ML20151M761
| ML20151M761 | |
| Person / Time | |
|---|---|
| Site: | Clinton  |
| Issue date: | 07/29/1988 |
| From: | ILLINOIS POWER CO. |
| To: | |
| Shared Package | |
| ML20151M751 | List: |
| References | |
| PROC-880729, NUDOCS 8808050338 | |
| Download: ML20151M761 (147) | |
Text
_
ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
)
l 4
gooienBE$in' P
M3255/M113
n f
TABLE OF CONTENTS.
t Page 2
PLAN REQUIREMENTS.
1.1 General.
2 1.2' Exceptions, Clarifications, Exemptions..
2 and Augmented Requirements 1.3 Responsibility 6
1.4 -Records..
7 1.5 Examination Methods and Personnel Qualifications 7
1.5.1 Visual Examination Method.
-8 1.5.2 Surface Examination Method.
9 1.5.3 Volumetric Examination Method.
9 9
1.6 Reference Document and Control.
of Plan Revisions 1.7 Repair / Replacement.
10 TABLE I Inservice Examination Program Plan Requirements
.I-l KEY.
I-2 CLASS 1 Components I-3 CLASS 2 Components I-19 CLASS 3 Components I-29 CLASS 1, 2, AND 3 COMPONENT SUPPORTS PROGRAM.
I-36 TABLE II Inservice Examination Program Plan Component and Piping Examination Boundary.
. II-l CLASS 1 Component II-2 CLASS 2 Component II-25 CLASS 3 Component II-61 CLASS 1, 2, and 3 COMPONENT SUPPORTS II-85 TABLE III Clinton Power Station Unit 1 Piping Line List References III-l APPENDIX IV/ISIl/l
PLAN REQUIREMENTS 1.1 G,eneral The Clinton Power Station, Unit 1, Inservice Examination Program Plan defines the requirements for the first 10 years of inservice examination (ISI) of Class 1, Class 2, and Class 3 components and component supports.
This plan is presenr2d in two parts.
The first part presents the component and piping examination requirements (Table I) in accordance with the American Society of Mechanical Engineers (ASME) Boiler and Pressure Vessel Code Section XI, 1980 Edition with Addenda through Winter 1981.
The second part is an examination table which provides a listing of Class 1 components greater than one (1) inch nominal pipe size, Class 2 components greater than four (4) inches nominal pipe size, and Class 3 components greater than four (4) inches nominal pipe size (Table II).
This table provides information relative to the examinations required, exemptions from exumination, augmented requirements, and relief request information where applicable.
By utilizing the information provided in Table II, applying the Code examination requirements (Table I),
and following the inspection requirements of Program B (IWB-2400, IWC-2400, and IWD-2400), detailed schedules have been developed for the first 10-year ISI interval.
These schedules are available for review by the enforcement and regulatory authorities having jurisdiction at the plant site and are included as appendices to the Clinton Power Station (CPS) ISI Program Manual.
In accordance with 10CFR50, this plan is in compliance, where possible, with the applicable requirements of the 1980 Edition of Section XI with Addenda through Winter 1981.
Although the basic plant design preceded guidelines set forth in later codes, every attempt has been made to obtain maximum Code compliance.
Where Code com711ance is not achievable, relief requests have been submitted.
These relief requests are included in Appendix III of the CPS ISI Program Manual, 1.2 Exceptions, Clarifications, Er.emptions, and Augmented Requirements This plan has been developed in accordance with the requirements of the ASME Section XI, 1980 Edition with Adc enda through Winter 1981 (80W81), subject to the following exceptions, clarifications, exemptions, and augmented requirements:
APPENDIX IV/ISIl/2
\\= =
A.
Class 1 components, piping, and their' associated component suaports were exempted in accordance with the following suaparagraphs of 80W81:
IWB-1220(a)
Components that are connected to the Reactor Coolant System 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 onsite emergency power.
IWB-1220(b)(1) Piping of 1-inch nominal pipe size and smaller, except for steam generator tubing
.(2) Components and their connections in piping of 1-inch nominal pipe size and smaller IkB-1220(c)
Reactor vessel head connection and associated piping, 2-inch nominal pipe size and smaller, made inaccessible by control rod drive penetrations.
B.
Class 2 components, piping, and their associated component suaports were exempted in accordance with the following subparagraphs of 80W81 (for all Class 2 systems except Residual Heat Removal (RHR), Low Pressure Core Spray (LPCS),
High Pressure Core Spray (HPCS), and Reactor Core Isolation Cooling (RCIC):
IWC-1220(b)
Components or systems or portions of systems, other than Residual Heat Removal Systems and Emergency Core Cooling Systems, that are not required to operate above a pressure of 275 psig (1900 kPa) or above a temperature of 200 degrees F (93 degrees C).
IWC-1220(c)
Component connections (including nozzles in vessels and pumps), piping and associated valves, and their attachments that are 4-inch nominal pipe size and smaller.
C.
Class 3 components, piping, and their associated component suaports were exempted in accordance with the following subparagraphs of 80W81:
IWD-1220.1 Integral attachments of supports and restraints to components that are NPS 4" and I
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.
APPENDIX IV/ISI1/3 o
IWD-1220.2 Integral attachments of supports and restraints to components exceeding UPS 4" may be exempted from the visual-examination VT-3 of Table IWD-2500-1 provided:
(a) 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 (b) the components operate at a pressure of 275 psig or less and at a temperature of 200 degrees F or less.
D.
Selection of piping systems for Class 2 Residual Heat Removal, Emergency Core Cooling, and Containment Heat Removal systems is in accordance with the 1974 Edition of Section XI with Addenda through Summer 1975 (74S75).
E.
The piping systems in the RHR, LPCS, HPCS, and RCIC systems were exempted in accordance with the following subparagraphs of 74S75:
IWC-1220(a)
Components in systems where both the design pressure and temperature are equal to or less than 275 psig and 200*F, respectively.
IWC-1220(d)
Component connections, piping, and associated valves and vessels (and their supports) that are 4-inch nominal pipe size and smaller.
F.
The CPS Final Safety Analysis Report (FSAR) Mechanical Engineering Branch (MEB) (Draft Safety Evaluation Report (DSER)] Item No. 11 for Class 1 and Section 6.6.8 for Class 2 require inspection of all piping welds between containment isolation valves (For those systems which do not have an inboard va.ve designated as a containment isolation valve per CPS Technical Specification Table 3.6.4-1, the first valve inside the containment shall be considered the penetration boundary in satisfying this requirement) as follows:
(1)
Class 1 Piping welds greater than one (1) inch nominal pipe size, including pipe to valve welds, and associated containment head fitting welds.
(2)
Class 2 High energy piping welds greater than four (4) inches nominal pipe size, including pipe to valve welds, and associated containment head fitting welds as well as all socket welds.
APPENDIX IV/ISIl/4 J
p G.
The CPS FSAR (Section 6.6.9) requires ultrasonic testing of 10% of thin-wall (between 3/8" and 1/2") Class 2 RHR system piping welds which would require only surface examinations per the Code.
H.
The CPS FSAR requires Feedwater (FW) nozzles and the Control Rod Drive (CRD) return line nozzle, which is capped, to be examined using the methods, techniques, and frequency outlined-in NUREG-0619.
I.
Austenitic stainlesc steel piping components susceptible to Intergranular Stress Corrosion Craexing (ICSCC) shall be examined in accordance with' Illinois Power (IP) response to O
NRC Generic Letter 88-01, NRC Position on IGSCC in BWR o
Austenitic Stainless Steel Piping.
co" J.
Any-flaws detected on piping susceptible to IGSCC which d
exceed the acceptance criteria which is listed in the ASME Section XI, 1980 Edition through Winter 1931 Addenda, shall v
be evaluated for continued service in accordance with the ASME Section XI 1986 Edition.
K.
IP will expand the examination area of the Reactor Pressure Vessel nozzle-to-safe end weld where alloy 182 buttering is applied cnd extended into the nozzle bore area as recommended in IP response to General Electric Service Information Letter (GE SIL) No. 455, Rev. 1 (Memorandum from F. A. Spangenberg to File, Y-207823, dated June 13, 1988).
L.
IP will review the need to inspect for cracks in the shroud support access hole cover as outlined in IP response to IE Information Notice No. 88-03 (Memorandum from F. A.
Spangenberg to File, Y-207567, dated'May 9, 1988).
M.
Relief Requests which have been utilized are identified in Table 2 for corresponding components.
N.
Examinations of the reactor pressure vessel performed using both manual and mechanized examination techniques from the outside surface of the vessel shall be in compliance with Regulatory Guide 1.150, Revision 1, Appendix A.
O.
The inservice inspection of the Scram Discharge Volume system piping shall be in accordance with the ASME Section XI as recommended in NUREG-0803, Generic Safety Evaluation 4
Report Regarding Integrity of BWR Scram System Piping, Section 5.1, page 5-3.
P.
Visual inspection of jet pumps shall be performed as recommended in IP response to GE SIL NO. 330 (Memorandum from F. A. cpangenberg to File, Y-204962, dated May 21, 1987).
CE Sli. 330 includes the concerns expressed in IE Bulletin 80-07 and NUREG 3052, APPENDIX IV/ISI1/5
Q.
Visual inspection of jet pumps and sensing lines shall be performed as recommended in IP response to GE SIL 420 1 Memorandum from F. A. Spangenberg to File, Y-205267, dated June 29, 1987).
R.
Visual inspection of core spray spargers shall be performed every 40 mo,ths as recommended in IP response to GE SIL NO.
289 (Memorandum from F. A. Spangenberg to File, Y-207041, dated February 8, 1988).
Remote underwater TV camera resoluticn shall be as recommended in IE Bulletin No. 80-13.
Any cracks identified in the cor9 spray spargers shall be reported as recommended in IE Bu112 tin No. 80-13.
S.
Visual inspection of integral attachments on Class 3 Piping Systems not specified in the Code Table IWD-2500-1 shall be performed in accordance with Examination Category D-A, Item No. D1.20.
T.
Functional tests of 10% of each type of snubber shall be performed as required by the Code and CPS Technical Specifica-tions and as specified in the letter frcm F. A. Spengenberg to A. B. Davis of NRC, U-600502, dated May 12, 1988.
(The NRC will be nocified of any change to the functional test sample plan.)
U.
Visual inspection of Intermcdiate Range Monitor (IRM) and Source Range Monitor (SRM) dry tubes shall be performed as recommended in IP response to GE SIL No. 409 (Memorandum from F. A. Spangenberg to File, Y-204660, dated April 8, 1987).
V.
Code Cases to be utilized for inservice inspection shall be as approved by the NRC in the latest revision of Regulatory Guide 1.147 or by other written approval.
Code Cases utilized shall be identified in the Piping and Component Examination Schedule and in the Component Support Examination Schedule.
1.3 Responsibility As specified in Paragraph IWA-1400 of ASME Section XI, IP benrs the overall responsibility for implementation of an ISI program.
These responsibilities include the following:
(a)
Determining the appropriate Code Class (es) for each component of the nower plant, identifying the system boundaries for each class of components subject to inspection, and it.ntifying the components enempt from examina tion requir..nents :
(b)
Designing and arranging system components to include
.silowances for adequate access and clearances for cone met of axaminations and testsi (e.
Preparing plans and schedules and filing these plans und schedules with enforcement and regulatory authorities having jurisdiction at the plant site APPENDIX IV/ISIl/6
(d)
Preparing written examination instructions and procedures, including diagrams or system drawings, that identify the extent of areas of components subject to examinations (e)
Verifyin-the qualification to the required level of responsibility of personnel who perform the examinaticasi (f)
Arranging an. agreement with an Authorized Inspection Agency to provide' inspection services (g)
Performing required examinations and tests:
(h)
Recording examination and test results in a manner that provid.es a basis for ev,luation and that facilitates comparison with subsequent examination results:
(i)
Evaluating examination and test results:
(j)
Performing repairs and installation of replacements:
(k)
Maintaining adequate inspection, examination, test, and reprir and replacement records such as radiographs, diagrams, drawings, examination and test data, descriptions of procedures used, and evidence of personnel qualifications:
(1)
Retaining all inspection, examination, test, and repair and replacement records for the service lifetime of the component or systems (m)
Retaining and maintaining all basic calibration blocks used for ultrasonic examination of the components (n)
Documenting a Quality Assurance Programs (o)
Recording regions in ferritic steel components where acceptance standards have been modified as required in IWB-3410.
1.4 Records Examination records and documentation of all results provide the basis for evaluation and facilitate comparison with previous results and subsequent inspections.
In accordance with the ASME Section XI, IWA-6000, these records shall be i
maintained for the plant life.
1.5 Examination Methods and Personnel Qualifications Examination methods listed for all nonexempt Class 1, Class 2, and Class 3 components and piping shall be in accordance with the ASME Section XI except where other requirements APPENDIX IV/ISIl/7 L-._
are specified.
Personnel performing nondestructive examinations shall be qualified in accordance with the ASME Section XI.
In addition, the detailed procedures, equipment and examination personnel (Level II and III) used in examining austenitic stainless steel component welds and austenitic stainless steel component welds with overlays, where applicable, will be those qualified by a formal program in accordance with the Nondestructive Examination (NDE)
Coordination Plan agreed upon by the NRC, the Electric Power Research Institute (EPRI) and the BWR Owners Group for.
Intergranular Stress Corrosion Cracking (ISGCC) research, as implemented at the EPRI NDE center in Charlotte, North Carolina.
On austenitic stainless steel component welds with Corrosion Resistant Cladding (CRC), the above specified EPRI qualifi d procedures, equipment and examination personnel will be utilized to demonstrate the capabilities to detect IGSCC en CRC welds.
This demonstration may be witnessed by the enforcement and regulatory authorities having jurisdictie i at tha plant site, if requested.
Level I examiners who may become qualified by demonstrating field performance capability will not be utilized in the examination of piping susceptible to IGSCC.
Methods of examination are further described in the ten-year inservice examination schedules based on examination requirements, examination area access, joint configurations, and materials scheduled for examination.
1.5.1 Visual Examination Method Visual examination (VT) will be performed in accordance with IWA-2210 of ASME Section XI, exce t as modified by Relief Request 4003 for VT-3 VT-4 examinations.
(1)
VT-1 examinations are conducted to determine the condition of the part, component, or surface examined.
The examination shall determine conditions such as cracks, wear, corrosion, erosion, or physical damage on the surfaces of the part or components.
This type of examination may be performed by direct or remote methods as defined in IWA-2211.
(2)
VT-2 examinations are conducted to locate evidence of leakage (or abnormal leakage) from pressure-retaining components during system pressure or functional tests.
APPENDIX IV/ISIl/8 i
l r.
(3)
VT-3 examinatiens are conducted to determine the general mechanical and structural conditions of components and their supports such as the verification of clearances, settings, physical displacements, loose or missing parts, debris, corrosion, wear, erosion, or the loss of integrity at bolted or welded connections.
The VT-3 examination will include examinations for conditions that could affect operability or functional adequacy of snubbers and constant load and spring type supports.
This type of examination may be performed with or without optical aids to verify the structural integrity of the component.
l 1.5.2 Surface Examination Method A surface examination is performed to detect the presence of surface cracks or discontinuities.
1 Techniques for surface examination include either magnetic particle (MT) or liquid penetrant (PT) techniques where the surface conditions, material, and accessibility permit.
1.5.3 Volumetric Examination Meti.od A volumetric examination is performed to detect discontinuities in the volume of a material.
Two such volumetric techniques are radiographic (RT) and ultrasonic (UT) examinations.
For volumetric examinations, use of the UT method is emphasized for the following reasons:
(1)
Other work can be conducted in the area where UT examinations are being performed, thus potentially reducing outage time.
(2)
In some locations, background radiation levels would preclude RT examination.
(3)
Methods have been developed to permit remote UT examination with minimum occupancy time in certain areas in order to minimize radiation exposure.
(4)
Records have been obtained utilizing UT examination to indicate preservice conditions for comparison with subsequent inservice examinations.
APPENDIX IV/ISIl/9
1.6 Reference Documents and Control of Plan Revisions This plan was prepared utilizing CPS Piping Line Lists (See Table III).
One (1) inch or less nominal pipe size Class _1 components and four (4) inches or less nominal pipe size Class 2 and 3 components, er. cept as required by an augmented examination, have not been included in Table II, since these piping lines are exempted by the Code.
Revisions to this plan will be controlled by IP.
Plant Modifications / Field Alterations / Maintenance Work Requests (MWRs) which could affect this plan are reviewed by personnel responsible for implementation of ISI requirements to ensure that changes are identified and the Plan remains current.
1.7 Repair / Replacement Repairs and replacements shall be performed in accordance with the CPS ISI Program Manual and the Code requirements.
l l
P 4
APPENDIX IV/IS11/10
p; 1
l TABLE I ILLINOIS POWER COMPANY CLINTON POWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN REQUIREMENTS (Revision 2)
APPENDIX IV/ISIl I-1 1
- ht S;o @,ik NA O
a e,
t s'e Ys IMAGE EVAltJATION 4 #,
t
//o//%.[
$ff*
TEST TARGET (MT-3)
/
/ p 4g, 4
p,,,
i a
1 l,0 W ?M M
$ !.f E i
l 1,l
[': &%
!!)4 1.25 1.4 1.6
==
+
150mm
~
6" l !
gh ' Dy%,
+4
/,,,+N\\\\
/%
%e@f,i X //Ng sh~& @
o y'>,
O 4( 8+ p' e
4
,:x
TABLE I KEY CODE CLASS Item Examination Components & Parts Examination Examination Requirements Examination Technique /
No.
Category to 3e Examin?d Method for 10-Year Interval Exr11 nation Area Carments The ASME Section XI Item Each type of examination NDE method This column provides information This column provides information No. and Category of area is listed in this required to regarding the number and/or specific to examination techniques examination are listed column.
satisfy Code percent of examinations required and examination areas.
in these columns.
requirements is to be performed for the 10-year listed in this interval. l column.
i i
\\
APPENDIX IV/ISIL I-2
1
^
TABLE I
-.,i 1
ILLINOIS POWER COMPANY CLINTON PWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
-i CLASS 1 COMPONENIS
'l 1
ASME ASPE Sec. X1 Sec. XI
.l Itea Examination Components & Parts Examination Examination Requireme.'ts Examination Technique /
h No.
Category to Be Examined Method for 10-Year Interval Examination Area Cocunents i) i REAC"IOR PRESSURE VESSEL i
Bl.10 B-A Longitudinal and
. Volumetric 100% of all circumferential and Examination of longitudinal and 1
Circumferential Shell longitudinal welds to be circumferential shell welds will Welds.
examined. Examinations may be be performed utilizing mechanized performed at or near the end of UT techniques on permanently the inspection interval.
Installed vertical and circumferential tracks. Where mechanized techniques do not provide complete coverage, manual j
techniques will be utilized to the j
i extent possible to extend the i
1 coverage.
Bl.20 B-A Meridional and Volumetric 100% of all meridional and
. Lower head welds will be examined Circumferential Head circumferential welds of the utilizing mechanized and manual UT Welds.
closure head and lower head may be techniques. Lower head weld examined. Examinations may be examinations will be considered performed at or near the end of individually for accessibility and each inspection interval for the radiation levels under actual ISI
.over head.
conditions.
Bl.30 B-A Shell-to-Flange Weld Volumetric 100t. of the circumferential weld Ihe shell-to-flange weld will be to be examined. At least 50% of examined from the vessel outside the weld shall be examined by the surface with manual UT.
I end of the first inspection period, and the remainder by the
)
end of the third inspection period.
I APPENDIX IV/ISIl I-3 4
1 w
e
y
~--
-m
TABLE I ILLINOIS POWER COMPANY CLINTON PWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROGRAM PIAN (REVISION 2)
CLASS 1 COMPONENTS ASME A9E Sec. XI Sec. XI Iten Examination Components & Parts Examination Examination Requirements Examination Technique /
No.
Category to Be Examined Method for 10-Year Interval Fxamination Area Comments REACTOR PRESSURE VESSEL (Cont'd)
+
Bl.40 B-A Ilead-to-Flange Weld Volumetric and 100% of circumf.erential weld to The head-to-flange weld will be Surface be examined.
examined with manual LTI and surface examination techniques when the head is removed.
Bl.50 B-A Repair Area in Beltline Volumetric Clinton Power Station has no N/A Regions beltline region repair welds.
B2.10 B-B Pressure-Retaining Welds Volumetric Items B2.10 through B2.61 not N/A through in Vessels Other Than appliccble to Clinton Power B2.61 Reactor Vessels Station.
B3.10 B-D Ft:11 Penetration Welds of Volumetric Clinton Pouer Station to use N/A through Nozzles in Vessels-Inspection Program B.
B3.80 Inspection Program A s
B3.90 B-D Primary Nozzle-to-Vessel Volumetric 100% of nozzles. At least 25%
The primary nozzle-to-vessel welds B3.100 B-D Welds and Nozzle Inside but not more thar. 50% of the and nozzle inside radius will te Radius Section nozzles shall be examined by the examined with manual and end of the first period, and the mechanized UT.
remainder by the end of the inte. val.
B3.110 B-D Full Penetration Welds of Volumetric Items B3.110 through B3.160 are N/A through Nozzles in Vessels -
not applicable to Clinton Power B3.160 Inspection Program L.
Station.
APPENDIX IV/ISIL I-4
~
TABLE I ILLINOIS POWER COMPANY CLIN 10N POWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROCRAM PLAN (REVISION 2)
CLASS 1 COFFONENTS I
ASPE ASPE Sec. XI Sec. XI Item Examination Campcnents & Parts Examination Examination Requirements Examination Techniqu /
No.
Category to Be Examined Method for 10-Year Interval Examination Area Coencents REACIOR PRC.SSURE VESSEL (Cont'd)
~'
M.10 B-E I
Tartial Penetrations Visual (VT-2) 25% of each group cf comparacle Evidence of leakage will be size and function to be -x=:ined.
determined with direct or remote The examinations to be performed VT techniques.
when the RPV is pressurized prior to operation.
B4.11 B-E Vessel Nozzle Welds Visual (VT-2) 25% of each group of ccmparable Evidence of leakage will be size and function to be exarnined.
detemined with direct or remote The examinations to be performed VT techniques.
when the RPV is pressurized prior to operation.
B6.12 B-E Control Rod Drive Nozzle Visual (VT-2) 25% of each group of comparable Evidence of leakage will be Welds size and function to be examined.
determined with direct or remote The examinations to be performed VI techniques.
when the RPV is pressurized prior to operation.
B4.13 B-E Instrumentation Nozzle Visual (VI-2)
.25% of each group of comparable Evidence of Icakage will be Welds size and function to be examined.
detemined with direct or remote The examinations to be performed VI techniques.
when the RPV is pressurized prior to operation.
B4.20 B-E Heater Penetrations Visual (VI-2)
Item B4.20 not applicable to N/A Clinton Power Station.
APPENDIX IV/ISIl I-5
7 TARIE I
?-
1111NOIS F0WER COMPANY CLINTON POWER STATION (CPS) UNIT 1 2
INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 1 COMPONENTS 1
t ASME ASPE
(
Sec. 11 Sec. 11 j
Iten Examination Components & Parts Examination -
Exaufnation Requirements Examination Technique /
No.
Category to Be Examined Method for 10-Year Interval Examination Area Comments REACTOR PRESSURE VESSEL (Cont'd)
B5.10 B-F Reactor Vessel Nozzle-to-Volumetric and All dissimilar metal welds at Welds to be examined with manual Safe End Welds >j4 Inches Surface nozzles to be examined, or remote UT.
Nominal Pipe Diameter 4
B5.20 B-F Reactor Vessel Nozzle-to-Surface All dissimilar metal wild at -
N / ~.
2 Safe End Welds (4 Inches nozzles to be examined.
Nominal Pipe Diameter B5.30 B-F Reactor vessel Nozzle-to-Volmetric Items B5.30 through B5.120 not N/A through Safe End Welds and Surface applicable to Clinton Power-B5.120 Station.
j B6.10 B-C-1 Closure Head Nuts Surface 100% of nuts to be examined.
Nuts will be examined with MT when Examination may be performed at removed for refueling.
or near the end of the inspection interval.
B6.20 B-G-1 Closure Studs. In Place Volumetric 100% of studs to be examined.
Closure stud examinations any be Examination may be performed at performed shen "in place."
3 or near. the end of the inspection Examinations should be scheduled interval.
when studs are removed to reduce.
radiation exposure and allow the most thorough examination.
B6.30 B-G-1 Closure Studs, When Volumetric and 100% of studs to be examined.
The studs will be examined with UT Removed Surface Examination may be performed at and MT.
or near the end of the inspection interval.
APPENDIX IV/ISIL I-6
r TABLE I~
ILLINOIS POWER COMPANY CLINION POWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROGRAM PIAN (REVISION 2)
CLASS 1 COMPONENTS ASME ASPE Sec. XI. Sec. XI Iten Examination Compenents & Parts Examination Examination Requirements Examination Technique /
No.
Category to Be Examined Method for 10-Year Interval Exa-aination Area Comments REACIOR PRESSURE VESSEL (Cont'd)
B6.40 B-G-1 Threads in Flange Volumetric 100% of threaded holes to be The threads in flange will be examined. Examination may be examined from the flange seal performed at or near the end of surface with UT.
the inspection interval. 1-inch annular area around threaded hole to be examined.
B6.50 B-G-1 Closure Washers and Visual (VT-1)
All washers, and bushings upon Visual (VT-1) of closure washers Bushings stud removal.
and bushings will be performed by direct VT techniques.
i B6.60 B-G-1 Pressure-Retaining Bolting Volumetric, Items B6.60 through B6.140 not N/A through
">2 Inches in Diameter Visual (VI-1) applicable.to Citnton Power 36.140 Station.
B7.10 B-G-2 Pressure-Retaining Bolting Visual (VT-1)
Items B7.10 through B7.40 not N/A through
$2InchesinDiameter applicable to Clinton Power B7.40 Station.
B7.80 B-G-2 CRD Housings Pressure-Vieual (VT-1)
Bolts, studs, and nuts in CRD Bolting will be examined with Retaining Bolting housing to be examined when direct VT when disassembled.
4 2 Irches in Diameter disassembled.
B8.10 B-H Integrally Welded Vessel Volumetric or 100% of accessible area of the The RPV integrally welded support Supports Surface circumference of the weld to the skirt will be examined with UT or vessel to be examined.
MT.
l i
APPENDIX IV/ISIl I-7 l
.=
=
's TABLE I 1111NOIS POWER COMPANY CLINTON POWER STATION (CPS) INIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 1 COMPONENIS i
ASME ASPE Sec. XI Sec. II Iten Examination Components & Parts Examination Examination Requirements Examination Technique /'
No.
Category to Be Examined Method
.for 10-Year Interval Examination Area Cocraents 1 REACTOR PRESSURE VESSEL (Cont'd)
B8.20 B-H Integrally Welded Vessel Volumetric or Itess B8.20 through B8.40 not N/A through Supports Surface applicable to Clinton Power Ba.40 Station.
B13.10 B-N-1 Vessel Interior Visual (VT-3)
Accessible areas above and below Visual examinations will be a
reactor core to be examined at performed with remote VT.
2 1st refueling outage and every 3 years thereafter.
B13.20 B-N-2 Interior Attachments Within Visual (VT-1)
Accessibic attachment welds to be Visual examinations will be l
Beltline Region examined at or near the end of performed with remote VT.
the inspection interval.
p B13.21 B ' '-2 Interior Attachments Beyond Visual (VI-3)
Accessible attachment welds to be Visual examinations will be Beltline Region examined at or near the end of perfomed with remote VT.
-the inspection interval.
B13.22 B-N-3 Core-Support Structures Visual (VT-3)
Accessible surfaces to be Visual examinationc will be examined at or near the end of
. performed with remote VT.
the inspection interval.'
B13.30 B-N-1 through Reactor Vessel Interior Visual (VT-1/VT-3)
Items B13.30 through B13.32 not N/A through B-N-3 Attschments and Core applicable to Clinton Power B13.32 Support Structure Station.
B14.10 B-O Control Rod Drive Volumetric or
' Welds in 10% of the peripheral
.The CRD housing welds will be Housing Welds Surface CRD housings to be examined.
. examined with PT.
Examination may be performed at or near the end of the inspection interval.
APPENDIX IV/ISIl 1-8
i TABLE I ILLIQ15 I%ER COMPANY CLINTON POWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROGRAM PIAN (REVISION 2)
CIASS 1 COMPOhTNTS ASMZ ASPE Sec. XI Sec. XI Ites Examination Components & Parts Examination Exarnination Requirements Examination Technique /
No.
Category to Be Examined Method for 10-Year Interval Examination Area Comments M CTOR PRESSURE VESSEL (Cont'd)
B15.10 B-P All Pressure-Retaining Visual (VT-2)
All components to be examined Direct VT examinations may be Boundaries for Vessel during system leakage test.
performed where possible.
Components Eaminations to be performed in Examination areas inaccessible for accordance with IVB-5221 for each direct visual examination may be refueling outage.
examined at the lowest elevation with respect to the component.
B15.11 B-P All Pressure-Retaining Visual (VT-2)
All components to be examined Direct VT examinations may be Boundaries for Vessel during system hydrostatic test.
performed where possible.
Components Examinations to be performed once Examination areas inaccessibic for in accordance with IWB-5222 at the direct visual examination r.ay be end of the inspection interval.
examined at the lowest elevation with respect to the compon_nt.
B15.20 B-P Pressure-Retaining Visual (VT-2)
Itens B15.20 through B15.41 not N/A through Cceponents applicable to Clinton Power Station.
B15.41 APPENDIX IV/ISIl I-9
TABt.E I 11LIGIS POWER COMP.*NY CLINTON POWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLt.SS 1 COMPOSTRIS ASME ASPE Jec. XI Sec. XI
- y. tem Examination Components & Parts Examination Examination Requirements Examination Technique /
Po.
Category to Be Examined Methou for 10-Year Interval Examination Area Cociments PIPING B5.130 B-F Dissimilar Metal Welds Volumetric and 100% of the welde to be The welds will be exam!ned with
>,4 Inches Surface examined.
B5.140 B-F Dissimilar Metal Welds Surface 100% of the welds to be The welds will be examined with
< 4 Inches examined.
PT.
B5.150 B-F Dissimilar Metal Socket Surface Clinton Power Station has no N/A Welds dissimilar metal socket weld; B6.150 B-C-1 Bolts and Studs >2 Inches Volumetric Clinton Power Station has no N/A in Diameter, in Place pressure-retcining bolting greater than 2-inch diameter associated with the Class 1 piping systems.
B6.160 B-C-1 Flange Surface, When Visual (VT-1)
Clinton Pow r Station hzs no N/A Connection Disassembled pressure-retaining bolting greater than 2-inch diameter associated with the Class 1 piping systems.
B6.170 B-C-1 Nuts, Bushings, and Washers Visual (VT-1)
Clinton Power Station has no N/A pressure-retaining bolting greater than 2-inch diameter associated with the Class 1 piping systems.
APPENDIX IV/ISIl I-10
TABLE I ILLINOIS POWER COMPANY CLINTON POWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 1 COMPONENTS ASME ASME Sec. XI Sec. Il Item Examination Components & Parts Examination Exa:nination Requirements Examination Technique /
No.
Category to Be Examined Method for 10-Year Interval Examination Area Corvnents PIPING (Cont'd)
B7.50 B-G-2 Bolting 6 2 Inches Visual (VI-1)
All bolts, studs, and nuts to be The bolting will be examined in Diameter examined. The bolting may be with direct VT.
exart*ned in place under tension or when removed.
59.11 B-J Circumferential Pipe Welds Volumetsic and 25% of the circumfere.itial butt The piping welds will' be exarnined
) 4 Inches in Diameter Surface welds, selected per Note (1),
with manual UT and PT or MT as Table IWB-2500-1, Category B-J, applicable.
to be examined.
89.12 B-J Iongitudinal Pipe Welds Volumetric and Adjoining longitudinal welds for The piping welds will be examined
),4 inches in Diameter Surface scheduled circumferential welds with mianual UT and PT or Mr as to be exanined. One applicable, pipe-diameter length of 12 inches of each longitudinal weld length required.
B9.21 B-J Circumferential Welds Surface 25% of the circumferential butt The piping welds will be examined
< 4 Inches in Diameter welds, selected per Note (1),
with PT or tfr as applicable.
Table ;WB-2500-1, Category B-J, to be examined.
B9.22 B-J Longitudinal Pipe Welds Surface Clinton Power Station has no N/A C 4 Inches in Diameter longitudinal pipe velds associated with Class 1 piping system less than 4 inches in diameter.
APPENDIX IV/ISIl I-ll
TABLE I, Ill.1NOIS POWER COMPANY CLINTON POWER STATION (CPS) L' NIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 1 COMPONENTS ASME ASME Sec. Il Sec. XI Item Examination Cm ponents & Parts Examination Examination Reluirements Examination Technique /
No.
Category to Be Examined Method for 10-Year Interval Examination Area Con:ments PIPING (Cont'd)
B9.31 B-J Branch Pipe Connection Volumetric and 25% of the branch connection The branch connection welds will Welds 34 Inches in Surface joints, selected per Note (1),
be examined with manual UT and Diameter Table IWB-2500-1, Category B-J, PI or MI as applicable.
to be examined.
B9.32 B-J Branch Pipe Connection Surface 25% of the branch connection The branch connection welds will Welds <4 Inches in joints, selected per Nota (1),
be examined with PT or tff as Diameter Table IWB-2500-1, Category B-J, applicable.
to be examined.
B9.40 B-J Socket Welds Surface Item B9.40 is not applicable to N/A Clinton Power Station.
B10.10 B-K-1 Integrally Welded Voluretric or 25% of the supports whose The integrally welded attacinents Attachments Surface attachment base material is 5/8 will be examined with PT or MT as inch and greater to be examined, applicable.
B15.50 B-P All Pressure-Retaining Visual (VT-2)
All components to be examined All pressure-retaining boundaries Boundaries for Piping during system leakage test.
for piping systems may be Componente Examination to be performed in examined with direct visual (%T-2) accordance with IWB-5221 for each where feasible. Examination areas refueling outage.
inaccessible for direct visual examination snay be examined at the lowest elevation with respect to the component.
APPENDIX IV/ISIl I-12
TABLE I ILLINOIS POWER COMPANY CLINTON POWER STATION (CP.3) UNIT 1 INSERVICE EXAMINATION PROCPMI PLAN (REVISION 2)
CLASS 1 COMPONENTS ASME ASPE Sec. XI Sec. XI Icea Examination Components & Parts Examination Examination Requirements Examination Technique /
No.
Category to Be Examined Method for 10-Year Interval Examination Area O)mments PIPING (Con't)
B15.51 B-P All Pressure-Retaining Visual (VT-2)
All components to be examined All pressure-retaining bound. aries Boundaries for Piping during system hydrostatic test.
for piping systems any be Components Examination to be performed in examined with direct visual (VI-2) accordance with IWB-5222 at the where feasible. Examination areas end of the inspection interval.
inaccessible for direct visual examination may be examined at the lowest elevation with respect to the cornponent.
APPE*IDIX IV/ISIl I-13
TABLE I ~
i
'I ILLINOIS POWER COMPANY CLINTON PGwER STATION (CPS) UNIT 1 l
INSERVTCE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 1 COMPONENTS AS?"I ASPE Sec. XI Sec. II Item Examination Componsnts & Parts Examination Examination Requirements Examination Technique /'
No.
Category to Be Examined Method for 10-Year Interval Examination Area Comments i
PLMPS l
B6.190 B-C-1 Bolts and Studs > 2 Inches Volvmetric All Volts and studs to be The bolting will be examined in Diameter examined. The bolting may be with manual UT.
examined in place under tension, when connection is disassembled, s
or when the bolting is removed.
B6.190 B-C-1 Flange Surface for bolting Visual (VI-1)
All surfaces and 1 Ireh annular..
The flange surfaces will be
> 2 Inches in Diameter When area around each stud hole to be examined with direct VT.
Connection Is Disassembled exami. m when disassembled.
B6.200 B-C-1 A:s, Bushings, and Washers Visual (VT-1)
All nuts, bushings, and washers The nuts and washers will be
> 2 Inches in Diameter to be examined when disassembled.
examined with direct VT.
B7.60 B-C-2 Bolts, Studs and Nuts Visual (VT-1)
Clinton Power Station has no N/A 4 2 Inches in Diameter pressure-retaining bolting 2 inches in diameter or less associatLd with the Class 1 PtWs.
B10.20 B-K Integrally Welded Volumetric or Attachments to pumps associated Welded attachments will be Attachments Surface with piping selected under examined with manual UT or Category B-J to be examined.
surface examination techniques Attachments whose base material as applicable.
thickness is 5/8 inch and greater to be examine <1.
APPENDIX IV/ISIl I-14
z.
+
TABIE I ILLINOIS POWER COMPANY CLINIDN POWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROGR/Ji PLAN (REVISION 2)
CLASS 1 COMPONENTS ASME ASPE Sec. XI Sec. XI Ites Examination Components & Parts Examination Examinatic Requirements Examination Technique /
No.
Category to Be Examined Method for 10 ' ar Interval Examination Area Comments PLHPS (Cont'd)
B12.10 B-L-2 Ptssp Casing Welds Volumetric Reactor recirculation pump core N/A closure welds exempt from.
examination at Clinton Power Station.
B12.20 B-L-2 Internal Surfaces of Visual (VT-3)
One reactor recirculation purap Pump casing 'internil surface will Pump Castags tc be examined.
be examined with remote or direct visual techniques as applicable.
B15.60 B-P Pressure-Retaining Visual (VT-2)
All components'to be examined All pressure-retaining boundaries -
Boundaries for Pump during system leakage test.
for pumps may be examia d with Components Examination to be performed in direct visual (VI-2) where accordance with IWB-5221 for each feasible. Examination t.neas refueling outage.
Inaccessible for direct visual eramination may be examined at the lowest elevation with respect to the component.
B15.61 B-P Pressure-Retaining Visual (VT-2)
All components to be examined All pressure-retaining bwndaries Bounds. ries for Pump during system leakage test.
for pumps may be exarained with Components Examination to be performed in direct visual (VT-2) Miere accordance with IWB-5222 at the feasible. Examination steas end of the inspection interval.
inaccessible for direct visual examination may be examined at the lowest elevation with respect to the component.
6 APPENDIX IV/ISIl I-15 g
i
TABLE I ILLINOIS POWER COMPANY CLINTON POWER STATION (CPS) UNIT 1 INSERVICE EXAMINAT79N PRfvTAM PLAN (REVISION 2)
CLASS 1 COMPONENTS ASME ASPE Sec. II Sec. XI Iteo Examination Components & Parts Examination Examination Requirements Examination Technique /
Eo.
Category to Be Examined Method for 10-Year Interval Examination Area Comments VALVES B6.210 B-G-1 Bolts and Studs,>2 Inches Volumetric Clinton Power Station has no N/A in Diameter pressure-retaining bolting greater than 2-inch diameter associated with Class 1 valves.
B5.220 B-G-1 Flange Surface for Bolting Visual (VT-1)
Clinton Power Station has no N/A
> 2 Inches in Diameter When pressure-retaining bolting Connection Is Disassembled greater than 2-inch diameter associated with Class 1 valves.
B6.230 B-C-1 Nuts, Bushings, and Washers Visual (VT-1)
Clinton Power Station has no N/A
>2 Inches in Diameter pressure-retaining bolting greater than 2-inch diameter associated with Class 1 valves.
i B7.70 B-G-2 Bolting $2 Inches in Visual (VT-1)
All bolts, studs, and nuts to be Bolting w'11 be examined with Diameter examined. The bolting may be direct VI.
examined in place under tension, when the connection is disassesrbled, or when the bolting is removed.
B10.30 B-K-1 Integrally Welded Volumetric or Attachments to valves associated Welded attachments will be Attachments Sur face with piping selected under examined with manuJ1 ITI or Category B-J to be examined.
surface examination techniques Attachments whose base material as applicable, thickness is S/8 inch and greater to be examined.
APPENDIX IV/ISIl 1-16
IABLE I ILLI"OIS POWER COMPANY CLINTON POWER STATION (CPS) I' NIT 1 INSFRVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 1 COMPONENTS ASME ASPE Sec. XI Sec. XI Itco Examination Components & Parts Examination Examination Requirements Examination Technique /
No.
Category to Be Ixamined Method for 10-Year Interval Examination Area Comments VALVES (Cont'd)
B12.30 B-M-1 Valve Body Welds 44 Inches Surface Clinton Power Station has no N/A Nominal Pipe Size Class 1 valve body welds.
B12.40 B-M-1 ValveBodyWelds)4 Inches Volumetric Clinton Power Station has no N/A Nominal Pipe Size Class 1 valve body welds.
B12.50 B-M-2 Internal Surfaces of Valve Visual (VT-3)
One valve in each group of valves Internal surfaces will be examined Bodies on Valves >4 Inches that is of the same construction with remote or direct visual Nominal Pipe Size and sinflar function to be techniques as applicable, examined.
B15.70 B-P All Pressure-Retaining Visual (VI-2)
All components to be examined All pressure-retaining boundaries BouMaries for Valve during system leakage test.
for valves may be examlned with Components Examination to be performed in direct visual (VT-2) where accordar.<e with IWB-5221 for each feasible. Examination areas refueling outage.
inaccessible for direct visual examination may be examined at the lowest elevation with respect to the component.
B15.71 B-P All Pressure-Retaining Visual (VI-2)
All components to be examined All pressure-retaining boundaries Boundaries for Valve d' ring system hydrostatic test.
for valves may be exa:nined with I
Components Examination to be performed in direct visual (VT-2) stere accordance with IWB-5222 at the feasible. Examination areas end of the inspection interval.
Inaccessible for direct visual examination may be examined at the lowest elevation with respect to the component.
APPENDIX IV/ISIL I-17
TABIZ I ILLINuIS POWER COMPANY CLINTON POWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CIASS 1 COMPONENTS ASME ASPE Sec. XI Sec. XI Iteo Examination Components & Parts Examination Examination Requirements Exmination Technique /
No.
Category to Be Examined Method for IO-Year Interval Examination Area Comments NOTE DI6.10 B-Q Steam Cenerator Tubirig volumetric Items B16.10 through 816.20 not N/A' through applicable to Clinton Power Station.
B16.20 1
f i
I APPENDIX IV/ISIl 1-18 r
-w--,,-----
w-r-1
,y.,,.
1 TABIE I ILI.1NOIS 1%T.R COMPANY CLINTON POWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 2 COMPONENTS
- ASMF, ASPE Sec. XI Sec. X1 Iten Examination Components & Parts Examination Examination Requirements Examination Technique /
No.
Category to Be Fwmmined Method for 10-Year Interval Examination Area Comments PRESSURS VESSELS C1.10 C-A Shell Circumferential Welds Volumetric 100% of each weld to be examined The welds will be examined with (applies to welds at gross manual III.
structural discontinuities). For multiple vessels of similar design size and service, examinations may be limited to one vessel.
C1.20 C-A Head Circumferential Welds Volumetric 100% of each weld to be examined.
The velds will be examired with For multiple vessels of similar manual UT.
design size and service, examinations may be limited to
-)
one vessel.
C1.30 C-A Tube Sheet-to-Shell Weld Volumetric 100% of each weld to be examined.
The welds will ba examined with For multiple vessels of similar manual UT.
design size and service, j
examinations may be limited to one vessel.
C2.10 C-5 Nozzles L2 VesselsS1/2 Surface All nozzles to be selected at The welds may be examined with and Inch Nominal Thickness, terminal ends of piping runs MT or PT as applic>-ble.
C2.11 Nozzle-to-Shell (or sele <:ted for examination under Head) Weld Category C-F.
100% of each weld to be examined. Manways and hand 1
holes excluded.
1 APPENDIX IV/ISIl I-19
TABLE I II.I.INOIS PO='ER COMPANT CLINTON POWER STATION (CPS) I' NIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
C1. ASS 2 CONFONENTS t.SME ASPE Sec. XI fer. XI Item Examination Components & Parts Examination Ezamination Requirements Examination Technique /
No.
Category to Be Examined Method for 10-Year Interval Examination Area Comments PRESSURE VESSELS (Cont'd)
C2.20 C-B Nozzles in Vessels >1/2 Surface and All nozzles to be selected at The welds may be examined with end Inch Nominal Thickness, Volumetric terisinal ends of piping runs IT and NI or PT as applicable.
C2.21 Nozzle-to-Shell (or selected for examination under Head) Weld Category C-F.
100% of each weld to be examined. Manways and hand holes excluded.
C2.22 C-B Nozzle Inside Radius Volumetric 100% of each area to be examined.
'the nozzle inside radius section Section Manways and hand holes are will be examined with UT.
excluded.
C3.10 C-C Integrally Welded Surface 100% of each weld to be examined.
It.e welded attachments will be Attachments Attachments whose base material examined with ta or PT as is 3/41rch or greater to be applicable.
selecteo.
C4.10 C-D Bolts and Studs Volinetric Clinton Power Station has no N/A pressure-retaining bolting greater than the 2-inch diamet*r associated with Class 2 vessels.
C7.10 C-H Pressure-Retaining Visual (VT-2)
All components to be examined All pressure-retaining boundaries Components during system pressure test.
for vessels may be examined with Examinations to be performed in ditect visual (VT-2) where accordance with IWC-5221 for each feasible. Examination areas inspection period.
inaccessible for direct visual examination may be examined at the lowest elevation with : espect to the ccuponent.
,~e,-,,
y,yn
TABt.E I ILL12'JIS POWER COMPANY CLINTON POWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROGRAM P1)LN (PIVISION 2)
CLASS 2 COMPONENTS ASME ASPE Sec. XI Sec. XI Iten Examination Components & Parts Exmination Examination Require'ments Examination Technique /
No.
Category to Be Examined Method for 10-Year Interval Examination Area Cocwnts PRESSURE VESSELS (Con't)
C7.20 C-H Pressure-Retaining Visual (VI-2)
All components to be examined All pressure-retaining boundaries Components during system hydrostatic test.
for vessels may be examined with Examinations to be performed in direct visual (VT-2) where accordance with Ikt-5222 at the feasible. Examination areas end of each inspection interval.
Inacces.ible for direct visual examina*.lon may be examined at the lowest elevation with respect to the component.
APPENDIX IV/IS11 1-21
TAB 12 I ILLINOIS POWER COMPANY CLINTON PCEER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROGRAM PIAN (REVISION 2)
CLASS 2 COMPOhT.NTS ASME ASME Sac. XI Sec. XI Item Exm ir.ation Components & Parts Examination Examination Requirements Examination Technique /
No.
Category to Be Examined Method for 10-Year Interval Examination Area Comments PIPING C3.20 C-C Integrally Welded Surface 100% of each veld to be examined.
The welds will be examined with Attachments Attachments whose base material MT or PT as applicable, is 3/4 inch or greater to be selected. Selection limited to those components selected under Examination Category C-T.
C4.20 C-D F,olts and Studs Volumetric Clinton Power Station has no N/A pressure-retaining bolting greater than 2-inch diameter associated with Class 2 piping C5.11 C-T Circumferential Piping Welds Surface 100% of each veld requiring The welds will Le examined with 6 1/2-Inch Nominal Wall examination. See Footnotes to MI or PT as applicable.
Thickness for Piping >4 Inches Table IWC 2500-1.
HTS C5.12 C-F Longitudinal Piping Welds Surface Examine a length of 2.5 x nominal Ihe welds will be examined with 41/2-Inch Ncuninal Wall wall thickness at the intersecting PC or PT as applicable.
Thickness for Tiping )4 Inches circumferential weld requiring NPS.
examination under C5.11 above.
C5.21 C-F Circumferential Pl;ing Welds Surface and 100'4 of each weld requiring The welds will ne examined with
>I/2-Inch Nominst Wall Volumetric examination. See Footnotes to UT and MI or PT as applicable.
Thickness fo-Piping >4 Inches Table IWC 2500-1.
HTS.
APPENDIX IV/ISIl I-3
TABLE I ILLINOIS POWER COMPANT CLINION POWER STATION (CPS) UNIT 1 INSER71CE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 2 COMPONEhTS ASME ASFE Sec. XI Sec. II Ites Examination Components & Parts Examination Examination Requirements Examination Technique /
No.
Category to Be Examined Method for 10-Year Interval Examination Area e-nt s PIPINC (Cont *d)
C5.22 C-F Longitudinal Piping Welds Surface and Examine a length of 2.5 x nominal The welds w',11 be examined with
> 1/2-Inch Nominal Wall Volumetric wall thickness at the intersecting UT and PC or PT as applicable.
Thickness for Piping >4 Inches ciretsnferential weld requiring EPS.
examination under C5.21 above.
C5.31 C-F Circumferential Pipe Surface 100% of each weld requiring N/A Eranch Connection Welds examination. See Footnotes to
> 4-Inch Naminal Branch Table IWC 2500-1.
Pipe Size C5.32 C-F Longitudinal Welds at Surface Clinton Power Station has nc N/A Circumferential Branch intersecting longitudinal seam Connection Welds welds at branch connections.
C7.30 C-H Pressure-Retaining Visual (VI-2)
All components to be examined All pressure-retaining boundaries Components during system pressure test.
for piping may be examined with Examination to be performed in direct visual (VI-2) where accordance with IWC-5221 for each feasible. Examination areas inspection period.
inaccessible for direct visual examination may be examined at the lowest elevation with respect to the component.
APPIXDIX IV/ISIl I-23
TABt2 I 1111NOIS F0WER CONPANY CLINTON POWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 2 COMET.NTS ASME ASPE Sec. XI Sec. II Itco Examination Components & Parts Examination Examination Requirements Examinatica Techn1<pse/
No.
Category to Be Examined Method for 10-Year Interval Examination Area Cements PIPING (Con't)
C7.40 C-H Pressure-Retaining Visual (VT-2)
All components to be examined All pressure-retaining beundaries Components during system hydrostatic test.
for piping may be examined with Exmination to be performed in direct visual WT-2) where accordance with IWC-5222 for each feasible. Examination areas inspection interval.
inaccessible for direct visual examination m.ay be examined at the lowest elevation with r *spect to the cmponent.
APPUiDIX IV/ISIl I-24
TABt2 I 7
ILI.Ile0IS FonER COMPANY CLINION POWER SIATION (CFS) UNIT 1 INSERVICE EXAMINATION PitOGRAM PIAN (REVISION 2)
CLASS 2 COMPONENTS ASME ASfE l
Sec. II Sec. XI Itcu Examination Componen?.s & Parts Examination Examination Requirements Exanination Technique /
Ko.
Category to % Examined Met {
for 10-Year Interval Examinition Area Crements PUMPS f
l C3.30 C-C Integrally nielded Surface 100% of each weld to be examined.
The welds will be examined wi%
Attachments 7*tachments whose base material MI or PT as applicable.
l is /4 inch or greater to be selected. Selection limited to those cosponents selected under Examination Categc ~ C-C.
I i
C4.30 C-D Bolts and Studs, Bolting
' Volumetric Clinton Power Station has no N/A
>2 Inches in Diameter pressure-retaining bolting j
greater than 2-inch diameter l
associated with Class 2 pt es.
C6.10 C-C Pump Casing Welds Surface 1004 of each pump casing welds.
The wlds will be examined with i
Selection limited to those MI or PT as applicable.
components selected under Examination Category C-F.
C7.50 C-H Pressure-Retaining Visual (VT-2)
All components to be examined Allt pressure-retaining boundaries Com.ponents during system pressure test.
for purps say be examined with Examination to be performed in direct visual GT-2) where accordance with IWC-5221 for each feasible. Examination areas.
inspection period.
Inaccessible for direct visual examination may be examined at the lowest elevation with respect to the component.
l l
APPENDIX IV/IS11 I-25
TAB 1.E I ILLINOIS FOWER COMPANY CLI!fION POWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CIASS 2 COMMihTNTS ASME ASPE Sec. XI Sec. XI Item Examination Components & Parts Fxamination Examination Requirements Examination Technige:e/
Mo.
CateEory to Be Examined Method for 10-Year Interval Examination Area Consnents PLHPS (Cont'd)
C7.60 C-H Pressere-Retaining Visual (VI-2)
All components to be examined All pressure-retaining tsoundaries Component s during system hydrostatic test.
for pumps may be exmined with Exmaination to be performed in direct visual (VT-2) dere accordance with IWC-5222 for each feasible. Examination areas inspection interval.
inaccessible for direct visual examination sny be examined at the lowest elevation with respect to the cmponent.
(
)
I-26 APPENDIK IV/ISIL
TASIE I II11NOIS POWER 000fANY CLINION POWER STATION (CPS) L' NIT 1 INSERVICE EXAMINATION PROGRAM PIAN (REVISION 2)
CLASS 2 COMPONENTS ASME ASPE Sec. XI Sec. XI Item Examination Components & Parts Examination Examination Requirements Examination Technique /
No.
Category to Be Examined Method for 10-Year Irterval Eramination Area Comments vat.VES C3.40 C-C Integrally Welded Surface 100% of each weld to be examined.
The welds will be examined with -
Attachments Attachments whose base material MI or PT as applicable.
is 3/4 inch or greater to be selei.ted. Selection limited to those components selected under Examination Category C-C.
C4.40 C-D Bolts and Studs, Bolting Tolumetric Clinton Power Station has no N/A
>2 Inches in Dimeeter pressure-ret.ining bolting greater than 2-inch diameter associated with Class 2 valves.
C6.20 C-C Valve Body Welds Surface Clinton Power Station has no' N/A body velds associated with Class 2 valves.
' k C7.70 C-H Pressure-Retaining Visual (VT-2)
All components to be examined All pressure-retain *ng boundaries Components during system pressure test.
for valves may be examined with Examination to be performed in direct visual (VT-2) where accordance with IWC-5221 for each feasible. Examiaation areas inspection period.
inaccessible for direct visual examination may be examined at the lowest elevation with respect to the component.
APPENDIX IV/ISIl 1-27 m
w
- = =
- es-
- v r-em m w-w
---ra-m>~-
7
--,me
--w
.e
- w wa -w m--re s
-,e
-,v.
-w--
r t.
r-~<a
- s-*--
3*mt-
--,e W-e v
t-
TABLE 1 II.1.1NOIS POWER QT1PANY C1.INTON POWER STATION (CPS) L* NIT 1 INSERVICE EXAMINAIl0N PROGRAM PLAN (REVISION 1)
CLASS 2 GMPONENTS j
wn:
ASm Sec. II Sec. XI Ite]
Examination C=ponents f Parts Examination Examination Requirements Examination Technique /
No.
Category to Be Examined Method for 10-Year Interval Examination Area Ccements VALVES (Cont'd) i C7.80 C-H Pressure-Retaining Visual (VT-2)
All components to be examined All pressure-retaining troundaries Caponents during system hydrostatic test.
for valves may be exmined with Fxamination to tre performed in direct visual (VT-2) utere s
accordance with IW5222 for each feasible. Examination areas inspection interval.
Inaccessible for direct visual examination may be examimd at the lowest elevation with respect to the cm ponent.
l i
l l
AITENDIX IV/IS11 1-28 i
1
l TABl.E I ILLINOIS F0WER QYtPANY CLINIDN F0WER STATION (CPS) L' NIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 3 00PG0 6 TS AS?tE ASPE Sec. XI Sec. XI Item Examination Components 6 Pi cs Fu =1 nation Examination Requirements Examination Technique /
No.
Catepry to Be Examined Method for 10-Year Interval Examination Area Comments PRESSUFI VESSEIS samined All pressure-retalning components D1.10 D-A Pressure-Retaining Visual (VT-2)
All components a
Components in Support of during system pr - o 5 or systen may be examined with direct Reactor Shutocan Function hydrostatic test. Examination to visual (VI-2) where feasible.
be performed in accordance with Examination areas inaccessible for InfD-5221 for each inspection direct visual exaaination ray te period and performed once in examined at the losest elevation accordance with IWD-5223 at the with respect to the cmponent.
end of the inspection interval.
D2.10 D-R Pressure-Retaining Visual (VI-2)
All corpponents to be examined All pressure-retaining coeponents Caiponents in Support of during system pressure or syste:s may be examined with direct Emergency Core Cooling, bMrostatic test. Examinati:>n to visual (VT-2) where feasible.
Containment Heat Removal, perforleed in accordance with Examination areas inaccessible for Atmosphere Cleanup and J-5221 for each inspection direct visual examination m.ny be Reactor Residual Heat period and performed once in examined at the lowest elevation Removal System.
accordance with IW-5223 at the with respect to the cor::ponent, end of the inspection interval D3.10 D-C Pressure-Retaining Visual (VT-2)
All components to be examined All paessure-retaining ccaponents Components in Support of during system pressure or system may be examined with direct Residual Heat Removal hydrostatic test. Examination te visual (VI-2) where feasible.
from Spent Puel Storage be performed in accordance with Examination areas ine:cessible for Pool IWD-5221 for each inspection direct visual examination may be period and performed once in examined at the lowest elevation accordance wit's IED-5223 at the with respect to the component.
end of the inspection interval.
I APPENDIX IV/ISIl 1-29 i
TAB 1.E I f
I-IILINOIS POWER COMPANY-CLINTON POWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROCRAM b N (!EVISION 2)
CLASS 3 COMPONENTS ASME ASME Sec. XI Sec. XI Ites Examination Components f. Parts Examination Examination Requirements Examination Technique /
No.
Category to Be Examined Method for 10-Year Interval Examination Area Comments FIPING D1.10 D-A Pressure-Retaining Visual (VT-2)
All components to be examined All pressure-retaining components-Components in Support of during system pressure or system may be examined with direct Reactor Shutdown hydrostatic test. Examination to visual (VI-2) where feasible.
- Function, be performed in accordance with Examination areas inaccessible for
{
IWD-5221 for each inspection direct visual examination m9y be period and performed once in examined at the lowest elevation accordance with IWD-5223 at the with respect to the component.
end of the inspection interval.
D1.20 D-A Integral Attachments Visual (VT-3)
All attachments to be examined The integral attachments may be through (i.e., Supports, during each inspection interval, examined with direct VT, D1.60 Restraints, Mechanical and Hydraulic Snubbers, and Shock Absorbers) 3 D2.10 D-B Pressure-Retalning Visual (VT-2)
All :omponents to be examined All pressure-retaining components Components in Support of during system pressure or system may be examined with direct visual' Emergency Core Cooling, hydrostatic test. Examination to (VT-2) where feasible.
Containment Heat Removal,
'be performed in accordance with Examination areas inaccessible for Atmosphere Cleanup and IWD-5221 for each inspection direct visual examination may be Reactor Residual Heat period and performed once in examined at the lowest clevation Removal Systems.
accordance with IWD-5223 at the with respect to the component.
end of the inspection interval.
D2.20 D-B Integral Attachments Visual (VT-3)
All attachments to be examined The integral attachments may be through (i.e., Supports, during each inspection interval, examined with direct VT. -
D2.60 Restraints, Mechanical and Hydraulic Snubbers, and Shock Absorbers)
APPENDIX IV/ISIl I-30
.1 TABLE I I
ILLINOIS POWER COMPANY CLIN 1DN POWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 3 COMPONENTS.
ASME ASPE Sec. XI Sec. XI Item Examination Components & Parts Examination Examination Requirements Examination Technique /
No.
Category to Be Examined Method for 10-Year Interval Examination Ares Comments PIPINC (Con't)
D3.10 D-C Pressure-Retaining Visual (VT-2)
All components to be examined All pressure-retaining components Components in Support of during system pressure or system may be examined with direct Residual Heat Removal from hydrostatic test. Examination to visual (VT-2) where feasible.
Spent Fuel Storage Pool be performed in accordance with Examination areas inaccessible for IWD-5221 for each inspection direct visual examination may be period and performed once in examined at the lowest elevation accordance with IWD-5223 at the with respect to the component.
end of the inspection interval.
D3.20 D-C Integral Attachments Visual (VT-3)
All attachments to be examined The integral attachments may be through (i.e., Supports, during each inspection in'terval.
examined with direct VT.
D3.60 Restraints, Mechartical and Hydraulic Snubbers, and Shock Absorbers) 4 j
APPENDIX IV/ISI)
I-31
TABLE I ILLINOIS POWER COMPANY CLLVION POWER STATION (CPS) I' NIT 1 INSERVICE EXAMINATION PROGRAM PIAN (PEVISION 2)
CLASS 3 COMPONENTS ASME ASFE Sec. XI Sec. XI Item Examination Components & Parts Examination Examination Requirements Examination Technique /
No.
Category to be Examined Method for 10-Year Interval I'xamination Area Commcats PUMPS D1.10 D-A Pressure-Retaining Visual (VI-2)
All components to be examined All pressure-retainir 3 components Components in Support of during system pressure or system may be examined with direct visual Reactor Shutdown Function hydrostatic test. Examination to (VI-2) where feasibic.
be performed in accordance with Examination area inaccessible for IWD-5221 for each inspection direct visual examination may be period and performed once in examined at the lowest elevation accordance with IWD-5223 at the with respect to the component.
end of the inspection interval.
D1.20 D-A Integral Attachment Visual (VI-3) 100% of each weld to be e tamined.
The welded attactanent will be through examined with direct or remote D1.60 methods.
D2.10 D-B Pressure-Retaining Visual (VI-2)
All components to be exa:nined All pressure-retaining corrponen s Components in Support of during system pressure or system may be eramined with direct visual Emergency Core Cooling, hydrostatic test. Examination to (VT-2) where feasible.
Containment Heat Removal, be performed in accordance with Examination area inaccessible for Atmosphere Cleanup and IWD-5221 for each inspection direct visual examination may be Reactor Residual Heat period and performed once in examined at the lowest elevation Removal Sysrems.
accordance with IWD-5223 at the with respect to the component.
end of the inspection interval.
D2.20 D-B Integral Attachment Visual (VT-3) 100% of each weld to be examined.
The welded attachment will be examined with direct or remote through D2.60 method.
APPENDIX IV/ISIL I-32
4 4
TABLE I ILLINOIS POWER COMPANY
~
CLINTON POWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2) 9 CLASS 3 COMPONENTS l
t ASME ASPE Sec. XI Sec. XI Item Examination Components & Parts Examination Examination Requirements Exanination Technique /
No.
Category to Be Examined tie thod for 16-Year Interval Examination Area Cmments T
PUMPS (Con *t)
D3.10 D-C Pressure-Retaining Visual (VT-2)
All components to be examined All pressure-retaining components Components in Support of during system pressure or system cay be examined with direct visual'
~
Residual Heat Removal hydrostatic test. Examination to (VT-2) where feasible.
from Spent Fuel Storage be performed in accordance with Examination area inaccessible for Pool.
Ik'D-5221 for each inspection direct visual examination may be.
period and performed'once in' examined at the lowest elevation accordance with Ik'D-5223 at the with respect to the component.
end of the inspection interval.
i D3.20 D-C Integral Attachment Visual (VT-3) 100% of each weld to be examined.
The welded attachment will be examined with direct er remote.
through D3.60 method.
I J
4 i '
APPENDIX IV/ISIl
.I-33
TAdLE I ILLINOIS POWER COMPANY CLINTON POWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PR(TRA 1 ?LAN (RE11S10N 2)
~
CIASS 3 COMPONENTS 4
ASME ASPE Sec. XI Sec. XI Item Examination Components & Parts Examination Examination Requirements Examination Technique /
No.
Category to Be Examined Method for 10-Year Interval Examination Area Con:ments UALVES D1.10 D-A Pressure-Retaining Visual (VI-2)
All components to be examined All pressure-retaining components Components in Support of during system pressure or system may be examined with direct visual Reactor Shutdown Function hydrostatic test. Examination to (VI-2) where feasible.
be performed in accordance with
. Examination area inaccessible for IWD-5221 for each inspection direct visual examination may be period and performed once in examined at the lowest elevation accordance with IWD-5223 at the with respect to the component.
end of the inspection interval, i
D1.20 Integral Attachment Visual (VT-3)
D1.20 through D1.60 not applicable N/A
-(
through to Clinton Power Station.
D1.60 D2.10 D-B Pressure-Retaining Visual (VI-2)
All components to be examined All pressure-retaining components l
Components in Support of during system pressure or system may be examined with direct visual I
Emergency Core Ccoling, hydrostatic test. Examination to (VT-2) where feasible.
1 Containment Heat Removal, be performed in accordance with Examination area inaccessible for Atmosphere Cleanup and IWD-5221 for each inspection direct visual examination may be Reactor Residual Heat period and performed once in examined at the lowest elevation i
Removal Systems accordance with IWD-5223 at the with respect to the cornponent.
l end of the inspection interval.
l 1
E2.20 D-B Integral Attachment Visual (VI-3)
D2.20 through D2.60 not applicable N/A D2.60 to Clinton Power Station.
i L
APPENDIX IV/ISIL I-3*
TABLE I ILLINOIS POWER COMPANY CLINION POWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROCRAM F AN (REVISION 2)
I CLASS 3 N NTS ASME ASE
~
Sec. XI Sec. XI Iten Examination Components & Parts Examination Examination Requirements Examination Technique /
No.
Category to Be Examined Method for 10-Year Intenral Fxaminatfor Area Comments VALVES (Con't)
D3.10 D-C Pressure-Retaining Visual (VT-2)
All components to be examined All pressure-retaining components Components in Support of during system pressure or system may be examine] with direct visual Residual Heat Removal hydrostatic test. Examination to (VT-2) where feasibic, from Spent Fuel Storage be performed in accordance with
- Examination area inaccessibic for Pool.
IWD-5221 for each inspection direct visual examination maf be period and performed once in examined at the lowest elevation accordance with IWD-5223 at the with respect to the component.
end 'of the inspection interval.
D3.20 D-C Integrai Attachment Visual-(VT-3)
D3.20 through D3.60 not applic-N/A-through able to Clinton Power Station.
D3.60 APPENDIX IV/ISIl I
TABLE I' I?
ILLINOIS POWER COMPANY CLINION POWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROGRAM PIAN (REVISION 2)
CIASS 1, 2, 3 COMPONENT SUPPORIS Item Examination Components & Parts Examination Examination Requirements Examination Technique /-
No.
Category to Be Examined Method for 10-Year Interval Examination Area Comments PLATE AND SHELL TYPE SUPPORTS F1.10 F-A Mechanical Connections to Visual (VT-3)
Component supports to be selected Plate and shell type supports may through Pressure-Retaining for examination are the supports be examined with direct VI.
F1.40 Components and Building of the components to be exa31ned Structure; Weld under ISI program plan.
Connections to Building Examination boundaries Structure; Weld and established in accordance with Mechanical Connections at IWF-1300. ISI of component Intermediate Joints in supports may be performed during Multiconnected Integral normal system operation or plant and Nonintegral Supports;
- outages, and Component Displacement Settings of Cuides and Stops, Misalignment of Supports, Assembly of Support Items APPENDIX IV/ISIl I-36
TABLE I' ILLINOIS POWER COMPAhY CLINION POWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CIASS 1, 2, 3 COMPONENT SUPPORTS Ites Examination Components & Parts Examination Examination Requirements Examination Technique /
No.
Category to Be Examined Method for 10-Year Interval Examination Area Crements LINEAR TYPE SUPPORTS F2.10 F-B Mechanical Connections to Visual (VT-3)
Component supports to be selected Linear type supports may through Pressure-Retaining for examination are the supports be examined with direct VI.
F2.40 Components and Building of the components to be examined Structure; Weld under ISI program plan.
Connections to Building Examination boundaries Structure; Weld and established in accordance with Mechanical Connections at IWF-1300. ISI of component Intermediate Joints in supports may be performed during.
Multiconnected I.ategral normal system operation or plant and Nonintegral Supports;
- outages, and Component Displacement Settings of Guides and Stops, Misalignment of Supports, Assembly of Support Items APPENDIX IV/ISIL I-37
TABLE 7 ILLINOIS POWER COMPANY CLINION POWER STATION,(CPS) UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 1, 2, 3 COMPONENT SUPPORIS Item Examination Components & Parts Ex;unination Examination Requirements Examination Technique /
No.
Category to Be Examined Method for 10-Year Interval Examination Area Co:mnents COMPONENT STANDARD SUPPORTS F3.10 F-C Mechanical Connections to Visual (VT-3)
Component supports to be selected Component standard supports may through Pressure-Retaining for examination are the supports be examined with direct or remote F3.40 Components and Building of the components to be examined VT.
Structure; Weld under ISI program plan.
Connections to Building Examination boundaries Structure; Weld and established in accordance with Mechanical Connections at IWF-1300. ISI of component Intermediate Joints in supports may be performed during Multiconnected Integral normal system operation or plant and Nonintegral Supports; outages.
and Component Displacement Settings of Guides and Stops, Misalignment of Supports, Assembly of Support Items APPENDIX IV/ISIL I-38
Table II ILLINOIS POWER COMPANY CLINTON POWER STATION (CPS) UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN COMPONENT AND PIPING EXAMINATION BOUNDARY (REVISION 2)
APPENDIX IV/ISIl 11-1
,!jlj
,F 0
)
H) U
(
- 2. (
1 D N.
. RAN E
A P
,L
) P DR E( M M
,A R) R S
ODG K
F( O R
R
,R A
E) P M
PP E
( N R
N
,O O) I I NT,A T(
N C
E) I PLM S( A N
,X I ) E K,E
)
D(
2 E
C T) I N
NJV E( R O
M
,E I
G) S S
UI N I
A( I V
T 1E D
V R
EMO
/
T(
DAH U
YI OX T S
NNN CEE
/
M 0
A U A.
V P
O MNP OO L
I N 0
001 2001 CI M E
EX 00000001 230000000001 2221 1 1 S
S M
M 1 23491 1 1 1 1 1 21 234581.
TA T
S SCE
. 3333455 I
RAR N
E AET 11 1 l 334 4 4 4 55666667B1 1 1 1 1 1 1 I
ETG E
V SI BBBBBBBBBBBBBBB3BBBBBBBBPB WSO N
2 E O R
O E
P R
L PRP 1
M U
B E
O S
1 A SWN C
S TI CO E
E 1
R OPI G
P S
N T
A S
I P
I NA S
R S
LON A
O A
LTI L
T B
NM C
C I
A N
I A E
O A
LX R
I
/
CE T
N P
E M
E C
X I
E VRESN I
T PM O
E N
X E
/ S LS AE I N RK EC T I AH MT EEE PNZ I I I PLS 3
N 0
I 0
E D
3 1
B 1
2Tm j-l i
TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION I'ROGRAM PLAN (REVISION 2)
CLASS 1 COMPONENTS FEEDNATER SYSTEM PIPING (FW)
PIPE ASME CODE LINE MATERIAL /
SEC XI EXAM EIN SIZE THICKNESS EXEMPT EXEMPTION BASIS ITEM NO METHDD REMARKS 1F002GA 18.00 CS/1.156 NO N/A B9.11 V0/SU IFWO2GB 18.00 CS/1.156 NO N/A B9.11 V3/SU 1FN02HA 12.00 CS/0.844 NO N/A B9.11 VD/SU 1FWO2HB 12.00 CS/0.844 NO N/A B9.11 VD/SU IFWO2HC 12.00 CS/0.844 NO H/A B9.11 VD/SU B10.10 1FWO2HD 12.00 CS/0.844 NO N/A 59.11 VD/SU B10.10 IFWO2JA 18.00 CS/1.781 N3 N/A B7.11 VD/SU AUSMENTED INSPECTION PERFORMED PER 1.2(F.1)
DF INSERVICE EXAMINATION PROGRAM PLAN.
1FWO2JB 18.00 CS/1.781 NO N/A B9.11 VD/SU AUGMENTED INSPECTION PERf'RMED PER 1.2(F.1) 0F IN'iERVICE EX AMINATION Pl.0 GRAM PLAN.
1FWO2KA 20.00 CS/1.969 ND N/A B9.11 VD/SU AUSMEN1ED INSPECTION PERFORMED PER 1.2(F.11 B10.10 0F INSERVICE EXAMINATION PROGRAM PLAN.
1FWO2KB 20.00 CS/1.969 NO N/A B9.11 VD/SU AUDMENTED INSPECTION PERFORMED PER 1.2(F.1)
B10.10 0F INSERVICE EXAMINATION PROGRAM PLAN.
l 1
i '
PAGE: II-3
e
)
1 F
(
- 2. N 1 A L
DR EG MO RR S
OP K
F R
RN A
EO M
PI E
T R
NA ON I I TM CA EX PE SNE I C I
)
DV 2
ER TE N
NS EN O
MI I
G S
UF I
A0 V
)
P 1 E H
D R
EMO U
U U
(
T(
DAH S
S S
YI G
OX T
/
/
/
NNN N
CEE D
D D
I M
V V
V AUA P
P L
I MNP P
O I N 0
0 OO CI M M
EX 1 1 1 1 1
S E
M M
1 1
1 TA T
T SCE
.0
.0 I RAR N
S AET 91 91 9
I ETG E
Y SI BB 3B B
WSO N
S 4
E O R
O P
Y L PRP I
M A
B E
O R
I A SWN C
P TI OO S
E OP7 G
1 E
S N
T A
S R
I P
I NA S
O S
LON A
C A
LTI L
B I NM C
E R
N I A U
O A
A A
LX S
I
/
/
/
CE S
T N
N N
E P
E R
M P
E C
X I
H E
V G
R I
E H
SN I
T P
M O
O O
E N
N N
X E
/S LS 4
9 4
AE 4
1 4
8 7
8 I N RK EC 0
0 0
T I
/
/
/
AH S
S S
MT C
C C
0 0
0 EEE 0
0 0
PNZ I I I 0
0 2
PLS 1
1 1
N I
C D
E E
2 2
2 0
0 0
P P
P H
H H
1 1
1
S K
R A
M E
R
)
2 N
O I
S I
V 1E D
)
R S
EMO T(
I DAH A
A A
A
(
OX T
/
/
/
/
YI g
CEE N
N N
N NNN G
M AUA N
P L
I MNP P
O OO I
I N CI M P
EX A
A A
A S
M M
/
/
/
/
TA T
M SCE N
N N
N RAR N
E AET I
I ETG E
T SI WSO N
S 5
E O R
O Y
P S
L PRP I
M B
E O
L I
A SWN C
O TI OO R
E 1
T OPI G
N S
N T
A S
O I
P INA S
C S
LON A
A LTI L
E B
P P
P P
I NM C
G U
U U
U A
N E
E E
E I A K
O K
K K
K LX A
I A
A A
A CE E
T M
M M
M L
P E
M l
)
l
)
V E
A A
A A
C I
X
(
(
(
(
I S
E 0
0 0
0 V
M 2
2 2
2 R
2 2
2 2
1 1
1 1
E S
B B
B B
N W
W W
W I
I I
I I
T P
S S
S S
M E
E E
E E
Y Y
Y Y
X E
/S LS 1
1 1
1 AE 8
8 8
8 2
2 2
2 I N RK EC 0
0 0
0 TI
/
/
/
/
AH S
S S
S MT C
C C
C 0
0 0
0 EEE 5
5 5
5 PNZ I I I 1
1 1
1 PLS 4
N A
B C
D I
A A
A A
E 1
1 1
1 0
0 0
0 S
S S
S 1
I I
I 1
I I
I m
t
)
1 F
(
- 2. N 1A L
DR EG MO RR S
OP K
F R
RN A
EO M
PI E
T R
)
DV 2
ER TE NS N
EN O
MI I
G S
UF I
A0 V
)
P 1 E L
D R
EMO U
U
(
T(
DAH S
S YI G
OX T
/
/
NNN N
CEE D
0 I
f I
M V
V AUA P
P L
I MNP P
O I N 0
OO CI M M
EI 1 1 1
S E
M M
1 1
TA T
T SCE
.0 I RAR N
S AET 91 9
I ETG E
Y SI BB B
WSO N
S 6
E O R
O P
Y L FRP I
M A
I B
E O
R A SWN C
P TI OO S
E OPI G
I E
S N
T A
S R
I P
INA S
O S
LON A
C A
LTI L
B I NM C
E R
N I A U
O A
A LX S
I
/
/
CE S
T N
N E
P E
R M
P E
C X
I W
E V
O R
L ESN I
T P
M O
O E
N N
X E
l
/ S LS 9
4 AE 1
4 s
7 8
I N RK EC 0
0 TI
/
/
AH S
S MT C
C 0
0 EEE 0
0 PNZ I I I 0
2, PLS 1
1 a
r d
N I
B C
'E 2
2 0
0 P
P L
L I
I l
TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 1 COMPONENTS MAIN STEAM SYSTEM PIPING (MS)
PIPS ASME CODE LINE MATERIAL /
SEC XI EXAM EIN SIZE THICKNESS EXEMPT EXEMPTION BASIS ITEM NO METHOD REMARKS IMS103AA 1.50 SS/0.281 YES IWB-1220(A) MAKEUP N/A N/A 1MS103AB 1.50 SS/0.281 YES IWB-1220(Al MAKEUP N/A N/A 1MS103AC 1.50 SS/0.281 YES IWB-1220(A) MAKEUP N/A N/A IMS103AD 1.50 SS/0.281 YES IWB-1220(A) MAKEUP N/A N/A 1MS28A 2.00 CS/0.344 YES IWB-1220(A) MAKEUP
.N/A N/A 1MS30AA 2.00 CS/0.344 YES IWB-1220(A) MAKEUP N/A N/A 1MS30AU 2.00 CS/0.344 YES IWB-1220(Al MAKEUP N/A N/A 1MS30AC 2.00 CS/0.344 YES IWB-1220(A) MAKEUP N/A N/A 1MS30AD 2.00 CS/0.344 YES IWB-1220(A) MAKEUP N/A N/A IMSJOB 3.00 CS/0.430 YES IWB-1229(A) MAKEUP N/A N/A 1MS32AA 1.50 CS/0.281 YES IWB-1220(A) MAKEUP N/A N/A 1MS32AB 1.50 CS/0.281 YES IWB-1220(A) MAKEUP N/A N/A iMS32AC 1.50 CS/0.281 YES IWB-1220(A) MAKEUP N/A N/A 1MS32AD 1.50 CS/0.281 YES IWB-1220(A) MAKEUP N/A N/A NOTE: LONGITUDINAL WELDS SHALL BE EXAMINED IN ACCORDANCE WITH T:iE ASME SECTION II ITEM NUMBER B9.12.
BRANCH PIPE CONNECTION WELDS SHALL BE EXAMINED IN ACCORDANCE WITH THE ASME SECTION XI ITEM NUMBER B9.31.
PAGE: II-7
TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 1 COMPONENTS MAIN STEAM SYSTEM PIPING (MS)
PIPE ASME CODE LINE MATERIAL /
SEC XI EXAM EIN SIZE THICKNESS EXEMPT EXEMPTION BASIS ITEM NO METHOD REMARKS IMS32GA 2.00 CS/0.344 YES IWB-1220(A) MAKEUP N/A N/A 1MS32GB 2.00 CS/0.344 YES IWB-1220(A) MAKEUP N/A N/A IMS32SC 2.00 CS/0.344 YES IWB-1220(A) MAKEUP N/A N/A IMS32GD 2.00 CS/0.344 YES IWB-1220(A) MAKEUP N/A N/A iMSA 24.00 CS/1.219 NO N/A B9.11 VD/SU AUGMENTED INSPECTION PERFORMED PER 1.2(F.1)
B10.10 0F INSERVICE EXAMINATION PROGRAM PLAN.
IMSASA 10.00 CS/1.125 NO N/A B9.11 VD/SU IMSASB 10.00 CS/1.125 NO N/A B9.11 VD/SU 1MSB 24.00 CS/1.219 NO N/A B9.11 V0/SU AUGMENTED INSPECTION PERFORMED PER 1.2(F.1)
B10.10 0F IN.ERVICE EXAMINATION PROGRAM PLAM.
1MSBSA 10.00 CS/1.125 NO N/A B9.11 VD/SU 1MSBSB 10.00 CS/1.125 NO N/A B9.11 VD/SU 1MSBSC 10.00 CS/1.125 NO N/A B9.11 VD/SU 1MSBSD 10.00 CS/1.125 NO N/A B9.11 VD/SU IMSBSE 10.00 CS/1.125 NO N/A B9.11 VD/SU NOTE: LONGITUDINAL WELDS SHALL BE EXAMINED IN ACCORDANCE WITH THE ASME SECTION XI ITEM NUMBER B9.12.
BRANCH PIPE CONNECTION WELDS SHALL BE EXAMINED IN ACCORDANCE WITH THE ASME SECTION XI ITEM NUMBER 89.31.
PAGE: II-8
TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 1 COMPONENTS MAIN STEAM SYSTEM. ]"tG (MS)
PIPE ASME CODE LINE MATERIAL /
SEC XI EXAM EIN SIZE THICKhESS EXEMPT EXEMPTION BASIS ITEM NO METHOD REMARKS IMSC 24.00 CS/1.219 NO N/A B9.11 VD/SU AUGMENTED INSPECTION PERFORMED PER 1.2(F.1)
B10.10 0F INSERVICE EXAMINATION PROGRAM PLAN.
INSCSA 10.00 CS/1.125 NO N/A B9.11 V0/SU IMSCSB 10.00 CS/1.125 NO N/A B7.11 VD/SU IMSCSC 10.00 CS/1.125 NO N/A B9.11 VD/SU IMSCSD 10.00 CS/1.125 NO N/A B9.11 VD/SU 1MSCSE 10.00 CS/1.125 NO N/A B9.11 VD/SU IMSCSF 10.00 CS/1.125 NO N/A B9.11 VD/SU 4
1MSD 24.00 CS/1.219 NO N/A B9.11 V0/SU AUGMENTED INSPECTION PERFORMED PER 1.2(F.1)
B10.10 0F INSERVICE EXAMINATION PROGRAM PLAN.
1MSDSA 10.00 CS/1.125 NO N/A B9.11 V0/SU 1MSDSB 10.00 CS/1.125 NO N/A B9.11 V0/SU IMS3SC 10.00 CS/1.125 NO N/A B9.71 VD/SU 4
NOTE: LONGITUDINAL WELDS SHALL BE EIAMINED IN ACCORDANCE WITH THE ASME SECTION XI ITEM NUMBER B9.12.
BRANCH PIPE CONNECTION WELDS SHALL BE EXAMINED IN ACCORDANCE WITH THE ASME SECTION II IlEM NUMBER B9.31.
PAGE: II-9
S KR A
M E
R
)
2 N
O I
S I
V 1 E D
R EMO U
T(
DAH S
A A
)
OI T
/
/
/
YI NNN B
CEE D
N N
N M
V AUA
(
P L
MNP G
O OO N
I N I
EX 1
A A
CI M S
P M
M 1
/
/
TA T
I SCE N
N RAR N
P AET 9
I I
ETG E
SI B
0 WSO N
M 1
E O R
O E
P T
L PRP 1
M S
I B
E O
Y A SWN C
S T I OO E
R OPI 1
G E
S N
T A
S L
I P
I NA S
I S
LON A
O A
LTI L
B B
P P
I NM C
U U
R N
E E
I A A
O A
K K
LX E
I
/
A A
CE L
T N
M M
C P
E U
M
)
l N
E A
A C
X
(
(
I E
0 0
V 2
2 R
2 2
1 1
E S
B B
N W
W I
I I
T D
S S
F O
E E
E N
Y Y
X E
/ S LS 8
4 4
AE 3
4 4
I N 4
3 3
RK EC 0
0 0
T I
/
/
/
AH S
S S
MT C
C C
0 0
0 EEE 0
0 0
PNZ I I I 4
2 2
PLS N
I A
8 A
E 1
1 2
0 0
0 B
B B
N N
N I
1 I
l
)
4 i1 j i
- I.
TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 1 COMPONENTS RESIDUAL HEAT REMOVAL SYSTEM PIPING (RH)
PIPE ASME CODE LINE MATERIAL /
SEC XI EXAM EIN SIZE THICKNESS EXEMPT EXEMPTION BASIS ITEM NO METHOD REMARKS 1RH03CA 12.00 CS/0.844 NO N/A B9.11 VD/SU B10.10 1RH03CB 12.00 CS/0.844 NO N/A B9.11 VD/SU B10.10 1RH03DA 10.00 CS/0.719 NO N/A B9.11 V0/SU 1RH03DB 10.00 CS/O.719 NO N/A B9.11 VD/SU 1RH04B 12.00 CS/0.844 NO N/A B9.11 VD/SU AUGMENTED INSPECTION PERFORMED PER 1.2(F.1) 810.10 0F INSERVICE EXAMINATI9N PROGRAM PLAN.
1RH04C 10.00 CS/0.719 NO N/A B9.11 VD/SU C
IRH09A 18.00 CS/1.156 NO N/A B9.11 VD/SU AUGMENTED INSPECTION PERFORMED PER 1.2(F.1) 7 B10.10 0F INSERVICE EXAMINATION PROGRAM PLAN.
2 1RH09C 18.00 SS/1.000 ND N/A B9.11 VD/SU AUGMENTED INSPECTION PERFORMED PER 1.2(I) AND B10.10 (J) 0F INSERVICE EXAMINATION PROGRAM PLAN.
1RH46B 4.00 CS/0.438 ND N/A B9.11 V0/SU AUGMENTED INSPECTION PERFORMED PER 1.2(F.1)
OF INSERVICE EXAMINATION PROGRAM PLAN.
NOTE:
DISSIMILAR METAL MELDS SHALL BE EXAMINED IN ACCORDANCE MITH THE ASME SECTION XI ITEM NUMBER B5.130.
PAGE: II-11
TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT I INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 1 COMPONENTS REACTOR CORE ISOLATICM COOLING SYSTFM PIPING (RI) i PIPE ASME CODE LINE MATERIAL /
SEC XI EXAM EIN SIZE THICKNESS EXEMPT EXEMPTION BASIS ITEM NO METHOD REMARKS 1RIO3B 6.00 CS/0.562 NO N/A B9.11 VD/SU AUGMENTED INSPECTION FERFORMED PER 1.2(F.11 0F INSERVICE EXAMINATION PROGRAM PLAN.
1 1RIO3C 4.00 CS/0.438 NO N/A E9.11 VD/SU AU6MENTED INSPECTION PERFORMFD PER 1.2(F.1)
B10.10 0F INSERVICE EXAMINATION PROGRAM PLAN.
1RIO4A 8.00 CS/0.500 NO N/A B9.11 V0/SU AUGMENTED INSPECTION PERFORMED PER 1.2(F.1)
B10.10 0F INSERVICE EXAMINATION PROGRAM PLAN.
l 1RI29A 4.00 CS/0.438 NO N/A B9.11 V0/SU AUGMENTED INSPECTION PERFORMED FER 1.2(F.1) 1 B10.10 0F INSERVICE EXAMINATION PROGRAM PLAN.
i i
I 4
i r
PASE: II-12
TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 1 COMPONENTS REACTOR RECIRCULATION SYSTEM PIPING (RR)
PIPE ASME CODE LINE MATERIAL /
SEC XI EXAM EIN SIZE THICKNESS EXEMPT EXEMPTION BASIS ITEM NO METHOD REMARKS 1RR04AA 2.00 SS/0.218 YES IMB-1220(Al MAKEUP B9.11 N/A 1RR04AB 2.00 SS/0.218 YES IWB-1220(A) MAKEUP B9.11 N/A 1RR15A 2,00 CS/0.344 YES IWB-1220(Al MAKEUP B9.11 N/A 1RRA 20.00 SS/1.031 NO N/A B9.11 V0/SU AUGMENTED INSPECTION PERFORMED PER 1.2(I) AND B10.10 (J) 0F INSERVICE EXAMINATION PROGRAM PLAN.
1RRAA 10.00 SS/0.594 NO N/A B9.11 VD/SU AUGMENTED INSPECTION PERFORMED PER 1.2(I) AND C
(J) 0F INSERVICE EXAMINATION PROGRAM PLAN.
o m
1RRAB 10.00 SS/0.594 NO N/A B9.11 VD/SU AUGMENTED INSPECTION PERFORMED PER 1.2(I) AND 1*
(J) 0F INSERVICE EIAMINATION PROGRAM PLAN.
e
!RRAC 10.00 SS/0.594 NO N/A B9.11 V0/SU AUGMENTED INSPECTION PERFORMED PER 1.2(I) AND (J) DF INSERVICE EXAMINATION PROGRAM PLAN.
1RRACRW 4.00 SS/0.337 NO N/A B9.11 VD/SU AUGMENTED INSPECTION PERFORMED PER 1.2(I) AND (J) 0F INSERVICE EXAMINATION PROGRAM PLAN.
1RRAD 10.00 SS/0.594 NO N/A B9.11 VD/SU AUGMENTED INSPECTION PERFORMED PER 1.2(I) AND (J) DF INSERVICE EXAMINATION PROGRAM PLAN.
1RRADRW 4.00 SS/0.337 NO N/A B9.11 VD/SU AUGMENTED INSPECTION PERFORMED PER 1.2(I) AND (J) 0F INSERVICE EXAMINATION PROGRAM PLAN.
NOTE: LONSITUDINAL WELDS SHALL BE EXAMINED IN ACCORDANCE WITH THE ASME SECTION II ITEM NUMBER B9.12.
BRANCH PIPE CONNECTION WELDS SHALL BE EXAMINED IN ACCORDANCE WITH THE ASME SECTION XI ITEM NUMBER 89.31.
PASE: II-13
-l TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 l
INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 1 COMPONENTS REACTOR RECIRCULATION SYSTEM PIPING (RR)
PIPE ASME CODE LINE MATERIAL /
SEC II EXAM EIN SIZE THICKNESS EXEMPT EXEMPTION eASIS ITEM NO METHOD REMARKS 1RRAE 10.00 SS/0.594 NO N/A B9.11 VD/SU AUGMENTED INSPECTION PERFORMED PER 1.2(I) AND (J) 0F INSERVICE EXAMINATION PROGRAM PLAN.
1RRAM 16.00 SS/0.844 NO N/A B9.11 V0/SU AUSMENTED INSPECTION PERFORMED PER 1.2(I) AND 1
(J) DF INGERVICE EXAMINATION PROGRAM PLAN.
1RRB 20.00 SS/1.031 NO N/A B9.11 VD/SU AUGMENTED INSPECTION PERFORMED PER 1.2(I) AND B10.10 (J) 0F INSERVICE EXAMINATION PROGRAtt PL AN.
IRRBCRW 4.00 SS/0.337 NO N/A B9.11 VD/SU AUGMENTED INSPECTION PERFORMED PER 1.2(I) AND (J) DF INSERVICE EXAMINATION PROGRAM PLAN.
j
?
1RRBDRW 4.00 S5/0.337 NO N/A B9.11 V0/SU AUGMENTED INSPECTION PERFORMED PER 1.2(I) AND (J) 0F INSERVICE EXAMINATION PROGRAM PLAN.
ao 1RRBF 10.00 SS/0.594 NO N/A B9.11 VD/SU AUSMENTED INSPECTION PERFORMED PER 1.2(I) AND (J) 0F INSERVICE EXAMINATION PROGRAM PLAN.
1RRBG 10.00 SS/O.594 NO N/A B9.11 V0/SU AUGMENTED INEPECTION PERFORMED PER 1.2(I) AND (J) 0F INSERVICE EXAMINATION PROGRAM PLAN.
i 1RRBH 10.00 SS/0.594 NO N/A B9.11 VD/SU AUGMENTED INSPECTION PERFORMED PER 1.2(I) AND
'J) 0F INSERVICE EXAMINATION PROGRAM PLAN.
1RRBJ 10.00 SS/0.594 NO N/A B9.11 VD/SU AUGMENTED INSPECTION ?ERFORMED PER 1.2(I) AND (J) 0F INSERVICE EXAMINATION PROGRAM PLAN.
NOTE: LONGITUDINAL WELDS SHALL BE EXAMINED IN ACCCRDANCE WITH THE ASME SECTION XI ITEM NUMBER B9.12.
BRANCH PIPE CONNECTION WELDS SHALL BE EXAMINED IN ALCORDANCE WITH THE ASME SECTION XI ITEM NUMBER B9.31.
PAGE: 11-14
I l
l TAE4LE II 2LLINDIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 1 COMPONENTS REACTOR RECIRCULATION SYSTEM PIPING (RR)
PIPE ASME CODE LINE MATERIAL /
SEC XI EXAM EIN SIZE THICKNESS EXEMPT EXEMPTION BASIS ITEM NO METHOD REMARKS l,$
1RRBK 10.00 SS/0.594 NO N/A B9.11 VD/SU AUGMENTED INSPECTION PERFORMED PER 1.2(I) AND (J) 0F INSERVICE EXAMINATION PROGRAM PLAtl.
ly 1RRBM 16.00 SS/0.844 NO N/A B9.11 VD/SU AUGMENTED INSPECTION PERFORMED PER 1.2(I) AND G
(J) 0F INSERVICE EXAMINATION PROGRAM PLAN.
l I
l l
L NOTE: LONSITUDINAL NELDS SHALL BE EXAMINED IN ACCORDANCE NITH THE ASME SECTION XI ITEM NUMBER B9.12.
BRANCH PIPE CONNECTION NELDS SHALL BE EXAMINED IN ACCORDANCE NITH THE ASME SECTION XI ITEM NUMBER B9.31.
l PARE: II-15 1
TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 1 COMPONENTS REACTOR WATER CLEANUP SYSTEM PIPING (RT)
PIPE ASME CODE LINE MATERIAL /
SEC II EXAM EIN SIZE THICKNESS EXEMPT EXEMPTION BASIS ITEM NO METHOD REMARKS 1RT01AA 4.00 CS/0.438 NO N/A B9.11 VD/SU
- 2RT01AB 4.00 CS/0.438 NO N/A B9.11 V0/SU 1RT01B 6.00 CS/0.562 NO N/A B9.11 V0/SU AUGMENTED IMSPECTION PERFORMED PER 1.2(F.1)
B10.10 0F INSERVICE EXAMINATION PROGRAM PLAN.
C o
1RT01EA 4.00 SS/0.337 NO N/A B9.11 V0/SU AUSME;1TED INSPECTION PERFORMED PER 1.2(I) AND (J) 0F INSERVICE EXAMINATION PROGRAM PLAM.
4 1RT01EB 4.00 SS/0.337 NO N/A B9.11 VD/SU AUGMENTED INSPECTION PERFORMED PER 1.2(I) AND 3
(J) DF INSERVICE EXAMINATION PROGRAtt PL AN.
1RT01EC 4.00 CS/0.337 NO N/A B9.11 V0/SU 1RT01ED 4.00 CS/0.337 NO N/A B9.11 VD/SU 1RV28A 3.00 CS/0.438 YES INB 1220(A) MAKEUP N/A N/A 1RT28B 3.00 CS/0.438 YES IWB-1220(Al MAKEUP N/A N/A 1RT28C 3.00 CS/0.438 YES IWB-1220(A) MAKEUP N/A N/A 1RT28D 3.00 CS/0.438 YES IWB-1220(A) MAKEUP N/A N/A NOTE: DISSIMILAR METAL WELDS SHALL BE EXAMINED IN ACCORDANCE WITH THE ASME SECTION XI ITEN NUMBER B5.130.
PAGE: II-16
S K
R A
M E
R
)
2 N
O I
S I
V
)
1 E C
D R
S EMO DAH A
A A
A A
A A
T(
(
YI OX T
/
/
/
/
/
/
/
i; G CEC N
N N
N N
N N
NNN N
M AUA I
P L
P MNP I
O OO P
1 N CI M E1 A
A A
A A
A A
S M
M M
/
/
/
/
/
/
/
TA T
E SCE N
N N
N N
N N
I RAR N
T AET I
ETG E
S SI 7
WSO N
Y 1
E O R
O S
P L FRP I
M L
I B
E O
O A SWN C
R TI OO T
E 1
N OPI G
O S
N T
A S
C I
P I NA S
S LON A
D A
LTI L
I B
P P
P P
P P
P I NM C
U U
U U
U U
U U
Q N
E E
E E
E E
E I A I
O K
K K
K K
K K
LX L
I A
A A
A A
A A
CE T
M M
M M
M M
M Y
P E
B M
)
)
)
l
)
)
)
D E
A A
4 A
A A
A C
N X
(
(
(
(
(
(
(
A E
0 0
0 0
0 0
0 I
I 2
2 2
2 2
2 2
VR S
2 2
2 2
2 2
2 1
1 1
1 1
1 1
E S
B B
B B
B B
h" N
W W
W W
W W
I I
I I
I I
I T
P S
S S
S S
S S
M E
E E
E E
E E
E Y
Y Y
Y Y
Y Y
X E
/ S LS 0
0 0
0 8
0 8
AE 0
0 0
0 3
0 3
2 2
3 3
4 3
4 I N RK EC 0
0 0
0 0
0 0
TI
/
/
/
/
/
/
/
AH S
S S
S S
S S
MT S
S S
S C
S C
0 0
0 0
0 0
0 EEE 5
5 0
0 0
0 0
PNZ I I I 1
3 3
3 3
3 PLS i
N A
B A
B C
D E
I C
C D
D D
D D
E 2
2 2
2 2
2 2
0 O
0 O
0 O
0 C
C C
C C
C C
S S
S S
S S
S 1
1 I
1 I
1 I
i 4
i Ct)
- .4 Q:
C EW Q:
n N
ZO M
LD M>
M W m
W E (D Hw aGz
>M QM M ZZZ uWW CDC O.
J E Z Q.
c 00
-E O-yM E WM O
MM t.n to E
E n
e e
pq CD in U W e
MM M %C%
E E
CW>
N ww M WHO W
w tn m CEh E CD m
3 t/) O E
Q.
W Q t
o 1
J Q. % Q.
E m
W e
E G CD 3 Z u
w HH OO W
'o O Q. M "a'
'O
.Z H
tn En Q.
M 2d tn En
! O ~,
e J
e JH-J a
m M ZE U
4 "C
E e
e dW s
E E
Q.
W E=
u W
>cW lnZ M
H Q.
E O
O W
X X
M W
% Ut J Cn CW a-o E Q: h:
1 1
WW i
i
>w 4Z E >=
WWW N
l i
Q. E.e o.e m.
1 I
O.
.,J (n m
in W Ln W >=
CD W ZW WZw Z
LD W E CC w m to.E 4 D
w 2EG e n W
==w
>=
Q t/1 4 2 J.J P4 J W >= D JC E
J Ct: WQ G CD vt -
G Q. CC G3
S K
R A
M E
R
)
2 N
O I
S I
V T
T 1 E D
V V
R EMO
/
/
T(
DAH U
U YI OI T S
S NNN CEE
/
/
M 0
D AUA V
V P
L MNP O
I N 000 0001 0000001 OO CI M EI B902266 8902266 TA 2.0255 2.0255 S
M M
1 1 1 1 T
SCE I
RAR N
AET 6661 1 1 1 6661 1 1 1 I ETG E
SI BBBBBBB BBBBBBB 9
WSO N
1 E O R
O P
L PRP 1
M S
1 B
E O
P A SWN C
M TI OO U
E 1
P OPI G
S N
T A
S I
P I NA S
S LON A
A LTI L
B I NM C
N I A O
A A
LX I
/
/
CE T
N N
P E
M E
C X
I E
VRESN I
T P
M O
O E
N N
X E
/ S LS AE I N RK EC TI AH MT EEE PNZ I I I PLS A
B 1
1 N
0 0
I 0
0 E
C C
3 3
3 3
9 9
1 1
i I
i'
S K
h A
M E
R
)
2 N
O I
S I
V 1 E D
R EMO T(
DAH T
T T
T T
T T
T T
T T
i T
T T
YI OX T V
V V
V V
V V
V V
V V
V V
V V
NNN CEE M
AUA P
L MNP O
I N 0
0 0
0 0
0 0
0 0
0 0
0 0
0 0
OO 5
5 5
5 5
5 5
5 5
5 5
5 5
5 5
CI M EX S
M M
TA T
SCE 2
2 2
2 2
2 2
2 2
2 2
2 2
2 2
I RAR N
AET 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
I ETG E
SI B
B B
D B
B B
B B
B B
B 3
B B
0 WSO N
2 E O R
O P
S L PRP I
M E
B E
O V
I A SWN C
L TI OO A
E 1
V OPI G
S N
T A
S I
P NA S
S I
LON A
A LTI L
B I NM C
N I A O
A A
A A
A A
A A
A A
A A
A A
A LX I
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
CE T
N N
N N
N N
N N
N N
N N
N N
N P
E M
E C
X I
E VRESN I
T P
M O
O O
O O
O O
O O
O O
O O
O O
E N
N N
N N
N N
N N
N N
N N
N N
X E
/S LS AE I N RK EC T I AH MT EEE PNZ I I I PLS A
B A
B A
B C
D A
B C
D A
B A
0 0
1 1
2 2
2 2
B 8
8 8
2 2
1 N
1 1
1 1
2 2
2 2
2 2
2 3
3 4
I 0
0 0
0 0
0 0
0 0
0 0
0 0
0 0
E F
F F
F F
F F
F F
F F
F F
F F
1 1
1 1
1 1
1 1
1 1
1 1
1 1
1
'z 2
2 2
2 2
2 2
2 2
2 2
2 2
2 B
B B
B 9
B 8
B B
B B
8 8
B B
1 1
1 1
1 1
1 1
1 1
I 1
1 1
I
.J I
S K
R A
M E
R
)
2 N
O I
S I
V 1 E D
R EMO T(
D AH T
T T
T T
T T
T T
T T
T T
T T
YI OX T V
V V
VI V
V V
V V
V V
V V
V V
NNN CEE M
AUA P
L MNP O
I N 0
0 0
0 0
0 0
0 0
0 0
0 0
0 0
OO 5
5 5
5 5
5 5
5 5
5 5
5 5
5 5
CI M EX S
M M
TA T
SCE 2
2 2
2 2
2 2
2 2
2 2
2 2
2 2
I RAR N
AET 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
I ETG E
SI B
B B
B B
B B
B B
B B
B B
P B
1 WSO N
2 E O R
O P
S L PRP I
M E
B E
O V
I ASWN C
L T_ I OO A
E 1
V OPI G
S N
T A
S I
I NA S
S P
LON A
A LTI L
B I NM C
N I A O
A A
A A
A A
A A
A A
A A
A A
A LX I
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
CE T
N N
N N
N N
N N
N N
N N
N N
N P
E M
E C
X I
E VRESN I
T P
M O
O O
O O
O O
O O
O O
O O
O lr E
N N
N N
N N
N N
N N
N N
N N
N X
E
/S s
LS AE I N RK EC T I AH MT EEE PNZ I I I PLS B
C D
F 6
L A
B C
D F
B C
D G
1 1
1 1
1 1
7 7
7 7
7 1
1 1
1 N
4 4
4 4
4 4
4 4
4 4
4 5
5 5
5 I
0 0
G 0
0 0
0 0
0 0
0 0
0 0
0 E
F F
F F
F F
F F
F F
F F
F F
F 1
1 1
1 1
1 1
1 1
1 1
1 1
1 1
2 2
2 2
2 2
2 2
2 2
2 2
2 2
2 B
B B
8 B
B B
8 9
8 8
8 B
8 P
1 1
1 1
1 I
1 1
1 1
1 1
1 1
1 l!
S K
R A
M E
R
)
2 N
O I
S I
V 1E D
R EMO T(
DAH T
T T
T T
i T
T T
T T
T T
T T
YI OX T V
V V
V V
V V
V V
V V
V V
V V
N4 N CEE L
M AUA P
L MNP O
I N 0
0 0
0 0
0 0
0 0
0 0
0 0
0 0
OO 5
5 5
5 5
5 5
5 5
5 5
5 5
5 5
EI CI M S
M M
TA 2
2 2
2 2
2 2
2 2
2 2
2 2
T SCE 2
2 I RAR N
AET 1
1 1
1 1
1 1
1 1
1 1
1 1
1 I
ETG E
SI B
B B
0 B
B B
B B
B B
B B
B B
2 WSO N
2 E O R
O P
S L FRP 1
M E
1 B
E O
V A SWN C
L TI OO A
E V
G OPI 1
S N
T A
S I
P I NA S
S LON A
A LTI L
B I NM C
N I A O
A A
A A
A A
A A
A A
A A
A A
A I
/
/
/
/
/
/
/
/
/
/
/
/
/
/
/
LX CE T
N N
N N
N N
N N
N N
N N
N N
N P
E M
E L
X I
E VRESN I
T 1
P M
O O
O O
O O
O O
O O
O O
O O
O E
N N
N N
N N
N N
N N
N N
N N
N X
E
/S LS AE I N RK EC TI AH MT EEE PNZ I I I PLS A
B A
B A
8 A
B C
A 8
C 3
3 0
0 7
7 B
9 0
9 9
9 1
1 1
N 2
2 6
6 6
6 0
0 1
3 3
3 4
4 4
I 0
0 0
0 0
0 0
0 0
0 0
0 0
0 0
E F
F F
F F
F F
F F
F F
F F
F F
3 3
3 3
3 3
2 2
2 2
2 2
2 2
2 3
3 3
3 3
3 1
1 1
1 1
1 1
1 1
B 9
9 B
B B
E E
E E
E E
E E
E 1
1 1
1 I
1 1
1 1
1 1
1 1
1 1
i U1 M
Ct:
GE W
CE:
A N
Z O
MW w>
M W a
E W E C3 hw A4Z H
H H
W W
H H
W H
H H
H W
H
>M CM H ZZZ WWW E
CDG Q.
.)
E Z Q.
O C0 wZ o
o o
o o
o o
o o
o o
o o
o o
in n
n n.
ywr WM n
n n
n n
n n
n n
n n
e e
e (n
E E
e e
e e
e e
e e
e e
e U1 O W N
N N
N N
N N
N N
N N
N. N N
N pq ZCZ E
4We
=
w w
w w
w w
w w
m w
w w
M M WHC w
u) w a
rn a
m cn cm a
en cn m
a cn cn ce m
M 3 CD O E
N W O 2
o
.) Q. E Q.
I:
e.
w O
C W Z
u a
es FM Q
4 W
LD aw CA b
4 th
==
A M ZC U1 to JOZ
<z 4
J >= M J
m M ZE u
k 4
4 4
4 4
4 4
4 4
4 4
4 4
4 4
d >-
m UW E
E E
E E
E E
E E
E E
E E
E E
A W
EW u
W
>cW MZ M
N AE O
O O
C3 O
O O
O O
O O
O O
O O
W X
E E
E E
E E
E E
E E
E E
E E
M W
% U1
.J U1 4W w E CI: M i
l 4
1 i
1 1
1 i
l 1
1 l
i I
Wu i
1 t
i i
I I
i 1
i 1
i 1
e i
Hw 4Z E>
WWW CL EN I
I I
f I
l i
I i
1 6
1 i
l i
>= o-e===
1 l
l 6
6 1
I i
i i
i f
f i
I L.J Ut 4
co W
N N
N n
4 N
e n
4 M
M e
w e
N o..
E e
W e
o o
o o
o M
.=
4 4
o o
==
0 C
O o
O O
O O
4" O
O C
O O
W 6
L W
6 W
L 6
W 4
6 6
A L
6 N
N N
.=
w N
N N
==
e
==
M M
M N
N N
N N
N in n
If)
M M
M C3 C3 C.D W
W W
W W
W W
W W
W W
W
.e e
e e
w
.=
.=
e
.e
.=
e 999 l
l U1 M
aW e
CC W K C3 Hw ca e Z w
a w
>M C3 M w U1 ZZZ uWWE CDC CL J
E Z Q.
o 00 wE o
ow UM WM o
M NN CD E
E N
e a
e p
o.4 n ns
>=
C1 O W e
M
@ C CC E
q W >=
N me HQ
-W V3 w A
CE3 CQ CD M
er
@C E
N c
o W Q. @ (Q. I d
d W
w
=
C (A Z
u a
Ha O
et W
w f.D 1m U1 M ZC E
g saZ
.J H m a
- n M Zr u
"J x 5
C er e
as w
UW w
E E
E a.
W E
W U
W CCW f.0Z m
aw Q.
E O
O O
W X
E E
M W
w tti
.,J U1 4W w E gg i
i I
Wu i
1 1
>= w CE E >=
6e WWW 1
8 8
C6 =E N aw 1
I i
- 6..J (?)
CC Sn til W
>=
>=
U1 W >=
J E
t.D W ZW J
W WXw E
t.D u E 4
EE4 CC O Z PE4 W
- =e e= w LS W u U1 m Q
>=
A uJ Q C til C E
.J_J N
.J >= J w
.J W >= 3
.J C3 E
.J E W >=
J CC W c c CE3 v1 -
CwE4 G Q. CC CE3 e
-u e -,
,s a--
-ws~,
,v+>. -
-x-.
-w-m,-nv
~, --- -- - - - - - -, - - -
9
l S
K R
A M
E R
R R
E E
G G
N N
A A
)_
H H
2 C
C X
X N
E E
O T
T I
A A
S E
E I
H H
V T
T 1 E D
V V
R EMO
/
/
T(
DAH U
U YI OX T S
S NNN CEE
/
/
M D
D AUA V
V P
L MNP O
OO I N CI M EX 0001 1 2000 0001 1 2000 TA 2
2 S
M M
1 231 221 1 1 231 221 1 T
S SCE RAR N
L AET 1 1 1 222377 1 1 1 222377 I
ETG E
E SI CCCCCCCCC CCCCCCCCC I
5 WSO N
S 2
E O R
C S
P E
L PRP 1
M V
B E
O 1
A SWN C
E TI OO R
E OPI 2
U G
S S
N T
A S
C I
I NA S
E S
P LON A
R A
LTI L
P B
I NM C
N I A O
A A
LX I
/
/
CE T
N N
P E
M E
C X
I E
VRESN I
T PM O
O E
N N
X E
/S LS AE I N RK EC TI AH MT EEE PNZ 1 I I PLS A
B 1
1 N
0 0
I 0
0 E
B 9
2 2
1 1
E E
1 1
S K
R A
M E
R
)
2 NO I
S I
V 1 E D
R
)
EMO T(
C D AH A
A A
A A
A YI C
OI T
/
/
/
/
/
/
(
CEE N
N N
N N
N NNN M
AUA G
P L
N MNP I
O OO P
I N I
EI A
A A
A A
A CI M S
P M
M
/
/
/
/
/
/
TA T
SCE N
N N
N N
N I RAR N
M AET I ETG E
E SI 6
WSO N
T 2
E O R
O S
P Y
L PRP 1
M S
B E
O 1
A SWN C
G T
T T
T T
T TI OO N
OPI 2
I P
P P
P P
P E
G L
S N
T S
O I
G G
G G
G G
A INA S
O S
N N
N N
N N
P LON A
C A
I I
I I
I I
LTI L
B T
T T
T T
T I NM C
T A
A A
A A
A N
N R
R R
R R
R I A E
O E
E E
E E
E LX N
I P
P P
P P
P CE O
T O
O O
O O
O P
P E
M M
)
)
)
)
)
)
O E
B B
B B
B B
C C
X
(
(
(
(
(
(
I E
0 0
0 0
0 0
V 2
2 2
2 2
2 R
2 2
2 2
2 2
1 1
1 1
1 1
E S
C C
C C
C C
N W
W W
W W
W I
I I
I I
I I
T P
S S
S S
S S
M E
E E
E E
E E
Y Y
Y Y
Y Y
X E
/S LS 0
2 2
4 2
4 AE 0
6 3
4 2
9 5
5 4
8 3
5 I N RK EC 0
0 0
0 0
0 T I
/
/
/
/
/
/
AH S
S S
S S
S MT C
C C
C C
C 0
0 0
0 0
0 EEE 0
0 0
0 0
0 PNZ I I I 0
6 6
0 8
8 PLS 1
1 N
I 8
C D
E A
C E
2 2
3 3
4 6
4 4
4 4
4 4
C C
C C
C C
C C
C C
C C
1 1
I 3
I 1
J
~
M Cc G
EW CC 4
A 2
O m
b
- W S
o E
W E cl Hw to ca C 2 cz
>= M E
C3 M W UWW E
g22
=
5 CDC 1
o.
Z Q.
o O
E
~E Q p.e W
WM C
W cn E
E RA t/) UW E
- E4 E
CWW
~
w in mm m
LfJ E
N W
g o
W J
% 0.
I E
1 m
o Cr 4
Z W
o Fw O
.s W
m N
to n.
tD f.fi 4
p m
W to g.
M E4 En
>=
(ft E
JOZ az is as JH-e en a
mzr u
E az g
W E
CE p
.o W
O dX E
CL UW e
w a
u a.
W E
a o
W m
Q W
w J
W O
2 U
N g
N y
U U
U Z
E m
ee W
Q.
t/l E
W W
M L&J
% Cf3 J C#1 O
CW III M E N
CC M e
WW O
Hw C2 tra E >=
U C
WWW O
A.Ee N
e w
4 O..,J t/l E
w on W
CD N>
W
- * + -
,,r._
/
TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 2 COMPONENTS DIESEL SENERATOR SYSTEN PIPING (DG)
PIPE ASME CODE i
LINE MATERIAL /
SEC II EXAM EIN SIZE THICKNESS EXEMPT EXEMPTION BASIS ITEM NO METHOD REMARKS 1D607AA 36.00 CS/0.375 YES IWC-1220(B) OPERATING P&T N/A N/A 1DS07AB 36.00 CS/0.375 YES IWC-1220(B) OPERATINS P&T N/A N/A 1DS07AC 24.00 CS/0.375 YES IWC-1220(B) OPERATIN6 P&T N/A N/A h
1D607BA 24.00 CS/0.375 YES IWC-12'0(B) OPERATINS P&T N/A N/A 4
1DG07BB 24.00 CS/0.375 YES IWC-1220(B) OPERATING PET N/A N/A IDG07CA 24.00 CS/0.375
)ES IWC-1220(B) OPERATING P&T N/A N/A 1
i 1DG07CB 24.00 CS/0.375 YES IWC-1220(B) OPERATIMS P1T N/A N/A 1D608AA 36.00 CS/0.375 NO N/A N/A N/A SEE RELIEF REDUEST 4001 1DG08AB 36.00 CS/0.375 NO N/A N/A N/A SEE RELIEF REQUEST 4001 l
1DG08AC 24.00 CS/0.375 NO N/A N/A N/A SEE RELIEF REDUEST 4001 1DS08BA 24.00 CS/0.375 NO N/A N/A N/A SEE RELIEF REQUEST 4001 i
0 1DG08BB 24.00 CS/0.375 NO N/A N/A N/A SEE RELIEF REQUEST 4001 1DG08CA 20.00 CS/0.375 NO N/A N/A N/A SEE RELIEF REQUEST 4001 i
i 1DG08CB 20.00 CS/0.375 NO N/A N/A N/A SEE RELIEF REQUEST 4001 1DG10AA 36.00 CS/0.375 NO N/A N/A N/A SEE RELIEF REQUEST 4001 PA6E: 11-28
m M
cc (I
=
w w
w w
z O
O O
O o
w C
C O
O O
cc w
w w
w w
W W
W W
W m
tn m
en m
w w
w w
w
- D m
a m
m O
C3 O
Q Q
w w
w w
w cc cc cc cc cc w
w w
w w
^
w w
w w
w N
e e
J J
a
_J
_J Z
W W
W W
W
M w
w w
w w
t.D w
w w
w w
m sn sn sn m
en wW a
C wzo Hw ca e z e
e c
e c
>M LD QMH
. z ZZZ o
uww z
z z
z E
CDC 1
J e
E Z Q.
z e
oo
-z 4
4 4
4 UM E A
WM 4
en r
z
~
9q o.
cn u w z
z z
z z
M %CC z
cc w -
w td H C w
z cn -
O' 2 LO O E
w N
g a
r w p % Q.
1
.J u.
g m
W o
m e
C to 3 Z U
==
H-oo cc w
A-N c2 CD Cn c
(n c
m o.
mZC en ce m
JOZ cc w
ez JH-a z
so M ZE u
w "C
5 e
c e
e e
.a K J
~
~
UW w
w z
z z
z z
en a
W W
E w
U O
M M
W
>1W U)Z m
H Q
A:
O O
c c3 O
W z
z z
z z
M W
% Cn J Cn n
to n
If1 l($
as w N
N N
N N
w z M
M M
M M
CC M e
e e
e a
wU C
C O
O O
Hw ez Cn in La En Cn zH U
U U
U U
C O
O O
O wWW O
O O
O O
Q.z N e
e e
wwee
=0 e
=0
=0 4
w J Cn M
N z
CD U
c CA U
cz c
c c
c W
O O
N N
N wa N
N N
LD LD LD LD LD A
Q A
Q c3
.e
,e
,e ee c=
V m
M Nc w
w w
w E
O O
O O
O W
O O
O O
O E
w w
w w
w W
H H
W W
i l
m W
m m
m W
W W
W W
l 2
D D
3 3
l l
O O
O O
O w
W W
W W
K M
W M
M L
L L
L L
^
W W
W W
W N
w w
w w
w a
a a
a a
W W
W W
W 2
O W
W W
W W
W W
W W
W w
m m
m m
m wW o
E WED Hw ocz e
e e
e c
>w C
OMW ZZZ o
uwW X
Z Z
Z E
K
~
CDG 4
J e
EZA z
O 00 w
wE gwr A
WM e
e e
e e
m m
E E
pq A
MOW E
E E
E E
M ECE E
4WW w WHO w
E mm 3Q0 E
W N
W O E
C J AEA I
1 A
W D
m w
< M2Z u
ee H-00 m
W 1m N
O W
W m
p 4
m C
w A
M EC m
2 m
JOZ e
W e
JHw J
E m
M ZE u
W M C 5
e e
a e
a JM a
w CW W
W E
E E
E E
m A
W W
E w
W U
Q M
M W
>EWWZ w
A E
O O
O O
O W
E E
E E
E M
W
%m JM M
M M
W W
CW N
N N
N N
M.
M.
M.
M.
M E M
Ew e
Wu O
O O
O O
Ww CZ m
M m
m M
EH U
U U
U U
O O
O O
O O.
O.
O.
WWW O
O AEN e
e mm=
4 w
4 4
4 Lam M
N w
w w
2 m
W c
2 U
w 4
C C
C C
W O
O N
N N
me w
N N
N W
W W
W W
Q Q
A Q
Q w
w w
w w
O h:
Ct:
C EW CI:
n m
o
~
-W a
E f.D WEO Hw z
ca e z e
c w
QM >=
>= M ZZg A
uWW z
z
~
E CDC.J ZA E
o O
W
~ x
(,) m E
>=
WM C
4 th (A
E E
9q
>=
(A U W X
z
- 5OE z
CD 4 W >=
M F-C w
un O
f.0 C z
A n
o o
W Q. % cc
.I.
E Q.
E e
w d
O W
C @32 u
J r
r H-OC u
.s a
W O Q. M N
A A
e er (A
g p
th M
(D CD g,
x x
g, I4 f.S CD
".) O Z t./lc e
z
.,J W w
.J w
A H
>=
mZE u
J o
x Cu se me c
O W
W dX U
w CL CL UW w
o o
.J A
W Q
E a
a o
W m
cm y
o.
=
W O
O a
N N
cc W
N N
y o
W t
t g
U U
Z m
a m
h*
A t/1 th E
LJ W
W I
M W
% Cf3
.J th O
N CW 4
N M E M
P1 EV e
e WW O
O
>= m 42 CO C/3 i
E >=
(f1 f.A O
C w2'-
O O
f CL '/ N e
- M C
CD a.
4 tn m
L
.z.
O CD W
w h
OW W
6 6
w M
-,-.n.,
,v..,,
e-
9-to C
EW Q.
m 04 Z'
O M
C
>e>
M W o
E WEO h*
e ca C Z C
C C
>M Q.
QM >=
N zzz u.
uWW r. E E
E
<DC 1
J e
E Z Q.
E o
00
~E ym Q.
WM C
C C
th
==
E E
p
>=
A CA O W X
X X
M ECE E
CWW M
W >- 0 W
E sn e
=
3 (c o E
W M
W Q Z
o J A E Q.
1 E
W c
sn M
C In 3 Z u
HM oC E
es e5 au se 1m N
O A
A A
W
=
CA t.D p
th
>=
>=
CD t.D CD C
S to U
to E
E E
Q.
M J
Z C
W G
==e m
M J >===
J
>=
CD
>=
H H
U O
C C
C m Z., E cc X
cc ce z
e Q.
O W
W W
dX e-*
CL Q.
Q.
UW W
o o
o cc Q.
==
E y
=
=
W W
cm CD CD U
x w
w w
M W
O O
O N
N F.
Z N
N sN yW b
b b
Z E.e E
E
~
a Q.
M M
CO E
W W
W W
M W
% Cn
.J CS M
If1 O
CW 4
4 CD
=E M
M N
gM e
e a
WW O
O O
>= w CE CO CO CO E >=
U U
U O
O O
WWW C
C C
Q. X Ne e
e e
em m O
O 4
L.J Ln m
w E
=
Q L
CD W
=
CP=
O O
e A
L Q
6 6
6
==
w w
I e
i M
M CEW M
n 2
O N
M W o
E WEC D
D Hw ca e z cn on
). M QM M zz2 uWW c
O E
CDC g
..,. d u.
"E 4 k w
O OO M E yw CD WM m
a in E
E E
N N
p H
cn u W e
e b, S E E
CWH b"4 V'a A
wo Hc W
cn -
u u
N (11 O E
n.
M LU c
C k E Q-E d
d E
~
8 rn.
e en 8
e.
r-W Q
N N
Cn E
b Cn K
n.
gg M
en W
sn
.)
G 4
Jwm
.2 e
a M ZE U
2
".; C 5
e e
x W
UW u.
X X
a.
W E
u W
W
>cW LT)Zm Ha.
E O
O W
X X
M W
% Cn J LM CP*
O*
4W
=0 4
M E O*
CP=
EM e
e Wu m
.=
W mn 4X Cn E>
u u
O C
WWW C
o AEN e
e m mm o
o G.
J (n N
N X
C CQ
=
A 6
W fi N
O O
E E
W W
w w
-r
~ + - --
U1 M
CC C
m e
e
.e o.e w
eie
.4 e
E O
O O
O O
O O
O O
O W
O O
O O
O O
O O
O O
CC W
W or W
W W
W W
W
- C
>=
W
>=
>=
>=
>=
W
>=
>=
>=
M M
M US U1 U3 M
M U2 U1 W
W W
W W
W W
W W
W D
3 3
3 3
3 3
3 3
3 O
O O
Q Q
Q Q
Q O
Q W
W W
W W
W W
W W
W L
L k
k W
L&.
LA.
LA.
^
W W
W W
W W
W W
W W
N e-o w
w w
e.e m
m m
M w
_a
.a J
.J J
.J a
a
.a a
g W
W W
W W
W W
W W
W C=
Cc Ce Ce cc Cc Ce Cc Cs Cc g
W W
W W
W W
W W
W W
W W
W W
W W
W W
W W
~
U1 Cn Us U1 U1 us Un M
us Us a
"W o
WEo h*
C3 CZ C
C C
C C
C C
4 4
C
). M t.D cwW
~%
2 WWW 2
2 2
Z ~-~ E X
2 2
2 2
Z "' Z Gbc
~
E 1
J w
E Z Q.
CL o
00
-E ywg E
Wx c
e c
e e
e a
e e
e U1 W
E E
pq
>=
>=
U1 O W X
X E
E E
E E
E E
E M %CC E
M.
c W >=
w W >= t.D w
us -
P9 2 UJ O E
W M
W O o
d Q. % 0.
I 1
e W
e Ce C (D 3 2 U
>=
=
F-00 E
W c c,. -
N ou m
im Z
N e
US m
wZC W
M ui Q.
.J O Z e
e c
JH-
=>
c.D Co M ZE u
5 "C
e e
e a
e e
a e
a e
Jx e.e
.=
E E
E E
E E
E E
E E
UW
>=
CL y
M E
3 W
U CD M
M E
W c
e U
W U1Z m
>=
0.
E O
O O
O CD O
O O
O O
W X
X X
E E
E E
E E
E M
W
% U1 J U1 O
O O
O N
N
'n n
n 1/1 CW CD CD CD CD M
M 4
4 4
4 M E N
N N
N W
W M
M M
M CC M e
e e
o e
e o
e e
e WW O
O O
O O
O O
O O
O
>===
4E UI M
(/)
(/3 U3 m
t/3 U3 US U3 E >=
U U
U U
U3 m
W W
W W
O O
O O
O O
O O
O O
WWW O
O O
O O
O O
O O
O e
CL EN e
e e
e e
e o
e w== w 4
4 4
4 4
4 O
O O.4 O.
Q oe
.=
._. J CA e.e C
4 Co in U
U C
C C
C W
b7 n
n n
n 1/1
=43 4
4
=43 O
O O
O O
O O
O O
O LD L.D LD LD LD t.D LD t.D t.D LD Z
Z Z
Z Z.
.Z
.Z.
Z.
Z.
Z.e
.=
w
.=
==
c
TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 2 COMPONENTS HIGH PRESSURE CORE SPRAY SYSTEM PIPING (HP)
PIPE ASHE CODE LINE MATERIAL /
SEC XI EXAM EIN SIZE IHICKNESS EXEMPT EXEMPTION BASIS ITEM NO METHOD REMARKS 1HP01A 20.00 SS/0.875 YES IWC-1220(A) DESIGN P&T;74/S75 N/A N/A 1HP013 20.00 CS/0.375 YES IWC-1220(A) DESIGN P&T;74/S75 N/A N/A 1HP01C 24.00 CS/0.375 YES IWC-1220(A) DESIGN P&T;74/S75 N/H N/A 1HP02A 14.00 CS/1.094 NO N/A C5.21 VD/SU C3.20 1HP02B 10.00 CS/0.844 NO N/A C5.21 VD/SU lilP02F 16.00 CS/1.219 NO N/A C5.21 VD/SU 1HP03B 16.00 SS/0.375 YES IWC-1220(A) DESIGN P&T;74/S75 N/A N/A 1HP05C 16.00 CS/0.375 YES IWC-1220(A) DESIGN PET;74/S75' N/A N/A IHP18A 12 00 CS/1.000 NO N/A C5.21 VD/SU 1HP18B 12.00 CS/0.375 YES IWC-1220(A) DESIGN P&T;74/S75 N/A N/A 1HP18C 12.00 SS/0.625 YES IWC-1220(A) DESIGN P&T;74/S75 N/A N/A 1HPIBD 10.00 CS/0.844 NO N/A C5.21 VD/SU 1HP18E 10.00 CS/0.365 YES IWC-1220(A) DESIGN P&T;74/S75 N/A N/A 1HP18F 12.00 CS/1.000 NO N/A C5.21 VD/SU 1HP186 12.00 CS/0.688 YES IWC-1220(A) DESIGN P&Tg74/S75 N/A N/A PAGE: II-34 I
F m
p w
W Q:
C EW CE:
a Z
O m
~
"W o
Z w
W r c3 o
t" w QcZ U2
>= M LD oM >=
ZZZ z
uWW e
E CDC EZd E
o 00
-E UME E
W"E
~
E N
cn W
pq cn u W e
5C%
2 to C W >=
t/3 w WHw w
sn -
p 3 (D C E
tn-in M
W O 0
d Q % Q-I It i
W o
x C @
Z u
A ee
>- m o
tn W
Q. M N
sa W
Cn at Ln E
w A
M ZC En o
En
.J O Z e
u az
.,J H ~
a a
mZr u
W "C
e ax m
OW cn a
W A
W E
A W
y
=
E W
cm bZ m
A E
o W
E M
W
% Cn J Cn er CW e
M E 03 Q: M e
Wu o
>= m 4E M
E >=
(J C
WWW C
AEN e
ww o
O J Cn a
2 m
4 i
W CP
.e bN l
M M=c EW m
n N
ZC n
w>
"W a
M WEQ Hw oez e
w QM >
N
>w ZZZ uwW E
CDC E
E
(
Z6 A
O w
wE O
ywg A
WM 4
to E
E pq E
ut u W E
EC$
E W
GWw N
HU W
>=
En==
4
@Q E
M M
W CC o
1 E Q-E W
a a
C@CO 32 U
C
>=
Hm m
.s
. se W
1m N
>=
A (S
E UI p
e En o
na to A
MYC M
U (A
E J6Z at se JH-a W
m mZr u
e er
-g az E
=
h:
C W
dX eg og A
UW W
e a
L W
E a
W CD U
w M
w LA W
O E
N E
N w
t Z
W e
A th E
W W
M o
% CA
.J CA N
4W N
wE M
ta: W e
WW O
r e-.
$A E >-
U O
WWW O
AEN
w
Q A J un i
E m
C W
er y
N m
M ir
.n.,_-
S K
R A
M E
R
)
2 N
O I
S I
V
)
P 1 E L
D R
EMO
(
T(
DAH A
A U
U U
A U
A YI G
OI T
/
/
S S
S
/
S
/
NNN N
CEE N
N N
N I
M AUA P
P L
I MNP P
O OO I N CI M M
EI A
A 1 0 1
1 A
1 A
1 1
/
1
/
2 S
E M
M
/
/
1 TA N
N T
T SCE N
N I RAR N
S AET 53 5
5 5
I ETG E
C C
7 WSO N
S E O R
O 5
5 5
5 3
P Y
7 7
7 7
L PRP 1
M A
S S
S S
I D
E O
R
/
/
/
/
A SWN C
P 4
4 4
4 TI OO S
7 7
7 7
E OPI 2
E S
T T
T T
G S
R I
A N
T INA S
O S
P P
P P
P LON A
C A
LTI L
B M
M N
N I NM C
E S
S G
G R
N I
I I
I I A U
O S
S A
A A
S 4
LX S
I E
E
/
/
/
E
/
E CE S
T D
D N
N N
D d
D E
P E
R M
)
)
)
)
P E
A A
A A
C I
(
(
(
(
I W
E 0
0 0
0 V
O 2
2 2
2 R
L 2
2 2
2 1
1 1
1 E
S C
C C
C N
W W
W W
I I
I I
I T
P S
S S
S M
E E
O O
O E
0 E
E Y
Y N
N N
Y N
Y I
E
/ S LS 5
5 6
8 5
5 5
5 AE 7
7 0
3 6
7 6
6 8
3 4
4 3
3 3
3 I N RK EC 0
0 0
0 0
0 0
0 T I
/
/
/
/
/
/
/
/
AH S
S S
S S
S S
S MT S
C C
C C
C C
C 0
0 0
0 0
0 0
0 EEE 0
0 0
0 0
0 0
0 PNZ I I I 0
0 2
4 0
6 0
0 PLS 2
2 1
1 1
1 1
1 N
I A
B A
D E
A A
B E
a 1
2 2
2 5
B B
v 0
0 0
0 0
I I
P P
P P
P P
P P
L L
L L
L L
L L
1 I
1 I
1 I
1 I
(
S K
R A
M E
R
)
2 N
O I
S I
V 1 E D
R EMO U
U U
U T(
DAH S
S S
S YI OI T
/
/
/
/
NNN CEE 0
D D
D
)
M V
V V
V AUA S
P L
M MNP
(
O OO I N CI M G
EI 1
2 1
1 2
2 2
2 S
N M
M TA T
I SCE I
RAR N
P AET 5
5 5
5 I
ETG E
I SI C
C C
C 8
WSO N
P 3
E O R
O P
M L PRP 1
M E
B E
D T
1 A SWN C
S TI OO Y
E OPI 2
S G
S N
T A
S M
I P
I NA S
A S
LON A
E P
LTI L
T B
I NM C
S N
I A N
O A
A A
A LX I
I
/
/
/
/
CE A
T N
N N
N M
P E
M E
C X
I E
VR ES N
I T
P M
O O
O O
E N
N N
N I
E
/ S LS 9
9 9
9 AE 1
1 1
1 2
2 2
I N RK EC 1
1 1
T I
/
I
/
/
AH S
S S
S MT C
C C
C 0
0 0
0 EEE 0
0 0
0 PNZ I I I 4
4 4
4 PLS 2
2 2
2 N
A B
C D
I E
E E
E E
1 1
1 1
0 0
0 0
S S
S S
M M
M M
I I
I I
TABLE II ILLINGIS POWER COMPANY CLINTON POWER STATION UNIT I l
INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CM ' 2 COMPONENTS RESIDUAL HEAT PEMOVAL SYSTEM PIPING (RH) l PIPE ASME CODE l
LINE MATERIAL /
SEC II EIAM EIN SIZE THICKNESS EIEMPT EIEMPTION BASIS ITEM NO METHOD REMARKS 1RH01AA 20.00 SS/0.875 YES INC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RH01AB 20.00 SS/0.875 YES INC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RH01AC 20.00 SS/0.875 YES
- NC-1220(A) DESIGN P&T;74/S75 N/A N/A l
1RH01BA 20.00 CS/0.375 NO N/A C5.11 SU AUGMENTED INSPECTION PERFORMED PER 1.2(G) l OF INSERVICE EIAMINATION PROGRAM PLAN.
1RH01BB 20.00 CS/0.375 NO N/A C5.11 SU l
1RH01BC 20.00 CS/0.375 YES INC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RH02AA 14.00 CS/0.438 NO N/A C5.11 SU AUSMENTED INSPECTION PERFORMED PER 1.2(G) 0F INSERVICE EIAMINATION PROGRAM FLAN.
IRH02aB 14.00 CS/0.438 NO N/A C5.11 SU AUGMENTED INSPECTION PERFORMED PER 1.2(G) 0F INSERVICE EIAMINATION PROGRAM PLAN.
1CHOSAA 14.00 CS/0.438 NO N/A C5.11 SU AUSMENTED INSPECTION PERFORMED FER 1.2(G)
C3.20 0F INSERVICE EIAMINATION PROGRAM PLAN.
1RH03AB 14.00 CS/0.438 NO N/A C5.11 SU 1RH03BA 12.00 CS/0.406 NO N/A C5.11 SU AUSMENTED INSPECTION PERFORMED PER 1.2(F.2)
C3.20 0F INSERVICE EXAMINATION PROGRAM PLAN.
1HH03BB 12.00 CS/0.375 NO N/A C5.11 SU AUGMENTED INSPECTION PERFORMED PER 1.2(G)
C3.20 AND 1.2(F.2) DF INSERVICE EIANINATION PROGRAM PLAN.
PAGE: II-39
TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 i
INSERVICE EXAMINATION PROGRAM PLAN (REVISICN 2)
CLASS 2 COMPONENTS RESIDUAL HEAT REM 37AL SYSTEM PIPING (RH1 PIPE ASME CODE LINE MATERIAL /
SEC II EIAM EIN SIZE THICKNESS EIEMPT EIEMPTION BASIS ITEM NO METHOD REMARKS 1RH03EA 18.00 CS/0.562 NO N/A C5.21 VD/SU 1RH03EE 18.00 CS/0.562 NO N/A C5.21 VD/SU 1RH03FB 12.00 CS/0.406 NO N/A C5.11 SU 1RH04A 14.00 CS/0.438 NO N/A C5.11 SU AUGMENTED INSPECTION PERFORMED PER 1.2(G)
C3.20 0F INSERVICE EIAMINATION PROGRAM PLAN.
1RH04D 12.00 CS/0.406 NO N/A C5.11 SU 1RH06A 16.00 CS/0.375 NO N/A C5.11 SU AUGMENTED INSPECTION PERFORMED PER 1.2(G)
C3.20 0F INSERVICE EIAMINATION PROGRAM PLAN.
1RH07A 16,00 CS/0.375 NO N/A C5.11 SU 1RH07B 18.00 CS/0.375 NO N/A C5.11 SU AUGMENTED INSPECTION PERFORMED PER 1.2(G) 0F INSERVICE EIAMINATION PROGRAM PLAN.
1RH07C 16.00 CS/0.375 NO N/A C5.11 SU AUGMENTED INSPECTION PERFORMED PER 1.2(G)
DF INSERVICE EIAMINATION PROGRAM PLAN.
1RH08A 14.00 CS/0.375 NO N/A C5.11 SU C3.20 1RH08B 14.00 CS/0.375 YES INC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RH09B 18.00 CS/0.375 NO N/A C5.11 SU C3.20 PAGE: II-40
TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 2 COMPONENTS RESIDUAL HEAT REMOVAL SYSTEM PIPING (RH)
PIPE ASME CODE LINE MATERIAL /
SEC II EIAM EIN SIZE THICKNESS EIEMPT EIEMPTION BASIS ITEM NO METHOD REMARKS 1RH22AA 14.00 CS/0.438 NO N/A C5.11 SU AUGMENTED INSPECTION PERFORMEL PER 1.2(G)
C3.20 0F INSERVICE EIAMINATION PROGRAM PLAN.
1RH22AB 14.00 CS/0.438 NO N/A C5.11 SU AUGMENTED INSPECTION PERFORMED PER 1.2(G)
C3.20 0F INSERVICE EIAMINATION PROGRAM PLAN.
1RH22BA 18.00 CS/0.562 NO N/A C5.21 VD/SU 1RH22BB 18.00 CS/0.562 NO N/A C5.21 VD/SU 1RH27C 6.00 CS/0.280 YES INC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RH2BB 6.00 CS/0.280 YES INC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RH28C 6.00 SS/0.280 YES INC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RH2VA B.00 CS/0.500 NO N/A C5.11 SU AUGMENTED INSPECTION PERFORMED PER 1.2(G)
C3.20 0F INSERVICE EIAMIN. ION PROGRAM PLAN.
tRH29BA 8.00 CS/0.500 NP M/A C5.11 SU AUGMENTED INSPECTION PERFORMED PER 1.2(G)
C3.20 0F INSERVICE EIAMINATION PA0 GRAM PLAN.
1RH29B3 0.00 CS/0.500 NO N/A C5.11 SU C3.20 1RH29CA 6.00 CS/0.437 NO N/A C5.11 SU AUGMENTED INSPECTION PERFORMED PER 1.2(G) 0F INSERVICE EIAMINATIDM PROGRAM PLAN.
1RH19CB 6,00 CS/0.432 NO N/A C5.11 SU l
PAGE: II-41
TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 2 COMPONENTS RESIDUAL HEAT REMOVAL SYSTEM PIPING (RH)
PIPE ASME CODE LINE MATERIAL /
SEC II EIAM EIN SIZE THICKNESS EXEMPT EXEMPTION BASIS ITEM NO METHOD REMARKS 1RH29DA 6.00 CS/0.280 NO N/A C5.11 SU 1RH29DB 6.00 CS/0.280 NO N/A C5.11 SU 1RH29EA 14.00 CS/0.433 NO N/A C5.11 SU AUSMENTED INSPECTION PERFORMED PER 1.2(G)
DF INSERVICE EIAMINATION PROGaAM PLAN.
1RH29EB 14.00 CS/0.438 NO N/A C5.11 SU 1RH29FA 6.00 CS/0.432 NO N/A C5.11 SU AUSMENTED INSPECTION PERFORMED PER 1.2(G)
DF INSERVICE EIAMINATION PROGRAM PLAN.
IRH7VFB 6.00 CS/0.432 NO N/A C5.11 SU 1RH296A 6.00 CS/0.432 NO N/A C5.11 SU AUGMENTED INSPECTION PERFORMED FER 1.2(G)
DF INSERVICE EIAMINATION PROGRAM PLAN.
1RH29SB 6.00 CS/0.280 NO N/A C5.11 SU 1RH30AA 8.00 CS/0.500 NO N/A C5.11 SU AUGMENTED INSPECTION PERFORMED PER 1.2(G) 0F INSERVICE EIAMINATION PROGRAM PLAN.
IEH30AB 8.00 CS/0.322 NO N/A C5.11 SU 1RH30BA 12.00 CS/0.375 NO N/A N/A N/A SEE RELIEF REQUEST 4001 1RH30BB 12.00 CS/0.375 NO N/A N/A N/A SEE RELIEF REQUEST 4001 i
i 1RH30CA 12.00 SS/0.625 NO N/A N/A N/A SEE RELIEF REQUEST 4001
)
PAGE: 11-42 l
F l
l TABLE II l
ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAN PLAN (REVISION 2)
CLASS 2 COMPONENTS RESIDUAL HEAT REMOVAL SYSTEM PIPING (RH) e l
PIPE ASME CODE l
LINE MATERIAL /
SEC II EIAM l
EIN SIZE THICKNESS EIEMPT EXEMPTION BASIS ITEM NO METHOD REMARKS 1RH30CB 12.00 SS/0.625 NO N/A N/A N/A SEE RELIEF REQUEST 4001 l
l 1RH30DA 12.00 CS/0.688 NO N/A N/A N/A SEE RELIEF REQUEST 4001 1RH30D3 12.00 CS/0.688 NO N/A N/A N/A SEE RELIEF REQUEST 4001 1RH37AA 12.00 CS/0.406 NO N/A C5.11 SU 1RH38AA 14.00 CS/0.438 NO N/A C5.11 SU AUGMENTED INSPECTION PERFORMED PER 1.2(G) 0F INSERVICE EXAMINATION PROGRAM FLAN.
1 I
1RH38AB 14.00 CS/0.438 NO N/A C5.11 SU 1RHSBBA 14.00 CS/0.375 YES IWC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RH3BBB 14.00 CS/0.375 YES IWC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RH3BCA 14.00 SS/0.625 YES IWC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RH3BCB 14.00 SS/0.625 YES IWC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RH3CDA 14.00 CS/0.750 YES IWC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RH38DB 14.00 CS/0.750 YES IWC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RH39A 14.00 CS/0.438 NO N/A C5.11 SU 1RH39B 14.00 CS/0.375 YES IWC-1220(A) DESIGN PET;74/S75 N/A N/A 1RH39C 14.00 SS/0.625 YES IWC-1220(A) DESIGN P&T;74/S75 N/A N/A PAGE: 11-43 l
. =.
l TAE4 E II ILLINOIS POWER cot 1PANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM P1_AN (REVISION 2)
CLASS 2 COMPONENTS RESIDUAL HEAT REMOVAL SYSTEM PIPING (RH)
PIPE ASME CODE LINE MATERIAL /
SEC II EIAM EIN SIZE THICKNESS EXEMPT EXEMPTIDM BASIS ITEM NO METHOD REMARKS 1RH39D 14.00 CS/0.750 YES INC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RH40AA 10.00 CS/0.365 NO N/A C5.11 SU C3.20 1RH40AB 10.00 CS/0.365 NO N/A C5.11 SU 1RH40BA 10.00 CS/1.125 NO N/A C5.21 VD/SU C3.20 1RH40BB 10.00 CS/1.125 NO N/A C5.21 VD/SU C3.20 1RH41AA 1.00 CS/0.179 NO N/A N/A SU AUGMENTED INSPECTION PERFORMED PER 1.2(F. )
0F INSERVICE EIAMINATION PROGRAM PLAN.
1RH41AB 1.00 CS/0.179 NO N/A N/A SU AUGMENTED INSPECTION PERFORMED PER 1.2(F.2) 0F INSERVICE EIAMINATION PROGRAM PLAN.
1RH30AA 10.00 CS/0.365 NO N/A C5.11 SU AUGMENTED INSPECTION PERFORMED PER 1.2(F.2)
C3.20 0F INSERVICE EIAMINATION PROGRAM PLAN.
1RH30AB 10.00 CS/0.365 NO N/A C5.11 SU AUGMENTED INSPECTION PERFORMED PER 1.2(F.2)
C3.20 0F INSERVICE EXAMINATION PROGRAM PLAM.
1RH30BA 10.00 CS/0.365 YES INC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RH30BB 10.00 CS/0.365 YES INC-1220(A) DESIGN PET;70/S75 N/A N/A 1RH50CA 8.00 CS/0.322 YES INC-1220(A) DESIGN P&T;74/$75 N/A N/A PAGE: 11-44
l TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 2 COMPONENTS l
RESIDUAL HEAT REMOVAL SYSTEn PIPING (RH)
PIPE ASME CODE LINE MATERIAL /
SEC II EIAM EIN SIZE THICKNESS EIEMPT EXEMPTION BASIS ITEM NO METHOD REMARKS 1RH50CB 8.00 CS/0.322 YES IWC-1220(A) DESIGN P&T;74/S75 N/A N/A l
l l
1RH30DA 8.00 CS/0.322 YES IWC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RH30DB 8.00 CS/0.322 YES INC-1220(A) DESIGN P&T;74/S75 N/A N/A i
1RH30EA 8.00 CS/0.322 YES IWC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RH30EB 8.00 CS/0.322 YES IWC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RH50F 8.00 CS/0.322 YES IWC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RH30GB 10.00 CS/0.594 NO N/A C5.21 VD/SU AUGMENTED INSPECTION PERFORMED PER 1.2(F.2)
DF INSERVICE EIAMINATION PROGRAM PLAN.
1RH31CA 10.00 CS/0.365 NO N/A C5.11 SU AUGMENTED INSPECTION PERFORMED PER 1.2(F.2) 0F INSERVICE EIAMINATION PROGRAM PLAN.
1RH51CB 10.00 CS/0.365 NO N/A C5.11 SU AUGMENTED INSPECTION PERFORMED PER 1.2(F.7)
C3.20 0F INSERVICE EIAMINATION PROGRAM PLAN.
1RH62A 10.00 CS/0.365 YES IWC-1220(A) DESIGN P&T;74/575 N/A N/A 1RH63AA 3.00 CS/0.300 NO N/A N/A SU AUGMENTED INSPECTION PERFORMED PER 1.2(F.2) 0F INSERVICE EIAMINATION PROGRAM PLA!i.
IRH63AB 3.00 CS/0.300 NO N/A N/A SU AUGMENTED INSPECTION PERFORMED PER 1.2(F.2)
OF INSERVICE EIAMINATION PROGRAM PLAN.
1RH86AA 0.75 CS/0.154 NO N/A N/A SU AUGMENTED INSPECTION PERFORMED PER 1.2(F.2)
OF INSERVICE EIAMINATION PROGRAM PLAN.
l l
PAGE: II-43 1
TABLE I!
ILLINOIS POWER COMPANY 1
CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 2 COMPONENTS _
RESIDUAL HEAT REMOVAL SYSTEM PIPING (RH)
PIPE ASME CODE LINE MATERIAL /
SEC II EXAM EIN SIZE THICKNESS EIEMPT EXEMPTION BASIS ITEM NO METHOD REMARKS 1RH86AB 0.75 CS/0.154 NO N/A N/A SU AUGMENTED IN5PECTION PERFORMED PER 1.2(F.2) 0F INSERVICE EIAMINATION PROGRAM PLAN.
1RH87AA 0.75 CS/0.154 NO N/A N/A SU AUSMENTED INSPECTION PERFORMED PER 1.2(F.2) 0F INSERVICE EIAMINATION PROGRAM PLAN.
1RHB7AB 0.75 CS/0.154 NO N/A N/A SU AUGMENTED INSPECTION PERFORMED PER 1.2(F.2) 0F INSERVICE EIAMINATION PROGRAM PLAN.
1RH97A 10.00 CS/0.365 NO N/A C5.11 SU 1RH31AA 0.75 CS/0.154 NO N/A N/A SU AUSMENTED INSPECTION PERFORMED PER 1.2(F.2) 0F INSERVICE EIAMINATION PROGRAM PLAN.
1RHA1AB 0.75 CS/0.154 NO N/A N/A Su AUSMENTED INSPECTION PERFORMED PER 1.2tF.2) 0F INSERVICE EIAMINATION PROGRAM PLAN.
1RHC6A 16.00 CS/0.375 NO N/A C5.11 SU l
ICHEIAA 20.00 CS/0.375 YES INC-1220(A) DESIGN P&T;74/S75 N/A N/A l
1RHE1AB 20.00 CS/0.375 YES INC-1220(A) DESIGN P&T;74/S/5 N/A N/A l
PAGE: 11-46 i
TABLE II ILLINOIS FOWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 2 COMPONENTS REACTOR COEE IEDLATION COOLING SYSTEM PIPING (RI)
P1PE AShE CODE LINE MATERIAL /
SEC XI EXAM EIN SsZE THICKNESS EIEMPT EXEMPTION BASIS ITEM NO METHOD REMARKS 1R2012 6.00 SS/0.280 YES IWC-1220(A) DESIGN P&T;74/S75 N/A N/A 2RIGIC 6.00 CS/0.280 YES 1WC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RIO2A 6.00 SS/0.432 YES 1WC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RIO2B 6.00 CS/0.280 YES 1WC-1220(A) DESIGN P&T;74/S75 N/A N/A 1RIO3A 6.00 CS/0.562 NO N/A C5.21 VU/SU C3.20 1RIO4B 8.00 CSIO.500 NO N/A C5.11 SU 1RIO7A 12.00 CS/0.375 NO N/A C5.11 SU 1RIO8A 12.00 CS/O.375 NO N/A C5.11 SU 1RIOBB 12.00 SS/0.625 NO N/A N/A N/A SdE RELIEF REQUEST 400!
1RI0BC 12.00 CS/0.688 NO N/A N/A h/A SEE RELIEF REQUEST 4001 1RI43A 8.00 CS/0.322 NO N/A C5.11 SU C3.20 1RI69A 10.00 CS/0.719 NO N/A C5.21 VD/SU PAGE: II-47
cn M
cc CnW ce a
N Z
O to m>
wW a
Wrc H*
aez cc c
). s ox>
UWW z
z zzz E
CDC 1
J E Z Q.
o 00E Lo
~ z y
z Wx e
e us m
E pq c.
ui U W z
z
- CC C %
z eWw
" WHO w
a.
en co 3 to O z
e c
o E
g CC 0-d 1
WJ r
A W
o en.
C la 3 Z u
FM CO m
.e
+1 O Q. -
N 0-0-
W Z
H m
m t.o M ZC u) e m
x z
a,
.J O.Z.
e e
JH
_a W
cm w
mzE W
W C
C z
Ce x
-q C3 W
ut dX CC m
CL CL.
UW W
w c
o cn c.
11)
C e
m W
.:2 CQ y
x W
O O
N N
c N
N wO b
b Z
z z
Q.
m
(/1 E
W W
W
>=
>=
M W
% t.n
.J Cn O
O CW G3 03 M z N
N Ce M e
e WW O
O
>- w i
CZ t/3 Cf3 E >=
U U
C O
WWW O
O Q. z N e
e www
.c
.c Q.
J tt) i l
z C
M di CD l
W O
M CO C
C
(
t/1 t/1 w
w
.m.
4
a mn-1 lt)
M Q:
G EW Q:
a Z
O w
w>
"W U
o cn WEo F-mez e
>= M QM W ZZZ Cm uWW z
E CDC Q.
.J a
E Z Q.
o OO o.
~z QH E WM C
co E
m:
E pq W
cn u W z
N 5C%
E W
GWW M WHO W
us tn 3 U) O E
o-W Q C
to J D. % 0.
I
,8.,
a Q
W ca o
C U) 3 Z u
Cc w
HwOO au O Q. -
N z
c.
W C
'3 Z
H to u
.-=
(D cr.
24 U3 CA E
Q.
M JOZ e
o e
JH-Cn wZE u
- 2 e
o z
Ct:
mq W
.Oe dX
,J CL UW H
cm et W
CQ E
a Q
W
.O y
z M
G ld C
w n
en n
~
W E,
MZs H
Q.
En E
W W
M W
% fn J Sn O
CW CD N.
m E Ct: M LA u O
Hw Cz Co E&
(n C
W W L.AJ O.
CL E N.
== m 4
Q..J Cn Z
w d
W
==
0u Co w
u.
u.
u.
u.
o o
ci o
m
~
~
ca c) o c3 N.
N.
N.
N e
.=.
e-o e
ce =
cc =
cc =
ce =
w cz we wc we O.
J cL.
.,J O.
2 LJ Q.
Q.
Q.
A ca cm o
a wr wz wn wr na m <z nc n <z ce ce ce ce ce ce ce ce cn c3 m o en oe c) m w
- u. o
- u. c2
- u. o
- u. o ce ce ce ce ce ce ce ce ce
<z w o.
w c.
w c.
w a.
m a.
c.
c.
a.
w z
z z
z ce zo z ca z ci zo cm. H o-o-
o-
-H se H e-o W si-WC HC H C Hd uz uz uz oz w-w-
w-w-
- o. E
- o. r
- o. E o, r m cz m <z ma m <z xx xx xx zx ew
-w
-w
-w en w cw en w cw N
wu wu wu wu r-s-
Z z>
z>
z>
z>
w cc w cc w ce w ce C
mw mw zw mw
~
ca us w en ww w sn to oz oz oz oz s
<z -
cz -
<z -
<z -
d W 5
o E
Cn WEo D
D D
D ci <z z cn cn cn m
Fw
>M ox>
N zww c) uww c3 o
o o
q3g z
r 1
J a
E Z Q.
c3
-x OO s
ywg wx o
-o cn r
m z
N NN N
NN pq s
w.
cn u w e
e e
e e H %CZ z
e w >.
n nn n
vi n u
uu u
uu w W F LO w
to.-. cn -
o 3 to o z
n W C g
o m
.J Q. % Q.
I d
w Q
W o
z C (D 3 Z u
a se Fwoo 2
W O Q.
- N CD w
en.
Z h
cz cn
- n. -
wZC u-w m
J Q Z.
<z w
<r
.J H
.J ce cm MZr u
c "a x 5
E C
se a
.c m
s s
s s
s x
z z
z UW o
a.
W E
z w
y 4
x Ce W
u C
m W
i l
mZ m
CL.
E C3 c3 c3 c3 W
z z
z z
x W
l
% Cn I
.J Cn w
e i
ew o-e cr e
t
-x n
to n
to I
Ct: W e
e e
e N-k k
k k
ez m
m m
m EH u
u u
u o
O C
C WWW C
C C
C.
Q. z N e
e e
O N
Ne O
tu J cn C'
N Ne z
O o
o
=
w N
N o
o N
N Ch cr=
c3 c3 o
o m
Ln Ln ch.
f
S K
R A
M E
R
)
2 N
)
F O
S I
(
S I
G V
N I
1 E P
D R
I EMO T(
P DAH A
A A
A YI OX T
/
/
/
/
NNN M
CEE N
N N
N E
M AUA T
P L
S MNP Y
D OO S
I N CI M EX A
A A
A S
R M
M
/
/
/
/
TA T
E SCE N
N N
N I RAR N
F AET I ETG E
S SI 1
WSO N
N 5
E O R
O A
P R
L PRP I
M T
B E
O I
A SWN C
T T
T T
T I OO OPI 2
P P
P P
P E
G U
S N
T S
N I
G G
G G
A I NA S
A S
N N
N N
P LON A
E A
I I
I I
LTI L
L B
T T
T T
I NM C
C A.
A A
A N
R R
R I A L
3 E'
E E
E LX O
I P
P P
P CE O
T O
O O
O P
P E
M
)
)
)
)
N E
B B
B B
C O
X
(
(
(
(
I E
0 0
0 0
I V
S 2
2 2
2 R
S 2
2 2
2 E
E 1
1 1
1 R
S P
C C
C C
N P
W h
W W
I U
I I
I I
S T
P S
S S
S M
E E
E E
E Y
Y Y
Y X
E
/S LS 5
5 6
6 AE 6
7 0
0 3
3 4
4 I N RK EC 0
0 0
0 TI
/
/
/
/
AH S
S S
S MT C
S S
S 0
0 0
0 EEE 0
0 0
0 PNI I I 0
2 2
2 PL S 1
1 1
1 N
I E
F G
A E
1 1
1 2
0 0
0 0
F F
F F
S S
S S
I I
4 I
j' J
l k
4 4
1 J
l iA
S K
R A
M E
R
)_
2 N
O I
S
~
I V
)
M I E S
D R
EMO
(
T(
DAH A
A A
A YI G
OX T
/
/
/
/
NNN N
CEE N
N N
N I
M AUA P
P L
I I
MNP P
O OO I N CI M M
EI A
A A
A S
E M
M
/
/
/
/
TA T
T SCE N
N N
N I RAR N
S AET I
ETG E
Y SI 2
WSO N
S 5
E O R
D P
P L PRP I
M U
B E
O E
I A SWN C
K T
T T
T TI OO A
t.
OPI 2
M P
P P
P E
G S
N T
S L
I G
G G
G A
2NA S
O S
N N
N N
P LON A
O A
I I
I I
LTI L
P B
T l
T T
INM C
A A
A A
N N
R R
R R
'1 A O
O F
E E
E LX I
I P
P P
P CE S
T O
O O
O S
P E
E M
)
)
)
)
R E
B B
B B
C P
X
(
(
(
(
I P
E 0
0 0
0 V
U 2
2 2
2 R
S 2
2 2
2 1
1 1
1 E
S C
C C
C N
W W
W W
I I
I I
I T
P S
S S
S M
E E
E E
E Y
Y Y
Y X
E i
/S LS 5
5 5
5 AE 7
7 7
7 3
3 3
3 I N RK EC 0
0 0
0 T I
/
/
/
/
AH S
S S
S MT S
S C
C 0
0 0
0 0
0 0
0 EEE PNZ I I I 4
4 4
4 PLS 2
2 2
2 N
A B
A B
I A
A B
B E
1 1
1 1
0 0
0 0
M M
M M
S S
S S
1 1
I 1
I i
S K
R A
M E
R
)
2 NO I
S I
V
)
1 E P
D R
V EMO T(
DAH A
A A
A
(
YI OX T
/
/
/
/
NNN G
CEE N
N N
N N
M AUA I
P L
P MNP I
O OO P
I N CI M EX A
A A
A S
M M
M
/
/
/
/
TA T
E SCE N
N N
N I
RAR N
T AET I
ETG E
S SI 3
WSO N
Y 5
E O R
O S
P L PRP I
M R
B E
O E
I ASWN C
T T
T T
T T_ I OO A
E OPI 2
W P
P P
P E
G S
N T
S D
I G
G G
A I NA S
E S
N K
N N
P LON A
L A
I I
I I
LTI L
L B
T T
T T
I NM C
I A
A A
A H
N R
R R
R I A C
O E
E E
C LX I
P P
P P
CE L
T O
O O
O L
P E
E M
)
)
)
1 W
E B
B B
3 C
Y X
(
(
(
(
R E
0 0
0 0
I V
D 2
2 2
2 R
2 2
2 2
1 1
1 1
E S
C C
C C
N W
W W
W I
I I
I I
T P
S S
S S
M E
E E
E E
Y Y
Y Y
X E
/ S LS 5
5 5
5 AE 6
6 6
6 3
3 3
3 I N RK EC 0
0 0
0 T I
/
/
/
/
AH S
S S
S MT C
C C
C 0
0 0
0 EEE 0
0 0
0 PNZ I I I 0
0 0
0 PLS 1
1 1
1 N
A B
A B
I B
B D
D E
2 2
3 3
0 0
0 0
P P
P P
V V
V V
1 I
I I
I:
j 4
i i
i S
K R
A M
E R
)
2 NO I
S I
V 1 E D
R EMO T(
DAH A
A A
A A
A
)
OXT
/
/
/
/
/
/
YI NNN D
CEE N
N N
N N
N V
M AUA
(
P L
MNP G
O OO N
I N I
EX A
A A
A A
A CI M S
P M
M
/
/
/
/
/
/
TA T
I SCE N
N N
N N
N I RAR N
P AET I ETG E
CI 4
WSO N
M 5
E O R
O E
P T
1 LPRP M
S 1
B E
O Y
A SWN C
S T
T T
T T
T TIOO L
OPI 2
E P
P P
P P
P E
G G
S S
R I
G G
G S
G G
A N
T I NA S
U S
N N
N N
N N
P LON A
P A
I I
I I
I I
LTI L
B T
T T
T T
T I NM C
L A
A A
A A
A L
N R
R R
R R
R I A E
C E
E E
E E
E LX W
I P
P P
P P
P CE Y
T O
O O
O O
D R
P E
D M
)
)
)
)
)
)
E B
B B
B B
B C
X
(
(
(
(
(
(
I E
0 0
0 0
0 0
V 2
2 2
2 2
2 R
2 2
2 2
2 2
1 1
1 1
1 1
E S
C C
C C
C C
N W
W W
W W
W I
I I
I I
I I
T P
S S
S S
S S
M E
E E
E E
E E
Y Y
Y Y
Y Y
X E
/ S LS 5
5 5
5 5
5 AE 7
7 7
7 6
7 3
3 3
3 3
3 I N RK EC 0
0 0
0 0
0 T I
/
/
/
/
/
/
AH S
S S
S S
S MT C
C C
C C
C 0
0 0
0 0
0 EEE 0
0 0
0 0
0 PNZ I I I 4
4 6
6 0
4 PLS 2
2 3
3 1
2 N
I A
A B
A A
A E
1 2
2 5
3 9
0 0
0 0
1 1
0 D
0 0
D Q
V V
V V
V V
I 1
I 1
1 I
i ii:i j
l 1
{l i
il S
K R
AM E
R
)
2 N
O I
S I
V 1E D
R EMO T(
)
DAH A
A A
YI R
OX T
/
/
/
NNN V
CEE N
N N
(
M AUA P
L G
MNP N
O OO I
I N CI M P
EX A
A A
S I
M M
/
/
/
TA T
P SCE N
N N
I RAR N
AET I
ETG E
M SI 5
WSO N
E 5
E O R
C T
P S
L PRP 1
M Y
B E
O S
1 A SWN C
l T
T TI OO C
S E
OPI 2
A P
P P
G V
S N
T S
H I
G S
G AP I MA S
S N
N N
LON A
T A
I I
I LTI L
N B
T T
T I NM C
E A
A A
M N
R R
R I A N
O E
E E
LX s
I P
F P
CE A
T O
0 O
T
?
E N
i
)
)
)
D l
B B
B C
C Y
(
(
(
I E
0 0
0 V
2 2
2 R
2 2
2 1
1 1
E S
C C
C N
W N
W I
I I
I T
P S
S S
M E
E E
E Y
Y Y
X E
/S LS 5
5 5
AE 7
7 7
3 3
3 I N RK EC 0
0 0
T I
/
/
/
AH S
S S
MT C
C C
0 0
0 EEE 0
0 0
PNZ I I I 6
2 2
PLS 3
1 1
N I
B C
A E
1 9
4 0
0 1
R R
R V
V V
I I
I
~
- lll, l
S K
R A
M E
R
)
2 N
O I
S I
V 1E D
)
R D
EMO T(
W D AH A
A A
(
OX T
/
/
/
YI NNN CEE N
N N
G M
AUA N
P L
I MNP P
O I
I N OO CI M P
EX A
A A
S M
M
/
/
/
TA T
M SCE N
N N
I RAR N
E AET I
ETG E
T SI 6
WSO N
S 5
E O R
O Y
P S
L pnp I
M I
B E
O R
A SWN C
E T
T T
TI OO T
E OPI 2
A P
P P
G W
S 1.
N T
S I
G G
G F
I NA S
D S
N N
N LON A
E A
I I
I LTI L
L B
T T
T A
A A
I NM C
3 N
R R
R I A H
O E
E E
LX C
I P
P P
CE T
O O
O T
P E
N M
)
)
)
A E
B B
B C
L X
(
(
(
P E
0 0
0 I
V 2
2 2
R 2
2 2
1 1
1 E
S C
C C
N W
W W
I I
I I
T P
S S
S M
E E
E E
Y Y
Y X
E
/S LS 5
0 5
AE 6
9 6
3 2
3 I N RK EC 0
0 0
T I
/
/
/
AH S
S S
MT C
C C
0 0
0 EEE 0
0 0
PNZ I I I 0
6 0
PLS 1
1 N
I C
B C
E I
3 3
H K
K D
D O
W W
N 1
1 1
tn M
Ccc EW CC
^
N Z
O M
Ul M>
- W o
E W E c3 Hw Ca e z
). w c3x>-
zzz uWW CDC Q.
J E Z Q.
o 00
~ z CC UM E W"E to in E
V) T pq k.
CD f.n u W e e M ECC z
z e W >-
88 w W H LO W
en -
uu 3(00 z
CL NM W D Z
C
~
J C. % 0.
1 2
W c3 E
C (D 3 Z u
W
==
FwOO W
0 Q. M N
(A*
'A Z
H a
s.n en
~
M2C Cn f.n L
.J O Z e
J e
JH-
_J a
cn mzE u
e M G a
JX U LU x
CL W
EW U
%W U)Z m
>=
CL.
E Q
W Z
M W
% en
.J CD CW
=2 Cg M i
WW 4
>- w 4Z E >=
WWW C6 EN 1
m m w l
Ch.
J f.n CD W WE-2 0:
- CC M
- '3 E 4 W
(n m C3 CD C E JW>=D JCCW O G CL. CC Cr3
TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 2 COMPONENTS PUMPS PIPE ASME CODE LINE MATERIAL /
SEC XI EXAM EIN SIZE THICKNESS EXEMPT EXEMPTION BASIS ITEM ND METHOD REMARKS 1C410001A YES IWC-1220(C) SIZE N/A N/A IC4100018 YES IWC-1220(C) SIZE N/A N/A 1E12C002A NO N/A C6.10 SU C3.30 1E12C002B NO N/A C6.10 SU C3.30 1E12C002C ND N/A C6.10 SU C3.30 1E12C003 YES IWC-1220(A) DESIGN P&T;74/S75 N/A N/A e-NO N/A C6.10 SU i
1E21C001 C3.30 1E21C002 YES 1NL-1220(A) DESIGN P&T;74/S75 N/A N/A 1E22C001 NO N/A C6.10 SU C3.30 1E22C003 YES IWC-1220(A) DECISM P&T;74/S75 N/A N/A 1E51C001 NO N/A C6.10 SU C3.30 1E51C003 YES 1WC-1270(Al DESIGN P&T;74/S75 N/A N/A 4
PAGE: 11-58
sn M
Ce Czw Ce e
N ZQ r
(D w>
-W a
C.
W m ca H*
oCx p
>. w cs w r us ZZZ uWWE CDC Q.
.J E Z Q.
o 00
-2 C
CC UN E W"e n.
- n. e.
m z
HC s
Cn u W M %C%
z
<t W e a
ss w W H LD W
r.n -
o uu 3 (D O 2
M W O Z
O 1
.J Q. % Q.
I en m
W o
s C to 3 Z u
m
.e FwQQ D
UJ Q Q,, m N
Q.
m en I
p C
Cn m
a.
wZC Cn en JOZ e
C I
Ca Jw~
e, I
u wZg
- I C
C I ><
C.
s s
UW z
z CL W
U u
W W
>ZW (DZ M
CL.
E O
O W
E Z
M W
i Wu I
4
>= m CZ E>
WWW N
t I
Q. E.e ee.
w I
e Q. J (n U1 Cn
.J E
CD W W E.* Cd J
W w
Cd =
2 C
E
- -e Cc A Z DEC 44J CD W u Cn N O WQC Cn 4 2
.J >..J >=
JWH D JZWH J Ct: W C3 C ** M C C CL CC CD
.n.-
, em h:
Cc C
EW CC n
N 20 b
m>
wW a
Z WrO Fw aCz m
>M CM >=
U3 ZZZ uWWE CDC Q.
.J E Z Q.
O 00
~2 UM E W*
O CO e.
- 8. co.
us a:
E pq F-un u W M $CC E
C W >=
M bN M WHO w
us -
u uu o
3 CD O z
4 ld O C
3 J D. % Q.
I 1
m w
Q
-C (D 3 2 u
.J FmOO a
W O Q. -
N Z
e-os o.
-Zc u3 un JOZ C
2
.J >- -
J m
mZE U
"C 5
c e
JX U dl z
z o
W Ew U
.m
~>
%W LnZm
>=
CL E
O O
W Z
E M
W
% Cft
.J U1 CW M E Ct: :h:
1 1
Wu 1
l
>= w CZ E >=
WWW AEN I
1
= mM l
I L J V1 V1
>=
>=
U3
.J X
CI3 W J
W WZw 2
C E
Cc - CC w
Cc O Z
- 3 XC W
LD W u U1 M Q W C3 C U1 C E
.J >=.J >=
J W >= D
.J Z W >=
Q. U W
E CL Q U1 mZ
>= m WW>
C6 CC LA W Z>
mW
> > =
t/h CC U1 W
WW CC C
W E
U
-W
>= M CC U1 >=
W4
>= >=
En WQ U Cd we Q CC =
W En E
^
ZW e
N
>e >=
)
to C E>>
Z W sn Cc a
W M
t/) A >-
'CD
> zz M
to C -
d W a
E WEO h*
C3 CZ
>=
>x c3 x >-
zZz u us W E
CDC Q.
.J E21 e
00
-2 OO UM E WM O.-e.-e
&n E
E w
pq
>=
th in U W e e.
EOE Z
.J G W >=
wNM M
M W H LD w
w in -
cm o a 3 CD C z
in
.o W O C
m
't
.) A % CL CL W
e C (D 3 Z u
W HH CO Cc W
Q Q. M M
C Lu Z
H C
- Ze a
0 a.
aoZ C
C C
!&~
.3 a.
ca wZE Wi x
mc dX k
w UW r
z o.
E W
W U
w i
m N
.y CCW LnZ w
>=
CL E
C3 W
2 x
W
% Ln
I WW 4
>= o.s CZ E >=
WWW N
t Q. E.e==
m.
l C. =J (A to CD W Wz=
3EC W
WM C3 Cn C E
.J W >= 3
.JCc W D C Ch. CC CQ
TADLE II ILLINDIS FOWER COMPANY Ct_INTON POWER STATION UNIT-1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 3 COMPONENTS COMPONENT COOLING SYSTEM PIPING (CC) i PIPE ASME CODE LINE MATERIAL /
SEC II EIAM EIN SIZE THICKNESS EXEMPT EIEMPTION BASIS ITEM ND METHOD REMARKS ICCO2FA 14.00 CS/0.375 YES IWD-1220.2 CPERATING PET N/A N/A 1CCO2FB 14.00 CS/0.375 YES IWD-1220.2 OPERATING P&T N/A N/A ICC03AA 14.00 CS/0.375 YES IWD-1220.2 OPERATING P&T N/A N/A ICC03AB 14.00 CS/0.375 YES IWD-1220.2 OPERATING P&T N/A N/A 1CC63AA 14.00 CS/0.375 YES IMD-1220.2 GPERATING P&T N/A N/A ICC63AB 14.00 CS/0.375 YES IhD-1220.2 GPERAlING PLT N/A N/A 1CC67AA 14.00 CS/0.375 YES IWD-1220.2 OPCRATING P&T N/A N/A 1CC67AB 14.00 CS/0.375 YES IMD-1220.2 OPERATING P&T N/A N/A PAGE: I1-62
TABLE II YLLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATIGN PROGRAM PLAN (REVISION 2)
CLASS 3 COMPONENTS FUEL POOL COOLING & CLEANUP SYSTEM PIPING (FC)
PIPE ASME CODE LINE MATERIAL /
SEC XI EXAM EIN SIZE THICKNESS EXEMPT EXEMPTION BASIS ITEM ND METHOD REMARKS 1
IFC01BA 10.00 SS/0.365 YES IMD-1220.2 OPERATING P&T N/A N/A IFC01BB 10.00 SS/0.365 YES IWD-1220.2 GPERATING P&T N/A N/A IFC01C 10.00 SS/0.365 YES IWD-1220.2 OPERATING P&T N/A N/A IFC01E 10.00 SS/0.365 YES IND-1220.2 OPERATING P&T N/A N/A IFC01FA 10.00 SS/0.365 YES IWD-1220.2 DPERATING P&T N/A N/A l
IFC01FB 6.00 SS/0.280 YES IWD-1220.2 DPERATINS P&T N/A N/A 1FC016A 12.00 SS/0.406 YES IWD-1220.2 OPERATING P&T N/A N/A 1FC01GB 12.00 SS/0.406 YES IWD-1220.2 DPERATING P&T N/A N/A 1FC01H 12.00 SS/0.406 YES IWD-1220.2 OPERATING P&T N/A N/A u
1FC07AA 14.00 SS/0.375 YES IMD-1220.2 OPERATING PAT N/A N/A IFC07AB 14.00 SS/0.375 YES IWD-1220.2 OPERATING P&T N/A N/A 1FC07B 16.00 SS/O.375 YES IWD-1220.2 OPERATING P&T N/A N/A 1FC07CA 14.00 SS/0.375 YES IWD-1220.2 OPERATING P&T N/A N/A IFC07CB 14.00 SS/0.375 YES IWD-1220.2 OPERATING P&T N/A N/A 1FCOBA 16.00 CS/0.375 YES IWD-1220.2 OPERATING P&T N/A N/A PAGE: 11-63
TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 3 COMPONENTS FUEL PDCL COOLING & CLEANUP SYSTEM PIPING (FC) e PIPE ASME CODE 3
l LINE MATERIAL /
SEC XI EXAM EIN SIZE THICKNESS EXEMPT EXEMPTION BASIS ITEM NO METHOD REMARKS 1FC09AA 14.00 SS/0.375 YES IND-1220.2 OPERATING P&T N/A N/A 1FC09AB 14.00 SS/0.375 YES IWD-1220.2 DPERATING PET M/A N/A IFC09BA 8.00 SS/0.322 YES IWD-1220.2 OPERATING P&T N/A N/A 1FC09BB 12.00 SS/0.406 YES IND-1220.2 OPERnTINS P&T N/A N/A 1FC09CA 12.00 SS/0.406 YES IWD-1220.2 OPERATING P&T N/A N/A I
1FC09CB 8.00 SS/0.322 YES IWD-1220.2 OPERATING P&T N/A N/A IFC09DA 14.00 SS/0.375 YES IWD-1220.2 OPERATING P&T N/A N/A 1FC09DB 14.00 SS/0.375 YES IWD-1220.2 OPERATING P&T N/A N/A 1FC10AA 8.00 SS/0.322 YES IWD-1220.2 OPERATING P&T N/A N/A 3
1FC10AB 8.00 SS/0.322 YES IWD-1220.2 OPERATING P&T N/A N/A J
1FC10B 8.00 SS/0.322 YES IWD-1220.2 OPERATING P&T N/A N/A 1FC12C 8.00 SS/0.322 YES IWD-1220.2 DPERATING P&T N/A N/A 1FC12DA 8.00 SS/0.322 YES IWD-1220.2 CPERATING P&T N/A N/A IFC12DB 8.00 SS/0.322 YES IND-1220.2 OPERATING PET N/A N/A IFC14AA 14.00 SS/0.375 YES IWD-1220.2 OPERATINS P&T N/A N/A 1
PAGE: 11-64
TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT I INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 3 COMPONENTS FUEL POOL COOLING & CLEANUP SYSTEM PIPING (FC)
PIPE ASME CODE LINE MATERIAL /
SEC XI EXAM EIN SIZE THICKNESS EXEMPT EXEMPTION BASIS ITEM ND METHOD REMARKS IFC14AB 14.00 SS/0.375 YES IWD-1220.2 OPERATING P&T N/A N/A IFC14B 16.00 SS/0.375 YES IWD-1220.2 OPERAi!NS P&T N/A N/A IFC14CA 14.00 SS/0.375 YES IWD-1220.2 OPERATING P&T N/A N/A IFC14CB 14.00 SS/0.375 YES IWD-1220.2 OPERATING P&T N/A N/A IFC14CC 8.00 SS/0.322 YES IMD-1220,2 OPERA 1ING P&T N/A N/A 1FC14CD 14.00 SS/0.375 YES IWD-1220.2 OPERATING P&1 N/A N/A 1FC14D 16.00 SS/0.375 YES IWD-1220.2 DPERATING P&T N/A N/A IFC14E 14.00 SS/0.375 YES IWD-1220.2 OPERATING PET N/A N/A 1FC14F 8.00 SS/0.322 YES IWD-1220.2 DPERATING P&T N/A N/A IFC15A 12.00 SS/0.406 YES IWD-1220.2 OPERATING P&T N/A N/A IFC17A 8.00 SS/O.322 YES IWD-1220.2 OPERATING P&T N/A N/A 1FC17C 8.00 SS/0.322 YES IND-1220.2 OPERATING F&T N/A N/A 1FC17D 10.00 SS/0.365 YES IWD-1220.2 OPERATINS P&T N/A N/A 1FC23AA 12.00 SS/0.406 YCS IND-1220.2 OPERATING P&T N/A N/A IFC23AB 12.00 SS/0.406 YES IWD-1220.2 DPERATING PET N/A N/A PAGE: II-65
+v
TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION Ut1IT 1 INSERVICE EXAF.INATION PROGRAM PLAN (REVISION 2)
CLASS 3 COMPONENTS FUEL. P00L C00LIMG & CLEANUP SYSTEM PIPING (FC)
PIPE ASME CODE l
LINE NATERIAL/
SEC XI EXAM EIN SIZE THICKNESS EIEMPT EXEMPTION BASIS ITEM ND: METHOD REMARKS 1FC23BA 10.00 SS/0.365 YES IWD-1220.2 OPERATING P&T N/A N/A i
(
1FC23BB 10.00 SS/0.365 YES IWD-1220.2 DPERATING Pai N/A N/A l
1FC23CA 10.00 SS/0.365 YES IWD-1220.2 OPERATING P&T N/A N/A l
l IFC23CB 10.00 SS/0.365 YES IWD-1220.2 CPERATIWS P&T N/A N/A I
1FC25AA 12.00 SS/0.406 YES IWD-1220.2 OPERATING PET N/A N/A IFC25AB 12.00 SS/0.406 YES IWD-1220.2 OPERAIING FLT N/A N/A l
IFC27C 6.00 SS/0.280 YES IWD-1220.2 CPERATINS P&T N/A N/A 1FC28AA 6.00 SS/0.280 YES IWD-1220.2 OPERATIN9 P&T N/A N/A N/A N/A 1FC28AB 6.00 SS/0.280 YES IWD-1220.2 OPERATING P&T 1FC31AA 6.00 SS/0.280 YES IWD-1220.2 OPERATING PET N/A N/A I
1FC31AB 6.00 SS/0.280 YES IWD-1220.2 DPERATINC P&T N/A N/A 1FC37A 6.00 SS/0.280 YES IWD-1220.2 OPERATING P&T N/A N/A 1FC41A 6.00 SS/0.280 YES IMD-1220.2 OPERATING P&T N/A N/A 1FC43AA 12.00 SS/0.406 YES IWD-1220.2 OPERATING P&T N/A N/A 1FC43AB 12.00 SS/0.406 YES IWD-1220.2 OPERATING P&T N/A N/A I
PAGE: II-66
TABLE II ILLINOIS POWER COMPANY CLINTOM POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISIOtt 2)
CLASS 3 COMPONENTS FUEL POOL C00LINJ & CLEANUP SYSTEM PIPING (FCI PIPE ASME CODE LINE MATERIAL /
SEC II EXAM EIN SIZE THICKNESS EXEMPT EXEMPTION BASIS ITEM NO METHOD REMARKS IFC44AA 12.00 SS/0.406 YES IWD-1220.2 OPERATING P&T N/A N/A 1FC44AB 12.00 SS/0.406 YES IND-1220.2 OPERATING P&T N/A N/A 1FC45AB 10.00 SS/0.365 YES IWD-1220.2 OPERATING P&T N/A N/A IFC47A 6.00 SS/0.280 YES IWD-1220.2 OPERATING P&T N/A N/A IFC47B B.00 SS/0.322 YES IWD-1220.2 OPERATING P&T N/A N/A 1FC31AA 6.00 SS/0.280 YES IWD-1220.2 OPERATING P&T N/A N/A IFC51AB 6.00 SS/0.280 YES IND-1220.2 GPERATING P&T N/A N/A 1FC53AA 6.00 SS/0.280 YES IMD-1220.2 OPERATING P&T N/A N/A 1FC33AB 6.00 SS/0.280 YES IWD-1220.2 GPERATINS P&T N/A N/A 1FC35AA 6.00 SS/0.280 YES IND-1220.2 OPERATING P&T N/A N/A 1FC35AB 6.00 SS/0.280 YES IWD-1220.2 DPERATING PET N/A N/A IFC37AA 6.00 SS/0.280 YES IWD-1220.2 OPERATING P&T N/A N/A 1FC37AB 6.00 SS/0.280 YES IWD-1220.2 OPERATING P&T N/A N/A 1FC57B4 B.00 SS/0.322 YES IWD-1220.2 OPERATINS P&T N/A N/A 1FC37BB 8.00 SS/0.322 YES IWD-1220.2 DPERATING P&T N/A N/A L
PAGE: 11-67
TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 3 COMPONENTS FUEL POOL COOLING & CLEANUP SYSTEM PIPING (FC) i PIPE ASME CODE LINE MATERIAL /
i SEC XI EXAM EIN SIZE THICKNESS EXEMPT d EXEMPTION BASIS ITEM NO METHOP REMARKS j
1FC39A 6.00 SS/0.280 YES IND-1220.2 DPERATINS P&T N/A N/A IFC63B 6.00 SS/0.280 YES IMD-122G 2 OPERATING P&T N/A N/A i
1FC70A 6.00 SS/0.280 YES IWD-1220.2 OPERATINS P&T N/A N/A IFC70B 12.00 SS/0.406 YES IW3-1220.2 OPERATING P&T N/A N/A I
IFC70CA 14.00 SS/0.375 YES IWD-1220.2 OPERATING P&T N/A N/A i
1FC70CB 14.00 SS/0.375 YES IWD-1220.2 OPERATINS F&T N/A N/A IFC70DA 14.00 SS/0.375 YES IWD-1220.2 OPERATING P&T N/A N/A IFC70DB 14.00 SS/0.375 YES IWD-1220.2 OPERATINS P&T N/A N/A 1FC70EA 16.00 SS/0.375 YES IWD-1220.2 OPERATING P&T N/A N/A 1FC76EB 16.00 SS/0.375 YES IND-1220.2 OPERATING P&T N/A N/A IFC74A 6.00 SS/0.280 YES IWD-1220.2 OPERATING PET M/A N/A 1FCB3AA 6.00 SS/0.280 YES IWD-1220.2 OPERATING P&T N/A N/A 1FCB3AB 6.00 SS/0.280 YES IND-1220.2 OPERATING P&T N/A N/A 1FCB3BA 8.00 CS/0.322 YES IWD-1220.2 CPERATING P&T N/A N/A IFCB3BB 8.00 CS/0.322 YES IMD-1220.2 DPERATIMS PET N/A N/A PASE: II-68 I-
1l l
S K
R A
M E
R
)
2 N
O I
S
)
I C
V F
(
1 E D
R G
EMO T(
N DAH A
A A
A A
A A
A I
OXT
/
/
/
/
/
/
/
/
YI NNN P
CEE N
p.N N
N N
N N
I M
AUA P
P L
MNP M
O OO E
I M CI M T
EI A
A 4
A A
A A
A S
S M
M
/
/
/
/
/
/
/
/
TA T
Y SCE N
N N
N N
N N
N I RAR N
S AET I
ETG E
SI WSO N
P 9
E O R
O U
6 P
N L PRP 1
M A
B E
O E
1 A SWN C
L TI OO C
T T
T T
T T
T T
OPI 3
E E
S P
P P
P P
P P
P G
N T
A S
I I NA S
G S
S G
G S
E G
G G
P LON A
N A
N N
N N
N N
N N
LTI L
I B
I I
I I
I I
I I
I NM C
L T
T T
T T
T T
T O
N A
A A
A A
A A
A IA D
O R
R R
R R
R R
R LX C
I E
E E
E E
E E
E CE T
P P
P P
P P
P P
L P
D D
O O
O O
O O
E G
M C
2 2
2 2
2 2
2 2
O E
P X
I E
0 0
0 0
0 0
0 0
V L
2 2
2 2
2 2
2 2
R E
2 2
2 2
2 2
2 2
E U
1 1
1 1
1 1
1 1
F S
D D
D D
D D
D D
N N
W M
W W
h W
W I
I I
I I
I I
I I
T P
S S
S S
S S
S S
M E
E E
E E
E E
E E
Y Y
Y Y
Y Y
Y Y
X E
/S LS 5
5 0
0 2
0 5
5 AE 6
7 8
0 2
8 6
6 3
3 2
2 3
2 3
3 I N RK EC 0
0 0
0 0
0 0
0 T I
/
/
/
/
/
/
/
/
AH S
S S
S S
S S
S MT S
C C
C C
S S
S 0
0 0
0 0
0 0
0 EEE 0
0 0
0 0
0 0
0 PNZ I I I 0
2 6
6 8
6 0
0 PLS 1
1 1
1 N
A B
I A
A A
8 C
A A
A E
7 B
9 9
9 9
9 9
B B
B B
B G
H H
C C
C C
C C
C C
F F
F F
F F
F F
1 I
1 I
1 I
1 I
,(llll
i i
T)DLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINnTION PROGRAM PLAN (REVISION 2)
CLASS 3 COMPONENTS l
MAIN STEAD SYSTEM PIPING (MS) l PIPE SEC XI EXAM ASME CODE LINE MATERIAL /
EIN SIZE THICKNESS EXEMPT EXEMPTION BASIS ITEM NO METHOD REMARKS IMS14BA 12.00 CS/0.406 NO N/A D1.20 VT INSPECTION PERFORMED PER 1.2(S) 0F INSERVICE EXAMINATION PROGRAM PLAN.
IMS14BB 12.00 CS/0.406 M0 N/A D1.20 VT INSPECTION PERFORMED PER 1.2(S) 0F INSERVICE EXAMINATION PROGRAM PLAN.
IMS14BC 12.00 CS/0.406 NO N/A D1.20 VT INSPECTION PERFORMED PER 1.2(S) 0F INSERVICE EXAMINATION PROGRAM PLAN.
IMS14BD 12.00 CS/0.406 NO N/A D1.20 VT INSPECTION PERFORMED PER 1.2(S) 0F INSERVICE EXAMINATION PROGRAM PLAN.
IMS14CA 10.00 SS/0.500 NO N/A D1.20 VT INSPECTION PERFORMED PER I.2(S) 0F INSERVICE EXAMINATION PROGRAM PLAN.
IMS14CB 10.00 SS/0.500 NO N/A D1.20 VT INSPECTION PERFORMED PER 1.2(S) 0F INSERVICE EXAMINATION PROGRAM PLAN.
1MS14CC 10.00 SS/0.500 NO N/A D1.20 VT INSPECTION PERFORMED PER 1.2(S) DF INSERVICE EXAMINATION PROGRAM PLAN.
IMS14CD 10.00 SS/0.500 NO N/A D1.20 VT INSPECTION PERFORMED PER 1.2(S) DF INSERVICE EXAMINATION PROGRAM PLAN.
IMS15BA 12.00 CS/0.406 NO N/A D1.20 VT INSPECTION PERFORMED PER 1.2(S) 0F INSERVICE EXAMINATION PROGRAM PLAN.
1MS15BB 12.00 CS/0.406 NO N/A D1.20 VT INSPECTION PERFORMED PER 1.2(S) 0F INSERVICE EXAMINATION PROGRAM PLAN.
PAGE: II-70 t
TABLE II ILLINOFS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVIEION 2)
CLASS 3 COMPONENTS MAIN STEAM SYSTEM PIPING (NS)
PIPE ASME CODE LINE MATERIAL /
SEC XI EXAM EIN SIZE THICKNESS EXEMPT EXEMPTION BASIS ITEM NO METHOD REMARKS IMS15BC 12.00 CS/0.406 NO N/A D1.20 VT INSPECTION PERFORMED PER 1.2(S) 0F INSERVICE EXAMINATION PROGRAM PLAN.
IMS15BD 12.00 CS/0.406 NO N/A D1.20 VT INSPECTION PERFORMED PER 1.2(S) 0F INSERVICE EXAMINATION PROGRAM PLAN.
IMS15CA 10.00 SS/0.500 NO N/A D1.20 VT INSPECTION PERFORMED PER 1.2(S) DF INSCRVICE EXeMINATION PROGRAM PLAN.
1MS15CB 10.00 SS/0.500 NO N/A D1.20 VT INSPECTION PERFORMED PER 1.2(S) 0F INGERVICE EXAMINATION PROGRAM PLAN.
s IMS15CC 10.00 SS/0.500 NO N/A DI.20 VT INSPECTION PERFORMED PER 1.2(S) 0F INSERVICE EXAMINATION PROGRAM PLAN.
IMS15CD 10.00 SS/0.500 NO N/A D1.20 VT INSPECTION PERFORMED PER 1.2(S) DF INSERVICE EXAMINATION PROGRAC PLAN.
1MS16BB 12.00 CS/0.406 NO N/A D1.20 VT INSPECTION PERFORMED PER 1.2(S) 0F INSERVICE EXAMINATION PROGRAM PLAN.
IMS16BC 12.00 CS/0.406 NO N/A D1.20 VT INSPECTION PERFORMED PER 1.2(S) 0F INSERVICE EXAMINATION PROGRAM PLAN.
IMS16BD 12.00 CS/0.406 NO N/A D1.20 VT INSPECTION PERFORMED PER 1.2(S) CF INSERVICE EXAMINATION PROGRAM PLAN.
IMS16CB 10.00 SS/0.500 NO N/A D1.20 VT INSPECTION PERFORMED PER 1.2(S) 0F INSERVICE EXAMINATION PROGRAM PLAN.
PA6E: 11-71
E E
E E
E E
E E
E E
C C
C C
C C
C C
C C
I I
I I
I I
I I
1 I
V V
V V
V V
V V
V U
R R
R R
R R
R R
R R
E E
E E
E E
E E
E E
S S
S S
S S
S S
S S
N N
N N
N N
N N
N N
I I
I I
I I
I I
I I
F F
F F
F F
F F
F F
D D
D D
0 0
0 0
D 0
)
)
)
)
)
)
)
)
)
)
S S
S S
S S
S S
S S
(
(
(
(
(
(
(
(
(
(
2 2
2 2
2 2
2 2
2 2
S 1
1 1
1 1
1 1
1 1
1 K
R RN RN RN RN RN RN RN RN RN RN A
EA EA EA EA EA EA EA EA EA EA M
PL PL PL PL PL PL PL PL PL PL E
P P
P P
P P
P P
P P
R D
D D
D D
D D
D D
D EM EM E M EM E M EM EM EM EM EM MA MA MA MA MA MA MA MA MA MA RR RR RR RR RR RR RR RR RR RR OG OG OG OG OG OG OG OG OG OG FO FO FO FO FO FO FO FO FO FO RR RR RR RR RR RR RR RR RR RR EP EP EP EP EP EP EP EP EP EP P
P P
P P
P P
P P
P N
N N
N N
N N
N N
N NO NO NO NO NO NO NO NO NO NO
)
OI OI OI OI OI OI OI OI OI OI I T I T I T I T I T I T I T I T I T I T 2
TA TA TA T A T A T A T A TA TA TA N
CN CN CN CN CN CN CN CN CN CN EI EI EI EI EI EI EI EI EI EI O
PM PM PM PM PM PM PM PM PM PM I
SA SA SA SA SA SA SA SA SA SA S
NX NX NX NX NX NX NX NX NX NX I
I E I E I E I E I E I E I E I E I E I E V
1 E D
R EMO T(
DAH T
T T
T T
T T
T T
T YI OX T V
V V
V V
V V
V V
V NNN CEE
)
M AUA S
P L
M MNP
(
O OO I N CI M G
EI 0
0 0
0 0
0 0
0 0
0 2
2 2
2 2
2 2
2 2
2 S
N M
M TA T
I SCE I RAR N
P AET 1
I 1
1 1
1 1
1 1
1 I
ETG E
I SI D
D D
D D
D D
D D
D 2
WSO N
P 7
E O R
C M
L PRP E
E I
B E
O T
I A SWN C
S TI LO Y
E OPI 3
S G
S N
T A
S N
I P
I NA S
A S
LON A
C A
LTI L
T S
I N ;r C
S N
I A N
O A
A A
A A
A A
A A
A LX I
I
/
/
/
/
/
/
/
/
/
/
CE A
T N
N N
N N
N N
N N
N M
P E
M E
C X
I E
VR ES N
I T
P M
O O
O O
O O
O O
O O
E N
N N
N N
N N
N N
N X
E
/ S LS 0
0 6
6 0
0 6
6 0
0 AE 0
0 0
0 0
0 0
0 0
0 I N 5
5 4
4 5
5 4
4 5
5 RK EC 0
0 0
0 0
0 0
0 0
0 TI
/
/
/
/
/
/
/
/
/
/
AH S
S S
S S
S S
S S
S MT S
S C
C S
S C
C S
S 0
0 0
0 0
0 0
0 0
0 EEE 0
0 0
0 0
0 0
0 0
0 PNZ I I I 0
0 2
2 0
0 2
2 0
0 PLS 1
1 1
1 1
1 1
1 1
1 N
C D
B C
B C
B C
B C
I C
C B
B C
C B
B C
C E
6 6
7 7
7 7
B 8
8 8
1 1
1 1
1 1
1 1
1 1
S S
S S
S S
S 5
S S
N M
M M
M M
M M
N M
I I
I I
I I
1 I
I I
U U
se w>
I c:
C i
u W
Ln Lil j
M Z
e e
e e
e e
e e
e e
e e
e-o w
LJ W
La uJ Lil W
W LAJ LAJ uJ W
W
.Z
.Z
.a*
Z.
Z Z
II 1:
Z
.l.'e w
.e e.e m
e.
Lt.
u.
w O
U J
J
.J J
=J
.J J
1 J
J
.J
.J i.n.
Ln.
L.n.
Ln Ln tn
~
~
Ln M
t.n L7 Ln Ln s
s
.e e
Ln Ln w
w e
e w
.e Z
Z Z
Z Z
Z Z
Z Z
=
Z Z.
w w
>=
>=
04 f4
>=
>=
>=
>=
>=
>=
>=
M Z
Z Z
Z Z
Z Z
3 *.
E E
Z Z
o e
a a
a a
a o
o a
a o
o a
uj C ua C (n
in Ln Ln Ln Ln Ln ln Ln Ln LO Ln 3
ca.
J WJ
>=
>=
>=
W
>=
>=
>=
W
>=
W
>=
uJ G.
CL.
E Z
2!
Z 12 Z
Z Z
Z Z
3 U
Cd C3 Ca W
W W
uJ L(J W
W uJ LAJ uJ W
uJ uJ E LAJ 3-E M
E M
E 2;
E T*.
2:
E E
E EC EC Z
Z Z
Z Z
Z Z
".d Z
Z Z
Z Cc CC Cc Cc U
U U
U U
U U
U U
U U
U QO Q LD C
C C
4 C
C C
C C
C C
C
- u. O LA. O
>=
>=
>=
>=
>=
>=
>=
>=
>=
>=
>=
>=
>=
>-=
>=
>=
>=
>=
W
>=
>=
>=
>=
uJ C6 kJ CL.
C C
C C
C C
C C
C C
C C
Ca.
C6 Z
J J
.J J
J J
J J
J J
.J J
ZQ ZO C
C C
C C
C C
C C
CI C
C
^
QM Ow CC CC CC Cc Cd CC CC CC CC CC CC CC N
.e>=
w >=
C LD LD LD LD Q
O LD LD LD LD LD
>= C b-- C LAJ W
uJ uJ uJ LAJ LAJ W
kJ LAJ W
LAJ
-v UZ UZ
>=
>=
>=
>=
>=
>=
>=
>=
>=
>=
Z Z
l 2:
Z
.Ze
.Z C"
.Z Z.
LE 2*.
U
.Z.e Ww W **
m W
w
>=
1
- p. r o., r w
w w
tn C Ln C l
2*. M ZM C3 C3 C3 O
O C"J CJ O
O O
C3 C3 t
M
.e LAJ w uJ Z
Z Z
2:
Z Z
Z Z
Z Z
Z Z
J l
I wW o
C W r Cn r= w aCZ
>=
C C
C
<t
<=
C
<r C
C C
C C
>H l CM >
Z =* f7 l U uJ W Z
Z Z
Z Z
Z Z
Z Z
1:
CDC Gi 1
J u.
EM1 w
j o
\\
OO w Z er tu x o
o e:
C C
C C
C C
C
<=
C C
1 ye 7.-
Ln 1:
n E
C4 04 N
N N
N N
N N
i Ln U L&J e
e Z
3*
Z II Z
I.
IE 2
Af l'
Z I.1 l
l Cg 4 C-.
=
c.
C W >=
a M
W H (.C W
M Cn **
C3 C"3 M
3mO a.-
N l
UJ O CC C
.J C. Cd Q.
5 1
e o.e IL LLJ o
i C LO % Z u
Ln es pwoo W
o e, ><
M M
S M
ZH C
En E
==
C6
"& C in C
LA
.3 O E C
LU 4
e!H-J cm g, E U
&n M
5
".)'C 2
C C
C C
e C
C C
e e
e C
C e
e w
d UW G
>=
Z Z
3:
2 3:
Z Z
Z Z
Z Z
Z Z
M E
c DJ EW U
M W
CC l
W QZ l
I
>=
O*
l E
C3 C3 C3 C
C C3 C3 C3 C
C3 O
C3 O
O W
Z Z
Z Z
Z Z
Z Z
Z Z
Z 1:
Z 3*
M L4J
% LO
-.J M 4
O O
W7 W
97 W
W W"J W7 W
W k7 W7 CW o
o 4
4 4
4 4
4 4
4 4
ea 4
.O M.
- Z eV W
M M
M M
M M
M M
M
>7 M
CC M e
e e
e e
e e
e e
e e
e e
WW O
O O
O O
O O
O O
O O
O O
O
>=
e N
CZ M
Cn f.A M
LA M
M M
M f.n Ln M
M M
E >=
U CA U
U U
U U
U U
U U
U U
U l
O o
O O
O O
O O
O O
O O
O o
WWW o
o o
o o
o o
o o
o O
o o
o Q. 2: N e
e e
e e
e e
a e
e e
e e
s O
O O
o.
O o
=w.e P4 O.
o O
O O
O.
Oe c
J f.n e
e w
e-e e
It U
U C
CQ U
C3 LAJ LA.
CD Z
- s M
J 12 m
CQ LJ C
C C
C
<Z C
C C
C C
r2 C
uJ C*
F kl W7 W1 O
b7 k1 W7 k1 W'1 W'1 k1 W7 ed W
W W
LJ U
U U
U U
U U
U
{
M" L4 in Ln LO LO LO Ln Di Ln ln W
Ln Ln M.
E 3:
E M
3 M
M M
M 21 20 3
E
.4
.4 e
e4 e4 e
o e4 ew s=
~
J
e e
bJ W
W LaJ Z
7 M
.Z
-e
=-e m
l J
J J
J l
Ln L1 trl L:n
=
Z "C
Z H
W W
H U1 Y
7.
?
2 O
CJ O
O LC eI G7 tr3 U1 Lq 2;
H W
Z C
Z Z
CC W
W W
W E
E 3;
1*
Z Z
T
=
U U
U U
C C
(I C
I H
H H
H (Z
G G
G J
J J
J G
G G
c j
CC CC L*.
^
Cl i
LD LD L3 LG W
W L*J W
\\
w H
w
~
C U
Z Z
o.
O O
O O
=
=
n
=
s
>l tP a
- W W E L3 H~
O cz
-r c
<r c
>. H Qn&
. c~.
uWW n
n
=
=
~n s-a.,. Q ;
2; ;
wl O
.4ao.j ll
-=
n.
to -
c c
c u
s.
us,,
a u
N N
N N
w:
W{
~!
US U tu M
2 2
M y w, y
y n
c.. y' c 6.J ~
H? 'J ! W U1' m
v s
.-e
} 3 Q t.
p.e -
er s
Ws 0 i
.J! CL Z C.
$"- 5 1
Q W
o rj C LO 3 :
u Ln Hwao w
W a (;, -
M to LD en
--",W Ln n
m G
Cn.
C m
c Ln H 6 JOZ a
W cr
.J & ~
n Ca M ZE W
Cn Q
C 4
4 4
l ><
.E.
N N
UW c
c z
z 2:
E c.
W EW U
n W
d'W C,n
.=
Ma p
CL.
E O
O C
O W
2 Z
Z Z
n W
% W J@
n n
D D
GW 4
4
=0 4
m Z M
M M
M CC :
a e
WW O
O O
O p -
(Z Z Cn En M
M E >=
W W
W W
O O
O O
WWW O
O O
O
- c. g N e
e e
a w w w O
O O
O L
,) us e
m e
e Z
Z Co.
CC Cn
<Z c
c c
W M
M V1 M
U U
W U
\\
t.n Ln Ln U1 1*
E E
E n
e a
m I
I
1
'I a
W W
W W
W W
W u
U U
U U
I
.U.
U U
U (J
e ei.e
==
w
=
==
==
cm w
W W
W W
W W
W W
W t
Ln to Ln Ln Or3 La Ln Lf1 Ln Z
Z Z
Z 2
2 2
E
.Z w
w
>=
w w
m m
>=
6 LL.
LL L
LL.
A W
W LL C3 C
Q C3 C3 C
C3 C3 C
m e
m m
e m
m e
e M
Lf1 L.f1 t/1 M
M LA LA CD w
w w
w w
w w
w N
N N
N N
N N
N N
e.
e e
o e
e e
e e
M
,e
.=
.e
.=
w e
.=
e g
e e
e a
e e
e e
e CC CC 2 CC 2 CC 2 CC 2 CC 2 CC E CC 2 CC 2 CC E C
WC WC WC WC WG WC WC WC WC E
CL J QJ AJ AJ AJ Q.
J Q.
J AJ C6 J W
Q.
A A
A Q.
Q.
Q.
Q.
Q.
CC Q
Q Q
Q Q
Q Q
Q Q
WE WE WE WE WE WE E4 EC EC EC E4 EC E4 EC E4 CC CC CC CL CC CC CC CC CC CC CC CC CC CC CC CC CC CC Q LD Q LD Q L3 C3 L3 C3 C3 C3 LS C LD C3 U3 Q LD 6C WD LC W C3 6O W C3 6O 6 C3 LL. C-CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC CC W CL W CL W Q.
W CL W Q.
WA W Q.
W Q.
WA Q.
CL CL Q.
A i;
CL Q.
Q.
E E
2 E
E E
E 2
E 2C 2O C a.3 2C 2O E C3 E C2 2 CD 2 CD 2C e
CD =
C3==
C3 M C3 **
C3 -
C >=
C3 *
- C.3 >=
^
m.e H
= >
== H
= H w >
w >=
wH
= >
>= H N
>= C HC HC HC HC
>C HC H C HC Uz uz ua uz uz uz uz Uz uz Z
W-W-
W-W-
W-W-
W-W-
W-AE CL E CL E CL E CL E Q. E CL E CL E Q. E M
Ln C Ln C La C Cn C Ln C La C to C MC to C fO EM EM 2M EM 2M EM ZM ZM EM M
o.e W
>= W
>= W
>= W wW M W M W o.e W M W i
M LV g.
d CC W E C3 w
C't CZ H
H H
H H
H v.=
4 c
>=
H h"
). M C3 M >=
ZZZ to UWW z
z E
COG Q.
11 CL EZb o
OO CL
-z y w y*
WM C
C O
O O
O O
C C
O 4 *-
py Ch E
E E
N N
N N
N N
N N
N e
e 2
E e
e e
H W
(A U W e
o e
e M
C C C, 2
H CC W H
.=
.=
.=
.=
m e
f11 *=
Q Q
Q Q
Q Q
Q Q
Q M WHC W
M n
3 LO O z
N W O CC C
m 1
> C. % 0.
E Q.
Gi W
Cs s
C Ll' "R ?
U z
H H
.e F
m.
3 C
e5 e5 W
i >=
M W
J (A
Q.
A LD p
4 Ch U
==
M Ei to th t.D LD A
.J O Z C
CC C
z z
J W >=
J W
CD 6-
>=
MZE U
C z
4 4
m g*
3 Q
4 4
C C
C 4
4 CC CC 4
4 W
W
}M a'.
o.e z
Q.
Cu z
z U tu CC x
x x
a z
o Q.
C2 C3 H
E J
N.
N.
u W
y 4
M O
O W
W N
N CC Z
N N
.=
e y
E E
3 3
- =
>=
==
M
>=
CL M
M E
O C3 C3 C3 C3 O
c W
W C3 O
W E
E E
E E
E 2
E E
M W
% Cf3 N
N N
n M
Cr*
O' N.O J Ct3 N
N N
.O
.O 4
4
.O M
w CW
.O
<O 4
M E n
M M
W O
M M
M M
N N
CC y e
e e
e e
e e
e e
e e
WW O
O O
O O
O O
O O
O
>= w.e M
C/)
M Cl3 M
M M
Cf3 M
M CO C
Z.=
Eb U
U U
U U
U U
U U
U U
C O
O O
O O
O O
O O
O WWW O
O O
O O
O O
~O O
O O
Cu K M e
o e
e e
e e
e e
e e
9"o 8"e D's 90 0
=0
=0
=0
.O
.O O
O 2
m
+=
w CL J (13 2
C CA C
CD 4
Q3 C
CD O
O C
C 6.O
==
U W
4 L
C 6
O O
O O
W
.=
N O
M
=O
=O O
M e
N N
O O
O O
O O
p.
>=
H
>=
>=
>=
H
>=
CC E
G C.C.
CC.
C.C.
CC.
.=
.=
=
w
.=
.=
+
S K
R A
M E
R
)
2 N
O I
S I
V
)
1 E T
D R
R EMO T(
DAH A
A
(
YI OX T
/
/
NNN G
CEE N
N N
M AUA I
P L
P MNP I
O OO P
I N CI M EI A
A S
M M
M
/
/
TA T
E SCE N
M RAR N
T AET I
I ETG E
S SI 6
WSO N
Y 7
E O R
O S
P L PRP I
M P
I B
E O
U A SWN C
N TI OO A
T T
E OPI 3
E G
L S
P P
N T
A S
C I
I NA S
S G
G P
LON A
R A
N N
LTI L
E B
I I
I NM C
T T
T A
N A
A I A N
O R
R LX I
E E
CE R
T P
P O
P O
O E
T M
2 2
C E
C A
X I
E E
0 0
V R
2 2
R 2
2 1
1 E
S D
D N
N N
I I
I T
P S
S M
E E
E Y
Y X
E
/S LS 2
2 AE 2
2 3
3 I N RK EC 0
0 T I
/
/
AH S
S MT C
C 1
0 0
EEE 0
0 PNZ I I I 8
8 PLS N
A B
I B
B E
0 0
2 2
T T
R R
I 1
j I
1
TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 3 COMPONENTS SHUTDOWN SERVICE WATER SYSTEM PIPING (SI)
PIPE ASME CODE LINE MATERIAL /
SEC XI EXAM EIN SIZE THICKNESS EXEMPT EXEMPTION DASIS ITEM NO METHOD REMARES ISX01AA 30.00 CS/0.375 YES IWD-1220.2 OPF. RATING P&T N/A N/A 1SX01A8 30.00 CS/0.375 YES IMD-1220.2 OPERATINS PET N/A N/A 1S101AC 10.00 CS/0.365 YES 1WD-1220.2 OPERATING P&T N/A N/A 1SIO2AA 30.00 CS/0.375 NO N/A D2.20 VT ISIO2AB 30.J0 CS/0.375 NO N/A D2.20 VT 2SXO2AC 10.00 CS/0.365 MO N/A D2.20 VT ISX02BA 18.00 CS/0.375 NO N/A D2.20 VT ISIO2BB 18.00 CS/0.375 NO N/A D2.20 VT 1SX02CA 8.00 CS/0.322 YES IWD-1220.2 OPERATING P&T N/A N/A l
ISIO2CB 8.00 CS/0.322 YES IWD-1220.2 OPERATING P&T N/A N/A ISX02CC 8.00 CS/0.322 YES IMD-1220.2 OPERATING P&T N/A N/A ISIO3AA 18.00 CS/0.375 NO N/A D2.20 VT ISXO3AB 18.00 CS/0.375 MO N/A D2.20 VT 1SX03BA 30.00 CS/0.375 NO N/A D2.20 VT ISXO3BB 30.00 CS/0.375 NO N/A D2.20 VT PAGE: II-77
TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 3 COMPONENTS SHUTDOWN SERVICE WATER SYSTEM PIPING (SI)
PIPE ASME CODE LINE MATERIALI SEC II EIAM EIN SIZE THICKNESS EXEMPT EXFMPTION BASIS ITEM NO METHOD REMARKS I
1 ISIO4AA 8.00 CS/0.322 YES IND-1220.2 DPERATING P&T N/A N/A ISIO4AB 8.00 CS/0.322 NO N/A D2.20 VT ISIO4AC 8.00 CS/0.322 YES IMD-1220.2 nPERATING P&T N/A N/A ISIO4B 10.00 CS/0.365 YES IWD-1220.2 OPERATING PET N/A N/A ISIO6AA 20.00 CS/0.375 YES IWD-1220.2 OPERATING P&T N/A h/A 1SIO6AB 20.00 CS/0.375 YES IND-1220.2 OPERATING P&T N/A N/A ISIO6AC 8.00 CS/0.322 YES IWD-1220.2 OPERATING P&T N/A N/A ISIO9A 16.00 CS/0.375 YES IWD-1220 2 OPERATING P&T N / f, N/A ISIl0AA 18.00 CS/0.375 YES IWD-1220.2 OPERATING P&T N/A N/A ISIl0AB 18.00 CS/0.375 NO N/A D2.20 VT ISIl0BB 12.00 CS/0.375 YES IND-1220.2 OPERATING P&T N/A N/A ISI11AA 14.00 CS/0.375 YES IND-1220.2 OPERATING P&T N/A N/A 1SX11AB 14.00 CS/0.375 YES IWD-1220.2 OPERATING P&T N/A N/A ISI13AA B.00 CS/0.322 YES IND-1220.2 OPERATING PET N/A N/A ISI13AB 8.00 CS/0.322 YES IWD-1220.2 OPERATING PET N/A N/A PAGE: II-78
TABLE II ILLINOIS POWER COMPANY CLINTON POWER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVIDION 2_)_
CLASS 3 COMPONENTS _
SHUTDOWN SERVICE WATER SYSTEM PIPING (SX)
PIPE ASME CODE LINE MATERIAL /
SEC II EXAM EIN SIZE THICKNESS EXEMPT EXEMPTION BASIS ITEM NO METHOD REMARKS 1SX15AA 6.00 CS/0.280 YES IWD-1220.2 CPERATING P&T N/A M/A 1SX16A 6.00 CS/O.280 YES IWD-1220.2 OPERATING P&T N/A N/A ISX17AA 6.00 CS/0.280 YES IWD-1220.2 OPERATING P&T N/A N/A 1SX182A 12.00 CS/0.375 YES IWD-1220.2 DPERATING P&T N/A N/A ISX18B 6.00 CS/0.280 YES IWD-1220.2 DPERATING P&T N/A N/A ISX20AA 8.00 CS/0.322 YES IWD-1220.2 OPERATING P&T N/A N/A 1SX20AB 8.00 CS/0.322 YES IWD-1220.2 OPERATING P&T N/A N/A 1SX26AA 20.00 CS/0.375 YES IWD-1220.2 OPERATING P&T N/A N/A l
ISX26AB 20.00 CS/0.375 YES IWD-1220.2 DPERATING P&T N/A N/A ISf26AC 8.00 CS/0.322 YES IWD-1220.2 OPERATING P&T N/A N/A 1SX27AA 14.00 CS/0.375 YES IND-1220.2 OPERATING P&T N/A N/A 1SX27AB 14.00 CS/0.375 YES IWD-1220.2 OPERATING P&T N/A N/A ISX29CA 6.00 CS/0.280 YES IWD-1220.2 OPERATING P&T N/A N/A ISX29CB 6.00 CS/0.256 YES IWD-1220.2 DPERATINS PET N/A N/A ISX32AA 8.00 CS/0.322 YES IWD-1220.2 DPERATINS P&T N/A N/A PAGE: II-79
S K
R A
M E
R
)
2 N
O I
S I
V
)
1E X
D R
S EMO T(
DAH A
A A
A A
A A
(
YI OX T
/
/
/
/
/
/
/
NNN G
CEE N
N N
N N
N N
N M
AUA I
P L
P MNP I
O OO P
I N CI M EI A
A A
A A
A A
S M
M M
/
/
/
/
/
/
/
TA T
E SCE N
N N
N N
N N
I RAR N
T AET I
ETG E
S 3I 0
WSO N
Y 8
E O R
O S
P L PRP I
M R
I B
E O
E A SWN C
T TI OO A
T T
T T
T T
T OPI 3
W E
E E
S P
P P
P P
P P
6 N
T A
S E
I I NA S
C S
G G
G S
G G
G P
LON A
I A
N N
N N
N N
N LTI L
V B
I I
I I
I I
I I NM C
R T
T T
T T
T T
E N
A A
A A
A A
A I A S
O R
R R
R R
R R
LX I
E E
E E
E E
E CE N
T P
P P
P P
P P
W P
O O
O O
O O
D E
O M
C 2
2 2
2 2
2 2
D E
T X
I U
E 0
0 0
0 0
0 0
V H
2 2
2 2
2 2
2 R
S 2
2 2
2 2
2 2
1 1
1 1
1 1
1 E
S D
D D
D D
D D
N W
N W
N N
W W
I I
I I
I I
I I
T P
S S
S S
S S
S M
E E
E E
E E
E E
Y Y
Y Y
Y Y
Y X
E
/S LS 2
2 2
5 5
2 2
AE 2
2 2
6 6
2 2
I N 3
3 3
3 3
3 3
RK EC 0
0 0
0 0
0 0
T I
/
/
/
/
/
/
/
AH S
S S
S S
S S
MT C
C C
C C
C C
0 0
0 0
0 0
0 EEE 0
0 0
0 0
0 05 PNZ I I I 8
8 8
0 0
8 1
PLS 1
1 I
N B
A B
A B
A B
I A
A A
A A
A A
E 2
3 3
3 3
3 3
3 3
3 K
K 1
1 X
X X
X X
X X
S S
S S
S S
S I
1 I
I I
2 2
{
I 4
- i i
TABLE II ILLINOIS POWER COMPANY CLINTON PO11ER STATION UNIT 1 INSERVICE EXAMINATION PROGRAM PLAN (REVISION 2)
CLASS 3 COMPONENTS CONTROL ROOM HVAC SYSTEM PIPING (VC)
PIPE ASMF.
CODE LINE MATERIAL /
SEC XI EXAM EIN SIZE THICKNESS EIEMPT EXEMPTION BASIS ITEM NO METHOD REMARKS OVCO2AA 6.00 CS/0.280 YES IWD-1220.2 DPERATING P&T N/A N/A 4
OVCO2AB 6.00 CS/0.280 YES IWS-1220.2 DPERATING P&T N/A
,N/A OVC03AA 6.00 CS/0.280 YES IWD-1220.2 OPERATING P&T N/A N/A OVC03AB 6.00 CS/0.280 YES IWD-1220.2 OPERATING P&T N/A N/A s
OVC04AA 6.00 CS/0.280 YES IND-1220.2 OPERATING P&T N/A N/A OUC04AB 6.00 CS/0.280 YES IWD-1220.2 OPERAilNG P&T N/A N/A OVC05CA 6.00 CS/0.280 YES IND-1220.2 OPERATING P&T N/A N/A OUC05CB 6.00 CS/0.280 YES IMD-1220.2 OPERATING P&T N/A N/A OUC28AA 18.00 CS/0.375 YES IWD-1220.2 DPERATING P&T N/A N/A OVC28AB 18.00 CS/0.375 YES IWD-1220.2 OPERATING P&T N/A N/A OUC30A4 8.00 CS/0.322 YES IWD-1220.2 OPERATING P&T N/A N/A OUC30AB 8.00 CS/0.322 YES IMD-1220.2 DPERATING P&T N/A N/A PAGE: II-81
4 i
ZC O L1
= If w-UW>
Ch. CC in W Z>
mW
> > =
f/3 CC tra M
WW CC
>H C
W E
U W
>= M CC Cf5 >=
WC
fn E
^
ZW e N
M >= J Cf3 C E>>
W Cf3 CC
>=
W M
tn Q >=
>2E m
sn a ~
-W a
E WEC Hw C3 e Z
's
>M QM >=
ZZZ UWW CCC 0.,
.J E Z Q.
c CO
~ E ywr WM ooo FA in E
E awa pq
>=
CD Cn f 3 W e e
- M %CE E
.E q W >=
eNM M
HQ W
in -
aao
@O E
A N"
W Z
C "A
g Q. % Q.
I:
1
@g7 w
o E
C U
W Fwo5 gM M
Cf)
W (n
CD 4
G)
En m
mZC to en A
JOZ c
J e
.) w m J
a a
M ZE u
4
".J ><
.Ee C
e UW H
E A
W E
u W
W
%W
@Z w
Ch E
O W
E M
W
% Cn d it) 4 LAJ M E CC M i
WW i
>= o-e 4Z E >=
LaJ W W EN I
A.e a
w-l A J t/3 LD W WEw Z
CE = Cr*
DEC W
Cn - C3 t/l 4 E
.J W >= D
.J Cc W O C Ch. CC CQ
o o l2' oo
-o c4 Cc w W >-
M Q. u
.a=
c: o W
a x
am ew e
oa w-oo u
CC M W>
x=
c ec
>= H mW
=>
oo
-W 1
N. N.
l cn M
e to w
ao WW cc e
o cc W
E Eo u
W w-
.i cc E -
m >-
Wo Wc
>= 4
>= >-
~
en Wo No o ce n
. a xW 2 o.J Cc Z o o so W
. ca a uE a
>- cc u EW.
N u m *=
== >
.J w>J cn a w
En Q.
E>>
o cu W cn cc C"
W W N. c E
in a >-
M In tn N Cn
>EE w
eoe in c -
-W n
C WEo Hw oez e x *-
ZZ2 uWWE CDC Q.
J
- r. Z Q.
o tn oo
-2 w
ywr Wx o
e o
cc ooo C
www tn E
E N.
N.
N.
C W >-
N N
N WW mNM M
W P-CD W
in -
o o
o in cc ooa M
3 (D o E
W Q o
J 0. % 0.
I:
1 Cn m
W e
Q.
C U23 2 u
E Hmoo o
W O Q. m M
Q.
Lo en Z
P-en e
c6 M
C La tn d
2 4
4
.,.I w m
)
o M =r u
"I x 5
C e
a e
e a
s s
s UW
>=
E E
E E
E Q
W EW i
b.
M I
W l
%W thZ M
>=
CL, E
o o
o C"I o
W E
E E
E E
M W
s tn J f.n CW M E CE: w I
i I
I i
Wu l
l 1
1 i
>===
43 E >=
WWW 1
i i
i Q. E N e
= M >
1 6
I i
1 Q.
J (n En
>=
en J
E t.D W J
W W X >=
2 C
c0 W
G E
CC >= Ct:
M Q.
Q Q.
Cc o Z oEC W
w e
wWu to ** o o
o o
woc En C E M
M M
.J >
.J >=
J W >= c (A
Cn En J E W >=
.J cc W o a
a CM 34 C Q. Ct: CA
ca C3 M
=O CC M WW QUW 2 C6
- C3 Cn M Z Wm OW>
k Q*
In W Z>
wW
>H U1 CC t.n M
WW CC W
E U
W WM GC tn &
WC WH Ln WC U Cd M A CC 2 W
Gn E
^
EW e
N wHJ CO C Z
E>>
Wm%
a w
W La A >
CD
>zz M
to c -
wW g.
E W E CN }
Fw ca e Z w
>= N QM W ZZZ UWW E CDC G.
)
E Z Q.
o 00
~z yM r WM OOO pg tn E
E www
>=
Cn U W e e e
- ECE E
GWW
.=e N P1
- WHO w
cn e-.
oaa e
2 LO O E
co W O g
c d Q E Q-1 E
e C @
2 U
J ee
>- w O
c W
O Q. M f'8
'A Z
F
~
m2C JOZ J>m sa mZE u
"C a
J ><
s UW w
2 CL W
Ew u
W NmZ m
H CL E
O W
X M
W
% 10 J CO CW
=E CC M 1
WW l
H M C2 EW I6 A
'm' N
l e-a w
==e i
AJd Ln LD W WXm 4"
Z fi w CC w
DZ4 W
C4 m A En C 2 JWW D
.J % W C C Q % CQ z
+
e,- -
r
. ~ - -.
- -. +. -,
.r
y
O b.
O et O
e
er m L';
LD C3 i
C3 M
i 7.
c C
( ) 22 l
D 6-e 1
CA P1 VO O
.T. -
O er W
F')
L:
+-
c:
~
(T e Cf C
i E
-O D
L4 L
- F I
C e
OO Ln
~4 er Ln l
E P4 W
I L I LA.
D H
e C.1 M Z LAJ LAJ O J CA^
w Dm M O C LA.
^
CC UW N
OZw M W >- JJ in CA. LAJ
~
{
j O G. C.C i
W-c M
l E
e LAJ (O
l tri ( 4 Ln uJ m
I a La. c Ln
'I
-W c,
d WE O H+
aem
>H LM OM H U W W' 222 9 3 G, it x
M2i G
l LO l'
CJ C a 2
-u u2 i W M Cr:
y
,n-!
.' E E
C y
-; W '-
C. -.
{ La L1 LJ WL r.
, cg. -
m: u-WW
[
es -
u c:
r O
j': O _'.
LL wn u}
2.
-)!G. W 1 i
i CJ W
cs C CD 3 E o
se p-oo W
>1
,O a, -
to Ln y
C O
m Cn M 2C 4
tri JOZ c
c
.J > -
Co M ZE Ed M C J
B e
JX m
UW r.n H
Z w
o W
G E
J W
y u
M U
W sEW U1Z H
CL E
O W
Z M
W
% Ln J Ln GW
-n CC M i
WW i
v.-
H C%
E F*
W L&J W LZN I
-m m 1
Ch.
J Ln Z
Ln C3 O
H
>= W W LAJ M Z&nWZW Q U >=
=
LAJ > Ln W &n E w 4 E M
Z CC O Z e-o W LAJ > Z d W
DCZOJ M Z CC M CC CA. Ca >- CL LAJ >= LAJ E LD Z
) E CL.
E >-
En C O C J C1 D LA. OO &n 2 *4M f.C J G L J La O U = GH w LAJ CL. CA.
Table III CLINTON POWER STATION UNIT 1 PIPING LINE LIST REFERENCES AFF DTIX IV/ISIl 111*1
l Piping Lina P&ID List Revision Systu:2 Number Date Acid Handling - AC M05-1030 05/03/84 Auxiliary Secan - AS M05-1031 05/15/87 Condenser Vacuum - CA M05-1010 12/24/87 Condensate Booster - CB M05-1006 02/01/85 Component Cooling Water - CC M05-1032 11/04/87 Condensate - CD M05'-1005 12/14/84 Chlorination - CL M05-1033 05/15/87 Containment Monitoring - CM M05-1034 04/30/86 CO Fire Protection - C0 M05-9014 12/24/87 Condensate Polishing - CP M05-1007 11/30/84 2
Circulating Water - CW M05-1010 01/14/86 Cycled Condensate - CY M05-1012 11/04/87 Diesel Generator - DG M05-1035 02/11/86 Laundry Radvaste Floor Drain - DL M05-1083 05/03/84 Misc Bldg. Floor Drain - DM M05-1059 05/15/87 Diesel Oil - DO M05-1036 05/15/87 Feedwater Heater Misc. Vents and Drain - DV M05-1009 05/03/84 Extrac. tion Steam - ES M05-1003 05/08/84 Fuel Pool Cooling & Cleanup - FC M05-1037 11/04/87 Fuel Transfer - FH M05-1080 12/24/87 Fire Protection - FP M05-1039 01/27/86 Feedwater - FW M05-1004 12/24/87 Turbine Gland Steam Seal System - GS M05-1016 05/15/84 Feedwater Heater Drain - HD M05-1008 05/03/84 Combustible Gas Control - HG M05-1063 04/14/86 High Pressure Core Spray - HP M05-1074 12/24/87 Hydrogen - HY M05-1013 04/16/85 Instrument Air - IA M05-1040 04/08/86 MSIV Leakage Control - IS M05-1070 04/08/86 Leak Detection - LD M05-1041 10/15/85 Low Pressure Core Spray M05-1073 12/24/87 Make-up Condensate Storage - MC M05-1042 11/04/87 Main St(am - MS/B21 M05-1002 04/08/86 Nuclear Boiler - NB M05-1071 04/08/86 Off-Gas System - OG/N66 M05-1084 03/22/85 Caustic Handling - OH M05-1043 05/18/87 Bearing 011 Transfer & Purification - OT M05-1044 04/09/85 Process Radiation Monitoring M05-1064 05/20/86 Post Accident Sampling & Analysis - PS M05-1045 05/10/86 Breathing Air - RA M05-1065 04/02/86 Control Rod Drive - RD/C11 M05-1078 04/08/86 Equipment Drains - RE M05-1046 12/24/87 Floor Drains - RF M05-1047 11/04/87 Refrigeration Piping - RG M05-1121 09/18/85 Residual Heat Removal - RH/E12 M05-1075 04/08/86 Reactor Core Isolation Cooling - RI/E51 M05-1079 04/08/86 APPENDIX IV/ISIl III-2 a
Piping Line System P&lD List Revision Number Date Reactor Recirculation - RR/B33 M05-1072 04/08/86 Reactor Water Clean-Up - RT/G33/G36 M05-1076 06/25/85 Service Air - SA M05-1048 12/24/87 Standby Liquid Control - SC M05-1077 04/08/86 Suppression Pool Clesn-up & Transfer - SF M05-1060 04/08/86 Suppression Pool Makeup System - SM M05-1069 04/14/86 Screenwash - SW M05-1051 12/24/87 Shutdown Water System - SX M05-1052 04/17/86 Turbine Generator Misc. Vents & Drain - TD M05-1011 09/13/85 Turbine Rad. Off-Gas Control & Diesel Gen.
Bldg. Equipment Drains - TE M05-1053 05/15/87 Floor Drains - TF M05-1054 11/04/87 Filtered Water - TW M05-1058 12/24/87 Control Room HVAC - VC M05-1102 10/31/85 Diesel Generator Room HVAC - VD M05-1103 11/18/85 Fuel Bldg. HVAC - VF M05-1104 05/10/84 Standby Gas Treatment - VG M05-1105 02/26/85 Pump House HVAC - VH M05-1106 05/03/84 Machine Shop HVAC - VJ M05-1107 11/05/82 Lab & Counting Rm. Humid. Steam - VL M05-1118 05/03/84 Chilled Water - VP M05-1109 06/05/84 Drywell Purge - VQ M05-1110 02/03/88 Containment Bldg. Ventilation - VR M05-1111 11/01/85 Chilled Water - VS M05-1112 11/04/87 Misc. Vents M05-1119,1120, 1122,1117 11/04/87 Radwaste Bldg. HVAC - VW M05-1114 05/13/84 Essential Switchgear Heat Removal - VX M10-9115 11/04/87 Potable Water - WD M05-1061 11/04/87 Equipment Drain Radwaste Reprocessing &
Disposal - WE M05-1085/2085 12/24/87 Floor Drain Radwaste Reprocessing &
Disposal - WF M05-1086/2086 11/04/87 Makeup Water Pump House - WM M05-1055 11/04/87 Chilled Water - WO M05-1117 09/20/85 Plant Service Water - WS M05-1056 01/31/86 Turbine Bldg. Closed Cooling Water - WT M05-1057 05/03/84 Solid Radvaste Collection & Processing - WX M05-1089 12/24/87 Laundry Equipment & Floor Drain - WY M05-1088 05/15/87 Chemical Radwaste Processing - WZ M05-1087/2087 11/04/87 APPENDIX IV/ISl\\
III-3
r ADDITIONAL CHANGES TO THE INSERVICE EXAMINATION PROGRAM PLAN M3255/M113
Additional Changes to the Inservice Examination Program Plan Text Changes A consolidated 11 sting of program commitments has been included in paragraph I.2 of the program plan.
In order to improve Inservice Examination Program Plan controls, the program plan was revised and updated in accordance with the latest Clinton Power Station (CPS)
Piping Line List (see Table 3 of the program plan).
Significant format changes were made as a result of our conversion of this program plan to personal computer format.
Table 1 Changes Minor changes were made based on Illinois Power's (IP) understanding of the ASME Code requirements.
Table 2 Changes Components in each of the following categories have not been included, since they are exempt per the ASME Code One (1) inch or less Class 1, four (4) inches or less Class 2, four (4) inches or less Class 3.
This will minimize future changes to Table 2 and eliminate the need for updates which do not impact examination requirements.
Piping lines 1RT28A-3", 1RT28B-3", 1RT-28C-3" and 1RT28D-3" have been exempted based on a more detailed review of IWB-1220 (A), Makeup Capacity.
The augmented requirements, where applicable, have been identified in the remarks section.
Those Class 1 valves which require visual inspection of valve internal surfaces, have been added to clarify inspection requirements.
Piping lines IFP01D-10", 1FP01F-10", 1WOH01C-10",
2SX13AA-8", and ISX13AB-8" were added as a result of a review of the CPS Piping Line List.
These piping lines are exempt per IWC-1220(b), Pressure and Temperature Exemption Criteria.
The line numbers for Scram Discharge Volume System piping have been identified.
Relief Request 4002 has been deleted since weld number 1RI-13-8AQ1 on line 1RIO3C can be replaced by another weld.
Relief Request 4001 has been revised to include lines 1RH30BA and IRH30DA.
These lines are open-ended lines and should have been included in the original relief request.
IP has also clarified the intent of this relief request with regard to component supports.
Relief Request 4003 has been revised to include all O
component supports.
Previously only spring tyae supports, constant load type supports, and snu3bers were addressed in this relief request.
This revised L
relief request will allow IP to examine all component supports in a consistent manner.
A new Relief Request, 4004, has been initiated to recuest relief from the requirements pertaining to hyc raulic and mechanical snubbers; frequency of inspection, testing, and corrective action.
l t
_J
4 2
s A
+
-s L
+
.-nA h
L o
ATTACHMENT 4 RELIEF REQUESTS f
r
'I I
\\
l l
M3255/M113 I
11.1.150IS PO4R COMPAhT CLINION M A R STATION NLE RELIEF REQUEST INDEX r
t.
Relief Request Description Date Date Remarks Number Submitted Approved 4001 Weld examination of Class 2 lines (Revision 1)
{
which are open ended 4002 Deleted.
4003 Perform VT-3 examinations per 83k'84 (Revision 1)
Code in lieu of all VT-3 and VT-4 examinations.
4004 Hydraulic and Mechanical Snubbers; Frequency of Inspection, Testing, and Corre tive Action, t
i f:
L i
i' b
I t
I F
i I
I Relief Request Index/ISI/1 i
ILLXHOIS F0WER COMPisNY CLINTON POWER STATION SECTION XI RELIEF REQUEST RELIEF REQUEST NO. 4001 (Revision 1)
COMPONENT INFORMATION Several ASME Class 2 lines are open-ended as defined by Code Case N-408.
These lines meet the Code Case requirements of not containing water during normal plant operating conditions.
Page 2 of this request lists cach line for whicu relief from examination is requested.
CODE REQUIREMENT The ASME Code Section XI, Subsection IWC-1220, IWC-2500 and Table IWC-2500-1 require that welds in Class 2 piping systems be selected for examination.
Subsection IWF-2510(a) and Table IWF-2500-1 require selection of component supports for those components required to be examined under Subsection IWC-2500.
RELIEF REQUEST / JUSTIFICATION Illinois Power Company requests that the lines on page 2 and associated component supports be exempt from the Code requirements for the following reasons:
Each of these lines is open-ended beyond the last shutoff valve and does not contain water during normal plant operating conditions.
Code Case N-408,(a)(6) and (b)(4),
allows lines meeting the above conditions to be exempt from the Code requirements of IWC-2500.
Although Illinois Power does not intend to invoke this Code Case in it's entirety, this relief request is based on the Code Case's exemption from examining certain open-ended pipes and the fact that leakage from any cf the associated welds on these pipes would be insignificant and would have no adverse safety impact on the plant.
ALTERNATE REQUIREMENTS PROPOSED NONE.
Page 1 of 2 Section XI/ISI/76
1 ILLINOIS POWER COMPANY CLIliT0!i POWER STATIO!i SECTION XI RELIEF REQUEST RELIEF REQUEST NO, 4001 Class 2 Open-Ended Lines The following lines are in open-ended. systems and require relief
-r from examination:
1DG08AA-36" 1DG08AB-36" 1DG08AC-24" 1DG08BA-24" I
1DG08BB-24" 1DG08CA-20" IDG08CB-20" 1DG10AA-36" r
1DG10AB-36" 1DG10AC-24" l
1DG27AA-16" 1DG27AB-16" 1DG27AC-16" 1HG05AA-6"
(
1HG05AB-6" lHG05BA-6" lHG05BB-6" lHG05CA-6" 1HG05CB-6"
'1HG06AA-10" 1HG06AB-10" 1HG06AC-10" 1HG06AD-10" 1RH30BA-12" 1RH30BB-12" 1RH30CA-12" 1RH30CB-12" 1RH30DA-12" 1RH30DB-12" 1RIO8B-12" 1RIO8C-12" Page 2 of 2 Section XI/ISI/77 i
ILLINOIS POWER COMPANY CLINTON POWER ST/sTION SECTION XI RELIEF REQUEST i
RELIEF REQUEST NO. 4003 (Revision 1)
COMPONENT INFORMATION All component supports requiring VT-3 and/or VT-4 examinations.
CODE REQUIREMENT Subarticle 1WF-2500 and Table lWF-2500-1 require that a visual examination, VT-3 and/or VT-4, be performed each inspection interval for the supports described above.
RELIEF REQUEST / JUSTIFICATION Illinois Power Company requests relief from performing any VT-4 examinations for the following reasons:
1.
The definition of VT-4 examination in the 80W81 Code does not clearly identify the attributes to be considered in developing the inspection criteria.
2.
Functional testing of snubbers required by Clinton Power Station (CPS) Technical Specifications is more stringent than this Code requirement.
3.
The 83W84 Code has been clarified by combining the Visual Examinations VT-3 and VT-4.
If relief is granted, Illinois Power will update the aaplicable, procedures to not only delete the references to VT-4, but to include the revised VT-3 examination requirements from the 83W84 Code in our program.
ALTERNATE TESTING PROPOSED Illinois Power will perform VT-3 examinations usin3 the definition from the 83W84 Code in lieu of performing VT-3 and VT-4 examinations in accordance with 80W81 requirements.
Functional testing will be performed in accordance with CPS Technical Specifications.
i i
Section XI/ISI/79
ILLIMOIS POWER COMPANY CLINTON. POWER STATION SECTION XI RELIEF REQUEST RELIEF REQUEST NO. 4004 COMPONENT INFORMATION Hydraulic and mechanical snubbers associated with the piping lines included in the Clinton Power Station (CPS) Inservice Examination Program Plan.
l CODE REQUIREMENT i
The ASME Code specifies visual inspection frequencies for the above supports in Table IWF-2500-1 and functional testing frequencies in Subarticle IWF-5400.
In addition, corrective actions with regard to selecting additional supports are l-specified in IWF-2420, IWF-2430, and IWF-5500.
RELIEF REQUEST / JUSTIFICATION Illinois Power Company requests relief from the requirements identified above with regard to frequency of inspection, testing and corrective action, j
This relief request is justified because the CPS Technical Specification 4.7.4 specifies inspection'and testing frequenales for these supports which are generally more restrictive tr.x-
-he Code requirements.
Tracking the completion of inspection and testing activities with regard to both ASME Code and technical specification requirements creates additional administrative work without significant benefit in snubber reliability.
ALTERNATE TESTING PROPOSED l
Visual inspection, functional testing frequencies and corrective action for selecting additional or successive supports for testing will be performed as specified by CPS Technical i
Specifications.
Visual inspection will be performed in accordance with ASME Code requirements for VT-3 inspection.
I I
l Section XI/ISI/79.1
- _ -___-____ -.