c v os0
- d s
eI a hui l e 6
s o s e
r t
ceu t
3t si ao u3 e
em6 n
l e
cl ob 2
i s
t c
s el i
N-s l l t
t s zm e c a
1 l
Ne r
u w
t e
lMh l
e aT b me m
i t e
nl p
q ar mlof Tiet za8 d
a s v U
@_ s l t
e v we TohC(
ox9 u3 o
e mbo el f l
r y
S i
i i
d v
gne4 si 8
g l
p-o v
ua e
m m n-emlaN owG9 M: k M.
vw o2u v
u I
w y2 d r c s e p
1 g
a r
S m
p i
y u
odDr o
ie U
d y
Uaesie r nf e si o
p v
t cl Ua
@;nk r
l I
0 n 6 o e o Nlci i
n 1 a A
Nt N
4h 3
C Aa s vp Pi6 p 1 c 4 rf
%sm 4
t 4
i
,._t n
U
- t. :
e n
g C
o r
U U
U U
U' R
U U
i O N N
N N
N~
N N
N ts lliM 3
4 4
4 4
4 4
4 9
9 9
9 9
9 9
9
/
/
/
/
/
/
/
/
5 4
4 7
7 3
6 3
e 0
0 0
1 1
0 1
2 t
/
/
/
/
/
/
/
/
a 1
2 2
6 6
8 2
2 D
1 0
0 0
0 0
1 1
1 1
1 1
1 0
0 0
0 0
1 1
o 0
0 0
0 0
0 0
0
(
N 0
0 0
0 0
6 0
0 0
0 7
3 1
2 3
3 0
7 7
9 9
1 3
5 e
G" G
G 9
9 1
O 0
l A
J J
iF J
J J
J J
J J
m o
o t
t n
n 5
e i
9 h
)
e e
s d
9 6 S t
d d
2 i
/S w
u u
2 1
9 e
ta n
2 r i
c c
d l
l r
i l
1 o u
n n
n n
o r
/ f o
i i
p o
1 i
5 5
a o
o a
0 m g
o o
i r
t t
9 1
t 9 t
n c
n a
o e
(
2 0 r r
d d
l n
d 2 g p
eV eV p
i o
t m
r o
o dO dO m
s i
i ta a
t o
r t
a a
e c
g e
o RP rN rN u
o r
s I
d g
g q
c yI e
pn pn e
g f
o u
C i
i r
q r
I bS d
ui ui n
r P
e S
I d
t t
f i
e I
I d
a s n s n e
k r
V f
ed a e ae c
i S
l e
y ve t
wm wm e
a e
I r6 r
m b
l g
e i
c n
e a d
s a l
on y
Br Be
,9 e
t n
i r
1 i 1 i e/
5 r
r e
eh e5 u
0 u t 2 0
a d
d g m
c oe q
q e1 8
r n
0 il e
e o 1
1 l
Md d g e
e p/
p d
i r r
1 s
1 o'
m u
f n
Nr Nr m0 R
P f
K Rl o a Ei Ei o n I
i t
s s
l r
r o
c eI e
e S
h h
C n
VI P
BDw Nc Ct Ch Co U
I t
e e
c l
d e
h p n
N a
e v
eei h
0 t u e
i d
d 9
r pr s t
0 f
e e o a od e
i I
1 n
n 1
pwu S n s
t t
e t
R-on sk o
a q
n s
l t i S s t
e i
e e s a
I i c p
1 I
i t pr Stnr C
em gh t o di s
n n up a
t gu ntn e
ae e
6 s
oe 6 er l
mv aR ac a o s s l
e r
1 e
t y
1 s a e v m
r 4
u a
q 0
eh e eN u os h
t um od n c m e w ah a o
l C
N e
m1 h cn d
o rdi ex f
c t a i e sd
/
r r t t s s
f l
o ent ui t t a c r t
o f
os a a t a a s s Cg eu l
o 8t e
f r ri h
w nf a
s c
s n Rr go e n
e i
f
/
af o
ami l
ef t l i
i i
e) s e
pf d r e l
i e
f l h Nv oci l
1 mf u
r o
e gi 8
t l s r r it l
c a
h oe wi yc l
e ihM g-o io d
d o
w u
t f v w
n ele t b n
nr w
f ay 7
t t
e e
i t
e m7 n
v v
s e m nr 2
r i
T h a e 1
r a
oe e mpd m
t l
4 4
t i it t
e o
o i
t oU em b me m
v r
u e
i me a 4 b l
o r-a n
d a
r r
omh r.
oh p
p r
t l
6i c t
TC(
p pm Ve d
t p
p mr a
i g l
S i
nd
- wE oe l
n n a m
a a.
om d
i Pi h e&
e g
n GM hr
~
I pa wR=
s at g
C ri
~
I S
m C -
C' co Cs n gs t
r Ur =
R os o R8 R
Ut RTu I r o INS I I t I
3 C
N4 N
Nb NUc cP WEA SS u Nfn Nhi wn;p 9
o o
S or o
I I I o t
t i
nUen g
C C
C C
C C
C C
C o
r R
R R
R R
R R
R R
i l
l N
N N
N N
N N
N N
t O
s l
iM 5
5 5
5 5
5 5
5 5
9 9
9 9
9 9
9 9
9
/
/
/
/
/
/
/
/
/
8 4
0 0
0 0
0 0
0 e
0 3
3 3
3 3
3 3
1 t
/
/
/
/
/
/
/
/
/
a 5'
6 6
6 6
6 6
6 -
1 D
0 0
0 0
0 0
0 0
0 o
1 1
1 1
1 1
1 0
0 0
0 0
0 o
5 9
0 0
0 0
0 0
0 8
8 0
0 0
0 0
0 0
N 0
2 1
1 1
1 1
1 1
e 2
2 9
9 9
9 9
9 9
V V
V V
V V
V l
l 1
iF A
A J
J J
J J
J J
J l
l l
l a
a a
a u
u u
u n
n n
n a
a a
a M M M
M m
m m
u n
a a
n a
m r
r r
i o
g g
o g
g i
it o
o t
o o
a r
r a
r r
c P
P c
P P
i f
I I
8 I
I i
S S
i S
S r
r I
I I
I e
e V
n n
V n
n i
i i
i e
d d) e d) d)
c e
e8 c
e2 e3 t
a a1 n
n t
t t
a1 a1 a
r e r e a
i r e i
og og il o
og l
p p
pn p
pn pn r
r r
r a
m o a o a m
o o
o c
ch o
ch ch C
nC nC C
n n( C I
I I (
I (
ec 2
n s
r 9
t e '
9 e
s on t
I d
5 6
mt e a
fX f
1 n
3 4
o '
a d m t
d on o
5 5
r x es e e
dEoe Lo p
i r N
N emf meh i
s e vi s
uW rbiWt t
c e
s vSt v e a
r w
e i
q o
e r eA f owI i
n s e r
a a
eAe rt d S r
s rI o
e*hEa C
C enm e b nf C
nf pr ao c
ll oe
/
e e
b oe c
s a i
i s
d d
r eiu wel nm d
l t
t e
O n
o o
ic us l
s n en eWn c r e)
C C
w n qd aga e
1 mf f
f ae n nd a 5
mia cI d t
8 cf d r o
o mi a
ei et a eod nud5 8tio I
c 8
auXl
=
g 0
a a nsA t
e e
t em8 n
s s
n r g a
2 pCind 5
l t
e u
u e
g n
t l
1 m
e qR end e n b me oen o e
a m
d d
m rd oi od eF Toh R o,e m a t
e e
t Puitid u S
i
/r 6 me n C(
i t
r C
?.
v v
l l
I c cd I cr m
o o
m S n ed S no0 r r o i
I I
f1 a9 oi r
r iS a I i S
m p
p m
i p/f ut i
r qd o
p p
o e9 I
)
)
/ e e 1
2 R9 pre 3
C A A C
t inU oC e
n g
C C
g E
C o
r R
R r
N R
i i
t O N N O
N N
s lliM 6
6 7
9 9
9 7
/
/
/
9 5
3 4
/
e e
t 0
1 t
2 0
/
3
/
/
a 4
/
a 4
9 D
0 0
D 0
5 O
o 0
4 o
8 3
9 0
6 1
N 3
N 7
0 3
e 2'
3 e
6 3
l l
1 l
1 1
i i
F A
A F
B A
7 l'
9.
RELIEF REQUESTS 9.1 Alternative Reauirements 9.1.1 Code Cases Not Approved for Use ASME publishes Code Cases which explain the intent of Code rules or provide for alternative requirements under special circumstances. Section 3 of this document describes the use of approved Code Cases. Ifit is determined that it would be beneficial to utilize Code Cases which provide alternative requirements to the inspection requirements of ASME Section XI as documented in this program manual which have not been approved for use in Regulatory Guide 1.147, relief requests will be filed in accordance with 10CFR50.55a(aX3).
9.1.2 Hardship or Unusual Difficulty
[4. Commitment Table 8.1, File B16368]
During Inservice Inspection, there are cases where compliance with f
the specified requirements would result in hardship or unusual difficulty without a compensating increase in the level of quality and safety. An example of this is significant exposure obtaining duringtheperformanceof theexamination. Ifsuch circumstances are identified, relief requests will be filed in massce with g
10CFR50.55a(aX3) 9.2 ImpracticalRequirements During Inservice Inspection, there are cases where component configuration and/or interferences prohibit coverage of the code required volume or surfaces. In each case where such limitations have been encountered the details are documented in a relief request. If additional conditions are encountered where the inspection requirements of ASME Section XI as documented in this program manual cannot be met, relief requests will be filed in accordance with 10CFR50.55a(gX5Xiii).
s s
l 129
!.0 1
h i
9.3 Format l
Relief requests are numbered sequentially, with relief requests issued i
I during the second interval indicated by the number "2", i.e. IR-2-XX.
Each relief request contains the following information:
A.
Component identification - describes the code class, code examination category (if applicable), and a brief description.
i B.
Examination Requirement - describes the code item number (s) and the examination requirement.
l l
C.
Code Relief Requested - self explanatory f
D.
Reason for Relief-describes examination (s) conducted and/or j
evaluated to support the basis for relief.
i L
E.
Proposed Alternative Examination - self explanatory.
9.4 ReliefRequestEmmmary_ Tables
.D l
Ih 9.4.1 Relief Requests which were submitted during the First Interval are listed in Table 9.4-1 and are included as historical information.'
The Table includes an evaluation o,f the applicability of a similar g
Relief Request to the Second Interval Fisy.m.
3 9.4.2 Relief requests known to be applicable to the Second Interval ISI S,
Program are listed in Table 9.4-2. Copies of the Relief Requests E
follow the table. Additional relief tequests, as deemed necessary, p
will be submitted pursuant to the requirements of 10CFR50.55a(a)(3) or 10CFR50.55a(g)(5)(iii).
t s
l:
/
Y s
O 130 L
t 3
d i
,l i 1 a,;1 o,
! I 1l,il I
ain a
I j
E l ll' j !lll]' lil]' l
!j i li ltiilllii ! lllillilli l lj
! si si i
III5I't
,l I'!
IlIl 11181ll/jlij lli fI A
l II i
O l}i i lj i
]!
1 s
ql 1
1i j
k l' 11 ll I
i 11 11 h
]!g r
I 11 11 11 gp!
g; l
3 l4i l j!
lj i :
jb!,illll Illl
,i u,,
1j!i 1!
j =1 j.l.
o
- lj
- j j
jj
)
d 1.
e 1
1 r
ev
/
9 0oh e
9 0 r,t
/
t o 8
e 8
g ar 0
b 0
5i n 2ai w
Dp
/
/
p 2
d 2
- pr A
0 lu 0
Be u eo W r, d em t h Iec n a s mt o s H n o t a s
e lt e d
a ny d
e Tel a u t
f u
t n
q n
t t
n de a
oino a
a er t
r r
ad S
sf G
oe G
s i
eme r
plo e tor iu rR n oq f
p.
3 t
e o
if6i f
r
)
s e0 R
n Biwla T-ed d
o o
s e
n h6 iwlah d
e s
mio t
e 4
u u
r n
ope at d -
s sw le s sVale h
o r
oi xod eN pi eb ei(
b t
i v
mv) y t
3r vv n em n
a rt E pl z
uaaml R e Pa e
is aao he n
i%f c
Tye v ut m im m
w ua t
peV(ha s
e s e s e
c6 a r
nC e
e 1 iv s 1 in ns t
v cl s
o se seiea ol m
ee scmt is scmhs x
n s nA ed i
)
oiE u
)
r x laeawd G
c e o
G bo laea d
lo c
r x sC C e C e
)
ihab
(
lve
(
i s
L Ve
)
t a n r
t l
ro ho o
t v a p
dr c p
1 d
3 3
e eoi e
-6e t
e sd ic R
9n T-T-
R spc d
r s
a e o e
C 4e uh m
I Nf le lV.
C remr V,
I up t
b l
A A
d pt b
qe lo t
u S
eR u
u
(
aae e
a S
d n
a eM
(
s e s
s t
R T
V R
ar i
V E
aee E
Ce V
i R
snx r
hh y
T ei T
e du ewh s
oq r
d yt e
d a
a Cr s
e ol o
nt g
p e
g Co m
e e
o et m
la v
o d
o r
9de nM P.
B r
g c n u
P.
8em m
n v
4 id p
o inE 1,E 9r f
r s
r ir u
T f
o 1 uo y
r, lul o
y ieo WW o
a eqf ad o v s
e s 0
s r
S) mn o s sSS e
t h e
hee vwre e
c i 1
e Tr p t
G d
Rl edt c
ad s
ie t1 Aim e
t t
s le77 s
wl n a
f 1 s1 r
egw00 ei f
r o i
l o a i
o ub a nb r
hwr ru s
o rge ef x
u n 00 f
- 4. u o f
a v oR eE se 33 o
- de s
m s re 00 n
eoY l
ta eah 2
l W
Ssa 9
q2 lu ef it t
e n
eHn m
m ini s o
vo-3 o
Pm r
I my ee r
o e
e t
r 1
u a
Rt V
c la I pd e
i inert t
l r
u t
n b
xd n
i I
i
=
rEn af e C
v Spn v
a o
E e"-gb u
eh E
Uc Tis o
I Yn y
y r
aoe l
t t
e(
s e
s e
nie t
t s
f o e g
s a
ewr 8
Yh R
To u a
t r
n t
ie S
h n
rn e
S s
dg s o e z
t s
eS is d
s nIbe l
g a
mn ru d
dhi C
B d
c ep e
Ten a
o e
o r
o r
e u
ehl R!
v ep o
r sr s
u nTu p
la in e n t i l
l t e v
c s
e yr e
c ot d m
gm o
r n
cs s t
S C P
i ee n u
V hie
- 2. a
)
n
)
st o P
t dt 1
n 1
ed rdi I
9 e8a 9
oa
/
/
f e
t 8
he
/
t in 8
yh t
s 2
/
d bt rem 2
e f
o o
(
r
(
i2o s
0 0
r i
o f
r 9
u-1 9
ddu 2
5 3
qM n F
N 3
eya 1
m 2
9 irh 2
2 3
eo 3
f 1
1 9
rBit u a o e
B 0
q B
B 0
a edn t
i A
ee e A
bni rdc r
t am re elu n e
g a
a t
n_2 x t
e bcm 2
e t
t IB1E n
2 IM C
wB.
mt B
L iwtof H ir L
o L-aa xC B
C n
r R
syo u
t t ne B
E R
s I
r i N
edp F
eot ulug u g a *L
)
n
)S qoin S
qeia et s r eh w s
)
r amr a
v
(
(
de r
r
)
s o f g 6
fCae iho 6
f el 2
iest one 8
ie xt et 0
le of lesslivs 2
leo eWods n
nei
/
no
/
ru s
sgt o e 2 y rid meaae 2
ty r icn e
cCVd 5
l r tar o i
/
i sneRs t
d
/
r s
5 t o ae e a o
(
u a nem t
iT eis nt t f pd b
Bi r in s n e
(
ib Ria c
e a mmm InrumnB a
e e mmme r
PaeeV t
8 r
up t
c tVh c iab Su ia lo s
t t
s t
t u
x s
e T
n e xu P
n e p AEvi n n
p Aes e L p Ri e L p m
A m
A e
c la c
l u
u G
W a
o v
o v
r D
e r
D e
R R
n I
R n
i t
t a
3 e
n 4
n c
d d
f I
e n
I e
n e
r r
f e
o e
o e
f c
f c
e e
e e
R R
S R
S
=
a c
s
r l
d a
e 3
v 1
ev 9
9 r
t o
/
e 8
e
/
ar 3
h 0
i t
Dp
/
n t
p 3
/
o 2
r A
t a
e e e
l taY be m n-sh et ee d
H d
s e
po e
tt f
T a
u t
p t
t n
ae n
d dn a
a c
a r
t r
eo tS G
o n n a G
s c oe m
ps s
ir o e o
r tsf ph r
t d
ee e
h g e
e up d
t n s
d q
a n o' i
n o
o o3 et dr pe C2 u
r e
v
)
r ie' izd oi 3
G eio f
c rt r -
e
(
ir lis Pa r
m pN t c lep e a u o t n e
t e 3
r e mf ni ete cs v
r t
isd uu ea sl ea e
ha lo ei nA pC s
n R,
m V
bm t
e s
n c
n L
r i e sa i
i to db ax
)
p ed G
he
(
e cl
)
1 f m
R nu t
o r
a eo ic e o
8 h
c p
9e d
x y
r r
e s t a r
ed ef e
4c e
r o E
a f
n.
et r s mu R
N r
ihut e
m lb qe c
m ihqe s e.
u s C
e a
eM a
ud lod A
I s
f u
R n
a Va S
T u
S ihf m C "m r
ce n ri S
m
(
e-y a
we R
r dg r
r R e E
on g
3et a
o 2r e T
Ci 3ed 0
w m
r e
P ht 4
eo o
AA m
nc B
I Nt h iz GG a
is, d cR m
d S
efote o
e X
s s
z: / /
r f
L u
T s
dt a
d SS g
W-r ale u nl o
r o
r e ad ien t
e Ct S
r m yh 7-t et e RT e WemS Y
ema im e
r n
vi n
o w W W-P.
em J
t)
Ai db it 0
r wb 1 s1 r
1 ale SS y
o u H c 0 o u e o a aa rt 4
Csb r e - -
{
4 e1 x
t t n 33 0
hs eE gt 3 s
dn e
ufo m
eA 0 i
l
- e e00 1
t a na n
tab 3
v 00 9 q f
t u
n o
v ac e
s vd 3
3 p
33 i
rl eet lo I
l t
s e re dg R
00 eu 1
f Re V
a t
l n c v
inoa u
o i h b
e E
I hn F
l 1 s t
a af h t
y See v
St es Ti(
t I mc e
I s e
r r e re y
au l
f a np s
a t
e e
eq e o o
f r
S Yie a
Yre R
t t
t r
s ag a
s nf rn e
e n na r
o e r
a nn t
d eir e
s ee l
r u
Tme n
e Tu v'
Ap o
u lc da o G
u v
e d
e d R.
s n
n x n
r m
s i
o e c e
d ot P
3 ce n m
i ee e
O,Co r
)
n cs et o e
t 9
n
/
s ait o
)
st i
3 ema S
9 t
1 he e
/
n oi
/
t 3
h m
8
(
tlt t
s ra a 2
/
r r
0 of x
(
o i
o 8
f f
oe 1
9 dd r
0 8
d F
N 2
0 e nd 2
3 ey 1
r o n 2
3 iu a ii 9
r h m
8 e
B A
ut a C
0 q
qa t
r un A
ee I
e el o t
r ai r
rd t
u t
e el e
ev a t
L bet bc te n
C n.m B
L iwt ni mt H
R i
wde C
C o
el i
aa xC B
N t
t n E
s oh R
s eCt N
ed
)S u e n ulu
(
)
qhe S
qo
)
eh 1
et h
(
r a
o 9
r w
s
)
f f o 6
f t
/0 ie s
8 es RdNl y
s 3
l n n 2
e o
/
H n
/
ee e
0 eo it
/ i r o
ri 2 y e
ri i
t rd s
1 t
lt t
ri r
lm9 a
gi
(
ada 5
e e s
(
u la i
e 2
n T
t 3
i E O.
b iimm InW V 9 2-re a t
c ia 3
i8 s
t t
1 s
u t
n e p Aex 9
1 n
m A;,A1 e e L e B --
p m
A u
t u
la c
l s
c av v
o r
)
e o
re u
D D
e q
t t
R R
n I
7 e
I e
6 e
n n
c c
R f
I e
n n
d d
e n
{
e r
f e
o e
o r
e f
c f
c e
e e
e R
R S
R S
f,(v d
s e
1 n
ev 9
o si ar
/
ha" t o 8
at Dp 0
/
n p
2 1 i m
A
-8 a 9 x 4 e
-Nf o d
e s
e sa u
t t
n a n a
a Ca t
r S
G em dr o of Cr e
f ep f
s s
o o
c n
n ng mio mio isin e
at at w
r r
v xod xod r, o rt e pl e pl en r
e e
vo Pe cs ee w
niw ef m
ierh t b wd e
t e
f f
el eleo oe el mo ms ht c
- it sl nA e
u u e' sm ic lo loc db L
Va Va le u
)
s G
w
(
e
)
eb tr l
c c
o zd d
r r
p zl i
i ed e
ou e
t t
o e
e ruh m
m R
No i
l h
b qe lo lo A
le s t
u u
C os a
eM I
t t
R T
V V
S s e
(
s u y
R eq e
Vr r
E a
T ee rf i
m s
s izl e
d lesl: nununu a
st e
d t
t t
t r
B l
t et et et e m
u R.
m e
elt lel wiul lel s
t t
o wA8CDES n
r u
T iOiOiOiO g
es sWWWWWW l
l ad e
r e e
eV VJV V o
Pt S
e e nWU 4WU U r
in sSSSSSS c
e W W W-W P.
r ei v4W4S4 W4S t)
Am v777777 e
t r
hs 1 s1 t
r o344 4
y i
a 000000
- 4. e 1
- o. E o044404
- 6 r e 6
400 lom a
x 0
0304 0602 e
t -
uf m
e000000 333333 0 0 0 1
d o
ay 4
0 - 0 9 q u
z z3 403 t l
l 3 -
s vh 3
a ee4 lo z
z0 30 3 0303 i
r m
t c
o 0
0 0
0 e a 1
f Re V
N N
o t
lb e
la ine I d af h v
Sl u
es Ti(
e I c l
y rn n
ai e
o e
et r
t t
f o
t r
a a
Yn R
rn e
r s
nd o e z
e t
n s
el la mn r
e e
Tu o
u d
o v
ep s
G dh' r
sm s
u t
ns l
e yo e
m c
o r
n o e t
S C P
a i
e n e
)
o n
t el 1
i S
/
hn l
9 ee t
8 t i s
2 rm
/
o a r
(
f i
o 0
0 9
x 3
de F
N 1
3 e
L 1
1 3
e a m
3 3
9 ir utav m
I B
B 0
e qn r
t A
er e t
teh r
r e
el ba-t D
O.
te e
mt L
Bde i e Y-ws aa xC B
B C
E R
spe t o n N
e oT ur qpd
)S een a
()
rho 6
f t c
/
ie 8
de 2
lee s e
2 y tre r
lt
/
i 5
it r sh at t W
T
(
liu 0
r t
e a mnn t
c is ei r
t t
ilp Abd n e eu eL p s
c lA mu t
a e
o v
r u
D e
q t
e 8
e n
c R
R n
i d
f I
e n
e r
r e
o e
f c
e e
R R
S a
'.v t
\\
d f s ev 99 9
iee e
31 1
u ar
/
leq
//
t o 38 2
8 r
e Dp 00 3
0 er
//
9
/
p 32 3
2 rfie
.A u
1 r
B qe erR o y9 e in 5
d tot d
n s t
s dnmb/
v e
e 3 o t
e ut ea e s u
t t
n udsn b i
t iwic t
n a
a s ei a m
a t
t rhnC e b
r 9a r
S ut t G pi i R e u
G 3t s wwN S s
o Wd e
r r,
F-y m;ed n
2a d
m;e 1
e s
0h e
d a
e acb cbe v
d io e
x s
x aI e
n asn efrRi rt icuwim euwm R,
antr Se n
o ef r i pe Cd v
oo ea 9
c p
Rlu oi r s sa ns ne c
t Pa eDce eDc x t
ex R-t cc dn m
mI a mI ae I
mf is o
e a!
ni e
b f
at e e lothue lot se t
lo e
uef y uer y uu Bn r
r R huR e
sR s
nA s
v su v
u o
mDs N.
V c Wd e
m s
lu o0i l
e l
ic R
u orOiv s
)
)
So Ff0v Ff u r L
G G
2 h
(
- s X
d d
r r
Cs
)
t t
d nic nic o
ice o
En c
- o p
r p
4i e
ed at at e
ef e
Pa r
r t a t
r o e e e e R
mu R
Lni r
ihut cm cm lb qe au alo A
u s C
sm u
C fl f
I d
a eM lod I
r r
a R
u o u
n A
l T
S S
S Va S
v v
ox We
(
(
y R
R et.
.t r
s E
E sa e v
dmr a
le lnt m
e r
d T
s T
sg leet e
m s
en e
d w
i wl n l
B le t
it ei m
iaf B789 a
hda m
t o
w u
a m
t o s t-W333 u
T b
g a
ee r
t r
g f
e sn:SWWW-sY ad p
d o
r t t o
oo-S e e ip n
r g
r opn s - FFF n
P. ~
P.
wrT a e. l.d1
/.
t )
r o
e oe Aim o
e r
P ly c
r
- 000 1 s1 e C 2 2 2-r t p r
y o a t
f y
ywE roed e1 x
d s
0 lo le. 4CCC lad c 5
a
- 4. u f SSS 0
fhn eE n
1 v
p 1
t o 9
o m
e l
t t
s uA P RRR t
o e
q5 f
e u
e 1
t e i
r s
L s
v e eet lo f
lz f
In irl s
3 e
e z a
ne f
1 t R e Re V
S z
o d
eN l
Iiut l
o nuh b
e o
la on Cs e
af h N
v c
v Sng es en Ti(
e e
e I
i r er y
S y
abu n.
l la '4 S
e e n l
h h
P t
t o
e d
s e
s e
f Yas R
ui) s a
t o
r o e nope e
s i
NF t
ems k hn r n r
s s
n s
r sp o
d' s
o1i la mn enNg V
e d
le1 d
d9in Tt 3
e 8a o
r r
r d
ta wr lc tep p y(e la e
v r
o u
u n4 sm gaz r d
c r
r om l
o e
yo ndiso e
i r
in n
o g
in '4 n
cNa S C iue e
p n
Pop R
1) o ip i
e x
t p
)
s se
)
i 1
of I
bp 9G c
P 9
eao
/ (
n
/
t t
8) i 8
hCe
/ 3 s
/
n 2
rec i
o.
29 odn r
(/
e
(
f 3
e oa 1
0 9/
b 9
1 deCm F
N 1
5 33 1
3 90 a
9 3
3(
s r
m 9
S rieo 9
ucf i
08 h
B 0
e B
B r
qn A
eie t
A8
)
rSp r0 3
r e1 0
e e
.g A
t n
t t
b0i 2
e R6w te e L
i4 mt J
F Ls R 4 o
B C
w.l xC B
B Cn I(
aa Nlo E
Ro t
t p
s R
s f
e Ns e
N e sd e
u u ae
)
)
q t
SR q
S eCi t
e t
yn.tus X
(
em
)C r
r e
6 6
f fiedb 8R e
R r
8 ou e
ai: e
/
N R
/
leCs 2
uM w 2
e g
e
- 2) y 2
r i
- m:
r
/
ty rn e i
/1 g
lt f
t r
r R laob t r n
5 i 59 R lm es!tf t
ic is so T
(/
ib ia
(
ci b
d r0 nt idl t
e3 a It re a meu c
t / h is Cett t
t 0 o
t t
lp Abs n e ah n e 1 p A p
e L e L(
p m
A m
A u
t u
la c
l s
)
c a
e 1
o v
o v
r r
q v.
D e
D e
u
.rV i
R t
0 t
e n
e e
e n
1 -
c I
R R
c I
RI re o
n d
n d
(
f e
n e
n le 9
r e
o e
f c
f c
e e
e e
R I
R S
R S
i
~
Q/
la l
d a
e 1
3 v
1 v
r 9
r ev 9
9 e
/
e
/
/
t o 8
?
t 8
t ar n
n Dp 0
0 i
0 i
/
/
/
r r
p 2
3 2
A a
a ee ee aY a Y-t t
mn mn to r) d (f l o e t T n od e e T
d tad s
e de lt e
u t
d ew ad t
t n
er dn n
dn a
t i e o a
eo a
nuS t
r s c s c r
S G
aqW oe G
o e r e GrF ps ps oe oe m
r rpt ph m
h t
e o
d s
s eg h s eg i.
hn e
n hn t
L s
d i
d o
t i t i n G r
r u
n r
n pe ant an du o
du v
oo o e, ed v
ed Fa ne iei ir my lz vi c
p c
s i s i t r
H n a
in e
t ce t ce t
xi tuo m
e ai e alb eb i
uo
)
eet mf b mf i G
it e
t r
r n a es na
(
st uu s uu*
e n cs en s s nA lo e
o s*
3 ei ae ei l
f c bm bm eic V
c V "
v r
s a e
s a u c a x c
R, he G
he a x Sa L
a
)
a
)
G f
(
f
(
r r
)
t 1 o t) 1 o
t d
ic e o
c e o
r r
p ic p
9a o
8e 8
c a
e e
p 9c r
ed t a 4n c
e 4 n t
e r o ef e
0 ef
- o a
R a
r r
r uh mu R
6 Nm i
t 4
mu y
Nm l
f b
qe r
u s r
u s C
e er u
C er I
N a
eM f
I s o lod s o S
A ar lod A
n e Va m
a-f R
n T
Va S
s w
Ce S
Ce p
(
p
(
a s
e e
y R
C dg R
dg r
E m
oi t
n s
E oi n e
a n
T d
a Cw n
T Cw r
o e
e m
e i
o g
eR m
o n
d C
o c o h
0 m
is, d c o B
le m
MMM m
rp inf nf GH7E M I
s, d tal 0 n
o w B cd4 a
a o
- WWWW27-I eit d gS P.
vm r
u T
r S
e e-g e
g g
d in 1 W-112 ad SW1 awR o
rt t
rt o
e S
e e r
eit 0(>
FF4FW-r r
s y
vm s
isS P.
r n n
b J
a e
e enP wb t )
Ai as8 e E. 3 0
- - 7 5 F.
0 wb dip 4 y
os m
1 s1 r
r t a r
la u
u 2 5 os l
rC4 W333 3
1 o a 1
el y
ei-pL 0
h e1 x
t h
4 uf eE e
L 0
v
- - - SIL2 s
e wrI e
SSS SSSWSL-1
- b r
I 1
r l;b y o S.
o m
i l
e a
6 u S t
t 9 q lo s
1 I
MMMF I
f e
f ts vd 3
ee6 i
S o
vd u
u s
s n
l a
3 e u r
elu r
i r
Re V
e f
la t o g
o nh 1
f t
t o o
S v
l a
r inh e
r b
e P
l I
e I s t
l is n
a I
af h v
a y
I v
I e St Ti(
e e
ISt s
es t
s e
e e
r l
y Y-w Q
f r
e n
S a
e u y
a u e
S t
s eq e
eq t
e e
f e
P e
f P
Yf Yt R
s r
a r
rn Nr a
T Nr e
t e
s e
n s
n 6
e e
o e sg d
sg d
M u
eg g
s eR la mn dr s
n dr lc t
u e wr i
dR in e
Te a
Te o
a e
o lel W
v ep lel d
c n
ip d
dR u
r sm wr lc s
n.
P s
n o
g "o c
ot
)
ot 3
cs n
cs M
e y o g
in *4 i
h ip
/
ee I
ee 9
n e
t S
in4 9
C
)
st n
i ip
)
1 3
st t
1 r
/
e 9
eic c
/
P P
9 o
3 u
/
ht ha 8
t t
8 f
(
a t
t
/
t s
(
e 8
o o
(
o o
/
d 0
rs 2
rs 2
r r
8 f
f i
o 0
dd 0
r r
r 1
9 iu 158 11 1 F
N 3
q 1
rey 2
t dd e
1 ey t
3 h
3 e
rh m
9 e
555 A
iu a C
L iu a 9
r e
8 0
CCC r
t e
e q
q ee 9
ee I
A b
tt rd 3
r d r
t e
e o
L elu 3
elu g
bc 9
bc tt 0
n mt J
L i
12 C
n e
C A
H i G
ni aa C
w F F-R iwt C
wt i
o N
o C
xC B
t n t n R
s CC t
E R
s
)
s N
e S
ed N
ed ulu
(
ulu
)
u
)
)
qo S
qo S
q 1
e a
e e
9 rh rh
(
(
s
)
r s
/
)
s s
6 f
e u wn 2
le ld 0
f l
6 f
d 8
3 es 8
es
/
i eeg eeg
/
un
/
r n r wn 0
o o 2 y 2
eo r
e u
r i
2 i
1 y
ri
/5 d rti r
Wi sgp
(
it r
lt sgp t
/
r a a r ta a sni i
sni 5
la eip 2 sH i
( i inm T
eip n
n
(
b i
n 3
r r n r
Pin e
- im Pin 9 ta mm e a r
si ai r
t e is a
=
A eB lc 3
4' ia t
t t
s t
t s
e A-1 i
R t
m a
x n e x
e r
p Ae e L p Ae cL p
p i
r i
A n
A m
l c
A u
u la c
a
)
t t
la s
c U
1 v
o v
e o
v D
e v.
D e
r r
r u
D e
q 1
t 2
t e
t e
n e
n e
e I
R n
i R
n 1
1 c
c I
c
(
R R
n d
d n
d
(
f I
e n
I e
n 3
e n
ie r
r 1
r e
o e
o e
o f
c l
f c
f c
R e
e eR e
e e
e I
R S
R S
R S
J L
d a
e 1
v 3
5 e v 9
r 9
9
/
e
/
/
t e 3
t 3
4 a i 0
i 0
0 n
Dw
/
/
2 r
3 S
A a
ee aY t
m n-e e
d T
d d
s e
lt e
e ad t
t u
t t
n dn n
n a
a e o a
a t
r r
r S
G o e G
G s c ps oe rpht
- nd eg t
g h n en.
n eneiium ho t i mi i
aqa r
t it r
r u
e nr v, il x ed s v s
d u a e dt v
o oiae iz p
lt i
c e
n o.
me rt s
Pa et in iel t
n i
)
a ibv m
r ms G
xk h
ia uo t
e m
ser v
e a el it e
el t
n a od r
(
l l sc e e
sl ee en f
3 a
nA cr n ei r
o u.cl l
e bm ei v
u e
loe r
s a Pe e
is r aip ic Vanw a x p
R, V
L
)
I G
h e t
(
f r
)
r o
1 o
t 8
o p
r e
ed ic o
9a ic e r
ic e
d p
r r
r o e
e 4 n t
t r c y
e
- a t
ih m
R e a r
m l
ut Nm f
a b
qe lo I
er u
C mr m
l u
u a
eM s o u s m
o R
A ar lo f
T V
S Ce V
V u
(
p s
y R
dg m
e ra l
E oi t
n s
a a
T Cw n
m r
m it o
e g
n e n m
o a
e e
r e
B c o p
t e
m nf h
t ss r
m o
d a
is, d J
rt t
(
- i. inG c
r a
S u
T n
g S
e t
ad r
a e e c
o S) r m e
r r
eit a
y v
mfo v
mJ s
n r
P.
vm d
0 f f v
id t1 Ai cl e b e
of e
1 s1 e
wu d
F o
i 1
r F
o a gw y
os le s
l s*
l 2
t ef x
- 4. u o u
a eE n
0 h
e w
a 1
ii v
m la 1
v
- b wh f
r l
9 a
y o
e 7
r q7 lo t
f t
r e
u s
rvld g
la I
t o
3 t
1 e
n ee r
e e
la inh e
e d
n In e u r
e 1
Rt V
E t o g
v f
l o
d b
n n
n h
I s t
af e s
v St I
t n
y o
i o
s e
c
)
eh e
I e a
S
(
c y.
Tis f
e G
e r
l y
a u s
)
S 5
e(
e eq e
t e
s h
m 9
e t
Yf t
e -
f R
r r
e t
a
/
h a
rn e.
s e
u i
e 4
t n
e d
n tsle
- o. n 0
n e
h p
u e
Tle iz lc d
d l
s ei v.
m d
d dR e
i t
in z 5
i a
r la-u n
e z
e L, o
(
v s
x s
)
a ao 9
t u
n o
i C lc ot e
3 r
r mn 8
a e
r n
r
/
o 2
o 9
n R
i cs C C ee ee P
p G
2 p
t 3
r 1
r
)
st 0
o S
A.
1 o
9 e a.
3 i
S i
/
c i
c n
/
h r
(
)
n t
8 t
s 2
o e 8
e
)
/
0 n
r
(
n r
(
8 e
5 e
i o
f 0
9 d &
0 0
b 9
e F
N 3
3 ey 2
/
b 1
s 9
3 iu a B
r h
m h
8 A
a 2
s r
1 9
/
a e
C 0
q e
3 h
t I
A ee t
)
(
)
t 4
5 5
r r d e
0 7
0 m
u e
el L
t e
l n
C 2-2-
t bc 1
l 5
mt A
L i i
+
B aa C
wt 1
R RI(
R 1
o B
N C
B, I(
xC C
t t
t n E
R s
)
s
)
s N
ed S
e S
e
(
u
(
u ulu
)
)
)
1 q
4 q
S qo eh 9
e 9
e Y
/
r f
s
(
/
r r s 0
f o
)
mG 6
f 6
f 1
e
/
R n 0
ie s aS 8
es 3
le iu
/
/
R ef 2
e 2
e o le 2 y t
(
dt o 1
ri 1
i r
r y
r a s
(
i a
/
r Sa ne 4
l r
t it S R a a s
a r
r i n 2
T ril 6 ib R
(
lb lmm 9
e a i
3 t
c nmz 5 c im m
eaz 0 a n e i is a 3
is n o 1
H s
M t
t lp Ae e B a.
t 1
x n
i n
. B p A A
e L p p
m A
m A
A u
h t
u la c
la c
l s
c a
pU e
o v
o v
o v
r r
u D
re D
e D
e q
4 t
8 t
9 t
n e
n e
I e
e I
R n
d R-n d
n c
c i
1 1
1 c
R R
n d
I r
re n
e n
e n
I f
I r
le i
e o
e o
e o
e f
c f
c f
c e
e e
s e
e R
t R
S R
R S
]
d la lav e 6 v
6 r
ev 9
re
/9 e
t o
/
t 8
n t
ar 8
n Dp 2
i 2
i
/
/
p 3
6 r
r A
a a
ee eeY aY e -
t t
m n-mn e
e eT eT d
d tt t
s e
l e
ad u
t ad t
t n
dn n
d n
a a
eo a
a o t
r e c c
r S
G ee G
g e ps
- s oe Oe r
i pt vh h
t d
s eg s
eg n
h i e
nn h n n
n ;e e
oo t i t
r ge mt ru o a du r
i d
r e
ed v
o ed xp iz mp it ei a
s iz s r t n
a l
n Fa ee lit e
m l
uo xi uo eb it e
eb n
e e
it n a et c s r
a ls sl a s u
en os en nA fr e t
ei e
ei e
uc u
bm Vc bm f
c Sc s a c
s a JL a
e a x a
a x h
he h e t
f f
n 1 o 1 o i
8e c
8e e
i 9 c e
ed e
s 9o r
4 n.
d r o c
u 4 n.
e t
a r
N m
N i ihut f
o n
lb qe u~
e s r
r f
u e i a
eM S
d s
o s e l
i i
R e
a n
V a
T CH C
a ts p
y e
e e
u dg dg r
q oi oi n
n a
e Cw Cw r
r m
o o
o B
s 00 is el
,,D eR e
f 78 ABC c o clo m
nf 55 9
inf 11 1 1 is, d
't 0
222 2 o
t u
T a :s HH 5
s, d 11 1 1 e
e d SS r
t ad d l SS N
ru 5757 0G t
S e e vm 000 0 ei ei ee vm n
ld w P P.
e r
s b
1,1 1 1, e
e t)
Aim b
e g8B a
wu ABCD os wu 1 s1 ro a wn44 C
os e1 x
i00 11 11 h
- 4. u f h, b l e 222 2 e
eE yp55 e
pi
- b 1
9 o
m apSS o
vd 7575 vd 3
a 8
11 1 l
d a
q8 u
rg CC C
e lu 000 0 rl eet lo e RR i
t o 11 1 1 r
e u 1
l o Re V
f t
l I
e inh ich n
b e
t I
I s
s af h a
St St s es u
s I e Ti(
l I
e r
a r
v a u a u le e
eq s
eqe e
d Yr Yf R
e r
le nf t
r rn n e w
ei g
t le o e o
el v
ep ip R
dR le Te
~v la mn n
C Tlo o
z dR t
i n.
z n.
s r
sm P
N ot o
ot e
yo cs n
cs S C e
ee V
stee t
t st n
o R
e-eic N
h" ht i
a t
)
t
)
t t
s G
r' C
r s
(
o:
(
o o r
0
)
f f -.
0 0
)
r i
o 6
d0
- 9. 0 4
dd F
N 1
9 ey e
1 M
irh ir ;c 3 3 0
m 8
/
u a BB 2
ua 1
I B
2 e
/
q t
/
q 6
ee 0
ee
(
rd
(
rd u 3
elu 3
el 9
bc 9
bc n n
8 8
R i R i D
2 iwt 1
mt 2
iwt A
aa K
1 E
1 o
o B
xC B
A, t n t n s
s
)
ed
)
ed S
ul S
ulu u
qo qo
(
(
e l
M
)
eh 6
rh se r
s 9
s l
s 2
es
/
f ds f
t 2
les ee e h n lyt 1
i n r
as
/
e o u wv
/
eo le la d
1 y
ri t
i ri rdl
(
rt sgr
(
t t
o sa a geo it a a snt 5
it 5 l n
n eic T
edW e, A e r n 7 b R i l i l
7 imm Pia 4 E mm tne 4
ae 5 c is a I
w 5
isa t r t
ilp Ae x
e n
1 x
1 n
r in e B o B p
n A
m A
i u
t u
la c
la G
s c
e o
v o
v r
r D
e u
D e
q 0 t
1 t
e n
e n
e 2-c I
2 c
R n
d R
n I
R d
(
e n
f e
n I
r ie I
re o
e o
le f
c f
c e
e e
e R
R S
R S
,p, ta de 6
v ev 9
r A
/
e t o t
/
ar 8
Dp 2
i N
n
/
p 6
r A
a ee aY t
m n-e n
eT w
d t
s e
lad a
u t
r t
n dn d
a a
eo it h
t r
s c S
G oe W
ps oe rpht em d
le egn eca e
eb h i bnr s
cis t
l ag r
o a s du ido pe lwrop f
v r es ed r
oi ucn z
r t is sc Pa sco lt icA i n m
d a it uo aaQ r
e r
i pnr e
nn o n
t et aop a
en eiu sl nA l m ei e o r
e o
bm H nh ic Vax s a Aoi t L
e a x dw hef 1
o c e 8e f
d ic 9c iet e
ed r a 4n lee t
s o
ef a
r r
ihut mu Nm l
r u b
qe u s er eq lod s o ee a
eM n
af Sr R
T Va Ce m
r p
y dg e
a r
r n
oi g
a Cw o
r m
o P
e e n B
c o t
la m
nf s
454545WW-is, d u
e 45 o
e v
u T
r WWWW WWFFFFFF e
ad FF eit q
t rt S) e n
e e vm r
I r n 1 1223344 e
f d
t1 Ai PPPPPPPP wu ie c
m b
o a LLLLL44L os le n
1 s1 r
o 4 ef x
h r
eE SSSSSSSS e
e uo m
CCCCCCCC
- b e
S 9
l 9
a e
q9 lo e lu h
u RRRRRRRR vd S
e 3
ee r
t 1
Rt V
t o l
n e
nh i
b is af e I
t St s
eh s
e Tis I e u
r l
a u q
e(
e eq e
f e
r Yf 3, t a
R r
s f
t s
r n s
n e
n o e od ei e 2, n ile l
e tl a
mn e
Tle o
e 1
r w
dR o
)
v ep lz sp W(
ih s
t r
sm zd n.
s e
yo on ot lam t
S C ne cs o
9 ee Cc 0
e tn G
st 4
s S
eic 7
u I
1 ht o
t
)
t a
B, t
t r
G s
r s n
f
(
o o o
)
0 6
dd let 6
is f
i o
)
r loe
/
i s
9 F
N 7
9 ey s
r u 7
m 5
8 i h
/
r eq 0
m e
B 2
u a ee
/6 e
r q
I 6
ee Sr t
/
(
p
(
rd 9
3 elu 5
d f
9 bc iet 6
e t
s 5
s 8
nin lee 1
e mt F
2 iwt B,
r u u
aa 1
o xC B-A, eq q
t n s
ee
)
e E
)
ed Sr S
r
(
S ul
)
o u
qo 5
s
()
l e
f e
9 a
l 6
rh m
or
,p 5
/
a s 9
s o si 0
/
f o
sf epd d d 1
teG 2
les r
/
2 t
r n n e G.
in
- f. rn0h laa at egmS 2
1 1
e o r
n
/
a Wie0a y 5 e
uirf a
n*
ri w
1 1
ri y
pm0vi ec sn
(
it r
(
H t
t 1
i sieo ee gm1 uo w
0 i B
=
l T
et md 7 b ia a t
0 aR s 5 i lmm.r l
n no east 2 b z
i r
rAinimss eil 4 a i
r i
1 a e Pr u
p qW i, s se 5 eisa x
s a 5 e tt s
t r
t R
iw 1
x eI pt n
1 e
r i
e B p L d
ne B p Ae E
f p
p m
A m
A u
u s
c la c
l t
a e
o v
o v
r D
e r
u D
e e
q 2
t 3
t e
n e
n c
I 2-c e
2 R
n d
R n
I R
d e
n e
n I
r f
I r
ie e
o e
o le f
c f
c e
e e
e R
R S
R S
/
t de 8
e t o A
9 h
ev
/
t ar
/
7 g
Dp N
i 1
n
/
p 2
r A
u d
sn n
o s
w d
it u
a e
a t
n t
r n
t h
a i
a d
m r
a S
t G
x Wi e
fo n;
e d
s&
s c
e es o
- i. m n
s r
m,t a
uet m
o s ee, pe ud s s aepsye ro v
x oi ml t
r t Pa aw f
e r
glg iceeg e
m r
r lbia p
e c
e e oa t
vk e
sR r u sr nA pqp mse a g
e n
uesl i
e Ay lo cI o
cn w
c Qln iL o
Va no f
d c
e ed t
d i
it r
o e
m t
e riuh m
b lb qe lo t
u u
s a
eM R
e T
V b
m d
y a
lu r
rg o
a o
h r
s m
e P
t B
s m
l e
a o
v u
u T
r q
e ABCD e
ad t
)
S e e I
1 1
r n
r n 5
4444 f
5555 e
)
t Aim n
2 d
11 1 1 H
1 1 s1 r
e o a o
0 1 1 1 1 0000 R
4 ef x
c 1
eE e
1111 uo m
S l
9 q0 lo h
e 1
a 0
u e
v ee1 r
4 Rt V
t t
l n
e n
I baf e i
I ts S
eh Tis e
I u
r l (
a q
s e
e e
l d
r a
l f
di do Y-3, a. -
R t
t r n o e ie an a
n ees eW a
mn 2, -e.
le Held Hl Te l
r o
1 r
a
- s..
W) is v
ep rf o r n d
emW e o n
t s
r sm s
(
h wu wi o
e y
c d
a t
o lCw, 9
- o. r oi c
t S C 0
e ti Lr e
e s
n 4
s C
i 7
u M
e 1
t o
)
h s
B, G
t t
r n
(
r
)
o i
o 6
o
)
f 1
2 8
F N
9 is
/
s 2
2 9
d
/
e 7
7 r
m 0
im iu 1
1 e
/
r B
B 1
/
it 6
e 2
q
(
(
e p
r 9
0 5
d 7
e 6
e t
6 b-5 s
3 nl mt 1
e A-1 i
u wa B,
aa q
B A,
v xC t rse E
)
e
)
S S
et r
n
)
o
(
ui
(
6 s
)
qr
[
f 9
la l
7 ea m
odr e
r 9
e
/
sd 5
0 s
1 f
/
e Y-o no s 1
s af 2
re a r
R f
t d
/
3 l
n 0l 2
1 s
/
e n oVe r
ni e0 0e 1
y 5 Hd 7 y r e de io oa 0
(
i rT R
p m0 0w ar r le l
l d
(
t 1
t T
it a
H B pe e4 7l 0 lb eu e 7 ib imo RswW a
2 r
4 n
mR riuA Ae t
so 6 a PL e
1 qWIWs 5
P e B lc isc e
6 i e
t eL t
x t
1 1
e r
eI n
n p As E
e B r
p m
A m
A u
u s
c la c
la t
(C) v e
o v
o re u
D e
D r
e 2
a In 2
a i
q 4
t 6
t n
R R
n d
R n
d e
n e
n I
r f
I r
le i
e o
e o
e f
c f
c e
e e
e R
R S
R S
's 4
+
_ J s
d e
ev A
t o ar
/
Dp N
p A
d, e
t g
n s
n Je a
u t
r a
t G
S e
F
=
)G d
s e e
n
(
og 5
nia
+t o
otrk n
w oa mpe.
w rt Pe a
l t l
s m
xe e e a
e e ebict r
et sl l sv d
nA os r
e Ve h
e c
c s iW t
n cI U
a
=
c i
)
ded r
W e
t r o e
iuht m
(
lb qe lo d,
u a
eM R
T V
e t
y t
i ra m
b m
e B
u m
o S
u T
=
ad 1
S e e 2
V4
')
r n 1
)
t Aim S
1 s1 r
1 o a 1
(
ef x
0 uo eE 1
m d
1 9 q1 lo lp u
e 4
ee1 i
1 Rt V
l e
baf e p
eh a
Tis e
l (e r
e t
g a
R r n n
o e l d a
g la mn Fl n
o o
i v
ep o
r sm tW w
t e
yo H
o e
l S C h
l tn S'
o I
f t
e s
r h
i o
t 0
F N
3
,s m
1 t
e B
n t
I e
m u
mt A
c aa xC B
o E
)
d S
e
(
)
8 c
lee 9
n sg
/
s n 3
e re a 2-r oVl d Ti d
Fi 9 y e
e e
e
(
lt f
er o M
eut w 8
e l
6 h r
Rsl 4 W se 7
e eh t
1 prs n
h e B t d m
A r e t
u la oi s
c e
o v
Fn
. C u
D er e
q 7
t e
n
- D e
2 c
I E=
R
-R n
d f
I e
n T
e r
i e
o O) le f
c e
e D
R R
S N(
d e
ev t o ar Dp p
A g
s n
u t
id a
n tS e
P d
d te e
d o
ise s
c s pe lsne v
oi aes r t r a Pa seC m
efe e e
v e
el i r d
sl tae o nA mh C t
e Aten c
i L
l i e
in ere e ler h iud d
h9t ed r 8f os o l
t b
w o o9oBsC a
uh f
el 1
nEr e t
qe teeiM Ps o
T eM sht ds R
i y
s tdSn e r
A EAaV a
m m
e B
u o
S Tad t
e e s
r n u
s o
Ai i
2 e) m r
- 4. u 4 r a a
o f
x V
qo eE 9 e1 m
2 u
eRt lo 4
e V
1 l
f e b eh aiS 7
g Tle(
R l
t rn a
o e s
v mn iou o
r tep e
r z.
t sm a
yo V
n S
C I
d n
o s
c o
u e
N io S
m ra e
I V
t FP 8A 1 2
- F-mt B. B. F F H D,C, aa xC DJ CA-
- - CC E
BB DD a
f s o e 4
ns1 I'
2 e
oa6 I'
25 2 -
iC1 lt s
9 55N t
iT z e4 s
dt dN M
-Nd n
t o a
UC tne m
t u
s c
/
e o
u D
1 q
0 e
e
(
R 2
c n
R e
fe I
r ile fe R
eR
)/..
e
~
de ev t o ar Dp p
A g
g g
s n
i i
n n
u t
i d
d d
a n
n n
tS e
e e
P P
P 9
me me d
0 ac ac en e
elanh t
s hcit 0 xa xa mi t i iw9 ef e, f ae 0
hcWaL r
r r
i, e nn r
i u u
v i h e e s
is s v ei r t n o.
ct L
L Fa t e nt D
.D i
oT e
r n
TI I
ms er v
f t d
e e
ee r
t n r c kh hh sR o4 ee oi ot ot nA f
r sr ce vm vm e /.
r e
r su c n c
u o R o P
g-a e ur ur Ac U
G F
Ff f
r 0n I
)
d.
d o
oS 78 n L nic e
0 i d
3 ht t
c san 88 4 a L at i
r r e ed l
r t
r o 5r b
c oidA99 e -
e e te a iuh Fff n/
1 1 ta c T-cm a
r f
eeE t
a au mr qe Wt ehdMMa T
eM I
u R
st dSO M P f k fl u s r
r r
u u o lo o
y es aA O S
S V
v v
r Pa
(
a s
s m
le e
t d
n s
m e
B ld w
m e
t h
u o
w u
c t
S T
b t
a e
ad p
t
/
t e e i'
d a
r n p
n
. Rv s
e d
Aim e
2 e )4 o
e d
r o a t
f le
- 4. u f x
d a
qo eE n
e w
m e
o y
3 9 e2 u
e R
t e
a 4
eRt lo f
lz g
a r
1 e
V l
f e S
z e
b eh o
tn aiS N
I Tle(
R la '4 le e n ui) s r
r l
t r n s
smS s
e a
o e r
soPre e
z v
mm be enNg V
ir r
r u
r p y(e l tep b
a r
e e
r o
s t
sm u
gaz r i
t y
n c
o ndso o
S n
S in a
r I
ip ue e
P C
Pop R
d h ip n
o c
o 1
0 0
e N
1 1
2 S
m 9
5 8
e B
B 8
t I
.mt J
F H
aa xC B
B B
E a
o o
t t
ng e n e
de n e ron 4
t oer et oer i
=-
et it saicu l
bas aicu t
e t
i bne
+ maus omaue ndo nd e t
i eiep peie v
T umT n
. l mRx oRmR t
Sad PAa E
PAa E
r e
xn Ea x
x t
t t
n E
n E
n e
e e
m m
m u
u u
ts c
c c
I e
o o
o u
D 3
D 4
D fU 2
qe 0
e 0
e 0
e R
2 c
2 c
2 c
n n
n R
e R
e R
e fie I
e I
e I
e r
r r
le f
f f
e e
e R
R R
R
)
de ev t o ar Dp p A
de t
g g
g n
s i
n n
n u
a t
d id id r
a n
n n
G S
e e
e t
P P
P
=
)
g d
d G
M.i n
ed ed
(
t i
t r
is e is ec e e
u l ce l
n s n,
n s v
dt s ea sea t
s arc w
arc Fa mte e
e a
ef ef a
m xk it rd it rd r
vee vee e o e a es n e
a eo aeo d
nA la mhC mthC h
l e
u e
e t
t i
i lt n t
n c
s L
V A i lAi Wr n
=
e d
ic i
)
o-(
W) h 2
ed r
t l
t rf A )(a b
r o e
ih m
tW0
(
ut a
qe u
eI 5 T
eM lo s
2 d,
R y
V s
5 A
e t
r t
a im m
m b
e a
s m
B e
n u
do t
nG iei S
s s u
o t
f c S
T iS i e
=
t a d a
nn e
mfo en t
e G
)
s in do r
S f f i
2 e )4 Am of C
o e
(
r a s
gd uf o
e x
ul ae
(
- 4. q o ru r
eE iz kl t n
d d
4 z
ao 9 e3 l
ra o eB e
4 n
L i
1 eRt o
e a
t l
e V
n p
l f e n
p beh i
aiS a
Tle(
e R
r m
a l
t a
a rn e
g o e t e v
mn n
sl r
o z
5 e
sm in a
i ep z
ao w
t yo mn o
tn S C G
l l
i S
o d
f n
e o
h c
o t
e N
t S
m a
s t
e n
t e
I m
u mt B
n s
C aa a
a o
xC C
E d
ec slse t a s n
f f
ol n oe oen v a e
dt ao s
niverC ot e
5 r
ct n a6 i
eeia iamt e3 e
o st t oecn iC6 e
end5 f
t tae-ami lt 5
i pmaim ri izeuI oN e
T o epa r
izdN n2qSC r
r io lt t
Pnmx Ae I r UC U
e AI E t
r e t
n n
Rop n
t e
e e
h f
t m
m m
d t
u u
u r e s
c c
c oi h]
e o
o o
Fn 5
D 6
D 7
D e
uq 0 0
e 0
e D
a r
R 2-n n
n e
2 c
2 c
E=
le I
e I
e RI e
i R
e R
e T
f r
r r
e O )D e
f f
f R
e e
e R
R R
N(
de ev t o ar Dp p A
de t
g g
n s
i d
n n
t d
i a
u r
a n
n G
tS e
e P
P
=
)
1 d
d G
w ed ed
(
t ic e is e ts e c e e
n s l n s n,
l gi s ea v
sea eC eC w
ar i t ar Pa ef ef a
m vee it rd r
vee eete ird t
sl aeo aeo d
nA mhC mhC h
t t
e e
e t
ic lt n lt n L
A i A i iW
=
e d
)
W(
e o l
r o 2
2 b
iuth T-T-
a qe V
V T
eM d
R y
e r
t t
a im m
i l
b g
n e
n e
m B
ias 2n u
t n T-n S
u o
e o S
T Ri Vo s
t
=
c f r ad e e oe t
e en un nP
)
r s
r sn on S
Aim so it o
(
2 e )4 r
o a eC ai
- 4. u f t
x r
ca qo eE Pd iin f
e i
m dt lam d
5 9 e4 lo lu E
p e
4 eRt telo u a u
aB Qx i
1 l
e V
l f e s
b eh l
p o
aiS a
Tle(
e R
s r
m 3
a l
t rn e
&s g
a o e ts 2, m n
v mn y
9 e
r o
S i
ep 1 t w
e s
t 1
sm sy t
l C
lo yo s
sS n
S C s
l l
a a
i o
d C
f n
e o
h c
o s
s t
e N
u u
S m
i io o
s r
r a
a t
I V
V n
e t
e m
s s
u mt u
u o
C xC io i
o aa r
r a
a E
V V
d e
c n
f fN oe e
o s
n e n a6 r
e o s o
l ia3 iC4 e
t 5
f taC3 ae-e t
i 5
T i e lzdN z
r ii o lid t
t Uo U C e
C d
tn h
i.
e t
m d
r e u
u s
c c
oi t
e o
o Fn u
8 D
9 D
e q
0 e
0 e
D e
c 2
c E=
R 2-n n
R e
R e
T f
le I
r I
r i
e e
O )D e
f f
e e
R R
R N(
E r
(
)
ReliefReauest:
1R-2-01 Utilization of Code Cases N-416-1, N-491-1, N-498-1, N-521, N-522, and N-524.
Comoonent Identification Code Classes:
1,2,3 Examination Categories:
Various Code Reauirements j
Pursuant to 10CFR50.55a(b)(2), components (including supports) which are classified as ASME Code Class 1, Class 2, and Class 3 must meet the requirements set forth in the 1989 Edition of the ASME Boiler and Pressure Vessel Code.
Code Relief Reauest Pursuant to 10CFR50.55a(a)(3)(i), authorization is sought to utilize Code Cases N-389-1, N-416-1, N-491-1, N-521, N-522, and N-524 as attematives to the requirements of the ASME Boiler and Pressure Vessel Code specified in 10CFR50.55a(g)(4).
Bases for Relief While the referenced Code Cases are not endorsed in the current Regulatory Guide 1.147, they are included in Draft Regulatory Guide DG-1050, Revision 12 to Regulatory Guide 7
1.147 issued February 1997.
.e Code Case N-389 was endorsed in revision 11 of Regulatory Guideline 1.147. Codegg.j v, e.
i Case N-389 1 clarifies that specific provisions within an edition or addenda may be.ujede -
. provided all related requirements are met. NRC letter A13884 authorized use of thisitg,
Code Case in the First Ten Year Interval.
Code Case N-416 was endorsed in revision 11 of Regulatory Guideline 1.147. Code Case N-416-1 expands the applicability from Class 2 to Classes 1,2, and 3. NRC letter A12085 (1/18/95) authorized use of this Code Case in the First Ten Year Interval Code Case N-491 was endorsed in revision 11 of Regulatory Guidel'me 1.147. Code Case N-491 I makes no changes to the examination requirements.
' Code Case N-498 was endorsed in revision 11 of Regulatory Guideline 1.147. Code
' Case N-498-1 expands coverage to Class 3 components. NRC letter A12085 (1/18/95) j] '
authorized use of this Code Case in the First Ten Year Interval.
V 146
Q Code Case N-521 allows deferral to the end of an interval of nozzle inspections of a Pressurized Water Reactor (PWR) Vessel. With the impact on schedules, resources, and ALARA from these examinations, it is reasonable to defer the examinations until the end
- of the interval, when all the nozzles can be examined in one inspection.
Code Case N-522 allows the use of 10CFR50, Appendix J as an alternative to the mies in Table IWC-2500-1, Category C-H, for pressure testing piping that penetrates a containment vessel, when the piping and isolation valves that are part of the containment system are Class 2 but the balance of the piping system is outside the scope of Section XI. The Appendix J pressure testing provides periodic verification 'of the leak-tight integrity of the systems and components that penetrate the primary reactor containment.
The containment penetration piping is classified as Class 2 because ofits function as part of the containment pressure boundary, and because containment integrity is the only safety-related function performed by this piping. Therefore, it is logical to test the containment penetration portion of the associated system to the Appendix J criteria, if conducted at the peak calculated containment pressure.
Code Case N-524 allows limiting the examination oflongitudinal piping welds to the portion of the weld within the examination boundaries ofintersecting circumferential e
welds. Results of previous weld inspections throughout the industry indicate that I
longitudinal welds have not been a safety concern, and there has been no evidence of longitudinal weld ' defects compromising safety at nuclear power plants. Contributory to these results is the fact that longitudinal piping welds are fabricated during the manufacturing process under controlled shop conditions which produce higher quality welds and more uniform residual stress patterns, and undergo heat treatment during the e.,
%.. w. 4 6
manufacturing process which enhances the material properties of the weld and reduces g e v i
the residual stress created by welding. The areas of a longitudinal weld that wouldixithepyg most susceptible to a potential failure mechanism would be at the intersection of a fi IdpipJSp.t fabricated circumferential weld. Additionally, locating longihviinal pip *mg welds canp&cp require acid etching, eddy current examination, or a combination of methods. This.aw increases radiological exposure, radwaste generation, and overall cost for performance of ASME Section XI examinations. The altemate examinations specified in the code case maintain an acceptable level of safety and are sufficient to verify the continued structural integrity oflongitudinal piping welds. NRC Letter A12433 (8/4/95) authorized use of this code case in the First Ten Year Interval, s
1 OO 147 i
Proposed Altematives The alternative rules set forth in Code Cases N-389-1, N-416-1, N-491-1, N-498-1, N-521, N-522, and N-524 will be used, with the following additional conditions:
Code Case N-416-1: Additional surface examinations shall be performed on the root (pass) layer of butt and socket welds of the pressure retaining boundary of Class 3 components when the surface examination method is used in accordance with Section III.
Code Case N-521:
When deferring nozzle inspections to the end of the interval, there shall be no more than ten years between inWons, except where the length of the interval is adjusted in accordance with IWA-2430.
Code Case N-522:
The test shall be conducted at the peak calculated containment pressure and the test procedure shall pennit the detection and location of through-wall leakage in containment isolation valves (CIVs) and pipe segments between the CIVs.
i A
9 1
s 148
4 t
ReliefReauest:
IR-2-02
. Snubber Examination and Testing Comoonent Identification Code Classes: 1,2,3, MC Examination Categories:
Snubbers Code Recuirements Pursuar: 6 ' 0CFR50.55a(bX2), components (incluf ag supports) which are classified as ASME. u Class 1, Class 2, and Class 3 must meet the requirements set forth in the 1989 Eldon of the ASME Boiler and Pressure Vessel Code. IWF-5300 calls for inservice examinations for snubbers to be performed in accordance with the f'ust Addenda to ASMFJANSI OM-1987, Part 4, published in 1988 (OMa-1988), using the VT-3 examination method described in IWA-2213.
Code Relief Reauest
/3 Pursuant to 10CFR50.55a(aX3Xi), authorization is sought to utilize the requirements as Q
set forth in the Technical Specification 4.7.10 as alternatives to the requirements of the ASME Boiler and Pressure Vessel Code specified in 10CFR50.55a(gX4).
Basis for Relief OMa-1988 imposes surveillance requirements for visual inspection and functional testingen of snubbers. A visual inspection is the observation of the condition of the installedW@My;W..
snubbers to identify those that are damaged, degraded, or inoperable as caused by nyggsz w.,
e physical means, leakage, corrosion, or environmental exposure. To verify that a snubber.4id can operate within specific performance limits, functional testing is required that typicallyem involves removing the snubber and testing it on a specially designed test stand.
v Functional testing provides a 95% confidence that 90-100% of the snubbers operate within the specified acceptance limits. The performance of visual inspections is a separate process that complements the functional testing program and provides additional confidence in snubber operability. The Code specifies a schedule for snubber visual inspections that is based on the number ofinoperable snubbers found during the previoug visual inspection. Because the current schedule for snubber visual inspections is based only on the number ofinoperable snubbers found during the previous inspection, irrespective of the size of the snubber population, the visual inspection schedule is excessively restrictive. A significant amount of resources must be spent, and plant personnel subjected to unnecessary radiological exposure to comply with the visual examination requirements.
I 149 I
i e
a Prooosed Alternatives To alleviate this situation, an alternate schedule for visual inspections has been developed that maintains the same confidence level as the existing schedule and generally will allow performance ofinspections and corrective actions during plant outages. This schedule is given in Table 4.7-2, invoked from Technical Specification 4.7.10.b. Because it will reduce future occupational radiation exposure and is highly cost effective, this is consistent with NRC policy. The alternative inspection schedule is based on the number of unacceptable snubbers found during the previous inspection in proportion to the sizes of the various snubber populations or categories.
While the schedule of examinations is to be determined from Technical Specification 4.7.10, the examinations are still to be performed using VT-3 visual examination certified personnel.
O g
150
r ".
i f~'
(
ReliefReauest:
IR-2-03 Proposed Alternate Examination of Reactor Vessel Nozzle-to-Safe-End and Safe-End-to-Pipe-Butt Welds to Reduce Exposure Component Identification Code Class:
1 i
Examination Categories:
B-F Ps-Retaming Dissimilar Metal Welds -
B-J Pressure Retaining Welds in Piping Item Nos:
B5.10 NPS 4 or Larger Nozzle-to-Safe End Butt Welds B9.11 NPS 4 or Larger Circumferential Welds Code Reauirements Pursuant to 100FR50.55a(b)(2), components (including supports) which are classified as ASME Code Class 1, Class 2, and Class 3 must meet the requirements set forth in the 1989 Edition of the ASME Boiler and Pressure Vessel Code. Table IWB-2500-1 requires that a volumetric and surface examination be performed on all nozzle to safe-end and
(
safe-end to pipe butt welds greater than 4-inch NPS.
Code ReliefReauest B
Pursuant to 10CFR50.55a(g)(5)(iii), reliefis requested from performing the in-service N m.s surface examination of the nozzle to safe-end and safe-end to pipe butt welds greater than s g@
4-inch NPS on the Reactor Vessel listed in Table 1.
w., w 3
il Basis for Relief ~
s The Millstone Unit 3 reactor vessel is a four-loop PWR. There are eight nozzle to safe-ends and eight safe-end to pipe butt welds for items B5.10 and B9.11, in the in-service inspection program. The purpose of this reliefis to perform a full volumetric ultrasonic examination in lieu of a surface examination in order to reduce exposure. The reactor vessel nozzles have a permanent mirror type insulation installed which covers the OD,
surface of these welds. The exposure received from the removal and reinstallation of this insulation and performing the surface examination is estimated to be 2.5 man-rem per.
weld.
The ultrasonic examination of these welds will be performed during the third inspection period from the ID surface using the remote immersion method. NNECO believes that g
any failure of the weld will be induced from the ID surface and that the ultrasonic.
examination from this surface shall be sufficient to detect any indications.
.s.
151
1 CJ NNECO believes that the proposed ultrasonic examination will prove to be adequate to detect flaws in the listed items. NNECO believes that the ultrasonic exam will assist in reducing the exposure rates, without losing the ability to detect flaws in the reactor vessel nozzle to safe-end and safe-end to Pipe welds.
1 A similar relief request (IR-9) was approved for the First Interval in NRC Letter A10880 dated March 3,1993, contingent upon demonstration of the adequacy of the alternative.
This demonstration was performed with the NRC in attendance in March 1995.
IR-9 has been revised to reflect the actual start of the art technique used and was resubmitted for the First Interval in NNECO Letter B10880, dated December 21,1998.
f Proposed Alternatives A. The welds listed in Table 1 received a full volume volumetric examination from the ID surface as shown in the Table 1. This included 40' refracted longitudinal wave exam search units manipulated and scanned in four directions to obtain full volumetric coverage. This alternative volumetric examination was demonstrated with the NRC in attendance during the first interval.
B. NNECO will perform visual examination during system leakage tests as required by Section XI and Code Case N-498-1.
g k
N 152
V TABLEI Subiect Welds Zone Weld Code
. Number Identification Catenory Material Tvoe Techniaue 12 302-121-C B-F 29" SA508/CL2 -
40 Refracted SA182/F316 Longitudinal Wave 12' 301-121-C B-F 27%" SA182/F316 40 Refracted SA508/CL2 Longitudinal Wave
, 13 302-121-D B-F 29" SA508/CL2 40* Refracted SA182/F316 Longitudinal Wave 13 301-121-D B-F 27%" sal 82/F316 40* Refracted SA508/CL2 Longitudinal Wave 14 302-121-A B-F 29" SA508/CL2 40* Refracted SA182/F316 Longitudinal Wave
-14 301-121-A B-F 27%" SA182/F316 40 Refracted SA508/CL2 Longitudinal Wa've'
'W e
15 302-121-B B-F 29" SA508/CL2 40* Refracteduk n m
..I.
LongitudinalWAve+c y SA182/F316 15 301-121-B
.B-F 27%" sal 82/F316 40* Refracted SA508/CL2 Longitudinal Wave r
4 0
153
E E
\\
ReliefReauest:
IR-2-04 Proposed Alternate to Impractical Examination Requirements of Pressurizer Integrally Welded Attachments to Reduce Exposure Component Identification Code Class:
1 Examination Category:
B-H Integral Attachments for Vessels Item No:
B8.20 Pressurizer Integrally Welded Attachments Code Reauimments Pursuant to 10CFR50.55a(b)(2), components (including supports) which are classified as ASME Code Class 1, Class 2, and Class 3 must meet the requirements set forth in the 1989 Edition of the ASME Boiler and Pressure Vessel Code. Table IWB-2500-1 requires that the extent examinations ofintegral attachments be performed on essentially 100 percent of the weld length in accordance with Table IWB-2412-1 for the scheduling of g
examinations.
Code ReliefReauest Pursuant to 10CFR50.55a(g)(5)(iii), reliefis requested from a h~inling the in-service examinations of category B-H in accordance with Table IWB-2412-1.
Basis for Relief :
Millstone Unit 3 has nine integrally welded attachments for ernmination category B-H.
Eight of these welded
=hents provide component support for the pmssurizer and are located near the top head. In order to meet the scheduling requirement of Table IWB-2412-1 for B-H category, the pressurizer would have to have it's insulation removed three times in the ten-year interval, msulting in unnecessary personnel exposure.
Millstone Unit 3 ISI program currently schedules most of the pressurizer volumetric surface and visual examinations during one refueling outage, in order to remove this insulation once. The high exposure levels in the pressurirzr cubicle makes it prudent froin an ALARA stand point to do this.
A similar relief request (IR-18) was approved for the First Interval in NRC Letter A10880.
O dated March 3,1993.
154
~-
I
,m
(
\\
Prooosed Alternative Examinations of the eight integral attachments for the pressurizer support brackets were I
performed in accordance with Figure IWB-2500-15 during the second inspection period of the first interval. No indications were found at the time of the examinations.
Examinations of the eight integral attachments will be performed during the second period of the second interval 1
i I
j
~
\\
j l
155
)
i I
ReliefReauest:
IR-2-05 Proposed. Alternate to Impractical Examination of SG Main Steam Nozzles Comoonent Identification Code Class: 2 Examination Category: C-B Item No: C2.22 Code Reauirement ASME Section XI 1989 Edition Table IWC-2500-1, Item C2.22 requires a volumetric examination of the nozzle inside radius of nozzles without reinforcing plate in vessels greater than % inch nominal thickness, as dermed by Figure IWC-2500-4 (a) or (b). In the case of multiple vessels of similar design, size, and service the required examinations may be limited to one vessel or distributed among the vessels.
Code Relief Reauest Pursuant to 10CFR50.55a(g)(5)(iii), reliefis requested from performing the inservice volumetric examination of the inner radius of the Main Steam Nozzles.
C Basis for Relief NNECo believes that, in evaluating the referenced ASME Code, the concem is that the inside radius of the Main Steam Nozzle is considered susceptible to flaw initiation and.
.m growth due to high thermal and mechanical stresses associated with the vessel and connected piping systems. In the case of the Millstone Unit 3 steam generator nozzles,u..
the nozzle is a one-piece forging containing a set of seven holes bored parallel to the w.C.
nozzle centerline. NNECo believes that this nozzle design does not fall under the criteriaer of a "radiused nozzle" as defined in Figure IWC-2500-4. Since.the ligaments betweenye :
the holes distribute the loads throughout the nozzle forg' g, the primary stress resulting -
m from the pressure is significantly lower than those for a typical nozzle s' ee the plate m
ligaments provide both reinforcement and additional insulation by directing the flow away from the nozzle inner radius. Furthermore, the local stresses resulting from the
' thermal gradients in the inner radius are expected to be low, since the nozzle is only exposed to saturated steam resulting in a low transfer between the nozzle and the coolant; The design of the nozzle precludes visual examination of the nozzle inside radius even if access to this area were possible. Access to the steam generator main steam nozzle from
~ inside the steam generator is restricted by the upper deck plate and moisture separators;-
therefore, visual examinations from inside the steam generator are impractical.
V 1
156 1
im I (J
The unique design of the steam generator main steam outlet nozzle results in low stresses when compared to nozzles with typical inner radius configurations. Stresses in the nozzle inner radius region are less than 68 percent of the ASME Code allowable for each design condition. This was determined by a review of a proprietary Westinghouse Steam Generator Stress Report. In addition, the stresses are considerably lower than those of other nozzles, such as the steam generator feedwater nozzle.
A similar relief request (IR-19) was approved for the First Interval in NRC letter A12289, i
dated May 4,1995.
Proposed Alternative NNECo will perform visual examination during the system leakage tests as required by Section XI and Code Case N-498-1.
\\
O 157-
\\
ReliefReauest:
IR-2-06 '
Utilization of Code Case N-566 Comoonent Identification Bolted connections Code Reauirements Pursuant to 10CFR50.55a(b)(2), components (including supports) which are classified as ASME Code Class 1, Class 2, and Class 3 must meet the requirements set forth in the 1989 Edition of the ASME Boiler and Pressure Vessel Code. IWA-5250(a)(2) requires all bolting to be removed for examination and evaluation when leakage occurs at a bolted connection.
Code Relief Reauest Authorization is sought to utilize Code Case N-566 as an attemative to the requirements of the ASME Boiler and Pressure Vessel Code specified in 10CFR50.55a(g)(4).
Basis for Relief i
A number of problems have been identified with this Code requirement:
. IWA-5250(a) directs that a VT-3 be performed of the removed bolt in accordance m ;
e p
with IWA-3100. IWA-3100 does not contain acwy6uce criteria for VT-3 of bolting.
The Code does not require that the leakage be stopped; therefore, after pulling ands examining the bolt, the leakage may continue.
Removing one bolt at a time, the leakage may become even worse than originally found.
The Code does not address integrity of the joint.
Bolts can be damaged when being removed.
The Code requires removing the bolting even if the leakage is minor, can be e
monitored, or if there is no corrosion concem. This can impact startup, cause hardship, and increase exposure without a commensurate increase in safety.
A Special Task Group within the ASME BPVC Section XI Subcommittee has addressed through-wall and mechanical joint leakage. They have concluded that structural integrity does not imply leak tightness. IWB-3142.4 allows acceptance of relevant conditions by analytical evaluation. It is felt that this can be applied to leakage from =chnical
.,b}
connections.-
k./
158
7;;;.
Since compliance with the existing Code requirement results in hardship or unusual difficulty without a compensating increase in the level of quality and safety, and the l
alternative in the Code Case provides a level of quality and safety equivalent to other components evaluated under IWB-3142.4, authorization to utilize Code Case N-566 is requested pursuant to 10CFR50.55a(aX3Xiii).
Prooosed Alternatives i
The alternati ve rules set forth in Code Case N-566 will be used.
b k
O 159
II l
ReliefReauesti IR-2-07 Utilization of Altemative Requirements for ISI Intervals per Code Case N-535 Component Identification All Code Reauirements Pursuant to 10CFR50.55a(b)(2), components (including supports) which are classified as ASME Code Class 1, Class 2, and Class 3 must meet the requirements set forth in the i
1989 Edition of the ASME Boiler and Pressure Vessel Code. IWA-2430 defines Inspection Intervals.
Code Relief Reauest 4
Pursuant to 10CFR50.55a(a)(3)(i) authorization is sought to utilize Code Case N-535 as an alternative to the requirements of the ASME Boiler and Pre::sure Vessel Code specided in 10CFR50.55a(g)(4).
/
Basis for Relief While IWA-2430(d) allows extension of an interval, such an extension may ordy be needed for certain components. Other components scheduled for the first period of the
(
successive interval may need to be inWM during the same outage.- This Code Case
' allows the' extension of an interval withbut ch==ing the start or end dates of the successive interval. Whileit is allowed to have two intervals open concunently, examinations performed as part of the extended interval are prohibited from being -
'l i
credited in the successive interval.
Authorization to use this Code Case for the First Ten-Year interval was granted in NRC
' letter A12790 dated April 5,1996. Similar authorization is sought for the Second Ten-
' Year interval.
Proposed Alternatives The alternative rules set forth in Code Case N-535 will be used. In accordance with (b) of that Code Case, an examination shall not be credited to both intervals. When the Code L
Case is published in a future revision of Regulatory Guide 1.147, all provisions consistent with any limitations will be followed.
O i
160
O I
ReliefReauest:
IR-2-08 Utilization of Code Case N-533 Component Identification Code Class 1 VT-2 examination of bolted connections Code Reuuireraents Pursuant to 10CFR50.55a(b)(2), components (including supports) which are classified as ASME Code Class 1, Class 2, and Class 3 must meet the requirements set forth in the I
1989 Edition of the ASME Boiler and Pressure Vessel Code. IWA-5242(a) requires removal ofinsulation from bolted connections for visual examination, VT-2, when the systems are borated for the purpose of controlling reactivity.
Code Relief Reauest
- Pursuant to 10CFR50.55a(3)(ii) authorization is sought to utilize Code Case N-533 as an alternative to the requirements of the ASME Boiler and Pmssure Vessel Code specified in 10CFR50.55a(g)(4).
Basis for Relief Code Case N-533 provides an equivalent attemative to the requirements ofIWA-5242(a).
The purpose ofIWA-5242(a)is to facilitate the VT-2 namination for borated water
- leakage that could result in corrosion of bolting materials. Code Case N-533 permits the.
removal bfinsulation from the subject bolted connections during the outage without e.c pressurization of the bolted connection. Borated water leakage, either current or previous, i
to the examination, would be evident by the accumulation of boron crystals, which are,
required to be evaluated in accordance with IWA-5250. The Class 1 system pressure test, and VT-2 examination are then performed near the end of the refueling outage without the removal ofinsulation.-
The requirement of IWA-5242(a) places an undue burden and har iship on the facility during the performance of Class I system leakage tests. The Class I system leakage test is typically performed at the completion of each refueling outage with the unit in hot standby and the reactor coolant system at normal operating temperature and pressure.
. The Class I system leakage test is one of the last activities performed as a prerequisite to restart of the unit.- The requirement ofIWA-5242(a) to perform VT-2 examination of systems borated for the purpose of controlling reactivity with the insulation removed.
O from bolted connections involves personnel access to the unit in the hot standby mode for Q
the purpose of reinstallation of thermal insulation and removal of scaffolding. These.. t activities jeopardize the cafety of personnel during the performance of the VT-2 e
examination, reinstallation of the insulation, and removal of scaffolding due to heat stress 161
\\
and the potential for burns resulting from contact with the un-insulated hot components.
Insulation replacement activities also delay unit startup and require the unit to be in hot standby for an extended duration.
I Since compliance with the existing Code requirement results in hardship or unusual difficulty without a compensating increase in the level of quality and safety, and the alternative in the Code Case provides an equivalent level of quality and safety.
. Proposed Alternatives The alternative rules set forth in Code Case N-533 will be used.
4 O
i k
O 162
b.'
1 V
ReliefReauest:
IR-2-09 Utilization of Code Case N-546 Comoonent Identification VT-2 examination personnel qualification requirements Code Reauiremenig Pursuant to 10CFR50.55a(bX2), components (including supports) which are classified as ASME Code Class 1, Class 2, and Class 3 must meet the requirements set forth in the 1989 Edition of the ASME Boiler and Pressure Vessel Ccde. IWA-2300 requires the qualification and ceitification of nondestructive examination personnel in accordance with SNT-TC-1 A and the additional requirements of this Division (1989 ASME Section XI-Division 1).
Code Relief Reauest Pursuant to 10CFR50.55a(aX3Xi) authorization is sought to utilize Code Case N-546 as an alternative to the requirements of the ASME Boiler and Pressure Vessel Code
\\
specified in 10CFR50.55a(gX4).
Basis for Relief -
Code Case N-546 provides an altemative to the requirements ofIWA-2300 for the qualification of VT-2 visual examination personnel, which maintains an equivalent level of quality and safety. The purpose ofIWA-2300 is to pmvide requirements to ensure personnel performing NDE activities are appropriately qualified and certified. The following pos=s are typically utilized for personnel qualification and certification:
Demonstrated experience and knowledge and understanding of the method of
- examination, VT-2 in this case Visual acuity Code case N-546 addresses these parameters:
. (a) At least 40 hours4.62963e-4 days <br />0.0111 hours <br />6.613757e-5 weeks <br />1.522e-5 months <br /> plant walkdown experience, such as that gained by licensed and nonlicensed operators, local leak rate personnel, system engineers, and inspection and nondestructive examination personnel (b) At least 4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> of training on Section XI requirements and plant specific procedures for VT-2 visual examination 163
j.
(c) Vision test requirements ofIWA-2321,1995 Edition.
The alternative in the Code Case N-546 provides an equivalent level of quality and safety to the Code requirements ofIWA-2300.
Prooosed Alternatives The alternative rules set forth in Code Case N-546 will be used.
O l
I l
l 164
I' 10.
PROGRAM INSTRUCTIONS 1)
PI-6, Engineering Program Technical Review of DCR/MMOD/FM(s)
{
\\
165
]
4'%
MILLSTONE NUCLEAR POWER STATION INSERVICE INSPECTION PROGRAM INSTRUCTIONS Engineering Programs Group Technical Reviews of DCR/MMOD/TM(s)
PI-6 Rev.O TO This instruction provides guidance in identifying the ISI and IST Programs r
that may be affected by MP3 Design Changes and Temporary kl Modifications (TMs).
Effective Date:
// ;2.3 98
~/
/
- D Level of Use Subject Matter Expert:
l Information
p W
-. Millstone Unit 3
)
.J ISI Program l
Engineering Programs Group Technical Reviews of DCR/MMOD/TM(s)
TABIR OF CONTENTS 1.
INTRO D U CTI O N.............................................
3 1.1 P u rpo se.................................................
3 1.2 Scope...................................................
3 1.3 D e fini tio ns..............................................
3 2.
DCR/MMOD Program Impact Screening...........................
5 2.1 DCR/MMOD/FM Initial Review............................
5 3.
ISI/IST Program Element Technical Review.........................
6 3.1 ISI/IST Program Manual Impacts...........................
6 3.2 ISI Program Technical Review..............................
6 3.3 IST Program Technical Review..............................
6 3.4 E/C Program Technical Review.............................
7
.a) 3.5 Check Valve Program Tbchnical Review......................
7 v
3.6 Snubber Program Technical Review..........................
7 3.7 MOV Program Technical Review............................
8 3.8 ILRT/LLRT Program 'Ibchnical Review......................
8 3.9 Pressure Test Program Technical Review......................
8 4.
D C R/M M O D Close - Out........................................
9 5.
REFE R EN CES...............................................
10 6.
CO M M ITM ENTS.............................................
1 1 i
7.
SUM MARY OF CHANG ES....................................
11 ATTACHMENTS,"ISI/IST Program Impact Screening"................
12, "ISI/IST Program Changes".......................
14 1, " Support Requirements ".........................
16 i," Weld / Mechanical Joint Requirements"............
17 I
l,"E/C Program Technical Review".............
18 j
l/
i-, " Check Valve Requirements"......................
.20 m
g i
ss PI-6 i
Level of Use Rev.O information 1 of 26
I f-I' ATTACHMENTS (CONT.)
j," Snubber Technical Evaluation Form"................
21," Motor Operational Valve Program Technical Review"..
22, "ILRT/LLRT Program Technical Review".............
23 0, "DCR/MMOD/TM Close-Out"...................
24
' (G) r~
1 i
Y.)
PI-6 Level of Use Rev.0 Information 2 of 26 i
J
[
- 1. INTRODUCTION
^4 U
1.1 Purpose The purpose of this engineering department instruction is t'o provide specific direction for the performance of technical reviews of DCR/MMOD/FM packages which may impact engineering programs.
1.2 Scope This engineering department instruction is applicable to the following Millstone Unit 3 engineering programs related to In Service Inspection
-(ISI) and In Service Testing (IST):
ISI Program MOV Program IST Program ILRT/LLRT Program a
Erosion / Corrosion Program Pressure Test Program
=
Check Valve Program Section XI Repair /
Replacement Program Snubber Progiam Relief Wives Pump and Valve Testing a
(
Containment System
=
1.3 Definitions Examination The performance of visual and Non-Destructive Testing (NDT) such as the following:
Visual (VT) including check valve inspection Radiography (RT)
=
Ultrasonic (UT)
Eddy Current (ECF)
=
- - Liquid Penetrant (PT)
Magnetic Particle (MT) ll O
PI-6 Level of Use i
Rev.O gnformat. ion 3 of 26
i
)
In Service Inspection -
NRC and Tech Spec required examinations performed in accordance with ASME Boiler and Pressure Vessel Code Section XI for all Class I, II, and III safety related systems and components.
ISI -
In Service Inspection IST -
In Service Testing Pressure Test -
Determination of system and component leak tightness through the pressurization of the system or component and subsequent visual examination for unacceptable leakage, NDT -
Non-Destructive Testing Testing -
Method for obtaining information through measurement or observation.
I l
f3
,LJ PI-6 Level of Use r
Rev.0 Information 4 cf 26 L
p
,fy.
- 2. DCR/MMOD/TM Program Impact Screening 7 J 2.1 'DCR/MMOD/FM Initial Review v
2.1.1 Refer 'Ib 'Ihble 1 and REVIEW the proposed DCR/MMOD/FM, USING the guidance provided in Section 2 of Attachment 1, PERFORM a screening of the DCR/MMOD/FM to determine if any of the ISI/IST program elements listed below are impacted by the DCR/MMOD/FM or will require testing / examination as a part of the DCR/MMOD/FM:
'Ibble1 i
Proer==
Pdmary Responsibility Backup Responsibility Check Valves J. Moos J. Rogers Containment System Engineer L Loomis J. Rogers Erosion / Corrosion E Oiler R. Zieber Hot AirTest G. Knight E. Wood Hydros E. Wood G. Knight ILRT/LLRT L. Loomis J. Rogers ISI R. Zeiber G. Knight IST
.J. Rogers E. Wood MOVs M. Long D. MacNeill Pump & Valve Testing E. Wood J. Moos Snubbers E Oller R. Zeiber Relief Valves J. Moos J. RogersSection XI Repair / Replacement R. Zieber D. MacNeill 2.1.2 RECORD the results of the screening in Section 2 of and denote impact in Section 3 of Attachment 1.
2.1.3 IF no impact then N/A the DCR/MMOD/FM SIGN and DATE Attachment and RETURN package to Project Engineer with a copy of Attachment 1.
I'I Level of Use
~
,tev. 0 lnformation 5 of 26
',q 2.1.4 IE the screening indicates that one or more of the ISI/IST
\\
sJ program elements may be affected by the DCR/MMOD/FM, Go To to Section 3, "ISI/IST Program Technical Reviews," and PERFORM a " Technical Review" of the DCR/MMOD/FM and the affected elements.
2.1.5 CREATE AITTS commitments for program changes or testing (optional).
- 3. ISI/IST Program Element Technical Reviews 3.1 ISI/IST Program Manual Impacts 3.1.1 REVIEW the DCR/MMOD/FM for any impact related to the ISI/IST Program.
3.1.2 REVIEW the ISI/IST Program Manual and DOCUMENT in Section 1 of Attachment 2 any sections of the Program Manuals which will require administrative changes due to the DCR/MMOD/FM.
3.1.3 REVIEW the ISI/IST Database and DOCUMENT in Section 2 of Attachment 2 any changes that will be required to the ISI
(%)
4 Database.
3.1.4 REVIEW the DCR/MMOD/FM for ISI drawing impacts and DOCUMENT the affected drawings in Section 3 of.
3.2 ISI Program Technical Review 3.2.1 IE the DCR/MMOD/FM impacts piping supports within the ISI program, DETERMINE the ASME Section XI pre-service inspection or examination requirements for each support and DOCUMENT on Attachment 3.
3.2.2 IE the DCR/MMOD/FM impacts welded or mechanical joints within the ISI program, DETERMINE the ASME Section XI pre-service inspection or examination requirements for each DOCUMENT on Attachment 4.
Level of Use Pl-6 L
Information gcy, g 6 of 26
p p:
i 3.3 IST Program Technical Review 3.3.1 PERFORM the following:
REVIEW the DCR/MMOD/FM for any impact related to a.
the IST Program.
l b.
Refer 1b IST Program Manual instruction IST PI-13, " Plant Modifications," for guidance.
i l
c.
DOCUMENT review results as required in PI-13.
i 3.4 E/C Program Technical Review
-3.4.1 REVIEW the DCR/MMODfrM for any impact related to the E/C Program.
3.4.2 REVIEW the Check Works Database and DOCUMENT in Section 1 of Attachment 5 any changes that will be required to the database.
3.4.3 REVIEW the 'Itending Database and DOCUMENT in Section 2 of Attachment 5 any changes that will be required to the
,Cg database.
V 3.4.4 REVIEW each of the E/C Isometric drawings associated with the DCR/MMOD/fM for drawing impacts resulting from the DCR/MMOD/TM and DOCUMENT the affected drawings in -
Section 3 of Attachment 5.
3.4.5 MARKUP up the affected E/C Isometric drawings listed in i
Section 3 of Attachment 5 for incorporation into the l
DCR/MMOD/FM.
v
}
3.5 Check Valve Program Technical Review l
3.5.1 REVIEW the DCR/MMOD/FM for any impact related to the Check Valve Program.
I L
3.5.2 Refer To the Check Valve Program and DOCUMENT on l any testing requirements resulting from the DCR/MMOD/FM.
l t
') '
(
PI-6 Level of Use g y, g lnformation 7 of 26
(
3.6 Snubber Program Technical Review
(
g d
3.6.1 REVIEW the DCR/MMOD for any impact related to the Snubber Program.
I 3.6.2 Refer Tb EN 31140, " Snubber Functional Testing," and EN 31138 " Snubber Visual Examinations," and COMPLETE l establishing the code category and inspection or testing requirements resulting from the DCR/MMOD/TM.
3.7 MOV Program Technical Review I
3.7.1 REVIEW the DCR/MMOD/TM for any impact related to the MOV Program.
3.7.2 Refer Tb the MOV Program Manual and DOCUMENT on the inspection or testing requirements resulting from the DCR/MMOD/TM.
3.8 ILRT/LLRT Program Technical Review 3.8.1 REVIEW the DCR/MMOD/FM for any impact related to the ILRT/LLRT Program.
3.8.2 REVIEW the DCR/MMOD/FM and DOCUMENT on j the requirements which must be performed w) following the modification.
j l
3.9 Pressure Test Program Technical Review l
3.9.1 REVIEW the DCR/MMOD/FM for any impact related to the Pressure Test Program.
3.9.2 REVIEW the Pressure Test Program, Program Instruction (PI) in the ISI Program Manual and DOCUMENT in Section 1 of
! 0 any sections of the Pressure Test (PI) which will require changes.
3.9.3 REVIEW the ISI Database and DOCUMENT in Section 2 of 0 any changes that will be required to the l
PRESSURE TEST Database.
3.9.4 REVIEW each of the Pressure Test ZONE drawings associated 1
with the DCR/MMOD for drawing impacts resulting from the DCR/MMOD and DOCUMENT the affected drawings in Section 3 of Attachment 10.
3.9.5 REVIEW each of the Pressure Test Boundary drawings f
associated with the DCR/MMODfrM for drawing impacts l
resulting from the DCR/MMODffM, and DOCUMENT the i
affected drawings in Section 3 of Attachment 10.
I
/O
')
\\
PI-6 I
Level of Use
~
Rev.0 lnformatlOn 8 of 26 j
f! )
p
/
' 4. DCR/MMOD Close-Out -
4.1 WHEN ASME Form NIS-2 of Post Maintenance Testing is completed, PERFORM the following:
4.1.1 REVIEW the technical review sheets submitted for incorporation to the DCR/MMOD/TM and VERIFY that all testing and j
examination is complete.
L
(
4.1.2 REVIEW the technical review sheets submitted for incorporation to the DCR/MMOD/TM and VERIFY that all drawing changes have been made.
l 4.'. 3 REVIEW the technical review sheets submitted for incorporation to the DCR/MMOD/FM and SUBMIT program change sheets -
for all required program manual changes.
4.1.4 REVIEW the technical review sheets submitted for incorporation to the DCR/MMOD/FM and SUBMIT procedure change sheets for all required procedure changes as required in DC-1.
4.2 AITTS Commitments
,jm, 4.2.1 IE applicable, CLOSE AITTS commitment (s).
, ()
O l
.'u J PI-6 Level of Use Rev.O Informat. ion 9 of 26 1 _
l
. )%
- 5. REFERENCES s
5.1 WC-1," Work Process Control" 5.2' WC-3,"ASME XI Repair Replacements" 5.3 Design Change Manual (DCM) for DCRs, MMODs, and WC 10 for
. Temporary Modifications (TM) 5.4 ISI Inservice Inspection Program Manual - Second Ten Year Interval 5.5 C EN 101C," Management of ASME Section XI Inservice Inspection Programs" 5.6 IST Program Manual 5.7 Erosion / Corrosion Program Manual 5.8 IST Program Plan, Document No. ISI-3.0 5.9 Check Valves, EN 31123, " Check Valve Inspection" 5.10 Containment, EN 31075," Unit 3 Containment Mass Tracking" 5.11 ISI Valves, EN 31122,"ISI Valve Operational Readiness Evaluation" 5.12 ISI Pumps, EN 31121,"ISI Pump Operational Readiness Evaluation" 5.13 ISI Program,"SP 31129," Inservice Inspection" 5.14 Snubbers, SP 31138, " Snubber Visual Inspection" 5.15 Testing, EN 31063,"ASME Section XI Pressure Tests" 5.16 SP 31103," Containment Leak Rate Test (ILRT) - Type A,(ITPE)"
5.17' SP 31104,"ILRT Valve Lineup" 5.18 SP 31105," Containment Quench Spry Header Nozzle Flow Test" 5.19 SP 31106," Containment Recirculation Spray Header Nozzle Flow Test" 5.20 EN 31128," Safety Significant Equipment Vibration Monitoring" 5.21 Tests, EN 31090," Elevated Pressure Test" lO U
-Level of Use PI-6 Information Rev.0 10 of 26
9
- 5.22 Snubbers, EN 31140," Snubber Functional Testing" s"
5.23 - MOV Program Manual 5.24 Pressure Test Program Manual 5.25 EN 31116," Inservice Inspection of Steam Generator 'Ibbes"
- 6. COMMITMENTS 6.1 N/A
- 7..
SUMMARY
OF CHANGES 7.1 Complete rewrite. Due to the extensive changes to this procedure, revision bars have been omitted.
(w Level Of Use PI-6 Rev.0 lnformat. ion 11 of 26 r
1 Attrchment 1 ISI/IST Program Impact Screening 24 (Sheet 1 of 2) v
' Section 1 DCR/MMOD/TM Number:
DCR/MMOD/TM
Subject:
DCR/MMODfrM Modification ASME Class Class I Type:
Addition Class II Deletion Class III Mechanical Other Other Section 2 Perform the following Impact screening to determine which ISI/IST program elements require a detailed technical review. Indicate the affected program elements by placing an "X" in the YES column for each affected program element.
PROGRAM ELEMENT SCREENING YES
,s ISI Program Technical Review Will the DCR/MMOD/TM require the ISI Program Manual or ISI Database to be updated?
Are there any physical changes to the plant which will affect ISI ZONE drawings?
Are there any pre-service inspections of welds,
=
supports or mechanicaljoints required as a result of the DCR/MMOD/FM?
IST Program Technical Review Will the DCR/MMOD/TM require the IST Program Mandal or Basis document to be updated?
Are there any inspection or testing requirements as a result of the DCR/MMOD/FM?
Does the DCR/MMODfrM impact the ISI/IST Valve Program?
Does the DCR/MMODfrM impact the ISI/IST p
Pump Program?
()
Level of Use PI-6 Information Rev.0 12 of 26
Attechment 1 ISI/IST Program Impact Screening (Sheet 2 of 2)
PROGRAM ELEMENT SCREENING YES E/C Program Tbchnical Review Does the DCR/MMODffM modify any of the following system parameters?
Does the DCR/MMODffM change the chemistry of the system?
Will the DCR/MMOD/FM require the Check Works Database or the Rending Database to be updated?
Are there any physical changes to the plant
=
which will affect E/C Isometric drawings?
Check Valve Program Technical Does the DCR/MMOD/FM require any Check Valve Review Program related testing?
Snubber Program Technical Does the DCR/MMODffM require any Snubber Review Program related functional testing or visual examina.
tions?
MOV Program Technical Review Does the DCR/MMODffM require any MOV Pro-gram related inspection or testing?
ILRT/LLRT Program Technical Does the DCR/MMODfrM require any ILRT or Review LLRT Program related testing?
Pressure Tbst Program Technical Will the DCR/MMODfrM require the Pressure Review Test Program Manual or Pressure Test Database to be updated?
Are there any physical changes to the plant which will affect Pressure Test BOUNDARY drawings or Pressure Test ZONE drawings?
S/G ECT Program Technical Re-Does the DCR/MMODffM require any S/G ECT view Program related testing?
Section XI Repair / Replacement Does the DCR/MMODffM require a Assessment Repair / Replacement Retest?
Section 3 An impact screening of the DCR/MMODfrM has been performed to determined the impact or inspection / examination requirements associated with ISI/IST Program elements.
Impact No Impact Program Engineer:
Sgwurc Date Engineering Programs Supervisor:
PI-6 Level of Use Information Rev.O 13 of 26
Atttchment 2 ISI/IST Program Changes (Sheet 1 of 2)
)'
DCR/MMOD/TM Number:
Section 1 ISI/IST Program Manual Administrative Change Description Section Number
'^\\
v/
F
'\\ _.)
Levelof Use PI-6 Information Itev. 0 I
14 of 26
(
j l
l Attrchment 2 ISI/IST Program Changes (Sheet 2 of 2) l f
}
v i
Section 2 i
ll Component ISI/IST Database Change i
i f[
Section 3
\\w Drawing Drawing Change Description Prepared By:
Signature Date Lj Pi-6 Levelof Use I j
Rev.O Informat. ion 15 of 26 l
Attrchment 3 Support Requirements
. (Sheet 1 of 1)
\\v DCR/MMOD/TM Number:
SYSTEM ID CAT EXAMINATION REQUIREMENTS I
N r
3
(/
Comments:
Prepared By:
Date:
'V/'
PI-6 Level of Use gey, g Information 16 of 26 a.
p, Weld / Mechanical Joint Requirements (Sheet 1 of 1)
DCR/MMODfrM Number:
System:
Component Pipe Size Sch.
PSI Exams Procedure i
1 j
Comments:
l 1
.l i
j l
Prepared By:
Date:
1 l
l 1
Level of Use PI-6 Rev.0 Informat. ion 17 of 26 i
7 a
E/C Program Technical Review l7%
(Sheet 1 of 2)
'(
)
DCR/MMOD/FM Number:
Section 1 Component Check Works Database Changes g-(.)
Sectionl Component B ending Database Change t
l t {^;
X./
Level of Use PI-6 Information Rw. 0 18 of 26
c:-l' l
i Attrchment 5 E/C Program Technical Review f"
(Sheet 2 of 2)
'V Section 3 FJC Isometric Drawing Drawing Change Description Prepared By:
Signature Date
!n
' LJ PI-6 Level of Use Rev.O informat. ion 19 of 26
p Att:chment 6 Check Valve Requirements
},e:
(Sheet 1 of 1)
V).
v DCR/MMOD/FM Number:
Local Identification Check Type VT Old Priority New Priority Old Group New Group i
l 4
Local Identification - PMMS local identification Check Type - Swing, Lift, Tilting, Disc, or Dual Plate VT - Check valve is in the Check Valve Program and valve is required to be disassembled and inspected - insert "Yes" or "No."
[]
= Old Priority - Insert present priority of check valve,1,2,3, or 4 (Ref. 5.9). If
\\__
check valve is not in the program but is being added, insert "N/A" for not applicable.
New Priority - If priority is to be changed or valve is being added to the program as a result of this DCR/MMODffM, insert the new priority. If not, insert "N/C" for no change.
Old Group - Insert present group within the priority of the check valve (Ref. 2.11). If check valve is not in the program but is being added, insert "N/A" for not applicable.
New Group - If group is to be changed or valve is being added to the program as a result of this DCR/MMOD/FM, insert new group. If not, insert "N/C" for no change.
'. ([] '
L/
PI-6 Level of Use Rev.O Informat. ion -
20 of 26
Snubber Technical Evaluation Form
, *4 (Sheet 1 of 1)
)
~
DCR/MMOD/FM #:
Date:
Snubber Support #:
System:
Serial #:
State affect on snubber program:
Drawings affected (include DCN #s):
Snubber Program Changes required:
C/
Retest requirements:
Comments:
Prepared By:
Date:
Reviewed By:
Date:
fy()
PI-6 Level of Use Rev.O Information 21 of 26
Attcchment 8 Motor _ Operated Valve Program Technical Review (Sheet 1 of 1)
)
v DCR/MMOD/TM r
(
Number:
1 i
Component IST Inspectionfresting Requirements
()
Li Prepared By:
Signature Date PI-6 Level of Use
~
izcy, g i
Information 22 of 26
a Attcchment 9 ILRT/LLRT Program Technical Review (Sheet 1 of 1)
DCR/MMOD/TM Number:
Component IST Inspectionfresting Requirements O
Prepared By:
l Signature Date l
DCR/MMOD/FM Numher:
Section I hI
~
Level of Use e.O Information 23 of 26 l
i L
[!
l
. s Attachtt:5nt 10 DCR/MMOD Close-Out I..
D Sectiorti (Sheet 1 of 3)
Component Pressure Test Program Changes Section 2 Component Pressure Test Database Change 1
i i
I i
i l
\\
r )}
~
PI-6 Level of Use l
Rev.O lnformation 24 of 26
.t, AttIchdient 10 DCR/MMODfrM Close-out (Sheet 2 of 3)
Section 3 Component Drawing Change Description Prepared By:
Signature Date i
PI-6 Level of Use Information f5f26
F
. 0 DCR/MMOD/TM Close-Out (Sheet 3 of 3)
%j l
DCR/MMODfrM Num-ber:
Section 1 ~
j Has all testing and examination required to support the DCR/MMOD/FM been completed?
PROGRAM ELEMENT Completed?
PROGRAM ELEMENT Completed?
(Yes, N/A)
(Yes, N/A)
ISI Program Technical Review MOV Program 1bchnical Review IST Program Tbchnical Review ILRT/LLRT Program Technical Review Check Valve Program Technical S/G ECT Program Technical Review Review Snubber Program Tbchnical Section XI Repair / Replacement Review Assessment Section 2 Have all drawing changes required to support the DCR/MMOD/FM been completed?
i eD PROGRAM ELEMENT Completed? (Yes, N/A)
ISI Program Technical Review E/C Program Technical Review Pressure Tbst Program Technical Review Section 3 Have all program and procedure changes required to support the DCR/MMOD/FM been completed?
PROGRAM ELEMENT Completed? (Yes, N/A)
ISI Program Technical Review IST Program Technical Review Pressure Test Program Technical Review Prepared By:
Signature Date l
Engineering Programs Supervisor:
Signature
.Date
'~
j s
(
PI-6 Levelof Use Rev.O Information 26 of 26
' 11.
DRAWINGS Refer to Volumes 2 and 3 for applicable zone drawings for component welds and supports and their associated Program Plan listing.
~W 1
l 166 1
MILLSTONE NUCLEAR POWER STATION UNIT 3 INSERVICE TEST PUMP AND VALVE PROGRAM