Text

Enclosure 9 to MKD/NW-18-0107L, APR1400-E-X-NR-14001-NP, Revision 4, Equipment Qualification Program
	ML18214A563
Person / Time
Site:	05200046
Issue date:	07/31/2018
From:	; Korea Electric Power Corp, Korea Hydro & Nuclear Power Co, Ltd
To:	; Office of New Reactors
Shared Package
ML18215A027	List: ML18214A557; ML18214A559; ML18214A561; ML18214A563; ML18214A564;
References
	MKD/NW-18-0107L APR1400-E-X-NR-14001-NP, Rev. 4
	Download: ML18214A563 (215)
	v • d • e

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 REVISION HISTORY Revision Date Page Description November 0 All First Issue 2014 Reference EQPR (environmental qualification Pages v, 10, parameters report) is deleted because the 11, 12, 13, 17, environmental parameters information is added in this 29 report. (RAI 176-8089 Q3.11-9)

Typing errors are corrected (102Gy to 100Gy) in Pages 5, 24 response to RAI 176-8089 Q3.11-9.

Pages 10, 11, Added figures are adopted as references.

13, 22, 23 Section 5.6 is revised in response to RAI 115-8066 Page 30 Q3.11-3, 3.11-5, 3.11-6.

Previous Table 2 is deleted in response to RAI 179-8089 Q3.11-9

- Table 3 becomes Table 2 due to deletion of Table 2. -

- Added information regarding Room No, Required Table 2 Operational Time, Designation and Classification in response to RAI 176-8089 Q3.11-9.

-Table 4 becomes Table 3 due to deletion of Table 2.

February Table 3 -Gamma, Beta, Neutron doses are specified in 1

2017 response to RAI 176-8089, Q3.11-9 Pages 94, 95,

- Pressure values are updated according to DIT-N-97, 98, 100, 0007-01-001 101, 102, 104 Figure 2~9 is added in response to RAI 176-8089 Figure 2~9 Q3.11-9 Pages iv, Revision for scope change(Safety-Related 138,139,141,1 EquipmentSeismic Category I Equipment) of Seimsic 43,145,146,14 9,153,156, Qualification Pages Revison for addendum and change of reference 138,156,159 Pages Delete description of using experience data in 146,153 accordance with R.G 1.100 Pages Revision for change and addendum of reference of 162~163 anchoring component Appendix A Added in response to RAI 8089, Q3.11-9 Appendix B Added in response to RAI 8089, Q3.11-9 Pages 9, 10 Added in response to RAI 8686, Q3.11-18 Pages 34 Added in response to RAI 8686, Q3.11-22 February 2 Pages 40 Revised in accordance with EOC(CR-18-E-001) 2018 Table 2 Added in response to RAI 8089, Q3.11-9_Rev. 4 Table 3 Added in response to RAI 8089, Q3.11-9_Rev. 4 Table 2 Reflected for RAI RAI 8089, Q3.11-9,NRC Feedback May Page A-3, A-4 Reflected for RAI RAI 8089, Q3.11-9,NRC Feedback 3

2018 Page A-5 Reflected for RAI RAI 8089, Q3.11-9,NRC Feedback Page B-5 Reflected for RAI RAI 8089, Q3.11-11,NRC Feedback Table 2 Pages Reflected in accordance with EOC 4 July 2018 44,45 and 51 (CR-17-IC-164, No.40)

KEPCO & KHNP ii

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 This document was prepared for the design certification application to the U.S Nuclear Regulatory Commission and contains technological information that constitutes intellectual property of Korea Hydro & Nuclear Power Co., Ltd..

Copying, using, or distributing the information in this document in whole or in part is permitted only to the U.S.

Nuclear Regulatory Commission and its contractors for the purpose of reviewing design certification application materials. Other uses are strictly prohibited without the written permission of Korea Electric Power Corporation and Korea Hydro & Nuclear Power Co.,Ltd.

KEPCO & KHNP iii

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 ABSTRACT The APR1400 Equipment Qualification Program consists of two parts which are classified into Environmental Qualification Program and Seismic Qualification Program respectively. These are discussed in separate parts.

Part 1 This report describes the program used to meet the requirements of 10 CFR 50.49, NRC RG 1.89, NUREG-0588 Category I, IEEE Std. 323, and NUREG-0800 (SRP 3.11). The program described herein applies to Class 1E electrical equipment and safety-related active mechanical equipment important to safety for nuclear power plants committed to the above requirements. Description of the elements of the environmental qualification program, methodology, and technical bases are presented. Type test, analysis, and other methods of qualification compliant with NUREG-0588 are discussed. It is expected that this report may be referenced by license applicants for the scope and methods to be employed for qualification of Class 1E electrical equipment and safety-related active mechanical equipment.

Part 2 This program is to establish the seismic and dynamic qualification procedure and criteria for Seismic Category I mechanical equipment, controls and instrumentation and Class 1E electrical equipment in APR1400. This program is a part of the overall APR1400 Equipment Qualification Program, hereinafter referred to as EQP. This program provides the seismic and dynamic qualification requirements and general procedures to qualify safety-related equipment in accordance with IEEE Std. 344 and NRC RG 1.100. It is expected that this report may be referenced by license applicants for the scope and methods.

KEPCO & KHNP iv

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 ACRONYMS AND ABBREVIATIONS AB auxiliary building ACI American Concrete Institute ACU air cleaning unit A/E architect/engineer AFW auxiliary feedwater AFWP auxiliary feedwater pump AFWST auxiliary feedwater storage tank AHU air handling unit AISC American Institute of Steel Construction ANSI American National Standards Institute APC auxiliary process cabinet ASME American Society of Mechanical Engineers BAMP boric acid makeup pump BAST boric acid storage tank BOP balance of plant CCS component control system CCW component cooling water CCWPH component cooling water pump house CEA control element assembly CEDM control element drive mechanism CFR code of federal regulations CG center of gravity CIV containment isolation valve CPCS core protection calculator system CS containment spray DBA design basis accident DRCS digital rod control system EDG emergency diesel generator EDGB emergency diesel generator building ENFMS ex-core neutron flux monitoring system EQP equipment qualification program ESF-CCS engineered safety features - component control system ESR electro-hydraulic actuated spring return ESW essential service water KEPCO & KHNP v

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 ESWB essential service water building FMEA failure modes and effects analysis GDC general design criteria HELB high-energy line break HJTC heated junction thermocouple HT high temperature HX heat exchanger ICI in-core instrumentation IE inspection and enforcement IEEE institute of electrical and electronics engineers IRWST in-containment refueling water storage tank ITP interface and test processor LOCA loss-of-coolant accident LT low temperature MCC motor control center MCR main control room MFLB main feedwater line break MI mineral insulated MMIS man machine interface MSADV main steam atmospheric dump valve MSLB main steam line break MTP maintenance and test panel NR narrow range NRC U.S. Nuclear Regulatory Commission OBE operating basis earthquake OL operating license POSRV pilot operated safety relief valve PPS plant protection system PRM process radiation monitor PSR pneumatically actuated spring return PZR pressurizer QA quality assurance RCB reactor containment building RCP reactor coolant pump RDT reactor drain tank RG regulatory guide KEPCO & KHNP vi

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 RH relative humidity RRS required response spectra RSPT reed switch position transmitter RSSH resin sluice supply header RTSG reactor trip switchgear RTSS reactor trip switchgear system SC shutdown cooling SCS shutdown cooling system SDCHX shutdown cooling heat exchanger SG steam generator SI safety injection SIP safety injection pump SIS safety injection system SIT safety injection tank, structural integrity test S/PM surveillance/preventive maintenance SRP standard review plan SRSS square root of the sum of the squares SRV safety relief valve SSC structure, system, or component SSE safe shutdown earthquake SWGR switchgear TGB turbine generator building TID total integrated dose TS trade secret VCT volume control tank WR wide range ZPA zero-period acceleration KEPCO & KHNP vii

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Part 1 Environmental Qualification Program KEPCO & KHNP viii

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 TABLE OF CONTENTS 1 INTRODUCTION.................................................................................................... 1 1.1 Objectives ......................................................................................................................................... 1 1.2 Background ...................................................................................................................................... 1 1.3 Criteria and Standards ..................................................................................................................... 2 1.4 Summary .......................................................................................................................................... 2 2 DEFINITIONS ........................................................................................................ 3 2.1 Abnormal Condition .......................................................................................................................... 3 2.2 Accident Condition ........................................................................................................................... 3 2.3 Active Components .......................................................................................................................... 3 2.4 A/E .................................................................................................................................................... 3 2.5 Aging ................................................................................................................................................ 3 2.6 Analysis ............................................................................................................................................ 3 2.7 Auditable Data .................................................................................................................................. 3 2.8 Class 1E ........................................................................................................................................... 3 2.9 Common-Mode Failure..................................................................................................................... 3 2.10 Components ..................................................................................................................................... 4 2.11 Condition Monitoring ........................................................................................................................ 4 2.12 Containment ..................................................................................................................................... 4 2.13 Demonstration .................................................................................................................................. 4 2.14 Design Basis Accident (DBA) ........................................................................................................... 4 2.15 Design Life ....................................................................................................................................... 4 2.16 Design Qualification ......................................................................................................................... 4 2.17 Engineered Safety Features ............................................................................................................ 4 2.18 Equipment ........................................................................................................................................ 4 2.19 Equipment Qualification ................................................................................................................... 5 2.20 Failure............................................................................................................................................... 5 KEPCO & KHNP ix

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 2.21 Harsh Environment........................................................................................................................... 5 2.22 Harsh Zone ....................................................................................................................................... 5 2.23 Installed Life ..................................................................................................................................... 5 2.24 Interface............................................................................................................................................ 5 2.25 Margin............................................................................................................................................... 5 2.26 Mild Environment.............................................................................................................................. 5 2.27 Mild Zone .......................................................................................................................................... 5 2.28 Nuclear Generating Station .............................................................................................................. 6 2.29 Normal Conditions ............................................................................................................................ 6 2.30 Operating Experience....................................................................................................................... 6 2.31 Performance Requirements ............................................................................................................. 6 2.32 Qualified Life .................................................................................................................................... 6 2.33 Sample Equipment ........................................................................................................................... 6 2.34 Service Conditions ........................................................................................................................... 6 2.35 Synergistic Effects ............................................................................................................................ 6 2.36 Type Tests ........................................................................................................................................ 6 3 DESCRIPTION OF ENVIRONMENTAL QUALIFICATION PROGRAM ...................... 7 3.1 Scope of Supply ............................................................................................................................... 7 3.2 Qualification Program ....................................................................................................................... 8 3.2.1 Aging ................................................................................................................................................ 9 3.2.2 Seismic ........................................................................................................................................... 10 3.2.3 Environmental ................................................................................................................................ 11 3.3 Environmental Conditions and Effects ........................................................................................... 11 3.3.1 Temperature ................................................................................................................................... 11 3.3.2 Radiation ........................................................................................................................................ 12 3.3.3 Vibration ......................................................................................................................................... 13 3.3.4 Pressure ......................................................................................................................................... 13 KEPCO & KHNP x

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 3.3.5 Humidity ......................................................................................................................................... 14 3.3.6 Chemical Spray .............................................................................................................................. 14 3.3.7 Dust ................................................................................................................................................ 14 3.3.8 Submergence ................................................................................................................................. 14 3.3.9 Power Supply Voltage and Frequency Variations .......................................................................... 15 3.3.10 Other Environmental Effects ......................................................................................................... 15 4 EQUIPMENT QUALIFICATION REQUIREMENTS ................................................ 16 4.1 Location .......................................................................................................................................... 16 4.2 Environment ................................................................................................................................... 16 4.3 Design Basis Accidents .................................................................................................................. 16 4.4 Operating Requirements ................................................................................................................ 16 5 METHODS OF QUALIFICATION .......................................................................... 17 5.1 Type Testing ................................................................................................................................... 17 5.1.1 Equipment Procurement Specification ........................................................................................... 17 5.1.2 Type Test Methods......................................................................................................................... 17 5.1.3 Margin ............................................................................................................................................ 18 5.1.4 Test Sequence ............................................................................................................................... 21 5.1.5 Type Test Report............................................................................................................................ 23 5.1.6 Environmental Test Profiles ........................................................................................................... 23 5.1.7 Acceptance Criteria ........................................................................................................................ 23 5.1.8 Test Anomalies ............................................................................................................................... 24 5.2 Analysis .......................................................................................................................................... 25 5.2.1 Analyses Based on Partial Type Test Data and Equipment-Specific Qualification Requirements 25 5.2.2 Failure Modes and Effects Analysis ............................................................................................... 26 5.3 Operating Experience..................................................................................................................... 26 5.4 Aging .............................................................................................................................................. 26 5.4.1 Aging Analysis and Conditioning .................................................................................................... 27 KEPCO & KHNP xi

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 5.4.2 Periodic Replacement .................................................................................................................... 29 5.4.3 Surveillance/Preventative Maintenance ......................................................................................... 30 5.5 Conservatism of Qualification Parameters ..................................................................................... 30 5.6 Qualification of Safety-Related Active Mechanical Equipment ...................................................... 31 6 DOCUMENTATION .............................................................................................. 32 6.1 Equipment-Specific Qualification Documentation .......................................................................... 32 6.1.1 Aging Analysis Report .................................................................................................................... 32 6.1.2 Qualification Plan ........................................................................................................................... 32 6.1.3 Age Conditioning Report ................................................................................................................ 33 6.1.4 Qualification Test Procedure .......................................................................................................... 33 6.1.5 Qualification Test Report ................................................................................................................ 34 6.1.6 Operating Experience Data ............................................................................................................ 34 6.1.7 Equipment for Mild Environment .................................................................................................... 35 6.2 Equipment Categorization .............................................................................................................. 35 6.3 Qualification Data Summary and Evaluation.................................................................................. 35 6.4 Supporting Documentation ............................................................................................................. 36 7 QUALITY ASSURANCE ....................................................................................... 37 8 ADMINISTRATIVE PROCEDURES ....................................................................... 38 8.1 Equipment Specification ................................................................................................................. 38 8.2 Supplier Design and Qualification Program ................................................................................... 38 8.3 Qualification Task ........................................................................................................................... 38 8.4 Qualification Documentation and Submittals ................................................................................. 38 9 REFERENCES ..................................................................................................... 39 KEPCO & KHNP xii

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 LIST OF TABLES Table 1 Ventilation Areas ................................................................................................................... 42 Table 2 Equipment Qualification Equipment List ................................................................................ 43 Table 3 Environmental Parameters Data............................................................................................ 94 Table 4 Containment Spray Conditions ............................................................................................ 122 KEPCO & KHNP xiii

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 LIST OF FIGURES Figure 1 Design Basis Containment Atmosphere Temperature and Pressure EQ Profile for Accident ............................................................................................................................. 123 Figure 2 Main Steam Valve Room MSLB Temperature Profile.............................................................. 124 Figure 3 Auxiliary Building HELB Temperature Profile .......................................................................... 125 Figure 4 Turbine Driven AF Pump Room Temperature Profile ............................................................. 126 Figure 5 Turbine Driven AF Pump Room Vent & Main Steam Enclosures ........................................... 127 Figure 6 HELB HVAC Duct Tray Pipe Way Temperature Profile .......................................................... 128 Figure 7 SG Blowdown Flash Tank Room Temperature Profile ........................................................... 129 Figure 8 Equipment Qualification Working Process .............................................................................. 130 Figure 9 Equipment Qualification Flow Diagram By Type of Safety-Related Equipment ..................... 131 KEPCO & KHNP xiv

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 APPENDICES APPENDIX A CALCULATUION METHOD OF DETERMINING OF NORMAL CONDITION TIDs FOR ENVIRONMENTAL QUALIFICATION ............................................................................. A-1 APPENDIX B CALCULATION METHOD OF DETERMINING POST-ACCIDENT CONDITION TIDs FOR ENVIRONMENT QUALIFICATION ................................................................................. B-1 KEPCO & KHNP xv

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Page intentionally blank KEPCO & KHNP xvi

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 1 INTRODUCTION 1.1 Objectives The intent of equipment environmental qualification is to demonstrate that equipment will perform the necessary safety-related functions during normal and accident conditions.

This program includes the methods used to meet the requirements of the "Category I" requirements of NUREG-0588 (Reference 9.1), the requirements of the Standard Review Plan, NUREG-0800 (SRP 3.11)

(Reference 9.2), 10 CFR 50.49 (Reference 9.3), and Institute of Electrical and Electronics Engineers (IEEE) Std 323 (Reference 9.8). The methods described herein apply to Class 1E electrical equipment and safety-related active mechanical equipment important to safety for use in nuclear power plants committed to the above requirements. It is expected that this report may be referenced by license applicants for the scope and methods employed herein.

Qualification documentation will be supplied by Supplier and is described in detail in Section 6.

1.2 Background The environmental requirements to be considered in the design of safety-related equipment are embodied in 10 CFR, Appendix A to Part 50, General Design Criteria 1, 2, 4, 23, and 50. The environmental design of the safety-related equipment is verified, documented, and controlled as required by Sections III, XI, and XVII of 10 CFR 50 Appendix B.

NUREG-0588 was issued in December 1979 to promote a more orderly and systematic implementation of equipment qualification programs by the industry and to provide guidance to the U.S. Nuclear Regulatory Commission (NRC) staff for its use in ongoing licensing reviews. The positions contained in the report provide guidance on (1) how to establish environmental service conditions, (2) how to select methods that are considered appropriate for qualifying equipment in different areas of the plant, and (3) other issues such as margin, aging, and qualification documentation.

In February 1980, the NRC requested certain near-term Operating License (OL) applicants to review and evaluate the environmental qualification documentation for each item of safety-related electrical equipment and to identify the degree to which their qualification programs comply with the staff positions described in NUREG-0588. Inspection and Enforcement (IE) Bulletin 79-01B (Reference 9.28),

"Environmental Qualification of Class 1E Equipment," was issued on January 14, 1980 and its supplements dated February 29, September 30, and October 24, 1980 established environmental qualification requirements for Class 1E electrical equipment in operating reactors.

A final rule on environmental qualification of electric equipment important to safety for nuclear power plants became effective on February 22, 1983. This rule, Section 50.49 of 10 CFR Part 50, specifies the requirements to be met for demonstrating the environmental qualification of electric equipment important to safety located in a harsh environment.

The qualification requirements for safety-related active mechanical equipment are principally contained in Appendices A and B of 10 CFR 50. The qualification methods defined in NUREG-0800 (SRP 3.11) can also be applied to mechanical equipment. Environmental qualification of safety-related active mechanical equipment is described in detail in Section 5.6.

KEPCO & KHNP 1

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 1.3 Criteria and Standards The qualification program is designed to meet the requirements of the "Category I" requirements of NUREG-0588, IEEE Std. 323, and IEEE Std. 627 (Reference 9.18). IEEE Std. 323 was issued to provide guidance for demonstrating the qualifications of Class 1E equipment for nuclear generating stations. The individual supporting standards that the architect engineer (A/E) will employ, either in whole or in part, are listed in Section 9.

1.4 Summary A summary of the various sections of this program is given below:

Description of Environmental Qualification Program (Section 3)

The general scope of supply and the various qualification program activities are described. This program will cover safety-related electrical and active mechanical equipment including sensors, electrical penetration assemblies, cables, hydrogen and radiation monitoring systems, panels, motor control centers (MCCs), switchgear (SWGR), miscellaneous instrumentation, nuclear service valves and auxiliary equipment, and pump motors located in harsh and mild environments.

Equipment Qualification Requirements (Section 4)

Information will be included on the location of equipment, qualification environment, and operating requirements.

Methods of Qualification (Section 5)

Type tests, analysis and other methods of qualification compliant with 10 CFR 50.49, NUREG-0800 (SRP 3.11), and the Category I requirement of NUREG-0588, NRC Regulatory Guide (RG) 1.89 (Reference 9.22), and IEEE Std. 323 are presented. The demonstration of conservatism of the qualification parameters is described.

Documentation (Section 6)

This section describes the documentation required for qualification. The qualification reports and their generation are described. Documentation necessary to support the review on a particular applicant's docket will be available for audit.

Quality Assurance (Section 7)

The A/E's quality assurance (QA) practices and documentation requirements associated with equipment qualification activities are described.

Administrative Procedures (Section 8)

Suppliers participation and responsibility coupled with qualification program technical definition, management, and control are described.

KEPCO & KHNP 2

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 2 DEFINITIONS 2.1 Abnormal Condition The limiting environmental condition expected following an accident or transient that is not a normal operating condition but is not considered an accident 2.2 Accident Condition The environmental conditions expected as a direct result of an accident that requires activation of emergency safeguard systems to protect the plant combined with a single active failure 2.3 Active Components Any component characterized by a change in state, or by mechanical motion, to perform an automatic safety function such as safe shutdown of the reactor, or mitigation of the consequences of a postulated pipe break in the reactor coolant pressure boundary 2.4 A/E Architect/engineer 2.5 Aging The effects of operational, environmental, and system conditions on equipment during a period of time up to, but not including, a design basis accident or the process of simulating such an accident 2.6 Analysis A process of mathematical or other logical reasoning that leads from stated premises to a conclusion concerning specific capabilities of equipment and its adequacy for a particular application 2.7 Auditable Data Technical information that is documented and organized in a readily understandable and traceable manner and that permits independent auditing of the inferences or conclusions based on the information provided.

2.8 Class 1E The safety classification of electrical equipment and systems that are essential to emergency reactor shutdown, containment isolation, reactor core cooling, and containment and reactor heat removal, or are otherwise essential in preventing significant release of radioactive material to the environment.

2.9 Common-Mode Failure Multiple failures attributable to a common cause KEPCO & KHNP 3

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 2.10 Components Individual items that are the integral parts of equipment and cannot be individually operability tested (e.g.,

seals, gaskets, resistors) 2.11 Condition Monitoring Activities by which equipment condition is monitored to provide reasonable assurance that it will not degrade or age beyond the state to which it is no longer operable 2.12 Containment That portion of the engineered safety features (ESF) designed to act as the principal barrier, beyond the reactor system pressure boundary, to prevent the release, even under conditions of a reactor accident, of unacceptable quantities of radioactive material beyond a controlled zone 2.13 Demonstration A course of reasoning showing that a certain result is a consequence of assumed premises; an explanation or illustration, as in teaching by use of examples 2.14 Design Basis Accident (DBA)

Postulated abnormal accidents used in the design to establish the performance requirements of the safety-related structures, systems, and components. These events include abnormal operating occurrences and design basis accidents.

2.15 Design Life The time during which satisfactory performance can be expected for a specific set of service conditions 2.16 Design Qualification The generation and maintenance of evidence to demonstrate that equipment can perform within its specification requirements 2.17 Engineered Safety Features Features of a unit other than reactor trip or those used only for normal operation, that are provided to prevent, limit, or mitigate the release of radioactive material 2.18 Equipment An assembly of components designed and manufactured to perform specific functions KEPCO & KHNP 4

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 2.19 Equipment Qualification The generation and maintenance of auditable evidence to ensure that the equipment will operate on demand to meet the performance requirements under applicable service conditions 2.20 Failure The loss of ability to perform a required service function by a component, equipment, or system 2.21 Harsh Environment Any area that has a significant increase in environmental parameters (pressure, temperature, relative humidity, or chemical) due to a postulated DBA, or any area with a total integrated dose (TID) greater than 100 Gy (greater than 10 Gy for electronic components such as semiconductors or electronic components containing organic material) 2.22 Harsh Zone An area of the plant that is predicted to have the conditions of a harsh environment 2.23 Installed Life The interval from installation to removal, during which the equipment or component may be subject to design service conditions and system demands (Note: Equipment may have an installed life of the designated life of the plant with certain components changed periodically; thus, the installed life of the components would be less than designated life of the plant) 2.24 Interface A junction or junctions between Class 1E equipment and another piece of equipment or device (for example, connection boxes, splices, terminal boards, electrical connections, grommets, gaskets, cables, conduits, enclosures) 2.25 Margin The difference between the most severe specified service conditions and the conditions used during equipment qualification type testing 2.26 Mild Environment An environment expected as a result of normal service conditions and extremes (abnormal) in service conditions where seismic is the only DBA of consequence 2.27 Mild Zone An area of the plant that is predicted to have conditions of a mild environment KEPCO & KHNP 5

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 2.28 Nuclear Generating Station A plant wherein electrical energy is produced from nuclear energy by means of suitable apparatus. The station may consist of one or more units that may or may not share some common auxiliaries.

2.29 Normal Conditions The environmental conditions expected during normal plant operation with equipment performing its function, as required, on a continuous steady-state basis 2.30 Operating Experience Accumulation of verifiable service data for conditions equivalent to those for which particular equipment is to be qualified 2.31 Performance Requirements Specified range of parameters within which equipment must operate under normal and accident conditions (e.g., power, actuation time, and accuracy).

2.32 Qualified Life The period of time for which satisfactory performance can be demonstrated for a specific set of service conditions. The qualified life of a particular equipment item may be changed during its installed life where justified.

2.33 Sample Equipment Production equipment tested to obtain data that are valid over a range of ratings and for specific services 2.34 Service Conditions Environmental, power, and signal conditions expected as a result of normal operating requirements, expected extremes (abnormal) in operating requirements, and postulated conditions appropriate for the DBAs of the stations.

2.35 Synergistic Effects The effects that result from two or more stresses acting together, as distinguished from the effects of the stresses applied separately 2.36 Type Tests Tests made on one or more equipment samples to verify the adequacy of the design and manufacturing processes KEPCO & KHNP 6

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 3 DESCRIPTION OF ENVIRONMENTAL QUALIFICATION PROGRAM 3.1 Scope of Supply This report addresses electrical and active mechanical equipment important to safety for nuclear power plants. This equipment is classified in four categories by 10 CFR 50.49 (b) and NUREG-0800 (SRP 3.11) as (1) safety-related electric equipment which is required to function under the postulated accident conditions, (2) non-safety-related electric equipment whose failure under postulated environmental conditions could prevent satisfactory accomplishment of safety functions by safety-related equipment, (3) accident monitoring equipment, and (4) safety-related active mechanical equipment. Category (1) includes Class 1E electrical equipment, Category (2) equipment shall be selected for environmental qualification by the respective responsible system engineers based on their evaluation of the equipment's failure under postulated environmental conditions as being detrimental to satisfactory accomplishment of equipment safety functions. The Category (3) group comprises NRC RG 1.97 (Reference 9.23) accident monitoring instrumentation equipment. Category (4) is the safety-related active mechanical equipment that contains non-metallic parts/components such as seals, gaskets, and lubricants. The environmental qualification program described in this document is based on engineering principles that provide reasonable assurance these components will function properly in their environments, when required during normal operation and during and after DBAs.

For the APR1400, the scope of supply for safety-related electrical and active mechanical equipment includes the following:

a. Load center and switchgear

b. Motor control center

c. DC motor control center

d. Battery, charger, and inverter

e. Electrical penetration assemblies

f. Electrical cables

g. Monitoring system and associated panels

h. Process sensor and instrumentation

i. Power-operated valve assemblies

j. Check valves

k. Safety relief valves

l. Pumps and drives of various types

m. Air handling unit (AHU) and cubicle coolers

n. Air cleaning unit (ACU), fan, and duct heaters

o. Emergency diesel generators (EDGs)

KEPCO & KHNP 7

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4

p. Dampers

q. Chillers 3.2 Qualification Program Applicants for operating licenses are required to demonstrate that electrical and active mechanical equipment important to safety will perform its required Class 1E functions throughout their design life under the expected normal and postulated accident conditions. Qualification programs must consider the effects of normal and accident environments, inservice and seismic vibration, radiation, temperature, pressure, chemical spray, humidity, submergence, synergistic effects, dust, as well as the natural aging process for the individual equipment.

The goal of the qualification program is to provide reasonable assurance that the specified equipment will operate within defined limits when exposed to the conditions associated with its required service environments. In order to meet this goal, the qualification program will address the following areas, as required.

a. Performance or operating requirements for Class 1E electrical and safety-related active mechanical equipment to demonstrate qualification

b. The environmental conditions and exposure times for which the equipment must be qualified

c. Simulation of environments or effects to determine qualification of individual components

d. Effects on these components of long- or short-term exposure to simulated environments

e. Methods of observing or detecting these effects (anomalies)

f. The methods for establishing a qualified life

g. The required levels of documentation and quality assurance The integration of these areas is accomplished through a series of activities that include the following:

a. Generation of an aging analysis plan and report that define age-susceptible components of the equipment (This program also includes detailed procedures for age conditioning and defines periodic replacement intervals as required.)

b. Generation of a qualification plan that incorporates the results of the aging analysis in defining the qualification methods and documentation activities of the qualification program

c. Performance of the age conditioning sub-program and preparation of an age conditioning report, if required

d. Preparation of detailed qualification test plans and procedures

e. Performance of the qualification testing

f. Preparation of the final qualification test report and qualification data summary form

g. Development of the requirements for maintenance and surveillance activities KEPCO & KHNP 8

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 This report will address each one of the above areas as it applies to safety-related electrical and active mechanical equipment.

The qualification program is established to meet the requirements of 10 CFR 50.49, and the Category I requirements of NUREG-0588, NUREG-0800, NRC RG 1.89, and IEEE Std. 323. The qualification program has two approaches that are based on the equipment's location. Equipment located in a harsh environment is not treated in the same fashion as equipment located in a mild environment. Regardless of equipment location, qualification will be demonstrated based on either type testing, accelerated age conditioning, periodic replacement, surveillance/preventive maintenance (S/PM), and/or any combination thereof. The qualification methods associated with both approaches are as follows:

a. Harsh Environments Safety-related equipment located in a harsh environment, such as in containment and in some auxiliary building areas, required to be functional during and after the DBAs will undergo an aging analysis and an accelerated aging program. Subsequent to age conditioning, the equipment will undergo type testing for the accident environment as specified in Sections 2.0, 3.0, and 4.0 of NUREG-0588 and Section 6.0 of IEEE Std. 323. Equipment subjected to a postulated harsh environment includes Class 1E transmitters, cables and connectors, some process instrumentation, electrical penetration assemblies, cubicle coolers, ACU, nuclear service valves and auxiliary equipment, radiation and hydrogen monitoring equipment, pump motors and damper.

b. Mild Environments Safety-related equipment located in a mild environment, such as control areas and some areas in the plant, will be qualified for the normal local environment and a seismic event. An aging analysis will be performed prior to qualification type testing to determine whether or not known significant aging mechanisms exist for that equipment. The aging analysis will focus on the identification of known aging mechanisms that significantly increase the equipment susceptibility to its DBA (seismic only for mild environments). Pending the results of the aging analysis, the equipment will either require an accelerated age conditioning program, periodic part replacement program, surveillance/preventive maintenance program, or any combination thereof to demonstrate and maintain qualification status. Equipment subjected to a mild environment includes Class 1E local control panels, some process instrumentation (indicators, converters, and recorders), load center, SWGR, DC control center, MCC, battery, charger and inverter, AHU, fan and duct heaters, EDG, and miscellaneous electronic modules.

3.2.1 Aging The assessment of equipment aging effects is required to determine if significant aging mechanism does exist regardless of equipment location. Thermal, radiation, humidity, cyclic operation, electromechanical, and synergistic effects will be addressed as appropriate.Where significant aging mechanisms are identified, equipment shall be preconditioned by natural or accelerated aging.

3.2.1.1 Accelerated age conditioning The accelerated age conditioning program will be conducted in accordance with Section 4.0 of NUREG-0588 and Section 6.0 of IEEE Std. 323.

The methodology used in the determination and evaluation of the equipment age-related failure modes and mechanisms will include, as appropriate, the following types of information:

KEPCO & KHNP 9

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4

a. Arrhenius and/or activation energy data

b. Aging acceleration rate data

c. Failure modes and effects analysis (FMEA) data

d. Thermal stress data

e. Electrical stress data

f. Electromechanical and operational cycling data

g. Normal operating vibration data

h. Radiation component susceptibility data

i. Major industry known synergistic data 3.2.1.2 Natural Aging The natural aging will be conducted in accordance with 10CFR 50.49 and Section 6.3.1.8.1 of IEEE Std.

323-2003. If naturally preconditioning the equipment to end-of-life condition is not practicable, shorter life can be designated. In this case, the equipment shall be replaced at a speicified interval. Anaysis is performed to verify that natural aging conditions are at least as severe as the intended service condition.

In the end, qualified life is determined based on the designated life when analysis and DBA testing are successfully completed.

Natural aging can be used for type testing provided that

a. Operating data of the equipment is available

b. Operating and maintenance/replacement records are available

c. Operating conditions are at least as severe as intended service condition 3.2.2 Seismic The seismic qualification program for Class 1E equipment will be in accordance with IEEE Std. 344 (Reference 9.10).

Seismic qualification of pump motors, and nuclear service valves and auxiliary equipment, is per IEEE Std. 344.

This report does not describe seismic testing, methods, or results, other than to reference IEEE Std. 344.

The detailed seismic qualification is described in Part 2, Seismic Qualification Program.

KEPCO & KHNP 10

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 3.2.3 Environmental Equipment will be environmentally qualified to levels at least as severe as the conditions specified in Table 3 of this report for normal and accident conditions. Environmental parameters and qualification profiles for DBAs (LOCA, MSLB, HELB) are provided in Table 3, 4 and Figure 1 to Figure 7 of this report.

3.3 Environmental Conditions and Effects The postulated environmental conditions to which safety-related equipment are exposed generally include long time periods at either moderate or low levels of temperature, pressure, humidity, and radiation, followed by, for equipment located in the containment, exposure to high levels of these same parameters for relatively short periods of time. Equipment operation under these high stress levels may be required in order to mitigate or monitor the postulated accident conditions. The level of exposure may also be affected by the location of the particular equipment.

For example, a component located in the reactor containment building may be exposed to moderate temperature, pressure, humidity, and radiation for long periods of time and then would be required to function for safety purposes under possible conditions of high temperature, pressure, humidity, radiation and chemical spray resulting from a LOCA or MSLB /MFLB.

The purpose of the qualification program is to demonstrate that equipment will perform its Class 1E function.

3.3.1 Temperature 3.3.1.1 Harsh Environment The preferred method of establishing an environmental profile for DBA testing of safety-related equipment located in harsh environmental zone is to adhere to Category I guidelines in Sections 1.1 and 1.2 of NUREG-0588, Rev. 1 for developing a test profile that will envelop all temperature and pressure gradients for DBAs in a superheated steam/air environment. See the APR1400 containment DBA temperature and pressure profiles provided in Figure 1 to 7 of this report.

A second method of establishing a test profile is based on a thermal equivalence analysis. This method of establishing a profile will be used in lieu of the preferred method whenever the preferred method represents severe overtesting of a particular component.

3.3.1.2 Thermal Equivalence Requirements In an accident scenario for which it is necessary to use thermal equivalence techniques, the following requirements must be met:

a. Application of the thermal equivalence approach shall be justified for each piece of equipment, including any judgments regarding the survivability limits of the equipment.

b. The specific heat transfer modeling of the equipment shall be described and the selection of the critical surface or surfaces shall be justified as limiting with respect to both time and location.

The test results will be used to demonstrate the conservatism of the heat transfer modeling.

KEPCO & KHNP 11

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4

c. Multiple temperature measurements of the critical surface(s) from testing shall envelop the calculated surface temperature transient(s), including the initial ramp. "Soaking" will not be permitted.

d. A margin of at least +8 (+15 °F) shall be applied between the measured surface temperature and the calculated surface temperature. This margin accounts for the uncertainties associated with design, production tolerances, testing techniques, and the number of units tested. This temperature margin of +8 (+15 ) is in accordance with the guideline of IEEE Std. 323.

e. Application of the thermal equivalence approach shall be restricted to the limiting superheated steam harsh environment, based on a spectrum of break sizes.

3.3.1.3 Mild Environment Equipment located in general plant areas outside containment that is not subjected to a DBA environment will be qualified to the normal and abnormal range of environmental conditions postulated to occur at the equipment location. Equipment that is served by safety-related support systems will be qualified per defined environmental interface requirements, to the limiting environmental conditions that are postulated for that location.

Specific environmental conditions, as described in Table 3 of this report, will be used as appropriate for environmental qualification of the equipment in mild environments.

3.3.2 Radiation 3.3.2.1 Harsh and Mild Environments Equipment will be qualified for the types and levels of radiation associated with normal operation plus the radiation associated with the most severe DBA. These levels are defined in Table 3 of this report. If more than one type of radiation is significant, each type may be applied separately.

2 Equipment that is exposed to radiation greater than 10 Gy (greater than 10 Gy for electronic components such as semiconductors or electronic components containing organic material) will be irradiated to its anticipated total integrated dose (TID) prior to type testing unless it is determined by analysis supported by partial type test data, that radiation does not negatively impact the equipments ability to perform its required function. Where analysis supported by partial type test data cannot demonstrate proper operation at the required radiation levels, type testing will be performed Where the application of the accident dose is planned during DBA testing, it need not be included during the aging process.

Equipment will be qualified to the specific radiation environments defined in Table 3 of this report, as required.

KEPCO & KHNP 12

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 3.3.2.2 Gamma Cobalt-60 is considered an acceptable gamma radiation source. Other sources may be found acceptable, and will be justified. Equipment will be tested to specific gamma radiation levels of the reactor containment building defined in Table 3 of this report.

3.3.2.3 Beta Equipment exposed to beta radiation will be identified and an analysis will be performed to determine if the operability of the equipment is affected by beta radiation ionization and heating effects. Qualification will be performed by test unless analysis demonstrates that the safety function will not be degraded by beta exposure. Equipment will be tested and/or analyzed to the beta radiation levels of the reactor containment building defined in Table 3 of this report. Where testing is recommended, a gamma equivalent radiation source will be used.

3.3.2.4 Paints/Radiation Effects An analysis will be performed addressing paint exposure to beta and gamma radiation, if required.

Qualification of painted equipment will be performed by test, if analysis indicates that the safety function of the equipment could be impaired by paint failure due to radiation.

3.3.3 Vibration Vibration may be externally or self-induced. Safety-related piping systems (including components) are designed and observed under startup or initial service conditions to ensure that external or self-induced vibration of piping systems is in accordance with The American Society of Mechanical Engineers (ASME)

Boiler and Pressure Vessel Code,Section III. Vibration effects of components (e.g., Class 1E pump motors) are addressed by periodic measurement of vibration during inservice inspection tests of pumps in accordance with ASME Code,Section XI. For pump motors, acceptance vibration levels defined in the Hydraulic Institute Standards provide the maximum vibration levels acceptable to ensure continued qualified motor performance.

Where significant levels of continuous vibration are expected to exist during service, the effects of such vibration, either externally or self-induced, will be evaluated via surveillance, preventive maintenance, analysis, partial type testing, or any combination of the above.

3.3.4 Pressure Safety-related equipment in the APR1400 is not normally exposed to high-pressure environments.

However, after/during a postulated accident, such as the LOCA or MSLB, components located in the reactor containment building may be exposed to significant external pressure from a combined steam-air mixture. Equipment will be environmentally tested to these conditions and its performance will be demonstrated during and after the test.

Refer to the containment DBA pressure profile, provided in Figure 1 of this report.

KEPCO & KHNP 13

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 3.3.5 Humidity Safety-related equipment in APR1400 is not normally exposed to 100 percent relative humidity (RH).

However, during and after a postulated accident, such as a LOCA or MSLB, components located in the reactor containment building may be exposed to 100 percent RH resulting from condensing steam. This equipment will be environmentally tested to short-term high humidity levels and its performance will be demonstrated during and after the test.

3.3.6 Chemical Spray Safety-related equipment in the APR1400 is not normally exposed to chemical spray environments.

However, during and after a postulated accident, such as a LOCA or MSLB, components located in the reactor containment building may be exposed to a chemical spray by actuation of the containment spray system. Equipment will be environmentally tested to conditions at least as severe as these conditions and its performance will be demonstrated during and after the test. A single failure analysis of the spray system will be performed, as described in Subsection 5.2.2, to determine the most severe spray composition. Corrosion effects due to long-term exposure will be addressed, as appropriate.

Where qualification for chemical spray environment is required, the simulated spray will be initiated at the rate and duration shown in containment spray conditions table of this report. Typical values of chemical spray composition, concentration, and pH are defined in containment spray condition table of this report.

3.3.7 Dust Dust requirements will not be applied to indoor equipment, because indoor conditions are prevented by normal dust control in the plant ventilation systems.

Outdoor dust environments will be considered when establishing service conditions and qualification requirements. The potential effects of dust exposure will be evaluated relative to effects upon equipment safety function performance. Where dust could have a degrading effect on equipment safety function performance, it will be addressed in the qualification program through the upgrading of equipment interface requirements. The following factors will be considered as appropriate when evaluating the effects of outdoor dust.

a. Interface requirements and limits for the environmental control systems

b. Equipment filtering capabilities

c. Dust density, composition, and accumulation rate

d. Equipment using high voltages or performing electromechanical functions 3.3.8 Submergence Equipment locations and operability requirements will be reviewed to establish whether or not specific equipment could be subject to submergence during its required operating time. Flood levels both inside and outside containment will be reviewed and potential impacts on equipment qualification appropriately addressed. Where operability during submergence is required, qualification will be demonstrated by type test and/or analysis supported by partial type test data. See Subsection 5.2.1 for additional discussion.

KEPCO & KHNP 14

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 If simulation of hydrostatic pressure is required for submergence testing, it will include the maximum vapor pressure in that environment plus margin and the pressure due to its level of submergence. The duration of the test will be as specified in equipment-specific qualification test procedures.

3.3.9 Power Supply Voltage and Frequency Variations Power supply voltage and frequency variations are addressed in several areas throughout the equipment design and verification process. During the design process, interface requirements dictate the acceptable range of power supply variation. Equipment specifications incorporate these interface requirements into the design to ensure acceptable operation within the defined ranges of power supply voltage and frequency variations. Upon equipment fabrication and completion, design verification tests are performed to demonstrate design adequacy. Class 1E pump motors are designed and qualified to operate successfully under normal operating condition at rated load with a variation in the voltage or frequency up to the following typical values:

a. +/-10 percent of rated voltage with rated frequency

b. +/-5 percent of rated frequency with rated voltage

c. A combined variation in voltage and frequency of +/-10 percent of the rated values, provided the frequency variation does not exceed +/-5 percent of rated frequency 3.3.10 Other Environmental Effects 2

a. Heat rise due to I R

b. Heat rise produced by conduction

c. Contact of component with process fluids KEPCO & KHNP 15

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 4 EQUIPMENT QUALIFICATION REQUIREMENTS Qualification requirements for safety-related equipment in the scope of supply are contained in the APR1400 procurement specifications. These requirements include equipment-specific DBAs, location, normal and accident environments, and operating times required under accident environments.

4.1 Location Location determines the harsh or mild environment for the equipment. Equipment located in the containment building may be exposed to a normal, moderate-temperature, and moderate-radiation environment as well as a high-temperature, high-pressure, high-radiation, high-humidity, and chemical spray accident environment, including a possible seismic event. Most equipment located outside containment would only be subjected to a possible seismic event or a limited-temperature/humidity excursion.

If it is determined that a particular piece of equipment is located in an area that exposes it to a defined environmental condition (e.g., high-energy line break [HELB], flooding, or radiation due to recirculation fluids), then these conditions will be incorporated into the qualification program.

4.2 Environment The environment to which equipment is exposed is contingent on its location as described above, as well as on the type of accident. For example, a LOCA would expose equipment to a different accident environment in the containment building than an MSLB or a seismic event. The qualification requirements will impose the worst-case environment for each component, as applicable.

4.3 Design Basis Accidents DBAs are established for each piece of equipment based on the requirements of the safety analysis. To demonstrate that the equipment is qualified to function during and/or after a DBA, it will be qualified to a simulated test environment that exceeds, with appropriate margin, the defined environmental condition associated with that accident.

4.4 Operating Requirements Operating requirements for specific equipment are established by the safety analysis of each accident.

Some equipment may be required to function during and after the accident and other equipment may only be required to maintain structural integrity to avoid affecting the operation of safety equipment.

KEPCO & KHNP 16

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 5 METHODS OF QUALIFICATION This section describes type tests, analysis, and other methods of qualification consistent with the requirements of NUREG-0588. The analysis used to establish the environmental conditions for DBAs are described. The methodology used to perform an aging analysis is also described.

The qualification methods defined in IEEE Std. 323 are used, as follows:

a. Type testing

b. Operating experience

c. Analysis

d. Combined methods (Any combination of type testing, operating experience, and analysis) 5.1 Type Testing The goal of type testing is to demonstrate that the equipment performance meets or exceeds the requirements of equipment performance specifications under the normal, abnormal, and accident conditions specified in the APR1400 equipment procurement specifications.

Type testing is the preferred method and will be employed to the maximum extent practical. Where operating experience or analysis is used, partial type testing will be used to support assumptions made and conclusions reached.

5.1.1 Equipment Procurement Specification Safety-related equipment specifications include a description of the equipment, the safety-related performance characteristics, design environmental conditions and, where appropriate, the effect of changes in environmental conditions upon safety-related performance characteristics. Safety-related performance characteristics will be specified with nominal, maximum, and minimum values, where applicable. Design environmental conditions are specified with normal, DBA, and post-DBA ranges or conditions, where applicable. Miscellaneous data, such as significant sequences, rate of change, and combinations of environmental conditions; operating, energy and environmental cycles; qualified life; and unusual environmental conditions are specified as required.

The environmental qualification checklists that are completed for each piece of equipment undergoing qualification will address the safety-related equipment qualification and environmental parameters. The specific equipment documentation provides the customer-specific installation requirements and the manner and frequency of maintenance requirements to maintain qualification.

5.1.2 Type Test Methods The type test demonstrates that the equipment performance characteristics meet or exceed its specified safety-related performance requirements. The type test will consist of a planned sequence of test conditions that meet or exceed the expected or specified service conditions, including margin, per IEEE Std. 323, and will take into account both normal and accident service conditions.

KEPCO & KHNP 17

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Prior to performing the type test, a written qualification test plan, aging analysis report, age conditioning report, and qualification test procedures are prepared in accordance with IEEE Std. 323 and NUREG-0588.

The safety-related equipment is mounted in a manner and position that simulate its in-plant installation.

The safety-related performance characteristics of the equipment are determined at the nominal controlled environmental and energy supply operating conditions. Equipment is operated at rated load conditions over the range of its input and output parameters or other safety functions.

The safety-related performance characteristics of the equipment are determined for the significant portions of the design range of each of the significant environmental parameters or each significant combination thereof.

The test is monitored using equipment that provides sufficient resolution for detecting meaningful changes in the measured variables. The test equipment is calibrated against auditable calibration standards and will have documentation to support such calibration. The monitoring of performance characteristics and environmental parameters is of sufficient frequency to provide an assured basis for evaluation of the safety-related performance characteristics of the equipment.

Performance characteristics will be monitored and recorded (as appropriate) before, during, and after type testing.

Operability status of the equipment will be monitored and recorded (as appropriate) continuously during testing. For long-term testing (longer than 1 day), monitoring at discrete intervals is performed with justification provided.

5.1.3 Margin The purpose of margin in qualification testing is to account for reasonable uncertainties while demonstrating satisfactory performance.

The qualification type testing includes provisions to verify that margin exists. In defining the type test, increasing levels of testing, number of test cycles, or test duration are considered as methods of providing reasonable assurance that adequate margin exists.

Margins provided in Section 6.3.1.6 of IEEE Std. 323 will be used as a guide. These margins will be applied in addition to any conservatism applied during derivation of local environmental conditions unless the conservatism can be quantified and shown to contain appropriate margins.

Equipment-specific qualification test procedures will define all margins and will utilize the environmental parameters of Table 3 and profiles of Figure 1 to Figure 7 of this report as service conditions.

Typical margins that are applied, as appropriate, to service conditions for type testing are as follows:

a. Peak temperature: +8 for , +15 for (Notes 2, 3 and 4)

b. Peak pressure: +10 percent of gauge pressure but not more than 10 psi (Notes 2 and 3)

c. Radiation: +10 percent of accident dose (Note 5)

d. Voltage: +/-10 percent of rated value unless otherwise specified (Note 7)

KEPCO & KHNP 18

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4

e. Frequency: +/-5 percent of rated value unless otherwise specified (Note 7)

f. Time: +10 percent of the period of time the equipment is required to be operational following the DBA (Note 6)

g. Vibration: +10 percent added to the acceleration of the response spectrum at the mounting point of the equipment

h. Normal Service Condition (Note 1)

Notes

1) To be applied to equipment located in general plant areas outside containment where it is not subjected to a DBA.

2) To be applied only to DBA and for a minimum of 4 days following the DBA.

3) Margin need not be applied if double peak is used.

4) Under saturated steam conditions, margin on temperature shall be such that test pressure will not exceed the saturated steam pressure corresponding to peak temperature by more than 10 psi.

5) Additional 10 percent margin is not required if the radiation calculations are done per methods outlined in NUREG-0588, Rev. 1 or if calculated values are quantifiable margins.

6) See Subsections 5.1.3.1 and 5.1.3.2 of this report for detailed information.

7) Negative factors shall be applied if, by lowering the value of the service conditions, the severity of the test is increased.

8) If margins are not adequate, the report may be acceptable if justification can be made.

9) Other margins for unique items must be applied as called for in the applicable IEEE Standard.

5.1.3.1 Time Margin 1-hour test margin is normally included in the minimum test time requirement for the following two cases:

a. Where equipment needs to be operational to perform its safety function for a period of time less than 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months (i.e., within seconds or minutes), and, once its function is complete, subsequent failures are shown not to be detrimental to plant safety.

b. Where equipment is not required to function during a DBA but must not fail within a short period of time into the accident, and subsequent failures are also shown not to be detrimental to plant safety.

Time margins of less than 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months are typically included in the minimum required test time for equipment whose operability time is seconds or minutes and when severe overtesting may result by applying the 1-hour time margin.

The minimum required test time is the sum of the maximum operability time and the time margin. The maximum operability time comprises the time that the specific trip function is required for the full spectrum KEPCO & KHNP 19

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 of break sizes that establish the particular trip function needed and includes an additional quantity of time that accounts for calculational uncertainties. The maximum operability time is determined as follows.

Maximum operability times are obtained as a function of break area by evaluating each of the DBAs (e.g.,

steam line break and feedwater line break) for a full spectrum of break area. To provide reasonable assurance that these times are bounding, the initial conditions and trip setpoints that are used in these evaluations are chosen to maximize the time the equipment would be needed. For example, minimum initial containment pressure is coupled with the upper limit on the high containment pressure trip setpoint and maximum initial steam generator pressure is coupled with the lower limit on the low steam generator pressure trip setpoint. Protection system trips whose setpoints might not be reached for certain plant operating conditions will not be credited with limiting the bounding time to trip. Thus, for each DBA, this process yields a bounding time to trip as a function of break area for use in the qualification of protection system trips.

Margins are incorporated by adding a percentage increment to the bounding time to trip versus break area using the method identified in Section 6.3.1.6 of IEEE Std. 323.

5.1.3.2 Unusual Time Margin In an accident for which it is necessary to use time margin evaluation techniques, the following requirements shall be met.

a. Application of time margins less than 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months will be justified for each piece of equipment, including any judgments regarding the survivability limits of the equipment.

b. The maximum operability time will be justified with consideration for a spectrum of breaks and the potential need for the equipment later in an accident or during recovery operations.

c. Demonstration that failure of the equipment after performance of its safety function will neither mislead the operator to take an improper action nor be detrimental to plant safety.

d. The margin applied to the minimum operability time, when combined with the other test margins, will account for the uncertainties associated with the equipment design, production tolerances, and test equipment inaccuracies.

The minimum time margin is determined by multiplying the maximum operability time by a time margin factor. This factor is determined by considering the margins applied to all other test parameters, along with equipment manufacturing tolerances and test sample variations. The magnitude of the factor is modified by the amount of detailed empirical information available associated with manufacturing tolerances, test sample variation, and excess margin available from other parameters.

A quantitative test profile margin comparison may demonstrate equipment qualification by addressing an excessive margin requirement (e.g., temperature or pressure) as compared to an inadequate time margin requirement.

KEPCO & KHNP 20

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 5.1.4 Test Sequence Type tests are performed on the equipment in a specified sequence that shall be justified as the most severe for the equipment being tested. The same test samples will be exposed to the full testing sequence. For most equipment and applications, the following constitutes the most severe sequence:

a. Inspection is performed to provide reasonable assurance that a test item has not been damaged due to handling since manufacture and to determine basic dimensions.

b. The equipment is then operated under normal conditions to provide a functional database for comparison with performance under more highly stressed conditions. Certain measurements such as rate of change with time of a parameter may be made at this time.

c. The equipment is operated at the extremes of performance characteristics given the equipment specifications excluding DBA and post-DBA conditions unless these data are available from other tests on identical or essentially similar equipment.

d. Accelerated age conditioning is performed next (if required). Key measurements are made following the aging process and compared with the database of information gathered prior to aging. This comparison is performed to determine if the equipment is performing satisfactorily prior to subsequent testing and to verify the existence of potential age-related failure mechanisms. Section 5.4 provides additional discussion regarding the methods and procedures used in an accelerated age conditioning program.

e. Normal and abnormal environmental tests such as radiation exposure, thermal aging, electromechanical cycling, and vibration aging are performed next.

f. The equipment is subjected to simulated seismic vibration. Where it is determined that significant levels of external or internally induced vibration exist, qualification will be demonstrated based upon the methodology presented in Subsection 3.3.3.

g. The equipment is next operated while exposed to the simulated DBA test (radiation may be excluded if incorporated during the normal aging test above). Those safety functions that must be performed during the simulated DBA are continuously monitored.

h. The equipment is then operated while exposed to the simulated post-accident conditions (following exposure to accident conditions). Those safety functions that must be performed during this simulation are monitored. Submergence testing, if required, will be performed following DBA testing per the methodology of Subsection 3.3.8.

The temperature to which equipment is qualified when exposed to the simulated accident environment will be monitored and verified by thermocouple readings located as close as practical to the surface of the components being qualified.

Caustic spray will be incorporated during the simulated accident testing at the maximum pressure and the limiting temperature condition that would occur when the onsite spray systems actuate.

Equipment is inspected or disassembled to the extent necessary for the determination of the status and condition of the equipment, and the findings recorded.

Depending on equipment categorization (see Section 6.2) one of the following type test sequences will be used.

KEPCO & KHNP 21

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Equipment in category A and B:

a. Pre-test inspection

b. Performance testing (baseline testing)

c. Accelerated aging (thermal, operational cycles, radiation, vibration)

d. Performance testing

e. Seismic testing

f. Performance testing

g. DBA testing

h. Performance testing

i. Post-test inspection Notes

1) Radiation aging is to precede thermal aging if synergistic effects are not identified.

2) Radiation aging need not be done if it is shown that the required radiation level would not affect the equipment safety-related function.

3) Vibration aging may be included as part of seismic testing.

The following tests and monitoring are performed, as applicable, in addition to the sequence specified above.

1) Performance testing and/or monitoring of operability status during (e) and (g), to the extent practical

2) Submergence test following (g), if required Equipment in category C and D:

a. Pre-test inspection

b. Performance testing (baseline testing)

c. Aging

d. Performance testing

e. Normal and abnormal environmental testing

f. Performance testing KEPCO & KHNP 22

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4

g. Seismic testing

h. Performance testing

i. Post-test inspection Notes:

The following tests and monitoring are performed, as applicable, in addition to the sequence specified above.

1) Performance testing and/or monitoring of operability status during (e) and (g), to the extent practicable The test sequence for Class 1E pump motors will utilize a similar test sequence as outlined above. The aging analysis and accelerated age conditioning procedures will use the guidelines of IEEE Std. 334 (Reference 9.9) as appropriate. All thermal and radiation age conditioning will be performed on motorettes or formettes made of the same insulating material as the actual full-scale motor that is being qualified.

5.1.5 Type Test Report Type test data used to verify the qualification of the equipment will be organized in an auditable form. The type test report will be consistent with the requirements of IEEE Std. 323 and NUREG-0588.

Data for safety-related equipment will be compiled in reports prepared at the completion of the qualification program, and will be available for audit as described in Section 6.

5.1.6 Environmental Test Profiles The containment DBA environmental test profile for equipment that is required to perform a safety-related function during or after a DBA is shown in Figure 1 of this report. For environmental qualification test purposes, margin including additional peak transients, as required by Section 6.3.1.2 and 6.3.1.6 of IEEE Std. 323, shall be applied to the DBA temperature and pressure profiles. Equipment will be exercised or monitored for its safety function.

5.1.7 Acceptance Criteria Testing, or testing and analysis, will demonstrate that the equipment is qualified to perform its required safety function for all required service conditions with margin at the end of its qualified life.

Acceptance criteria are established prior to the start of type testing and included as part of the qualification test procedure document. The following is a list of typical acceptance criteria:

a. Test environments are at least as severe as, and representative of, the required environmental profile.

b. Operation of the equipment under normal environmental conditions to the extremes of performance and electrical characteristics is within the limits of accuracy required in the equipment specifications.

KEPCO & KHNP 23

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4

c. Equipment has been aged, as appropriate, and has been exposed to the expected end-of-life radiation dose if applicable prior to DBA testing.

d. Equipment has been subjected to seismic DBA testing.

e. Operation of the equipment in its safety-related functions, while exposed to the DBA environment, is within the limits of accuracy required in the equipment specifications.

f. Operation of the equipment in its safety-related functions, while exposed to the post-DBA environment, if applicable, is within the limits of accuracy required in the equipment specifications.

g. Post-test examination of the equipment reveals no conditions that might have interfered with the ability of the equipment to perform its safety-related functions.

h. Instrument accuracy requirements are established from the assumptions used in the particular safety analysis for which the equipment performs its safety function. These requirements are reflected in the equipment specifications, and where applicable, in the safety system setpoints.

The most conservative limits on time and accuracy requirements would be used for qualification.

However, it may be necessary to qualify several instruments to various levels based on the particular applications.

Equipment that is required to function for post-accident monitoring would be tested to the profile shown in Figure 1 of this report, since long-term cooling extends for at least the time period of the profile.

Documentation that the acceptance criteria were properly defined and successfully met will be recorded in the equipment-specific qualification documentation package and highlighted in the qualification data summary form.

5.1.8 Test Anomalies In the event that anomalies are observed during qualification testing that violate defined acceptance criteria, the following actions will be taken, as appropriate, prior to further qualification testing to provide reasonable assurance of complete and satisfactory resolution:

a. Verify operability status of monitoring and data acquisition equipment involved

b. Re-evaluate acceptance criteria requirements, if appropriate

c. Establish the type of failure (random or common mode)

d. Formal notification submittal to A/E describing and evaluating the failure

e. A/E's review and approval of recommended corrective action for continuing qualification 5.1.8.1 Random Failures If it is determined that the failure was random, appropriate corrective action will be taken to eliminate the problem.

KEPCO & KHNP 24

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Replacement parts may be used to replace those that have failed. All replacement parts used will have undergone the same accelerated age conditioning and qualification testing as did the original failed part prior to continuation of the qualification program. All corrective actions taken will be documented and fully justified.

5.1.8.2 Common-Mode Failures If it is determined that the failure was common mode, appropriate corrective action will be taken to eliminate the problem. Possible corrective action may include equipment/component redesign, part replacement, equipment relocation, additional analysis, or any combination thereof. Part replacement or redesign will be in accordance with the pre-conditioning requirements of random failures. Upon discovery of such a failure, the A/E will be notified prior to taking corrective action. All corrective actions taken will be documented and fully justified.

5.2 Analysis As stated in Section 5.1, type testing is the preferred method of qualification and will be employed to the extent practical. If analysis is chosen as the primary method for qualification, partial type test data will be provided to support the analytical assumptions and conclusions reached.

The analytical methods used for calculating and establishing pressure and temperature envelopes and radiation levels to which equipment is to be qualified will be compliant with the methods defined in NUREG-0588.

5.2.1 Analyses Based on Partial Type Test Data and Equipment-Specific Qualification Requirements If analysis is chosen as the primary method for qualification, partial type test data will be provided to adequately demonstrate functional operability. An example demonstrating this approach is as follows:

If analysis is being used to demonstrate submergence capabilities for a particular piece of equipment, type test data on a similar unit may be employed as evidence used to demonstrate qualification for the equipment in question. A structural and functional similarity evaluation between the equipment being qualified and the similar unit will be performed to adequately demonstrate the applicability of the partial type test data.

Equipment-specific analyses may be used to justify elimination of submergence qualification if it can be shown that:

a. The equipment safety function is completed prior to submergence.

b. Adequate operability time margin is incorporated.

c. Subsequent failure will not degrade other equipment.

Where type testing is the preferred method of qualification, analysis may be used to support and justify the qualification test sequence and/or test makeup. An example demonstrating this approach is as follows:

Low-level radiation qualification testing (to levels below 100 Gy or to level below 10 Gy for electronic components such as semiconductors or electronic components containing organic material) may be KEPCO & KHNP 25

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 deleted from the qualification type test sequence if it can be demonstrated via a radiation susceptibility analysis that low-level radiation does not impact the equipment's ability to perform its required safety function.

5.2.2 Failure Modes and Effects Analysis A single failure analysis on the containment spray system per Section 1.3 of NUREG-0588 will be performed to determine the resulting most severe chemical composition of the caustic spray. The results of this analysis will be incorporated into the qualification program. Where qualification has been completed using chemical spray composition parameters less severe than as those required by NUREG-0588, an analysis may be performed, in lieu of retesting, to demonstrate that the new, more severe chemical composition has no adverse impact on the equipments ability to perform its safety function.

Justification for analysis in lieu of retesting will be provided.

Some components of safety-related equipment do not perform a safety-related function but, due to a particular hardware configuration, must be classified as safety related.

For this type of component, an FMEA will be performed that demonstrates by analysis that failure of that component, for a defined set of worst-case failure modes, does not have a degrading impact on other interfacing safety-related components.

An evaluation will also be performed defining whether or not test circuitry should be classified as safety-related components. Test circuitry will be classified as safety-related if it could fail in a manner that results in perturbations exceeding defined acceptance criteria.

5.3 Operating Experience Performance data from equipment of similar design that has successfully operated under known service conditions may be used in qualifying other equipment to equal or less severe conditions. Applicability of these data depends on the adequacy of documentation establishing past service conditions, equipment performance, and similarity to the equipment to be qualified and upon which operating experience exists.

A demonstration of required operability during applicable DBA(s) shall be included in equipment qualification programs based on operating experience, when DBA qualification is required.

5.4 Aging As stated in Subsection 3.2.1, the aging portion of the qualification program is defined based upon whether or not equipment is located in a harsh or a mild environment. Equipment located in a harsh environment will undergo an aging analysis and an accelerated age conditioning program. Equipment located in a mild environment will undergo an aging analysis that focuses on the identification of known aging mechanisms that significantly increase the equipment susceptibility to its DBA (seismic only for mild environments). If no known significant aging mechanisms are found, a surveillance/preventive maintenance (S/PM) program will be developed to monitor for degradation trends that suggest increasing seismic susceptibility. If an aging mechanism is found that is known to significantly increase the equipments seismic susceptibility with time, then that mechanism will be analyzed to determine whether an accelerated aging program or a periodic part replacement program is appropriate.

The following subsections describe in detail the methods and documentation requirements associated with the development of an aging analysis and the resulting age conditioning program, periodic replacement program and/or the S/PM, as appropriate, to demonstrate qualification of the respective equipment or component.

KEPCO & KHNP 26

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 5.4.1 Aging Analysis and Conditioning For equipment located in a harsh environment, the following discussion defines the methodology for the development of an aging analysis and an accelerated age conditioning program.

This section may also be applicable for equipment and/or components located in mild environments where it has been determined that known significant aging mechanisms exist and where accelerated age conditioning is appropriate.

The following is a listing of the major efforts that are required in the performance of an aging analysis:

a. Preparation of a complete bill of material consisting of all components, subassemblies, or assemblies (as required) of the equipment

b. Identification of those components performing a safety-related function

c. Analysis of those components identified in item b above for age-related failure modes and mechanisms

d. Development of an accelerated age conditioning procedure that, when implemented, will result in the equipment being aged to a projected end-of-life condition Thermal, radiation, low-level vibration, cyclic operation, electromechanical, and synergistic aging effects will be considered.

Component/Failure Matrix For each component identified as performing a safety-related function, corresponding information, as identified in Subsection 3.2.1, will be defined in an aging analysis.

An evaluation of this information will be performed to define dominant age-related failure modes and mechanisms. An accelerated age conditioning procedure or a periodic part replacement program will be prepared based on this evaluation.

Qualified Life Estimation A goal of the qualification program is to demonstrate that the equipment has a designated qualified life.

If a designated qualified life is not obtainable due to material or schedule constraints, then the age analysis will establish various age conditioning procedures that define the efforts and parameters necessary to age the equipment. The selection of the lesser qualified lifetimes is partially a function of the analysis and the physical properties of the equipment. A review will next be made to select one procedure to be implemented.

If qualification is to be based on periodic replacement of a life-limiting component(s), that component(s) will specifically be identified and a periodic replacement program defined as part of the aging analysis, and included in the appropriate interface criteria.

Thermal Aging Arrhenius methodology will be used to address accelerated thermal aging, where appropriate; however, if other methods are used, justification will be provided.

KEPCO & KHNP 27

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Electromechanical Cyclic Aging Electromechanical cyclic aging will be applied prior to qualification testing for the expected number of cycles plus margin under rated load.

The "cycle" and number of cycles plus margin will be defined and justified.

The cycle rate will be defined and will not result in excessive component heating beyond the manufacturer's suggested limits.

Cycling will be performed while under electrical load if so required by the aging analysis. Both current and voltage loading parameters will be specified.

The method for cycling components (e.g., electrical or mechanical actuation) will be defined.

An explicit definition of the term "cycle," as related to electromechanical cyclic operation, will be provided.

Components undergoing cycling will be mounted in a manner that simulates or is conservative with respect to actual inservice mounting.

Electromechanical components being tested will not be cleaned, calibrated, or adjusted during or after the cycling unless this action is part of the component's normal maintenance procedure and schedule.

Normal maintenance procedures and schedules will be identified and included as part of the aging analysis and included in the respective interface criteria.

Acceptance criteria will be defined to establish the bases for acceptable operation for the specified number of cycles and loading.

Test measurement procedures will be defined. Test measurements will be taken and documented before, during, and after cyclic aging.

Power On and Off Cycling The number of power on and off cycles anticipated to occur plus margin will be defined and applied, where significant. Power on and off cycling will be considered significant when the number of cycles is large or where there are significant stresses associated with power on and off cycling. The number of power on and off cycles to be used during age conditioning will be justified.

Radiation Aging Radiation information and profiles used as input data to the radiation aging analysis will be in accordance with the typical radiation types, levels, and rates and in accordance with equipment-specific requirements.

All component radiation susceptibility analyses will be supported by test data.

Electrical Energization The effects of electrical energization during the accelerated age conditioning process will be addressed as part of the aging analysis. Electrical energization will only be applied if this analysis indicates that inclusion of this effect, during the accelerated aging process, will have a significant effect on material degradation.

KEPCO & KHNP 28

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Synergistic Effects Major industry-recognized age-related synergistic effects will be addressed in the aging analysis.

Aging Sequence The determination and justification of the accelerated age conditioning sequence will be defined in the aging analysis.

Aging Rate The basis for all thermal, radiation, electromechanical, and operational accelerated aging rates will be defined and justified in the aging analysis.

Equipment Storage Requirements Equipment qualification-related storage requirements will be identified within the qualification documentation. These requirements will be based on known significant storage-related aging mechanisms.

Documentation The results of the aging analysis will be documented and summarized in an aging analysis report. This report will contain all appropriate information used as listed in Section 6.

Accelerated Age Conditioning The results of the accelerated age conditioning will be presented in an age conditioning report. The accelerated age conditioning report will identify and analyze all equipment failures occurring during the accelerated age conditioning process to determine whether the failure was random or common mode.

5.4.2 Periodic Replacement As described in Section 5.4, equipment located in mild environments will either undergo an accelerated age conditioning program, periodic part replacement program, surveillance/preventive maintenance program, or any combination thereof. For such equipment, the conclusions of the aging analysis will state the recommended approach.

The aging analysis associated with mild environments will be based on the same type of input data and methodology used for harsh environment equipment. It is the correlation of these data with known significant aging mechanisms and with in-plant equipment accessibility that may result in recommendations stressing periodic part replacement. Where periodic replacement is recommended for specific components, these components will be clearly identified in the age analysis and a replacement program defined and justified.

KEPCO & KHNP 29

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 5.4.3 Surveillance/Preventative Maintenance For mild environment equipment, if it is determined that no known aging mechanisms exist that significantly increase the equipment's susceptibility to its DBA (seismic only for mild equipment), then an S/PM program will be developed.

The purpose of the S/PM program, which includes scheduled periodic surveillance testing under normal service conditions, is to monitor for degradation trends that suggest increasing susceptibility to a possible common-mode failure due to a seismic event. The basis for the S/PM program is that for equipment located in environments that are unchanged during DBAs, having adequate capability for periodic testing and maintenance, and where no known significant age-related failure mechanisms exist, then advanced age conditioning prior to qualification type testing may not be required if justified. For equipment located in harsh environments, an S/PM program may be established, as appropriate, to provide actual inservice trending data to support the qualified life established during qualification type testing.

This program will include guidelines and schedules for calibration and preventative maintenance. The requirements for the calibration and preventative maintenance will be based upon the plant's normal inservice inspection tests and maintenance program.

The preventative maintenance will include, as appropriate:

a. Visual inspection

b. Mechanical inspection

c. Electrical testing

d. Periodic tests

e. Failure trending

f. Incipient failure detection It is anticipated that most of these tests are already included in Technical Specifications requirements.

Data maintenance and storage in a central file, and evaluation activities such as the S/PM program, are the responsibility of the utility.

Because of its location, access to equipment in the containment building may be limited for surveillance/

preventive maintenance or periodic calibration.

5.5 Conservatism of Qualification Parameters The levels of environmental qualification required are specified in Table 3 of this report. Accident conditions of these requirements are established based on the methods recommended by NRC RG 1.89 and NUREG-0588. Margins utilized per Section 6.3.1.6 of IEEE Std 323, Section 3 of NUREG-0588, and as described in Subsection 5.1.3 will be documented in the appropriate qualification document.

Comparison of the qualification requirements to the environmental test parameters will demonstrate conservatism of the parameters. Margin identification and verification will be performed.

KEPCO & KHNP 30

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 5.6 Qualification of Safety-Related Active Mechanical Equipment Environmental qualification of mechanical equipment conforms with GDCs 1and 4, and 10 CFR Part 50, Appendix B, Criteria III and XVII which requires:

a) Components shall be designed to be compatible with the postulated environmental conditions including those associated with LOCAs.

b) Qualification records shall be maintained and shall include the results of tests and material analyses.

c) Design control measures shall be established for verifying the adequacy of design.

Mechanical equipment is principally divided into active and non-active (passive) mechanical equipment.

Environmental qualification of mechanical equipment is focused on the materials that are sensitive to environmental effects (e.g., seals, gaskets, lubricants, fluids for hydraulic systems, and diaphramgms) and is limited to active mechanical equipment located in harsh environment which has mechanical moving parts to perform its safety-related function. The qualification effort requires the evaluation of all safety-related nonmetallic parts against the applicable environmental conditions.

Non-active mechanical equipment(passive mechanical equipment), whose safety function is structural integrity is designed and qualified for the appropriate temperature and pressure environment in accordance with the applicable code to which it is constructed such as ASME and Pressure Vessel Codes.

The followings shall be confirmed in implementing the environmental qualification of active mechanical equipment:

a) To identify safety-related mechanical equipment located in harsh environment areas, including its required operating time.

b) To identify nonmetallic subcomponents of such equipment.

c) To identify the environmental conditions and process parameters for which this equipment must be qualifited.

d) To identify nonmetallic material capabilities.

e) To evaluate environmental effects.

For this equipment, the service requirements and the environmental requirements are defined in the APR1400 design specification for this equipment.

The safety-related active mechanical equipment that contains non-metallic parts is also environmentally qualified in accordance with ASME Standard QME-1-2007 Qualification of Active Mechanical Equipment.

QR-B, Guide for Qualification of Nom-Metallic Parts.(Reference 9.31), as endorsed by RG 1.100, Revision 3, and is listed in Table 2 as specified by RG 1.206, Section C.I.3.11.6.

KEPCO & KHNP 31

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 6 DOCUMENTATION This section describes qualification documentation. Qualification documentation will verify that the equipment is qualified for its application and meets its specified performance requirements. Equipment-specific documentation is described below.

6.1 Equipment-Specific Qualification Documentation In order to demonstrate that the equipment qualification program has adequately addressed all pertinent qualification requirements, the following equipment-specific qualification reports will be developed, as appropriate. The documentation will be organized in an auditable form and in accordance with the guidelines set forth in Sections 6.0 and 7.0 of IEEE Std. 323, and in Section 5.0 and Appendix E of NUREG-0588.

6.1.1 Aging Analysis Report The aging analysis report, as described in Section 5.4, will contain the following types of information:

a. Identification of the equipment qualified

b. Equipment specification

c. Qualification program

d. Identification of any scheduled surveillance/maintenance, periodic testing, and any parts replacement required to maintain qualification

e. The specific safety function(s), postulated failure mode, or the failure effects to be demonstrated by analysis

f. Description of analytical methods, computer program or mathematical model used, and the method of verification

g. Assumptions and empirically derived values used, with appropriate justification

h. Summary of analytically established performance characteristics and their acceptability

i. Conclusions, including limitations or qualified life or periodic surveillance/maintenance interval determination

j. Approval signature and date 6.1.2 Qualification Plan The qualification plan outlines the necessary testing and documentation activities required to demonstrate qualification. The qualification plan will incorporate the results obtained in the aging analysis and any previous qualification testing into the overall qualification plan. The following information will be included in the plan:

a. Scope of responsibility KEPCO & KHNP 32

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4

b. Overview and objective

c. Equipment description

d. Test sequence and makeup (overview)

e. Seismic and environmental test parameters

f. Acceptance criteria (overview)

g. Documentation submittal requirements

h. Approval signature and date 6.1.3 Age Conditioning Report The results of the accelerated age conditioning process will be presented in an age conditioning report either as a separate document or as part of the final qualification test report. The purpose of this report is to identify and analyze all equipment failures occurring during the accelerated age conditioning process to determine whether the failure(s) were random or common mode. Approval signature and date will be obtained.

6.1.4 Qualification Test Procedure Detailed qualification test procedures and associated acceptance criteria will be defined prior to actual qualification testing. The following types of procedural information will be addressed, as appropriate:

a. Overview and objective

b. Equipment description

c. Detailed test sequence

d. Monitoring and operability check procedures

e. Baseline performance test procedures

f. Environmental and seismic test profile definition and procedures

g. Margin verification

h. Detailed test setup schematics and/or description

i. Required test instrumentation and equipment

j. Detailed acceptance criteria

k. Equipment mounting and cable connection schematics and/or description

l. Approval signature and date KEPCO & KHNP 33

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 6.1.5 Qualification Test Report Upon completion of qualification testing, an equipment-specific test report will be prepared summarizing the test results, conclusions, and recommendations. The following types of information will be addressed and included, as appropriate:

a. Identification of the equipment qualified

b. Equipment specification

c. Qualification program

d. Identification of any scheduled surveillance/maintenance, periodic testing, and any parts replacement required to maintain qualification

e. Identification of safety function(s) to be demonstrated by test data

f. Test plan

g. The report of test results shall include:

1) Test objective

2) Detailed description of test sample

3) Description of test setup, instrumentation and calibration data

4) Test procedure

5) Summary of test data, accuracy, and anomalies

6) The result of a qualification program to demonstrate that the equipment remains functional during and following a DBE as applicable.

h. Summary and conclusions, including limitations and qualified life or periodic surveillance/

maintenance interval determination

i. Approval signature and date 6.1.6 Operating Experience Data

a. Identification of equipment qualified

b. Equipment specification

c. Qualification program

d. Identification of any scheduled surveillance/maintenance, periodic testing, and any parts replacement required to maintain qualification

e. Identification of the safety function(s) to be demonstrated by operating experience KEPCO & KHNP 34

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4

f. Specification of the equipment for which operating experience is available

g. Comparison of specifications and functions of equipment with operating experience and new equipment to be qualified

h. Summary of operating experience data, including service conditions, maintenance records, and operating history.

i. Conclusions, including limitations and qualified life or periodic surveillance/maintenance interval determination

j. Approval signature and date 6.1.7 Equipment for Mild Environment

a. Identification of the equipment qualified

b. Equipment specification

c. Identification of any scheduled surveillance/maintenance, periodic testing, and any parts replacement required to maintain qualification

d. Identification of the equipment's safety function(s)

e. Certificate of compliance that the equipment supplied meets the requirements of the equipment specification with approval signature and date 6.2 Equipment Categorization Per the requirements of Appendix E of NUREG-0588, the equipment is grouped into one of the following categories based on its functional requirements and location:

Category Definition

a. Equipment exposed to the harsh environments of DBAs that must function to mitigate or monitor those accidents

b. Equipment exposed to the harsh environments of DBAs that need not function for mitigation of said accidents but must not fail in a manner detrimental to plant safety during those accidents

c. Equipment exposed to the harsh environments of DBAs that need not function during those accidents and whose failure (in any mode) is deemed not detrimental to plant safety

d. Equipment not exposed to the harsh environments of DBAs 6.3 Qualification Data Summary and Evaluation In addition to the information identified in Appendix E of NUREG-0588, the following information will be provided, as required:

KEPCO & KHNP 35

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4

a. Discussion of how equipment qualification review was performed including consideration of quality assurance

b. How the accident environmental profiles were developed

c. How safety-related equipment required for accident mitigation and safe shutdown of the plant was identified 6.4 Supporting Documentation All supporting raw test data and analyses generated during equipment qualification for the appropriate equipment-specific qualification document will be attached or the location provided.

All other publications (e.g., reports, books, and standards) used to support the qualification program will be appropriately referenced to allow data traceability.

KEPCO & KHNP 36

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 7 QUALITY ASSURANCE Equipment qualification per this report will be in accordance with the following:

a. All Supplier and/or test labs directly used by A/E and/or KHNP for performing safety-related qualification services will be formally reviewed for their quality assurance practices. Results of this review will be maintained.

b. For qualification tests, A/E and/or KHNP quality control surveillance practices will be applied.

c. A/E standard hardware procurement practices will be applied when procuring test samples.

d. Test procedures and analyses will be prepared to ensure repeatability of the qualification test program.

e. Qualification documentation will be reviewed in accordance with standard A/E review practices and quality assurance requirements.

KEPCO & KHNP 37

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 8 ADMINISTRATIVE PROCEDURES 8.1 Equipment Specification Performance requirements are set forth in equipment specifications that are generally prepared by the A/E. The requirements include nominal maximum and minimum values of performance parameters, and environmental conditions for normal and DBA operation. The applicable standards for qualification are referenced by the specification. The specification is included in the engineering package that is sent to prospective Suppliers for bidding.

8.2 Supplier Design and Qualification Program After the contract has been awarded, the Supplier submits his design and qualification program to the A/E for approval. The design is reviewed to ensure the equipment is capable of meeting performance and environmental requirements. The qualification program is reviewed for compliance with the requirements of the equipment specification and the referenced standards. In most cases, the qualification program is written by the qualification facility that has been retained by the Supplier.

8.3 Qualification Task Although the task of qualification is normally performed by the Supplier, the A/E follows the progress of the qualification effort and, in conjunction with the Supplier, interfaces with the qualification facility to provide reasonable assurance that the equipment will be subjected to the proper qualification environment. The Supplier is responsible for ensuring that the electrical and operational performance of the equipment meets the acceptance criteria. For the more complex tests, the A/E and KHNP may have witnesses present during testing.

8.4 Qualification Documentation and Submittals Throughout the qualification program, various defined documentation products (see Section 6) are generated. The A/E will review and approve all documentation products to provide reasonable assurance of proper program definition and control.

The aging analysis report is prepared first, defining all age conditioning results and procedures and part replacement recommendations, as appropriate. Next, the qualification plan is submitted, outlining the overall program and informing the Supplier and test lab of services to be prepared, if required. In parallel with age conditioning, detailed qualification test procedures and acceptance criteria are developed. After completion of age conditioning and test procedure development, actual qualification testing is performed.

Upon completion of qualification testing, a test report will be prepared and submitted to the A/E for approval. When the report is approved, it is maintained by the A/E as a qualification report that contains sufficient information to allow QA traceability and repeatability. Qualification documentation will be available for audit.

KEPCO & KHNP 38

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 9 REFERENCES All codes and standards shall be the edition in effect as of December 31, 2010 unless identified otherwise.

1 NUREG-0588, "Interim Staff Position on Environmental Qualification of Safety-Related Electrical Equipment," Rev. 1, U.S Nuclear Regulatory Commission, November 1980.

2 NUREG-0800, Standard Review Plan, Section 3.11, "Environmental Qualification of Mechanical and Electrical Equipment." Rev. 3, U.S Nuclear Regulatory Commission, March 2007.

3 10 CFR 50.49, "Environmental Qualification of Electrical Equipment Important to Safety for Nuclear Power Plants" U.S Nuclear Regulatory Commission.

4 IEEE Std 98-2002, "IEEE Standard for the Preparation of Test Procedures for the Thermal Evaluation of Solid Electrical Insulating Materials," Institute of Electrical and Electronics Engineers, 2002.

5 IEEE Std 99-2007, "IEEE Recommended Practice for the Preparation of Test Procedures for the Thermal Evaluation of Insulation Systems for Electric Equipment," Institute of Electrical and Electronics Engineers, 2007.

6 IEEE Std 101-1987, "IEEE Guide for the Statistical Analysis of Thermal Life Test Data," Institute of Electrical and Electronics Engineers, 1987.

7 IEEE Std 317-1983(R2003), "IEEE Standard for Electric Penetration Assemblies in Containment Structures for Nuclear Power Generating Stations," Institute of Electrical and Electronics Engineers,1983.

8 IEEE Std 323-2003, "IEEE Standard for Qualifying Class 1E Equipment for Nuclear Power Generating Stations," Institute of Electrical and Electronics Engineers, 2003.

9 IEEE Std 334-2006, "IEEE Standard for Qualifying Continuous Duty Class 1E Motors for Nuclear Power Generating Stations," Institute of Electrical and Electronics Engineers, 1983.

10 IEEE Std 344-2004, "IEEE Recommended Practice for Seismic Qualification of Class 1E Equipment for Nuclear Power Generating Stations," Institute of Electrical and Electronics Engineers, 2004.

11 IEEE Std 382-2006, "IEEE Standard Qualification of Actuators for Power-Operated Valve Assemblies with Safety-Related Functions for Nuclear Power Plants," Institute of Electrical and Electronics Engineers, 2006.

12 IEEE Std 383-2003, "IEEE Standard for Qualifying Class 1E Electric Cables and Field Splices for Nuclear Power Generating Stations," Institute of Electrical and Electronics Engineers, 2003.

KEPCO & KHNP 39

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 13 IEEE Std 420-2001, "IEEE Standard for Design and Qualification of Class 1E Control Boards, Panels, and Racks Used in Nuclear Power Generating Stations," Institute of Electrical and Electronics Engineers, 2001.

14 IEEE Std 535-1986 (R1994), "IEEE Standard for Qualification of Class 1E Lead Storage Batteries for Nuclear Power Generating Stations," Institute of Electrical and Electronics Engineers, 1986.

15 IEEE Std 572-2006, "IEEE Standard for Qualification of Class 1E Connection Assemblies for Nuclear Power Generating Stations," Institute of Electrical and Electronics Engineers, 2006.

16 IEEE Std 603-2009, "IEEE Standard Criteria for Safety Systems for Nuclear Power Generating Stations," Institute of Electrical and Electronics Engineers, 2009.

17 IEEE Std 649-2006, "IEEE Standard for Qualifying Class 1E Motor Control Centers for Nuclear Power Generating Stations," Institute of Electrical and Electronics Engineers, 2006.

18 IEEE Std 627-2010, "IEEE Standard for Qualification of Equipment used in Nuclear Facilities,"

Institute of Electrical and Electronics Engineers, 2010.

19 IEEE Std 650-2006, "IEEE Standard for Qualification of Class 1E Static Battery Chargers and Inverters for Nuclear Power Generating Stations," Institute of Electrical and Electronics Engineers, 2006.

20 Regulatory Guide 1.63, "Electric Penetration Assemblies in Containment Structures for Nuclear Power Plants, U.S. Nuclear Regulatory Commission, February 1987.

21 Regulatory Guide 1.73, "Qualification Tests of Electric Valve Operators Installed Inside the Containment of Nuclear Power Plants, Rev.1, U.S. Nuclear Regulatory Commission, October 2013.

22 Regulatory Guide 1.89, "Environmental Qualification of Certain Electric Equipment Important to Safety for Nuclear Power Plants, Rev. 1, U.S. Nuclear Regulatory Commission, June 1984 23 Regulatory Guide 1.97, "Criteria for Accident Monitoring Instrumentation for Nuclear Power Plants, Rev. 4, U.S. Nuclear Regulatory Commission, June 2006.

24 Regulatory Guide 1.100, "Seismic Qualification of Electrical and Active Mechanical Equipment and Functional Qualification of Active Mechanical Equipment for Nuclear Power Plants, Rev. 3, U.S. Nuclear Regulatory Commission, September 2009.

25 Regulatory Guide 1.156, Qualification of Connection Assemblies for Nuclear Power Plants, Rev.

1, U.S. Nuclear Regulatory Commission, July 2011.

26 Regulatory Guide 1.158, Qualification of Safety-Related Lead Storage Batteries for Nuclear Power Plants, U.S. Nuclear Regulatory Commission, February 1989.

KEPCO & KHNP 40

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 27 Regulatory Guide 1.211, Qualification of Safety-Related Cables and Field Splices for Nuclear Power Plants, U.S. Nuclear Regulatory Commission, April 2009.

28 Bulletin 79-01B "Environmental Qualification of Class1E Equipment, U.S. Nuclear Regulatory Commission, January 1980.

29 EPRI NP-1588, "Research Project 890-1, Final Report, "A Review of Equipment Aging Theory and Technology," Electric Power Research Institute, September 1980.

30 ASME Boiler and Pressure Vessel Code, The American Society of Mechanical Engineers.

31 ASME QME-1-2007 Qualification of Active Mechanical Equipment Used in Nuclear Power Plants, The American Society of Mechanical Engineers, 2007.

KEPCO & KHNP 41

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 1 Ventilation Area Area Temperature Alarm Area Safety-Related in Control Room Control Room Area

1. Control Room and Adjacent Offices Yes Yes

2. Computer Room No Yes Auxiliary Building Clean Area

1. Turbine-Driven AFWP Room No Yes

2. Motor-Driven AFWP Room Yes Yes

3. Essential Chiller and Pump Yes Yes Auxiliary Building Controlled Area

1. SC Heat Exchanger Room Yes Yes

2. SI Pump Room Yes Yes

3. CS Pump Room Yes Yes

4. CS Heat Exchanger Room Yes Yes

5. Penetration Room Yes Yes

6. CCW Pump Room Yes Yes Electrical Equipment Room

1. Vital Instrument & Equipment Yes Yes

2. Class 1E Switchgear Room Yes Yes

3. Class 1E Battery Room Yes Yes

4. Remote Shutdown Console Room Yes Yes Fuel Handling Area

1. Spent Fuel Pool Heat Exchanger Room and Pump Room Yes Yes

2. Emergency ACU Room Yes Yes Emergency Diesel Generator Area Yes Yes Containment Building No Yes KEPCO & KHNP 42

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (1 of 51)

Equipment Qualification Equipment List Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

Auxiliary Feedwater System AFW-PP01A Turbine Driven Aux. Feedwater Pumps ESF AB 078-A15C Continuous Harsh Mild Mechanical EQ No I (3) SR AFW-PP01B Turbine Driven Aux. Feedwater Pumps ESF AB 078-A15D Continuous Harsh Mild Mechanical EQ No I (3) SR AFW-PP02A Motor Driven Aux. Feedwater Pumps ESF AB 078-A20A Continuous Harsh Mild Mechanical EQ No I (3) SR AFW-PP02B Motor Driven Aux. Feedwater Pumps ESF AB 078-A20B Continuous Harsh Mild Mechanical EQ No I (3) SR AFW-V0035 Globe Valve and Actuator, AFW Modulating ESF AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR AFW-V0036 Globe Valve and Actuator, AFW Modulating ESF AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR AFW-V0037 Globe Valve and Actuator, AFW Modulating ESF AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR AFW-V0038 Globe Valve and Actuator, AFW Modulating ESF AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR AFW-V0043 Gate Valve and Actuator, AFW Isolation, CIV ESF AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR AFW-V0044 Gate Valve and Actuator, AFW Isolation, CIV ESF AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR AFW-V0045 Gate Valve and Actuator, AFW Isolation, CIV ESF AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR AFW-V0046 Gate Valve and Actuator, AFW Isolation, CIV ESF AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR Auxiliary Feedwater Pump Turbine System Globe Valve and Actuator, AFW Pump Turbine Steam Line AT-V0007 ESF AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR Drain Globe Valve and Actuator, AFW Pump Turbine Steam Line AT-V0008 ESF AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR Drain Globe Valve and Actuator, AFW Pump Turbine Steam Line AT-V0009 ESF AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR Isolation Globe Valve and Actuator, AFW Pump Turbine Steam Line AT-V0010 ESF AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR Isolation AT-LP01C AF Pump Turbine Control Panel (12) ESF AB 078-A15C Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

Electrical EQ O AT-LP01D AF Pump Turbine Control Panel (12) ESF AB 078-A15D Continuous Mild Mild No I (3) SR (EMC)

Auxiliary Feedwater Storage and Transfer Electrical EQ AX-LI003A Field Indicator Device, AFWST 1 (12) ESF AB 100-A07C Continuous Mild Mild (EMC)

No I (3) SR O Electrical EQ AX-LI004B Field Indicator Device, AFWST 2 (12) ESF AB 100-A07D Continuous Mild Mild (EMC)

No I (3) SR O Electrical EQ AX-LI005A Field Indicator Device, AFWST 2 (12) ESF AB 100-A07D Continuous Mild Mild (EMC)

No I (3) SR O Electrical EQ AX-LI005C Field Indicator Device, AFWST 2 (12) ESF AB 100-A07D Continuous Mild Mild (EMC)

No I (3) SR O Electrical EQ AX-LI005D Field Indicator Device, AFWST 2 (12) ESF AB 100-A07D Continuous Mild Mild (EMC)

No I (3) SR O KEPCO & KHNP 43

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (2 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

Electrical EQ AX-LI006B Field Indicator Device, AFWST 1 (12) ESF AB 100-A07C Continuous Mild Mild (EMC)

No I (3) SR O Electrical EQ AX-LI006C Field Indicator Device, AFWST 1 (12) ESF AB 100-A07C Continuous Mild Mild (EMC)

No I (3) SR O Electrical EQ AX-LI006D Field Indicator Device, AFWST 1 (12) ESF AB 100-A07C Continuous Mild Mild (EMC)

No I (3) SR O Component Cooling Water System CC-PP03A Component Cooling Water Make-up Pumps ESF AB 078-A29C Varies Mild Mild Mechanical EQ No I (3) SR O CC-PP03B Component Cooling Water Make-up Pumps ESF AB 078-A29D Varies Mild Mild Mechanical EQ No I (3) SR O CC-PP01A Component Cooling Water Pumps ESF AB 055-A02A Continuous Mild Mild Mechanical EQ No I (3) SR O CC-PP01B Component Cooling Water Pumps ESF AB 055-A02B Continuous Mild Mild Mechanical EQ No I (3) SR O CC-PP02A Component Cooling Water Pumps ESF AB 055-A02C Continuous Mild Mild Mechanical EQ No I (3) SR O CC-PP02B Component Cooling Water Pumps ESF AB 055-A02D Continuous Mild Mild Mechanical EQ No I (3) SR O CC-V0011 CCW Surge Tank01A Makeup Isolation ESF AB COL 3.11(7) Varies Mild Mild Mechanical EQ No I (3) SR O CC-V0012 CCW Surge Tank01B Makeup Isolation ESF AB COL 3.11(7) Varies Mild Mild Mechanical EQ No I (3) SR O CC-V0021 CCW Heat Exchanger HE01A Outlet ESF CCWHXB COL 3.11(7) Intermittent Mild Mild Mechanical EQ No I (3) SR O CC-V0022 CCW Heat Exchanger HE01B Outlet ESF CCWHXB COL 3.11(7) Intermittent Mild Mild Mechanical EQ No I (3) SR O CC-V0023 CCW Heat Exchanger HE02A Outlet ESF CCWHXB COL 3.11(7) Intermittent Mild Mild Mechanical EQ No I (3) SR O CC-V0024 CCW Heat Exchanger HE02B Outlet ESF CCWHXB COL 3.11(7) Intermittent Mild Mild Mechanical EQ No I (3) SR O CC-V0025 CCW Heat Exchanger HE03A Outlet ESF CCWHXB COL 3.11(7) Intermittent Mild Mild Mechanical EQ No I (3) SR O CC-V0026 CCW Heat Exchanger HE03B Outlet ESF CCWHXB COL 3.11(7) Intermittent Mild Mild Mechanical EQ No I (3) SR O CC-V0027 CCW Heat Exchanger Bypass Isolation ESF CCWHXB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR O CC-V0028 CCW Heat Exchanger Bypass Isolation ESF CCWHXB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR O CC-V0031 CCW Heat Exchanger HE01A Outlet ESF CCWHXB COL 3.11(7) Intermittent Mild Mild Mechanical EQ No I (3) SR O CC-V0032 CCW Heat Exchanger HE01B Outlet ESF CCWHXB COL 3.11(7) Intermittent Mild Mild Mechanical EQ No I (3) SR O CC-V0033 CCW Heat Exchanger HE02A Outlet ESF CCWHXB COL 3.11(7) Intermittent Mild Mild Mechanical EQ No I (3) SR O CC-V0034 CCW Heat Exchanger HE02B Outlet ESF CCWHXB COL 3.11(7) Intermittent Mild Mild Mechanical EQ No I (3) SR O CC-V0035 CCW Heat Exchanger HE03A Outlet ESF CCWHXB COL 3.11(7) Intermittent Mild Mild Mechanical EQ No I (3) SR O CC-V0036 CCW Heat Exchanger HE03B Outlet ESF CCWHXB COL 3.11(7) Intermittent Mild Mild Mechanical EQ No I (3) SR O CC-V0037 CCW Heat Exchanger Bypass Isolation ESF CCWHXB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR O CC-V0038 CCW Heat Exchanger Bypass Isolation ESF CCWHXB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR O CC-V0097 Containment Spray Heat Exchanger 01A Inlet Isolation ESF AB COL 3.11(7) Intermittent Harsh Harsh Mechanical EQ No I (3) SR O CC-V0098 Containment Spray Heat Exchanger 01B Inlet Isolation ESF AB COL 3.11(7) Intermittent Harsh Harsh Mechanical EQ No I (3) SR O KEPCO & KHNP 44

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (3 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

CC-V0131 Essential Chiller Condenser 2B Outlet Isolation ESF AB COL 3.11(7) Intermittent Mild Mild Mechanical EQ No I (3) SR O CC-V0132 Essential Chiller Condenser 2A Outlet Isolation ESF AB COL 3.11(7) Intermittent Mild Mild Mechanical EQ No I (3) SR O CC-V0143 Train A Non-Safety Load Supply Isolation ESF AB COL 3.11(7) Short-Term Harsh Harsh Mechanical EQ No I (3) SR O CC-V0144 Train B Non-Safety Load Supply Isolation ESF AB COL 3.11(7) Intermittent Harsh Harsh Mechanical EQ No I (3) SR O CC-V0145 Train A Non-Safety Load Supply Isolation ESF AB COL 3.11(7) Short-Term Harsh Harsh Mechanical EQ No I (3) SR O CC-V0146 Train B Non-Safety Load Supply Isolation ESF AB COL 3.11(7) Intermittent Harsh Harsh Mechanical EQ No I (3) SR O CC-V0147 Train A Non-Safety Load Return Isolation ESF AB COL 3.11(7) Short-Term Harsh Harsh Mechanical EQ No I (3) SR O CC-V0148 Train B Non-Safety Load Return Isolation ESF AB COL 3.11(7) Intermittent Harsh Harsh Mechanical EQ No I (3) SR O CC-V0149 Train A Non-Safety Load Return Isolation ESF AB COL 3.11(7) Short-Term Harsh Harsh Mechanical EQ No I (3) SR O CC-V0150 Train B Non-Safety Load Return Isolation ESF AB COL 3.11(7) Intermittent Harsh Harsh Mechanical EQ No I (3) SR O CC-V0181 DG C Heat Exchanger Inlet Isolation ESF AB COL 3.11(7) Short-Term Harsh Harsh Mechanical EQ No I (3) SR O CC-V0182 DG D Heat Exchanger Inlet Isolation ESF AB COL 3.11(7) Short-Term Harsh Harsh Mechanical EQ No I (3) SR O CC-V0191 DG A Heat Exchanger Inlet Isolation ESF EDGB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR O CC-V0192 DG B Heat Exchanger Inlet Isolation ESF EDGB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR O CC-V0231 RCP Cooler Supply Containment Isolation ESF AB COL 3.11(7) Intermittent Mild Mild Mechanical EQ No I (3) SR O CC-V0249 RCP Cooler Return Containment Isolation ESF RCB COL 3.11(7) Intermittent Harsh Harsh Mechanical EQ No I (3) SR O CC-V0250 RCP Cooler Return Containment Isolation ESF AB COL 3.11(7) Intermittent Mild Mild Mechanical EQ No I (3) SR O Short-Term CC-V0296 Letdown Heat Exchanger Supply Containment Isolation ESF AB COL 3.11(7)

(40sec)

Mild Mild Mechanical EQ No I (3) SR O Short-Term CC-V0297 Letdown Heat Exchanger Supply Containment Isolation ESF RCB COL 3.11(7)

(40sec)

Harsh Harsh Mechanical EQ No I (3) SR O Short-Term CC-V0301 Letdown Heat Exchanger Return Containment Isolation ESF RCB COL 3.11(7)

(40sec)

Harsh Harsh Mechanical EQ No I (3) SR O Short-Term CC-V0302 Letdown Heat Exchanger Return Containment Isolation ESF AB COL 3.11(7)

(40sec)

Harsh Harsh Mechanical EQ No I (3) SR O CC-V0351 SC Heat Exchanger 01A Inlet Isolation ESF AB COL 3.11(7) Intermittent Harsh Harsh Mechanical EQ No I (3) SR O CC-V0352 SC Heat Exchanger 01B Inlet Isolation ESF AB COL 3.11(7) Intermittent Harsh Harsh Mechanical EQ No I (3) SR O CC-V0383 Essential Chiller Condenser 1A Outlet Isolation ESF AB COL 3.11(7) Varies Mild Mild Mechanical EQ No I (3) SR O CC-V0384 Essential Chiller Condenser 1B Outlet Isolation ESF AB COL 3.11(7) Varies Mild Mild Mechanical EQ No I (3) SR O CC-V0389 SFP Clooing Heat Exchanger 02A Inlet Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O CC-V0390 SFP Clooing Heat Exchanger 02B Inlet Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O CC-V0901 Essential Chiller Condenser 1A Outlet Control ESF AB COL 3.11(7) Varies Mild Mild Mechanical EQ No I (3) SR O KEPCO & KHNP 45

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (4 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

CC-V0902 Essential Chiller Condenser 1B Outlet Control ESF AB COL 3.11(7) Varies Mild Mild Mechanical EQ No I (3) SR O CC-V0905 Essential Chiller Condenser 2A Outlet Control ESF AB COL 3.11(7) Varies Mild Mild Mechanical EQ No I (3) SR O CC-V0906 Essential Chiller Condenser 2B Outlet Control ESF AB COL 3.11(7) Varies Mild Mild Mechanical EQ No I (3) SR O CC-V0937 Cross Tie Supply Header Isolation ESF AB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR O CC-V0938 Cross Tie Supply Header Isolation ESF AB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR O CC-V0939 Cross Tie Return Header Isolation ESF AB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR O CC-V0940 Cross Tie Return Header Isolation ESF AB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR O CC-V1001 CCW Pump01A Discharge Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR CC-V1002 CCW Pump01B Discharge Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR CC-V1003 CCW Pump02A Discharge Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR CC-V1004 CCW Pump02B Discharge Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR CC-V1099 CCW Quadrant A to RCP Common Line Check ESF RCB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I SR CC-V1100 RCP Return Pressure Release Line Check ESF RCB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I SR CC-V1107 CCW Surge Tank Tank01A Vacuum Relief ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR CC-V1108 CCW Surge Tank Tank01B Vacuum Relief ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR CC-V1109 N2 Supply to CCW Surge Tank01A Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR CC-V1110 N2 Supply to CCW Surge Tank01B Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR CC-V1111 CCW Surge Tank Tank01A Pressure Relief ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR CC-V1112 CCW Surge Tank Tank01B Pressure Relief ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR CC-V1131 CCW Pump Pump01A Recirculation Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR CC-V1132 CCW Pump Pump01B Recirculation Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR CC-V1133 CCW Pump Pump02A Recirculation Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR CC-V1134 CCW Pump Pump02B Recirculation Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR CC-V1303 CCW Makeup Pump03A Discharge Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR CC-V1304 CCW Makeup Pump03B Discharge Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR CC-V1309 CCW Makeup Pump03A Discharge Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR CC-V1310 CCW Makeup Pump03B Discharge Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR CC-V1317 Demi Water Makeup to Surge Tank01A Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR CC-V1318 Demi Water Makeup to Surge Tank01B Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR CC-V1319 Demi Water Makeup to Surge Tank01A Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR KEPCO & KHNP 46

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (5 of 51)

Required Influence Equipment Environmental Radiation Seismic Tag No. Equipment Identification Building Room No. Operational Designation of Remarks Classification HF Sensitive Function Condition(1) Condition (4),(6) Cat.

Time Immersion(11)

CC-V1320 Demi Water Makeup to Surge Tank01B Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR CC-V1325 CCW Makeup Pump03A Recirculation Line Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR CC-V1326 CCW Makeup Pump03B Recirculation Line Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR L/D Heat Exchanger Inlet Isolation 297 Bypass CC-V1685 ESF RCB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I SR Check L/D Heat Exchanger Outlet Line Pressure Release CC-V1686 ESF RCB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I SR Check Condenser Vacuum System CA-CA013 Gate Valve and Actuator, CA Isolation, CIV ESF AB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I (3) SR O Containment Spray System CS-PP01A Containment Spray Pump & Motor ESF AB 050-A01C Continuous Harsh Harsh Mechanical EQ No I (3) SR O CS-PP01B Containment Spray Pump & Motor ESF AB 050-A01D Continuous Harsh Harsh Mechanical EQ No I (3) SR O CS-V0001 Containment Spray Header Block ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O CS-V0002 Containment Spray Header Block ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O CS-V0003 Containment Spray Header Isolation ESF AB COL 3.11(7) Short-Term (60sec) Harsh Harsh Mechanical EQ No I (3) SR O CS-V0004 Containment Spray Header Isolation ESF AB COL 3.11(7) Short-Term (60sec) Harsh Harsh Mechanical EQ No I (3) SR O CS-V0005 CS Heat Exchanger to IRWST Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O CS-V0006 CS Heat Exchanger to IRWST Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O CS-V0007 CS Heat Exchanger to IRWST Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O CS-V0008 CS Heat Exchanger to IRWST Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O CS-V1001 CS Pump Discharge Check ESF AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I SR CS-V1002 CS Pump Discharge Check ESF AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I SR CS Heat Exchanger Heat Exchanger01A Thermal CS-V1005 ESF AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR Relief To EDT CS Heat Exchanger Heat Exchanger01B Thermal CS-V1006 ESF AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR Relief To EDT CS-V1007 Containment Isolation Check ESF RCB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I SR CS-V1008 Containment Isolation Check ESF RCB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I SR CS-V1014 ECSBS Spary Header Check BDBA RCB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I SR Chemical and Volume Control System Globe Valve and Actuator, RCP Controlled Bleedoff, Mechanical EQ, CV-0505 CIV CIV AB COL 3.11(7) CONT Harsh Harsh Electrical EQ No I (3) SR O KEPCO & KHNP 47

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (6 of 51)

Required Influence Equipment Environmental Radiation Seismic Tag No. Equipment Identification Building Room No. Operational Designation of Remarks Classification HF Sensitive Function Condition(1) Condition (4),(6) Cat.

Time Immersion(11)

Globe Valve and Actuator, RCP Controlled Bleedoff, Mechanical EQ, CV-0506 CIV CIV RCB COL 3.11(7) CONT Harsh Harsh Electrical EQ No I (3) SR O Mechanical EQ, CV-0509 Gate Valve and Actuator, IRWST Makeup Line, CIV CIV AB COL 3.11(7) CONT Harsh Harsh Electrical EQ No I (3) SR O Mechanical EQ, CV-0515 Globe Valve and Actuator, Letdown Isolation To isolate RCS RCB COL 3.11(7) CONT Harsh Harsh Electrical EQ No I (3) SR O Mechanical EQ, CV-0516 Globe Valve and Actuator, Letdown Isolation To isolate RCS RCB COL 3.11(7) CONT Harsh Harsh Electrical EQ No I (3) SR O Globe Valve and Actuator, Letdown Containment Mechanical EQ, CV-0522 Isolation, CIV CIV RCB COL 3.11(7) CONT Harsh Harsh Electrical EQ No I (3) SR O Globe Valve and Actuator, Letdown Containment Mechanical EQ, CV-0523 Isolation, CIV CIV AB COL 3.11(7) CONT Harsh Harsh Electrical EQ No I (3) SR O Globe Valve and Actuator, Charging Containment Mechanical EQ, CV-0524 Isolation, CIV CIV AB COL 3.11(7) CONT Harsh Harsh Electrical EQ No I (3) SR O Globe Valve and Actuator, Seal Injection Mechanical EQ, CV-0255 Containment Isolation, CIV CIV AB COL 3.11(7) CONT Harsh Harsh Electrical EQ No I (3) SR O Globe Valve and Actuator, RDT Effluent Mechanical EQ, CV-0560 Containment Isolation, CIV CIV RCB COL 3.11(7) CONT Harsh Harsh Electrical EQ No I (3) SR O Globe Valve and Actuator, RDT Effluent Mechanical EQ, CV-0561 Containment Isolation, CIV CIV AB COL 3.11(7) CONT Harsh Harsh Electrical EQ No I (3) SR O Gate Valve and Actuator, RSSH to RDH Isolation, Mechanical EQ, CV-0580 CIV CIV AB COL 3.11(7) CONT Harsh Harsh Electrical EQ No I (3) SR O To Restrict charging Mechanical EQ, CV-0576 Globe Valve and Actuator, Charging Flow Restricting flow AB COL 3.11(7) CONT Harsh Harsh Electrical EQ No I (3) SR O To Restrict charging Mechanical EQ, CV-0577 Globe Valve and Actuator, Charging Flow Restricting flow AB COL 3.11(7) CONT Harsh Harsh Electrical EQ No I (3) SR O Emergency Diesel Generator System DG-DG01A Class 1E Diesel Generator including Engine EDG EDGB 100-H02A Continuous Mild Mild Mechanical EQ No I SR DG-DG01B Class 1E Diesel Generator including Engine EDG EDGB 100-H02B Continuous Mild Mild Mechanical EQ No I SR DG-DG01C Class 1E Diesel Generator including Engine EDG AB 100-A03C Continuous Mild Mild Mechanical EQ No I SR DG-DG01D Class 1E Diesel Generator including Engine EDG AB 100-A03D Continuous Mild Mild Mechanical EQ No I SR DG-DP01A Control Panels & Cubicles (12) EDG EDGB 100-H01A Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

Electrical EQ O DG-DP02A Control Panels & Cubicles (12) EDG EDGB 100-H01A Continuous Mild Mild No I (3) SR (EMC)

DG-DP03A Control Panels & Cubicles (12) EDG EDGB 100-H01A Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

DG-DP04A Control Panels & Cubicles (12) EDG EDGB 100-H01A Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

KEPCO & KHNP 48

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (7 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

DG-DP05A Control Panels & Cubicles (12) EDG EDGB 100-H01A Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

DG-DP06A Control Panels & Cubicles (12) EDG EDGB 100-H01A Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

DG-DP07A Control Panels & Cubicles (12) EDG EDGB 100-H01A Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

DG-DP08A Control Panels & Cubicles (12) EDG EDGB 100-H01A Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

DG-DP09A Control Panels & Cubicles (12) EDG EDGB 100-H01A Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

DG-DP10A Control Panels & Cubicles (12) EDG EDGB 100-H01A Continuous Mild Mild Electrical EQ No I (3) SR O

(EMC)

Electrical EQ O DG-DP01B Control Panels & Cubicles (12) EDG EDGB 100-H01B Continuous Mild Mild No I (3) SR (EMC)

Electrical EQ O DG-DP02B Control Panels & Cubicles (12) EDG EDGB 100-H01B Continuous Mild Mild No I (3) SR (EMC)

Electrical EQ DG-DP03B Control Panels & Cubicles (12) EDG EDGB 100-H01B Continuous Mild Mild (EMC)

No I (3) SR O DG-DP04B Control Panels & Cubicles (12) EDG EDGB 100-H01B Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

Electrical EQ DG-DP05B Control Panels & Cubicles (12) EDG EDGB 100-H01B Continuous Mild Mild (EMC)

No I (3) SR O DG-DP06B Control Panels & Cubicles (12) EDG EDGB 100-H01B Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

Electrical EQ O DG-DP07B Control Panels & Cubicles (12) EDG EDGB 100-H01B Continuous Mild Mild No I (3) SR (EMC)

Electrical EQ O DG-DP08B Control Panels & Cubicles (12) EDG EDGB 100-H01B Continuous Mild Mild No I (3) SR (EMC)

DG-DP09B Control Panels & Cubicles (12) EDG EDGB 100-H01B Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

Electrical EQ O DG-DP10B Control Panels & Cubicles (12) EDG EDGB 100-H01B Continuous Mild Mild No I (3) SR (EMC)

Electrical EQ O DG-DP01C Control Panels & Cubicles (12) EDG AB 100-A02C Continuous Mild Mild No I (3) SR (EMC)

Electrical EQ O DG-DP02C Control Panels & Cubicles (12) EDG AB 100-A02C Continuous Mild Mild No I (3) SR (EMC)

Electrical EQ DG-DP03C Control Panels & Cubicles (12) EDG AB 100-A02C Continuous Mild Mild (EMC)

No I (3) SR O Electrical EQ DG-DP04C Control Panels & Cubicles (12) EDG AB 100-A02C Continuous Mild Mild (EMC)

No I (3) SR O Electrical EQ DG-DP05C Control Panels & Cubicles (12) EDG AB 100-A02C Continuous Mild Mild (EMC)

No I (3) SR O KEPCO & KHNP 49

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (8 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

DG-DP06C Control Panels & Cubicles (12) EDG AB 100-A02C Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

Electrical EQ O DG-DP07C Control Panels & Cubicles (12) EDG AB 100-A02C Continuous Mild Mild No I (3) SR (EMC)

Electrical EQ O DG-DP08C Control Panels & Cubicles (12) EDG AB 100-A02C Continuous Mild Mild No I (3) SR (EMC)

Electrical EQ O DG-DP09C Control Panels & Cubicles (12) EDG AB 100-A02C Continuous Mild Mild No I (3) SR (EMC)

Electrical EQ O DG-DP10C Control Panels & Cubicles (12) EDG AB 100-A02C Continuous Mild Mild No I (3) SR (EMC)

DG-DP01D Control Panels & Cubicles (12) EDG AB 100-A02D Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

DG-DP02D Control Panels & Cubicles (12) EDG AB 100-A02D Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

Electrical EQ O DG-DP03D Control Panels & Cubicles (12) EDG AB 100-A02D Continuous Mild Mild No I (3) SR (EMC)

DG-DP04D Control Panels & Cubicles (12) EDG AB 100-A02D Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

DG-DP05D Control Panels & Cubicles (12) EDG AB 100-A02D Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

DG-DP06D Control Panels & Cubicles (12) EDG AB 100-A02D Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

DG-DP07D Control Panels & Cubicles (12) EDG AB 100-A02D Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

Electrical EQ O DG-DP08D Control Panels & Cubicles (12) EDG AB 100-A02D Continuous Mild Mild No I (3) SR (EMC)

Electrical EQ DG-DP09D Control Panels & Cubicles (12) EDG AB 100-A02D Continuous Mild Mild (EMC)

No I (3) SR O DG-DP10D Control Panels & Cubicles (12) EDG AB 100-A02D Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

Electrical EQ O LP01A Control Panel (12) EDG EDGB 100-H01A Continuous Mild Mild No I (3) SR (EMC)

LP02A Engine Panel (12) EDG EDGB 100-H02A Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

Electrical EQ O LP01B Control Panel (12) EDG EDGB 100-H01B Continuous Mild Mild No I (3) SR (EMC)

LP02B Engine Panel (12) EDG EDGB 100-H02B Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

LP01C Control Panel (12) EDG AB 100-A02C Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

Electrical EQ LP02C Engine Panel (12) EDG AB 100-A03C Continuous Mild Mild (EMC)

No I (3) SR O KEPCO & KHNP 50

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (9 of 51)

Required Influence Equipment Environmental Radiation Seismic Tag No. Equipment Identification Building Room No. Operational Designation of Remarks Classification HF Sensitive Function Condition(1) Condition (4),(6) Cat.

Time Immersion(11)

LP01D Control Panel (12) EDG AB 100-A02D Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

LP02D Engine Panel (12) EDG AB 100-A03D Continuous Mild Mild Electrical EQ No I (3) SR O (EMC)

Emergency Diesel Engine Cooling Water System DG-V4217A 3-Way Thermostatic Control Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4217B 3-Way Thermostatic Control Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4217C 3-Way Thermostatic Control Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4217D 3-Way Thermostatic Control Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4250A 3-Way Thermostatic Control Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4250B 3-Way Thermostatic Control Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4250C 3-Way Thermostatic Control Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4250D 3-Way Thermostatic Control Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4230A Preheating HT Water Pump Inlet Isolation Valve EDG EDGB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V4230B Preheating HT Water Pump Inlet Isolation Valve EDG EDGB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V4230C Preheating HT Water Pump Inlet Isolation Valve EDG AB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V4230D Preheating HT Water Pump Inlet Isolation Valve EDG AB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V4231A HT Water Inlet Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4231B HT Water Inlet Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4231C HT Water Inlet Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4231D HT Water Inlet Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR Emergency Diesel Engine Starting Air System DG-V4022A Starting Air Receiver Inlet Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4022B Starting Air Receiver Inlet Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4022C Starting Air Receiver Inlet Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4022D Starting Air Receiver Inlet Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4030A Starting Air Receiver Inlet Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4030B Starting Air Receiver Inlet Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4030C Starting Air Receiver Inlet Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4030D Starting Air Receiver Inlet Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4308A Starting Air Common Header Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4308B Starting Air Common Header Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR KEPCO & KHNP 51

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (10 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

DG-V4308C Starting Air Common Header Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4308D Starting Air Common Header Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4309A Starting Air Common Header Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4309B Starting Air Common Header Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4309C Starting Air Common Header Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4309D Starting Air Common Header Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4312A Starting Air Common Header Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4312B Starting Air Common Header Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4312C Starting Air Common Header Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4312D Starting Air Common Header Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4043A Starting Air Common Header Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4043B Starting Air Common Header Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4043C Starting Air Common Header Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4043D Starting Air Common Header Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4039A Starting Air Outlet Regulating Globe Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4039B Starting Air Outlet Regulating Globe Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4039C Starting Air Outlet Regulating Globe Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4039D Starting Air Outlet Regulating Globe Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4040A Starting Air Outlet Regulating Globe Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4040B Starting Air Outlet Regulating Globe Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4040C Starting Air Outlet Regulating Globe Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4040D Starting Air Outlet Regulating Globe Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V5023A Starting Air Receiver Relief Valve EDG EDGB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V5023B Starting Air Receiver Relief Valve EDG EDGB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V5023C Starting Air Receiver Relief Valve EDG AB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V5023D Starting Air Receiver Relief Valve EDG AB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V5031A Starting Air Receiver Relief Valve EDG EDGB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR KEPCO & KHNP 52

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (11 of 51)

Required Influence Equipment Environmental Radiation Seismic Tag No. Equipment Identification Building Room No. Operational Designation of Remarks Classification HF Sensitive Function Condition(1) Condition (4),(6) Cat.

Time Immersion(11)

DG-V5031B Starting Air Receiver Relief Valve EDG EDGB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V5031C Starting Air Receiver Relief Valve EDG AB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V5031D Starting Air Receiver Relief Valve EDG AB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V4041A Over Speed Air Receiver Relief Valve EDG EDGB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V4041B Over Speed Air Receiver Relief Valve EDG EDGB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V4041C Over Speed Air Receiver Relief Valve EDG AB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V4041D Over Speed Air Receiver Relief Valve EDG AB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V4316A Over Speed Air Receiver Inlet Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4316B Over Speed Air Receiver Inlet Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4316C Over Speed Air Receiver Inlet Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4316D Over Speed Air Receiver Inlet Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR Emergency Diesel Engine Lube Oil System DG-V4114A 3-Way Thermostatic Control Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4114B 3-Way Thermostatic Control Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4114C 3-Way Thermostatic Control Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4114D 3-Way Thermostatic Control Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR Lube Oil/Preheating Water Heat Exchanger Outlet DG-V4111A EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR Check Valve Lube Oil/Preheating Water Heat Exchanger Outlet DG-V4111B EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR Check Valve Lube Oil/Preheating Water Heat Exchanger Outlet DG-V4111C EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR Check Valve Lube Oil/Preheating Water Heat Exchanger Outlet DG-V4111D EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR Check Valve DG-V4059A Lube Oil Regulating Gate Valve EDG EDGB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V4059B Lube Oil Regulating Gate Valve EDG EDGB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V4059C Lube Oil Regulating Gate Valve EDG AB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V4059D Lube Oil Regulating Gate Valve EDG AB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V4140A Lube Oil Pump Discharge Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4140B Lube Oil Pump Discharge Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR KEPCO & KHNP 53

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (12 of 51)

Required Influence Equipment Environmental Radiation Seismic Tag No. Equipment Identification Building Room No. Operational Designation of Remarks Classification HF Sensitive Function Condition(1) Condition (4),(6) Cat.

Time Immersion(11)

DG-V4140C Lube Oil Pump Discharge Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4140D Lube Oil Pump Discharge Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4232A Prelube Oil Pump Inlet Isolation Valve EDG EDGB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V4232B Prelube Oil Pump Inlet Isolation Valve EDG EDGB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V4232C Prelube Oil Pump Inlet Isolation Valve EDG AB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V4232D Prelube Oil Pump Inlet Isolation Valve EDG AB COL 3.11(7) Short-Term Mild Mild Mechanical EQ No I (3) SR DG-V4109A Prelube Oil Engine Inlet Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4109B Prelube Oil Engine Inlet Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4109C Prelube Oil Engine Inlet Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DG-V4109D Prelube Oil Engine Inlet Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR Emergency Diesel Engine Fuel Oil System DO-PP01A Emergency Diesel Fuel Oil Transfer Pumps EDG EDGB 063-H02A Continuous Mild Mild Mechanical EQ No I (3) SR DO-PP01B Emergency Diesel Fuel Oil Transfer Pumps EDG EDGB 063-H02B Continuous Mild Mild Mechanical EQ No I (3) SR DO-PP01C Emergency Diesel Fuel Oil Transfer Pumps EDG AB 065-A01C Continuous Mild Mild Mechanical EQ No I (3) SR DO-PP01D Emergency Diesel Fuel Oil Transfer Pumps EDG AB 065-A01D Continuous Mild Mild Mechanical EQ No I (3) SR DO-PP02A Emergency Diesel Fuel Oil Transfer Pumps EDG EDGB 063-H02A Continuous Mild Mild Mechanical EQ No I (3) SR DO-PP02B Emergency Diesel Fuel Oil Transfer Pumps EDG EDGB 063-H02B Continuous Mild Mild Mechanical EQ No I (3) SR DO-PP02C Emergency Diesel Fuel Oil Transfer Pumps EDG AB 065-A01C Continuous Mild Mild Mechanical EQ No I (3) SR DO-PP02D Emergency Diesel Fuel Oil Transfer Pumps EDG AB 065-A01D Continuous Mild Mild Mechanical EQ No I (3) SR DO-V1005A Diesel Fuel Transfer Pump Discharge Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DO-V1005B Diesel Fuel Transfer Pump Discharge Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DO-V1005C Diesel Fuel Transfer Pump Discharge Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DO-V1005D Diesel Fuel Transfer Pump Discharge Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DO-V1006A Diesel Fuel Transfer Pump Discharge Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DO-V1006B Diesel Fuel Transfer Pump Discharge Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DO-V1006C Diesel Fuel Transfer Pump Discharge Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DO-V1006D Diesel Fuel Transfer Pump Discharge Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DO-V1007A Diesel Fuel Transfer Pump Discharge Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DO-V1007B Diesel Fuel Transfer Pump Discharge Check Valve EDG EDGB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DO-V1007C Diesel Fuel Transfer Pump Discharge Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR DO-V1007D Diesel Fuel Transfer Pump Discharge Check Valve EDG AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR KEPCO & KHNP 54

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (13 of 51)

Required Influence Equipment Environmental Radiation Seismic Tag No. Equipment Identification Building Room No. Operational Designation of Remarks Classification HF Sensitive Function Condition(1) Condition (4),(6) Cat.

Time Immersion(11)

Spent Fuel Pool Cooling System FC-PP01A Spent Fuel Pool Cooling Pump ESF AB 100-A24A Continuous Harsh Harsh Mechanical EQ No I (3) SR O FC-PP01B Spent Fuel Pool Cooling Pump ESF AB 100-A32B Continuous Harsh Harsh Mechanical EQ No I (3) SR O FC-V1005 SFP Cooling Pump01A Discharge Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR FC-V1006 SFP Cooling Pump01B Discharge Check ESF AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR SFP Cleanup Demineralizer Outlet Header Penetration FC-V1145 ESF AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I SR Check Main Feedwater System FW-V0121 Economizer Main Feedwater Isolation Valve ESF AB 137-A31C Short-Term(5 sec) Harsh Harsh Electrical EQ No I (3) SR O FW-V0122 Economizer Main Feedwater Isolation Valve ESF AB 137-A31C Short-Term(5 sec) Harsh Harsh Electrical EQ No I (3) SR O FW-V0123 Economizer Main Feedwater Isolation Valve ESF AB 137-A31D Short-Term(5 sec) Harsh Harsh Electrical EQ No I (3) SR O FW-V0124 Economizer Main Feedwater Isolation Valve ESF AB 137-A31D Short-Term(5 sec) Harsh Harsh Electrical EQ No I (3) SR O FW-V0131 Downcomer Main Feedwater Isolation Valves ESF AB 137-A31C Short-Term(5 sec) Harsh Harsh Electrical EQ No I (3) SR O FW-V0132 Downcomer Main Feedwater Isolation Valves ESF AB 137-A31C Short-Term(5 sec) Harsh Harsh Electrical EQ No I (3) SR O FW-V0133 Downcomer Main Feedwater Isolation Valves ESF AB 137-A31D Short-Term(5 sec) Harsh Harsh Electrical EQ No I (3) SR O FW-V0134 Downcomer Main Feedwater Isolation Valves ESF AB 137-A31D Short-Term(5 sec) Harsh Harsh Electrical EQ No I (3) SR O FW-V0138 Feedwater Chemical Injection Isolation Valve ESF AB COL 3.11(7) Short-Term(5 sec) Harsh Harsh Electrical EQ No I (3) SR O FW-V0139 Feedwater Chemical Injection Isolation Valve ESF AB COL 3.11(7) Short-Term(5 sec) Harsh Harsh Electrical EQ No I (3) SR O Instrument Air System IA-V0020 Cylinder Valve and Actuator, CIV ESF AB COL 3.11(7) Short-Term(5 Min) Harsh Harsh Electrical EQ No I (3) SR In-Containment Water Storage System IW-V0001 Reactor Cavity Flooding Isolation ESF RCB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O IW-V0002 Reactor Cavity Flooding Isolation ESF RCB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O IW-V0003 Reactor Cavity Flooding Isolation ESF RCB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O IW-V0004 Reactor Cavity Flooding Isolation ESF RCB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O IW-V0005 BAMP Suction Containment Isolation ESF AB COL 3.11(7) Intermittent Harsh Harsh Mechanical EQ No I (3) SR O IW-V0006 BAMP Suction Containment Isolation ESF AB COL 3.11(7) Intermittent Harsh Harsh Mechanical EQ No I (3) SR O IRWST Level Transmitter (LT-392D) Upper Tap IW-V0010 Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O IRWST Level Transmitter (LT-392D) Lower Tap IW-V0011 Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O HVT Wide Range Level Transmitter (LT-396D)

IW-V0012 Upper Tap Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O HVT Wide Range Level Transmitter (LT-396D)

IW-V0013 Lower Tap Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O KEPCO & KHNP 55

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (14 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

HVT Wide Range Level Transmitter (LT-397C) Upper Tap IW-V0014 Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O HVT Wide Range Level Transmitter (LT-397C) Lower Tap IW-V0015 Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O HVT Narrow Range Level Transmitter (LT-403A) Upper IW-V0016 Tap Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O HVT Narrow Range Level Transmitter (LT-403A) Lower IW-V0017 Tap Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O IW-V0018 Reactor Cavity Transmitter (LT-397A) Upper Tap Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O IW-V0019 Reactor Cavity Transmitter (LT-397A) Lower Tap Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O IW-V0020 Reactor Cavity Transmitter (LT-398B) Upper Tap Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O IW-V0021 Reactor Cavity Transmitter (LT-398B) Lower Tap Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O IW-V0022 IRWST Level Transmitter (LT-393C) Upper Tap Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O IW-V0023 IRWST Level Transmitter (LT-393C) Lower Tap Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O IW-V0024 IRWST Level Transmitter (LT-391A) Upper Tap Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O IW-V0025 IRWST Level Transmitter (LT-391A) Lower Tap Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O IW-V0026 IRWST Level Transmitter (LT-390B) Upper Tap Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O IW-V0027 IRWST Level Transmitter (LT-390B) Lower Tap Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O HVT Wide Range Level Transmitter (LT-394B) Upper Tap IW-V0028 Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O HVT Wide Range Level Transmitter (LT-394B) Lower Tap IW-V0029 Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O HVT Wide Range Level Transmitter (LT-395A) Upper Tap IW-V0030 Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O HVT Wide Range Level Transmitter (LT-395A) Lower Tap IW-V0031 Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O IW-V0032 Reactor Cavity (LT-399C) Transmitter Upper Tap Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O IW-V0033 Reactor Cavity (LT-399C) Transmitter Lower Tap Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O IW-V0034 Reactor Cavity (LT-400D) Transmitter Upper Tap Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O Reactor Cavity (LT-400D) Transmitter Lower Tap IW-V0035 Isolation ESF AB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O IW-V1003 BAMP Suction Line Pressure (Thermal) Relief ESF AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR Main Steam System MS-V0011 Main Steam Isolation Valve ESF AB COL 3.11(7) Short-Term(5 sec) Harsh Harsh Electrical EQ No I (3) SR O MS-V0012 Main Steam Isolation Valve ESF AB COL 3.11(7) Short-Term(5 sec) Harsh Harsh Electrical EQ No I (3) SR O MS-V0013 Main Steam Isolation Valve ESF AB COL 3.11(7) Short-Term(5 sec) Harsh Harsh Electrical EQ No I (3) SR O MS-V0014 Main Steam Isolation Valve ESF AB COL 3.11(7) Short-Term(5 sec) Harsh Harsh Electrical EQ No I (3) SR O MS-V0015 Main Steam Isolation Bypass Valve ESF AB COL 3.11(7) Short-Term(5 sec) Harsh Harsh Electrical EQ No I (3) SR O KEPCO & KHNP 56

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (15 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

MS-V0016 Main Steam Isolation Bypass Valve ESF AB COL 3.11(7) Short-Term(5 sec) Harsh Harsh Electrical EQ No I (3) SR O MS-V0017 Main Steam Isolation Bypass Valve ESF AB COL 3.11(7) Short-Term(5 sec) Harsh Harsh Electrical EQ No I (3) SR O MS-V0018 Main Steam Isolation Bypass Valve ESF AB COL 3.11(7) Short-Term(5 sec) Harsh Harsh Electrical EQ No I (3) SR O MS-V0090 Main Steam Drip Leg Isolation Valve ESF AB COL 3.11(7) Intermittent Harsh Harsh Electrical EQ No I (3) SR MS-V0091 Main Steam Drip Leg Isolation Valve ESF AB COL 3.11(7) Intermittent Harsh Harsh Electrical EQ No I (3) SR MS-V0092 Main Steam Drip Leg Isolation Valve ESF AB COL 3.11(7) Intermittent Harsh Harsh Electrical EQ No I (3) SR MS-V0093 Main Steam Drip Leg Isolation Valve ESF AB COL 3.11(7) Intermittent Harsh Harsh Electrical EQ No I (3) SR MS-V0101 MSADV and Actuator Dump AB COL 3.11(7) Intermittent Harsh Harsh Electrical EQ No I (3) SR O MS-V0102 MSADV and Actuator Dump AB COL 3.11(7) Intermittent Harsh Harsh Electrical EQ No I (3) SR O MS-V0103 MSADV and Actuator Dump AB COL 3.11(7) Intermittent Harsh Harsh Electrical EQ No I (3) SR O MS-V0104 MSADV and Actuator Dump AB COL 3.11(7) Intermittent Harsh Harsh Electrical EQ No I (3) SR O MS-V0105 MSADV Isolation Valve and Actuator Isolation AB COL 3.11(7) Varies Harsh Harsh Electrical EQ No I (3) SR O MS-V0106 MSADV Isolation Valve and Actuator Isolation AB COL 3.11(7) Varies Harsh Harsh Electrical EQ No I (3) SR O MS-V0107 MSADV Isolation Valve and Actuator Isolation AB COL 3.11(7) Varies Harsh Harsh Electrical EQ No I (3) SR O MS-V0108 MSADV Isolation Valve and Actuator Isolation AB COL 3.11(7) Varies Harsh Harsh Electrical EQ No I (3) SR O MS-V1301 Main Steam Safety Valve Safety Valve AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR MS-V1302 Main Steam Safety Valve Safety Valve AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR MS-V1303 Main Steam Safety Valve Safety Valve AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR MS-V1304 Main Steam Safety Valve Safety Valve AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR MS-V1305 Main Steam Safety Valve Safety Valve AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR MS-V1306 Main Steam Safety Valve Safety Valve AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR MS-V1307 Main Steam Safety Valve Safety Valve AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR MS-V1308 Main Steam Safety Valve Safety Valve AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR MS-V1309 Main Steam Safety Valve Safety Valve AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR MS-V1310 Main Steam Safety Valve Safety Valve AB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I (3) SR MS-V1311 Main Steam Safety Valve Safety Valve AB 137-A31D Continuous Harsh Harsh Mechanical EQ No I (3) SR MS-V1312 Main Steam Safety Valve Safety Valve AB 137-A31D Continuous Harsh Harsh Mechanical EQ No I (3) SR MS-V1313 Main Steam Safety Valve Safety Valve AB 137-A31D Continuous Harsh Harsh Mechanical EQ No I (3) SR MS-V1314 Main Steam Safety Valve Safety Valve AB 137-A31D Continuous Harsh Harsh Mechanical EQ No I (3) SR MS-V1315 Main Steam Safety Valve Safety Valve AB 137-A31D Continuous Harsh Harsh Mechanical EQ No I (3) SR MS-V1316 Main Steam Safety Valve Safety Valve AB 137-A31D Continuous Harsh Harsh Mechanical EQ No I (3) SR KEPCO & KHNP 57

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (16 of 51)

Required Influence Equipment Environmental Radiation Seismic Tag No. Equipment Identification Building Room No. Operational Designation of Remarks Classification HF Sensitive Function Condition(1) Condition (4),(6) Cat.

Time Immersion(11)

MS-V1317 Main Steam Safety Valve Safety Valve AB 137-A31D Continuous Harsh Harsh Mechanical EQ No I (3) SR MS-V1318 Main Steam Safety Valve Safety Valve AB 137-A31D Continuous Harsh Harsh Mechanical EQ No I (3) SR MS-V1319 Main Steam Safety Valve Safety Valve AB 137-A31D Continuous Harsh Harsh Mechanical EQ No I (3) SR MS-V1320 Main Steam Safety Valve Safety Valve AB 137-A31D Continuous Harsh Harsh Mechanical EQ No I (3) SR Compressed Gas System Nitrogen Supply to SITs and RDT CIV, Globe Valve NT-V0004 ESF AB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I (3) SR and Actuator Radiation Monitoring System PR-RE/RT- Electrical EQ 039A Containment Air Monitor (12) Leak Detection AB 100-A22A Continuous Harsh Harsh (EMC)

No I SR O PR-RE/RT- Electrical EQ 040B Containment Air Monitor (12) Leak Detection AB 100-A22A Continuous Harsh Harsh (EMC)

No I SR O PR-RE/RT- Electrical EQ 071A Control Room Air Intake Monitor (12) ESF AB 174-A05C Continuous Harsh Harsh (EMC)

No I SR O PR-RE/RT- Electrical EQ 072B Control Room Air Intake Monitor (12) ESF AB 174-A05C Continuous Harsh Harsh (EMC)

No I SR O PR-RE/RT- Electrical EQ 073A Control Room Air Intake Monitor (12) ESF AB 174-A05D Continuous Harsh Harsh (EMC)

No I SR O PR-RE/RT- Electrical EQ 074B Control Room Air Intake Monitor (12) ESF AB 174-A05D Continuous Harsh Harsh (EMC)

No I SR O ESF, PR-RE/RT-Containment Operating Area Monitor (12) Accident RCB 156-C01 Continuous Harsh Harsh Electrical EQ No I SR O

231A (EMC)

Monitoring ESF, PR-RE/RT-Containment Operating Area Monitor (12) Accident RCB 156-C01 Continuous Harsh Harsh Electrical EQ No I SR O

232B (EMC)

Monitoring ESF, PR-RE/RT-Containment Upper Operating Area Monitor (12) Accident RCB 156-C01 Continuous Harsh Harsh Electrical EQ No I SR O

233A (EMC)

Monitoring ESF, PR-RE/RT-Containment Upper Operating Area Monitor (12) Accident RCB 156-C01 Continuous Harsh Harsh Electrical EQ No I SR O

234B (EMC)

Monitoring ESF, PR-RE/RT-Spent Fuel Pool Area Monitor (12) Accident AB 156-A08B Continuous Mild Mild Electrical EQ No I SR O

241 (EMC)

Monitoring ESF, PR-RE/RT-Spent Fuel Pool Area Monitor (12) Accident AB 156-A08B Continuous Mild Mild Electrical EQ No I SR O

242 (EMC)

Monitoring Process Sampling System Steam Generator 1 Sample Line from Blowdown Hot Accident Electrical EQ PS-V0031 Leg CIV, Gate Valve and Actuator (12) Monitoring AB COL 3.11(7) Continuous Harsh Harsh (EMC)

No I (3) SR O Steam Generator 2 Sample Line from Blowdown Hot Accident Electrical EQ PS-V0032 Leg CIV, Gate Valve and Actuator (12) Monitoring AB COL 3.11(7) Continuous Harsh Harsh (EMC)

No I (3) SR O Steam Generator 1 Sample Line from Downcomer Accident Electrical EQ PS-V0033 CIV, Gate Valve and Actuator (12) Monitoring AB COL 3.11(7) Continuous Harsh Harsh (EMC)

No I (3) SR O Steam Generator 2 Sample Line from Downcomer Accident Electrical EQ PS-V0034 CIV, Gate Valve and Actuator(12) Monitoring AB COL 3.11(7) Continuous Harsh Harsh (EMC)

No I (3) SR O KEPCO & KHNP 58

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (17 of 51)

Required Influence Equipment Environmental Radiation Seismic Tag No. Equipment Identification Building Room No. Operational Designation of Remarks Classification HF Sensitive Function Condition(1) Condition (4),(6) Cat.

Time Immersion(11)

Steam Generator 1 Sample Line from Blowdown Cold Accident PS-V0035 Leg CIV, Gate Valve and Actuator Monitoring AB COL 3.11(7) Continuous Harsh Harsh Electrical EQ No I (3) SR O Steam Generator 2 Sample Line from Blowdown Cold Accident PS-V0036 Leg CIV, Gate Valve and Actuator Monitoring AB COL 3.11(7) Continuous Harsh Harsh Electrical EQ No I (3) SR O Steam Generator 1 Primary Sample and Cooler Rack Accident PS-V0257 ISO Valve, Gate Valve and Actuator Monitoring AB COL 3.11(7) Continuous Harsh Harsh Electrical EQ No I (3) SR O Steam Generator 2 Primary Sample and Cooler Rack Accident PS-V0258 ISO Valve, Gate Valve and Actuator Monitoring AB COL 3.11(7) Continuous Harsh Harsh Electrical EQ No I (3) SR O Primary Sampling System PX-V0001 RCS Hotleg Loop1 Sample CIV ESF RCB COL 3.11(7) Intermittent Harsh Harsh Mechanical EQ No I (3) SR O PX-V0002 RCS Hotleg Loop1 SAMPLE CIV ESF AB COL 3.11(7) Intermittent Harsh Harsh Mechanical EQ No I (3) SR O PX-V0003 PZR Surge Line Sample CIV ESF RCB COL 3.11(7) Short-Term (15sec) Harsh Harsh Mechanical EQ No I (3) SR O PX-V0004 PZR Surge Line Sample CIV ESF AB COL 3.11(7) Short-Term (15sec) Harsh Harsh Mechanical EQ No I (3) SR O PX-V0005 PZR Steam Space Sample CIV ESF RCB COL 3.11(7) Short-Term (15sec) Harsh Harsh Mechanical EQ No I (3) SR O PX-V0006 PZR Steam Space Sample CIV ESF AB COL 3.11(7) Short-Term (15sec) Harsh Harsh Mechanical EQ No I (3) SR O PX-V0020 SI Tanks Sample CIV ESF AB COL 3.11(7) Short-Term (15sec) Harsh Harsh Mechanical EQ No I (3) SR O PX-V0021 SI Tanks Sample CIV ESF RCB COL 3.11(7) Short-Term (15sec) Harsh Harsh Mechanical EQ No I (3) SR O PX-V0041 Containment Air Sample Line CIV ESF RCB COL 3.11(7) Intermittent Harsh Harsh Mechanical EQ No I (3) SR O PX-V0042 Containment Air Sample Line CIV ESF AB COL 3.11(7) Intermittent Harsh Harsh Mechanical EQ No I (3) SR O PX-V0043 Containment Air Sample Line CIV ESF AB COL 3.11(7) Intermittent Harsh Harsh Mechanical EQ No I (3) SR O PX-V0053 Sample Return To HVT ESF AB COL 3.11(7) Intermittent Harsh Harsh Mechanical EQ No I (3) SR O PX-V1005 PASS Sample Return Line Check CIV ESF RCB COL 3.11(7) Intermittent Harsh Harsh Mechanical EQ No I SR O PX-V1020 Containment Air Sample Return Line Check CIV ESF RCB COL 3.11(7) Intermittent Harsh Harsh Mechanical EQ No I SR O Reactor Coolant System RC-V0200 Pilot Operated Safety Relief Valve (POSRV)

Overpressure RCB 136-C02 Continuous Harsh Harsh Mechanical EQ No I (3) O Protection RC-V0201 Pilot Operated Safety Relief Valve (POSRV)

Overpressure RCB 136-C02 Continuous Harsh Harsh Mechanical EQ No I (3) O Protection RC-V0202 Pilot Operated Safety Relief Valve (POSRV)

Overpressure RCB 136-C02 Continuous Harsh Harsh Mechanical EQ No I (3) O Protection RC-V0203 Pilot Operated Safety Relief Valve (POSRV)

Overpressure RCB 136-C02 Continuous Harsh Harsh Mechanical EQ No I (3)

O Protection KEPCO & KHNP 59

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (18 of 51)

Required Influence Equipment Environmental Radiation Seismic Tag No. Equipment Identification Building Room No. Operational Designation of Remarks Classification HF Sensitive Function Condition(1) Condition (4),(6) Cat.

Time Immersion(11)

POSRV Signal Electrical O RC-LP01A POSRV Master Control Cabinet (2),(12) AB COL 3.11(7) Continuous Mild Mild No I SR Interface EQ/EMC POSRV Signal Electrical O RC-LP01B POSRV Master Control Cabinet (2),(12) AB COL 3.11(7) Continuous Mild Mild No I SR Interface EQ/EMC POSRV Signal Electrical O RC-LP01C POSRV Master Control Cabinet (2),(12) AB COL 3.11(7) Continuous Mild Mild No I SR Interface EQ/EMC POSRV Signal Electrical O RC-LP01D POSRV Master Control Cabinet (2),(12) AB COL 3.11(7) Continuous Mild Mild No I SR Interface EQ/EMC Various Hydraulic Snubbers for Surge Line RCPB RCB COL 3.11(7) short-term Harsh Harsh Mechanical EQ No I (3) SR 100-C02A Various Steam Generator Supports including Snubbers RCPB RCB short-term Harsh Harsh Mechanical EQ No I (3) SR 100-C02B 100-C02A Various Reactor Coolant Pump Supports including Snubbers RCPB RCB short-term Harsh Harsh Mechanical EQ No I (3) SR 100-C02B Reactor Gas Vent System RG-V0410 PZR Gas Vent ESF RCB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O RG-V0411 PZR Gas Vent ESF RCB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O RG-V0412 PZR Gas Vent ESF RCB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O RG-V0413 PZR Gas Vent ESF RCB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O RG-V0414 RX Vessel Gas Vent ESF RCB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O RG-V0415 RX Vessel Gas Vent ESF RCB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O RG-V0416 RX Vessel Gas Vent ESF RCB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O RG-V0417 RX Vessel Gas Vent ESF RCB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O RG-V0419 Gas Vent To IRWST ESF RCB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O RG-V0420 Gas Vent To IRWST ESF RCB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O RG-V1421 RCGVS Vacuum Relief ESF RCB COL 3.11(7) Varies Harsh Harsh Mechanical EQ No I (3) SR O Service Air System SA-V0001 Cylinder Valve and Actuator, CIV ESF AB COL 3.11(7) Short-Term Harsh Harsh Mechanical EQ No I O S/G Blowdown System SD-V0005 S/G-1 Blowdown Containment Isolation ESF AB COL 3.11(7) Intermittent Harsh Harsh Mechanical EQ No I (3) SR O SD-V0006 S/G-2 Blowdown Containment Isolation ESF AB COL 3.11(7) Intermittent Harsh Harsh Mechanical EQ No I (3) SR O SD-V0007 S/G-1 Blowdown Containment Isolation ESF AB COL 3.11(7) Intermittent Mild Mild Mechanical EQ No I (3) SR O SD-V0008 S/G-2 Blowdown Containment Isolation ESF AB COL 3.11(7) Intermittent Mild Mild Mechanical EQ No I (3) SR O SD-V1115 Wet Lay Up Recir Pump A Discharge Check ESF RCB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I SR KEPCO & KHNP 60

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (19 of 51)

Required Influence Equipment Environmental Radiation Seismic Tag No. Equipment Identification Building Room No. Operational Designation of Remarks Classification HF Sensitive Function Condition(1) Condition (4),(6) Cat.

Time Immersion(11)

SD-V1116 Wet Lay Up Recir Pump B Discharge Check ESF RCB COL 3.11(7) Continuous Harsh Harsh Mechanical EQ No I SR Safety Injection System Mechanical EQ, SI-PP02A Safety Injection Pumps motors ESF AB 050-A03A Intermittent Harsh Harsh No I (3) SR Electrical EQ Mechanical EQ, SI-PP02B Safety Injection Pumps motors ESF AB 050-A03B Intermittent Harsh Harsh No I (3) SR Electrical EQ Mechanical EQ, SI-PP02C Safety Injection Pumps motors ESF AB 050-A02C Intermittent Harsh Harsh No I (3) SR Electrical EQ Mechanical EQ, SI-PP02D Safety Injection Pumps motors ESF AB 050-A02D Intermittent Harsh Harsh No I (3) SR Electrical EQ Globe Valveand Actuator, IRWST Return Line Mechanical EQ, O SI-V0300 ESF AB COL 3.11(7) Intermittent Harsh Harsh No I (3) SR Isolation Valves Electrical EQ Gate Valve and Actuator, IRWST Return Line Mechanical EQ, O SI-V0301 ESF AB COL 3.11(7) Intermittent Harsh Harsh No I (3) SR Isolation Valves Electrical EQ Globe Valve and Actuator, SI Combined Miniflow Mechanical EQ, O SI-V0302 ESF AB COL 3.11(7) Intermittent Harsh Harsh No I (3) SR Line Isolation Valves Electrical EQ Globe Valve and Actuator, SI Combined Miniflow Mechanical EQ, O SI-V0303 ESF AB COL 3.11(7) Intermittent Harsh Harsh No I (3) SR Line Isolation Valves Electrical EQ Mechanical EQ, O SI-V0304 Gate Valve, IRWST Isolation Valves ESF AB COL 3.11(7) Intermittent Harsh Harsh No I (3) SR Electrical EQ Mechanical EQ, O SI-V0305 Gate Valve, IRWST Isolation Valves ESF AB COL 3.11(7) Intermittent Harsh Harsh No I (3) SR Electrical EQ Mechanical EQ, O SI-V0308 Gate Valve, IRWST Isolation Valves ESF AB COL 3.11(7) Intermittent Harsh Harsh No I (3) SR Electrical EQ Mechanical EQ, O SI-V0309 Gate Valve, IRWST Isolation Valves ESF AB COL 3.11(7) Intermittent Harsh Harsh No I (3) SR Electrical EQ Globe Valve and Actuator, SI Hot Leg Inject. Line Mechanical EQ, O SI-V0321 ESF AB COL 3.11(7) Intermittent Harsh Harsh No I (3) SR Isol. Electrical EQ Globe Valve and Actuator, Hot Leg Check Valve Mechanical EQ, O SI-V0322 ESF RCB COL 3.11(7) Intermittent Harsh Harsh No I (3) SR Leakage Isolation Electrical EQ Globe Valve and Actuator, SI Hot Leg Injection Line Mechanical EQ, O SI-V0331 ESF AB COL 3.11(7) Intermittent Harsh Harsh No I (3) SR Isolation Valves Electrical EQ Globe Valve and Actuator, Hot Leg Check Valve Mechanical EQ, O SI-V0332 ESF RCB COL 3.11(7) Intermittent Harsh Harsh No I (3) SR Leakage Isolation Electrical EQ Globe Valve and Actuator, SI Low Flow Control Mechanical EQ, O SI-V0602 ESF AB COL 3.11(7) Intermittent Harsh Harsh No I (3) SR Valves Electrical EQ Globe Valve and Actuator, SI Low Flow Control Mechanical EQ, O SI-V0603 ESF AB COL 3.11(7) Intermittent Harsh Harsh No I (3) SR Valves Electrical EQ KEPCO & KHNP 61

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (20 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

Mechanical SI-V0604 Gate Valve and Actuator, SI Hot Leg Isolation Valves ESF AB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical SI-V0609 Gate Valve and Actuator, SI Hot Leg Isolation Valves ESF AB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical Globe Valve and Actuator, SIT Atmospheric Vent Isolation SI-V0605 Valves ESF RCB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical Globe Valve and Actuator, SIT Atmospheric Vent Isolation SI-V0606 Valves ESF RCB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical Globe Valve and Actuator, SIT Atmospheric Vent Isolation SI-V0607 Valves ESF RCB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical Globe Valve and Actuator, SIT Atmospheric Vent Isolation SI-V0608 Valves ESF RCB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical SI-V0611 Globe Valve and Actuator, SIT Fill & Drain Isolation ESF RCB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical SI-V0621 Globe Valve and Actuator, SIT Fill & Drain Isolation ESF RCB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical SI-V0631 Globe Valve and Actuator, SIT Fill & Drain Isolation ESF RCB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical SI-V0641 Globe Valve and Actuator, SIT Fill & Drain Isolation ESF RCB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical Globe Valve and Actuator, SIT Atmospheric Vent Isolation SI-V0613 Valves ESF RCB COL 3.11(7) short-term Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical Globe Valve and Actuator, SIT Atmospheric Vent Isolation SI-V0623 Valves ESF RCB COL 3.11(7) short-term Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical Globe Valve and Actuator, SIT Atmospheric Vent Isolation SI-V0633 Valves ESF RCB COL 3.11(7) short-term Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical Globe Valve and Actuator, SIT Atmospheric Vent Isolation SI-V0643 Valves ESF RCB COL 3.11(7) short-term Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical SI-V0614 Gate Valve, SIT Discharge Isolation Valves ESF RCB COL 3.11(7) short-term Harsh Harsh EQ, No I (3) SR O Electrical EQ KEPCO & KHNP 62

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (21 of 51)

Required Influence Equipment Environmental Radiation Seismic Tag No. Equipment Identification Building Room No. Operational Designation of Remarks Classification HF Sensitive Function Condition(1) Condition (4),(6) Cat.

Time Immersion(11)

Mechanical EQ, SI-V0624 Gate Valve, SIT Discharge Isolation Valves ESF RCB COL 3.11(7) short-term Harsh Harsh Electrical EQ No I (3) SR O Mechanical EQ, SI-V0634 Gate Valve, SIT Discharge Isolation Valves ESF RCB COL 3.11(7) short-term Harsh Harsh Electrical EQ No I (3) SR O Mechanical EQ, SI-V0644 Gate Valve, SIT Discharge Isolation Valves ESF RCB COL 3.11(7) short-term Harsh Harsh Electrical EQ No I (3) SR O Mechanical EQ, SI-V0616 Globe Valve and Actuator, SI Line Isolation Valves ESF AB COL 3.11(7) Intermittent Harsh Harsh Electrical EQ No I (3) SR O Mechanical EQ, SI-V0626 Globe Valve and Actuator, SI Line Isolation Valves ESF AB COL 3.11(7) Intermittent Harsh Harsh Electrical EQ No I (3) SR O Mechanical EQ, SI-V0636 Globe Valve and Actuator, SI Line Isolation Valves ESF AB COL 3.11(7) Intermittent Harsh Harsh Electrical EQ No I (3) SR O Mechanical EQ, SI-V0646 Globe Valve and Actuator, SI Line Isolation Valves ESF AB COL 3.11(7) Intermittent Harsh Harsh Electrical EQ No I (3) SR O Globe Valve and Actuator, Check Valve Leakoff Mechanical EQ, SI-V0618 Isolation Valves ESF RCB COL 3.11(7) short-term Harsh Harsh Electrical EQ No I (3) SR O Globe Valve and Actuator, Check Valve Leakoff Mechanical EQ, SI-V0628 Isolation Valves ESF RCB COL 3.11(7) short-term Harsh Harsh Electrical EQ No I (3) SR O Globe Valve and Actuator, Check Valve Leakoff Mechanical EQ, SI-V0638 Isolation Valves ESF RCB COL 3.11(7) short-term Harsh Harsh Electrical EQ No I (3) SR O Globe Valve and Actuator, Check Valve Leakoff Mechanical EQ, SI-V0648 Isolation Valves ESF RCB COL 3.11(7) short-term Harsh Harsh Electrical EQ No I (3) SR O Mechanical EQ, SI-V0682 Globe Valve and Actuator, SIT Fill Line Isolation ESF RCB COL 3.11(7) short-term Harsh Harsh Electrical EQ No I (3) SR O Shutdown Cooling System Mechanical EQ, SI-PP01A Shutdown Cooling Pump and Motor RT AB 050-A04A Continuous Harsh Harsh No I (3) SR Electrical EQ Mechanical EQ, SI-PP01B Shutdown Cooling Pump and Motor RT AB 050-A04B Continuous Harsh Harsh No I (3) SR Electrical EQ KEPCO & KHNP 63

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (22 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

Mechanical Globe Valve and Actuator, SDCHX Outlet Flow Control SI-V0310 Valves RT AB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical Globe Valve and Actuator, SDCHX Outlet Flow Control SI-V0311 Valves RT AB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical Globe Valve and Actuator, SDCHX Bypass Flow Control SI-V0312 Valves RT AB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical Globe Valve and Actuator, SDCHX Bypass Flow Control SI-V0313 Valves RT AB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical Globe Valve and Actuator, SCS Test Return Line Isolation SI-V0314 Valves RT AB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical Globe Valve and Actuator, SCS Test Return Line Isolation SI-V0315 Valves RT AB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical Gate Valve and Actuator, SCS/CSS Pump Suction Cross SI-V0340 Connect Valves RT AB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical Gate Valve and Actuator, SCS/CSS Pump Discharge Cross SI-V0341 Connect Valves RT AB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical Gate Valve and Actuator, SCS/CSS Pump Suction Cross SI-V0342 Connect Valves RT AB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical Gate Valve and Actuator, SCS/CSS Pump Discharge Cross SI-V0343 Connect Valves RT AB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical SI-V0344 Gate Valve and Actuator, SCP Suction Isolation Valves RT AB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical SI-V0346 Gate Valve and Actuator, SCP Suction Isolation Valves RT AB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical SI-V0347 Gate Valve and Actuator, CSP Suction Isolation Valves RT AB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical SI-V0348 CSP Suction Isolation Valves RT AB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical SI-V0391 Gate Valve and Actuator, Reactor Cavity Isolation Valves RT RCB COL 3.11(7) short-term Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical SI-V0393 Gate Valve and Actuator, Reactor Cavity Isolation Valves RT RCB COL 3.11(7) short-term Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical SI-V0395 Gate Valve and Actuator, Reactor Cavity Isolation Valves RT RCB COL 3.11(7) short-term Harsh Harsh EQ, No I (3) SR O Electrical EQ Mechanical SI-V0600 Globe Valve and Actuator, SCS Line Isolation Valves RT AB COL 3.11(7) Intermittent Harsh Harsh EQ, No I (3) SR O Electrical EQ KEPCO & KHNP 64

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (23 of 51)

Required Influence Equipment Environmental Radiation Seismic Tag No. Equipment Identification Building Room No. Operational Designation of Remarks Classification HF Sensitive Function Condition(1) Condition (4),(6) Cat.

Time Immersion(11)

Mechanical EQ, SI-V0601 Globe Valve and Actuator, SCS Line Isolation Valves RT AB COL 3.11(7) Intermittent Harsh Harsh Electrical EQ No I (3) SR O Gate Valve and Actuator, SCS Suction Line Isolation Mechanical EQ, SI-V0651 Valves RT RCB 100-C02A Intermittent Harsh Harsh Electrical EQ No I (3) SR O Gate Valve and Actuator, SCS Suction Line Isolation Mechanical EQ, SI-V0652 Valves RT RCB COL 3.11(7) Intermittent Harsh Harsh Electrical EQ No I (3) SR O Gate Valve and Actuator, SCS Suction Line Isolation Mechanical EQ, SI-V0653 Valves RT RCB 100-C01 Intermittent Harsh Harsh Electrical EQ No I (3) SR O Gate Valve and Actuator, SCS Suction Line Isolation Mechanical EQ, SI-V0654 Valves RT RCB COL 3.11(7) Intermittent Harsh Harsh Electrical EQ No I (3) SR O Gate Valve and Actuator, SCS Suction Line Isolation Mechanical EQ, SI-V0655 Valves RT AB COL 3.11(7) Intermittent Harsh Harsh Electrical EQ No I (3) SR O Gate Valve and Actuator, SCS Suction Line Isolation Mechanical EQ, SI-V0656 Valves RT AB COL 3.11(7) Intermittent Harsh Harsh Electrical EQ No I (3) SR O Gate Valve and Actuator, SCS Test Return Line Mechanical EQ, SI-V0688 Isolation Valves RT AB COL 3.11(7) Intermittent Harsh Harsh Electrical EQ No I (3) SR O Gate Valve and Actuator, SCS Test Return Line Mechanical EQ, SI-V0693 Isolation Valves RT AB COL 3.11(7) Intermittent Harsh Harsh Electrical EQ No I (3) SR O Globe Valve and Actuator, SCS Warmup Line Flow Mechanical EQ, SI-V0690 Control Valves RT AB COL 3.11(7) Intermittent Harsh Harsh Electrical EQ No I (3) SR O Globe Valve and Actuator, SCS Warmup Line Flow Mechanical EQ, SI-V0691 Control Valves RT AB COL 3.11(7) Intermittent Harsh Harsh Electrical EQ No I (3) SR O Essential Service Water System SX-PP01A Essential Service Water Pump ESF ESWPB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR O SX-PP01B Essential Service Water Pump ESF ESWPB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR O SX-PP02A Essential Service Water Pump ESF ESWPB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR O SX-PP02B Essential Service Water Pump ESF ESWPB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR O SX-V0045 ESW Pump 01A Discharge ESF ESWPB COL 3.11(7) Varies Mild Mild Mechanical EQ No I (3) SR O SX-V0046 ESW Pump 01B Discharge ESF ESWPB COL 3.11(7) Varies Mild Mild Mechanical EQ No I (3) SR O SX-V0047 ESW Pump 02A Discharge ESF ESWPB COL 3.11(7) Varies Mild Mild Mechanical EQ No I (3) SR O SX-V0048 ESW Pump 02B Discharge ESF ESWPB COL 3.11(7) Varies Mild Mild Mechanical EQ No I (3) SR O SX-V1001 ESW Pump 01A Discharge Check ESF ESWPB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR SX-V1002 ESW Pump 01B Discharge Check ESF ESWPB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR KEPCO & KHNP 65

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (24 of 51)

Required Influence Equipment Environmental Radiation Seismic Tag No. Equipment Identification Building Room No. Operational Designation of Remarks Classification HF Sensitive Function Condition(1) Condition (4),(6) Cat.

Time Immersion(11)

SX-V1003 ESW Pump 02A Discharge Check ESF ESWPB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR SX-V1004 ESW Pump 02B Discharge Check ESF ESWPB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I SR CCW Heat Exchanger Outlet Common Header SX-V1051 ESF ESWPB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR Vacuum Relief CCW Heat Exchanger Outlet Common Header SX-V1052 ESF ESWPB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR Vacuum Relief Equipment and Floor Drainage System DE-V0005 Containment Drain Sump Pump Discharge Line, CIV ESF RCB COL 3.11(7) Short-Term (20sec) Harsh Harsh Mechnical EQ No I (3) SR O DE-V0006 Containment Drain Sump Pump Discharge Line, CIV ESF AB COL 3.11(7) Short-Term (20sec) Harsh Harsh Mechnical EQ No I (3) SR O Gaseous Radwaste System GW-V0001 Reactor Drain Tank Gas Space to GWMS CIV ESF RCB COL 3.11(7) Short-Term (15sec) Harsh Harsh Mechnical EQ No I (3) SR O GW-V0002 Reactor Drain Tank Gas Space to GWMS CIV ESF AB COL 3.11(7) Short-Term (15sec) Harsh Harsh Mechnical EQ No I (3) SR O Control Room Area HVAC System VC-HV01A Supply AHU Cooling AB 174-A24C Continuous Harsh Harsh Mechanical EQ No I (3) SR O VC-HV01B Supply AHU Cooling AB 174-A24D Continuous Harsh Harsh Mechanical EQ No I (3) SR O VC-HV01C Supply AHU Cooling AB 174-A23C Continuous Mild Mild Mechanical EQ No I (3) SR O VC-HV01D Supply AHU Cooling AB 174-A23D Continuous Mild Mild Mechanical EQ No I (3) SR O VC-AU01A Emergency Makeup ACU ESF AB 174-A24C Continuous Harsh Harsh Mechanical EQ No I (3) SR O VC-AU01B Emergency Makeup ACU ESF AB 174-A24D Continuous Harsh Harsh Mechanical EQ No I (3) SR O VC-Y0011A Air Intake Isolation Damper (ESR) ESF AB 174-A24C Continuous Harsh Harsh Electrical EQ No I (3) SR O VC-Y0011B Air Intake Isolation Damper (ESR) ESF AB 174-A24C Continuous Harsh Harsh Electrical EQ No I (3) SR O VC-Y0012A Air Intake Isolation Damper (ESR) ESF AB 174-A24D Continuous Harsh Harsh Electrical EQ No I (3) SR O VC-Y0012B Air Intake Isolation Damper (ESR) ESF AB 174-A24D Continuous Harsh Harsh Electrical EQ No I (3) SR O VC-Y0013A AHU Inlet Isolation Damper (PSR) ESF AB 174-A24C Short-Term (5sec) Harsh Harsh Mechanical EQ No I (3) SR O VC-Y0013C AHU Inlet Isolation Damper (PSR) ESF AB 174-A24C Short-Term (5sec) Harsh Harsh Mechanical EQ No I (3) SR O VC-Y0014B AHU Inlet Isolation Damper (PSR) ESF AB 174-A24D Short-Term (5sec) Harsh Harsh Mechanical EQ No I (3) SR O VC-Y0014D AHU Inlet Isolation Damper (PSR) ESF AB 174-A24D Short-Term (5sec) Harsh Harsh Mechanical EQ No I (3) SR O VC-Y0015A AHU Inlet Isolation Damper (PSR) ESF AB 174-A24C Short-Term (5sec) Harsh Harsh Mechanical EQ No I (3) SR O VC-Y0015C AHU Inlet Isolation Damper (PSR) ESF AB 174-A24C Short-Term (5sec) Harsh Harsh Mechanical EQ No I (3) SR O VC-Y0016B AHU Inlet Isolation Damper (PSR) ESF AB 174-A24D Short-Term (5sec) Harsh Harsh Mechanical EQ No I (3) SR O VC-Y0016D AHU Inlet Isolation Damper (PSR) ESF AB 174-A24D Short-Term (5sec) Harsh Harsh Mechanical EQ No I (3) SR O VC-Y0017A ACU Inlet Isolation Damper (ESR) Open AB 174-A24C Continuous Harsh Harsh Electrical EQ No I (3) SR O KEPCO & KHNP 66

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (25 of 51)

Required Influence Equipment Environmental Radiation Seismic Tag No. Equipment Identification Building Room No. Operational Designation of Remarks Classification HF Sensitive Function Condition(1) Condition (4),(6) Cat.

Time Immersion(11)

VC-Y0017C ACU Inlet Isolation Damper (ESR) Open AB 174-A24C Continuous Harsh Harsh Electrical EQ No I (3) SR O VC-Y0018B ACU Inlet Isolation Damper (ESR) Open AB 174-A24D Continuous Harsh Harsh Electrical EQ No I (3) SR O VC-Y0018D ACU Inlet Isolation Damper (ESR) Open AB 174-A24D Continuous Harsh Harsh Electrical EQ No I (3) SR O VC-Y0019A ACU Return Isolation Damper (ESR) Open AB 174-A24C Continuous Harsh Harsh Electrical EQ No I (3) SR O VC-Y0019C ACU Return Isolation Damper (ESR) Open AB 174-A24C Continuous Harsh Harsh Electrical EQ No I (3) SR O VC-Y0020B ACU Return Isolation Damper (ESR) Open AB 174-A24D Continuous Harsh Harsh Electrical EQ No I (3) SR O VC-Y0020D ACU Return Isolation Damper (ESR) Open AB 174-A24D Continuous Harsh Harsh Electrical EQ No I (3) SR O VC-Y0021A AHU Discharge Flow Control Damper (ESR) Modulation AB 174-A24C Continuous Harsh Harsh Electrical EQ No I (3) SR O VC-Y0021C AHU Discharge Flow Control Damper (ESR) Modulation AB 174-A23C Continuous Mild Mild Electrical EQ No I (3) SR O VC-Y0022B AHU Discharge Flow Control Damper (ESR) Modulation AB 174-A24D Continuous Harsh Harsh Electrical EQ No I (3) SR O VC-Y0022D AHU Discharge Flow Control Damper (ESR) Modulation AB 174-A23D Continuous Mild Mild Electrical EQ No I (3) SR O VC-Y0023A ACU Discharge Flow Control Damper (ESR) Modulation AB 174-A24C Continuous Harsh Harsh Electrical EQ No I (3) SR O VC-Y0023C ACU Discharge Flow Control Damper (ESR) Modulation AB 174-A24C Continuous Harsh Harsh Electrical EQ No I (3) SR O VC-Y0024B ACU Discharge Flow Control Damper (ESR) Modulation AB 174-A24D Continuous Harsh Harsh Electrical EQ No I (3) SR O VC-Y0024D ACU Discharge Flow Control Damper (ESR) Modulation AB 174-A24D Continuous Harsh Harsh Electrical EQ No I (3) SR O VC-Y0027 Kitchen & Toilet Isolation Damper (PSR) ESF AB 157-A02C Short-Term (5sec) Mild Mild Mechanical EQ No I (3) SR O VC-Y0028 Kitchen & Toilet Isolation Damper (PSR) ESF AB 195-A09C Short-Term (5sec) Mild Mild Mechanical EQ No I (3) SR O VC-Y0029 Smoke Removal Duct Isolation Damper (PSR) ESF AB 174-A24D Short-Term (5sec) Harsh Harsh Mechanical EQ No I (3) SR O VC-Y0030 Smoke Removal Duct Isolation Damper (PSR) ESF AB 174-A03D Short-Term (5sec) Mild Mild Mechanical EQ No I (3) SR O Emergency Diesel Generator Area HVAC System VD-HV10A EDG Control Room Cubicle Cooler Cooling EDGB 100-H01A Continuous Mild Mild Mechanical EQ No I (3) SR VD-HV10B EDG Control Room Cubicle Cooler Cooling EDGB 100-H01B Continuous Mild Mild Mechanical EQ No I (3) SR VD-HV10C EDG Control Room Cubicle Cooler Cooling AB 100-A02C Continuous Mild Mild Mechanical EQ No I (3) SR VD-HV10D EDG Control Room Cubicle Cooler Cooling AB 100-A02D Continuous Mild Mild Mechanical EQ No I (3) SR VD-HV11A EDG Room Normal Supply AHU Cooling EDGB 135-H03A Continuous Mild Mild Mechanical EQ No I (3) SR O VD-HV11B EDG Room Normal Supply AHU Cooling EDGB 135-H03B Continuous Mild Mild Mechanical EQ No I (3) SR O VD-HV11C EDG Room Normal Supply AHU Cooling AB 174-A14C Continuous Mild Mild Mechanical EQ No I (3) SR O VD-HV11D EDG Room Normal Supply AHU Cooling AB 174-A14D Continuous Mild Mild Mechanical EQ No I (3) SR O VD-HV12A EDG Room Emergency Cubicle Cooler Cooling EDGB 100-H02A Continuous Mild Mild Mechanical EQ No I (3) SR VD-HV13A EDG Room Emergency Cubicle Cooler Cooling EDGB 100-H02A Continuous Mild Mild Mechanical EQ No I (3) SR KEPCO & KHNP 67

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (26 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

VD-HV12B EDG Room Emergency Cubicle Cooler Cooling EDGB 100-H02B Continuous Mild Mild Mechanical EQ No I (3) SR VD-HV13B EDG Room Emergency Cubicle Cooler Cooling EDGB 100-H02B Continuous Mild Mild Mechanical EQ No I (3) SR VD-HV12C EDG Room Emergency Cubicle Cooler Cooling AB 100-A03C Continuous Mild Mild Mechanical EQ No I (3) SR VD-HV13C EDG Room Emergency Cubicle Cooler Cooling AB 100-A03C Continuous Mild Mild Mechanical EQ No I (3) SR VD-HV12D EDG Room Emergency Cubicle Cooler Cooling AB 100-A03D Continuous Mild Mild Mechanical EQ No I (3) SR VD-HV13D EDG Room Emergency Cubicle Cooler Cooling AB 100-A03D Continuous Mild Mild Mechanical EQ No I (3) SR VD-AH02A EDG Room Exhaust Fan Ventilation EDGB 100-H02A Continuous Mild Mild Mechanical EQ No I (3) SR VD-AH02B EDG Room Exhaust Fan Ventilation EDGB 100-H02B Continuous Mild Mild Mechanical EQ No I (3) SR VD-AH02C EDG Room Exhaust Fan Ventilation AB 174-A01C Continuous Mild Mild Mechanical EQ No I (3) SR VD-AH02D EDG Room Exhaust Fan Ventilation AB 174-A01D Continuous Mild Mild Mechanical EQ No I (3) SR VD-AH05A Diesel Fuel Oil Storage Tank Room Supply Fan Ventilation EDGB 063-H02A Continuous Mild Mild Mechanical EQ No I (3) SR VD-AH05B Diesel Fuel Oil Storage Tank Room Supply Fan Ventilation EDGB 063-H02B Continuous Mild Mild Mechanical EQ No I (3) SR VD-AH05C Diesel Fuel Oil Storage Tank Room Supply Fan Ventilation AB 065-A01C Continuous Mild Mild Mechanical EQ No I (3) SR VD-AH05D Diesel Fuel Oil Storage Tank Room Supply Fan Ventilation AB 065-A01D Continuous Mild Mild Mechanical EQ No I (3) SR VD-AH06A Diesel Fuel Oil Storage Tank Room Exhaust Fan Ventilation EDGB 063-H02A Continuous Mild Mild Mechanical EQ No I (3) SR VD-AH06B Diesel Fuel Oil Storage Tank Room Exhaust Fan Ventilation EDGB 063-H02A Continuous Mild Mild Mechanical EQ No I (3) SR VD-AH06C Diesel Fuel Oil Storage Tank Room Exhaust Fan Ventilation AB 065-A01C Continuous Mild Mild Mechanical EQ No I (3) SR VD-AH06D Diesel Fuel Oil Storage Tank Room Exhaust Fan Ventilation AB 065-A01D Continuous Mild Mild Mechanical EQ No I (3) SR Diesel Fuel Oil Day Tank & L.O. Makeup Tank Room VD-AH07A Ventilation EDGB 100-H02A Continuous Mild Mild Mechanical EQ No I (3) SR Exhaust Fan Diesel Fuel Oil Day Tank & L.O. Makeup Tank Room VD-AH07B Ventilation EDGB 100-H02B Continuous Mild Mild Mechanical EQ No I (3) SR Exhaust Fan Diesel Fuel Oil Day Tank & L.O. Makeup Tank Room VD-AH07C Ventilation AB 120-A04C Continuous Mild Mild Mechanical EQ No I (3) SR Exhaust Fan Diesel Fuel Oil Day Tank & L.O. Makeup Tank Room VD-AH07D Ventilation AB 120-A04D Continuous Mild Mild Mechanical EQ No I (3) SR Exhaust Fan VD-HC01A EDG Room Electric Duct Heater Heating EDGB 100-H02A Continuous Mild Mild Mechanical EQ No I SR O VD-HC01B EDG Room Electric Duct Heater Heating EDGB 100-H02B Continuous Mild Mild Mechanical EQ No I SR O VD-HC02A Diesel Fuel Oil Storage Tank Room Electric Duct Heater Heating EDGB 063-H02A Continuous Mild Mild Mechanical EQ No I SR O VD-HC02B Diesel Fuel Oil Storage Tank Room Electric Duct Heater Heating EDGB 063-H02B Continuous Mild Mild Mechanical EQ No I SR O VD-HC02C Diesel Fuel Oil Storage Tank Room Electric Duct Heater Heating AB 065-A01C Continuous Mild Mild Mechanical EQ No I SR O VD-HC02D Diesel Fuel Oil Storage Tank Room Electric Duct Heater Heating AB 065-A01D Continuous Mild Mild Mechanical EQ No I SR O KEPCO & KHNP 68

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (27 of 51)

Required Influence Equipment Environmental Radiation Seismic Tag No. Equipment Identification Building Room No. Operational Designation of Remarks Classification HF Sensitive Function Condition(1) Condition (4),(6) Cat.

Time Immersion(11)

Electrical and I&C Equipment Areas HVAC System VE-HV01A Class 1E Switchgear 01C Room Cubicle Cooler Cooling AB 078-A02C Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV01B Class 1E Switchgear 01D Room Cubicle Cooler Cooling AB 078-A02D Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV02A Class 1E Load Center 01C Room Cubicle Cooler Cooling AB 078-A03C Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV02B Class 1E Load Center 01D Room Cubicle Cooler Cooling AB 078-A03D Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV03A Train - A DC&IP Equip. Room Cubicle Cooler Cooling AB 078-A56A Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV03B Train - B DC&IP Equip. Room Cubicle Cooler Cooling AB 078-A56B Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV04A Train - C DC&IP Equip. Room Cubicle Cooler Cooling AB 078-A05C Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV04B Train - D DC&IP Equip. Room Cubicle Cooler Cooling AB 078-A05D Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV06A 480V Class 1E MCC 01A Room Cubicle Cooler Cooling AB 100-A12A Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV06B 480V Class 1E MCC 01B Room Cubicle Cooler Cooling AB 100-A12B Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV07A Class 1E Switchgear 01A Room Cubicle Cooler Cooling AB 078-A25A Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV07B Class 1E Switchgear 01B Room Cubicle Cooler Cooling AB 078-A25B Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV08B Swing Load Center Room Cubicle Cooler Cooling AB 078-A58B Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV09A Electrical Penetration Room C Cubicle Cooler Cooling AB 120-A09C Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV09B Electrical Penetration Room D Cubicle Cooler Cooling AB 120-A09D Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV10A 480V Class 1E MCC 03C Room Cubicle Cooler Cooling AB 137-A10C Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV10B 480V Class 1E MCC 03D Room Cubicle Cooler Cooling AB 137-A10D Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV11A Electrical Penetration Room Cubicle Cooler Cooling AB 137-A11C Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV11B Electrical Penetration Room Cubicle Cooler Cooling AB 137-A11D Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV12A Penetration. Mux Room A Cubicle Cooler Cooling AB 137-A17A Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV12B Penetration Mux Room B Cubicle Cooler Cooling AB 137-A17B Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV13A Electrical Penetration Room Cubicle Cooler Cooling AB 137-A18A Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV13B Electrical Penetration Room Cubicle Cooler Cooling AB 137-A18B Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV14A 480V Class 1E MCC 03A Room Cubicle Cooler Cooling AB 137-A23A Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV14B 480V Class 1E MCC 03B Room Cubicle Cooler Cooling AB 120-A15B Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV15A 480V Class 1E MCC 04A Room Cubicle Cooler Cooling AB 137-A15A Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV15B 480V Class 1E MCC 04B Room Cubicle Cooler Cooling AB 137-A15B Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV16A I&C Equipment Room Cubicle Cooler Cooling AB 157-A25C Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV16B I&C Equipment Room Cubicle Cooler Cooling AB 157-A01D Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV17A I&C Equipment Room Cubicle Cooler Cooling AB 157-A19C Continuous Mild Mild Mechanical EQ No I (3) SR KEPCO & KHNP 69

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (28 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

VE-HV17B I&C Equipment Room Cubicle Cooler Cooling AB 157-19D Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV18A Remote Shutdown Room Cubicle Cooler Cooling AB 137-A43D Continuous Mild Mild Mechanical EQ No I (3) SR VE-HV18B Remote Shutdown Room Cubicle Cooler Cooling AB 137-A43D Continuous Mild Mild Mechanical EQ No I (3) SR VE-AH20A Train - A Battery Room Supply Fan Ventilation AB 100-A11A Continuous Mild Mild Mechanical EQ No I (3) SR VE-AH20B Train - B Battery Room Supply Fan Ventilation AB 100-A11B Continuous Mild Mild Mechanical EQ No I (3) SR VE-AH20C Train - C Battery Room Supply Fan Ventilation AB 078-A06C Continuous Mild Mild Mechanical EQ No I (3) SR VE-AH20D Train - D Battery Room Supply Fan Ventilation AB 078-A06D Continuous Mild Mild Mechanical EQ No I (3) SR VE-AH21A Train - A Battery Room Exhaust Fan Ventilation AB 078-A11C Continuous Mild Mild Mechanical EQ No I (3) SR VE-AH21B Train - B Battery Room Exhaust Fan Ventilation AB 100-A11B Continuous Mild Mild Mechanical EQ No I (3) SR VE-AH21C Train - C Battery Room Exhaust Fan Ventilation AB 078-A11C Continuous Mild Mild Mechanical EQ No I (3) SR VE-AH21D Train - D Battery Room Exhaust Fan Ventilation AB 078-A11D Continuous Mild Mild Mechanical EQ No I (3) SR VE-AH22A Remote Shutdown Room Supply Fan Ventilation AB 137-A43D Continuous Mild Mild Mechanical EQ No I (3) SR VE-AH22B Remote Shutdown Room Supply Fan Ventilation AB 137-A43D Continuous Mild Mild Mechanical EQ No I (3) SR VE-AH23A Remote Shutdown Room Exhaust Fan Ventilation AB 137-A43D Continuous Mild Mild Mechanical EQ No I (3) SR VE-AH23B Remote Shutdown Room Exhaust Fan Ventilation AB 137-A43D Continuous Mild Mild Mechanical EQ No I (3) SR VE-HC01A Train - A Battery Room Electrical Duct Heater Heating AB 100-A11A Continuous Mild Mild Mechanical EQ No I SR O VE-HC01B Train - B Battery Room Electrical Duct Heater Heating AB 100-A11B Continuous Mild Mild Mechanical EQ No I SR O VE-HC01C Train - C Battery Room Electrical Duct Heater Heating AB 078-A06C Continuous Mild Mild Mechanical EQ No I SR O VE-HC01D Train - D Battery Room Electrical Duct Heater Heating AB 078-A07D Continuous Mild Mild Mechanical EQ No I SR O VE-HC02A Class 1E Switchgear 01A Room Electrical Duct Heater Heating AB 078-A25A Continuous Mild Mild Mechanical EQ No I SR O VE-HC02B Class 1E Switchgear 01B Room Electrical Duct Heater Heating AB 078-A25B Continuous Mild Mild Mechanical EQ No I SR O VE-HC03A Remote Shutdown Room Electrical Duct Heater Heating AB 137-A43D Continuous Mild Mild Mechanical EQ No I SR O VE-HC03B Remote Shutdown Room Electrical Duct Heater Heating AB 137-A43D Continuous Mild Mild Mechanical EQ No I SR O VE-HC04A I&C Equipment Room Electrical Duct Heater Heating AB 157-A25C Continuous Mild Mild Mechanical EQ No I SR O VE-HC04B I&C Equipment Room Electrical Duct Heater Heating AB 157-A01D Continuous Mild Mild Mechanical EQ No I SR O VE-HC05C I&C Equipment Room Electrical Duct Heater Heating AB 157-A19C Continuous Mild Mild Mechanical EQ No I SR O VE-HC05D I&C Equipment Room Electrical Duct Heater Heating AB 157-A19D Continuous Mild Mild Mechanical EQ No I SR O VE-HC06A Elect Penetration A Room Electrical Duct Heater Heating AB 137-A18A Continuous Mild Mild Mechanical EQ No I SR O VE-HC06B Elect Penetration B Room Electrical Duct Heater Heating AB 137-A18B Continuous Mild Mild Mechanical EQ No I SR O VE-HC07A 480V Class 1E MCC 03A Room Elec. Duct Heater Heating AB 137-A23A Continuous Mild Mild Mechanical EQ No I SR O VE-HC07B 480V Class 1E MCC 03B Room Elec. Duct Heater Heating AB 120-A15B Continuous Mild Mild Mechanical EQ No I SR O KEPCO & KHNP 70

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (29 of 51)

Required Influence Equipment Environmental Radiation Seismic Tag No. Equipment Identification Building Room No. Operational Designation of Remarks Classification HF Sensitive Function Condition(1) Condition (4),(6) Cat.

Time Immersion(11) 480V Class 1E 04A MCC 04A Room Elec. Duct VE-HC08A Heating AB 137-A15A Continuous Mild Mild Mechanical EQ No I SR O Heater VE-HC09A Penetration Mux A Room Electrical Duct Heater Heating AB 137-A17A Continuous Mild Mild Mechanical EQ No I SR O VE-HC09B Penetration Mux B Room Electrical Duct Heater Heating AB 137-A17B Continuous Mild Mild Mechanical EQ No I SR O VE-HC10B Swing Load Center Room Electrical Duct Heater Heating AB 078-A58B Continuous Mild Mild Mechanical EQ No I SR O Fuel Handling Area HVAC System VF-AU02A Emergency Exhaust ACU ESF FHA 120-A24A Continuous Harsh Harsh Mechanical EQ No I (3) SR O VF-AU02B Emergency Exhaust ACU ESF FHA 120-A25A Continuous Harsh Harsh Mechanical EQ No I (3) SR O VF-HV02A SFP HX Room Cubicle Cooler Cooling FHA 100-A24A Continuous Harsh Harsh Mechanical EQ No I (3) SR VF-HV02B SFP HX Room Cubicle Cooler Cooling FHA 100-A32B Continuous Harsh Harsh Mechanical EQ No I (3) SR VF-Y0001A Air Intake Isolation Damper (PSR) ESF FHA 100-A36B Short-Term (5sec) Mild Mild Mechanical EQ No I (3) SR O VF-Y0002B Air Intake Isolation Damper (PSR) ESF FHA 100-A36B Short-Term (5sec) Mild Mild Mechanical EQ No I (3) SR O VF-Y0003A Normal Exhaust ACU Isolation Damper (PSR) ESF FHA 100-A38A Short-Term (5sec) Mild Mild Mechanical EQ No I (3) SR O VF-Y0004B Normal Exhaust ACU Isolation Damper (PSR) ESF FHA 100-A38A Short-Term (5sec) Mild Mild Mechanical EQ No I (3) SR O VF-Y0005A Emergency Exhaust ACU Isolation Damper (ESR) Open FHA 137-A25A Continuous Harsh Harsh Electrical EQ No I (3) SR O VF-Y0006B Emergency Exhaust ACU Isolation Damper (ESR) Open FHA 120-A24A Continuous Harsh Harsh Electrical EQ No I (3) SR O VF-Y0007A Emergency Exhaust Flow Control Damper (ESR) Modulation FHA 137-A25A Continuous Harsh Harsh Electrical EQ No I (3) SR O VF-Y0008B Emergency Exhaust Flow Control Damper (ESR) Modulation FHA 120-A24A Continuous Harsh Harsh Electrical EQ No I (3) SR O Auxiliary Building Controlled Area HVAC System Aux. Bldg Controlled Area I Emergency Exhaust VK-AU01A ESF AB 120-A21A Continuous Harsh Harsh Mechanical EQ No I (3) SR O ACU Aux. Bldg Controlled Area I Emergency Exhaust VK-AU01C ESF AB 120-A32A Continuous Harsh Harsh Mechanical EQ No I (3) SR O ACU Aux. Bldg Controlled Area II Emergency Exhaust VK-AU01B ESF AB 120-A29B Continuous Harsh Harsh Mechanical EQ No I (3) SR O ACU Aux. Bldg Controlled Area II Emergency Exhaust VK-AU01D ESF AB 120-A30B Continuous Harsh Harsh Mechanical EQ No I (3) SR O ACU CS Pump & Miniflow Heat Exchanger Room Cubicle VK-HV10A Cooling AB 050-A01C Continuous Harsh Harsh Mechanical EQ No I (3) SR Cooler CS Pump & Miniflow Heat Exchanger Room Cubicle VK-HV10B Cooling AB 050-A01D Continuous Harsh Harsh Mechanical EQ No I (3) SR Cooler VK-HV11A SI Pump Room Cubicle Cooler Cooling AB 050-A02C Continuous Harsh Harsh Mechanical EQ No I (3) SR VK-HV11B SI Pump Room Cubicle Cooler Cooling AB 050-A02D Continuous Harsh Harsh Mechanical EQ No I (3) SR VK-HV12A SI Pump Room Cubicle Cooler Cooling AB 050-A03A Continuous Harsh Harsh Mechanical EQ No I (3) SR VK-HV12B SI Pump Room Cubicle Cooler Cooling AB 050-A03B Continuous Harsh Harsh Mechanical EQ No I (3) SR VK-HV13A CCW Pump Room Cubicle Cooler Cooling AB 055-A02A Continuous Mild Mild Mechanical EQ No I (3) SR VK-HV13B CCW Pump Room Cubicle Cooler Cooling AB 055-A02B Continuous Mild Mild Mechanical EQ No I (3) SR KEPCO & KHNP 71

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (30 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

VK-HV14A CCW Pump Room Cubicle Cooler Cooling AB 055-A02C Continuous Mild Mild Mechanical EQ No I (3) SR VK-HV14B CCW Pump Room Cubicle Cooler Cooling AB 055-A02D Continuous Mild Mild Mechanical EQ No I (3) SR VK-HV15A CS Heat Exchanger Room Cubicle Cooler Cooling AB 055-A01C Continuous Harsh Harsh Mechanical EQ No I (3) SR VK-HV15B CS Heat Exchanger Room Cubicle Cooler Cooling AB 055-A01D Continuous Harsh Harsh Mechanical EQ No I (3) SR SC Pump & Miniflow Heat Exchanger Room Cubicle VK-HV16A Cooling AB 050-A04A Continuous Harsh Harsh Mechanical EQ No I (3) SR Cooler SC Pump & Miniflow Heat Exchanger Room Cubicle VK-HV16B Cooling AB 050-A04B Continuous Harsh Harsh Mechanical EQ No I (3) SR Cooler VK-HV17A SC Heat Exchanger Room Cubicle Cooler Cooling AB 055-A30A Continuous Harsh Harsh Mechanical EQ No I (3) SR VK-HV17B SC Heat Exchanger Room Cubicle Cooler Cooling AB 055-A30B Continuous Harsh Harsh Mechanical EQ No I (3) SR VK-HV18A Charging Pump Room Cubicle Cooler Cooling AB 055-A42A Continuous Harsh Harsh Mechanical EQ No I (3) SR VK-HV18B Charging Pump Room Cubicle Cooler Cooling AB 055-A55B Continuous Harsh Harsh Mechanical EQ No I (3) SR VK-HV19A Mechanical Penetration Room Cubicle Cooler Cooling AB 100-A13A Continuous Harsh Harsh Mechanical EQ No I (3) SR VK-HV19B Mechanical Penetration Room Cubicle Cooler Cooling AB 100-A13B Continuous Harsh Harsh Mechanical EQ No I (3) SR VK-HV20A Mechanical Penetration Room Cubicle Cooler Cooling AB 120-A16A Continuous Harsh Harsh Mechanical EQ No I (3) SR VK-HV20B Mechanical Penetration Room Cubicle Cooler Cooling AB 120-A16B Continuous Harsh Harsh Mechanical EQ No I (3) SR VK-HV21B Aux. Charging Pump Room Cubicle Cooler Cooling AB 055-A54B Continuous Harsh Harsh Mechanical EQ No I (3) SR Aux. Bldg Controlled Area Emergency Exhaust ACU VK-HV22A Cooling AB 120-A21A Continuous Harsh Harsh Mechanical EQ No I (3) SR Room Cubicle Cooler Aux. Bldg Controlled Area Emergency Exhaust ACU VK-HV22B Cooling AB 120-A29B Continuous Harsh Harsh Mechanical EQ No I (3) SR Room Cubicle Cooler Aux. Bldg Controlled Area Emergency Exhaust ACU VK-HV23A Cooling AB 120-A32A Continuous Harsh Harsh Mechanical EQ No I (3) SR Room Cubicle Cooler Aux. Bldg Controlled Area Emergency Exhaust ACU VK-HV23B Cooling AB 120-A30B Continuous Harsh Harsh Mechanical EQ No I (3) SR Room Cubicle Cooler Aux. Bldg Controlled Area Emergency Exhaust ACU Flow VK-Y0001A Modulation AB 120-A21A Continuous Harsh Harsh Electrical EQ No I (3) SR Control Damper (ESR)

Aux. Bldg Controlled Area Emergency Exhaust ACU Flow VK-Y0001B Control Damper (ESR)

Modulation AB 120-A29B Continuous Harsh Harsh Electrical EQ No I (3) SR O Aux. Bldg Controlled Area Emergency Exhaust ACU Flow VK-Y0001C Control Damper (ESR)

Modulation AB 120-A32A Continuous Harsh Harsh Electrical EQ No I (3) SR O Aux. Bldg Controlled Area Emergency Exhaust ACU Flow VK-Y0001D Control Damper (ESR)

Modulation AB 120-A30B Continuous Harsh Harsh Electrical EQ No I (3) SR O Aux. Bldg Controlled Area Emergency Exhaust ACU VK-Y0002A Isolation Damper (ESR)

Open AB 120-A32A Continuous Harsh Harsh Electrical EQ No I (3) SR O Aux. Bldg Controlled Area Emergency Exhaust ACU VK-Y0002B Isolation Damper (ESR)

Open AB 120-A29B Continuous Harsh Harsh Electrical EQ No I (3) SR O KEPCO & KHNP 72

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (31 of 51)

Required Influence Equipment Environmental Radiation Seismic Tag No. Equipment Identification Building Room No. Operational Designation of Remarks Classification HF Sensitive Function Condition(1) Condition (4),(6) Cat.

Time Immersion(11)

Aux. Bldg Controlled Area Emergency Exhaust ACU VK-Y0002C Isolation Damper (ESR)

Open AB 120-A21A Continuous Harsh Harsh Electrical EQ No I (3) SR O Aux. Bldg Controlled Area Emergency Exhaust ACU VK-Y0002D Isolation Damper (ESR)

Open AB 120-A30B Continuous Harsh Harsh Electrical EQ No I (3) SR O Aux. Bldg Controlled Area Supply AHU Outlet VK-Y0017A Isolation Damper (PSR)

ESF AB 100-A20A Short-Term (5sec) Mild Mild Mechanical EQ No I (3) SR O Aux. Bldg Controlled Area Supply AHU Outlet VK-Y0018A Isolation Damper (PSR)

ESF AB 137-A29B Short-Term (5sec) Mild Mild Mechanical EQ No I (3) SR O Aux. Bldg Controlled Area Supply AHU Outlet VK-Y0019B Isolation Damper (PSR)

ESF AB 100-A20A Short-Term (5sec) Mild Mild Mechanical EQ No I (3) SR O Aux. Bldg Controlled Area Supply AHU Outlet VK-Y0020B Isolation Damper (PSR)

ESF AB 137-A29B Short-Term (5sec) Mild Mild Mechanical EQ No I (3) SR O Aux. Bldg Controlled Area Normal Exhaust ACU VK-Y0021A Inlet Isolation Damper (PSR)

ESF AB 156-A14A Short-Term (5sec) Mild Mild Mechanical EQ No I (3) SR O Aux. Bldg Controlled Area Normal Exhaust ACU VK-Y0022A Inlet Isolation Damper (PSR)

ESF AB 195-A08B Short-Term (5sec) Mild Mild Mechanical EQ No I (3) SR O Aux. Bldg Controlled Area Normal Exhaust ACU VK-Y0023B Inlet Isolation Damper (PSR)

ESF AB 156-A14A Short-Term (5sec) Mild Mild Mechanical EQ No I (3) SR O Aux. Bldg Controlled Area Normal Exhaust ACU VK-Y0024B Inlet Isolation Damper (PSR)

ESF AB COL 3.11(7) Short-Term (5sec) Mild Mild Mechanical EQ No I (3) SR O VK-Y0050A Post Accident Sample Room Isolation Damper (PSR) Open AB 055-A22A Continuous Harsh Harsh Mechanical EQ No I (3) SR O VK-Y0050B Post Accident Sample Room Isolation Damper (PSR) Open AB 055-A22B Continuous Harsh Harsh Mechanical EQ No I (3) SR O VK-Y0050C Post Accident Sample Room Isolation Damper (PSR) Open AB 055-A22A Continuous Harsh Harsh Mechanical EQ No I (3) SR O VK-Y0050D Post Accident Sample Room Isolation Damper (PSR) Open AB 055-A22B Continuous Harsh Harsh Mechanical EQ No I (3) SR O Auxiliary Building Clean Area HVAC System VO-HV31A Essential Chiller Room Cubicle Cooler Cooling AB 078-A11C Continuous Mild Mild Mechanical EQ No I (3) SR VO-HV31B Essential Chiller Room Cubicle Cooler Cooling AB 078-A12D Continuous Mild Mild Mechanical EQ No I (3) SR VO-HV32A Essential Chiller Room Cubicle Cooler Cooling AB 078-A12C Continuous Mild Mild Mechanical EQ No I (3) SR VO-HV32B Essential Chiller Room Cubicle Cooler Cooling AB 078-A11D Continuous Mild Mild Mechanical EQ No I (3) SR VO-HV33A Motor- Driven AFW Pump Room Cubicle Cooler Cooling AB 078-A20A Continuous Mild Mild Mechanical EQ No I (3) SR VO-HV33B Motor- Driven AFW Pump Room Cubicle Cooler Cooling AB 078-A20B Continuous Mild Mild Mechanical EQ No I (3) SR Reactor Containment Purge System High Volume Containment Purge System Supply VQ-V0012 CIV, Butterfly Valve and Actuator ESF RCB 156-C01 Short-Term (5sec) Harsh Harsh Electrical EQ No I (3) SR O High Volume Containment Purge System Supply VQ-V0011 CIV, Butterfly Valve and Actuator ESF AB 174-A16B Short-Term (5sec) Mild Mild Electrical EQ No I (3) SR O High Volume Containment Purge System Exhaust VQ-V0013 CIV, Butterfly Valve Actuator ESF RCB 156-C01 Short-Term (5sec) Harsh Harsh Electrical EQ No I (3) SR O KEPCO & KHNP 73

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (32 of 51)

Required Influence Equipment Environmental Radiation Seismic Tag No. Equipment Identification Building Room No. Operational Designation of Remarks Classification HF Sensitive Function Condition(1) Condition (4),(6) Cat.

Time Immersion(11)

High Volume Containment Purge System Exhaust VQ-V0014 CIV, Butterfly Valve Actuator ESF AB 174-A16B Short-Term (5sec) Mild Mild Electrical EQ No I (3) SR O Low Volume Containment Purge System Supply CIV, VQ-V0031 Butterfly Valve and Actuator ESF AB 174-A16B Short-Term (5sec) Mild Mild Mechanical EQ No I (3) SR O Low Volume Containment Purge System Supply CIV, VQ-V0032 Butterfly Valve and Actuator ESF RCB 156-C01 Short-Term (5sec) Harsh Harsh Mechanical EQ No I (3) SR O Low Volume Cont. Purge System Exhaust CIV, VQ-V0033 Butterfly Valve and Actuator ESF RCB 156-C01 Short-Term (5sec) Harsh Harsh Mechanical EQ No I (3) SR O Low Volume Cont. Purge System Exhaust CIV, VQ-V0034 Butterfly Valve and Actuator ESF AB 174-A16B Short-Term (5sec) Mild Mild Mechanical EQ No I (3) SR O Hydrogen Monitoring System Various Hydrogen Analyzers ESF AB COL 3.11(7) Continuous Harsh Harsh Electrical EQ No I Plant Chilled Water System PCW Supply to Containment Ventilation Units CIV, WI-V013 Gate Valve and Actuator ESF AB 100-A16C Short-Term (60sec) Harsh Harsh Mechanical EQ No I (3) SR O PCW Supply to Containment Ventilation Units CIV, WI-V014 Relief RCB 114-C01A Continuous Harsh Harsh Mechanical EQ No I (3) SR Check Valve PCW Return from Containment Ventilation Units WI-V015 CIV, Gate Valve and Actuator ESF RCB 114-C01A Short-Term (60sec) Harsh Harsh Electrical EQ No I (3) SR O PCW Return from Containment Ventilation Units WI-V012 CIV, Gate Valve and Actuator ESF AB 100-A16C Short-Term (60sec) Harsh Harsh Mechanical EQ No I (3) SR O Essential Chilled Water System WO-CH01A Essential Chiller Cooling AB 078-A11C Continuous Mild Mild Mechanical EQ No I SR WO-CH01B Essential Chiller Cooling AB 078-A11D Continuous Mild Mild Mechanical EQ No I SR WO-CH02A Essential Chiller Cooling AB 078-A12C Continuous Mild Mild Mechanical EQ No I SR WO-CH02B Essential Chiller Cooling AB 078-A12D Continuous Mild Mild Mechanical EQ No I SR WO-PP01A Essential Chilled Water Pump Cooling AB 078-A11C Continuous Mild Mild Mechanical EQ No I (3) SR WO-PP01B Essential Chilled Water Pump Cooling AB 078-A11D Continuous Mild Mild Mechanical EQ No I (3) SR WO-PP02A Essential Chilled Water Pump Cooling AB 078-A12C Continuous Mild Mild Mechanical EQ No I (3) SR WO-PP02B Essential Chilled Water Pump Cooling AB 078-A12D Continuous Mild Mild Mechanical EQ No I (3) SR WO-PP03A Essential Chilled Water Make-up Pump Cooling AB 120-A10C Continuous Mild Mild Mechanical EQ No I (3) SR WO-PP03B Essential Chilled Water Make-up Pump Cooling AB 120-A10D Continuous Mild Mild Mechanical EQ No I (3) SR WO-V1001A ECW Compression Tank Relief valve Relief AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR WO-V1001B ECW Compression Tank Relief valve Relief AB COL 3.11(7) Continuous Mild Mild Mechanical EQ No I (3) SR KEPCO & KHNP 74

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (33 of 51)

Required Influence Equipment Environmental Radiation Seismic Tag No. Equipment Identification Building Room No. Operational Designation of Remarks Classification HF Sensitive Function Condition(1) Condition (4),(6) Cat.

Time Immersion(11)

Control Room Supply AHU Chilled Water 3-Way WO-V0906A Cooling AB 174-A24C Continuous Harsh Harsh Mechanical EQ No I (3) SR Valve Control Room Supply AHU Chilled Water 3-Way WO-V0906B Cooling AB 174-A24D Continuous Harsh Harsh Mechanical EQ No I (3) SR Valve Control Room Supply AHU Chilled Water 3-Way WO-V0906C Cooling AB 174-A23C Continuous Mild Mild Mechanical EQ No I (3) SR Valve Control Room Supply AHU Chilled Water 3-Way WO-V0906D Cooling AB 174-A23D Continuous Mild Mild Mechanical EQ No I (3) SR Valve EDG Room Normal Supply AHU Chilled Water 3-WO-V0917A Cooling AB 174-A14C Continuous Mild Mild Mechanical EQ No I (3) SR Way Valve EDG Room Normal Supply AHU Chilled Water 3-WO-V0917B Cooling AB 174-A14D Continuous Mild Mild Mechanical EQ No I (3) SR Way Valve EDG Room Normal Supply AHU Chilled Water 3-WO-V0918A Cooling AB 135-H03A Continuous Mild Mild Mechanical EQ No I (3) SR Way Valve EDG Room Normal Supply AHU Chilled Water 3-WO-V0918B Cooling AB 135-H03B Continuous Mild Mild Mechanical EQ No I (3) SR Way Valve Electrical EQ WO-LP01A Essential Chilled Water System Control Panel (12) Control AB 078-A11C Continuous Mild Mild (EMC)

No I SR O Electrical EQ WO-LP01B Essential Chilled Water System Control Panel (12) Control AB 078-A11D Continuous Mild Mild (EMC)

No I SR O Electrical EQ WO-LP01C Essential Chilled Water System Control Panel (12) Control AB 078-A12C Continuous Mild Mild (EMC)

No I SR O Electrical EQ WO-LP01D Essential Chilled Water System Control Panel (12) Control AB 078-A12D Continuous Mild Mild (EMC)

No I SR O Electrical EQ WO-LI003C Field Indicator Device (12) Cooling AB COL 3.11(7) Continuous Mild Mild (EMC)

No I SR O Electrical EQ WO-LI003D Field Indicator Device (12) Cooling AB 174-A06D Continuous Mild Mild (EMC)

No I SR O Electric System PF-SW01A 4.16kV Metal Clad Switchgear Power Supply (PS) AB 078-A25A Continuous Mild Mild Electrical EQ No I SR O PF-SW01B 4.16kV Metal Clad Switchgear Power Supply (PS) AB 078-A25B Continuous Mild Mild Electrical EQ No I SR O PF-SW01C 4.16kV Metal Clad Switchgear Power Supply (PS) AB 078-A02C Continuous Mild Mild Electrical EQ No I SR O PF-SW01D 4.16kV Metal Clad Switchgear Power Supply (PS) AB 078-A02D Continuous Mild Mild Electrical EQ No I SR O PG-LC01A 480V Load Center Power Supply (PS) AB 078-A25A Continuous Mild Mild Electrical EQ No I SR O PG-LC01B 480V Load Center Power Supply (PS) AB 078-A25B Continuous Mild Mild Electrical EQ No I SR O PG -LC01C 480V Load Center Power Supply (PS) AB 078-A03C Continuous Mild Mild Electrical EQ No I SR O PG -LC01D 480V Load Center Power Supply (PS) AB 078-A03D Continuous Mild Mild Electrical EQ No I SR O PG -LC02 480V Load Center Power Supply (PS) AB 078-A58B Continuous Mild Mild Electrical EQ No I SR O PH-MC01A 480V Motor Control Center Power Supply (PS) AB 100-A12A Continuous Mild Mild Electrical EQ No I SR O KEPCO & KHNP 75

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (34 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

PH -MC02A 480V Motor Control Center Power Supply (PS) AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O PH -MC03A 480V Motor Control Center Power Supply (PS) AB 137-A23A Continuous Mild Mild Electrical EQ No I SR O PH -MC04A 480V Motor Control Center Power Supply (PS) AB 137-A15A Continuous Mild Mild Electrical EQ No I SR O PH -MC05A 480V Motor Control Center Power Supply (PS) AB 100-H01A Continuous Mild Mild Electrical EQ No I SR O PH -MC01B 480V Motor Control Center Power Supply (PS) AB 100-A12B Continuous Mild Mild Electrical EQ No I SR O PH -MC02B 480V Motor Control Center Power Supply (PS) AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O PH -MC03B 480V Motor Control Center Power Supply (PS) AB 120-A15B Continuous Mild Mild Electrical EQ No I SR O PH -MC04B 480V Motor Control Center Power Supply (PS) AB 137-A15B Continuous Mild Mild Electrical EQ No I SR O PH -MC05B 480V Motor Control Center Power Supply (PS) AB 100-H01B Continuous Mild Mild Electrical EQ No I SR O PH -MC01C 480V Motor Control Center Power Supply (PS) AB 078-A03C Continuous Mild Mild Electrical EQ No I SR O PH -MC02C 480V Motor Control Center Power Supply (PS) AB 078-A03C Continuous Mild Mild Electrical EQ No I SR O PH -MC03C 480V Motor Control Center Power Supply (PS) AB 137-A10C Continuous Mild Mild Electrical EQ No I SR O PH -MC04C 480V Motor Control Center Power Supply (PS) AB 100-A02C Continuous Mild Mild Electrical EQ No I SR O PH -MC01D 480V Motor Control Center Power Supply (PS) AB 078-A03D Continuous Mild Mild Electrical EQ No I SR O PH -MC02D 480V Motor Control Center Power Supply (PS) AB 078-A03D Continuous Mild Mild Electrical EQ No I SR O PH -MC03D 480V Motor Control Center Power Supply (PS) AB 137-A10D Continuous Mild Mild Electrical EQ No I SR O PH -MC04D 480V Motor Control Center Power Supply (PS) AB 100-A02D Continuous Mild Mild Electrical EQ No I SR O RC-SQ01A Local Starter Power Supply (PS) AB 137A18A Continuous Mild Mild Electrical EQ No I SR O RC-SQ01B Local Starter Power Supply (PS) AB 137A18B Continuous Mild Mild Electrical EQ No I SR O RC-SQ01C Local Starter Power Supply (PS) AB 120A09C Continuous Mild Mild Electrical EQ No I SR O RC-SQ01D Local Starter Power Supply (PS) AB 120A09D Continuous Mild Mild Electrical EQ No I SR O RC-SQ02A Local Starter Power Supply (PS) AB 137A18A Continuous Mild Mild Electrical EQ No I SR O RC-SQ02B Local Starter Power Supply (PS) AB 137A18B Continuous Mild Mild Electrical EQ No I SR O RC-SQ02C Local Starter Power Supply (PS) AB 120A09C Continuous Mild Mild Electrical EQ No I SR O RC-SQ02D Local Starter Power Supply (PS) AB 120A09D Continuous Mild Mild Electrical EQ No I SR O RC-SQ03C Local Starter Power Supply (PS) AB 120A09C Continuous Mild Mild Electrical EQ No I SR O RC-SQ03D Local Starter Power Supply (PS) AB 120A09D Continuous Mild Mild Electrical EQ No I SR O SI-SQ01C Local Starter Power Supply (PS) AB 120A09C Continuous Mild Mild Electrical EQ No I SR O KEPCO & KHNP 76

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (35 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

SI-SQ01D Local Starter Power Supply (PS) AB 120A09D Continuous Mild Mild Electrical EQ No I SR O SI-SQ02C Local Starter Power Supply (PS) AB 100A22A Continuous Mild Mild Electrical EQ No I SR O SI-SQ02D Local Starter Power Supply (PS) AB 120A15B Continuous Mild Mild Electrical EQ No I SR O IW-SQ01C Local Starter Power Supply (PS) AB 120A09C Continuous Mild Mild Electrical EQ No I SR O IW-SQ01D Local Starter Power Supply (PS) AB 120A09D Continuous Mild Mild Electrical EQ No I SR O IW-SQ02C Local Starter Power Supply (PS) AB 120A09C Continuous Mild Mild Electrical EQ No I SR O IW-SQ02D Local Starter Power Supply (PS) AB 120A09D Continuous Mild Mild Electrical EQ No I SR O CV-SQ01B Local Starter Power Supply (PS) AB 137A18B Continuous Mild Mild Electrical EQ No I SR O VK-SQ01 Local Starter Power Supply (PS) AB 055A50B Continuous Mild Mild Electrical EQ No I SR O Various Local Control Station Power Supply (PS) AB Various Continuous Mild Mild Electrical EQ No I SR O DC-BT01A 125Vdc Battery with Rack Power Supply (PS) AB 100-A11A Continuous Mild Mild Electrical EQ No I SR O DC-BT01B 125Vdc Battery with Rack Power Supply (PS) AB 100-A11B Continuous Mild Mild Electrical EQ No I SR O DC-BT01C 125Vdc Battery with Rack Power Supply (PS) AB 078-A07C Continuous Mild Mild Electrical EQ No I SR O DC-BT01D 125Vdc Battery with Rack Power Supply (PS) AB 078-A07D Continuous Mild Mild Electrical EQ No I SR O DC-BC01A 480Vac/125Vdc Battery Charger Power Supply (PS) AB 078-A56A Continuous Mild Mild Electrical EQ No I SR O DC-BC01B 480Vac/125Vdc Battery Charger Power Supply (PS) AB 078-A56B Continuous Mild Mild Electrical EQ No I SR O DC-BC01C 480Vac/125Vdc Battery Charger Power Supply (PS) AB 078-A05C Continuous Mild Mild Electrical EQ No I SR O DC-BC01D 480Vac/125Vdc Battery Charger Power Supply (PS) AB 078-A05D Continuous Mild Mild Electrical EQ No I SR O DC-BC02A 480Vac/125Vdc Standby Battery Charger Power Supply (PS) AB 078-A56A Continuous Mild Mild Electrical EQ No I SR O DC-BC02B 480Vac/125Vdc Standby Battery Charger Power Supply (PS) AB 078-A56B Continuous Mild Mild Electrical EQ No I SR O DC-BC02C 480Vac/125Vdc Standby Battery Charger Power Supply (PS) AB 078-A05C Continuous Mild Mild Electrical EQ No I SR O DC-BC02D 480Vac/125Vdc Standby Battery Charger Power Supply (PS) AB 078-A05D Continuous Mild Mild Electrical EQ No I SR O DC-MC01A 125Vdc Control Center Power Supply (PS) AB 078-A56A Continuous Mild Mild Electrical EQ No I SR O DC-MC01B 125Vdc Control Center Power Supply (PS) AB 078-A56B Continuous Mild Mild Electrical EQ No I SR O DC-MC01C 125Vdc Control Center Power Supply (PS) AB 078-A05C Continuous Mild Mild Electrical EQ No I SR O DC-MC01D 125Vdc Control Center Power Supply (PS) AB 078-A05D Continuous Mild Mild Electrical EQ No I SR O IP-TR01A 480Vac/120Vac Regulating Transformer Power Supply (PS) AB 078-A56A Continuous Mild Mild Electrical EQ No I SR O IP-TR01B 480Vac/120Vac Regulating Transformer Power Supply (PS) AB 078-A56B Continuous Mild Mild Electrical EQ No I SR O IP-TR01C 480Vac/120Vac Regulating Transformer Power Supply (PS) AB 078-A05C Continuous Mild Mild Electrical EQ No I SR O IP-TR01D 480Vac/120Vac Regulating Transformer Power Supply (PS) AB 078-A05D Continuous Mild Mild Electrical EQ No I SR O IP-IN01A 125Vdc/120Vac Inverter Power Supply (PS) AB 078-A56A Continuous Mild Mild Electrical EQ No I SR O KEPCO & KHNP 77

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (36 of 51)

Required Influence Equipment Environmental Radiation Seismic Tag No. Equipment Identification Building Room No. Operational Designation of Remarks Classification HF Sensitive Function Condition(1) Condition (4),(6) Cat.

Time Immersion(11)

IP-IN01B 125Vdc/120Vac Inverter Power Supply (PS) AB 078-A56B Continuous Mild Mild Electrical EQ No I SR O IP-IN01C 125Vdc/120Vac Inverter Power Supply (PS) AB 078-A05C Continuous Mild Mild Electrical EQ No I SR O IP-IN01D 125Vdc/120Vac Inverter Power Supply (PS) AB 078-A05D Continuous Mild Mild Electrical EQ No I SR O SI-SQ02C 125Vdc Local Starter Power Supply (PS) AB 100-A22A Continuous Mild Mild Electrical EQ No I SR O SI-SQ02D 125Vdc Local Starter Power Supply (PS) AB 120-A15B Continuous Mild Mild Electrical EQ No I SR O AF-SQ01C 125Vdc Local Starter Power Supply (PS) AB 120-A09C Continuous Mild Mild Electrical EQ No I SR O AF-SQ01D 125Vdc Local Starter Power Supply (PS) AB 120-A09D Continuous Mild Mild Electrical EQ No I SR O Electrical Penetration Assemblies - Medium Voltage Various Power Supply (PS) RCB 136-C01A,B Continuous Harsh Harsh Electrical EQ No I SR Power Electrical Penetration Assemblies - Low Voltage 136-C01A,B Various Power Supply (PS) RCB Continuous Harsh Harsh Electrical EQ No I SR Power & Control 114-C01A,B Electrical Penetration Assemblies - Low Voltage 136-C01A,B Various Power Supply (PS) RCB Continuous Harsh Harsh Electrical EQ No I SR Instrumentation 114-C01A,B Various Electrical Conductor Sealing Assemblies Power Supply (PS) RCB Various Continuous Harsh Harsh Electrical EQ No I SR N/A(10) 5kV Power Cables Power Supply (PS) Various Various Continuous Mild/Harsh Mild/Harsh Electrical EQ No I SR N/A(10) 600V Power Cables Power Supply (PS) Various Various Continuous Mild/Harsh Mild/Harsh Electrical EQ No I SR N/A(10) 600V Control Cables Various Various Various Continuous Mild/Harsh Mild/Harsh Electrical EQ No I SR N/A(10) 600V Instrumentation Cables Various Various Various Continuous Mild/Harsh Mild/Harsh Electrical EQ No I SR N/A(10)

Thermocouple Extension Cables Various Various Various Continuous Mild/Harsh Mild/Harsh Electrical EQ No I SR N/A(10) Coaxial Cables Various Various Various Continuous Mild/Harsh Mild/Harsh Electrical EQ No I SR N/A(10)

RSPT Type I & II Cable Assemblies RT RCB Various Continuous Harsh Harsh Electrical EQ No I SR N/A(10)

ICI Cable Assemblies PAM RCB Various Continuous Harsh Harsh Electrical EQ No I SR N/A(10) HJTC Cable Assemblies PAM RCB Various Continuous Harsh Harsh Electrical EQ No I SR N/A(10)

RSPT Type I, II Cable RT RCB Various Continuous Harsh Harsh Electrical EQ No I SR N/A(10)

Reed Switch Position Transmitter RT RCB Various Continuous Mild Mild Electrical EQ No I SR N/A(10)

HJTC MI Cables & Connectors PAM RCB Various Continuous Harsh Harsh Electrical EQ No I SR N/A(10) HJTC Probe PAM RCB Various Continuous Harsh Harsh Electrical EQ No I SR N/A(10)

ICI MI Cable & Connectors PAM RCB Various Continuous Harsh Harsh Electrical EQ No I SR N/A(10)

ICI Assembly PAM RCB Various Continuous Harsh Harsh Electrical EQ No I SR Instrumentation and Control System AFW-FT- Electrical EQ AFW Flow Transmitter, Channel A (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0047A (EMC)

AFW-FT- Electrical EQ AFW Flow Transmitter, Channel B (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0048B (EMC)

KEPCO & KHNP 78

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (37 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

AFW-FT- Electrical EQ AFW Flow Transmitter, Channel C (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0049C (EMC)

AFW-FT- Electrical EQ AFW Flow Transmitter, Channel D (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0050D (EMC)

AFW-TE-AFW Line Back Leakage Temp. Element, Ch. A Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh Electrical EQ No I SR O 0053A AFW-TE-AFW Line Back Leakage Temp. Element, Ch. B Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh Electrical EQ No I SR O 0054B AFW-TE-AFW Line Back Leakage Temp. Element, Ch. C Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh Electrical EQ No I SR O 0053C AFW-TE-AFW Line Back Leakage Temp. Element, Ch. D Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh Electrical EQ No I SR O 0054D AFW-PT- Electrical EQ AFW Pump Suction Pressure Transmitter, Channel A (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0005A (EMC)

AFW-PT- Electrical EQ AFW Pump Suction Pressure Transmitter, Channel A (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0006B (EMC)

AFW-PT- Electrical EQ AFW Pump Suction Pressure Transmitter, Channel A (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0007C (EMC)

AFW-PT- Electrical EQ AFW Pump Suction Pressure Transmitter, Channel A (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0008D (EMC)

AFW-PT- Electrical EQ AFW Pump Discharge Pressure Transmitter, Channel A (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0023A (EMC)

AFW-PT- Electrical EQ AFW Pump Discharge Pressure Transmitter, Channel B (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0024B (EMC)

AFW-PT- Electrical EQ AFW Pump Discharge Pressure Transmitter, Channel C (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0025C (EMC)

AFW-PT- Electrical EQ AFW Pump Discharge Pressure Transmitter, Channel D (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0026D (EMC)

AFW-Z- AFW Flow Modulating Valve Position Transmitter, Channel A Electrical EQ Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0035A (12) (EMC)

AFW-Z- AFW Flow Modulating Valve Position Transmitter, Channel B Electrical EQ Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0036B (12) (EMC)

AFW-Z- AFW Flow Modulating Valve Position Transmitter, Channel C Electrical EQ Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0037C (12) (EMC)

AFW-Z- AFW Flow Modulating Valve Position Transmitter, Channel D Electrical EQ Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0038D (12) (EMC)

AT-LT- Electrical EQ AFW Turbine Steam Drip Leg Level Transmitter, Channel C (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0003C (EMC)

AT-LT- Electrical EQ AFW Turbine Steam Drip Leg Level, Channel D (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0004D (EMC)

AT-PT- Electrical EQ AFW Turbine Inlet Steam Pressure Transmitter, Channel C (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0013C (EMC)

AT-PT- Electrical EQ AFW Turbine Inlet Steam Pressure Transmitter, Channel D (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0014D (EMC)

AT- Electrical EQ AFW Pump Turbine Speed Transmitter, Channel C (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O S'(3)035C (EMC)

AT- Electrical EQ AFW Pump Turbine Speed Transmitter, Channel D (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O S'(3)036D (EMC)

AX-LT- Electrical EQ AFWST 1 Level Transmitter Channel A (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0003A (EMC)

AX-LT- Electrical EQ AFWST 2 Level Transmitter, Channel B (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0004B (EMC)

KEPCO & KHNP 79

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (38 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

AX-LT- Electrical EQ AFWST 2 Level Transmitter, Channel A (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0005A (EMC)

AX-LT- Electrical EQ AFWST 2 Level Transmitter, Channel C (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0005C (EMC)

AX-LT- Electrical EQ AFWST 2 Level Transmitter, Channel D (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0005D (EMC)

AX-LT- Electrical EQ AFWST 1 Level Transmitter Channel B (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0006B (EMC)

AX-LT- Electrical EQ AFWST 1 Level Transmitter, Channel C (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0006C (EMC)

AX-LT- Electrical EQ AFWST 1 Level Transmitter, Channel D (12) Aux. Feedwater AB COL 3.11(7) Continuous Harsh Harsh No I SR O 0006D (EMC)Q CC-FT- Component Electrical EQ CCW Flow Transmitter, Channel A (12) CCWPH COL 3.11(7) Continuous Mild Mild No I SR O 0071A Cooling WTR. (EMC)

CC-FT- Component Electrical EQ CCW Flow Transmitter, Channel B (12) CCWPH COL 3.11(7) Continuous Mild Mild No I SR O 0071B Cooling WTR. (EMC)

CC-TE- Component CCW Temperature Element, Channel A CCWPH COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O 069A Cooling WTR.

CC-TE- Component CCW Temperature Element, Channel B CCWPH COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O 070B Cooling WTR.

Electrical EQ CE-SW-01A RTSS Cabinet (2), Channel A (12) RT AB 137-A36C Continuous Mild Mild No I SR O (EMC)

Electrical EQ CE-SW-01B RTSS Cabinet (2), Channel B (12) RT AB 137-A38C Continuous Mild Mild No I SR O (EMC)

Electrical EQ CE-SW-01C RTSS Cabinet (2), Channel C (12) RT AB 137-A35C Continuous Mild Mild No I SR O (EMC)

Electrical EQ CE-SW-01D RTSS Cabinet (2), Channel D (12) RT AB 137-A37C Continuous Mild Mild No I SR O (EMC)

Containment Hydrogen Electrical EQ CM-LP01A Containment Hydrogen Analyzer Cabinet (2) (12) AB 120-A20A Continuous Harsh Harsh No I SR O Concentration (EMC)

Monitoring Containment Hydrogen Electrical EQ CM-LP01B Containment Hydrogen Analyzer Cabinet (2) (12) AB 120-A36B Continuous Harsh Harsh No I SR O Concentration (EMC)

Monitoring Containment Hydrogen Electrical EQ CM-LP02A Containment Hydrogen Analyzer Cabinet (2) (12) AB 137-A17A Continuous Mild Mild No I SR O Concentration (EMC)

Monitoring Containment Hydrogen Electrical EQ CM-LP02B Containment Hydrogen Analyzer Cabinet (2) (12) AB 137-A17B Continuous Mild Mild No I SR O Concentration (EMC)

Monitoring CM- Electrical Containment Pressure Protective (NR) Transmitter (12) RT/ESF AB COL 3.11(7) Short-Term Harsh Harsh No I SR O PT-351A EQ/EMC CM- Electrical Containment Pressure Protective (NR) Transmitter (12) RT/ESF AB COL 3.11(7) Short-Term Harsh Harsh No I SR O PT-351B EQ/EMC CM- Electrical Containment Pressure Protective (NR) Transmitter (12) RT/ESF AB COL 3.11(7) Short-Term Harsh Harsh No I SR O PT-351C EQ/EMC KEPCO & KHNP 80

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (39 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

Electrical CM-PT-351D Containment Pressure Protective (NR) Transmitter (12) RT/ESF AB COL 3.11(7) Short-Term Harsh Harsh No I SR O EQ/EMC RT/ESF/ Electrical CM-PT-352A Cont. Pressure Protective (WR) Transmitter (12) AB COL 3.11(7) Continuous Harsh Harsh No I SR O PAM EQ/EMC RT/ESF/ Electrical CM-PT-352B Cont. Pressure Protective (WR) Transmitter (12) AB COL 3.11(7) Continuous Harsh Harsh No I SR O PAM EQ/EMC Electrical CM-PT-352C Cont. Pressure Protective (WR) Transmitter (12) RT/ESF AB COL 3.11(7) Continuous Harsh Harsh No I SR O EQ/EMC Electrical CM-PT-352D Cont. Pressure Protective (WR) Transmitter (12) RT/ESF AB COL 3.11(7) Continuous Harsh Harsh No I SR O EQ/EMC Accident Electrical CM-TE-031A Containment Temperature Element (12) RCB COL 3.11(7) Continuous Harsh Harsh No I SR O Monitoring EQ/EMC Accident Electrical CM-LT-027A CONTAINMENT WATER LEVEL (12) AB COL 3.11(7) Continuous Mild Mild No I SR O Monitoring EQ/EMC Accident Electrical CM-LT-028B CONTAINMENT WATER LEVEL (12) AB COL 3.11(7) Continuous Mild Mild No I SR O Monitoring EQ/EMC Accident Electrical CS-FT-338C Containment Spray Pump Flow Transmitter (12) AB COL 3.11(7) Continuous Harsh Harsh No I SR O Monitoring EQ/EMC Accident Electrical CS-FT-348D Containment Spray Pump Flow Transmitter (12) AB COL 3.11(7) Continuous Harsh Harsh No I SR O Monitoring EQ/EMCQ CS-TE-071C Containment Spray Temperature Element, HX Containment Spray AB COL 3.11(7) Continuous Harsh Harsh Electrical EQ No I SR O CS-TE-072D Containment Spray Temperature Element, HX Containment Spray AB COL 3.11(7) Continuous Harsh Harsh Electrical EQ No I SR O DG-HT Water Expansion Tank Level Indicator EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LI'(3)001A DG-HT Water Expansion Tank Level Indicator EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LI'(3)001B DG-HT Water Expansion Tank Level Indicator EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LI'(3)001C DG-HT Water Expansion Tank Level Indicator EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LI'(3)001D DG-LT Water Expansion Tank Level Indicator EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LI'(3)010A DG-LT Water Expansion Tank Level Indicator EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LI'(3)010B DG-LT Water Expansion Tank Level Indicator EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LI'(3)010C DG-LT Water Expansion Tank Level Indicator EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LI'(3)010D DG-HT Water Expansion Tank Level Switch Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LS'(3)001A01 DG-HT Water Expansion Tank Level Switch Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LS'(3)001B01 DG-HT Water Expansion Tank Level Switch Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LS'(3)001C01 DG-LS'(3)001D01 HT Water Expansion Tank Level Switch Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O KEPCO & KHNP 81

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (40 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

DG-HT Water Expansion Tank Level Switch High EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LS'(3)001A02 DG-HT Water Expansion Tank Level Switch High EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LS'(3)001B02 DG-HT Water Expansion Tank Level Switch High EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LS'(3)001C02 DG-HT Water Expansion Tank Level Switch High EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LS'(3)001D02 DG-LT Water Expansion Tank Level Switch Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LS'(3)010A01 DG-LT Water Expansion Tank Level Switch Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LS'(3)010B01 DG-LT Water Expansion Tank Level Switch Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LS'(3)010C01 DG-LT Water Expansion Tank Level Switch Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LS'(3)010D01 DG-LT Water Expansion Tank Level Switch High EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LS'(3)010A02 DG-LT Water Expansion Tank Level Switch High EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LS'(3)010B02 DG-LT Water Expansion Tank Level Switch High EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LS'(3)010C02 DG-LT Water Expansion Tank Level Switch High EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O LS'(3)010D02 DG-Over Speed Air Receiver Pressure Indicator Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O PI'(3)086A DG-Over Speed Air Receiver Pressure Indicator Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O PI'(3)086B DG-Over Speed Air Receiver Pressure Indicator Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O PI'(3)086C DG-Over Speed Air Receiver Pressure Indicator Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O PI'(3)086D DG- Lube Oil/Preheating Water Heat Exchanger Inlet Pressure EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O PI'(3)142A Indicator DG- Lube Oil/Preheating Water Heat Exchanger Inlet Pressure EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O PI'(3)142B Indicator DG- Lube Oil/Preheating Water Heat Exchanger Inlet Pressure EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O PI'(3)142C Indicator DG- Lube Oil/Preheating Water Heat Exchanger Inlet Pressure EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O PI'(3)142D Indicator DG-Starting Air Receiver Pressure Indicator EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O PI'(3)176A DG-Starting Air Receiver Pressure Indicator EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O PI'(3)176B DG-Starting Air Receiver Pressure Indicator EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O PI'(3)176C DG-Starting Air Receiver Pressure Indicator EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O PI'(3)176D DG-Starting Air Receiver Pressure Indicator EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O PI'(3)177A KEPCO & KHNP 82

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (41 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

DG-PI'(3)177B Starting Air Receiver Pressure Indicator EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PI'(3)177C Starting Air Receiver Pressure Indicator EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PI'(3)177D Starting Air Receiver Pressure Indicator EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)041A Engine Inlet Lube Oil Pressure Switch Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)041B Engine Inlet Lube Oil Pressure Switch Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)041C Engine Inlet Lube Oil Pressure Switch Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)041D Engine Inlet Lube Oil Pressure Switch Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)042A Engine Inlet Lube Oil Pressure Switch Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)042B Engine Inlet Lube Oil Pressure Switch Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)042C Engine Inlet Lube Oil Pressure Switch Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)042D Engine Inlet Lube Oil Pressure Switch Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)046A Engine Inlet Lube Oil Pressure Switch Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)046B Engine Inlet Lube Oil Pressure Switch Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)046C Engine Inlet Lube Oil Pressure Switch Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)046D Engine Inlet Lube Oil Pressure Switch Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)047A Engine Inlet Lube Oil Pressure Switch Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)047B Engine Inlet Lube Oil Pressure Switch Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)047C Engine Inlet Lube Oil Pressure Switch Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)047D Engine Inlet Lube Oil Pressure Switch Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)060A Crankcase Gas Pressure Measurement Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)060B Crankcase Gas Pressure Measurement Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)060C Crankcase Gas Pressure Measurement Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)060D Crankcase Gas Pressure Measurement Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)182A Starting Air Receiver Pressure Switch Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)182B Starting Air Receiver Pressure Switch Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)182C Starting Air Receiver Pressure Switch Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O KEPCO & KHNP 83

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (42 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

DG-PS'(3)182D Starting Air Receiver Pressure Switch Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)183A Starting Air Receiver Pressure Switch Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)183B Starting Air Receiver Pressure Switch Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)183C Starting Air Receiver Pressure Switch Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PS'(3)183D Starting Air Receiver Pressure Switch Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PT'(3)110A LT Water Pump Discharge Pressure Transmitter EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PT'(3)110B LT Water Pump Discharge Pressure Transmitter EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PT'(3)110C LT Water Pump Discharge Pressure Transmitter EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-PT'(3)110D LT Water Pump Discharge Pressure Transmitter EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-TT'(3)004A HT Water Pump Suction Temperature Transmitter EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-TT'(3)004B HT Water Pump Suction Temperature Transmitter EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-TT'(3)004C HT Water Pump Suction Temperature Transmitter EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-TT'(3)004D HT Water Pump Suction Temperature Transmitter EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-TT'(3)007A HT Water Outlet Temperature Transmitter EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-TT'(3)007B HT Water Outlet Temperature Transmitter EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-TT'(3)007C HT Water Outlet Temperature Transmitter EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-TT'(3)007D HT Water Outlet Temperature Transmitter EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-TT'(3)008A HT Water Outlet Temperature Transmitter EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-TT'(3)008B HT Water Outlet Temperature Transmitter EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-TT'(3)008C HT Water Outlet Temperature Transmitter EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-TT'(3)008D HT Water Outlet Temperature Transmitter EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-TT'(3)044A Lube Oil Engine Inlet Temperature Transmitter Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-TT'(3)044B Lube Oil Engine Inlet Temperature Transmitter Low EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O KEPCO & KHNP 84

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (43 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

DG-TT'(3)044C Lube Oil Engine Inlet Temperature Transmitter Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-TT'(3)044D Lube Oil Engine Inlet Temperature Transmitter Low EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-TT'(3)045A Lube Oil Engine Inlet Temperature Transmitter High EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-TT'(3)045B Lube Oil Engine Inlet Temperature Transmitter High EDG EDGB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-TT'(3)045C Lube Oil Engine Inlet Temperature Transmitter High EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O DG-TT'(3)045D Lube Oil Engine Inlet Temperature Transmitter High EDG AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O Accident IW-TE-350 IRWST Temperature Element Monitoring RCB COL 3.11(7) Continuous Harsh Harsh Electrical EQ No I SR O Accident IW-TE- 351 IRWST Temperature Element Monitoring RCB COL 3.11(7) Continuous Harsh Harsh Electrical EQ No I SR O IW-LT- Accident 390B IRWST LEVEL Monitoring AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O IW-LT- Accident 391A IRWST LEVEL Monitoring AB COL 3.11(7) Continuous Mild Mild Electrical EQ No I SR O MS- RT/ESF/ Electrical PT-1013A SG 1 Pressure Transmitter (12)

PAM RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O MS- RT/ESF/ Electrical PT-1013B SG 1 Pressure Transmitter (12)

PAM RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O MS- Electrical PT-1013C SG 1 Pressure Transmitter (12) RT/ESF RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O MS- Electrical PT-1013D SG 1 Pressure Transmitter (12) RT/ESF RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O MS- RT/ESF/ Electrical PT-1023A SG 2 Pressure Transmitter (12)

PAM RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O MS- RT/ESF/ Electrical PT-1023B SG 2 Pressure Transmitter (12)

PAM RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O MS- Electrical PT-1023C SG 2 Pressure Transmitter (12) RT/ESF RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O MS- Electrical PT-1023D SG 2 Pressure Transmitter (12) RT/ESF RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O NR-RW- Electrical ENFMS Safety Channel Detector, Channel A (12) RT/PAM RCB COL 3.11(7) Continuous Harsh Harsh No I SR 001A EQ/EMC NR-RW- Electrical ENFMS Safety Channel Detector, Channel B (12) RT/PAM RCB COL 3.11(7) Continuous Harsh Harsh No I SR 001B EQ/EMC NR-RW- Electrical ENFMS Safety Channel Detector, Channel C (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh No I SR 001C EQ/EMC NR-RW- Electrical ENFMS Safety Channel Detector, Channel D (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh No I SR 001D EQ/EMC KEPCO & KHNP 85

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (44 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

Electrical EQ PA-PA03A ESF-CCS GC Cabinet (2) (12) ESF AB 157-A25C Continuous Mild Mild No I SR O (EMC)

Electrical EQ PA-PA03B ESF-CCS GC Cabinet (2) (12) ESF AB 157-A01D Continuous Mild Mild No I SR O (EMC)

Electrical EQ PA-PA03C ESF-CCS GC Cabinet (2) (12) ESF AB 157-A19C Continuous Harsh Harsh No I SR O (EMC)

Electrical EQ PA-PA03D ESF-CCS GC Cabinet (2) (12) ESF AB 157-A19D Continuous Harsh Harsh No I SR O (EMC)

RT/ESF Test and Electrical PA-PA04A MTP/ITP Cabinet (2), Channel A (12) AB COL 3.11(7) Continuous Mild Mild No I SR O Maintenance EQ/EMC RT/ESF Test and Electrical PA-PA04B MTP/ITP Cabinet (2), Channel B (12) AB COL 3.11(7) Continuous Mild Mild No I SR O Maintenance EQ/EMC RT/ESF Test and Electrical PA-PA04C MTP/ITP Cabinet (2), Channel C (12) AB COL 3.11(7) Continuous Mild Mild No I SR O Maintenance EQ/EMC RT/ESF Test and Electrical PA-PA04D MTP/ITP Cabinet (2), Channel D (12) AB COL 3.11(7) Continuous Mild Mild No I SR O Maintenance EQ/EMC Electrical EQ PA-PA06C ESF-CCS LC Cabinet (2) (12) ESF AB 157-A19C Continuous Harsh Harsh No I SR O (EMC)

Electrical EQ PA-PA06D ESF-CCS LC Cabinet (2) (12) ESF AB 157-A19D Continuous Harsh Harsh No I SR O (EMC)

Electriclal PA-PA14A PPS Cabinet (2), Channel A (12) RT/ESF AB COL 3.11(7) Continuous Mild Mild No I SR O EQ/EMC Electriclal PA-PA14B PPS Cabinet (2), Channel B (12) RT/ESF AB COL 3.11(7) Continuous Mild Mild No I SR O EQ/EMC Electriclal PA-PA14C PPS Cabinet (2), Channel C (12) RT/ESF AB COL 3.11(7) Continuous Mild Mild No I SR O EQ/EMC Electriclal PA-PA14D PPS Cabinet (2), Channel D (12) RT/ESF AB COL 3.11(7) Continuous Mild Mild No I SR O EQ/EMC Electriclal PA-PA15A CPCS Cabinet (2), Channel A (12) RT AB COL 3.11(7) Short-term Mild Mild No I SR O EQ/EMC Electriclal PA-PA15B CPCS Cabinet (2), Channel B (12) RT AB COL 3.11(7) Short-term Mild Mild No I SR O EQ/EMC Electriclal PA-PA15C CPCS Cabinet (2), Channel C (12) RT AB COL 3.11(7) Short-term Mild Mild No I SR O EQ/EMC Electriclal PA-PA15D CPCS Cabinet (2), Channel D (12) RT AB COL 3.11(7) Short-term Mild Mild No I SR O EQ/EMC Electrical PA-PA16A QIAS-P Cabinet (2) , Channel A (12) PAM AB COL 3.11(7) Continuous Mild Mild No I SR O EQ/EMC Electrical PA-PA16B QIAS-P Cabinet (2) , Channel B (12) PAM AB COL 3.11(7) Continuous Mild Mild No I SR O EQ/EMC SIGNAL Electrical PA-PA18A APC Cabinet (2), Channel A (12) CR COL 3.11(7) Continuous Mild Mild No I SR O SPLITING EQ/EMC SIGNAL Electrical PA-PA18B APC Cabinet (2), Channel B (12) CR COL 3.11(7) Continuous Mild Mild No I SR O SPLITING EQ/EMC SIGNAL Electrical PA-PA18C APC Cabinet (2), Channel C (12) CR COL 3.11(7) Continuous Mild Mild No I SR O SPLITING EQ/EMC SIGNAL Electrical PA-PA18D APC Cabinet (2), Channel D (12) CR COL 3.11(7) Continuous Harsh Harsh No I SR O SPLITING EQ/EMC Isolating non-safety I&C equipment Electrical EQ PA-PA29C DRCS Remote I/O Cabinet (2) (Associated Circuit) (12) AB 157A19C Continuous Harsh Harsh No I (8) NSR O from safety I&C (EMC) equipment.

KEPCO & KHNP 86

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (45 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

Isolating non-safety I&C Electrical EQ PA-PA29D DRCS Remote I/O Cabinet (2) (Associated Circuit) (12) equipment from AB 157A19D Continuous Harsh Harsh (EMC)

No I (8) NSR O safety I&C equipment.

Electrical EQ PA-PA47A BOP Radiation Monitoring Cabinet (2) (12) ESF, AMI AB 157-A01D Continuous Mild Mild (EMC)

No I SR O Electrical EQ PA-PA47B BOP Radiation Monitoring Cabinet (2) (12) ESF, AMI AB 157-A25C Continuous Mild Mild (EMC)

No I SR O Electrical PA-PA48A ENFMS Cabinet (2), Channel A (12) RT/PAM AB COL 3.11(7) Continuous Mild Mild EQ/EMC No I SR O Electrical PA-PA48B ENFMS Cabinet (2), Channel B (12) RT/PAM AB COL 3.11(7) Continuous Mild Mild EQ/EMC No I SR O Electrical PA-PA48C ENFMS Cabinet (2), Channel C (12) PAM AB COL 3.11(7) Continuous Mild Mild EQ/EMC No I SR O Electrical PA-PA48D ENFMS Cabinet (2), Channel D (12) PAM AB COL 3.11(7) Continuous Mild Mild EQ/EMC No I SR O Electrical EQ PE-LX01A ESF-CCS LC Cabinet (2), (12) ESF AB 078-A25A Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE-LX01B ESF-CCS LC Cabinet (2), (12) ESF AB 078-A25B Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE-LX01C ESF-CCS LC Cabinet (2), (12) ESF AB 078-A03C Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE-LX01D ESF-CCS LC Cabinet (2), (12) ESF AB 078-A03D Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE-LX02A ESF-CCS LC Cabinet (2), (12) ESF AB 078-A25A Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE-LX02B ESF-CCS LC Cabinet (2), (12) ESF AB 078-A25B Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE-LX02C ESF-CCS LC Cabinet (2), (12) ESF AB 078-A03C Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE-LX02D ESF-CCS LC Cabinet (2), (12) ESF AB 078-A03D Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE-LX03A ESF-CCS LC Cabinet (2), (12) ESF AB 078-A25A Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE-LX03B ESF-CCS LC Cabinet (2), (12) ESF AB 078-A25B Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE-LX03C ESF-CCS LC Cabinet (2), (12) ESF AB 078-A02C Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE-LX03D ESF-CCS LC Cabinet (2), (12) ESF AB 078-A02D Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE-LX04A ESF-CCS LC Cabinet (2), (12) ESF AB 078-A25A Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE -LX04B ESF-CCS LC Cabinet (2), (12) ESF AB 078-A25B Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE -LX04C ESF-CCS LC Cabinet (2), (12) ESF AB 137-A10C Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE -LX04D ESF-CCS LC Cabinet (2), (12) ESF AB 137-A10D Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE -LX05A ESF-CCS LC Cabinet (2), (12) ESF AB 137-A17A Continuous Mild Mild (EMC)

No I SR O KEPCO & KHNP 87

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (46 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

Electrical EQ PE -LX05B ESF-CCS LC Cabinet (2), (12) ESF AB 137-A17B Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE -LX05C ESF-CCS LC Cabinet (2), (12) ESF AB 137-A10C Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE -LX05D ESF-CCS LC Cabinet (2), (12) ESF AB 137-A10D Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE -LX06B ESF-CCS LC Cabinet (2), (12) ESF AB 078-A25B Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE -LX07A ESF-CCS LC Cabinet (2), (12) ESF AB 137-A17A Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE -LX07B ESF-CCS LC Cabinet (2), (12) ESF AB 120-A15B Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE -LX08A ESF-CCS LC Cabinet (2), (12) ESF AB 137-A15A Continuous Harsh Harsh (EMC)

No I SR O Electrical EQ PE -LX08B ESF-CCS LC Cabinet (2), (12) ESF AB 120-A15B Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE -LX09A ESF-CCS LC Cabinet (2), (12) ESF AB 137-A15A Continuous Harsh Harsh (EMC)

No I SR O Electrical EQ PE -LX09B ESF-CCS LC Cabinet (2), (12) ESF AB 137-A15B Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE -LX10A ESF-CCS LC Cabinet (2), (12) ESF AB 137-A17A Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE -LX10B ESF-CCS LC Cabinet (2), (12) ESF AB 137-A15B Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE -LX11A ESF-CCS LC Cabinet (2), (12) ESF AB 137-A17A Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE -LX11B ESF-CCS LC Cabinet (2), (12) ESF AB 137-A17B Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE -LX12A ESF-CCS LC Cabinet (2), (12) ESF AB 137-A17A Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE -LX12B ESF-CCS LC Cabinet (2), (12) ESF AB 137-A17B Continuous Mild Mild (EMC)

No I SR O Electrical EQ PE -LX13B ESF-CCS LC Cabinet (2), (12) ESF AB 137-A17B Continuous Mild Mild (EMC)

No I SR O Plant Status Electrical EQ PM-PM01 MCR RO Console , (12) Monitoring and AB 157-A12C Continuous Mild Mild (EMC)

No I (7) SR O Control Plant Status Electrical EQ PM -PM02 MCR TO/EO Console , (12) Monitoring and AB 157-A12C Continuous Mild Mild (EMC)

No I (7) SR O Control Plant Status Electrical EQ PM -PM03 MCR SS Console, (12) Monitoring and AB 157-A12C Continuous Mild Mild (EMC)

No I (7) SR O Control Plant Status Electrical EQ PM -PM04 MCR STA Console, (12) Monitoring and AB 157-A12C Continuous Mild Mild (EMC)

No I (7) SR O Control KEPCO & KHNP 88

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (47 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

Plant Status Electrical EQ PM -PM05 MCR Safety Console (12) Monitoring and AB 157-A12C Continuous Mild Mild (EMC)

No I (7) SR O Control Electriclal EQ, PM-UC-19 PPS/CPCS/ESF-CCS Operator Module, Channel A (12) PPS Monitoring AB 157-A12C Continuous Mild Mild EMC No I SR O Electriclal EQ, PM-UC-20 PPS/CPCS/ESF-CCS Operator Module, Channel B (12) PPS Monitoring AB 157-A12C Continuous Mild Mild EMC No I SR O Electriclal EQ, PM-UC-21 PPS/CPCS/ESF-CCS Operator Module, Channel C (12) PPS Monitoring AB 157-A12C Continuous Mild Mild EMC No I SR O Electriclal EQ, PM-UC-22 PPS/CPCS/ESF-CCS Operator Module, Channel D (12) PPS Monitoring AB 157-A12C Continuous Mild Mild EMC No I SR O Electrical PM-UC'(3)9 QIAS-P Display, Channel A (12) PAM CR COL 3.11(7) Continuous Mild Mild EQ/EMC No I SR O Electrical PM-UC-40 QIAS-P Display, Channel B (12) PAM CR COL 3.11(7) Continuous Mild Mild EQ/EMC No I SR O RC- Electrical PDT-115A SG 1 Differential Pressure Differential Transmitter (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical PDT-115B SG 1 Differential Pressure Differential Transmitter (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical PDT-115C SG 1 Differential Pressure Differential Transmitter (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical PDT-115D SG 1 Differential Pressure Differential Transmitter (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical PDT-125A SG 2 Differential Pressure Differential Transmitter (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical PDT-125B SG 2 Differential Pressure Differential Transmitter (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical PDT-125C SG 2 Differential Pressure Differential Transmitter (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical PDT-125D SG 2 Differential Pressure Differential Transmitter (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- RT/ESF/ Electrical PT-102A Pressurizer Pressure Transmitter (12)

PAM RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O RC- RT/ESF/ Electrical PT-102B Pressurizer Pressure Transmitter (12)

PAM RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O RC- Electrical PT-102C Pressurizer Pressure Transmitter (12) RT/ESF RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O RC- Electrical PT-102D Pressurizer Pressure Transmitter (12) RT/ESF RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O RC- SI/SCS Valve Electrical PT-103A Pressurizer Pressure Transmitter (12)

Control RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O RC- SI/SCS Valve Electrical PT-104B Pressurizer Pressure Transmitter (12)

Control RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O RC- SI/SCS Valve Electrical PT-105C Pressurizer Pressure Transmitter (12)

Control RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O RC- SI/SCS Valve Electrical PT-106D Pressurizer Pressure Transmitter (12)

Control RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O RC- RCS Pressure (Cold Leg-Pump Discharge)Transmitter Electrical PT-190A 12)

PAM RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O RC- Electrical RCS Pressure (Cold Leg-Pump Discharge)Transmitter (12) PAM RCB COL 3.11(7) Continuous Harsh Harsh No I SR PT-190B EQ/EMC KEPCO & KHNP 89

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (48 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

RC-RCP 1A Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-113A RC-RCP 1A Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-113B RC-RCP 1A Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-113C RC-RCP 1A Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-113D RC-RCP 1B Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-123A RC-RCP 1B Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-123B RC-RCP 1B Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-123C RC-RCP 1B Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-123D RC-RCP 2A Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-133A RC-RCP 2A Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-133B RC-RCP 2A Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-133C RC-RCP 2A Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-133D RC-RCP 1B Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-123A RC-RCP 1B Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-123B RC-RCP 1B Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-123C RC-RCP 1B Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-123D RC-RCP 2A Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-133A RC-RCP 2A Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-133B RC-RCP 2A Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-133C RC-RCP 2A Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-133D RC-RCP 2B Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-143A RC-RCP 2B Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-143B RC-RCP 2B Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-143C RC-RCP 2B Speed Sensor and Cable RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR SE-143D RC-RCP 1A Speed Transmitter RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR ST-113A RC-RCP 1A Speed Transmitter RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR ST-113B RC-RCP 1A Speed Transmitter RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR ST-113C RC-RCP 1A Speed Transmitter RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR ST-113D RC-RCP 1B Speed Transmitter RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR ST-123A RC-RCP 1B Speed Transmitter RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR ST-123B KEPCO & KHNP 90

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (49 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

RC-RCP 1B Speed Transmitter RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR ST-123C RC-RCP 1B Speed Transmitter RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR ST-123D RC-RCP 2A Speed Transmitter RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR ST-133A RC-RCP 2A Speed Transmitter RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR ST-133B RC-RCP 2A Speed Transmitter RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR ST-133C RC-RCP 2A Speed Transmitter RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR ST-133D RC-RCP 2B Speed Transmitter RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR ST-143A RC-RCP 2B Speed Transmitter RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR ST-143B RC-RCP 2B Speed Transmitter RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR ST-143C RC-RCP 2B Speed Transmitter RT RCB COL 3.11(7) Short-Term Harsh Harsh Electrical EQ No I SR ST-143D RC- Electrical TE-112A RCS, Hot Leg Temperature (NR) Element (5), (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical TE-112B RCS, Hot Leg Temperature (NR) Element (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical TE-112C RCS, Hot Leg Temperature (NR) Element (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical TE-112D RCS, Hot Leg Temperature (NR) Element (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical TE-113A RCS, Hot Leg Temperature (NR) Element (5),(12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical TE-113B RCS, Hot Leg Temperature (NR) Element (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical TE-113C RCS, Hot Leg Temperature (NR) Element (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical TE-113D RCS, Hot Leg Temperature (NR) Element 12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical TE-122A RCS, Cold Leg Temperature (NR) Element (5), (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical TE-122B RCS, Cold Leg Temperature (NR) Element (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical TE-122C RCS, Cold Leg Temperature (NR) Element (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical TE-122D RCS, Cold Leg Temperature (NR) Element (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical TE-123A RCS, Cold Leg Temperature (NR) Element (5), (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical TE-123B RCS, Cold Leg Temperature (NR) Element (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical TE-123C RCS, Cold Leg Temperature (NR) Element (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O KEPCO & KHNP 91

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (50 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

RC- Electrical TE-123D RCS, Cold Leg Temperature (NR) Element (12) RT RCB COL 3.11(7) Short-Term Harsh Harsh EQ/EMC No I SR O RC- Electrical TE-132A RCS, Hot Leg Temperature Element (12) PAM RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O RC- Electrical TE-132B RCS, Hot Leg Temperature Element (12) PAM RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O RC- Electrical TE-133A RCS, Hot Leg Temperature Element (12) PAM RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O RC- Electrical TE-133B RCS, Hot Leg Temperature Element (12) PAM RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O RC- Electrical TE-142A RCS, Cold Leg Temperature Element (12) PAM RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O RC- Electrical TE-142B RCS, Cold Leg Temperature Element (12) PAM RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O RC- Electrical TE-143A RCS, Cold Leg Temperature Element (12) PAM RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O RC- Electrical EQ TE-143B RCS, Cold Leg Temperature Element (12) PAM RCB COL 3.11(7) Continuous Harsh Harsh (EMC)

No I SR O Plant Status Electrical EQ RS-RU01 Remote Shutdown Console (12) Monitoring and AB 137-A06D Continuous Mild Mild (EMC)

No I (7) SR O Control Electrical SI-FT-302A SCS Flow Transmitter (12) PAM AB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O Electrical SI-FT-305B SCS Flow Transmitter (12) PAM AB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O Electrical SI-FT-311D SIS Flow Transmitter (12) PAM AB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O Electrical SI-FT'(3)1B SIS Flow Transmitter (12) PAM AB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O Electrical SI-FT- 321B SIS Flow Transmitter (12) PAM AB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O Electrical SI-FT-341A SIS Flow Transmitter (12) PAM AB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O Electrical SI-FT-390D Hot Leg Injection Flow Transmitter (12) PAM AB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O Electrical SI-FT-391C Hot Leg Injection Flow Transmitter (12) PAM AB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O Electrical SI-PT-311D SI Tank Pressure Transmitter (12) PAM RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O Electrical SI-PT- 321B SI Tank Pressure Transmitter (12) PAM RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O Electrical SI-PT-331C SI Tank Pressure Transmitter (12) PAM RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O Electrical SI-PT-341A SI Tank Pressure Transmitter (12) PAM RCB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O Electrical SI-TE-300A SDCHX 1 Inlet and Outlet Temperature Element (12) SDC AB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O Electrical SI-TE-301A SDCHX 1 Inlet and Outlet Temperature Element (12) SDC AB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O Electrical SI-TE-302A SDCHX Outlet Temperature Element (12) SDC AB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O KEPCO & KHNP 92

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 2 (51 of 51)

Required Radiation Influence Equipment Environmental Seismic Tag No. Equipment Identification Building Room No. Operational Condition Designation of Remarks Classification HF Sensitive Function Condition(1) Cat.

Time (4),(6) Immersion(11)

Electrical SI-TE-303B SDCHX 2 Inlet and Outlet Temperature Element (12) SDC AB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O Electrical SI-TE-304B SDCHX 2 Inlet and Outlet Temperature Element (12) SDC AB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O Electrical SI-TE-305B SDCHX Outlet Temperature Element (12) SDC AB COL 3.11(7) Continuous Harsh Harsh EQ/EMC No I SR O Plant Status Electrical EQ QN-PA17N QIAS-N Cabinet (2), (12)

Monitoring AB 137-A10D Continuous Mild Mild (EMC)

No I (8) NSR O (1) See Table 3 for definition of environmental categories.

(2) Equipment located within a cabinet (2) is qualified allowing for temperature increase inside cabinet (2).

(3) Non-metallic consumable parts (as O-Ring, Packing and Gasket) are contained.

(4) Radiation environmental qualification requirements for individual components are developed as discussed in Subsection 3.11.5.

(5) Only Channels A and B are qualified for accident environment.

(6) Table 3 provides the worst case upper bound radiation environment in the region where the component is located.

(7) RO, and TO/EO consoles include ESF-CCS soft control modules (ESCMs) which are Class 1E devices. SS and STA consoles include ESCMs which are Class 1E devices and QIAS-N FPDs which are Non-Class 1E devices.

Safety Console includes Class 1E and Non-Class 1E devices. Class 1E devices are QIAS-P FPD, operator modules, Class 1E switches, ESCM. Non-Class 1E devices are QIAS-N FPDs.

Remote shutdown console includes ESCMs which are Class 1E devices and QIAS-N FPDs which are Non-Class 1E devices.

(8) QIAS-N Cabinet (2) and DRCS Remote I/O cabinets are designed by the associated circuit in accordnace with the IEEE Std.384, since it performs a non-safety function, but the hardware is qualified.

(9) Piping design determines room number that valves or other equipment will be installed in and is applied to graded approach.

Therefore, room number specified in the "E" column will be defined after piping design is completed. COL applicant will provide information on the room numbers.

(10) For cables or cable assemblies which do not have tag number due to being supplied as bulk, N/A will be specified in the Column labeled Tag No (11) Influence of Immersion means susceptible to flooding (12) Equipment contains electronic components such as semi-conductors or organic materials. It will be designated as H(Harsh) in the Designation if it is located in a Room with TID greater than 10 Gy.

KEPCO & KHNP 93

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (1 of 28)

Environmental Parameters Data Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident Total (4)

Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron TS M

AB 049-A01C ELEVATOR HOISTWAY AB 049-A01D ELEVATOR HOISTWAY M AB 049-A02A ELEVATOR HOISTWAY H AB 049-A02B ELEVATOR HOISTWAY H AB 050-A01C CS PUMP & MINIFLOW HX RM H AB 050-A01D CS PUMP & MINIFLOW HX RM H AB 050-A02C SI PUMP RM H AB 050-A02D SI PUMP RM H AB 050-A03A SI PUMP RM H AB 050-A03B SI PUMP RM H AB 050-A04A SC PUMP & MINIFLOW HX RM H AB 050-A04B SC PUMP & MINIFLOW HX RM H AB 055-A01C CS HX RM H AB 055-A01D CS HX RM H AB 055-A02A CCW PUMP RM M AB 055-A02B CCW PUMP RM M AB 055-A02C CCW PUMP RM M AB 055-A02D CCW PUMP RM M AB 055-A03C CENTRAL WATER CHILLER RM M AB 055-A03D CENTRAL WATER CHILLER RM M SEISMIC CAT. I FIRE WATER AB 055-A04C M TANK RM SEISMIC CAT. I FIRE WATER AB 055-A04D M TANK RM AB 055-A05C STAIR M AB 055-A05D STAIR M AB 055-A07C GENERAL ACCESS AREA H AB 055-A07D GENERAL ACCESS AREA H AB 055-A08C FLOOR DRAIN SUMP PUMP RM H AB 055-A08D FLOOR DRAIN SUMP PUMP RM H KEPCO & KHNP 94

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (2 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron TENDON GALLERY ENTRANCE M AB 055-A10C AREA AB 055-A11D STORAGE M AB 055-A14C PIPE CHASE & VALVE RM H AB 055-A14D PIPE CHASE & VALVE RM H AB 055-A18A PIPE CHASE & VALVE RM H AB 055-A18B PIPE CHASE & VALVE RM H AB 055-A19A GENERAL ACCESS AREA H AB 055-A19B GENERAL ACCESS AREA H AB 055-A20A STAIR H AB 055-A20B STAIR H AB 055-A21A PIPE CHASE & VALVE RM H AB 055-A21B PIPE CHASE & VALVE RM H AB 055-A22A PIPE CHASE H AB 055-A22B PIPE CHASE H AB 055-A30A SC HX RM H AB 055-A30B SC HX RM H CHEMICAL DRAIN SUMP PUMP AB 055-A31B H RM AB 055-A33A EQUIP. DRAIN SUMP PUMP RM H AB 055-A33B EQUIP. DRAIN SUMP PUMP RM H AB 055-A34A FLOOR DRAIN SUMP PUMP RM H AB 055-A34B FLOOR DRAIN SUMP PUMP RM H AB 055-A35A GENERAL ACCESS AREA H CVCS CHEMICAL ADD AB 055-A36A M PACKAGE RM AB 055-A38A BORONOMETER RM H AB 055-A39A PROCESS RAD MONITOR RM H AB 055-A42A CHARGING PUMP RM H CHARGING PUMP MINIFLOW AB 055-A43A H HX RM SECONDARY SAMPLE PUMP AB 055-A44A M RM AB 055-A45A PIPE CHASE H CONDENSATE RETURN UNIT AB 055-A46B H RM KEPCO & KHNP 95

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (3 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron PRI. OFF-GAS SAMPLE PUMP H AB 055-A47B RM AB 055-A48B POST ACCIDENT SAMPLE RM H POST ACCIDENT SAMPLE AB 055-A49B M CONTROL PANEL RM AB 055-A50B GENERAL ACCESS AREA H AB 055-A51B EQUIP. DRAIN TANK RM H AB 055-A52B RD PUMP RM H AB 055-A53B RD PUMP RM H AB 055-A54B AUX. CHARGING PUMP RM H AB 055-A55B CHARGING PUMP RM H AB 055-A56A VALVE RM H AB 055-A56B VALVE RM H AB 055-A57C PIPING & CABLE AREA H AB 055-A57D PIPING & CABLE AREA H AB 055-A58A PIPE CHASE H AB 055-A59A VALVE RM M AB 055-A60A ELEV. HALL M AB 055-A60B ELEV. HALL M AB 055-A61C ELEV. HALL M AB 055-A61D ELEV. HALL M AB 055-A62A CHASE H AB 055-A62B CHASE H DIESEL FUEL OIL STORAGE AB 065-A01C M TANK RM DIESEL FUEL OIL STORAGE AB 065-A01D M TANK RM AB 068-A01A VALVE HANDLING AREA H AB 068-A05A HVAC CHASE M AB 068-A06A GAS STRIPPER RM H AB 068-A07A HOT PIPE WAY H AB 068-A08B HOT PIPE WAY H AB 068-A09B VALVE RM H KEPCO & KHNP 96

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (4 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron AB 068-A10A FILTER & DEMIN. VALVE AREA H AB 068-A11A FILTER & DEMIN. VALVE AREA H AB 068-A12A FILTER & DEMIN. VALVE AREA H AB 068-A13A ELEV. HALL M AB 077-A01A REACTOR DRAIN FILTER PIT H AB 077-A02A SFP CLEAN-UP FILTER PIT H AB 077-A03A SFP DEMIN FILTER PIT H AB 077-A04A SFP CLEAN-UP FILTER PIT H AB 077-A05A SFP DEMIN FILTER PIT H AB 077-A06A PURIFICATION FILTER PIT H REACTOR MAKE-UP WATER AB 077-A07A H FILTER PIT AB 077-A08A PURIFICATION FILTER PIT H AB 077-A09A SGBD FILTER PIT H AB 077-A10A SEAL INJECTION FILTER PIT H AB 077-A11A SGBD FILTER PIT H AB 077-A12A SEAL INJECTION FILTER PIT H AB 077-A13A SGBD FILTER PIT H AB 077-A14A BORIC ACID FILTER PIT H AB 077-A15A FILTER CARTRIDGE STORAGE H AB 078-A01C PNS SWGR RM M AB 078-A01D PNS SWGR RM M AB 078-A02C CLASS 1E SWGR O1C RM M AB 078-A02D CLASS 1E SWGR O1D RM M CLASS 1E LOAD CENTER O1C AB 078-A03C M RM CLASS 1E LOAD CENTER O1D AB 078-A03D M RM AB 078-A04C MISC. ELECTRICAL EQUIP. RM M AB 078-A04D MISC. ELECTRICAL EQUIP. RM M AB 078-A05C TRAIN-C DC & IP EQUIP. RM M AB 078-A05D TRAIN-D DC & IP EQUIP. RM M AB 078-A06C N1E BATTERY RM M KEPCO & KHNP 97

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (5 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron AB 078-A06D N1E BATTERY RM M AB 078-A07C TRAIN-C BATTERY RM M AB 078-A07D TRAIN-D BATTERY RM M AB 078-A09C HVAC CHASE M AB 078-A09D HVAC CHASE M AB 078-A10C GENERAL ACCESS AREA M AB 078-A10D GENERAL ACCESS AREA M AB 078-A11C ESSENTIAL CHILLER RM M AB 078-A11D ESSENTIAL CHILLER RM M ESSENTIAL WATER CHILLER AB 078-A12C M RM ESSENTIAL WATER CHILLER AB 078-A12D M RM AB 078-A13D DUCT RM M AB 078-A14C BUTTRESS OPNG M TURBINE DRIVEN AUX.

AB 078-A15C H FEEDWATER (AFW) PUMP RM TURBINE DRIVEN AUX.

AB 078-A15D H FEEDWATER (AFW) PUMP RM AB 078-A16C HVAC CHASE M AB 078-A16D HVAC CHASE M TURBINE DRIVEN AUX.

AB 078-A17C FEEDWATER (AFW) PUMP H VENT.

TURBINE DRIVEN AUX.

AB 078-A17D FEEDWATER (AFW) PUMP H VENT.

AB 078-A19A CORRIDOR M AB 078-A19B CORRIDOR M MOTOR DRIVEN AUX.

AB 078-A20A M FEEDWATER PUMP RM MOTOR DRIVEN AUX.

AB 078-A20B M FEEDWATER PUMP RM AB 078-A21A PIPE CHASE M AB 078-A21B PIPE CHASE M AB 078-A23A BUTTRESS OPNG M AB 078-A23B BUTTRESS OPNG M CLASS 1E SWITCHGEAR 01A AB 078-A25A M RM CLASS 1E SWITCHGEAR 01B AB 078-A25B M RM AB 078-A29C CCW MAKEUP PUMP RM M KEPCO & KHNP 98

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (6 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron AB 078-A31A GENERAL ACCESS AREA M SPENT FUEL POOL CLEAN-UP AB 078-A32A H DEMIN. RM AB 078-A33A SG BLOWDOWN DEMIN. RM H AB 078-A34A PRE-HOLDUP ION EXCH. RM H AB 078-A35A PURIFIC. ION EXCH. RM H AB 078-A36A BORIC ACID ION EXCH. RM H AB 078-A37A DEBORATING ION EXCH. RM H AB 078-A38A SFP CLEAN-UP PUMP RM M GAS STRIPPER EFFLUENT RAD AB 078-A39A H MONITOR RM AB 078-A40B BORIC ACID CONC. RM H SG WET LAYUP RECIRC. PUMP AB 078-A41B M RM AB 078-A42B HELB AREA AHU RM H AB 078-A43B HELB AREA ACU RM H AB 078-A44B GENERAL ACCESS AREA M AB 078-A47B ELECTRICAL EQUIPMENT RM M AB 078-A49B RMW PUMP RM M AB 078-A50B HOLDUP PUMP RM M BORIC ACID MAKEUP PUMP AB 078-A51B M RM AB 078-A52C 480V N1E MCC RM M AB 078-A52D 480V N1E MCC RM M AB 078-A53C 480V N1E LOAD CENTER RM M AB 078-A53D 480V N1E LOAD CENTER RM M AB 078-A54A ELEV. HALL M AB 078-A54B ELEV. HALL M AB 078-A55C ELEV. HALL M AB 078-A55D ELEV. HALL M AB 078-A56A TRAIN-A DC & IP EQUIP. RM M AB 078-A56B TRAIN-B DC & IP EQUIP. RM M AB 078-A57C PIPING & CABLE AREA M AB 078-A57D PIPING & CABLE AREA M KEPCO & KHNP 99

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (7 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron AB 078-A58B SWING LOAD CENTER RM M AB 078-A59D CCW MAKE UP PUMP RM M AB 086-A01A FILTER AREA M AB 100-A01C EXHAUST SILENCER RM M AB 100-A01D EXHAUST SILENCER RM M AB 100-A02C DG CONTROL PANEL RM M AB 100-A02D DG CONTROL PANEL RM M AB 100-A03C DIESEL GENERATOR RM M AB 100-A03D DIESEL GENERATOR RM M AB 100-A04C CABLE ACCESS AREA M AB 100-A04D CABLE ACCESS AREA M AB 100-A05C ELECTRICAL EQUIPMENT RM M AB 100-A05D ELECTRICAL EQUIPMENT RM M AB 100-A06C GENERAL ACCESS AREA M AB 100-A06D GENERAL ACCESS AREA M AB 100-A07C AUX. FEEDWATER(AFW) TANK M AB 100-A07D AUX. FEEDWATER(AFW) TANK M AB 100-A08C NON-1E DC & IP EQUIP. RM M AB 100-A08D NON-1E DC & IP EQUIP. RM M AB 100-A09C TENDON ACCESS RM M AB 100-A10A GENERAL ACCESS AREA M AB 100-A10B GENERAL ACCESS AREA M AB 100-A11A TRAIN-A BATTERY RM M AB 100-A11B TRAIN-B BATTERY RM M AB 100-A12A 480V CLASS 1E MCC 01A RM M AB 100-A12B 480V CLASS 1E MCC 01B RM M MECHANICAL PENETRATION AB 100-A13A H RM MECHANICAL PENETRATION AB 100-A13B H RM PERSONNEL AIR LOCK AB 100-A14A M ENTRANCE AB 100-A15C PIPE CHASE M KEPCO & KHNP 100

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (8 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron AB 100-A15D PIPE CHASE M AB 100-A16C PIPE CHASE H AB 100-A16D PIPE CHASE H AB 100-A17A CHASE M AB 100-A17B CHASE M AB 100-A18A MUX N1 RM M AB 100-A18B MUX N2 RM M AB 100-A19C VESTIBULE M AB 100-A19D VESTIBULE M AB 100-A20A GENERAL ACCESS AREA M AB 100-A21A NEW RESIN STORAGE RM M AB 100-A22A GENERAL ACCESS AREA M AUX BLDG. CONTROLLED AB 100-A23A M AREA (I) SUPPLY AHU RM AB 100-A24A SFP COOLING HX RM H AB 100-A25A VOLUME CONTROL TANK RM H AB 100-A26A VALVE RM H AB 100-A27B STORAGE M AB 100-A28B HELB PIPE & HVAC CHASE H AB 100-A29B PIPE & HVAC CHASE H AB 100-A30B STORAGE M AB 100-A31B POOL LEAK DETECTION AREA M AB 100-A32B SFP COOLING HX RM H AB 100-A33B HELB HVAC VENT CHASE M AB 100-A35B LOADING & UNLOADING AREA M FUEL HANDLING AREA SUPPLY AB 100-A36B M AHU RM AB 100-A37B GENERAL ACCESS AREA M FUEL HANDLING AREA AB 100-A38A M NORMAL EXHAUST ACU RM AB 100-A39A HVAC VENT CHASE M KEPCO & KHNP 101

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (9 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron AB 100-A39B HVAC VENT CHASE M AB 100-A42C D/G OIL STORAGE ACCESS M AB 100-A42D D/G OIL STORAGE ACCESS M AB 100-A43C D/G OIL STORAGE ENTRANCE M AB 100-A43D D/G OIL STORAGE ENTRANCE M AB 100-A44D VESTIBULE M AB 100-A45A ELEV. HALL M AB 100-A45B ELEV. HALL M AB 100-A46C ELEV. HALL M AB 100-A46D ELEV. HALL M AB 109-A01C AIR INTAKE RM M AB 109-A01D AIR INTAKE RM M AB 111-A01B CASK LOADING PIT H AB 114-A01B SPENT FUEL POOL H BORIC ACID BATCH TANK AB 117-A01A M ROOM HELB HVAC DUCT TRAY PIPE AB 117-A02A H WAY AB 119-A01B REFUELING CANAL H AB 119-A02B CASK DECON. PIT H AB 120-A01C PIPING CABLE AREA M AB 120-A01D PIPING CABLE AREA M AB 120-A02C LUBE OIL MAKE-UP TANK RM M AB 120-A02D LUBE OIL MAKE-UP TANK RM M DIESEL FUEL OIL DAY TANK AB 120-A03C M RM DIESEL FUEL OIL DAY TANK AB 120-A03D M RM LT & HT WATER EXPANSION AB 120-A04C M TANK RM LT & HT WATER EXPANSION AB 120-A04D M TANK RM AB 120-A05C ELECTRICAL EQUIP. RM M AB 120-A05D ELECTRICAL EQUIP. RM M AB 120-A07C GENERAL ACCESS AREA M AB 120-A07D GENERAL ACCESS AREA M KEPCO & KHNP 102

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (10 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron AB 120-A08C 480V N1E MCC RM M AB 120-A08D 480V N1E MCC RM M ELECTRICAL PENETRATION AB 120-A09C M RM(C)

ELECTRICAL PENETRATION AB 120-A09D M RM(D)

AB 120-A10C ECW MAKE-UP PUMP RM M AB 120-A10D ECW MAKE-UP PUMP RM M AB 120-A11A GENERAL ACCESS AREA M AB 120-A11B GENERAL ACCESS AREA M AB 120-A13B STAIR M AB 120-A14A SG BLOWDOWN REGEN HX RM H AB 120-A15B 480V CLASS 1E MCC 03B RM M MECHANICAL PENETRATION AB 120-A16A H RM MECHANICAL PENETRATION AB 120-A16B H RM AB 120-A17A STAIR M AB 120-A18A LX PANEL RM AB 120-A18C LX PANEL RM M AB 120-A18D LX PANEL RM M AB 120-A20A GENERAL ACCESS AREA M AUX. BLDG. CONTROLLED AB 120-A21A AREA(I) EMER. EXHAUST ACU H RM-1 AB 120-A22C VESTIBULE M AB 120-A22D VESTIBULE M AB 120-A23A VALVE RM H FUEL HANDLING AREA EMER.

AB 120-A24A H EXHAUST ACU RM AB 120-A25A HVAC CHASE H AUX. BLDG. CONTROLLED AB 120-A29B AREA(II) EMER. EXHAUST ACU H RM AUX. BLDG. CONTROLLED AB 120-A30B AREA(II) EMER. EXHAUST ACU H RM-2 AB 120-A31B GENERAL ACCESS AREA M KEPCO & KHNP 103

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (11 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron AUX. BLDG. CONTROLLED AB 120-A32A AREA(I) EMER. EXHAUST ACU M RM AB 120-A33A ELEV. HALL M AB 120-A33B ELEV. HALL M AB 120-A34C ELEV. HALL M AB 120-A34D ELEV. HALL M AB 120-A35B BATTERY RM M AB 120-A36B HYDROGEN ANALYZER RM M AB 120-A37B ACCESS AREA M AB 123-A01C D/G RM NORMAL SUPPLY RM M AB 123-A01D D/G RM NORMAL SUPPLY RM M AB 127-A01C DIESEL VENT STACK M AB 127-A01D DIESEL VENT STACK M AB 137-A01C CABLE SPREADING AREA M AB 137-A01D CABLE SPREADING AREA M AB 137-A02C ELECTRICAL EQUIP. RM M AB 137-A02D ELECTRICAL EQUIP. RM M AB 137-A03C CEDM M/G SET RM M CEDM POWER CONT. CABINET AB 137-A04C M RM AB 137-A05D PCS RM M AB 137-A06D REMOTE SHUT DOWN RM M AB 137-A07D VESTIBULE M AB 137-A08D STAIR M AB 137-A09C GENERAL ACCESS AREA M AB 137-A09D GENERAL ACCESS AREA M AB 137-A10C 480V CLASS 1E MCC 03C RM M AB 137-A10D 480V CLASS 1E MCC 03D RM M ELECTRICAL PENETRATION AB 137-A11C M RM(C)

ELECTRICAL PENETRATION AB 137-A11D M RM(D)

AB 137-A12D MUX N2 RM M AB 137-A13B GENERAL ACCESS AREA M KEPCO & KHNP 104

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (12 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron AB 137-A14B 480V N1E MCC 18N RM M AB 137-A15A 480V CLASS 1E MCC 04A RM M AB 137-A15B 480V CLASS 1E MCC 04B RM M AB 137-A16A ELEV. HALL M AB 137-A16B ELEV. HALL M AB 137-A17A PENETRATION MUX A RM M AB 137-A17B PENETRATION MUX B RM M ELECTRICAL PENETRATION AB 137-A18A M RM(A)

ELECTRICAL PENETRATION AB 137-A18B M RM(B)

AB 137-A19A SG BLOWDOWN FLASH TANK RM H AB 137-A20A GENERAL ACCESS AREA M AB 137-A21A ELECTRICAL EQUIP. RM M AB 137-A22A ELECTRICAL EQUIP. RM M AB 137-A23A 480V CLASS 1E MCC 03A RM M AB 137-A24B 480V N1E MCC 17N RM M FUEL HANDLING AREA EMER.

AB 137-A25A H EXHAUST ACU RM AB 137-A27B STORAGE RM M AUX BLDG. CONTROLLED AB 137-A28B M AREA(II) SUPPLY AHU RM AB 137-A29B GENERAL ACCESS AREA M AB 137-A30C MAIN STEAM ENCLOSURE H AB 137-A30D MAIN STEAM ENCLOSURE H AB 137-A31C MAIN STEAM VALVE ROOM H AB 137-A31D MAIN STEAM VALVE ROOM H AB 137-A32B PIPE CHASE M AB 137-A35C REACTOR TRIP SWGR RM M AB 137-A36C REACTOR TRIP SWGR RM M AB 137-A37C REACTOR TRIP SWGR RM M AB 137-A38C REACTOR TRIP SWGR RM M KEPCO & KHNP 105

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (13 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron AB 137-A39A GENERAL ACCESS AREA M TRANSFER TUBE INSPECTION AB 137-A40B H AREA REMOTE CONTROL CONSOLE AB 137-A41A M RM AB 137-A42A VESTIBULE M AB 137-A43D HVAC RM M AB 137-44C ELEV. HALL M AB 137-44D ELEV. HALL M AB 139-A01B NEW FUEL STORAGE AREA M AB 156-A01B SST RM M AB 156-A02B HOT TOOL CRIB H CONTAINMENT ENTRANCE AB 156-A04B H AREA AB 156-A05B GENERAL ACCESS AREA M NEW FUEL CONTAINER AB 156-A08B LAYDOWN & INSPECTION M AREA EQUIPMENT HATCH ACCESS AB 156-A10A H RM AB 156-A13A ELEV. HALL M AB 156-A13B ELEV. HALL M AUX BLDG. CONTROLLED AB 156-A14A AREA(I) NORMAL EXHAUST H ACU RM AB 156-A15B PIPE CHASE H AB 156-A16A SIS FILLING TANK RM M AB 156-A17A CHASE M AB 156-A17B CHASE M AB 157-A01D I & C EQUIPMENT RM M AB 157-A02C TSC OFFICE M AB 157-A03C MEN'S TOILET M AB 157-A04C LOCKER RM M AB 157-A05C WOMEN'S TOILET M AB 157-A06D VESTIBULE M AB 157-A07C STORAGE M AB 157-A08D COMPUTER RM PACU RM M KEPCO & KHNP 106

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (14 of 28)

Radiation TID (Gy)

H/M Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident Total (4)

Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron TS AB 157-A09C MEETING RM M AB 157-A10C KITCHEN & DINING RM M AB 157-A12C MAIN CONTROL RM M AB 157-A13C VESTIBULE M AB 157-A13D VESTIBULE M AB 157-A14D COMPUTER RM M AB 157-A15D COMPUTER RM OFFICE M AB 157-A16C CORRIDOR M AB 157-A16D CORRIDOR M AB 157-A17C CORRIDOR M AB 157-A18C CLEAN AGENT RM M AB 157-A19C I & C EQUIP. RM M AB 157-A19D I & C EQUIP. RM M AB 157-A20C I & C EQUIP. RM M AB 157-A20D I & C EQUIP. RM M INSTRUMENT MAINTENANCE AB 157-A21D M SHOP AB 157-A22D GUEST RM M AB 157-A23D AEB RM M AB 157-A24C SHOWER RM M AB 157-A25C I & C EQUIP. RM M AB 157-A26C SERVICE RM M AB 157-A27C GENERAL ACCESS AREA M AB 157-A27D GENERAL ACCESS AREA M AB 157-A28D BREATHING AIR RACK M AB 157-A29C TSC EQUIP. REPAIR & MAINT RM M AB 157-A30C TSC RECORD STORAGE RM M AB 170-A01A ELEV. MACHINE RM M EDG RM NORMAL EXHAUST FAN AB 174-A01C M RM EDG RM NORMAL EXHAUST FAN AB 174-A01D M RM ESSENTIAL CHILLED WATER AB 174-A02C M COMPRESSION TANK RM AB 174-A03C CCW SURGE TANK RM M AB 174-A03D CCW SURGE TANK RM M AB 174-A05C 480V N1E MCC RM M AB 174-A05D ELECTRICAL EQUIP. RM M ESSENTIAL/CENTRAL CHILLED AB 174-A06D M WATER COMPRESSION TANK RM KEPCO & KHNP 107

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (15 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron AB 174-A12C GENERAL ACCESS AREA AB 174-A12D GENERAL ACCESS AREA AB 174-A13C 480V N1E MCC RM AB 174-A13D 480V N1E MCC RM EDG RM NORMAL SUPPLY AHU AB 174-A14C RM EDG RM NORMAL SUPPLY AHU AB 174-A14D RM CONTAINMENT HIGH/LOW AB 174-A15B VOLUME PURGE ACU RM CONTAINMENT HIGH VOLUME AB 174-A16B PURGE AHU RM AB 174-A17B ELEV. HALL AB 174-A18C ELEV. HALL AB 174-A18D ELEV. HALL AB 174-A19C ACCESS RM AB 174-A19D ACCESS RM AB 174-A22B HVAC CHASE CONTROL RM AREA SUPPLY AB 174-A23C AHUS RM CONTROL RM AREA SUPPLY AB 174-A23D AHUS RM CONTROL RM AREA SUPPLY AB 174-A24C AHU/ACU RM CONTROL RM AREA SUPPLY AB 174-A24D AHU/ACU RM AB 174-A25B HVAC AREA AB 174-A25C HVAC AREA AB 174-A26C VESTIBULE AB 174-A26D VESTIBULE AB 175-A01C MSIV RM SUPPLY AHU RM AB 175-A01D MSIV RM SUPPLY AHU RM AB 195-A01C ELEV. HALL AB 195-A01D ELEV. HALL AUX. BLDG. CLEAN AREA AB 195-A02C SUPPLY AHUS RM AUX. BLDG. CLEAN AREA AB 195-A02D SUPPLY AHUS RM KEPCO & KHNP 108

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (16 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron AB 195-A04C DIESEL VENT STACK M AB 195-A04D DIESEL VENT STACK M AB 195-A05C 480V N1E LOADCENTER RM M AB 195-A05D 480V N1E LOADCENTER RM M AB 195-A06C HVAC VENT RM M AB 195-A06D HVAC VENT RM M AB 195-A07B ELEV. HALL M AUX. BLDG. CONTROLLED AB 195-A08B AREA (II) NORMAL EXHAUST H ACU RM AB 195-A09C HVAC EXHAUST PENT HOUSE M AB 195-A10D SMOKE FAN RM M AB 215-A02B ELEVATOR MACHINE RM M AB 216-A01C ELEVATOR MACHINE RM M AB 216-A01D ELEVATOR MACHINE RM M RCB 055-C01 TENDON GALLERY M RCB 069-C01 ICI CAVITY H RCB 078-C01 REACTOR CAVITY H RCB 080-C01 HOLD-UP VOLUME TANK H RCB 081-C01 IRWST H RCB 089-C01 CORE DEBRIS CHAMBER H REACTOR CAVITY ACCESS RCB 089-C02 H AREA CONTAINMENT ANNULUS RCB 100-C01 H AREA RCB 100-C02A STEAM GENERATOR CAVITY H RCB 100-C02B STEAM GENERATOR CAVITY H RCB 100-C03 REACTOR DRAIN TANK RM H RCB 100-C04 LETDOWN HX RM H RCB 100-C05 ELEV. HOISTWAY H RCB 106-C01 UGS LAYDOWN AREA H CONTAINMENT ANNULUS RCB 114-C01A H AREA CONTAINMENT ANNULUS RCB 114-C01B H AREA RCB 114-C02 CSB LAYDOWN AREA H Table 3 (17 of 28)

KEPCO & KHNP 109

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (17 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron RCB 115-C01 VALVE RM H RCB 115-C02 VALVE RM H RCB 115-C03 VALVE RM H RCB 128-C01 REGENERATIVE HX RM H RCB 130-C01 REFUELING POOL AREA H RCB 136-C01A CONTAINMENT ANNULUS AREA H RCB 136-C01B CONTAINMENT ANNULUS AREA H RCB 136-C02 PRESSURIZER CAVITY H RCB 156-C01 OPERATING AREA H RCB 173-C01 ELEV. MACHINE RM H EDGB 063-H01 STAIR M DIESEL FUEL OIL TRANSFER EDGB 063-H02A M PUMP RM DIESEL FUEL OIL TRANSFER EDGB 063-H02B M PUMP RM DIESEL FUEL OIL STORAGE EDGB 063-H03A M TANK RM DIESEL FUEL OIL STORAGE EDGB 063-H03B M TANK RM EDGB 100-H01A D/G CONTROL RM M EDGB 100-H01B D/G CONTROL RM M EDGB 100-H02A EMER. D/G RM M EDGB 100-H02B EMER. D/G RM M EDGB 100-H03 ELECTRICAL EQUIP. RM M EDGB 100-H04A AIR INTAKE SHAFT M EDGB 100-H04B AIR INTAKE SHAFT M EDGB 100-H05A AIR EXHAUST SHAFT M EDGB 100-H05B AIR EXHAUST SHAFT M EDGB 100-H06A VALVE ROOM M EDGB 100-H06B VALVE ROOM M EDGB 100-H07A STAIR M EDGB 100-H07B STAIR M EDGB 121-H01A LUBE OIL MAKEUP TANK RM M KEPCO & KHNP 110

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (18 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron EDGB 121-H01B LUBE OIL MAKEUP TANK RM M DIESEL FUEL OIL DAY TANK EDGB 121-H02A M RM DIESEL FUEL OIL DAY TANK EDGB 121-H02B M RM EDGB 135-H01A D/G EXHAUST SILENCER RM M EDGB 135-H01B D/G EXHAUST SILENCER RM M EDGB 135-H02A AIR INTAKE FILTER RM M EDGB 135-H02B AIR INTAKE FILTER RM M EDGB 135-H03A EDG RM NOR. SUPPLY AHU RM M EDGB 135-H03B EDG RM NOR. SUPPLY AHU RM M CPB 057-P01 ELEV. HOISTWAY M CONTAMINATED CLOTHING CPB 062-P01 M STORAGE CPB 062-P02 MASK DECONTAMINATION RM M CPB 063-P01 HOT PIPE CHASE H CPB 063-P02 GRS HEADER DRAIN TANK RM H CPB 063-P03 VALVE RM H CPB 063-P04 GRS INLET SKID RM H CPB 063-P05 S.R.L.T STORAGE TANK RM H CPB 063-P06 FUTURE USE AREA M CPB 063-P07 VALVE RM H LOW ACTIVITY SPENT RESIN CPB 063-P08 H TANK RM CPB 063-P10 HOT TOOL RM M LRS SEAL WATER RECYCLE CPB 063-P12 M EQUIPMENT RM CPB 063-P13 HOT PIPE CHASE H CPB 063-P14 HOT TOOL RM M CPB 063-P16 CORRIDOR M CPB 063-P17 HVAC CHASE M CPB 063-P18 STAIR M CPB 063-P19 ELECT. RISER M CPB 063-P20 HVAC CHASE M KEPCO & KHNP 111

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (19 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron CPB 063-P21 EQUIP. WASTE PUMP RM H CPB 063-P22 EQUIP. WASTE PUMP RM H CPB 063-P23 EQUIP. WASTE TANK RM H CPB 063-P24 EQUIP. WASTE TANK RM H CPB 063-P25 FLOOR DRAIN PUMP RM H CPB 063-P26 NORMAL SUMP PUMP RM M CPB 063-P27 CHEMICAL WASTE PUMP RM M CPB 063-P28 FLOOR DRAIN TANK RM H CPB 063-P29 FLOOR DRAIN TANK RM H CPB 063-P30 CHEMICAL WASTE TANK RM H CPB 063-P31 CHEMICAL WASTE TANK RM H DETERGENT WASTE TANK &

CPB 063-P32 M PUMP RM CPB 063-P33 SAMPLING RM M CPB 063-P34 L.R.S. CONTROL PANEL RM M CPB 063-P36 DWS DRAIN SUMP PUMP RM M CPB 063-P37 MONITOR TANK RM M PSS-SOLIDIFICATION & DRUM CPB 063-P38 H CONVEYOR RM SPENT RESIN LONG TERM CPB 063-P39 STORAGE TANK SUMP PUMP H RM CPB 063-P40 CONCENTRATE PUMP RM H CONCENTRATE HOLDING CPB 063-P41 H TANK RM CPB 063-P42 RO FEED PUMP RM H CPB 063-P43 IX FEED PUMP RM M CPB 063-P44 IX FEED TANK RM H CPB 063-P45 HOT TOOL RM M CPB 063-P46 CORRIDOR M CPB 063-P47 CTS-HEPA VACUUM SKID RM H CPB 063-P48 CTS-DRYER SKID RM H CPB 063-P49 CTS-VACUUM SKID RM H KEPCO & KHNP 112

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (20 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron CPB 063-P50 HVAC CHASE M CPB 063-P51 STAIR M CHEMICAL DRAIN SUMP PUMP CPB 063-P52 M RM CPB 063-P53 CORRIDOR M CPB 063-P54 MONITOR TANK PUMP RM M CPB 063-P55 CABLE TRAY & PIPE CHASE M CPB 063-P56 DROP AREA M CPB 063-P57 SORTING RM M NON-CONTAMINATED CPB 063-P59 M CLOTHING STORAGE CPB 063-P60 LAUNDRY OFFICE M CPB 063-P61 LAUNDRY STORAGE M CPB 063-P62 STORAGE M CPB 063-P63 TELECOM CLOSET M CPB 063-P64 CORRIDOR M CPB 063-P65 ELECT. RISER M CPB 063-P66 STAIR M CPB 063-P67 ISOTOPIC STORAGE M CPB 063-P68 TLD & FILM STORAGE M CPB 063-P69 FOREMEN'S OFFICE M CONTAMINATED ELECTRIC CPB 063-P70 M EQUIP. RM CONTAMINATED INSTRUMENT CPB 063-P71 M REPAIR RM CPB 063-P72 CALIB. OFFICE M CPB 063-P73 INSTRUMENT CALIB. FACILITY M CPB 063-P74 COUNTING RM M CPB 063-P75 COUNTING OFFICE M CPB 063-P76 STAIR M CPB 063-P77 HVAC CHASE M CPB 063-P78 PIPE CHASE H CPB 063-P79 PIPE CHASE H CPB 063-P80 PIPE CHASE H KEPCO & KHNP 113

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (21 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron CPB 077-P01 HOT PIPE WAY H CPB 079-P01 ELEV. HOISTWAY M CPB 079-P02 ELEV. HOISTWAY M CPB 085-P01 WASTE GAS DRYER SKID RM H CPB 085-P02 WASTE GAS DRYER SKID RM H CPB 085-P03 VALVE RM H CPB 085-P04 CHARCOAL GUARD BED RM H CPB 085-P05 ELECT. RISER M CPB 085-P06 VALVE RM H CPB 085-P07 VALVE RM H CPB 085-P08 VALVE RM H CPB 085-P09 WASTE SHREDDER RM H CPB 085-P11 SORTING RM H CPB 085-P12 DROP AREA (CLEAN) M CPB 085-P13 CLEAN WASTE STORAGE M CPB 085-P14 CORRIDOR M CPB 085-P15 VALVE RM H CPB 085-P16 VALVE RM H CPB 085-P17 VALVE RM H CPB 085-P18 DROP AREA(POTENTIAL) M POTENTIAL CLEAN WASTE CPB 085-P19 H STORAGE CPB 085-P20 VALVE RM H CPB 085-P21 CHARCOAL GUARD BED RM H DAW DRYER & DEWATERING CPB 085-P24 H EQUIP.RM CPB 085-P26 DROP AREA(HOT) M CPB 085-P30 HOT TOOL RM M CPB 085-P31 PRIMARY SAMPLING RM M CPB 085-P32 PRIMARY SAMPLING SINK RM H CPB 085-P33 HOT TOOL RM M CPB 085-P35 STORAGE M KEPCO & KHNP 114

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (22 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron CPB 085-P36 SAMPLE COUNTING RM M CPB 085-P37 RADIOCHEMISTRY LAB M CPB 085-P38 BALANCE RM M CPB 085-P39 LAB SERVICE VALVE STATION M CPB 085-P40 LAB OPERATOR'S OFFICE M COMPOUND BLDG. SUMP CPB 085-P41 M PUMP RM CPB 085-P42 IX MODULE RM H CPB 085-P43 IX MODULE RM H CPB 085-P44 RO FEED TANK RM H CPB 085-P45 DRUM REMOVAL CHASE H CPB 085-P46 MF MEMBRANE MODULE RM H CPB 085-P47 MF MEMBRANE MODULE RM H RO MEMBRANE MODULE &

CPB 085-P48 H VALVE SKID RM CPB 085-P50 SAMPLE CHILLER RM M CPB 085-P51 SECONDARY SAMPLING RM M CPB 085-P52 BALANCE RM M CPB 085-P53 LAB STORAGE M TURBINE GENERATOR BLDG.

CPB 085-P54 M LAB CPB 085-P55 LAB OFFICE M CPB 085-P57 LUBE OIL LAB M CPB 085-P58 CORRIDOR M CPB 085-P59 TELECOM CLOSET M CPB 085-P61 ELECT. RISER M CPB 096-P01 CHARCOAL DELAY BED RM H CPB 096-P02 CHARCOAL DELAY BED RM H CPB 100-P01 CHEMICAL STORAGE AREA M CPB 100-P02 GRS EQUIP. REMOVAL AREA H CPB 100-P03 HOT TOOL RM M CPB 100-P04 WELDING RM M CPB 100-P05 HOT INSTRUMENT RM M KEPCO & KHNP 115

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (23 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron CPB 100-P06 HOT MACHINE SHOP M CPB 100-P07 FUTURE EXTENSION AREA M CPB 100-P08 TRUCK BAY M CPB 100-P09 WASTE DRUM STORAGE AREA H SPENT FILTER DRUM STORAGE CPB 100-P10 H AREA CPB 100-P12 PIPING OPEN'G AREA M CPB 100-P13 PIPING OPEN'G AREA M CPB 100-P14 CORRIDOR M CPB 100-P15 HOT TOOL RM M CPB 100-P17 FLAMMABLE GAS STORAGE M NONFLAMMABLE GAS CPB 100-P18 M STORAGE CPB 100-P19 VESTIBULE M CPB 100-P20 CONFERENCE RM M CPB 100-P21 MEN'S LOCKER RM M CPB 100-P06 HOT MACHINE SHOP M CPB 100-P07 FUTURE EXTENSION AREA M CPB 100-P08 TRUCK BAY M CPB 100-P09 WASTE DRUM STORAGE AREA H SPENT FILTER DRUM STORAGE CPB 100-P10 H AREA CPB 100-P12 PIPING OPEN'G AREA M CPB 100-P13 PIPING OPEN'G AREA M CPB 100-P14 CORRIDOR M CPB 100-P15 HOT TOOL RM M CPB 100-P17 FLAMMABLE GAS STORAGE M NONFLAMMABLE GAS CPB 100-P18 M STORAGE CPB 100-P19 VESTIBULE M CPB 100-P20 CONFERENCE RM M CPB 100-P21 MEN'S LOCKER RM M CPB 100-P38 MEN'S TOILET M CPB 100-P39 WOMEN'S TOILET M KEPCO & KHNP 116

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (24 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron CPB 100-P40 VESTIBULE M CPB 100-P41 LOBBY M CPB 100-P42 O.S.C. AREA M CPB 100-P43 HEALTH PHYSICS STORAGE M CPB 100-P44 WATER HEATER TANK RM M CPB 100-P45 MEN'S TOILET M CPB 100-P46 MEN'S SHOWER RM M CPB 100-P47 DRYING AREA M CPB 100-P48 CORRIDOR M CPB 100-P49 TELECOM CLOSET M CPB 100-P50 VESTIBULE M CPB 100-P51 WOMEN'S SHOWER RM M CPB 100-P52 DRYING AREA M CPB 100-P53 WOMEN'S TOILET M CPB 100-P54 CORRIDOR M CPB 100-P55 CORRIDOR M CPB 100-P56 LAUNDRY AREA M CPB 100-P57 ELECT. RISER M CPB 100-P58 ELECT. RISER M CPB 100-P59 DAW STORAGE RM M CPB 100-P60 WASTE DRUM TRANSF. RM M CPB 100-P61 VIP LOCKER RM M CPB 100-P62 TOILET M CPB 100-P63 SHOWER RM M GASEOUS RADWASTE SAMPLE CPB 120-P01 M CONTROL PANEL RM GASEOUS RADWASTE SAMPLE CPB 120-P02 M VALVE RACK RM GRS EXHAUST RAD MONITOR CPB 120-P03 M RM CHARCOAL DELAY BED CPB 120-P04 M REMOVAL AREA CPB 120-P05 HOT TOOL RM M KEPCO & KHNP 117

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (25 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron CPB 120-P06 HOT TOOL RM M CPB 120-P07 CORRIDOR M GASEOUS RADWASTE ACCESS CPB 120-P08 M AREA CPB 120-P09 ELECTRICAL EQUIPMENT RM M CPB 120-P10 BATTERY RM M COMPOUND BLDG. WATER CPB 120-P11 M CHILLER RM COMPOUND BLDG. WATER CPB 120-P12 M CHILLER RM CPB 120-P13 STORAGE M CPB 120-P15 STORAGE M CONTROLLED AREA SUPPLY CPB 120-P16 M AHU RM CPB 120-P20 ELECTRICAL EQUIP. RM M CPB 120-P21 CCS CABINET RM M CPB 120-P22 STORAGE M CPB 120-P23 CONTROL RM M CPB 120-P24 STORAGE M CPB 120-P25 ELECTRICAL EQUIP. RM M CPB 120-P27 CORRIDOR M CPB 120-P28 TELECOM CLOSET M CPB 120-P29 ELECT. RISER M CPB 120-P30 ELEC. REPAIR OFFICE M CPB 120-P31 ELEC. EQUIPMENT REPAIR RM M CPB 120-P32 SERVICE & STORAGE AREA M CPB 120-P33 HVAC CHASE M CPB 139-P01 ELEV. MACHINE RM M EMERGENCY EXHAUST ACU CPB 139-P02 M RM CPB 139-P03 CORRIDOR M TELE-COMMUNICATION CPB 139-P04 M EQUIP. RM CPB 139-P06 NORMAL EXHAUST ACU RM M CPB 139-P07 INSTRUMENT REPAIR OFFICE M COMMUNICATION CPB 139-P08 M MAINTENANCE RM KEPCO & KHNP 118

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (26 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron CPB 139-P09 MEN'S TOILET M CPB 139-P10 WOMEN'S TOILET M CPB 139-P11 TELECOM CLOSET M CPB 139-P12 ELECT. RISER M CPB 139-P13 CORRIDOR M CPB 139-P14 HVAC CHASE M CPB 139-P15 INSTRUMENT REPAIR RM M CPB 139-P16 CLEAN AREA SUPPLY AHU RM M COMMUNICATION POWER CPB 139-P17 M SUPPLY RM CPB 139-P18 AIR INTAKE PENTHOUSE M CPB 139-P19 SRS CTS CHILLER SKID RM M CPB 157-P01 CORRIDOR M CPB 157-P02 WOMEN'S TOILET M CPB 157-P03 MEN'S TOILET M CPB 157-P04 LOBBY M CPB 157-P05 HVAC EQUIP. RM M CPB 157-P08 STORAGE M CPB 157-P09 OPERATOR WAITING RM M CPB 157-P10 REST AREA M CPB 163-P01 AIR EXHAUST PENTHOUSE M CPB 174-P01 ELEV. MACHINE RM M CHILLED WATER CPB 174-P02 M COMPRESSION TANK RM TGB 050-T01 CONDENSATE PUMP PIT AREA M TGB 055-T01 CONDENSER PIT AREA M CONDENSATE OVERFLOW TGB 060-T01 M STORAGE SUMP PIT AREA TGB 067-T01 ELEV. HOISTWAY M UNDERGROUND COMMON TGB 067-T02 M TUNNEL TGB 072-T01 CHEMICAL HANDLING RM M TGB 072-T02 LUBE OIL STORAGE M KEPCO & KHNP 119

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (27 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron MAIN TURBINE LUBE OIL M TGB 072-T03 CONDITIONER RM TGB 073-T01 STAIR M TURBINE GEN. BLDG.

TGB 073-T02 M BASEMENT FL CONDENSATE POLISHING TGB 073-T03 M AREA CONDENSATE POLISHING TGB 073-T05 M CONTROL RM CAUSTIC/ACID DAY TANK &

TGB 073-T06 M PUMP RM TGB 073-T07 STAIR M TGB 073-T08 STAIR M TGB 073-T10 STAIR M TGB 073-T11 SWITCHGEAR AREA M TURBINE GEN. BLDG. GROUND TGB 100-T01 M FL TGB 100-T02 MUX CABINET RM M TGB 100-T03 MECHANICAL REPAIR RM M TGB 100-T04 TOILET M TGB 100-T05 OPERATORS WAITING RM M TURBINE LUBE OIL TGB 100-T11 M RESERVOIR RM TGB 100-T12 MUX CABINET RM M TGB 100-T15 SWITCHGEAR RM M TGB 100-T17 BATTERY RM M TGB 100-T20 TOILET M TGB 100-T21 INSTRUMENT REPAIR OFFICE M TGB 100-T22 INSTRUMENT REPAIR SHOP M EXCITATION CONTROL TGB 112-T01 M CUBICLE RM TGB 122-T01 SWITCHGEAR RM M TGB 122-T02 AHU RM M GENERAL TOOL RM &

TGB 122-T03 M WAREHOUSE TGB 122-T04 ELECTRICAL REPAIR OFFICE M TGB 122-T05 ELECTRICAL REPAIR SHOP M TGB 122-T07 ACCESS AISLE M KEPCO & KHNP 120

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (28 of 28)

Radiation TID (Gy)

H/M. Pressure (psig) Temperature () Relative Humidity (%)

Bldg. Room No. Identification Normal Accident (4) Total TS Normal Accident Normal Accident Normal Accident Gamma Beta Neutron Gamma Beta Neutron TGB 122-T08 MAIN STEAM PIPING AREA M TURBINE GEN. BLDG.

TGB 136-T01 M OPERATING FL TGB 136-T02 CLEAN WORKING RM M TGB 136-T03 REPAIR TOOL RM M TGB 136-T04 SPECIAL TOOL RM M TGB 136-T05 OPERATOR'S OFFICE M TGB 136-T06 SHOWER RM M TGB 136-T07 JANITOR RM M TGB 136-T08 WOMEN'S TOILET M TGB 136-T09 MEN'S TOILET M TGB 136-T10 ELECTRIC WATER HEATER RM M TGB 136-T11 CONTROL PANEL RM M TGB 136-T12 PIPE CHASE M TGB 136-T13 LOCKER RM M TGB 136-T14 CORRIDOR M TBN. GEN. BLDG. DEAERATOR TGB 170-T01 M FL TGB 187-T01 ELEV. MACHINE RM M

1) Beta or gamma dose is negligible when compared to total doses, or there is no source term in this area.

2) Neutrons are not present except for the areas nearby reactor vessel during normal operations.

3) There occurs no neutron during accident operations.

4) Harsh and Mild designation varies depending on the type of equipment to be located in Room No.

Any area with total integrated dose (TID) greater than 10 Gy for electronic components such as semi-conductors or electronic components containing organic material will be designated as H (Harsh).

KEPCO & KHNP 121

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 4 Containment Spray Conditions Phase Short Term Long Term Parameter (Accident Initiation-up to 4 hours4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months ) (4 hour4.62963e-5 days 0.00111 hours 6.613757e-6 weeks 1.522e-6 months s-up to 30 days) 4,400 ppm Boron as H3BO3 4,400 ppm Boron as H3BO3 0-50 ppm Hydrazine as N2H4 Chemistry 0-50 ppm Hydrazine as N2H4 7.0 pH 8.5 4 pH 10 Using Tri-sodium Phosphate as the Buffering Agent Spray Density 2 2 0.57 gpm/ft 0.57 gpm/ft (Note 1)

Spray Temp.

Variable (Note 2)

Notes:

1. Spray density is based on 5,000 (gpm/train) over 150 (ft) diameter containment. The pressure and temperature profiles are controlled by continuous operation of spray system up to 30 days.

2. The minimum spray droplet temperature is greater than 50 °F, and the maximum spray temperature can be veried depending on the temperature of IRWST water that supplies to spray nozzle.

KEPCO & KHNP 122

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 (1) Pressure and temperature are increasing within 10 seconds from 0 psig and 49 °C (120 °F),

respectively.

(2) Rapid drop within 20 seconds at 250 seconds (3) After 182 days, pressure and temperature can be extended up to 1 year with the same values.

Figure 1 Design Basis Containment Atmosphere Temperature and Pressure EQ Profile for Accident KEPCO & KHNP 123

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 400 360 oF 350 330 oF 350 oF 300 Temperature (oF) 250 250 oF 200 150 104 oF 100 (Note 1) 0.1 1 10 100 1000 10000 100000 Time (sec.)

Time (sec.) 0 0.1 2.0 37 40 1,990 2,000 5,000 86,400 Temp. () 104 140 330 330 360 360 350 250 104 Note:

1. Temperature is decreasing up to 104 at 86,400 seconds. (24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months )

Figure 2 Main Steam Valve Room MSLB Temperature Profile KEPCO & KHNP 124

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 325 °F 325 °F 104 °F 104 °F 0 70 seconds 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months Note:

1. Temperature profile above applies to the following zones: 055-A46B, 068-A06A, 078-A40B, 078-A42B, and 078-A43B Figure 3 Auxiliary Building HELB Temperature Profile KEPCO & KHNP 125

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 340 °F 340 °F 104 °F 104 °F 0 4 seconds 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months 24 hours Note:

1. Temperature profile above applies to the following zones: 078-A15C/D Figure 4 Turbine Driven AF Pump Room Temperature Profile KEPCO & KHNP 126

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 340 °F 340 °F 130 °F 130 °F 0 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months Note:

1. Temperature profile above applies to the following zones: 078-A17C/D, and 137-A30C/D Figure 5 Turbine Driven AF Pump Room Vent & Main Steam Enclosures Temperature Profile KEPCO & KHNP 127

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 325 °F 325 °F 130 °F 130 °F 0 70 seconds 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months Note:

1. Temperature profile above applies to the following zones: 100-A28B, and 117-A02A Figure 6 HELB HVAC Duct Tray Pipe Way Temperature Profile KEPCO & KHNP 128

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 325 °F 325 °F 180 °F 104 °F 0 70 seconds 2 hours2.314815e-5 days 5.555556e-4 hours 3.306878e-6 weeks 7.61e-7 months 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months Note:

1. Temperature profile above applies to the following zones: 120-A14A and 137-A19A Figure 7 SG Blowdown Flash Tank Room Temperature Profile KEPCO & KHNP 129

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Regulatory Requirement and Codes & Standards System Designing Equipment Designing and Determination of Qualification Requirement

System Design

No Disqualified Safety Related?

Yes Equipment Design Disqualified Safety-Related Equipment Designing Equipment Manufacturing Judgment of Disqualified Causes and Equipment Manufacturing Defects Performance of Equipment Qualification

- Establishment of Qualification procedure

- Qualification(Test, Analysis, Experience)

- Analysis of Qualification Result

- Documentation Fail Qualification Evaluation?

Non-Safety Related Equipment Designing and Manufacturing Pass Equipment Installation Equipment Operation &

Maintenance and Surveillance Nuclear Safety Secured Figure 8 Equipment Qualification Working Process KEPCO & KHNP 130

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 No Yes Start Safety-Related? Safety-Related effect?

Yes No Equipment Qualification Yes Applied to RG 1.97?

No Structure Passive Active Class 1E Equipment Mechanical Equipment Mechanical Equipment End (Pump, Valve Assembly) Equipment Non-ASME ASME Equipment Equipment No Harsh Environment? No Reactor & - Fan - Pressure Vessel Harsh Environment?

Inside Reactor - Damper - Valve

- Diesel - Heat Exchanger Yes Yes

- Generator - Tank

- Others - Others Aging Conditioning Aging Conditioning for Normal Cond. for Normal Condition Seismic Seismic Seismic Seismic Seismic Qualification Qualification Qualification Qualification Qualification Environmental Qualification Environmental Qualification (DBA Simulation) (DBA Simulation)

Figure 9 Equipment Qualification Flow Diagram By Type of Safety-Related Equipment KEPCO & KHNP 131

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Part 2 Seismic Qualification Program KEPCO & KHNP 132

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 TABLE OF CONTENTS 1 OBJECTIVES .................................................................................................... 139 1.1 CRITERIA AND STANDARDS ..................................................................................................... 139 1.2

SUMMARY

................................................................................................................................... 139 2 DEFINITIONS .................................................................................................... 140 2.1 Safe Shutdown Earthquake (SSE) ............................................................................................... 140 2.2 Operating Basis Earthquake (OBE) ............................................................................................. 140 2.3 Safety-Related Equipment ......................................................................................................... 140 2.3.1 Active Equipment ......................................................................................................................... 140 2.3.2 Passive Equipment....................................................................................................................... 140 2.4 Seismic Loads .............................................................................................................................. 141 2.5 Floor Acceleration ........................................................................................................................ 141 2.6 Response Spectrum ..................................................................................................................... 141 2.6.1 Floor Response Spectrum ........................................................................................................... 141 2.6.2 Test Response Spectrum ............................................................................................................. 141 2.7 Dynamic Characteristics............................................................................................................... 141 2.7.1 Natural Frequencies ..................................................................................................................... 141 2.7.2 Mode Shapes ............................................................................................................................... 141 2.7.3 Damping ....................................................................................................................................... 142 2.8 Resonance ................................................................................................................................... 142 2.9 Mathematical Model ..................................................................................................................... 142 2.10 Dynamic Analysis ......................................................................................................................... 142 2.11 Static (Coefficient) Analysis.......................................................................................................... 142 2.12 Supporting Tests .......................................................................................................................... 142 2.13 Qualification Tests ........................................................................................................................ 142 2.14 Device........................................................................................................................................... 142 KEPCO & KHNP 133

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 2.15 Assembly ...................................................................................................................................... 142 2.16 Failure........................................................................................................................................... 143 2.17 Malfunction ................................................................................................................................... 143 3 SCOPE OF EQUIPMENT SEISMIC AND DYNAMIC QUALIFICATION ................. 144 3.1 SEISMIC CATEGORY I EQUIPMENT ......................................................................................... 144 3.2 SEISMIC CATEGORY II EQUIPMENT ........................................................................................ 144 4 SEISMIC QUALIFICATION REQUIREMENTS .................................................... 146 5 QUALIFICATION PROGRAMS ........................................................................... 147 5.1 QUALIFICATION BY TESTING ONLY ........................................................................................ 147 5.2 QUALIFICATION BY THE USE OF EXPERIENCE DATA .......................................................... 147 5.3 QUALIFICATION BY SUPPORTING TESTS AND ANALYTICAL CALCULATIONS (COMBINATION).......................................................................................................................... 147 5.4 SUPPORTING TESTS SUPPLEMENTED WITH QUALIFICATION TESTS............................... 148 5.5 SUPPORTING ANALYSIS AND QUALIFICATION TESTS ......................................................... 148 5.6 SUPPORTING TESTS ................................................................................................................. 148 5.6.1 Dynamic Supporting Tests ........................................................................................................... 148 5.6.2 Static Supporting Tests ................................................................................................................ 149 5.7 QUALIFICATION TESTS ............................................................................................................. 149 5.7.1 Dynamic Input .............................................................................................................................. 149 5.7.2 Mounting ....................................................................................................................................... 150 5.7.3 Nozzle Loads ................................................................................................................................ 150 5.7.4 Other Loads .................................................................................................................................. 150 5.7.5 Basis of Acceptability ................................................................................................................... 150 5.8 ANALYTICAL TECHNIQUES ....................................................................................................... 150 5.9 SUPPORTING CALCULATIONS FOR QUALIFICATION TESTS ............................................... 150 5.10 ANALYTICAL QUALIFICATION ................................................................................................... 150 5.10.1 Rigid Equipment and Rigid Supports.......................................................................................... 151 KEPCO & KHNP 134

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 5.10.2 Rigid Equipment and Flexible Support ....................................................................................... 151 5.10.3 Flexible Equipment ..................................................................................................................... 151 5.10.4 Equipment Supplied with Attached Piping .................................................................................. 152 5.10.5 Equipment Supported by Different Buildings or Different Elevations within the Same Building 152 5.11 COMBINATIONS OF PLANT CONDITIONS, SERVICE LEVELS, AND LOADINGS ................. 152 5.11.1 Service/Design Limits ................................................................................................................. 152 5.11.2 Dynamic Loads ........................................................................................................................... 153 5.11.3 Nozzle Loads .............................................................................................................................. 153 5.11.4 Operating Loads ......................................................................................................................... 153 5.11.5 Methods of Analysis.................................................................................................................... 153 5.11.5.2 Dynamic Analysis .................................................................................................................... 153 5.11.6 Basis of Acceptability .................................................................................................................. 154 5.12 EXPERIENCE DATA.................................................................................................................... 154 5.13 OPERABILITY OF ACTIVE EQUIPMENT ................................................................................... 154 5.13.1 Electrical and Instrumentation .................................................................................................... 154 5.13.2 Mechanical Equipment ............................................................................................................... 155 5.13.3 Mechanical Drive Turbines ......................................................................................................... 156 5.13.4 Fans ............................................................................................................................................ 156 5.13.5 Diesel Engine .............................................................................................................................. 156 5.14 BUILDING STRUCTURE LOADS ................................................................................................ 156 6 DOCUMENTATION ............................................................................................ 157 6.1 FORMAT OF THE DYNAMIC QUALIFICATION REPORTS ....................................................... 157 7 REFERENCES ................................................................................................... 160 KEPCO & KHNP 135

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 LIST OF TABLES Table 1 Stress Limits for Equipment and Supports .......................................................................... 161 Table 2 Stress Limits for Bolting to Steel Building Structure ............................................................ 162 Table 3 Strength Limits for Anchoring to Building Structure ............................................................. 163 KEPCO & KHNP 136

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 LIST OF FIGURES Figure 1 Typical Examples of Equipment Attachments to Building Structure.................................... 165 KEPCO & KHNP 137

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Page intentionally blank KEPCO & KHNP 138

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 1 OBJECTIVES Seismic qualification is a means to verify the electrical and active mechanical equipment can meet its performance requirements during and following one safe shutdown earthquake (SSE) preceded by a number of operating basis earthquakes (OBEs). This program establishes the seismic and dynamic qualification procedures and criteria for Seismic Category I equipment in APR1400. This program is part of the overall APR1400 Equipment Qualification Program (EQP). This program provides the seismic and dynamic qualification requirements and general procedures to qualify electircal and mechanical equipment in accordance with NRC RG 1.100 (References 7.1 and 7.5) and IEEE Std 344. It is expected that this report may be referenced by license applicants for the scope and methods employed herein.

1.1 CRITERIA AND STANDARDS The seismic requirements to be considered in the design of all the Seismic Category I equipment are embodied in Title 10 Code of Federal Regulations (10 CFR), Appendix A to Part 50, General Design Criterion 3.

The qualification program is designed to meet the requirements of SRP 3.10 (Reference 7.3), NRC RG 1.100, IEEE Std 344, and IEEE Std 627. IEEE Std 344 was issued to provide guidance for demonstrating the seismic qualifications of Class 1E equipment for nuclear generating stations. The individual supporting standards that the A/E will employ, either in whole or in part, are listed in Section 7.

1.2

SUMMARY

A summary of the various sections of this program is given below:

Scope of Equipment Seismic and Dynamic Qualification (Section 3)

The general scope of supply and the various qualification program activities are described. This program will cover Seismic Category I equipment in harsh and mild environments.

Seismic Qualification Requirements (Section 4)

The methods required in performing seismic qualification are presented.

Qualification Programs (Section 5)

Information is provided for the detailed seismic qualification methods to be employed in compliance with NRC RG 1.100, IEEE Std 344, and ASME QME-1 (Reference 7.6) requirements. Demonstration of the conservatism of the qualification parameters is described.

Documentation (Section 6)

This section describes the documentation required for qualification. The qualification reports and their generation are described. Documentation necessary to support the review of a particular applicant's docket will be available for audit.

KEPCO & KHNP 139

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 2 DEFINITIONS 2.1 Safe Shutdown Earthquake (SSE)

An earthquake that is based upon an evaluation of the maximum earthquake potential considering the regional and local geology and seismology and specific characteristics of local subsurface material. It is that earthquake that produces the maximum vibratory ground motion for which certain structures, systems, and components are designed to remain functional.

2.2 Operating Basis Earthquake (OBE)

An earthquake that could reasonably be expected to occur at the plant site during the operating life of the plant considering the regional and local geology and seismology and specific characteristics of local subsurface material. It is that earthquake that produces the vibratory ground motion for which those features of the nuclear power plant necessary for continued operation without undue risk to the health and safety of the public, are designed to remain functional.

2.3 Safety-Related Equipment Safety-related equipment is the equipment necessary to provide reasonable assurance of:

a. The integrity of the reactor coolant pressure boundary,

b. The capability to shut down the reactor and maintain it in a safe shutdown condition, or

c. The capability to prevent or mitigate the consequences of accidents that could result in potential off-site exposures in excess of the limits stated in 10 CFR 100.

Electrical equipment falling in this category is called Class 1E equipment.

All safety-related equipment shall be either active or passive.

2.3.1 Active Equipment Equipment containing moving parts, which in order to accomplish its function, must undergo mechanical movement of those parts, or must prevent a movement of those parts to ensure that the equipment will remain in its last position.

2.3.2 Passive Equipment Equipment that must maintain its pressure boundary and/or structural integrity, but not necessarily perform mechanical motion or have certain deflection limits, during the course of accomplishing a system safety function.

KEPCO & KHNP 140

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Any equipment that is not designated as safety-related but could degrade the integrity of a safety-related component shall be treated the same as passive equipment.

2.4 Seismic Loads The additional loads that may be imposed on the equipment due to the occurrence of an earthquake.

2.5 Floor Acceleration The maximum acceleration of a particular building floor (or equipment mounting) resulting from a given dynamic excitation applied to the building. The maximum floor acceleration can be obtained from the floor response spectrum as the acceleration at high frequencies (the flat portion of the response spectrum curve) and sometimes referred to as the zero-period acceleration (ZPA).

2.6 Response Spectrum A plot of maximum responses of a family of idealized single-degree-of-freedom linear-elastic oscillators subjected to transient vibratory base input motion. Each damping value produces a different response spectrum.

2.6.1 Floor Response Spectrum The response spectrum for which the transient base excitation is the floor motion rather than the ground motion. The response spectra at the elevations where the equipment will be located are included with the purchase specification and are called required response spectra (RRS).

2.6.2 Test Response Spectrum The response spectrum resulting from the actual motion of the shake table for specified damping values.

They may be derived by analytical techniques or by using spectrum analysis equipment (i.e., real-time analyzer).

2.7 Dynamic Characteristics The characteristics that are needed to determine the dynamic behavior of the equipment due to any forcing function. These characteristics are as follows.

2.7.1 Natural Frequencies Free vibration frequencies of the system.

2.7.2 Mode Shapes The vibrational shape of the system when vibrating at one of its natural frequencies. Each natural frequency has a different mode shape.

KEPCO & KHNP 141

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 2.7.3 Damping An energy dissipation mechanism that reduces the amplification and broadens the vibratory response in the region of resonance. Damping is usually expressed as a percentage of critical damping. Critical damping is defined as the least amount of viscous damping that causes a single-degree-of-freedom system to return to its original position without oscillation after initial disturbance.

2.8 Resonance The condition that exists when the equipment has the same predominant period as does the applied forcing function.

2.9 Mathematical Model The idealization of a component, structure, or piece of equipment as an assemblage of linear systems suitable for detailed dynamic analyses.

2.10 Dynamic Analysis An analysis procedure for multi-degree-of-freedom systems in which the responses are obtained for each normal mode and then combined to predict the true response and the associated stress and deflection due to any forcing function.

2.11 Static (Coefficient) Analysis An analysis that evaluates the stresses and deflections due to equivalent steady state forces acting through the center of gravity of the equipment. These forces shall be chosen conservatively such that it results in stresses and deflections higher than those predicted by dynamic analyses.

2.12 Supporting Tests Tests that are conducted to determine the properties and characteristics of the equipment and to provide data needed for the analysis or qualification tests. These tests are either dynamic or static.

2.13 Qualification Tests Tests that are conducted to prove that the equipment shall perform its safety function or design-intended function when subjected to the loading combinations associated with different postulated plant conditions.

2.14 Device An item of electric equipment that is used in connection with, or as an auxiliary to, other pieces of equipment.

2.15 Assembly Two or more devices (or elements) sharing a common mounting or supporting structure.

KEPCO & KHNP 142

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 2.16 Failure The condition in which a piece of equipment can no longer perform its intended safety function.

2.17 Malfunction Improper performance of mechanical or electrical equipment.

KEPCO & KHNP 143

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 3 SCOPE OF EQUIPMENT SEISMIC AND DYNAMIC QUALIFICATION 3.1 SEISMIC CATEGORY I EQUIPMENT Seismic Category I equipment is required to be seismically and dynamically qualified by demonstrating that its structural integrity and safety function during and after a postulated earthquake in conjunction with the full range of applicable normal and accident loads and conditions.

Seismic Category I equipment requiring qualification in accordance with the APR1400 EQP is described as follows:

a. Equipment associated with systems that are essential to emergency reactor shutdown, containment isolation, reactor core cooling, and containment reactor heat removal

b. Equipment and systems used to power, control, or monitor other structures, systems, and components (SSCs) important to safety

c. Equipment essential to preventing significant release of radioactive material to the environment

d. Instrumentation (including accident and post-accident monitoring) needed to assess plant and environmental conditions during and after an accident, as described in NRC RG 1.97, Criteria for Accident Monitoring Instrumentation for Nuclear Power Plants The equipment seismic qualification program criteria define specific technical requirements for seismic and dynamic qualification of seismic category I, safety-related mechanical equipment (excluding piping),

and seismic category I (Class 1E) electrical and instrumentation equipment, including associated supports and mountings. The program includes qualification of category I tanks and reservoirs for hydrodynamic seismic loads, where applicable. All such equipment that is required to perform functionally or maintain its structural integrity, as described above, is subject to rigorous seismic/dynamic qualification.

Some non-safety-related equipment are identified to meet seismic Category I requirements in Table 3 of Part 1 of this report. These equipment shall be capable of providing their intended function and maintaining structural integrity in accordance with specific design requirement.It should be noted that detailed criteria for functionality testing and inspection of mechanical and electrical equipment (e.g.,

performance tests, hydrostatic tests, and leakage tests) are not within the scope of the equipment seismic qualification program.

3.2 SEISMIC CATEGORY II EQUIPMENT The equipment seismic qualification program criteria also define technical requirements for seismic and dynamic qualification of equipment important to safety whose failure could prevent satisfactory accomplishment of one or more of the safety-related functions.

This includes seismic Category II equipment, defined as that equipment which performs non-safety-related functions, and whose continued function is not required, but whose structural or functional failure or interaction could degrade the function or integrity of a seismic Category I SSC to an unacceptable level, or could result in incapacitating injury to occupants of the control room.

Therefore, seismic Category II equipment can be seismically qualified by demonstrating that it retains its position sufficiently in an SSE that it will not cause unacceptable structural interaction with or failure of KEPCO & KHNP 144

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 seismic Category I SSCs. For fluid systems, this requires an appropriate level of pressure boundary integrity to prevent seismically induced flooding that may cause adverse effects on safety-related SSCs.

In cases where it is not possible or practical to isolate the seismic Category I equipment, non-seismic equipment that is adjacent to seismic Category I equipment is classified as seismic Category II and analyzed and supported so that an SSE accident does not cause an unacceptable interaction with the seismic Category I equipment.

KEPCO & KHNP 145

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 4 SEISMIC QUALIFICATION REQUIREMENTS The dynamic qualification of Seismic Category I equipment is achieved by providing reasonable assurance of its structural integrity and verifying the operability of active equipment when subjected to equivalent conditions that would be present during the postulated plant conditions. The following qualification programs are required:

a. Qualification by tests only

b. Qualification by analytical methods only

c. Qualification by the use of experience data (An experience-based qualification is not used for any equipment until it is endorsed by NRC R.G.1.100)

d. Qualification by any combination of supporting tests, supporting calculations, qualification tests, analytical calculations and experience.

Regardless of the equipment qualification programs chosen, the conditions and requirements for those portions of the program are stated in the following sections and shall be met.

KEPCO & KHNP 146

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 5 QUALIFICATION PROGRAMS Many factors control the design of a qualification program. If qualification is to be achieved by analysis only, all assumptions used in the analysis shall be given and justified. If testing alone is used for qualification, all applicable loads shall be simulated during the test unless it can be shown that the simultaneous application of certain loads is not necessary for providing reasonable assurance of the equipment's safety function or design-intended function.

5.1 QUALIFICATION BY TESTING ONLY Qualification by testing only is recommended when the following conditions are fulfilled:

a. The test machine is capable of producing the required motion in accordance with the conditions stated in Section 5.7 of this program.

b. The applicable loads are of a simple nature or it is possible to simulate them.

c. The test table allows the simulation of actual mounting.

d. It is possible to monitor the functional capability of active equipment during the test.

e. The structural configuration of the equipment is extremely complex and beyond the capability of mathematical modeling techniques.

f. The response of the equipment is expected to be extremely nonlinear.

g. Qualification by analytical methods only. Analytical calculations only may be used as a qualification method in the following cases:

1) When maintaining the structural integrity is an assurance for the safety function or design-intended function

2) When the equipment is structurally simple

3) When the response of the equipment is linear or is a simple nonlinear behavior

4) When the effects of attached components and the superposition of load conditions are too complex for testing 5.2 QUALIFICATION BY THE USE OF EXPERIENCE DATA An experience-based qualification is not used for any equipement until it is endorsed by NRC R.G.1.100.

5.3 QUALIFICATION BY SUPPORTING TESTS AND ANALYTICAL CALCULATIONS (COMBINATION)

Supporting tests may be used to determine:

a. Deflection limits within which operability is maintained KEPCO & KHNP 147

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4

b. Dynamic parameters needed for constructing or verifying mathematical models

c. Damping values

d. Assumptions to be used in the analysis

e. The amount of nonlinearity involved Supporting tests may be static or dynamic. The dynamic test may be conducted using shake tables or single-point exciters.

After collecting the required information from supporting tests, analytical techniques may be used to show that the structural integrity and/or operability of equipment is maintained without undertaking a complete test program. It must be noted that without performing some supporting tests, analytical calculations alone provide weak evidence for assuring operability.

5.4 SUPPORTING TESTS SUPPLEMENTED WITH QUALIFICATION TESTS Supporting tests for these programs may be used to obtain the following types of information:

a. Natural frequencies

b. Amount of cross-coupling

c. Significance of simultaneous application of all applicable loads and possibility of decoupling them without affecting the reliability of the equipment Such supporting tests may simplify the qualification tests as they may permit justification for single-axis excitation, the use of a less complex waveform to simulate the forcing function, and a reduced number of loading conditions.

5.5 SUPPORTING ANALYSIS AND QUALIFICATION TESTS This approach may be used for qualification of complex and simple assemblies such as control boards, switchgear assemblies, vertical pumps and motors, and diesel-generator units. An analysis approach may be used to determine the overall equipment integrity and response at the subassembly or component locations and the subassemblies may be tested to the response levels that are predicted analytically.

5.6 SUPPORTING TESTS Supporting tests may be either dynamic or static in nature.

5.6.1 Dynamic Supporting Tests In dynamic supporting tests, the equipment may be excited by using a shake table, or single-point exciters applied at a sufficient number of points to simulate the forcing function. The excitations shall be of sufficient strength to excite all significant modes of the equipment. Typical data obtained from such tests are:

KEPCO & KHNP 148

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4

a. Dynamic characteristics of the equipment (e.g., natural frequencies, mode shapes, and damping factors)

b. Cross-coupling effects (i.e., the response in any direction due to the excitation in any other direction in situations where installing accelerometers in some locations is impractical, cross-coupling may be estimated based on the response of the available accelerometer locations.)

c. The significance of the response of the equipment to vibratory motion to determine the necessity of combining equipment nozzle loads with other dynamic loads 5.6.2 Static Supporting Tests Static supporting tests are conducted by applying static forces on the equipment. Typical data obtained from these tests are:

a. Static deflections and flexibility parameters that are needed for constructing a mathematical model

b. Distortion in the equipment casing due to nozzle loads, and the deformation limits within which the equipment would maintain its functionality 5.7 QUALIFICATION TESTS Active equipment shall be tested under operating conditions in accordance with the requirements of NRC RG 1.100 and IEEE Std. 344. Equivalent operating loads shall be simulated to act on passive equipment, but the equipment itself need not be under an operating condition. The following requirements are conditions for a proper qualification test and shall be fulfilled:

5.7.1 Dynamic Input The input for dynamic testing shall be determined from the floor motion and shall be modified, as necessary, by the test procedure and setup. The input for dynamic testing shall include non-seismic vibratory loads as well as seismic loads.

When single-axis excitation is used, cross-coupling shall be considered as follows:

a. When performing the supporting tests, the extent of the response in any other direction shall be determined. To explain, let rij be the ratio of the response in the j direction to the excitation in the i direction, and determine rxy, rxz, ryx, ryz, rzx, and rzy. Where x, y, z are the three principal directions of the equipment or any other set of orthogonal axes that may produce a higher response.

b. The dynamic coefficients to be used in qualification tests shall be based on the values obtained from the design response spectrum increased by the cross-coupling factors, rij, obtained from the supporting tests or estimated by other acceptable means.

KEPCO & KHNP 149

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 5.7.2 Mounting The equipment shall be mounted to simulate the recommended service mounting. If this cannot be done, the effect of the actual supporting structure shall be considered in determining the input motion.

5.7.3 Nozzle Loads The expected (or calculated) piping reaction loads on the equipment shall be used in the qualification.

5.7.4 Other Loads Any other loads that may act on the equipment (mechanical, electrical, or instrument) during the postulated dynamic event shall be simulated during the test, unless the supporting tests (or calculations) show that they are insignificant.

5.7.5 Basis of Acceptability Inspection shall be made by the test conductor to provide reasonable assurance that no structural damage has occurred. For active equipment, sufficient monitoring devices shall be used to evaluate the performance of the tested equipment during the test. The equipment shall demonstrate its ability to perform its intended function when subjected to all applicable loads. A test report, which includes all test data, results and conclusions, shall be submitted to the combined license applicant for review. A suggested format for the test report is presented in Section 6. It is recommended that the Supplier follow the outline of Section 6 for documenting the dynamic testing. This will facilitate the review of the material in the report and support its completeness.

5.8 ANALYTICAL TECHNIQUES Analytical calculations may be used for one of three purposes:

a. To develop supporting data for performing qualification tests

b. To qualify the equipment using the data obtained from supporting tests

c. To qualify the equipment without tests 5.9 SUPPORTING CALCULATIONS FOR QUALIFICATION TESTS Calculations may be used to evaluate the effect of the floor motion on the base of the equipment. This would be in such cases as a device installed in a panel or cabinet, equipment mounted on a complex structure, a valve mounted on a piping system. Calculations may also be used to justify reducing the requirements for qualification testing.

5.10 ANALYTICAL QUALIFICATION The methods to be used for qualification, by calculations only or by calculations based on supporting test results, are stated in this section. These methods will depend on the type of equipment and supporting KEPCO & KHNP 150

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 structure. The following defines some of the possible cases and associated analytical methods that may be used in each case.

5.10.1 Rigid Equipment and Rigid Supports

a. The equipment, as well as its supports, can be considered rigid if it can be shown that its fundamental natural frequency does not fall in the frequency range below the high-frequency asymptote (ZPA) of the RRS.

b. For rigid equipment supported by a rigid structure (including any in-place supporting steel provided by the combined license applicant), the equipment motion shall be the same as the floor motion without amplification. The horizontal and vertical dynamic accelerations shall be taken as the ZPA from the floor response spectrum for the elevation at which the equipment is located, as provided by the combined license applicant.

c. The acceleration values obtained shall be used to perform a static analysis as described in Subsection 5.11.5 of this report.

5.10.2 Rigid Equipment and Flexible Support

a. In cases where the equipment itself is a rigid body but its supporting system is flexible (including any in-place steel or concrete provided by the combined license applicant, the overall system may be idealized as a single-degree-of-freedom system consisting of an equivalent mass and spring system.

b. In cases where the equipment and support systems' natural frequency falls in the frequency range below the high-frequency asymptote (ZPA), the system shall be remodeled using a multi-degree-of-freedom idealization. A dynamic analysis shall be performed using an appropriate damping factor. If the natural frequency is greater than or equal to the ZPA, a static analysis shall be performed using the acceleration value corresponding to the ZPA of the RRS. A conservative static analysis may use the peak acceleration from the RRS.

c. The selection of damping values to be used with the response spectrum curves in determining the acceleration is a significant factor. Unless any specific value is given for analysis, damping factors of 2 percent for Upset/Service Level B and 3 percent for Emergency/Faulted/Service Levels C and D shall be accepted. Higher damping values may be accepted only if they can be justified.

5.10.3 Flexible Equipment

a. In cases where the equipment cannot be considered as a rigid body and where the equipment cannot be modeled as a single-degree-of-freedom system, it shall be modeled as a multi-degree-of-freedom system.

b. A dynamic analysis shall be performed and the natural frequencies, mode shapes, and modal participation factors for each mode shall be computed.

c. Finally, by combining all the significant modes, the resultant stresses and deflections shall be determined using a detailed (modal) dynamic analysis method.

KEPCO & KHNP 151

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 5.10.4 Equipment Supplied with Attached Piping

a. For equipment supplied with attached piping, due to construction requirements, the Supplier shall perform an analysis for the attached piping as well as the equipment.

b. The analysis shall satisfy the piping design criteria specified in each procurement specification.

c. The procedure for analysis shall be determined according to the situation. If the equipment is attached to the floor, then the equipment shall be analyzed first to determine the input to the piping. However, if the equipment is attached to the piping only (pipe-mounted), the piping analysis shall yield the loads to be used in the analysis of the equipment.

5.10.5 Equipment Supported by Different Buildings or Different Elevations within the Same Building

a. This is usually the case for piping; heating, ventilation, and air conditioning (HVAC) ducts; and cable trays.

b. Stresses resulting from relative displacements at various support locations for systems identified above shall be superimposed on the stresses produced in the system due to inertia effects.

c. Additional restraints, supports, or other means shall be employed to limit or reduce the high response loads.

5.11 COMBINATIONS OF PLANT CONDITIONS, SERVICE LEVELS, AND LOADINGS The loading combinations are defined in accordance with different real and postulated plant conditions and equipment service levels for ASME Boiler and Pressure Vessel Code,Section III components. These plant conditions and equipment service levels shall be classified as stated in the ASME Section III, Division 1. The same concept of plant conditions and equipment service levels shall be applied on all mechanical and electrical equipment, as well as controls and instrumentation. However, if the stresses and deflections of the more severe loading condition or service level meet the design limits of the less severe loading condition or service level, it may not be required to check the additional loading conditions and service levels. The loading combinations for the same plant condition / service level shall depend on whether the equipment is a pressure-retaining (fluid system component) or a non-pressure-retaining (non-fluid system) component. In addition, the design stress limits shall depend on whether the equipment is classified as active or passive.

5.11.1 Service/Design Limits Unless otherwise stated in procurement specification, there shall be no deflection limits required for passive equipment. However, for active equipment, the deflection limits shall be those maximum deflections that would not impair the operability of the equipment. These limits shall be determined from supporting tests. Engineering judgment shall only be accepted in simple and clear cases. The stress limits for ASME III and non-ASME equipment and supports are summarized in Table 1.

KEPCO & KHNP 152

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 5.11.2 Dynamic Loads The dynamic loads shall be obtained, in the horizontal and vertical directions, from the corresponding response spectra provided by the combined license applicant for the two postulated accidents, upset and emergency conditions. The horizontal dynamic loads shall be applied in the two horizontal principal directions simultaneously along with the vertical dynamic loads.

5.11.3 Nozzle Loads The procurement specification will specify the nozzle loads that shall be used in the qualification.

5.11.4 Operating Loads Operating loads include all loads resulting from the operation of the equipment, such as torque due to rotating parts and vibratory loads due to eccentricities.

5.11.5 Methods of Analysis Acceptable analytical procedures for the various conditions are described in the following subsections.

5.11.5.1 Static (Coefficient) Analysis If it can be shown that the equipment and its support are rigid, a static analysis may be performed to determine the stresses and deflections due to dynamic loads. In this case, the dynamic forces shall be determined by multiplying the mass of the subassembly or parts of the equipment by the maximum floor dynamic acceleration at the base of the equipment (ZPA from the response spectra). If the fundamental natural frequency is not known, a static analysis using 1.5 times the maximum peak of the applicable floor response spectra is acceptable. These forces shall be applied through the center of gravity of the subassembly or the part of the equipment. The stresses resulting from each force (in each of the three directions) shall be combined by taking the square root of the sum of the squares (SRSS) to yield the dynamic stresses. The dynamic deflections (deflections due to dynamic loads) shall be calculated in the same manner. These dynamic stresses and deflections shall be added to all stresses and deflections resulting from all applicable loads to obtain the final resultant stresses and deflections, which shall be compared with the design limits stated in Subsection 5.11. Furthermore, deflections are verified to provide reasonable assurance of operability.

5.11.5.2 Dynamic Analysis When acceptable justification for static (coefficient) analysis cannot be provided, a dynamic analysis shall be required, and unless a conservative factor is used to account for the participation of higher modes, a detailed dynamic analysis shall be performed. A mathematical model may be constructed to represent the dynamic behavior of the equipment. The model can be analyzed using the response spectrum modal analysis or time-history (modal or step-by-step) analysis. The maximum inertia forces at each mass point, from each mode, shall be applied at that point to calculate the modal stresses and modal deflections. The various modal contributions shall be combined by taking the SRSS of the individual modal stresses or deflections. Closely spaced modes shall be combined by using an approach from NRC RG 1.92, "Combining Modal Responses and Spatial Components in Seismic Response Analysis" (Reference 7.2).

The stresses and deflections resulting from each of the three directions shall be combined by taking the KEPCO & KHNP 153

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 SRSS to obtain the dynamic stresses and deflections. These dynamic stresses and deflections shall be added to all stresses and deflections resulting from all applicable loads and then compared with the design limits stated in Subsection 5.11.

5.11.6 Basis of Acceptability The resultant stresses and deflections due to all loads included in the loading combinations stated in the procurement specification shall be within the design limits stated also in the procurement specification.

Any deviation from these criteria shall be justified and the calculations shall show that the structural integrity of equipment, as well as the operability of active equipment, is maintained when subjected to the specified loading combinations. The Supplier shall submit to the combined license applicant a report that includes the data, calculations, results, and conclusions of the analysis. A suggested form for the report is presented in Section 5.14.

5.12 EXPERIENCE DATA An experience-based qualification is not used for any equipement until it is endorsed by NRC R.G.1.100.

Similarity Qualification by the use of experience data shall be based on the concept of dynamic similarity for excitation, physical system, dynamic response, and operability as follows:

a. Similarity of excitation exists, such as spectral characteristics, duration, directions of excitation axes, and location of measurement, for the motions relative to the equipment mounting.

b. Similarity of the equipment configuration shall be established.

c. A physical system dynamic response can be described through the same quantities as those applied to excitation or through a physical system description.

The experience data shall provide documented evidence to support the demonstration of proper operability.

5.13 OPERABILITY OF ACTIVE EQUIPMENT The methods and guidance in ASME QME-1 including Appendix QRA, with exceptions provided in NRC RG 1.100, are used for seismic qualification of active mechanical equipment. The seismic and dynamic testing portion of the qualification program is performed in a sequence consistent with the requirements of Section 6 of IEEE Std. 323-2003 (Reference 7.4).

The operability of all active equipment before, during, and after (if required) DBAs, including seismic, shall be proven by test and/or analysis, and the test or analysis report shall be provided as part of the dynamic qualification report.

5.13.1 Electrical and Instrumentation The qualification test methods described in Section 5.7 of this program to prove the operability of active electrical and instrumentation equipment shall be employed.

KEPCO & KHNP 154

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 5.13.2 Mechanical Equipment For mechanical equipment, the operability by analysis and/or tests shall be proven as follows:

a. Pumps A static deflection analysis and/or test for the shaft and rotor (if applicable) should be performed under design basis loading, including the maximum allowable nozzle loads specified in the procurement specification. The deflection shall be less than the allowable/recommended deflection by the Supplier.

b. Valves The operability requirements stated in Reference 7.6 shall be followed by the Supplier and are considered part of this report.

c. Acceptable Methods to Prove Valve Operability The following are the acceptable methods that can be applied by the Supplier to demonstrate valve operability:

1) Manual Valves Active manual valves are those that should be opened, or closed, after DBA. In this case, Supplier shall prove by analysis and/or test that the valve moving parts (e.g., stem, disc) are not permanently damaged due to DBA along with the maximum operating and nozzle loads.

2) Check Valves The integrity of the valve and its parts, including disc, disc support, hinge, hinge-pin, hinge-arm, and seat shall be proven by test and/or analysis. The valve has to undergo in-shop hydrostatic tests. Impact loading may or may not be of concern, depending on the design and flow condition of the check valve. Supplier should demonstrate that the impact of valve's disc does not damage its seat or other parts of the valve.

The valve's operability verification document should address by test and/or analysis all possible worst loading conditions on the valve during and after seismic events, including any applicable impact loading.

3) Other Active Valves All other active valves (except manual and check valves) should be subjected to the following tests and/or analyses to demonstrate operability:

Backseat and main seat leakage, and disc hydrostatic tests that verify the functionality of the valve within the specified time limits, when subjected to the design differential pressure and design basis loads. Three full-stroke operations, as a minimum, are required.

Test and/or analysis should be performed for static equivalent seismic loads applied at the center of gravity (CG) of the valve's extended structure.

KEPCO & KHNP 155

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 5.13.3 Mechanical Drive Turbines The operability of the mechanical drive turbine should focus primarily on the operability of auxiliary active components (valves, pumps, instruments) associated with or mounted on the turbine. The operability should be performed by analysis and/or test.

5.13.4 Fans The operability of fans by performing an analysis and/or test to determine the shaft and bearing deflections when the fan is subjected to the external design basis loads shall be demonstrated. The clearance between the shaft and bearing as a result of these loads shall be smaller than the recommended clearance.

5.13.5 Diesel Engine For the operability of the diesel engine and its auxiliary active components (valves, pumps, instruments),

the methods described in NRC RG 1.9 (Reference 7.9) and IEEE Std 387 (Reference 7.8) shall be applied.

5.14 BUILDING STRUCTURE LOADS Regardless of the qualification method(s) used, all the loads transmitted to the building structure shall be provided. The following loads shall be included in the calculations and the results for each shall be given separately:

a. Dead load

b. Operating loads

c. Nozzle loads (if applicable)

d. Pressure and thermal loads (if applicable)

e. Additional loads due to dynamic excitations (if applicable)

f. Any other loads that may be transmitted to the foundation during the dynamic event The detailed load and stress calculation of mounting connection shall be included in the building structure load summary.

When the purchase specification requires the Supplier to design the mounting connection to the building structure, calculations may be included in the building structure load summary. If these calculations are provided as a separate document, they shall be referenced in the building structure load summary. Tables 2 and 3 indicate load combinations and stress limits and strength limits for the design of bolted and anchor bolted connections to the building structure.

KEPCO & KHNP 156

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 6 DOCUMENTATION The dynamic qualification documentation shall include all the information stated in Section 6.1 in an auditable form.

6.1 FORMAT OF THE DYNAMIC QUALIFICATION REPORTS The dynamic qualification reports shall include both information suggested below and in IEEE 344 Section 11.3., and should present a clear, logical explanation of how the data have been used to achieve qualification.

Title Page The following information should be shown on the title page:

a. Buyer

b. Supplier and Equipment Name

c. Specification Number

d. Revision Number

e. Date

f. Equipment Tag No.

I - General This section shall include a description of the equipment, its function(s), and the qualification program used to verify the safety function(s) or design-intended function(s). In addition, the following information shall be provided:

a. Project and the Buyer Names

b. Specification and Purchase Order Numbers

c. Equipment Name and Number

d. Organization(s) performing qualification program

e. Similarity analysis showing the similarity between the equipment being qualified and the equipment purchased from Supplier.

II - Data and Assumptions

a. Testing Section The following data shall be included:

KEPCO & KHNP 157

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4

1) Type of testing machine

2) Loads considered and attempts made to idealize them during the test

3) Methods used to simulate the supporting structure

4) Position and orientation of setting equipment

5) Steps taken to monitor the function of equipment during the test and tentative accelerometer locations (photographs are recommended)

6) Means of generating test response spectra (if applicable)

7) Calibration dates and results for all instruments used in the dynamic test

8) Approved test plan

b. Analytical Section The following data shall be presented:

1) Loads considered

2) Damping values used in the analysis

3) Codes and standards used as bases for the analysis

4) Assumptions made for idealizing boundary conditions, converting the load criteria to actual loads used for calculations, and converting the design criteria to actual stress, deformation, and stability limits.

5) A list of the computer programs used in the analysis and the documentation, which establish the validity of any computer program used, if not available in the public domain.

6) Input and output data of the computer program to verify the loading criteria and analysis result.

III - Qualification Procedure

a. Testing Section: State type of test, waveform, frequency range, acceleration levels, axes of excitation, phase between inputs, equipment mounting details during testing, and any other data to completely describe the input motion and show how it is applied.

b. Analytical Section: State the method used in the analysis, analytical equations, and their derivation from basic principles. The calculations should be mentioned, if any.

IV - Results

a. Testing Section: This section shall include the measurements obtained from the test and their interpretations. Findings and observations from monitoring the function of the equipment and/or KEPCO & KHNP 158

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 inspection shall be presented. The generated test response spectra curves superimposed on the required response spectra curve shall be shown in this section, when applicable. All results should be presented in either numerical or graphical form.

b. Analytical Section: Show actual design calculations and sketches for the mathematical models, including numbering used for the node points and numbers. If possible, show loads, resultant forces, moments, stresses, and deformation on the mathematical model of the equipment.

c. For Active Equipment: Demonstrate the method used and results of equipment operability during and/or after DBAs, as required in the procurement specification.

V - Conclusions Give a brief summary of the results obtained from the qualification program. A concise statement of the conclusion reached, which should satisfy the qualification requirements, shall be stated in this section.

VI - Drawings Submit design drawings of the equipment and its supports. All necessary dimensions shall be shown on these drawings.

KEPCO & KHNP 159

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 7 REFERENCES All codes and standards shall be the edition in effect as of December 31, 2010 unless identified otherwise.

1 Regulatory Guide 1.100, "Seismic Qualification of Electrical and Active Mechanical Equipment and Functional Qualification of Active Mechanical Equipment for Nuclear Power Plants, Rev. 3, U.S. Nuclear Regulatory Commission, September 2009 2 Regulatory Guide 1.92, "Combining Modal Responses and Spatial Components in Seismic Response Analysis," Rev. 2, U.S. Nuclear Regulatory Commission, July 2006 3 NUREG-0800, Standard Review Plan, Section 3.10, "Seismic and Synamic Qualification of Mechanical and Electrical Equipment." Rev. 3, U.S Nuclear Regulatory Commission, March 2007 4 IEEE Std. 323-2003, "IEEE Standard for Qualifying Class 1E Equipment for Nuclear Power Generating Stations," Institute of Electrical and Electronics Engineers, 2003 5 IEEE Std. 344-2004, "IEEE Recommended Practice for Seismic Qualification of Class 1E Equipment for Nuclear Power Generating Stations," Institute of Electrical and Electronics Engineers, 2004 6 ASME QME-1-2007 Qualification of Active Mechanical Equipment Used in Nuclear Power Plants, The American Society of Mechanical Engineers, 2007 7 Generic Letter 89-10, "Safety-Related MOV Testing and Surveillance," U.S. Nuclear Regulatory Commission, June 28, 1989 8 IEEE Std. 387-1995, "IEEE Standard Criteria for Diesel-Generator Units Applied as Standby Power Suppliers for Nuclear Power Generating Stations," Institute of Electrical and Electronics Engineers, 1995 9 Regulatory Guide 1.9, Application and Testing of Safety-Related Diesel Generators in Nuclear Power Plants, Rev. 4, U.S. Nuclear Regulatory Commission, June 2007 10 ACI 349-01, "Code Requirements for Nuclear Safety-Related Concrete Structures (ACI 349-01) and Commentary," American Concrete Institute, February 2001 11 ANSI/AISC N690 - 1994 including Supplement 2(2004), Specification for the Design, Fabrication and Erection of Steel Safety-Related Structures for Nuclear Facilities, American National Standard Institute / American Institute of Steel Construction, 1994 & 2004 12 Regulatory Guide 1.199, "Anchoring Components and Structural Supports in Concrete, U.S.

Nuclear Regulatory Commission, November 2003 KEPCO & KHNP 160

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 1 Stress Limits for Equipment and Supports (Excluding Items Associated with Building Structure - See Figure 1)

Stress Limits for ASME Section III Equipment and Stress Limits Plant Supports (Use Appropriate for Non-ASME Operating Loading Combination Class and Subsections) Section III Condition Equipment and Active Passive 4)

Supports Equipment Equipment Normal Dead Loads Service Service AISC N690-94

+ Pressure Loads Limit A Limit A Section Q1.5

+ Thermal Expansion Loads 1)

+ Equip. Operation Loads Upset Dead Loads Service Service

AISC N690-94 6)

+ Pressure Loads Limit B Limit B Section Q1.5

+ Thermal Expansion Loads 1)

+ Equip. Operation Loads

+ Upset Condition Dynamic 2)

Loads Emergency Dead Loads Service Service

AISC N690-94 6) and + Pressure Loads Limit B Limit C Section Q1.5 multiplied Faulted + Thermal Expansion Loads and D, by 1.6 but not to 1)

+ Equip. Operation Loads respectively exceed 0.95Fy for

+ Emergency / Faulted tension; 3)

Condition Dynamic Loads and multiplied by1.4 but not to exceed 0.95 Fy/ 3 for shear

For active components, shaft (rotor) deflection analysis shall be performed for verifying operability.

KEPCO & KHNP 161

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 7)

Table 2 Stress Limits for Bolting to Steel Building Structure (Independent of Equipment Classfication)

Plant Operating Loading Combination Stress Limits Condition Normal Dead Loads AISC N690-94 Section

+ Pressure Loads Q1.5/Q1.6/ Q1.16/Q1.23

+ Thermal Expansion Loads 1)

+ Equip. Operation Loads Upset Dead Loads AISC N690-94 Section

+ Pressure Loads Q1.5/Q1.6/ Q1.16/Q1.23

+ Thermal Expansion Loads 1)

+ Equip. Operation Loads 2)

+ Upset Condition Dynamic Loads Emergency and Faulted Dead Loads AISC N690-94 Section

+ Pressure Loads Q1.5/Q1.6/ Q1.16/Q1.23

+ Thermal Expansion Loads multiplied by 1.6 and 1.4 for 1)

+ Equip. Operation Loads tension and shear stress limits

+ Emergency / Faulted Condition Dynamic respectively 3)

Loads KEPCO & KHNP 162

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 7)

Table 3 Strength Limits for Anchoring to Building Structure (1 of 2)

(Independent of Equipment Classification)

Table Plant Strength Limits per Operating Loading Combination ACI 349-01 8)

Condition Appendix B (Reference 7.10 and 7.12) 5)

Normal (0.9) Dead Loads Tensile Strength

+ (1.7) Pressure Loads n N s = f n Ase f ut N u

+ (1.3) Thermal Expansion Loads

+ (1.4) Equip. Operation Loads

1) f where, ut shall not be taken greater than 1.9 f y or 125,000 psi.

Shear Strength sVs = f s (0.6) Ase f ut Vu where, f ut shall not be taken greater than 1.9 f y or 125,000 psi.

Tension / Shear Interaction Nu V

+ u 1.2 n N s s Vs where, n = 0.80 , s = 0.75 Note)

The tensile & shear stress area for anchor shall be taken as 0.9743 2 A = 0.7854[ D ]

se n where, D: Major thread diameter n: Number of threads per inch Minimum center-to-center spacing For untorqued anchors: 4do For torqued anchors: 6do 5)

Maximum anchor diameter Upset (0.9) Dead Loads Anchor diameter(do) 2 in

+ (1.7) Pressure Loads where,

+ (1.3) Thermal Expansion Loads do: Outside diameter of anchor 1)

+ (1.4) Equip. Operation Loads If the concrete strength of the equipment foundation, as

+ (1.7) Upset Condition Dynamic designed by A/E, does not meet the anchor bolt ductile failure 2)

Loads requirements of ACI 349-01, Appendix B, Vendor shall modify anchor bolt details including bolt diameter, number of bolts, bolt material, and bolt arrangement as recommended by A/E.

See ACI 349-01, Appendix B for explanation of nomenclature shown in this table.

KEPCO & KHNP 163

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table 3 (2 of 2)

Plant Strength Limits per Operating Loading Combination ACI 349-01 8)

Condition Appendix B Emergency (0.9) Dead Loads

+ (1.0) Pressure Loads and + (1.0) Thermal Expansion Loads 1)

Faulted + (1.0) Equip. Operation Loads

+ (1.0) Emergency / faulted 3)

Condition Dynamic Loads Notes:

1) Equipment operating loads are those loads associated with the operation of the equipment being qualified.

Equipment operating loads include but are not limited to:

a) Piping nozzle reactions b) Motor startup and running torque c) Valve seating torque and/or thrust d) Thrust load on fans and pumps

2) Upset condition dynamic loads include the postulated dynamic loads as identified in the purchase specification.

3) Faulted condition dynamic loads include the safe shutdown earthquake plus other postulated dynamic loads as identified in the purchase specification.

4) Weld allowable stresses shall be per AISC N690-94 Q1.5.3 for Normal and Upset Load Cases. For Emergency and Faulted Load Cases, the allowable stresses per AISC N690-94, Table Q1.5.3 may be increased by 1.6 but shall not exceed 0.95 Fy for tension and by 1.4 but shall not exceed 0.95 Fy/ 3 for shear.

5) When calculating the overturning moments induced from eccentricity between weight center and anchor group center, the load factor of dead load shall be 1.4 instead of 0.9.

When calculating the horizontal forces and overturning moments induced from seismic condition, the load factor of dead load shall be 1.4 instead of 0.9.

6) For active components, shaft (rotor) deflection analysis shall be performed for verifying operability.

7) Building structure; refer to A/E-designed components (see Figure 1).

8) Strength limits follow the conditions set forth in Regulatory Guide 1.199.

KEPCO & KHNP 164

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Figure 10Typical Examples of Equipment Attachments to Building Structure KEPCO & KHNP 165

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 APPENDIX A CALCULATUION METHOD OF DETERMINING OF NORMAL CONDITION TIDs FOR ENVIRONMENTAL QUALIFICATION The total integrated dose (TID) used for environmental qualification is determined by summing the cumulative doses received during normal operation for 60 years and the 1 year post-accident doses. This appendix illustrates the methods to determine the normal operation TID values over the installed life of the components/equipment. The methods to calculate the post-accident TID are presented in Appendix B.

A simplified flow chart for calculating the normal TID values is presented in Figure A-1. As shown in Figure A-1, the following three dose contributing factors are considered for the determination of the normal TIDs:

a. Direct doses from target radiation source inside the room,

b. Indirect doses from surrounding radioactive equipment rooms, and

c. Doses from airborne radioactivity (also identified as submersion radiation) from equipment leakage in the target source room.

A.1. Input Parameters and Assumptions The major input parameters and assumptions used for the normal TID calculations are as follows:

a. Direct Dose is defined as doses directly received from radioactive sources in the target areas and Indirect Dose as doses received from radioactive sources located in surrounding areas which are separated by shielding structures from the target source equipment.

b. The dose rates during normal operation are determined based on 1% fuel defect as specified in RG 1.89, Appendix D.

c. For fuel transfer tube and cask loading pit, the TID values are calculated based on the refueling duration of 40 months which is calculated assuming one month of refueling period per fuel cycle of 18 months for 60 years, since the source terms in those areas are present only during the refueling period.

d. A capacity factor of 1.0 is conservatively applied for all equipment.

e. Dose rates are calculated at 1-foot away from equipment surface for direct dose calculations, and at 1-inch away from the inside of the shield wall for indirect dose calculations.

f. A 20% margin is added to the direct doses to consider dose contributions from the surrounding areas. If the 20% margin is not bounding the all dose contributions from the adjacent sources, the actual dose rates from the adjacent sources are added to the direct doses.

g. Doses from gammas are only considered except for the reactor areas based on the followings:

1) Neutrons are not present except for the areas nearby reactor vessel during normal operations.

KEPCO & KHNP A-1

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4

2) Beta rays are negligible, since they have the relatively very short range shielded by external structure cable insulation/jacketing.

h. Airborne activity is calculated using the following parameters:

1) Leakage rates from valves and flanges associated with the components in each cubicle, assuming simultaneous leakages from all valves and flanges;

2) Fraction of the leakage that becomes airborne (Partition Factor);

3) Room volumes for the corresponding components;

4) HVAC exhaust air flow rate I. Any reduction effect including radioactive decay is not considered for entire lifetime of 60 years

j. In accordance with RG 1.89, an additional margin of 10% is added to the normal TID for consideration of the uncertainty of the test.

A.2. Calculation Methods The TID from direct doses are calculated using Microshield computer codes. The methods to calculate the dose rates are same as those used to determine the radiation zones and the required minimum shield thicknesses provided in Section 12.3 except that the source terms used in this equipment qualification assume 1% fuel defect.

Contributions of the indirect doses from the adjacent areas are typically bounded by a margin of 20% of the direct doses. For the cases where the direct dose contributions are greater than 20%, the actually calculated doses are added to the direct doses to estimate the total doses.

The following equation is used to calculate the TID for the cases where the indirect dose contributions are bounded by 20% of the direct doses.

= 5.26E + 05 x x 1.2, (Eq. 1a) where, = Total integrate dose from direct and indirect radiation [Gy]

5.26E05 = Total time exposed to normal operation (= 60 years) [hr]

= Direct dose rate at 1 foot away from the equpment surface [Gy 1 ]

When the dose contributions from adjacent sources exceed the 20% of the direct doses, the actual indirect doses are added to the direct doses as follows:

= 5.26E + 05 x + , , (Eq. 1b) where, , = Indirect dose rate at 1 inch away from shield wall against room I [Gy 1 ]

Submersion doses from the airborne radioactivity due to leakage are calculated using the following equation stipulated in RG 1.183, C. Regulatory Position, Section 2.8:

KEPCO & KHNP A-2

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 TID = GF C, , (Eq. 2) where, TID = Total integrated dose from Submersion [Gy]

V = Volume of the room [m3 ]

, = Time-integrated airborne activity of isotope I [(Bq sec) 3 ]

, = Semi-infinite external effective dose conversion factor for isotope i [Sv 3 (Bq sec)1 ]

GF = Geometry correction factor, (= 8.525E-04 V 0.338 )

To calculate the equilibrium airborne radioactivity concentration in the Equation 3 above, the following equation is used as given in the DCD Section 12.2.2:

C L P CA = , (Eq. 3) 7.48 ( V + F) where, C = the airborne concentration in component room [Bq 3 ]

C = Fluid concentration in equipment/components [Bq 3 ]

= Leak rate from postulated leakages from valves and flanges associated with the component, [gpm ]

P = Fraction of the leaked activity that becomes airborne (Partition Factor)

= Decay constant [min1 ]

V = Volume of the enclosed room [ft 3 ]

F = HVAC Air exhaust flow rate [cfm]

7.48 = Conversion Constant (7.48 gal/ft 3 )

The TID values are then calculated considering the additional 10% margin as follows:

TID = ( + ) x 1.1 (Eq. 4).

On the other hand, the TID values for the rooms (or areas) without radiation sources in the radiologically controlled area (i.e., general access area, rooms such as storage area and hot tool area) are calculated as following:

TID = 5.26E + 05 x , x 1.1 x 1.2 (Eq. 5).

KEPCO & KHNP A-3

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 where, = Total integrate dose [Gy]

5.26E05 = Total time exposed to normal operation (= 60 years) [hr]

, = Upper dose rate in radiation zone i [Gy 1 ]

1.1 = 10% margin for uncertainty 1.2 = Additional 20% margin KEPCO & KHNP A-4

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Normal TIDs Do No Normal TID = 60 years-integrated Areas or rooms include radioactive dose based on upper limit dose rate in sources? the corresponding radiation zone Yes Direct Radiations In-direct Radiations Airborne Submersion Establishment of source terms for each of components based on 1.0% fuel defect.

MicroShield Code : Dose Rate Calculation

Envelope volumes; Dose rate at 1 ft away Dose rate at 1 in away Determination of equilibrium

HVAC flow rates; from equipment surface from concrete wall airborne activity

Leak rate; and

Partition coefficient.

Calculate integrated Calculate integrated Calculate integrated direct dose for 60 year Indirect dose for 60 year submersion dose for 60 year

[A] [B] [C]

Yes Is dose contribution of No From the surrounding rooms Within 20% of direct dose?

Normal TID = A x 1.2 + C Normal TID = A + B + C Figure A-1 A Simplified Flowchart for Calculating the Normal TIDs for Equipment Qualification KEPCO & KHNP A-5

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 APPENDIX B CALCULATION METHOD OF DETERMINING POST-ACCIDENT CONDITION TIDs FOR ENVIRONMENT QUALIFICATION The appendix illustrates the methods, calculation models, inputs and assumptions for the determination of accident TIDs. A simplified flow chart for calculating the general TID for systems and components inside and outside the containment is presented in Figure B-1.

In general the method, including the structure of the computer model, for calculating the TIDs is based on the RUNT-G and ISOSHLD computer codes, which determines the post-DBA radioactive source terms and the corresponding accident TID values. The ISOSHLD computer code is incorporated into the RUNT-G code to run as one computer program. The integrated RUNT-G and ISOSHLD computer model is used for the determination of TIDs for systems that re-circulate containment sump water outside the containment, AB controlled area emergency exhaust air cleaning units (ABCAEEACUs) and emergency control room ventilation system filter media, and for the inclusion of the airborne activity associated with leakage from recirculation systems and containment leakage following a LOCA.

B.1. TIDs inside containment B.1.1. Input parameters and assumption TIDs for environmental qualification of mechanical and electrical components important to safety under the post-accident radiological environment inside the containment, which include the CS/SC, SI systems, accident radiation monitors, etc., are calculated for one (1) year following a LOCA event. The input parameters, assumptions, and evaluation model for running the RUNT-G code are described below.

a. Released Source Term: The source terms of two release phases (gap and early in-vessel release) as described in RG 1.183 are considered as the effective source terms for post-accident equipment qualification analysis. The core inventory release fractions for each radionuclide group at the gap release and early in-vessel release phases for the LOCA are listed in DCD Table 15.6.5-13. Iodines in the forms of elemental, particulate and organic iodine in the containment atmosphere are assumed to be 4.85%, 95%, and 0.15%, respectively. With the exception of elemental and organic iodine and noble gases, the fission products are assumed to be in particulate form as specified in RG 1.183, Appendix A, Section 2. The maximum core inventory of the APR1400 is shown in Table 15A-1. The source term activities for gap release and early in-vessel release are separately calculated for all radionuclide groups.

b. Containment Data (extracted from DCD):

6 3

1) Free volume= 3.128 x 10 ft

2) Internal radius = 75 ft 6

3) Effective height = 3.128 x 10 / ( x 752) = 177.0 ft 6 3

4) Sprayed region = 2.346 x 10 ft assuming 75% of containment free volume

c. Surface Area: Total surface area available to be deposited on the walls of containment is 2

assumed to be the same as that inside containment (700,963 ft ). Of this area, the surface area 4 2 of containment wall and operating floor is 9.05 x 10 ft .

KEPCO & KHNP B-1

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4

d. Containment Leakage: No leakage from the reactor containment building to the environment is assumed in order to maximize the TIDs inside containment.

e. Containment Spray: According to RG 1.183 guidance, the airborne radioactivity in the containment may be removed by natural deposition and the containment spray system. Their removal rates are a function of time after accident, which is described in Subsection 15.6.5.5.1.1.

4 3

f. IRWST Volume: The minimum volume of water sources in containment is 8.6 x 10 ft (2.44 x 9 3 10 cm ).

g. IRWST Source term: The initial source term in the IRWST except for noble gases consists of 40%

of halogens in the core inventory, 30% of alkali metal, and fractions of other fission products which are addressed in detail in Table 15.6.5-13.

h. Radioactive Decay: The effect of radioactive decay during holdup in the containment is included.

B.1.2. Calculation Method and Model The radioactive nuclides released from the core escape from the reactor coolant pressure boundary (RCPB) into the containment during a LOCA, are dispersed throughout the containment. This analysis consists of two steps; the first is to determine the activity distribution as a function of time, and the second is to determine the dose contribution from each source to each dose point.

As illustrated in Figure B-3, the activity distribution, or the locations inside containment at which the dose rate is calculated are as follows:

a. Center of Containment Atmosphere (X1)

b. Containment Wall Surface (X2)

c. Bottom of Containment (Radioactivity in sump water contributes to the exposure rate at the location in containment air space through the concrete shield) (X3)

d. Center of Containment IRWST Sump (X4)

And the radioactive source terms that contribute to radiation exposure at any location are as follows:

a. Airborne Fission Products in Containment Atmosphere

b. Deposited Fission Products on Containment Wall

c. Fission Products in IRWST Sump Water Airborne nuclides in containment are readily absorbed by the spray droplets and thereby removed from the containment atmosphere. The aerosol removal by containment spray, natural deposition, and radioactive decay are considered. The dose rate in containment due to radioactive airborne is calculated by the RUNT-G code. As described above, the following three (3) processes would affect the airborne activity:

a. Radioactive decay and sub-sequent daughter products are calculated in the RUNT-G model; KEPCO & KHNP B-2

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4

b. Removal by the containment spray system; and

c. Plate-out on walls and other surface inside containment by natural deposition.

Depending on the above locations, X1, X2, X3, and X4, the resultant TIDs assigned to specific components or equipment are determined for the bounding analysis as follows:

a. Components located below elevation 100' = TIDs at X4 location,

b. Components located above elevation 100' = Maximum gamma TID + Maximum beta TID at any location.

As shown in Figure B-2 below, the RUNT-G model is developed to simulate the removal of the radioactivity in the containment atmosphere, in the IRWST sump, and on containment walls after the LOCA event.

TIDs for the concentrations of radionuclides at different locations inside containment are determined using the ISOSHLD computer code, which is incorporated in RUNT-G. As illustrated in Figure 3, the 6 3 containment and the IRWST are modeled as a right cylinder with a free volume of 3.128 x 10 ft (8.86 10 3 4 3 9 x 10 cm ) with an inner radius of 75 ft, and a right cylinder with a volume of 8.61 x 10 ft (2.44 x 10 3

cm ) and effective height of cylinder of 4.87 ft, respectively. The radioactive materials released in the containment and IRWST sump are assumed to be uniformly distributed throughout the containment atmosphere and the IRWST sump.

Radioactive source terms on the containment wall surface are calculated using the removal rate by natural deposition. The removal by natural deposition consists of gravity settling, thermophoresis, diffusiophoresis, and turbulent diffusion, of which the most dominant process is the removal by gravity settling. The radionuclides deposited on the containment wall and operating floor area are assumed to contribute to the dose at the center of containment. For calculating the dose rate at the center of containment (i.e., dose point of X1), the plate-out of concrete walls is modeled as a point source with a total activity equal to the total activity plate-out on the walls. For the dose rate on the concrete wall, the dose contribution of the plate-out radionuclides is determined by modeling the source as a large disk with 3

a radius of 2.70 x 10 cm. The dose point is set 1.0 cm away from the wall to avoid the singularity at X =

0.

Table 1 indicates the main input parameters of the ISOSHLD code.

B.2. TIDs in ESF system areas in auxiliary building (outside the containment)

There are two systems, the safety injection system (SIS)/shutdown cooling system (SCS), and the containment spray system (CSS) that re-circulate containment sump water outside of containment during a design basis accident. The analysis of accident TIDs for these systems is discussed below, including the input parameters, assumptions, methods, and models.

The SIS/SCS and the CSS are part of the ESF systems used for mitigation of a LOCA. TIDs for the cubicles containing the ESF components/equipment and from the rooms adjacent to the components are calculated based on the post-LOCA environment. The input parameters, the assumptions, and the evaluation model for running the RUNT-G code are described below.

KEPCO & KHNP B-3

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 B.2.1. Input parameters and Assumptions

a. Source Term: Source terms for the systems that re-circulate containment sump water outside the containment are based on the source terms that are used for equipment qualification inside containment. Please refer to item B.1.1 above.

b. Radioactive decay and subsequent daughters: The effect of radioactive decay with subsequent daughter products during holdup in the containment is included for a duration of 1 year.

c. Containment Leakage: The containment leak rate is the design-basis leak rate specified in the Technical Specifications. For the first 24 hours2.777778e-4 days 0.00667 hours 3.968254e-5 weeks 9.132e-6 months following a LOCA, the leak rate is assumed to be 0.1 vol.%/day of containment volume and the leak rate is assumed to be 0.05 vol.%/day thereafter.

d. Containment Spray: According to RG 1.183 guidance, the airborne radioactivity in the containment is removed by natural deposition and the containment spray system. Their removal rates are a function of time after accident, which is described in DCD Subsection 15.6.5.5.1.1.

e. Atmospheric Dispersion (/): The relative concentration of the plume is given by the following equation (Ref.1):

/Q = (U C A)1 (Eq.1)

Where, U = Wind speed (1 m/sec)

C = Building wake factor (= 0.5)

A = Cross section area of containment

f. ABCAEES Envelope Areas: Following the LOCA, the engineered safety feature actuation signal (ESFAS) actuates the auxiliary building controlled area emergency exhaust system (ABCAEES) .The radioactive source leaked from ESF system (i.e., SI/CS systems) recirculation loop flashes to SI/CS component rooms. The source terms in the ESF systems areas are released to the environment through the ABCAEES, which ventilates the auxiliary building controlled areas I and II including the SC/CS heat exchanger room, component cooling water (CCW) pump room, SI pump room, SC/CS pump and mini-flow heat exchanger room, mechanical penetration room, charging pump room, and auxiliary charging pump room. The other areas outside the ABCAEES are not considered in this analysis. All components in those areas such as valves in the post-accident sampling system, which are non-safety related, are infrequently operated and have a relatively small leakage.

For simplification of the RUNT-G model, the auxiliary building controlled areas I and II are 5 3 10 3 assumed to be one area having a volume of 4.97 x 10 ft (1.40 x 10 cm ), which consists 5 3 10 3 5 3 9 3 of 2.50 x 10 ft (7.08 x 10 cm ) and 2.47 x 10 ft (6.99 x 10 cm ) for auxiliary building controlled areas I and II, respectively. For conservative TIDs calculation of the HVAC system components, these areas are assumed to be ventilated by one of the two air cleanup units (ACUs) in each HVAC line of the ABCAEES. The flow rates through such ACUs are summed to 4 3 be 6,000 cfm (1.02 x 10 m /hr).

KEPCO & KHNP B-4

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 The filter efficiency of the ABCAEES for all species of radioactive nuclides except for noble gases is assumed to be 100% according to the guidance of RG1.89, Appendix I.

g. IRWST Source term: The initial source term in the IRWST consists of 40% of halogens in the core inventory, 30% of alkali metal, and small fractions of other fission products.

h. ESF Components Leakage: For the equipment qualification, the maximum anticipated leakage rate through all ESF system components containing the IRWST water source term (i.e.,

3 3 3 SI/SC/CS components) is calculated to be 0.285 ft /hr (8.07 x 10 cm /hr), based on the leakage rates from each valve and pump in the SI/SC/CS systems and the number of the corresponding components (i.e., valves, and pumps) that are conservatively determined:

1) Maximum anticipated leakage rate 3

- 4 cm per cm-hour for all valves including check valves 3

- 50 cm per hour for centrifugal pumps (mechanical seal) excepting SI pumps 3

- 1,000 cm per hour for SI or CS pumps

2) Number of components

- 251 for valves (= 211 for SI system + 40 for CS system)

- 3 for pumps (= 2 for SI system + 1 for CS system) 3 In accordance with this RG 1.183 guidance, the ESF leakage of 0.285 ft /hr is doubled to the 3 3 3 modeled value of 0.57 ft /hr (1.61 x 10 cm /hr). It should be noted that the design basis ESF leakage allowed for the radiological consequence analysis in DCD Chapter 15 is 0.668 ft/hr 3 3 3 3 3 (1.89 x 10 cm /hr) which is doubled to 1.34 ft /hr (3.78 x 10 cm /hr) per RG 1.183.

i. Partition Coefficient: When a portion of radionuclides in the leakage from SI/SC/CS equipment becomes airborne in the auxiliary building and subsequently enters into the ABCAEES, the assumed partition coefficient for each isotope group is as follows (based on the RG 1.183 guidance):

1) Noble gas: 1.0

2) Halogen: 0.1

3) Others nuclides: 0.01 (assumed in order to be conservative) 4 3

j. IRWST Volume: The minimum volume of water sources in containment is 8.6 x 10 ft (2.44 x 9 3 10 cm ).

k. Concrete Structure and Geometry:

3

1) The inside radius of the containment building is 75 ft (2.29 x 10 cm).

-1

2) The containment wall is surrounded with 1/4 in (6.35 x 10 cm) steel liner and 4.5 ft (1.37 2

x 10 cm) concrete.

6 3 10 3

3) The containment free volume is assumed to be 3.13 x 10 ft (8.86 x10 cm ).

KEPCO & KHNP B-5

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4

4) All structures and equipment inside containment are ignored as shielding materials.

3

5) The containment steel liner is modeled as iron with a density of 7.86 g/cm .

3

6) The density of the concrete wall is 2.242 g/cm .

7) For the direct dose calculation from airborne radioactivity in containment, the containment is modeled as a right cylinder which has the same internal radius and volume as the assumed free volume as illustrated in Figure B-3.

l. SI/SC/CS Piping geometry: All the actual pipe sizes in each cubicle containing the SI/SC/CS components where schedule 40S steel pipe is assumed are taken into account.

B.2.2. Calculation Method and Model The integrated RUNT-G and ISOSHLD computer model is used to determine the individual doses that contribute to the overall TIDs.

B.2.2.1 Airbone Activity inside the Auxiliary Building and Filter Loading Dose due to Containment Leakage As shown in Figure B-4 below, the RUNT-G model is developed to simulate the time-dependent leakage from containment, the dispersion in the atmosphere, and the intake to the auxiliary building.

This model is subdivided into three types as gaseous (includes noble gas & organic halogen), elemental and particulate halogen. For the first 24 hrs following a LOCA, the leak rate is assumed to be 0.1 %/day of containment volume and the leak rate is assumed to be 0.05 %/day thereafter (i.e., paths of L23 and L34).

After the onset of the LOCA event, the wash-out phenomena by containment spray and natural deposition are taken into consideration as the leakage from BARRIER 1 to the sump (i.e., path of L28). These phenomena are only applicable to non-noble gases. The atmospheric dispersion and determination of the intake activity of the ABCAEES are calculated by using the fraction factor on FILTER 1, which is equal to

-3 -4 3 the multiplication product (1.90 x 10 ) of (/Q (relative concentration of the plume, 6.725 x 10 sec/m )

4 3 x W (ABCAEES intake flow rate, 1.02 x 10 m /hr) and a conversion factor of 1 hour1.157407e-5 days 2.777778e-4 hours 1.653439e-6 weeks 3.805e-7 months to 3600 seconds).

The leak rate from containment is multiplied by the fraction factor to produce radioactivity taken into the auxiliary building via the ABCAEES. Therefore, BARRIER 2 means airborne radioactivity inside the auxiliary building. The release rate to the atmosphere through the auxiliary building (i.e., paths of L45 and L55) depends on the cubicle volume and HVAC flow rate.

TIDs for airborne activity in the auxiliary building (i.e., BARRIER 2) and the filter loading of ABCAEES (i.e.,

FILTER 2) are determined by using the ISOSHLD code which is incorporated in the RUNT-G computer code. Tables B-2 and B-3 indicate the main input parameters of the ISOSHLD code, and the ISOSHLD models are shown in Figures B-5 and B-6.

B.2.2.2 Airborne Activity and Filter Loading Dose due to SI/SC/CS Leakage As shown in Figure B-7, the RUNT-G model is developed to simulate the time-dependent leakage from SI/SC/CS equipment, which are located at elevation 55-0 in the auxiliary building, and the atmospheric dispersion to the environment through the auxiliary building cubicles.

KEPCO & KHNP B-6

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 3 4 3 It is assumed that all the ESF leakages of 0.57 ft /hr (1.61 x 10 cm /hr) are retained on the floor of the corresponding compartments in the auxiliary building (i.e. BARRIER 1), and some of the iodines are flashed and become airborne in the auxiliary building. Then, the airborne iodine radioactivity in cubicles of the auxiliary building is released to the environment via the ABCAEES filter (i.e., paths of L23 and L38).

The release rate to the environment through the auxiliary building depends on cubicle volume and HVAC flow rate.

TIDs for airborne activity in the auxiliary building (i.e., BARRIER 1) and the filter loading of ABCAEES (i.e.,

FILTER 1) are determined by using the ISOSHLD code which is incorporated in the RUNT-G computer code. The main input parameters of the ISOSHLD code and ISOSHLD model are the same as those in Tables B-2 and B-3, and in Figures B-5 and B-6, respectively.

B.2.2.3 Post-LOCA Direct Dose from the Airborne Source in Containment As shown in Figure B-8, the RUNT-G model is developed to calculate the time-dependent activity in the containment, which is divided into three types as gaseous (includes noble gas & organic halogen),

elemental and particulate halogen.

After the onset of the LOCA event, leakage from the core to the atmosphere of the containment is modeled as the leakage from the SOURCE to BARRIER 1 (i.e., path L12). The wash-out phenomena by containment spray and natural deposition are described as the leakage from BARRIER 1 to the sump (i.e.,

path L24), which are only applicable to non-noble gases.

TIDs from airborne activity in containment (i.e., BARRIER 1) are determined by using the ISOSHLD code which is incorporated in the RUNT-G computer code. Table B-4 indicates the main input parameters of the ISOSHLD code, and the ISOSHLD model is shown in Figure B-9.

B.2.2.4 Post-LOCA Direct Dose from SI/SC/CS Piping As shown in Figure B-10, the RUNT-G model is developed to calculate the time-dependent IRWST source activity in containment. The radioactivity concentration in the IRWST water after the initiation of the LOCA event is used as the source term in SI/SC/CS circulating water.

TIDs from direct radiation in the IRWST source term (i.e., BARRIER 1) are determined by using the ISOSHLD code which is incorporated in the RUNT-G computer code. Table B-5 indicates the main input parameters of the ISOSHLD code, and the ISOSHLD model is the same as that in Figure B-9.

B.2.2.5 Post-LOCA Direct Dose from SI/SC/CS Components TIDs for SI/SC/CS equipment are calculated using the result of the TID calculation for the SI/SC/CS pipes.

For pumps which have the same diameter as the pipe, the TIDs for the pumps are expected to be lower than the TIDs for pipes having the same diameter because of the shield effect by the enclosing steel casing. Therefore, TIDs for the SI/SC/CS piping during the LOCA condition can be conservatively used for pumps in the SI/SC/CS systems. The heat exchangers can be also modeled with a single pipe with an effective diameter which is derived from the equation 2a or 2b below. For the tube region, where the heat exchanger tubes and shell are located, the shielding effect of internal steel and cooling water in the shell side are not taken into account. For the plenum region, where the tube side inlet and outlet are located, the same wall thickness and diameter with the tube region are applied; i.e., the wall thickness and volume are decreased. The impact of decreased radioactivity due to the decreased volume in that region is negligible since the relative impact of the decreased wall thickness is larger due to the simplification.

Therefore, TIDs for pipes having the same diameter with the effective diameter of the heat exchanger can KEPCO & KHNP B-7

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 be expected to yield conservative TID values. The effective diameter of the heat exchanger can be calculated as follows:

D = (2N)1/2 x for U-tube Type Heat Exchanger (Eq.2a)

D = (N)1/2 x for one-through Type Heat Exchanger (Eq.2b)

Where, N = Number of tubes in heat exchanger d = Diameter of tube D= Effective diameter of heat exchanger B.3. TIDs in fuel handling area in auxiliary building (outside the containment)

TIDs for components in the fuel handling area are calculated based on the post-FHA (fuel handling accident) environment. The input parameters, assumptions, and evaluation model for running the RUNT-G code are described below.

B.3.1. Input Parameters and Assumptions

a. Source Term: For the purpose of conducting a conservative analysis that bounds most cases, all of the fuel rods in a fuel assembly are assumed to be damaged and all the gap activity in the damaged rods is assumed to be instantaneously released into the spent fuel pool, where total gap activities are 10% of Kr-85, 8% of I-131, 5% of other iodines and noble gases, and 12% of alkali metals in fuel rods. The retention of noble gases in the pool is negligible and the iodine above the pool consists of 57% of elemental iodine and 43% of organic iodine, considering the overall effective decontamination factor of 200 for iodine. The source term for the FHA event is described in detail in DCD Subsection 15.7.4.2 and Table 15.7.4-1.

b. Fuel Handling Area: After the fuel handling accident, airborne radioactive materials in the fuel handling area are vented to the environment via fuel handling area ACUs over a two hour time period. This HVAC system emergency exhaust flow rate is 5,000 cfm/ACU. The total free 5 3 volume covered by this HVAC system is 8.77 x 10 ft . The removal efficiency of the carbon absorbers and HEPA filter is assumed to be 100%.

c. HEPA filter and Charcoal Densities: The HEPA filter media and charcoal densities are both 3

assumed to be 0.48 g/cm for conservatism.

d. Radioactive decay and subsequent daughters: The effect of radioactive decay with subsequent daughter products during holdup in the containment is included for a duration of 1 year.

B.3.2. Calculation Method and Model As shown in Figure B-11, the RUNT-G model is developed to simulate time dependent activity in the fuel handling area after the onset of the FHA event.

Leakage from the fuel assembly to the atmosphere of the fuel handling area is modeled as the leakage from the SOURCE to BARRIER 1 (i.e. path of L12). Airborne activity in the fuel handling area is released to the environment through the fuel handling area emergency HVAC system (i.e., paths of L23 and L38).

The release rate to the environment through the fuel handling area depends on cubicle volume and HVAC KEPCO & KHNP B-8

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 flow rate. The reduction of the amount of radioactivity by deposition and/or plate-out on structure surfaces is not considered for the reason of conservatism.

TIDs for airborne activity in the fuel handling area (i.e., BARRIER 1) and the filter loading of the fuel handling area emergency HVAC system (i.e., FILTER 1) are determined by using the ISOSHLD code which is incorporated in the RUNT-G computer code. The main input parameters of the ISOSHLD code for airborne activity in the fuel handling area is given in Table B-6, and the other main parameters and ISOSHLD model are the same as those in Table B-3, and Figures B-5 and B-6, respectively, presented above.

B.4. TIDs in the main steam valve house inside the auxiliary building (outside the containment)

TIDs for components in the main steam valve house (MSVH) are calculated based on the post-MSLB (main steam line break) environment. The input parameters, assumptions, and evaluation model for running the RUNT-G code are described below.

B.4.1. Input Parameters and Assumptions

a. Source Term: Per RG 1.183, Appendix E, Section 2, for the main steam line break accident, the release from the breached fuel is based on the estimate of the number of fuel rods assumed to have experienced Departure from Nucleate Boiling (DNB) and the assumption that 5% of the core inventory of the noble gases and iodines is in the fuel gap, except for Kr-85 at 10% and I-131 at 8%.

b. The expected number of fuel rods in DNB is assumed to be 1% of the core where the failed fuel is modeled with a radial peaking factor of 1.8. There is no fuel melt expected during the MSLB.

To determine the activity in the steam generator resulting from primary-to-secondary leakage, a 5

primary coolant of 2.744 x 10 kg and primary to secondary (P-T-S) leakage of 0.6 gpm are used. The initial secondary coolant source term is assumed to be at the Technical Specification 3

limit of 3.7 x 10 Bq/g (0.1Ci/g) Dose Equivalent (DE) I-131 and is given in DCD Table 15A-9.

The source term for the MSLB event is described in detail as specified in DCD Subsection 15.1.5.3.3 and Table 15.1.5-12.

c. Main Steam Valve House: The volume of each MSVH (i.e., room number of 137-A31C/D) is 3

123,955 ft .

d. Radioactive decay and subsequent daughters: The effect of radioactive decay with subsequent daughter products during holdup in the containment is included for a duration of 1 year.

B.4.2. Calculation Method and Model As shown in Figure B-12, the RUNT-G model is developed to simulate the time-dependent activity in the MSVH.

After the onset of the MSLB event, the radioactivity leaked from the broken steam piping to the MSVH, which includes secondary coolant and RCS coolant activities, is modeled as the leakage from the SOURCE to BARRIER 1 (i.e., path of L12). The reduction of the amount of radioactivity by deposition and/or plate-out on the steam piping or structure surfaces is not considered.

TIDs from airborne activity in the MSVH (i.e., BARRIER 1) are determined by using the ISOSHLD code which is incorporated in the RUNT-G computer code. Table B-7 indicates the main input parameters of the ISOSHLD code, and the ISOSHLD model is the same as that shown in Figure B-5.

KEPCO & KHNP B-9

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 B.5. Summary of Accident TID Calculation In accordance with the requirements in RG 1.89, the TIDs are adjusted by another 10% EQ safety margin for uncertainty.

B.6. References USAEC, "Meteorology and Atomic Energy", 1968.

KEPCO & KHNP B-10

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table B-1 (1 of 3)

Main ISOSHLD Input Parameters for Airborne Activity in Containment Geometry ISOSHLD Parameter Values

1) TID from Airborne Activity in Containment Source Shape IGEOM Cylindrical Source Dimension (Immersion Dose Model)

Height1) SLTH 5.40 x 103 cm Radius T(1) 2.29 x 103 cm Volume2) N/A 4.81 x 109 cm3 Source Material N/A Air Characteristic Density N/A 1.29 x 10-3 g/cm3 Dose Point X1 X X (=SLTH/2) 2.70 x 103 cm Y N/A 0.0 cm Z N/A 0.0 cm Dose Point X2 X N/A 2.70 x 103 cm Y DELR 2.70 x 103 cm Z N/A 0.0 cm Dose Point X3 X X (=SLTH/2) 0.0 cm Y N/A 0.0 cm Z N/A 0.0 cm KEPCO & KHNP B-11

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table B-1 (2 of 3)

Main ISOSHLD Input Parameters for Airborne Activity in Containment Geometry ISOSHLD Parameter Values

2) TID from Radioactivity in IRWST Sump: Above IRWST Sump Source Shape IGEOM Cylindrical Source & Slab Shield Dimension on Cylinder End Height1) T(1) 1.49 x 102 cm Radius SLTH 2.29 x 103 cm Volume2) N/A 2.44 x 109 cm3 Source Material N/A Water Characteristic Density N/A 1.0 g/cm3 Air in Thickness T(2) 1.37 x 102 cm Containment Material N/A Air Density N/A 1.29 x 10-3 g/cm3 Dose Point X1 & X X (=T(1)+T(2)) 2.85 x 103 cm X21)

Y N/A 0.0 cm Z N/A 0.0 cm Dose Point X3 X X (=T(1)+2.54cm)) 1.51 x 102 cm Y N/A 0.0 cm Z N/A 0.0 cm

3) TID from Radioactivity in IRWST Sump: Within IRWST Sump Source Shape IGEOM Cylindrical Source Dimension (Immersion Dose Model)

Height1) SLTH 1.49 x 102 cm Radius T(1) 2.29 x 103 cm Volume2) N/A 4.81 x 109 cm3 Source Material N/A Water Characteristic Density N/A 1.00 g/cm3 Dose Point X4 X X (=SLTH/2) 74.3 cm Y N/A 0.0 cm Z N/A 0.0 cm KEPCO & KHNP B-12

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table B-1 (3 of 3)

Main ISOSHLD Input Parameters for Airborne Activity in Containment Geometry ISOSHLD Parameter Values

4) TID by Plate-out Radioactivity on Containment Wall: Center of Containment Source Shape IGEOM Point Source Dimension Radius T(1) 2.29 x 103 cm Source Material N/A Air Characteristic Density N/A 1.29 x 10-3 g/cm3 Dose Point X1 & X X (=T(1)) 2.29 x 103 cm X32)

Y N/A 0.0 cm Z N/A 0.0 cm

5) TID by Plate-out Radioactivity on Containment Wall: Wall of Containment Source Shape IGEOM Disk Source Dimension Thickness T(1) 0.0 cm Radius SLTH 2.70 x 103 cm Source Material N/A Air Characteristic Density N/A 1.29 x 10-3 g/cm3 Dose Point X23) X X 1.00 cm Y N/A 0.0 cm Z N/A 0.0 cm

1) The dose rate at containment wall surface is assumed to be the same as that at center of containment atmosphere (i.e., dose point of X1) from the source in IRWST sump water for conservatism. Therefore, every parameter has the same value with the input parameter for dose point X1.

2) The dose rate at bottom of containment is assumed to be the same as that at center of containment atmosphere (i.e., dose point of X1) from the source deposited on the surface is used as. Therefore, every parameter has the same value with the input parameter for dose point X1

3) The dose point is set 1 cm away from the wall to avoid the singularity at X = 0.

KEPCO & KHNP B-13

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table B-2 Main ISOSHLD Input Parameters for Airborne Activity in Auxiliary Building Geometry ISOSHLD Parameter Values Source Shape IGEOM Cylindrical Source Dimension (Immersion Dose Model)

Height1) SLTH 6.10 x 102 cm Radius T(1) 1.58 x 103cm Volume2) N/A 4.81 x 109 cm3 Source Material N/A Air Characteristic Density N/A 1.29 x 10-3 g/cm3 Dose Point X X (=SLTH/2) 3.05 x 102 cm Y N/A 0.0 cm Z N/A 0.0 cm

1) Height of rooms in auxiliary building is assumed to be 610cm (=20ft)

2) Volume of rooms or cubicles, which contains components/equipment in the ESF 8 3 3 3 8 3 systems, ranges from 2.21 x 10 cm (=7.82 x 10 ft ) to 9.15 x 10 cm (=3.23 x 4 3 9 3 5 3 10 ft ), but it is conservatively assumed to be 4.81 x 10 cm (= 1.70 x 10 ft ) as a bounding volume, thus leading to maximization of the potentially expected TIDs for the corresponding components/equipment.

KEPCO & KHNP B-14

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table B-3 Main ISOSHLD Input Parameters for ABCAEES Filter Geometry ISOSHLD Parameter Values Source Shape IGEOM Rectangular Source Dimension Width (X) T(1) 6.10 x 101 cm Length (Y) Y 6.10 x 101 cm Height (Z) SLTH 6.10 x 101 cm Volume N/A 2.27 x 105 cm3 Source Material1) N/A Carbon Characteristic Density N/A 4.80 x 10-1 g/cm3 Dose Point1) X X (=T(1) + T(2)) 3.30 x 101 cm Y YP 3.05 x 101 cm Z SP 3.05 x 101 cm

1) Be assumed to be 2.54cm away from HVAC ACU source term KEPCO & KHNP B-15

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table B-4 Main ISOSHLD Input Parameters for Direct Dose from Containment Geometry ISOSHLD Parameter Values Source Shape IGEOM Cylindrical Source &

Dimension Cylindrical Shield Height1) SLTH 5.40 x 103 cm Radius T(1) 2.29 x 103 cm Volume N/A 8.86 x 1010 cm3 Source Material N/A Air Characteristic Density N/A 1.29 x 10-3 g/cm3 Containment Thickness T(2) 1.37 x 102 cm Concrete Shield Wall2) Material N/A Concrete Density N/A 2.242 g/cm3 Dose Point X X 2.42 x 103 cm Y Y (=SLTH/2) 2.70 x 103 cm Z N/A 0.0 cm 7 2 4 2

1) Calculated based on the containment plane area of 1.64 x 10 cm (=1.77 x 10 ft )

2) The shielding effect of the 137cm (=4.5ft) containment cylindrical concrete wall is only considered. The additional shielding effect due to structures in the auxiliary building is not considered for conservatism.

KEPCO & KHNP B-16

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Table B-5 Main ISOSHLD Input Parameters for Direct Dose from SI/SC/CS Piping Geometry ISOSHLD Parameter Values Source Shape IGEOM Cylindrical Source &

Dimension Cylindrical Shield Height1) SLTH 6.10 x 102 cm Radius T(1) 1.90 x 101 cm Volume N/A 6.95 x 105 cm3 Source Material N/A Water Characteristic Density N/A 1.00 g/cm3 Pipe Wall2) Radius T(2) 1.27 cm Material N/A Steel Density N/A 7.86 g/cm3 Air Radius T(3) 3.05 x 101 cm Material N/A Air Density N/A 1.29 x 10-3 g/cm3 Concrete Radius T(4) Wall Thickness (T)

Shield Wall of Adjacent Room Material N/A Concrete Density N/A 2.242 g/cm3 Dose Point X X 5.08Ex 101 cm w/o concrete wall 3)

(5.33 x 101 + T) cm w/ concrete wall Y Y (=SLTH/2) 3.05 x 102 cm Z N/A 0.0 cm

1) Piping length is assumed to be 20ft.

2) Only shielding effect of the pipe wall of 1.27cm is considered for conservatism

3) Assumed to be 1ft away from the SI/SC/CS piping KEPCO & KHNP B-17

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Inside containment Outside containment ABCAEES Envelope Main Steam Valve Fuel Handling Area in Areas in Auxiliary House in Auxiliary Auxiliary Building Building Building Post-MSLB Post-LOCA Environment Post-FHA Environment Environment Due to Direct Due to Direct Due to Due to SI/SC/CS Radiation from Radiation from Containment Components Airborne Source Radioactivity in Leakage Leakage in Containment ESF components Integrated Doses Integrated Doses Integrated Doses Integrated Doses from Airborne from Airborne from Accumulated Integrated Doses in from Airborne Activity in Main Activity Radioactivity Auxiliary Building Activity in Fuel Steam Valve in Auxiliary Building in HVAC Filter Handling Area House TIDs for TIDs for TIDs for TIDs for Components/ Components/ TIDs for HVAC Components/ Components/

Equipment Equipment Components Equipment Equipment in Containment in Auxiliary Building in Auxiliary Building in Auxiliary Building Figure B-1 A Simplified Flowchart for Determination of Accident TIDs KEPCO & KHNP B-18

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Source Term SOURCE From Core L12 Airborne Activity ISOSHLD BARRIER 1 In Containment (or Input IRWST Sump)

L24 ISOSHLD BARRIER 2 Containment Walls Input Release To Environment Figure B-2 RUNT-G Model to Calculate radioactivity in containment, IRWST sump, and walls KEPCO & KHNP B-19

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Figure B-3 ISOSHLD Model for Dose Evaluation Inside Containment KEPCO & KHNP B-20

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Source Term SOURCE From Core L12 Containment L28 BARRIER 1 Atmosphere L23 Fraction Factor FILTER 1

(/Q

W)

L34 Airborne Activity ISOSHLD BARRIER 2 In HVAC Covered Areas Input L45 ISOSHLD FILTER 2 HVAC Filter Input L58 Release Sump To Environment In Containment Figure B-4 RUNT-G Model for Containment Leakage KEPCO & KHNP B-21

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Figure B-5 ISOSHLD Model for Immersion Dose Evaluation KEPCO & KHNP B-22

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Figure B-6 ISOSHLD Model for ABCAEES Filter KEPCO & KHNP B-23

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Source Term SOURCE In IRWST L12 Leakage ISOSHLD BARRIER 1 From SI/SC/CS Input Compoents L23 ISOSHLD FILTER 1 HVAC Filter Input L38 Release To Environment Figure B-7 RUNT-G Model for SI/SC/CS Components Leakage KEPCO & KHNP B-24

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Source Term SOURCE From Core L12 Airborne Activity ISOSHLD BARRIER 1 In Containment Input L24 Sump BARRIER 2 In Containment Figure B-8 RUNT-G Model for Direct Shine from Containment KEPCO & KHNP B-25

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Figure B-9 ISOSHLD Model for Direct Shine from Containment or SI/SC/CS Piping KEPCO & KHNP B-26

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Source Term SOURCE From Core L12 IRWST ISOSHLD BARRIER 1 In Containment Input Figure B-10 RUNT-G Model for Direct Shine from ESF Components KEPCO & KHNP B-27

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Source Term SOURCE From FHA Event L12 Airborne Activity In ISOSHLD BARRIER 1 HVAC Covered Areas Input L23 ISOSHLD FILTER 1 HVAC Filter Input L38 Release To Environment Figure B-11 RUNT-G Model for Fuel Assembly Leakage KEPCO & KHNP B-28

Non-Proprietary Equipment Qualification Program APR1400-E-X-NR-14001-NP, Rev. 4 Source Term SOURCE From MSLB Event L12 MSVH ISOSHLD BARRIER 1 In Aux. Building Input Figure B-12 RUNT-G Model for Radioactivity Release from MSLB Event KEPCO & KHNP B-29

ML18214A563

Contents

Text

System Design

SUMMARY

SUMMARY

Navigation menu

ML18214A563

Text

System Design

SUMMARY

SUMMARY

Navigation menu

Search