Illinois Power Co CPS Main CR Simulator Certification Rept

ML20206H123
Person / Time
Site:	Clinton
Issue date:	05/05/1999
From:	ILLINOIS POWER CO.
To:
Shared Package
ML20206H116	List: ML20206H123 U-603201, Forwards 4-yr Updated Certification Rept for Plant Training Simulator.Nrc Form 474, Simulation Facility Certification Also Encl Which Was Developed in Accordance with Reg Guide 1.149 & Ansi/Ans Std Ansi/Ans 3.5
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NUDOCS 9905110058
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i ILLINOIS POWER COMPANY CLINTON POWER ST ATION M AIN CONTROL ROOM SIMUL ATOR i

CERTIFIC ATION REPORT I

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DOCK 41 P PDR

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1. PURPOSE 3 II. SIMULATOR INFORMATION 3 .

4 A. General Information 3

1. Owner / Operator / Manufacturer 3

2. Reference Plant / Type / Rating 3

3. Date Available for Training 3

4. Type of Report 3 B. Control Room / Simulator Comparison 4

1. Physical Arrangement 4

2. Panels / Equipment 5

3. Systems 6

4. Simulator Control Room Environment 6 C. Instructor Interface 7

1. Initial Conditions 7

2. Malfunctions 8

3. Remote Operations 9

4. Special Instructor / Training Features 10 D. Operatine Procedures 11 E. Channes Since Last Report 11 F. Simulator Design Data 12 G. Simulator Tests 13 H. Simulator Discrenancy Resolution and Upgrade Program 15 ATTACHMENT I INITIAL CONDITIONS 16 ATTACHMENT 2 MALFUNCTIONS 18 ATTACHMENT 3 REMOTE FUNCTIONS 59 ATTACHMENT 5 SIMULATION LIMITS 73 ATTACHMENT 5 SIMULATOR PERFORMANCE VERIFICATION GUIDE INDEX 74 ATTACHMENT 6 SIMULATOR TESTING SCHEDULE 76 r

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j I .- PURPOSE l This report is submitted in accordance with Title 10, Code of Federal Regulations, Part 55.45 and Regulatory Guide 1.149. The report was prepared using guidance froa.

Appendix A of the American National Standards Institute /American Nuclear Society standard, ANSI /ANS 3.5-1993, " Nuclear Power Plant Simulators for Use in Operator Training and Examination."

i II. SIMULATOR INFORMATION l

A. General Information .

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1. Owner / Operator / Manufacturer The simulator supported by this report is the property ofIllinois Power Company. The simulator is operated by the Clinton Nuclear Power Station located approximately 10 miles East of Clinton, Illinois. The simulator is under the cognizance of the Nuclear Training Department of the Clinton Power Station.  !

The simulator was manufactured by Singer-Link Corporation, Simulation j Systems Division, of Silver Spring, Maryland. Simulator construction began in 1982. The simulator was delivered to Clinton Power Station in

{j late 1984.

2. Reference Plant / Type / Rating i The simulator is based upon a General Electric Boiling Water Reactor l

plant. The plant is a 985 MWe/2894 MWth BWR-6 with a Mark 111 l containment and a nuclenet control room. The operating license for the plant was issued in September 1986. Commercial operation commenced in i April 1987. )

3. Date Available for Training The Clinton Power Station simulator was declared " Ready for Training" on January 5,1985. ,

4. Type of Report This report is being submitted as a result of an upgrade that had the ability to affect both the fidelity and operation of the simulator. The upgrade was made up of four major parts. These parts are:

- A rehost of the simulator models onto a new computing platform.

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- Replacement of the Instructor Station software package.

- Replacement of the Plant Process Computer model and the associated display hardware.

- Replacement of the Annunciator system model.

B. Control Room / Simulator Comparison

1. Physical Arrangement The Clinton Power Station simulator incorporates all of the area referred to as the " horseshoe" area of the plant main control room. The horseshoe area is considered the primary control and operating area. The rest of the control room panel area is considered to be "back panels." The panels included in the simulator are virtually identical in size, shape, placement, and color to the corresponding plant panels. Some minor deviations do exist. These deviations have been evaluated and do not detract from the simulator mission of supporting a quality training program.

The Clinton Power Station simulator has limited back panel simulation when compared to the actual plant. Within the simulator, panels representing the Division I control room layout are given highest consideration for inclusion. Inclusion of the Division I panels provide a substantial representation of the equipment and interfaces afailable to the operator in the contro' room. The scope of this representation is based upon the needs of the training program. The operations staff and the training staff review the configuration of the simulator control room and provide input on any needed changes.  !

In addition to panels from the plant main control room area, the simulator also includes a Remote Shutdown Panel. The simulator Remote Shutdown

, Panelis functionally simulated and integrated into the rest of the simulator.

The Remote Shutdown Panel is located in a separate room immediately adjacent to the simulator control room.

The simulator contains an instructor interface control console that is unique to the simulator. This console is located outside the main horseshoe area and is not in line with any simulated plant panels. The console is on a raised platform in order to put the instructor at an elevation that will allow him to visually see into the horseshoe panel area. The instructor console is provided with opaque glass that inhibits personnel on the simulator floor from discerning movement in the instructor console area. The sides of the instmetor console are similar in color to the rest of the simulato, panels in order to more easily blend in. The placement of the console coincides with the normal control room exit an operator would utilize when seeking operations management support.

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The room arrangement in which the simulator is contained is different from the arrangement of the plant main control room. The total size of the p simulator control room, the location of the Remote Shutdown Panel room, L and the spaces leading off the simulator room are different from the plant main control room arrangement. The differences, while existing, do not adversely impact the conduct of training that occurs within the simulator panel area.

l l 2. Panels / Equipment The simulator has sufficient panels, controls, instrumentation, alarms, and other man-machine interfaces to enable the student to conduct the normal plant evolutions described in ANSI /ANS 3.5-1993 Section 3.1.3 and to g respond to malfunctions, including those described in ANSI /ANS 3.5-1993 l Section 3.1.4, if appropriate to Clinton Power Station.

l Most equipment located on the simulator panels is both visually and functionally simulated. Equipment not functionally simulated is equipment that the operator does not normally utilize in the plant main control room.

An example of equipment that is not functionally simulated would be the interface provided to allow calibration and measurement of a control loop.

The equipment located within the horseshoe area of the simulator control room closely replicates the layout of the corresponding plant equipment.

Within the simulator back panel area, the relative location of simulated I l equipment groups is different from the corresponding plant equipment. I This deviation is minor and has been previouslyjudged to provide a minimal and acceptable impact on training when compared to the positive l impact provided.

The simulation of the plant process computer system displays is equivalent 1 to the displays provided in the plant. Simulation of the plant performance monitoring system is, however, limited in scope. As a BWR-6, Clinton Power Station has both a Display Control System and a Performance Monitoring System plant process computer. The Display Control System 1 provides both dynamic and static displays to the control room operator.

The fidelity of the Display Control System simulation is very high. The I scope of the Performance Monitoring System simulation does not encompass all of the functionality of the corresponding plant system. The scope limitation of the simulated Performance Monitoring System has been previously identified and evaluated. Not having a full scope simulated Performance Monitoring System has beenjudged to provide a minimal and acceptable impact on training. The Safety Parameter Display System (SPDS) is an integral part of the simulated Display Control System.

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3. Systems 1

Systems controlled from the plant control room that are necessary to l

conduct the normal plant evolutions listed in Section 3.1.3 of ANSI /ANS l 3.5-1993 are included on the simulator. Systems necessary to respond to j the malfunctions of Section 3.1.4 are also included as a part of the l Hmulator scope. The systems included are simulated to the degree necessary to support operator training and licensing.

Simulator operators are able to manipulate the simulator and observe a response typical of the response expected in the plant main control room for similar manipulations. Included in the simulator response are typical system interactions and the total integrated systems response.

Most simulator systems can be operated by manipulation of controls provided on the simulator panels. Where needed to support response and/or training need, remote operation has been added by providing an instructor station interface that responds in the manner expected for the corresponding remote operation. The simulator instructor acts as the controller for remote operations.

Critical dynamic systems supported by the simulator are high-fidelity, plant specific, interactive models. These models are developed using engineering principles. The confidence level of the response intrinsic to these models is reflective of the importance placed upon that response during the conduct of operator training and licensing evolutions.

Noncritical dynamic system models are those models that have minimal impact on the conduct of the simulator mission. These models may not provide the same amount of explicit detail provided in the higher-fidelity models.

4. Simulator Control Room Environment The simulator control room environment reflects the plant control room environment as much as is considered practical. There are deviations that exist due to the location and structure of the simulator as compared to the main control room.

The most obvious difference in simulator environment compared to plant

environment is due to the floor construction. The plant main control room has a specially designed floor that meets the qualification standards of a nuclear plant. The simulator floor is a raised computer floor utilized to provide placement of the simulator panels, provide pathways for wiring systems, and support ventilation of the simulator and simulator panels.

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l j These differences have been previously identified and evaluated. These differences do not adversely impact the conduct of operator training and licensing performance.

There are minor and subtle variations that exist in the noise and lighting levels between the simulator and the plant main control room Both audio and visual measurements were taken to measure these ditTerences. The differences are minor and do not detract from the conduct of simulator training and licensing evolutions.  :

J The ceiling area over the back panels of the simulator is slightly higher than the corresponding area in the plant main control room. This minor difference does not detract from the conduct of simulator training and licensing evolutions. There are also differences in the location of  ;

equipment behind the egg-crate ceiling panels of the simulator as compared l to the plant main control room. This minor difference does not detract from the conduct of simulator training and licensing evolutions.

l The communication interfaces provided in the simulator are virtually 1 identical to those in the plant main control room. The volume of the public l announcement system in the simulator is lower than that of the plant main  !

l control room. A conscious decision to lower this volume was made as it was felt that utilization of the plant main control room announcement l

system volume level detracted from many of the training evolutions

conducted on the simulator. The dedicated off-site telephone line provided j in the plant main control room is not normally utilized in the simulator mam  !

control room. Having this line normally available proved to be a j distraction to the operators during the conduct of simulator training and  !

examination evolutions. There are no communication interface deviations that adversely detract from the conduct of simulator training and licensing i evolutions.

1 C. Instructor Interface j

1. Initial Conditions I l

The Clinton Power Station simulator meets the requirement for storage of  !

I ten (10) simulator initialization conditions (ICs). The simulator instructor l station is capable of providing 100 initialization conditions. Controls are provided to ensure that a baseline set of stable simulator initialization l conditions are maintained. The baseline initialization conditions are password protected to ensure changes to these ICs are not easily made. l The baseline initialization conditions are maintained in IC 1 through IC 25.

These ICs are used to form the basis for all other ICs. All simulator certification testing was performed from the baseline ICs.

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The ICs provided on the Clinton Power Station simulator provide a variety of plant operating conditions. Different times in core life, different plant operating histories, different plant configurations, etc., are provided for in the set of controlled ICs 2.L Malfunctions i

The Clinton Power Station simulator is capable of simulating, in real time, i abnormal and emergency events, including malfunctions, demonstrating  !

inherent plant response and automatic plant control functions. The j simulation is capable of continuing until such time that a stable, l controllable, and safe condition is attained which can be continued to cold i shutdown conditions or until simulator limits are reached. j As critical systems are explicitly modeled, performance of the Clinton j Power Station simulator can continue beyond design basis limits. This is  ;

critical to the support of the more-demanding training scenarios as well as for utilization of the simulator during the conduct of drills and evaluations required to demonstrate compliance with emergency response conditions. 3 Malfunctions on the Clinton Power Station simulator are designed to i support the requirements of simulator certification, to provide support for

. operator training and examinatiens, for support of Emergency Response Organization scenarios, and as a means to assist with evaluation of plant i response by Operations and Engineering personnel._ The type, severity, and number of malfunctions included on the simulator are part of a systematic process for evaluating the effectiveness of operator training. Actual plant i failures, similar plant failures, generic issues, and probabilistic risk assessment studies are considered during the design of simulator malfunctions.

The simulator supports the instructor's capability to insert and terminate

simultaneously, sequentially, or by both methods, those malfunctions that can be expected to occur by design or plant experience. The simulator supports the applicable malfunctions listed in Section 3.1.4 of ANSI /ANS

! 3.5-1993. Additional malfunctions associated with the various modeled plant systems are also provided on the simulator.

A variety of malfunction control features are provided on the simulator.

Malfunctions can be initiated through the use of timers, conditions, remote control devices, or other instructor controls. Variable malfunctions can be ramped up or ramped down, dependent upon the needs of the simulator scenario. Pending malfunctions do not alert the simulator operator in any manner other than would occur from the actual plant.

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The capability to change simulator malfunctions is available and exercised on the simulator. The capability to conveniently and quickly provide additional malfunctions enhances our ability to provide topical training when desired. Malfunctions added to the simulator are tested by operations instructors. This test ensures that the response of the simulator is acceptable and adequate for the operator training programs. In addition to instmetor testing, malfunctions are tested to the requirements of ANSI /ANS 3.5-1993. The simulator problem report (SPR) system  ;

supports identification of any inadequacies or needs that may be associated a with the response of simulator malfunctions. i l

3. Remote Operations l

l The simulator provides the instructor the capability to perform the i functions of an auxiliary operator and other operations or functions remote from the control room. Through this remote operation interface, the instructor is able to provide selected functions that would occur remotely  ;

from the main control room in the same manner as would be represented in

, the plant. Remote functions normally represent a control action directed by )

l a plant procedure that is outside the scope of the controls provided on the j simulator panels. Remote functions are provided to support both normal l operation and emergency condition operations.

l A variety of remote function control features are provided on the

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simulator. Remote functions can be initiated through the use of timers, conditions, remote control devices, or other instructor controls. Variable remote functions can be ramped up or ramped down, dependent upon the l needs of the simulator scenario. Pending remote functions do not alert the i simulator operator in any manner different than would occur in the actual plant.

l The capability to change simulator remote functions is available and exercised on the simulator. The capability to conveniently and quickly provide additional remote functions enhances our ability to provide topical training when desired. Remete functions added to the simulator are tested by operations instmetors prior to use. This test ensures that the response of the simulator is acceptable and adequate for the operator training programs. In addition to instructor testing, remote functions used as malfunctions in training materials are tested and certified the same as malfunctions. The SPR system supports identification of any inadequacies or needs that may be associated with the response of simulator remote functions.

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14. SpecialInstructor/ Training Features L The Clinton Power Station simulator provides the sirnulator instructor with

the capability to control and monitor the simulator through the use of a graphical, mouse-driven, instructor station. Features such as freezing the simulation, fast-time, slow-time, snapshot, bactuack, reset, I/O override, and scenario development are provided.

i The instmetor station utilized to support this update of the simulator certification report is significantly different from the two previous instructor stati.ons used for previous simulator certification. The original L certification report was based upon an event-based instmetor station. The original instructor station models were contained entirely in the main simulation computer. The second instructor station took advantage of the technology provided on personal computer systems to provide a more user friendly and responsive system for simulator instructors. The current l instructor station supports simulator testing activities much better than L either of the previous instructor stations. The current system moves the instructor station models back onto the simulator computer and does away with the personal computer interface. This allows the instructor station to

, take advantage of the full power of modern computer capabilities.

l Graphical files representing simulator-observable and calculated variable l output can be developed during simulator run time. These files can be L displayed on a computer-generated display, sent to a printer for generation l ,

of a hard copy, or saved for future use on electronic computer media.

i- The current instructor station proview full capability for the instructor to conveniently insert panel input / output t ignal overrides. This override capability greatly enhances the instructc r's ability to develop more i meaningful simulator scenarios and to control the content and conduct of training. The override capability is provided via a graphical representation

. of the panels contained on the simulator. By utilizing the computer mouse to " point and click" on the graphical panel representation, the instructor can manipulate any panel input or output signal.

l. A variety of override control features are provided on the simulator.

l Overrides can be initiated through the use of timers, conditions, remote control devices, or other instmetor controls. Pending overrides do not alert the simulator operator in any manner different than would occur in the actual plant. Input signal overrides interface to iterating software models in the same manner as would occur from manual operation of the control

(- device. This provides additional flexibility to the simulator instructor when operating the simulator.

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D. Operatinz Procedures j l

1 Plant operating procedures are used consistently for simulator operations during i the conduct of training as well as during the conduct of simulator testing. There 1 are no identified significant differences that dictate the use of a separate set of i procedures to operate the simulator versus operating the plant. l l

There may be times when a plant procedure calls for operation of a system outside the scope of simulation. Should the operation of the system be important to the conduct of training, a new remote function may be added or the simulator may be i further modified to support the additional operations.

The Clinton Power Station simulator has been utilized to assist with validation of  ;

plant procedures. This has proven to be beneficial for both the plant and the simulator. Numerous plant procedure upgrades have been mitiated when the performance of the procedure on the simulator indicated a more viable way to perform the actions specified in the procedure. l E. Changes Since Last Report The Clinton Power Station simulator undergoes improvement based upon needs and economic analysis. These analysis account for the training need, the training requirement, simulator certification requirements, plant operational impact, and the needs of other simulator customers.

Since the last report, the main simulation computer system has been entirely replaced with a better-performing computer. The addition of high-fidelity models was beginning to tax the capabilities of the old computer system. In addition to replacemeat of the simulation computer, the instructor station hardware was also upgraded. The instructor station upgrade included removal of the personal computers used to run the old instructor operating station and replacement of the monitors used by the instructors.

Since the last report, the annunciator and plant process computer models have been replaced in their entirety. These replacements were done as a pan of the simulator computer upgrade.

Purchase orders have been issued for new Reactor and Containment models. The Reactor model will include both the nucleonics and thermal-hydraulics portions.

The Reactor and Containment models will be based on engineering principles and l both will be much higher-fidelity models than those now in use. The models will also include radiation transport capability.

After the installation of the new Reactor and Containment models, only the OfTgas system model will need to be upgraded in order to have a basic dynamic plant 11 l

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radiation transport model. An evaluation of the various options for upgrading the

- OfTgas system model is in progress.

Numerous plant changes have been incorporated into the simulator models. Most plant changes have required minimal or no hardware changes and have been of a relatively minor nature (setpoint changes, minor logic changes, valve stroke times, etc.). Plant changes at Clinton Power Station usually occur during a plant outage.

Implementation of a plant change into the simulator may occur prior to its installation in the plant. This has been beneficial from both the operational standpoint and for evaluating the effectiveness of the modification in the plant.

Many changes in scope have occurred as the result of changing training needs.

Implementation of r.dditional instructor station control and monitoring devices supports the simulator instmetor with better implementation ofindustry and plant specific training scenarios / events. Model scope changes required to support implementation of new training scenarios is considered level-of-effort work.

Models that cannot support scope changes are considered candidates for replacement. Future changes in training needs are expected to drive additional revisions to simulator models as the changes are identified.

F. Simulator Design Data Clinton Power Station maintains stringent configuration management controls for power plant equipment and components. Identification of plant changes that have the potential to require changes to the simulator hardware or software is an integral part of the plant configuration process. Including the simulator as part of the up-front design process for plant modifications eliminates duplication of programs and provides the benefit of using the simulator modification as a springboard for identifying plant modification refinements. Since the simulator is a part of the plant design process, this means that the operations training group and/or the simulator support group review all plant modifications as they are designed. This allows for an immediate evaluation of simulator impact from any plant modifications. For this reason, there is no need for additional annual reviews of plant modifications. ,

Plant modifications that are determined to be relevant to the training program are implemented on the simulator within 24 months of their plant inservice date.

Simulator changes that have been determined to be relevant to the training program are implemented based upon their training impact.

Other sources ofinput for simulator upgrade / modification such as LER's, SOER's, procedure revisions, student feedback, etc. are reviewed as described below. In addition to the plant modification process described above, the Nuclear Training Department maintains a database for review ofinformation that has possible impact on any of the training programs. Evaluation of this information for 12

E simulator impact is included as a part of the review. This program includes reviews ofin-house or external LER's, SOER's, information bulletins, procedure revisions, etc. These reviews are performed on an ongoing basis.

Documentation unique to the simulator such as input / output system schematics, simulator hardware configuration, and simulator equipment vendor manuals are maintained by the simulator support group. Resources from other areas such as Drafling and Document Control are used to augment the simulator support group.

The simulator test program is based primarily upon hard plant data. Should hard plant data not be available, plant-specific engineering analysis data is utilized. The use of safety analysis data is minimal for the simulator. Operator input is used to provide information and fine-tuning data.

The need for changes to the scope of simulation are determined based on the results of the reviews performed by the Nuclear Training Department.

G. Simulator Tests The simulator test program is utilized to verify that the performance of the simulator is in compliance with the requirements of 10 CFR 55.45(b). The test program follows the guidance found in ANSI /ANS 3.5-1993 as endorsed by Regulatory Guide 1.149. All testing on the simulator is documented and is available for review.

Specific simulator tests are utilized to support simulator certification activities.

The simulator test program takes credit for evolutions conducted on the simulator during training sessions that duplicate the effort required to perform testing for simulator certification. In all cases, documentation of the test results is maintained for simulator certification.

Testing of the simulator at Clinton Power Station, while meeting the requirements of simulator certification, goes beyond those requirements. Meeting the requirements of simulator certification does not necessarily meet the demands placed upon the simulator during dynamic training and licensing scenarios. During the conduct of training and licensing evolutions, the simulator is interactively utilized by the operating crews. This places additional demand on simulator software and hardware systems that cannot be met by the more-passive requirements of simulator certification. All simulator tests are conducted and/or overseen by a certified simulator instructor. Testing of simulator benchmark tests l are performed in an interactive environment whenever possible. Additionally, the simulator problem reporting program is aggressively pursued by simulator instructors. Input from plant operating crews and plant engineering stafTis routinely utilized to assist in the verification of simulator fidelity.

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. . l There are no identifieu, uncorrected performance test failures on the CPS simulator.

Simulator certification tests are administered based upon the functional test-type supponed by the test. The six types of simulator tests used to support simulator certification are:

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. Steady-State Comparison Tests l

Normal Plant Evolution Tests

. Malfunction Tests

. Benchmark Transient Tests

. Miscellaneous Tests The miscellaneous tests are used to provide further compliance with the requirements of this standard. Miscellaneous tests are used to conduct simulator physical fidelity verification and simulator instructor station testing.

In addition to testing that supports simulator certification, separate testing is performed to verify adequacy, completeness, and fidelity of changes to the simulator. In most cases, simulator changes are relatively minor. For these changes, a certified simulator instmetor tests and verifies the simulator change.

For larger simulator changes, a specific test procedure or the appropriate sections of certification guide (s) are used The normal methodology utilized to perform simulator tests is to use existing plant procedures.

The simulator performance testing schedule is developed to support simulator cenification, simulator changes / modifications, and the needs of the licensed operator training programs. Annual testing of the simulator consists of the following types of tests:

. Steady-State Tests

. Transient Tests

. Approximately 25% of the Malfunction Tests All malfunctions used in planned training and examinations are tested in their l

entirety over each four-year simulator certification cycle. New malfunctions are tested prior to implementation.

If any simulator design change is implemented that could affect simulator operation, simulator testing is performed to verify the fidelity and integrity of the 14 i

simulator. This testing may combine a number of the tests normally utilized to benchmark simulator performance, may utilize any specific test, may utilize a portion of a single or ofmultiple tests, or may have a unique test generated to verify correct implementation of the change. ~

All applicable testing listed in ANSI /ANS 3.5-1993 is performed to support the four-year simulator certification cycle. An index of the tests is provided as Attachment 3 to this report. The anticipated simulator testing schedule for the next certification period is provided as Attachment 4 to this report.

H. Simulator Discrepancy Resolution and Upgrade Program Simulator discrepancies are identified, logged, tracked, corrected, and tested, under a program called the Simulator Problem Report (SPR) program.

The goal of the SPR program is to ensure that the simulator meets the needs of the license programs supported by the simulator and the requirements of simulator certification. <

The SPR program is administered by the operations training group and the simulator support group. Operator training and licensing requirements are identified and related to specific training scenarios through the SPR program.

Evaluation of the potential simulator impact is provided by the operator training programs via the SPR. The decision to make any simulator change is ajoint evaluation of the impact the change will have on the simulator.

For most changes, the extent of the work effort provided by the simulator technical support group is documented on the SPR. Specific simulator source code changes can be easily related back to any SPR. After a simulator change is made by simulator technical support personnel, the change is placed in a test status for verification by simulator training staff. When the change has been tested and accepted, it is placed into use for training.

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~ ATTACHMENT 1 INITIAL CONDITIONS APRM- Core Reactor Drywell Core Generator Flux Power Pressure Pressure Flow Power Level (MWth) (PSIG) (PSIG) (MLBS/HR) (MWe)

1. 99.84 2881.62 1013.57 0.51 79.24 955.11 100% Power,106% Rod Line  ;

2. 76.46 2245.60 977.35 0.50 54.04 745.34 80% Power,106% Rod Line, Step 71 @l4,32-41 in for cooling l

3. 50.70 1497.16 955.14 0.49 43.15 488.22 Plant S/D in progress,2 TDRFPs, Rod Step 65 @06

4. 40.53 1235.65 948.21 0.50 43.29 393.70 l Ready for RR downshift, Step 60 complete

5. 30.95 952.92 948.39 0.49 32.03 283.68 RR pumps in slow, Step 57 complete

6. 16.95 561.60 944.13 0.50 30.22 111.34 Ready to unload T/G, Step 49 complete

7. 16.87 556.05 944.00 0.50 30.19 111.05 T/G off, ready to scram, Step 49 complete

8. 0.00 14.01 108.19 0.19 --23.03 0.00 Mode 4,107#, Plant S/D, ready for SDC activities

9. 0.00 37.64 0.06 0.04 24.40 0.00 RHR-B SDC, ready to shut MSIVs & stop RR, FW in long cycle

10. 0.00 28.04 -0.10 -0.10 3.41 0.00 Mode 4 RHR-B in SDC, most systems S/D, BOL

11. 0.00 6.45 -0. I 1 -0. I 1 22.00 0.00 Mode 2, CD/CB in long cycle, degraded vacuum, all rods in

12. 0.37 6.41 0.04 0.04 22.31 0.00 Mode 2, near critical, step 15 complete, goes critical @ step 17

13. 0.09 9.83 0.35 0.17 23.72 0.00 POAH, Step 18 06-33 @06,200 Degrees F 16

ATTACHMENT 1 INITIAL CONDITIONS .

APRM Core Reactor Drywell Core Generator Flux Power Pressure Pressure Flow Power Level (MWth) (PSIG) (PSIG) (MLBS/HR) (MWe)

14. 0.40 7.57 12.00 0.31 22.70 0.00 Ready to open MSIV's, Step 19 Rod 32-41 @06

15. 0.00 14.08 70.63 0.40 23.52 0.00 Ready for RCIC for STBY, Step 20 Rod 40-17 @l0

16. 1.80 57.23 397.57 0.77 25.38 0.00 Ready for SJAE S/U, Rod 08-33 @40, MDRFP I/S-17, 2.69 96.14 398.41 0.98 27.52 0.00 Mode 2 @400#, SJAE in service, MDRFP on S/U controller

18. 10.11 310.57 939.02 0.28 27.20 0.00 Ready to go to RUN, Step 34 complete, SJAE in service

19. 21.32 646.34 942.12 0.27 30.29 0.00 Ready to roll the T/G, Step 41

20. 17.61 539.41 941.40 0.28 29.64 0.00 T/G ready to synch, Step 40 complete 21, 37.64 1114.39 951,74 0.28 32.70 326.44 ,

Ready to upshift RR, Step 50,12-37 @24

22. 39.75 1172.62 953.I1 0.29 39.34 369.14 RR in fast, Step 43 complete, one TDRFP in service

23. 50.45 1471.11 967.54 0.29 44.95 476.74 Plant S/U,2 TDRFPs in service, Step 51 complete

24. 0.38 37.66 922.17 0.52 20.95 0.00 Hot restart prior to critical, Step 36 complete, ECP step 4012-21

25. 99.84 2881.62 1013.57- 0.51 79.24 955.11 100% Power,106% Rod Line, EOL 17 l

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., t, ATTACHMENT 2 MALFUNCTIONS i

ALLANOFF LOSS OF ALL ANNUNCIATORS CROSCILL CORE POWER OSCILLATIONS,0 - 100%

RHPLUGA RHR A SUCTION STRAINER CLOG; O - 100%

RHPLUGB; RHR B SUCTION STRAINER CLOG; O - 100%

YAFWL108 LEAK BETWEEN B21F065A & B21F032A-YAFWL109 LEAK BETWEEN B21F065B & B21F032B

. YAFWMVFP(16) VALVE FWOO8A FAIL TO POSITION YAFWTKLK(1) CONDENSATE STORAGE TANK LEAK TO ATMOSPHERE

.YARITPLA(1)- .RCIC INLET DRAIN POT LEAK TOP; O - 100%;

' YP_RR22A(1) . MOV F067A DISC SEPARATED FROM STEM ;

YP_RR22A(2) - .MOV F067B DISC SEPARATED FROM STEM ;

YP_RR23 A . FAIL RR FLOW CONTROL VALVE A IN CURRENT POSITION; YP_RR23B FAIL RR FLOW CONTROL VALVE B IN CURRENT POSITION; l YP_XMFTB(10) F041L ACCOUSTIC MONITOR ACTIVATION; i

YP_XMFTB(ll) F047C ACCOUSTIC MONITOR ACTIVATION; YP_XMFTB(12) F041G ACCOUSTIC MONITOR ACTIVATION; YP_XMFTB(13) F051C ACCOUSTIC MONITOR ACTIVATION; YP_XMFTB(14) F041C ACCOUSTIC MONITOR ACTIVATION; YP_XMFTB(15) F047B ACCOUSTIC MONITOR ACTIVATION; Y'P_XMFTB(16) F041B ACCOUSTIC MONITOR ACTIVATION; ,

YP_XMFTB(17) F051B ACCOUSTIC MONITOR ACTIVATION; '

YP_XMFTB(18) F041F ACCOUSTIC MONITOR ACTIVATION;

YP_XMFTB(19) F047F ACCOUSTIC MONITOR ACTIVATION; YP_XMFTB(20) F041D ACCOUSTIC MONITOR ACTIVATION; YP_XMFTB(21) - F047D ACCOUSTIC MONITOR ACTIVATION; YP_XMFTB(3902) RWCU SYSTEM ISOLATION;

. YP_XMFTB(3903) RR LOOP A CONDUCTIVITY CELL FAILURE POINT ICl; YP_XMFTB(3904) RT INLET CONDUCTIVITY CELL FAILURE POINT IC2; YP_XMFTB(3905) RT A EFFLUENT CONDUCTIVITY CELL FAILURE POINT IC3 A;

. YP_XMFTB(3906) RT B EFFLUENT CONDUCTIVITY CELL FAILURE POINT IC3B; YP_XMFTB(3908) CW PUMP 1 A TRIP;

. YP_XMFTB(3909) CW PUMP 1B TRIP; l YP_XMFTB(3910) CW PUMP IC TRIP; YP_XMFTB(3911) SX PUMP A TRIP; YP_XMFTB(3912) SX PUMP B TRIP; YP_XMFTB(3913) SX PUMP C TRIP; YP_XMFTB(3914) WS PUMP 1 A TRIP; YP_XMFTB(3915) WS PUMP 1B TRIP;

_ YP_XMFTB(3916) WS PUMP IC TRIP; i YP_XMFTB(3917) CCW PUMP 1 A TRIP;

- YP_XMFTB(3918) CCW PUMP IB TRIP; YP_XMFTB(3919) CCW PUMP IC TRIP; YP_XMITB(3920) WT PUMP A TRIP; l YP_XMFTB(3921) WT PUMP B TRIP; YP_XMFTB(3924) DCP #1 HALTS; YP_XMFTB(3925) LOSS #1 DISPLAY GENERATOR; YP_XMFTB(3926) LOSS #2 DISPLAY GENERATOR; YP_XMFTB(3927) LOSS #3 DISPLAY GENERATOR; YP_XMFTB(3928) LOSS #4 DISPLAY GENERATOR; YP_XMFTB(3981) ' DIESEL GENERATOR A START FAILURE; YP_XMFTB(3982) DIESEL GENERATOR B START FAILURE; YP_XMFTB(3983) DIESEL GENERATOR C START FAILURE; YP_XMFTB(3984) DIESEL GENERATOR A TRIPS; l.

L l

18

R',

y y.

ATTACHMENT 2 MALFUNCTIONS:

L- [YP_XMITB(3985) ' DIESEL GENERATOR B TRIPS;

1. DIESEL GENERATOR C TRIPS;

)

~ YP_XM17B(3986) j ji YP_XMFTB(3987) NORTH BUS 345KV GRD FAULT; 1

!: YP_XMFTB(3988) SOUTH BUS 345KV GRD FAULT; . -

YP_XMFTB(3989): NORTH BUS 345KV RLY TRIP; I YP_XMFTB(3990) . SOUTH BUS 345KV RLY TRIP;

- YP_XMFTB(3991) -  : 6.9 KV BUS 1 A OVERCURRENT;

YP_XMFTB(3992)

6.9 KV BUS IB OVERCURRENT;

' YP_XMFTB(3993) 4160 VOLT BUS 1 A OVERCURRENT; YP_XMFTB(3994)' - 4160 VOLT BUS 1 A1 OVERCURRENT;

- YP_XMFTB(3995) 4160 VOLT BUS 1B OVERCURRENT; YP_XMFTE(3996) 4160 VOLT BUS IBl OVERCURRENT; YP_XMITB(3998) - 480 VOLT BUS 1 A OVERCURRENT TRIP;

. YP_XMFTB(4006) 480 VOLT BUS II OVERCURRENT TRIP; YP_XMFTB(4009) :480 VOLT BUS IL OVERCURRENT TRIP; l LYP_XMFTB(4011) . 480 VOLT BUS A OVERCURRENT TRIP; l ;YP_XMFTB(4025) 480 VOLT BUS O OVERCURRENT TRIP; YP_XMFTB(4029) - RESERVE AUXILIARY TRANSFORMER LOCKOUT; '

-YP_XMFTB(4030) EMERGENCY RESERVE AUXILIARY TRANSFORMER LOCKOUT; YP_XMFTB(4031) ~ UNIT AUXILIARY TRANSFORMER " A" LOCKOUT;

.YP_XMFTB(4033) NSPS BUS l A OVERCURRENT TRIP;

, (YP_XMFTB(4034) . NSPS BUS 1B OVERCURRENT TRIP;  !

YP_XMFTB(4035) NSPS BUS 1C OVERCURRENT TRIP; l

YP_XMFTB(4036) NSPS BUS ID OVERCURRENT TRIP; YP_XMFTB(4037) COMPUTER UPS 1 A OVERCURRENT TRIP;

.YP_XMFTB(4039) . RPS SOLENOID BUS l A OVERCURRENT TRIP; YP_XMITB(4040) ' RPS SOLENOID BUS 1B OVERCURRENT TRIP; -]

YP_XMFTB(4041) . 125 VOLT DC BUS l A OVERCURRENT TRIP;

YP_XMFTB(4042) ; 125 VOLT DC BUS IB OVERCURRENT TRIP; YP_XMFTB(4043) c 125 VOLT DC BUS IC OVERCURRENT TRIP; YP_XMITB(4045) 125 VOLT DC BUS 1E OVERCURRENT TRIP; YP_XMFTB(4046) 125 VOLT DC BUS 1F OVERCURRENT TRIP; l

YP_XMFTB(4047) - BATTERY CHARGER 1 A TRIP;

.YP_XMFTB(4048) BATTERY CHARGER 1B TRIP; YP_XMFTB(4051) BATTERY CHARGER 1E TRIP;

. YP_XMFTB(4052) BATTERY CHARGER 1F TRIP; YP_XMFTB(4053) NSPS BUS 1 A INVERTER TRIP; l' YP_XMFTB(4054) NSPS BUS 1B INVERTER TRIP; YP_XMFTB(4055) NSPS BUS IC INVERTER TRIP; YP_XMFTB(4056) NSPS BUS 1D INVERTER TRIP; YP_XMFTB(4057) COMPUTER UPS l A INVERTER TRIP;

.YP_XMFTB(4061) BREAKER 4510 TRIP;

, YP_XMFTB(4062) BREAKER 4506 TRIP;

[ YP_XMFTB(4063) GENERATOR TRIP;'

! YP_XMFTB(4064): GENERATOR AUTOMATIC VOLTAGE REGULATOR TRIP; YP_XMFTB(4065) . SC PUMP A TRIP;

.YP_XMFTB(4066) - SC PUMP B TRIP;-

1YP_XMFTB(4068) ~ .. CD PUMP 1 A TRIP i YP_XMFTB(4069): CD PUMP IB TRIP YP_XMFTB(4070) CD PUMP 1C TRIP

.YP_XMFTB(4071) CD PUMP 1D TRIP

]

' YP_XMFTB(4082) ; , CB PUMP 1 A TRIP YP_XMFTB(4083) ' CB PUMP 1B TRIP

'YP_XMFTB(4084) CB PUMP 1C TRIP i

t 19 L

o

r 1

e, s...

ATTACHMENT 2 MALFUNCTIONS

)

YP_XMFTB(4085)? CB PUMP ID TRIP YP_XMFTB(4092) TURBINE DRIVEN REACTOR FEED PUMP A TRIP TURBINE DRIVEN REACTOR FEED PUMP B TRIP

' YP_XMFTB(4093) .

YP_XMFTB(4094) ' MOTOR DRIVEN REACTOR FEED PUMP TRIP J YP_XMFTB(4095) TURBINE DRIVEN REACTOR FEED PUMP A CONTROL SIGNAL FAIL '

YP_XMFTB(4096) TURBINE DRIVEN REACTOR FEED PUMP B CONTROL SIGNAL FAIL {

j YP_XMFTB(4099) TURBINE DRIVEN REACTOR FEED PUMP B LOW LUBE OIL PRESS k YP_XMFTB(4100) ' MOTOR DRIVEN REACTOR FEED PUMP LOW LUBE OIL PRESS YP_XMFTB(4101) - HPCS FAIL TO AUTO START; - f j

YP_XMFTB(4102) HPCS SPURIOUS AUTO INITIATION

• I YP_XMFTB(4103) HPCS PUMP TRIP; YP_XMFTB(4105) HPCS SUCTION VALVE FAllTO AUTO SHIFT YP_XMFTB(4106) LPCS FAIL TO AUTO START;-

YP_XMFTB(4107) LPCS PUMP TRIP; YP_XMFTB(4124) SA COMPRESSOR 0 TRIP ;

YP_XMFTB(4125) . 'SA COMPRESSOR 1 TRIP ; '

YP_XMFTB(4126) 'SA COMPRESSOR 2 TRIP ;

YP_XMFTB(4861)' SJAE l A STEAM SUPPLY FAIL SHUT ;

YP_XMFTB(4862) - SJAE IB STEAM SUPPLY FAIL SHUT ; .

YP_XMFTB(4872) SRM A INOPERATIVE; YP_XMFTB(4873) SRM B INOPERATIVE; YP_XMFTB(4874) SRM C INOPERATIVE;  !

YP_XMFTB(4875) SRM D INOPERATIVE; YP_XMFTB(4904) 1RM A DOWNSCALE; YP_XMFTB(4905) IRM B DOWNSCALE; YP_XMFTB(4906) IRM C DOWNSCALE; YP_XMFTB(4907) 1RM D DOWNSCALE;.

YP_XMFTB(4908) IRM E DOWNSCALE; YP_XMFTB(4909) IRM F DOWNSCALE; YP_XMFTB(4910) IRM G DOWNSCALE; YP_XMFTB(4911) IRM H DOWNSCALE; YP_XMFTB(4912) APRM A DOWNSCALE; YP_XMFTB(4913) APRM B DOWNSCALE; J

YP_XMFTB(4914) APRM C DOWNSCALE; YP_XMFTB(4915) APRM D DOWNSCALE; YP_XMFTB(4916) APRM A UPSCALE;

' YP_XMFTB(4917) APRM B UPSCALE; YP_XMFTB(4918) APRM C UPSCALE;'

YP_XMFTB(4919) APFui D UPSCALE; YP_XMFTB(4924) APRM A FLOW CONVERTER FAIL; YP_XMFTB(4925) APRM B FLOW CONVERTER F tiL; i YP_XMFTB(4926) APRM C FLOW CONVERTER FAIL; YP_XMFTB(4927) APRM D FLOW CONVERTER FAIL; YP_XMFTB(4929) A OG RECOMBINER PRE-HEAT STEAM SUPPLY FAIL; YP_XMFTB(4930) B OG RECOMBINER PRE-HEAT STEAM SUPPLY FAIL; )

YP_XMFTB(4945) LOSS OF PMS; I YP_XMFTB(4947) RHR A FAIL TO AUTO START; YP_XMFTB(4948) RHR B FAIL TO AUTO START; YP_XMFTB(4949) RHR C FAIL TO AUTO START; YP_XMFTB(4950) TRIP RHR PUMP A; YP_XMFTB(4951) . TRIP RHR PUMP B; -

YP_XMFTB(4952) TRIP RHR PUMP C; i YP_XMFTB(4953) RHR VLV E12F029A SHUT; ,

YP_XMFTB(4954) RHR VLV E12F029B SHUT; )

20

n- ,

-ATTACHMENT 2 MALFUNCTIONS I1 YP_XMFTB(4955) ' RHR VALVE E12F029C SHUT; E YP_XMFTB(4957) RHR HEAT EXCHANGER B BYPASS VALVE F04HB FAILURE; YP_XMFTB(4959) - RCIC AUTO START FAILURE;

> YP_XMFTB(4960) RCIC TURBINE TRIP; YP_XMFTB(4961)' RCIC SYSTEM ISOLATION; YP_XMFTB(4963) AUTO & MANUAL SCRAM FAILURE; YP_XMFTB(4964) - AUTO SCRAM FAILURE;

.YP_XMFTB(4%5) RR PUMP A TRIP ; .

. YP_XMFTB(4966) - RR PUMP B TRIP ; -

YP_XMFTB(4%7). RR PUMP A SHAFT BREAK; YP_XMFTB(4968) . RR PUMP B SHAFT BREAK; YP_XMFTB(4969) RR PUMP A SIEZURE; YP_XMFTB(4970) RR PUMP B SIEZURE;

' YP_XMFTB(4973) RR PMP A HIGH VIBRATION ;

YP_XMFTB(4974) RR PMP B HIGH VIBRATION ;

YP_XMFTB(4975) ~ HYDRAULIC POWER UNIT A FAILURE ;

YP_XMFTB(4976) HYDRAULIC POWER UNIT B FAILURE ;

~ YP_XMFTB(4977) RR FLOW CONTROL VALVE A LOCKUP ;

YP_XMFTB(4978) RR FLOW CONTROL VALVE B LOCKUP ;

YP_XMFTB(4979) INSTRUMENT LINE REFERENCE LEG RUPTURE IN DRYWELL ;

' YP_XMFTB(4983) TRIP MAIN TURBINE ;

YP_XMFTB(4984) EHC PUMP 'A' TRIP; YP_XMFTB(4985) EHC PUMP 'B' TRIP;

. YP_XMFTB(4986) LOSS OF EHC HYDRAULICS FOR BYPASS VALVES; l YP_XMFTB(4987) PRIMARY SPEED SIGNAL FAILURE; i YP_XMFTB(4988) BACKUP SPEED SIGNAL FAILURE; l  : YP_XMFTB(4989) TURNING GEAR OIL PUMP FAILURE; YP_XMFTB(4992) HYDROGEN MAIN SEAL OIL PUMP TRIP; YP_XMFTB(4993) HYDROGEN EMERGENCY SEAL OIL PUMP TRIP; j YP_XMFTB(4995) RT PUMP A TRIP; j - YP_XMFTB(4996) - ' RT PUMP B TRIP; i

YP_XMFTB(4997) RT PUMP C TRIP; YP_XMFTB(4998) DCP #2 HALTS; l YP_XMFTB(5001) PARTIAL SCRM GROUPl; YP_XMFTB(5002) ARl/RPT SCRAM;

.YP_XMFTB(5003) PARTIAL SCRM GROUP 2; YP_XMFTB(5004) PARTIAL SCRM GROUP 3; YP_XMFTB(5005) PARTIAL SCRM GROUP 4; YP_XMFTB(5078) ~ FC PUMP A TRIP; YP_XMFTB(5079) FC PUMP B TRIP; YP_XMFTB(5080) DUMP UPPER CONTAINMENT POOL RELAY IUAYSM505 ;

YP_XMFTB(5081) DUMP UPPER CONTAINMENT POOL RELAY IUAYSM506 ;

' _ YP_XMFTB(5082) REFERENCE LEG LEAK IN AUXILIARY BLDG; YP_XMFTB(5083) HIGH WIND LEVELS ;

YP_XMFTB(5088) - F041 A IA LEAK AT ACCUMULATOR ;

YP_XMFTB(5089) F041B 1A LEAK AT ACCUMULATOR ;

YP_XMFTB(5090) F041C IA LEAK AT ACCUMULATOR ;

YP_XMFTB(5091) - F041D IA LEAK AT ACCUMULATOR ;-

YP_XMFTB(5092) F041FIA LEAK AT ACCUMULATOR; YP_XMFTB(5093) F04101A LEAK AT ACCUMULATOR; YP_XMFTB(5094)  : F041L IA LEAK AT ACCUMULATOR ;

YP_XMFTB(5095) F047A IA LEAK AT ACCUMULATOR ;

YP_XMFTB(5096) F047B IA LEAK AT ACCUMULATOR;

YP_XMFTB(5097) F047C IA LEAK AT ACCUMULATOR; 21

ATTACHMENT 2 MALFUNCTIONS YP_XMFTB(5098) F047D IA LEAK AT ACCUMULATOR ;

YP_XMFTB(5099) F047F in LEAK AT ACCUMULATOR; -

YP_XMFTB(5100) F051B 1A LEAK AT ACCUMULATOR; YP_XMFTB(5101) F051C IA LEAK AT ACCUMULATOR; YP_XMFTB(5102) F051D IA LEAK AT ACCUMULATOR; YP_XMFTB(5103) F051G1A LEAK AT ACCUMULATOR; YP_XMFTB(5106) Fall A MOTOR OVERLOAD CONTACT OPEN; YP_XMFTB(5107) FAIL B MOTOR OVERLOAD CONTACT OPEN; YP_XMFTB(5108) FAIL SQUIB A CONTINUITY RELAY MONITOR ;

YP_XMFTB(5109) FAIL SQUIB B CONTINUITY RELAY MONITOR ;

YP_XMFTB(5110) FAIL SQUIB A FIRING CIRCUIT ;

YP_XMFTB(5111) Fall SQUIB B FIRING CIRCUIT ;

YP_XMFTB(5118) MOTOR DRIVEN REACTOR FEED PUMP FCV HYD PUMP TRIP YP_XMFTB(6) F051D ACCOUSTIC MONITOR ACTIVATION; YP_XMFTB(7) F047A ACCOUSTIC MONITOR ACTIVATION; YP_XMFTB(760) SUCTION VALVE TRANSFER; YP_XMFTB(8) F041 A ACCOUSTIC MONITOR ACTIVATION; YP_XMFTB(9) F051G ACCOUSTIC MONITOR ACTIVATION; YPCTHOLE LEAK BETWEEN DRYWELL AND CONAINMENT ;0 - 100%

YPXMALSE(1) FUEL CLADDING LEAK,0 - 100%

YPXMALSE(10) MAIN CONDENSER A SIDE TUBE LEAK;0 - 100% i YPXMALSP(13) CCW TEMPERATURE CONTROLLER FAILS;0 - 100%

YPXMALSE(14) CCW TEMPERATURE CONTROLLER FAILS;0 - 100%

YPXMALSE(15) WT HEAT EXCHANGER TEMPERATURE CONTROL VALVE FAILS; O - 100% ,

YPXMALSE(16) SC TEMPERATURE CONTROL VALVE FAIL;0 - 100% '

YPXMALSE(17) H2 TEMPERATURE CONTROL VALVE FAIL;0 - 100%

YPXMALSE(18) H2 LEAK FROM GENERATOR;0 - 100%

YPXMALSE(239) CONDENSER AIR INLEAKAGE ;0 - 100%

YPXMALSE(245) SA MAIN HEADER LEAK ;0 - 100%

YPXMALSE(271) SRM A ERRATIC INDICATION; O - 100%

YPXMALSE(272) SRM B ERRATIC INDICATION; O - 100%

YPXMALSE(273) SRM C ERRATIC INDICATION; O - 100%

YPXMALSE(274) SRM D ERRATIC INDICATION; O - 100%

YPXMALSE(275)14-47A FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(276)14-478 FLUX LEVEL (D APRM DETECTOR); O - 125%

YPXMALSE(277)14-47C FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(278)14-47D FLUX LEVEL (B APRM DETECTOR); O - 125%

YPXMALSE(279)22-47A FLUX LEVEL (D APRM DETECTOR); O - 125%

YPXMALSE(280)22-47B FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(281)22-47C FLUX LEVEL (B APRM DETECTOR); O - 125%

YPXMALSE(282)22-47D FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(283)30-47A FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(284)30-47B FLUX LEVEL (D APhi DETECTOR); O - 125%

YPXMALSE(285)30-47C FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(286)30-47D FLUX LEVEL (B APRM DETECTOR); O - 125%

YPXMALSE(287)38-47A FLUX LEVEL (D APRM DETECTOR); O - 125%

YPXMALSE(288)'38-47B FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(289)38-47C FLUX LEVEL (B APRM DETECTOR); O - 125%

YPXMALSE(290)38-47D FLUX IRVEL (C APRM DETECTOR); O - 125%

YPXMALSE(291)46-47A FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(292) 46 47B FLUX LEVEL (D APRM DET' ' TOR); O - 125%

YPXMALSE(293)46-47C FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(295)06-39A FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(296)06-39B FLUX LEVEL (B APRM DETECTOR); O - 125%

22

E t

ATTACHMENT 2 MALFUNCTIONS YPXMALSE(297)06-39C FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(298) '06-39D FLUX LEVEL (D APRM DETECTOR); o - 125%

YPXMALSE(299) 14 39A FLUX LEVEL (B APRM DETECTOR); O - 125%

) YPXMALSE(30) N807 FW LEVEL CONTROLER SETPOINT FAILURE

- YPXMALSE(300)14-39B FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(301)14-39C FLUX LEVEL (D APRM DETECTOR); O - 125%

YPXMALSE(302) 14 39D FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(303)22-39A FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(304)22-39B FLUX LEVEL (B APRM DETECTOR); O - 125%

YPXMALSE(305)22-39C FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(306)22-39D FLUX LEVEL (D APRM DETECTOR); O - 125%

YPXMALSE(307)30-39A FLUX LEVEL (B APRM DETECTOR); O - 125%

YPXMALSE(308)30-39B FLUX LEVEL (C APRM DETECTOR); O - 125% --

YPXMALSE(309)- 30-39C FLUX LEVEL (D APRM DETECTOR); O - 125%

YPXMALSE(310)- 30-39D FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(311)38-39A FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(312)38-39B FLUX LEVEL (B APRM DETECTOR); O - 125%

YPXMALSE(313)38-39C FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(314)38-39D FLUX LEVEL (D APRM DETECTOR);O-'125%

YPXMALSE(315)46-39A FLUX LEVEL (B APRM DETECTOR); O - 125%

YPXMALSE(316)46-39B FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(317)46-39C FLUX LEVEL (D APRM DETECTOR); 0 - 125%

YPXMALSE(318)46-39D FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(319) 06-31 A FLUX LEVEL (D APRM DETECTOR); O - 125%

YPXMALSE(320)06-31B FLI'X LEVEL (A APRM DETECTOR); 0 - 125%

YPXMALSE(321) 06-3 IC FJ M LEVEL (B APRM DETECTOR); O - 125%

YPXMALSE(322)06-31D FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(323' 14-31 A FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(324)14-31B FLUX LEVEL (D APRM DETECTOR); O - 125%'

YPXMALSE(325)14-31C FL UX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(326)14-31D FLUX LEVEL (B APRM DETECTOR); O - 125%

YPXMALSE(327) 22-31 A FLUX LEVEL (D APRM DETECTOR); O - 125%

YPXMALSE(328) 22-3IB FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(329)22-31C FLUX LEVEL (B APRM DETECTOR); O - 125%

YPXMALSE(330)22-31D FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(331) 30-31 A FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(332)30-318 FLUX LEVEL (D APRM DETECTOR); O - 125%

'rPXMALSE(333)30-31C FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(334)30-31D FLUX LEVEL (B APRM DETECTOR); O - 125% ,

YPXMALSE(335) 38-31 A FLUX LEVEL (D APRM DETECTOR); O - 125%  !

YPXMALSE(336)38-31B FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(337)38-31C FLUX LEVEL (B APRM DFTECTOR); 0 - 125%

YPXMALSE(338)38-31D FLUX LEVEL (C APRM DETECTOR); O - 125%  !

YPXMALSE(339) 46-31 A FLUX LEVEL (C APRM DETECTOR); o - 125% ,

YPXMALSE(340)46-31B FLUX LEVEL (D APRM DETECTOR); 0 - 125%

• YPXMALSE(341)46-31C FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(342) 46 31D FLUX LEVEL (B APRM DETECTOR); O - 125%

. YPXMALSE(343) - 06 23A FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(344)06-23B FLUX LEVEL (B APRM DETECTOR); O - 125%

YPXMALSE(345)06-23C FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(346)06-23D FLUX LEVEL (D APRM DETECTOR); O - 125% l YPXMALSE(347) 14-23 A FLUX LEVEL (B APRM DETECTOR); O - 125%

YPXMALSE(348) '14-23B FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(349)14-23C FLUX LEVEL (D APRM DETECTOR); O - 125%

23

ATTACHMENT 2 MALFUNCTIONS

-YPXMALSE(350)14-23D FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(3$1) 22 23A FLUX LEVEL (A APRM DETECTOR); O - 125%

' YPXMALSE(352)22-23B FLUX LEVEL (B APRM DETECTOT.); O - 125%

YPXMALSE(353)22-23C FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(354)22-23D FLUX LEVEL (D APRM DETECTOR); O - 125%

YPXMALSE(355)30-23A FLUX LEVEL (B APRM DETECTOR); O - 125%

YPXMALFE(356)30-23B FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(357)30-23C FLUX LEVEL (D APRM DETECTOR); 0 - 125%

YPXMALSE(358) . 30 23D FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(359) 38-23 A FLUX LEVEL (A APRM DETFCTOR); o - 125%

YPXMALSE(360)38-23B FLUX LEVEL (B APRM DETECf0R); O - 125%

YPXMALSE(361)38-23C FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(362)38-22D FLUX LEVEL (D APRM DETECTOR); O - 125%

YPXMALSE(363)46-23A i t,UX LEVEL (B APRM DETECTOR); O - 125%

YPXMALSE(364)46-23B FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(365)46-23C FLUX LEVEL (D APRM DETECTOR); O - 125%

YPXMALSE(366)46-23D FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(367) 06-15 A FLUX LEVEL (D APRM DETECTOR); 0 - 125%

YPXMALSE(368)06-15B FLUX LEVEL (A APRM DETEC i'OR); O - 125%

YPXMALSE(369)06-15C FLUX LEVEL (B APRid DETECTOR); O - 125%

YPXMALSE(370)06-15D FLUX LEVEL (C APRM DETECTOR); O - 125% I YPXMALSE(371)14-15A FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(372)14-15B FLUX LEVEL (D APRM DETECTOR); O - 125% l YPXMALSE(373)14-15C FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(374)14-15D FLUX LEVEL (B APRM DETECTOR); o - 125%

f YPXMALSE(375)22-15A FLUX LEVEL (D APRM DETECTOR); O - 125%

YPXMALSE(376)22-15B FLUX L.EVEL (A APRM DETECTOR); O - 125%

YPXMALSE(377)22-15C FLUX LEVEL (B APRM DETECTOR); O - 125% )

- YPXMALSE(378)22-15D FLUX LEVEL (C APRM DETECTOR); O - 125% {

YPXMALSE(379)30-15A FLUX LEVEL (C APRM DETECTOR); O - 125% I YPXMALSE(380) - 3015B FLUX LEVEL (D APRM DETECTOR); O - 125%

YPXMALSE(381)30-15C FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(382)30-15D FLUX LEVEL (B APRM DETECTOR); O - 125%

Y?XMALSE(383)38-15A FLUX LEVEL (D APRM DETECTOR); O - 125% j' YPXMALSE(384)38-15B FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(385)38-15C FLUX LEVEL (B APRM DETECTOR); O - 125%

WXMALSE(386) 3815D FLUX LEVEL (C APRM DETECTOR); O - 125% ,

YPXM.ALSE(387)46-15A FLUX LEVEL (C APRM DETECTOR); O - 125%

. YPXMALSC(388)46-15B FLUX LEVEL (D APRM DETECTOR); O - 125%

YPXMALSE(389)46-15C FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(390)46-15D FLUX LEVEL (B APRM DETECTOR); O - 125% ]

YPXMALSE(391)14-07A FLUX LEVEL (B APRM DETECTOR); 0 - 125%

YPXMALSE(392)14-07B FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(393)14-07C FLUX LEVEL (D APRM DETECTOR); O - 125%

YPXMALSE(394)14-07D FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(394)46-47D FLUX LEVEL (B APRM DETECTOR); o - 125%

YPXMALSE(395)22-07A FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(396)22-07B FLUX LEVEL (B APRM DETECTOR); O - 125%

YPXMALSE(397)22-07C FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(398)22-07D FLUX LEVEL (D APRM DETECTOR); O - 125%

YPXMALSE(399)30-07A FLUX LEVEL (B APRM DETECTOR); O - 125%

YPXMALSE(400) 30 07B FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(401)30-07C FLUX LEVEL (D APRM DETECTOR); O - 125% )

YPXMALSE(402)30-07D FLUX LEVEL (A APRM DETECTOR); O - 125% j I

24 l i

ATTACHMENT 2 MALFUNCTIONS YPXMALSE(403)38-07A FLUX LEVEL (A APRM DETECTOR); O - 125%

YPXMALSE(404)38-07B FLUX LEVEL (B APRM DETECTOR);O 125%

YPXMALSE(405)38-07C FLUX LEVEL (C APRM DETECTOR); O - 125%

YPXMALSE(406)38-07D FLUX LEVEL (D APRM DETECTOR); O - 125%

YPXMALSE(424) RHR HEAT EXCHANGER B TUBE LEAK; O - 100%

YPXMALSE(432) . LPCI INJECTION VALVE FAIL E12F042A;0 - 100%

- YPXMALSE(433) LPCI INJECTION VALVE FAIL E12F042B;0 - 100%

YPXMALSE(434) LPCI INJECTION VALVE FAIL E12F042C;0 - 100%

YPXMALSE(435) RCIC TURBINE SPEFD CONTROLLER FAILURE; YPXMALSE(437). CH 125-PR001-HVAC STACK EFFLUENT ;0 - 100%

YPXMALSE(438) CH 126-PR002-HVAC STACK EITLUENT ;0 - 100%

YPXMALSE(439) CH 127-PR003-SGTS EFFLUENT;0 - 100%

YPXMALSE(440) CH 128-PR004 SGTS EFFLUENT;0 - 100%

YPXMALSE(451) CH 201 PR001 A-VR CONTAINMENT BUILDING EXHAUST ;0 - 100%

YPXMALSE(454) CH 204-PR001D-VR CONTAINMENT BUILDING EXHAUST ;0 - 100%

YPXMALSE(455) CH 205-PR008A-VR FUEL TRANSFER POOL ;0 - 100%

YPXMALSE(459) CH 239-PR006A-VF FUEL BLDG EXHAUST ;0 - 100%

YPXMALSE(460) CH 210-PR006B-VF FUEL BLDG EXHAUST ;0 - 100%

YPXMALSE(461) CH 211-PR006C-VF FUEL BLDG EXHAUST ;0 - 100%

YPXMALSE(462) CH 212-PR006D VF FUEL BLDG EXHAUST ;0 - 100%

. YPXMALSE(463) CH 213-PR009A-VC MAIN CONTROL ROOM AIR INTAKE ;0 - 100%

YPXMALSE(5) RT FILTER /DEMINERALIZER A RESIN DEPLETION ;0 - 1(X)%

YPXMALSE(525) F060A FLOW CONTROL VALVE INNER PACKING LEAK;0 - 100%

YPXMALSE(526) F060B FLOW CCONTROL VALVE INNER PACKING LEAK;0 - 100%

YPXMALSE(527) RR LOOP RUPTURE;0 - 10(M YPXMALSE(528) RR PUMP A SEAL Al FAILURE;0 - 100 %

YPXMALSE(529) RR PUMP A SEAL A2 FAILURE;0 - 100% .

YPXMALSE(530) RR PUMP B SEAL B1 PAILURE;0 - 100%

YPXMALSE(531) RR PUMP B SEAL B2 l' ALLURE;0 - 100%

YPXMALSE(532) - RR FLOW CONTROL VALVE A CONTROLLER FAIL B33 K601 ;0 - 100%

YPXMALSE(533) RR FLOW CONTROL VALVE B CONTROLLER FAIL B33-K602 ;0 - 100% i YPXMALSE(536) JET PUMP RISER A FAILURE ;0 - 100% i YPXMALSE(537) . JET PUMP RISER B FAILURE ;0 - 100%'

YPXMALSE(538) JET PUMP RISER C FAILURE ;0 - 100%

l

'.YPXMALSE(539) JET PUMP RISER D FAILURE ;0 - 100%

YPXMALSE(540) _ JET PUMP RISER E FAILURE ;0 - 100% j YPXMALSE(541) JET PUMP RISER F FAILURE ;0 - 100%

YPXMALSE(542) JET PUMP RISER G FAILURE ;0 - 100%

YPXMALSE(543) JET PUMP RIRER H FAILURE ;0 - 100%

YPXMALSE(544) JET PUMP RISER I FAILURE ;0 - 100%

' YPXMALSE(545) JET PUMP RISER J FAILURE ;0 - 100%

YPXMALSE(547) C34N004B FW LEVEL SENSOR FAILURE ;0 - 100%

YPXMALSE(548) C34N004C FW LEVEL SENSOR FAILURE ;0 - 100%

YPXMALSE(550) LT B21-N080C REACTOR LEVEL TRANSMITTER FAILURE ;0 - 100%

YPXMALSE(f52) LT B21-N073G REACTOR LEVEL TRANSMITTER FAILURE ;0 - 100%

YPXMALSE(353) LT B21-N081 A REACTOR LEVEL TRANSMITTER FAILURE ;0 - 100%

YPXMALSE($$4) LT B21-N091 A REACTOR LEVEL TRANSMITTER FAILURE ;0 - 100%

YPXMALSE(555) LT B21-N091E REACTOR LEVEL TRANSMITTER FAILURE ;0 - 10(M YPXMALSE(556)- LT B21-N400A REACTOR LEVEL TRANSMITTER FAILURE ;0 - 1(XM YPXMALSE(557) LT B21-N400E REACTOR LEVEL TRANSMITTER FAILURE ;0 - 100%

. YPXMALSE(558): LT B21-N044C REACTOR LEVEL TRANSMllTER FAILURE ;0 - 100%

YPXMALSE(559) LT B21-N073C REACTOR LEVEL TRANSMITTER FAILURE ;0 - 10(M YPXMALSE(560) LT B21-N081C REACTOR LEVEL TRANSMITTER FAILURE ;0 - 100%

YPXMALSE(562) LT B21-N080B REACTOR LEVEL TRANSMITTER FAILURE ;0 - 100%

25

y ATTACHMENT 2 MALFUNCTIONS YPXMALSE(564) LT B21-N081B REACTOR LEVEL TRANSMITTER FAILURE ;0 - 100%

YPXMALSE(567) LT B21-N400F REACTOR LEVEL TRANSMITTER FAILURE ;0 - 1(X)%

YPXMALSE(568) LT B21-N027 REACTOR LEVEL TRANSMllTER FAILURE ;0 - 100%

YPXMALSE(569) LT B21-N044D REACTOR LEVEL TRANSMITTER FAILURE ;0 - 100%

YPXMALSE(570) LT B21-N080D REACTOR LEVEL TRANSMITTER FAILURE ;0 - 100%

~ YPXMALSE(571) LT B21-N073H REACTOR LEVEL TRANSMITTER FAILURE ;0 - 100%

YPXMALSE(573) LT B21 N081D REACTOR LEVEL TRANSMITTER FAILURE ;0 - 100%

YPXMALSE(579) PT B21-N401 A REACTOR PRESSURE TRANSMITTER FAILURE ;0 - 100%

YPXMALSE(580) PT B21-N401E REACTOR PRESSURE TRANSMITTER FAILURE ;0 - 100%

YPXMALSE(588) #1 BYPASS VALVE Fall TO POSITION.;0 - 100%

YPXMALSE(589) #2 BYPASS VALVE FAIL TO POSITION.;0 - 100%

YPXMALSE(590) #3 BYPASS VALVE FAIL TO POSITION.;0 - 100%

-YPXMALSE(591) #4 BYPASS VALVE FAIL TO POSITION.;0 - 100%

YPXMALSE(592) #5 BYPASS VALVE FAI.L TO POSITION.;0 - 100%

YPXMALSE(593) #6 BYPASS VALVE Fall TO POSITION.;0 - 100%

YPXMALSE(594) #1 TURBINE CONTROL VALVE FAIL TO POSITION.;0 - 100%

YPXMALSE(595) #2 TURBINE CONTROL VALVE FAIL TO POSITION.;0 - 1(X)% 1 YPXMALSE(596) #3 TURBINE CONTROL VALVE Fall TO POSITION.;0 - 100%

YPXMALSE(597) #4 TURBINE CONTROL VALVE FAIL TO POSITION.;0 - 1(X)%

YPXMALSE(598) #1 TURBINE STOP VALVE Fall TO POSITION.;0 - 1(X)%

YPXMALSE(599) #2 TURBINE STOP VALVE FAIL TO POSITION.:0 - 1(X)%

' YPXMALSE(6) RT FILTER /DEMINERALIZER B RESIN DEPLETION ;0 - 100%

YPXMALSE(600) #3 TURBINE STOP VALVE Fall TO POSITION.;0 - 100%

YPXMALSE(601) #4 TURBINE STOP VALVE FAIL TO POSITION.;0 - 100%

YPXMALSE(602) #1 COMBINED INTERMEDIATE VALVE FAILURE; O - 1(X)%

YPXMALSE(603) #2 COMBINED INTERMEDIATE VALVE FAILURE; O - 100%

YPXMALSE(604) #3 COMBINED INTERMEDIATE VALVE FAILURE; o - 100% 2 YPXMALSE(605) #4 COMBINED INTERMEDIATE VALVE FAILURE; o - 100%

YPXMALSE(606) LOAD DEMAND FAIL (HIGH/ LOW);0 - 100%

YPXMALSE(607) A PRESSURE REGULATOR FAIL; O - 100%

YPXMALSE(608) B PRESSURE REGULATOR FAIL; O -100%

YPXMALSE(609) A PRESSURE REGULATOR OSCILLATION; O - 100%

YPXMALSE(610) B PRESSURE REGULATOR OSCILLATION; O - 100%

YPXMALSE(611) BEARING OIL LOW PRESSURE;0 - 100%

YPXMALSE(612) OIL TEMPERATURE CONTROLLER FAIL; 1

.YPXMALSE(613) BEARING #1 HIGH VIBRATION.;

YPXMALSE(614) BEARING #2 HIGH VIBRATION.;

. YPXMALSE(615) BEARING #3 HIGH VIBRATOIN.;

. YPXMALSE(616) BEARING #4 HIGH VIBRATION.;

YPXMALSE(617) BEARING #5 HIGH VIBRATION.;

YPXMALSE(618) BEARING #6 HIGH VIBRATION.;

YPXMALSE(619) BEARING #7 HIGH VIBRATION.;

YPXMALSE(620) BEARING #8 HIGH VIBRATION.;

YPXMALSE(621) BEARING #9 HIGH VIBRATION.;

'YPXMALSE(622) BEARING #10 HIGH VIBATION.;

YPXMALSE(634) SEAL OIL DIFFERENTIAL PRESSURE REGULATING VALVE FAILURE; YPXMALSE(635) G33F033 FAllTO POSITION; YPXMALSE(653) CH 217 PR042A CCP CONTAINMENT DUILDJNG EXHAUST ;0 - 100%

. YPXMALSE(654) CH 218 PR042B CCP CONTAINMENT DUILDING EXHAUST ;0 - 100%

I YPXMALSE(655) . CH 219 PR042C CCP CONTAINMENT BUILDING EXHAUST ;0 - 100%

YPXMALSE(656) CH 220 PR042D CCP CONTAINMENT BUILDING EXHAUST ;0 - 100%

YPXMALSE(66!) SPENT FUEL POOL LEAK; O - 100%

YPXMALSE(663) HPCS LEAK FROM SUPPRESSION POOL SUCTION LEE O - 100%

YPXMALSE(665) LPCS LEAK FROM SUPPRESSION POOL SUCTION LINE O - 100%

l 26 L

l

o i

ATTACHMENT 2 MALFUNCTIONS

. YPXMALSE(666) RHR A SUPPRESSION POOL SUCTION LEAK ;0 - 100%

YPXMALSE(667) RHR B SUPPRESSION POOL SUCTION LEAK;0 - 100%

YPXMALSE(668) RHR C SUPPRESSION POOL SUCTION LEAK;0 - 100% 3

YPXMALSE(669) ' WS LEAK IN CONTROL BUILDING BASEMENT; O - 100% j YPXMALSE(68) FAILURE OF HPCS INJECTION VALVE ;0 - 100% j YPXMALSE(69) - HPCS LINE BREAK; O - 100%

YPXMALSE(7) RT LEAK BETWEEN F053/F104; o - 100%

YPXMALSE(70) FAILURE OF LPCS INJECTION VALVE ; O - 100%

~ YPXMALSE(72) . F041 A MS RELIEF FAILURE; O - 100%

YPXMALSE(73) F041B ADS VALVE FAILURE; O - 100%

YPXMALSE(74) F041C ADS VALVE FAILURE; O - 100%

YPXMALSE(75) - F04ID ADS VALVE FAILURE; O - 100%

YPXMALSE(76) F041F ADS VALVE FAILURE; O - 100%

YPXMALSE(77) ~ F041G MS RELIEF FAILURE; O - 100% l YPXMALSE(78) F041L MS RELIEF FAILURE; O - 100%

YPXMALSE(79) . F047A ADS VALVE FAILURE; O - 100%

YPXMALSE(8) RT NONREGENERATIVE HEAT EXCHANGER TUBE LEAK ;0 - 100%

YPXMALSE(80) . F047B MS RELIEF FAILURE; O - 100%

YPXMALSE(81) F047C ADS VALVE FAILURE; O - 100%

YPXMALSE(82) F047D MS RELIEF FAILURE; O - 100%

l YPXMALSE(83) F047F LOW LOW SET VALVE FAILURE; O 100%

YPXMALSE(84) F051B LOW LOW SET VALVE FAILURE; O - 100% ,

YPXMALSE(85) F051C LOW LOW SET VALVE FAILURE (RSP); O - 100% i

! YPXMALSE(86) F051D LOW LOW SET VALVE FAILURE (RSP); O - 100%

i YPXMALSE(87) F051G LOW LOW SET / ADS VALVE FAILURE; O - 100%

YPXMALSE(88) - RADWASTE BUILDING 1A HEADER RUPTURE;0 - 1(X)%

' YPXMALSE(89) CONTROL BUILDING I A HEADER RUPTURE ; O - 100%

YPXMALSE(9) MAIN CONDENSER B SIDE TUBE LEAK; O - 100%

.YPXMALSE(90) CONTAINMET BUILDING 1 A HEADER RUPTURE ; O - 100%

YPXMALSE(91) TURBINE / AUXILIARY / FUEL BUILDINGS IA HEADER RUPTURE ; O - 100%

YPXREMPO(28) TURBINE LOAD SET MOTOR CONTROL YPXRR19A(1) FLOW CONTROL VALVE F060A LEAK BY 0 100%  ;

YPXRR19A(2) FLOW CONTROL VALVE F060B LEAK BY 0 - 100%

YPXRR21A(1) MOTOR OPERATED VALVE F067A LEAK BY 0 - 100% ]

YPXRR21 A(2) MOTOR OPERATED VALVE F067B LEAK BY 0 - 100% ' )

LC_MFSM(1) . 24-45 SINGLE - ROD SCRAM; LC_MFSM(10) 16-37 SINGLE - ROD SCRAM; LC_MFSM(100) ' 4017 SINGLE - ROD SCRAM; LC_MFSM(101) 40-49 SINGLE - ROD SCRAM; LC_MFSM(102) 08-41 SINGLE - ROD SCRAM; LC_MFSM(103) 48-17 SINGLE - ROD SCRAM; LC_MFSM(104) 16-09 SINGLE - ROD SCRAM; LC_MFSM(105) .16-49 SINGLE - ROD SCRAM; l-LC_MFSM(106) 48-41 SINGLE - ROD SCRAM; LC_MFSM(107) 08-17 SINGLE - ROD SCRAM; LC_MFSM(108) 09 SINGLE - ROD SCRAM; LC_MFSM(109) 24-41 SINGLE - ROD SCRAM; LC_MFSM(11) 32-29 SINGLE - ROD SCRAM; LC_MFSM(110) 40-33 SINGLE - ROD SCRAM; LC_MFSM(111) 16-25 SINGLE - ROD SCRAM; LC_MFSM(112) 32-17 SINGLE - ROD SCRAM; LC_MFSM(ll3) - 32,41 SINGLE - ROD SCRAM; LC_MFSM(ll4) - 16-33 SINGLE - ROD SCRAM; LC_MFSM(115) , 40-25 SINGLE - ROD SCRAM; 27

i.

ATTACHMENT 2 MALFUNCTIONS

LC_MFSM(116) 24-17 SINGLE - ROD SCRAM; LC_MFSM(117) 12-45 SINGLE - ROD SCRAM; LC_MFSM(118) 44-45 SINGLE - ROD SCRAM; LC_MFSM(119) 12-13 SINGLE - ROD SCRAM; LC_MFSM(12) 16-21 SINGLE - ROD SCRAM; LC_MFSM(120) 44-13 SINGLE - ROD SCRAM;

- LC_MFSM(121) 20-37 SINGLE - ROD SCRAM; 4 LC_MFSM(122) 36-37 SINGLE - ROD SCRAM; LC_MFSM(123) 20-21 SINGLE - ROD SCRAM; LC_MFSM(124) 36-21 SINGLE - ROD SCRAM; LC_MFSM(125) 28-45 SINGLE - ROD SCRAM; ,

LC_MFSM(126) 12-29 SINGLE - ROD SCRAM; )

LC_MFSM(127) 44 29 SINGLE - ROD SCRAM; LC_MFSM(128) 28-13 SINGLE - ROD SCRAM; LC_MFSM(129)  ; 28 29 SINGLE - ROD SCRAM;

. LC_MFSM(13) 08-45 SINGLE - ROD SCRAM; LC_MFSM(130) 28-37 SINGLE - ROD SCRAM; LC_MFSM(131) 20-29 SINGLE - ROD SCRAM; LC_MFSM(132) 36-29 SINGLE - ROD SCRAM; LC_MFSM(133) 28-21 SINGLE - ROD SCRAM; LC_MFSM(134) 28-53 SINGLE - ROD SCRAM; LC_MFSM(135) 04-29 SINGLE - ROD SCRAM; LC_MFSM(136) 52-29 SINGLE - ROD SCRAM; LC_MFSM(137) 28-05 SINGLE - ROD SCRAM; LC_MFSM(138) 20-45 SINGLE - ROD SCRAM; LC_MFSM(139) 44-37 SINGLE - ROD SCRAM; LC_MFSM(14) 48-45 SINGLE - ROD SCRAM; LC_MFSM(140) 12-21 SINGLE - ROD SCRAM; LC_MFSM(141) 36-13 SINGLE - ROD SCRAM; )

LC_MFSM(142) 36-45 SINGLE - ROD SCRAM; I LC_MFSM(143) ' 12-37 SINGLE - ROD SCRAM; LC_MFSM(144) 44-21 SINGLE - ROD SCRAM; LC_MFSM(145) 20-13 SINGLE - ROD SCRAM; LC_MFSM(15) 08-13 SINGLE - ROD SCRAM; LC_MFSM(16) 4813 SINGLE - ROD SCRAM; LC_MFSM(17) 16-53 SINGLE - ROD SCRAM; l LC_MFSM(18) 40-53 SINGLE - ROD SCRAM;  !

LC_MFSM(19) 16-05 SINGLE - ROD SCRAM; i LC_MFSM(2) 48-29 SINGLE - ROD SCRAM; LC_MFSM(20) . 40-05 SINGLE - ROD SCRAM; LC_MFSM(2l) 32 53 SINGLE-ROD SCRAM; LC_MFSM(22) 08-37 SINGLE - ROD SCRAM; LC_MFSM(23) 08-21 S!NGLE - ROD SCRAM; LC_MFSM(24) 32-05 SINGLE - ROD SCRAM; LC_MFSM(25) 24-53 SINGLE - ROD SCRAM; LC_MFSM(26) 48-37 SINGLE - ROD SCRAM; LC_MFSM(27) 48-21 SINGLE - ROD SCRAM; LC_MFSM(28)- 24-05 SINGLE - ROD SCRAM; LC_MFSM(29) 24-37 SINGLE - ROD SCRAM;

' LC_MFSM(3) 24-13 SINGLE - ROD SCRAM; LC_MFSM(30) 40-29 SINGLE - ROD SCRAM; LC_MFSM(31) 24-21 SINGLE ROD SCRAM; LC_MFSM(32) 32-37 SINGLE ROD SCRAM; LC_MFSM(33) 16-29 SINGLE - ROD SCRAM; 28

ATTACHMENT 2 MALFUNCTIONS LC_MFSM(34) 32-21 SINGLE - ROD SCRAM; LC_MFSM(35) 16-45 SINGLE - ROD SCRAM; LC_MFSM(36) 40-45 SINGLE - ROD SCRAM; LC_MFSM(37) 16-13 SINGLE - ROD SCRAM; LC_MFSM(38) 4013 SINGLE - ROD SCRAM; LC_MFSM(39) 28 49 SINGLE - ROD SCRAM; LC_MFSM(4) 32-45 SINGLE - ROD SCRAM; LC_MFSM(40) 12 25 SINGLE - ROD SCRAM; LC_MFSM(41) 44-25 SINGLE - ROD SCRAM; LC_MFSM(42) 12 33 SINGLE - ROD SCRAM; LC_MFSM(43) 44-33 SINGLE - ROD SCRAM; LC_MFSM(44) 28 09 SINGLE ROD SCRAM; LC_MFSM(45) 28-33 SINGLE - ROD SCRAM; LC_MFSM(46) 20-17 SINGLE - ROD SCRAM; LC_MFSM(47) 36-17 SINCLE - ROD SCRAM; LC_MFSM(48) 20-41 SINGLE - ROD SCRAM; LC_MFSM(49) 36-41 SINGLE - ROD SCRAM; LC_MFSM(5) 08-29 SINGII- ROD SCRAM; LC_MFSM(50) 28-25 SINGLE - ROD SCRAM; LC_MFSM(51) 12-49 SINGLE - ROD SCRAM; LC_MFSM(52) 44-49 SINGLE - ROD SCRAM; LC_MFSM(53) 12-09 SINGLE - ROD SCRAM; LC_MFSM(54) 44-09 SINGLE - ROD SCRAM; LC_MFSM(55) 04-41 SINGLE - ROD SCRAM; LC_MFSM(56) 52 41 SINGLE - ROD SCRAM; LC_MFSM(57) 04 17 SINGLE - ROD SCRAM; LC_MFSM(58) 52-17 SINGLE - ROD SCRAM; LC_MFSM(59) 20-49 SINGLE - ROD SCRAM; LC_MFSM(6) 3213 SINGLE - RUD SCRAM; LC_MFSM(60) 36-49 SINGLE - ROD SCRAM; LC_MFSM(61) 04 25 SINGLE - ROD SCRAM; LC_MFSM(62) 52-25 SINGLE - ROD SCRAM; LC_MFSM(63) 04-33 SINGLE - ROD SCRAM; LC_MFSM(64) 52-33 SINGLE - ROD SCRAM; LC_MFSM(65) 20-09 SINGLE - ROD SCRAM;

• LC_MFSM(66) 36-09 SINGLE - ROD SCRAM; LC_MFSM(67) 20-33 SINGLE ROD SCRAM; LC_MFSM(68) 36-33 SINGLE - ROD SCRAM; LC_MFSM(69) 2817 SINGLE - ROD SCRAM; LC_MFSM(7) 40-37 SINGLE - ROD SCRAM; LCJtFSM(70) 28-41 SINGLE ROD SCRAM; LC_MFSM(71) 20-25 SINGLE ROD SCRAM; LC_MFSM(72) 36 25 SINGLE ROD SCRAM; LC_MFSM(73) 12-41 SINGLE ROD SCRAM; LC_MFSM(74) 44-41 SINGLE - ROD SCRAM; LC_MFSM(75) 12-17 SINGLE - ROD SCRAM; LC_MFSM(76) 44 17 SINGLE - ROD SCRAM:

LC_MFSM(77) 20-53 SINGLE - ROD SCRAM; LC_MFSM(78) 52 37 SINGLE - ROD SCRAM; LC_MFSM(79) 04-21 SINGLE - ROD SCRAM; LC_MFSM(8) 24-29 SINGLE - ROD SCRAM; LC_MFSM(80) 36-05 SINGLE - ROD SCRAM; LC_MFSM(81) 36 53 SINGLE - ROD SCRAM; LC_MFSM(82) 04-37 SINGLE - ROD SCRAM; 1

29

ATTACHMENT 2 MALFUNCTIONS LC_MFSM(83) 52-21 SINGLE - ROD SCRAM; LC_MFSM(84) 20-05 SINGLE - ROD SCRAM; LC_MFSM(85) 24 49 SINGLE - ROD SCRAM; LC_MFSM(86) 48-33 SINGLE - ROD SCRAM; LC_MFSM(87) 08-25 SINGLE - ROD SCRAM; LC_MFSM(88) ~ 32-09 SINGLE - ROD SCRAM; i LC_MFSM(89) 3249 SINGLE - ROD SCRAM; LC_MFSM(9) 40-21 SINGLE - ROD SCRAM;

~ LC_MFSM(90) 08 33 SINGLE - ROD SCRAM; LC_MFSM(91) 48-25 SINGLE - ROD SCRAM; ,

LC_MFSM(92) . 24-09 SINGLE - ROD SCRAM; LC_MFSM(93) 24-33 SINGLE - ROD SCRAM; LC_MFSM(94) 32-25 SINGLE - ROD SCRAM; LC_MFSM(95) 24-25 SINGLE - ROD SCRAM; LC_MFSM(96) 32-33 SINGLE - ROD SCRAM; LC_MFSM(97) 1641 SINGLE - ROD SCRAM; .

. LC,_MFSM(98) 40-41 SINGLE - ROD SCRAM; LC_MFSM(99) 16-17 SINGLE - ROD SCRAM; YAMSAVFP(15) GSEWFV FAllTO POSITION; o - 100%

YAMSAVFP(17) GSSSFV FAIL TO POSITION; o - 100%

YAMSCTFV(1)' ' PDIC-N596 - MSR A REHEAT CONTROLLER OUTPUT SIGNAL FAIL; YAMSCTFV(2) PDIC-N597 - MSR B REHEAT CONTROLLER OUTPUT SIGNAL FAIL; YAMSSIFP(l) B21FO22A FAIL TO POSITION; O - 100%

YAMSSIFP(2) B21FO22B FAIL TO POSITION; O - 100%

YAMSSIFP(3) B21F022C FAIL TO POSITION; O - 100%

YAMSSIFP(4) B21FO22D FAllTO POSITION; O - 100%

YAMSSIFP(5) B21FO28A FAIL TO POSITION; O - 100%

YAMSSIFP(6) B21F028B FAIL TO POSITION; O - 100%

YAMSSIFP(7) B21FO28C FAIL TO POSITION;O - 100%

YAMSSIFP(8) B21FO28D FAIL TO POSITION; o - 100%

YFMSCTFA(1) PDICN5% MSR A REHEAT CONTROLLER SIGNAL FAIL; >

YFMSCTFA(2) PDICN597 MSR B REHEAT CONTROLLER SIGNAL FAIL; YFMSCTPW(1) PDICN596 MSR A REHEAT CONTROLLER POWER; YFMSCTPW(2) PDICN597 MSR B REHEAT CONTROLLER POWER; i

.YP_XMFTB(4127) ROD 16-53 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4128) ROD 20 53 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4129) - ROD 24-53 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4130) ROD 28-53 WILL DRIFT FROM ITS POSITION; YP_XMfTB(4131) ROD 32 53 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4132) ROD 36-53 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4133) ROD 40-53 WILL DRIFT FROM ITS POSITION;

.YP_XMFTB(4134) ROD 12-49 WILL DRIFT FROM ITS POSITION; l YP_XMFTB(4135) ROD 16-49 WILL DRIFT FROM ITS POSITION; YP_XMITB(4136) ROD 20-49 ' VILL DRIFT FROM ITS POSITION; ROD 24-49 WILL DRIFT FROM ITS POSITION; l

L. YP_XMFTB(4137) q l~ YP_XMFTB(4138) ROD 28-49 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4139)' ROD 32-49 WILL DRIFT FROM ITS POSITION; j YP_XMFTB(4140) ROD 36-49 WILL DRIFT FROM ITS POSITION; I YP_XMFFB(4141) ROD 40-49 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4142) ROD 4449 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4143)- ROD 08-45 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4144) ROD 12-45 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4145) ROD 16-45 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4146) _ ROD 20-45 WILL DRIFT FROM ITS POSITION; l -

I 30

]

ATTACHMENT 2 MALFUNCTIONS YP_XMFTB(4147) ROD 24 45 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4148) ROD 28-45 WILL DRIFT FROM ITS POSITION;

' YP_XMFTB(4149) ROD 32-45 WILL DRIFT FROM ITS POSITION; j YP_XMFTB(4150) ROD 36-45 WILL DRIFT FROM ITS POSITION; 1 YP_XMFTB(4151) ROD 40-45 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4152) ROD 44-45 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4153) ROD 48-45 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4154) ROD 04-41 WILL DRIFT FROM ITS POSITION; -

YP_XMFTB(4155) ROD 08-41 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4156) . ROD 12-41 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4157) ROD 16-41 WILL DRIFT FROM ITS POSITION; j YP_XMFTB(4158) . ROD 20 41 WILL DRIFT FROM ITS POSITION; I YP_XMFTB(4159) ROD 24-41 WILL DRIFT FROd ITS POSITION; . ,

YP_XMFTB(4160) ROD 28-41 WILL DRIFT FROM ITS POSITION; I YP_XMFTB(4161) ROD 32-41 WILL DRIFT FROM ITS POSITION;

{

YP_XMFTB(4162) : ROD 36-41 WILL DRIFT FROM ITS POSITION; l

YP_XMFTB(4163) ROD 40 41 WILL DRIFT FROM ITS POSITION; I YP_XMFTB(4164) ROD 44-41 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4165) ROD 48 41 WILL DR.lFT FROM ITS POSITION;

)

{

YP_XMFTB(4166) ROD 52-41 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4167) ROD 04-37 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4168) ROD 08 37 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4169) ROD 12-37 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4170) ROD 16-37 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4171) ROD 20-37 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4172) ROD 24 37 WILL DRIFT FROM ITS POSITION;

YP_XMFTB(4173) ROD 28 37 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4174) ROD 32-37 WILL DRIFT FROM ITS POSITION; j YP_XMFTB(4175) ROD 36-37 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4176) ROD 40-37 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4177) ROD 44 37 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4178) ROD 48-37 WILL DRIFT FROM ITS POSITION; ROD $2 37 ""LL DRIFT FROM ITS POSITION; YP_XMFTB(4179)

YP_XMFTB(4180) RO? M- , . L DRIFT FROM ITS POSITION; YP_XMFTB(4181) ' ROD , o-33 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4182) ROD 12 33 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4183) ROD 16-33 WILL DRIFT FROM ITS POSITION;

( YP_XMFTB(4184) ROD 20-33 WILL DRIFT FROM ITS POSITION; j YP_XMFTB(4185) ROD 24 33 WILL DRIFT FROM ITS POSITION; l YP_XMFTB(4186) ROD 28 33 WILL DRIFT FROM ITS POSITION; i YP_XMFTB(4187) ROD 32 33 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4188) ROD 36-33 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4189) ROD 40-33 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4190) ROD 44-33 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4191) ROD 48 33 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4192) ROD 52-33 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4193) ROD 04-29 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4194) _ ROD 08-29 WILL DRIFT FROM ITS POSITION;

= YP_XMFTB(4195) ROD 12-29 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4196) . ROD 16-29 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4197) ROD 20-29 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4198) ROD 24-29 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4199) ROD 28 29 WILL DRIFT FROM ITS POSITION;

' YP_XMFTB(4200) ' ROD 32-29 WILL DRIFT FROM ITS POSITION; 31

. ATTACHMENT 2 MALFUNCTIONS YP_XMFTB(4201) - ROD 36-29 WILL DRIFT FROM ITS POSITION;

' YP_XMFTB(4202) ROD 40-29 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4203) ROD 44-29 WILL DRlFT FROM ITS POSITION; YP_XMFTB(4204) ROD 48-29 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4205) ROD 52 29 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4206) . ROD 04-25 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4207) ROD 08 25 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4208) ROD 12-25 WILL DRIFT FROM ITS POSITION; YP_XMFrB(4209) ROD 16-25 WILL DRIFT FROM ITS POSITION;

. .YP_XMFTB(4210) ROD 20-25 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4211) . ROD 24-25 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4212) - ROD 28-25 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4213) ROD 32-25 WILL DRIFT FROM ITS POSITION;

.YP_XMFTB(4214) ROD 36-25 WILL DRIFT FROM ITS POSITION;

YP_XMFTB(4215) ROD 40-25 WILL DRIFT FROM ITS POSITION;.

YP_XMFTB(4216) ROD 44-25 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4217) ROD 48-25 W'LL DRIFT FROM ITS POSITION; YP_XMFTB(4218) ROD 52-25 WILL DRIFT FROM ITS POSITION; YP.,XMFTB(4219) ROD 04-21 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4220) ROD 08-21 WILL DRIFT FROM ITS POSITION;

- YP_XMFrB(4221) ROD 12 21 WILL DRIFT FROM ITS POSITION; YP_XMETB(4222) ROD 16-21 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4223) . ROD 20-21 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4224) ROD 24-21 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4225) ROD 28-21 WILL DRIFT FROM ITS POSITION; YP_XMFFB(4226): ROD 32 21 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4227) ROD 36-21 WILL DRIFT FROM ITS POSITION; YP.,,XMFFB(4228) ROD 40-21 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4229) ROD 44-21 WILL DRIFT FROM ITS POSITION; YP,,XMFTB(4230) ROD 48-21 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4231) ROD 52-21 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4232) ROD 0417 WILL DRIFT FROM ITS POSITION; YP,,XMFTB(4233) ROD 0817 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4234) ROD 12-17 WILL DRIFT FROM ITS POSITION;

' YP_XMFTB(4235) ROD 16-17 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4236) ROD 20-17 WILL DRIFT FROM ITS POSITION; YP_XMFFB(4237) ROD 24-17 WILL DRIFT FROM ITS POSITION; YP.,XMFFB(4238) ROD 28-17 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4239) ROD 3217 WILL DRIFT FROM ITS POSITION; YP_XMFFB(4240) ROD 36-17 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4241) ROD 40-17 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4242) ROD 44 17 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4243) POD 48-17 WILL DRIFT FROM ITS POSITION;

. YP_XMFTB(4244) ROD 52 17 WILL DRIFT FROM ITS POSITION; YP_XMFrB(4245) ROD 0813 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4246) - ROD 12-13 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4247) ROD 16-13 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4248) ROD 20-13 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4249) ROD 24-13 WILL DRIFT FROM ITS POSITION; YP_XMFrB(4250) ROD 2813 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4251) ROD 3213 WILL DRIFT FROM 1. 'S POSITION; YP_XMFTB(4252) ROD 36-13 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4253) ROD 40-13 WILL DRIFT FROM ITS POSITION; .

YP_XMFTB(4254) ROD 44-13 WILL DRIFT FROM ITS POSITION; f

32 l

~ *

• ATTACHMENT 2 MALFUNCTIONS l . YP_XMFTB(4255) ROD 48-13 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4256) ROD 12-09 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4257) ROD 164)9 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4258) ROD 20-09 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4259) - ROD 24-09 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4260) ROD 28-09 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4261) ROD 32-09 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4262) ROD 364)9 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4263) ROD 40M WILL DRIFT FROM ITS POSITION;

, YP_XMFTB(4264) ROD 44C %L DRIFT FROM ITS POSITION; l YP_XMFTB(4265) ROD 164 L DRIFT FROM ITS POSITION; YP_XMFTB(4266) - ROD 20-0 . a L DRIFT FROM ITS POSITION; YP_XMFTB(4267) ROD 24-03 WILL DRIFT FROM ITS POSITION;

. YP_XMFTB(4268) ROD 28415 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4269) ROD 32-05 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4270) ROD 36-05 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4271) ROD 40-05 WILL DRIFT FROM ITS POSITION; YP_XMFTB(4272) ROD 16-53 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4273) ROD 20-53 IS STUCK AT PRESENT LOCATION; 1 l YP_XMFTB(4274) - ROD 24-53 IS STUCK AT PRESENT LOCATION;

! YP_XMFTB(4275) ROD 28-53 IS STUCK AT PRESENT LOCATION; l YP_XMFTB(4276) ROD 32-53 IS STUCK AT PRESENT LOCATION; l YP_XMFTB(4277) ROD 36-53 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4278) ROD 40-53 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4279) ROD 12-49 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4280) ROD 16-49 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4281) ROD 20-49 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4282) ROD 24-49 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4283) ROD 28-49 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4284) ROD 32-49 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4285)' ROD 36-49 IS STUCK AT PNESENT LOCATION; YP_XMFTB(4286) ROD 40-49 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4287) ROD 44-49 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4288) ROD 08-45 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4289) ROD 12-45 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4290) ROD 16-45 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4291) ROD 20-45 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4292) - ROD 24-45 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4293) ROD 28-45 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4294) ROD 32-45 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4295) ROD 36-45 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4296 ROD 40-45 IS STUCK AT PRESENT LOCATION; YP_XMFTB(429',) ROD 44-45 IS STUCK AT PRESENT LOCATION;

- YP_XMFTB(4298) ROD 48-45 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4299) ROD 04-41 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4300) ROD 08-41 IS STOCK AT PRESENT LOCATION; YP_XMFTB(4301) ROD 12-41 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4302) ROD 16-41 IS STUCK nT PRESENT LOCATION; YP_XMFTB(4303) - ROD 20-41 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4304) ROD 24-41 IS STUCK AT PRESENT LOCATION; .

YP_XMFTB(4305) ROD 28-41 IS STUCK AT PRESENT LOCATION; l

ROD 32 41 IS STUCK AT PRESENT LOCATION; '

' YP_XMFTB(4306)

YP_XMFTB(4308) ROD 40-41 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4309) ROD 44-41 IS STUCK AT PRESENT LOCATION; j

33 i

? ,. .

ATTACHMENT 2 MALFUNCTIONS YP_XMFTB(4310) ROD 48-41 IS STUCK AT PRESENT LOCATION;

. YP_XMFTB(4311) ROD $2-41 IS STUCK AT PRESENT LOCATION;

' YP_XMFTB(4312) ROD 04-37 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4313) . ROD 08-37 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4314) ROD 12-37 IS STUCK AT PRESENT LOCATION; YP_XMITB(4315) ROD 16-37 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4316) . ROD 20-37 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4117) - ROD 24-37 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4318) ROD 28-37 IS STUCK AT PRESENT LOCATION; .

YP_XMFTB(4319) ' ROD 32-37 IS STUCK AT PRESENT LOCATION; YP_XMITB(4320) ROD 36 37 IS STUCK AT PRESENT LOCATION;

' YP_XMFTB(4321) ROD 40-37 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4322) - ROD 44 37 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4323) ROD 48 37 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4324) ROD 52-37 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4325) ROD 04-33 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4326) . ROD 08-33 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4327) ROD 12-33 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4328) ROD 16-33 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4329) ROD 20-33 IS STUCK AT PRESENT LOCATION;

- YP_XMFTB(4330) ROD 24-33 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4331) ROD 28-33 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4332) ROD 32-33 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4333) ROD 36-33 IS STUCK AT PPESENT LOCATION; YP_XMFTB(4334) ROD 40-33 IS STUCK AT PkES2NT LOCATION; YP_XMFTB(4335) ROD 44 33 IS STUCK AT PRESENT LOCATION; YP_XMITB(4336) ROD 48-33 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4337) ROD $2-33 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4338) ROD 04-29 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4339) ROD 08-29 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4340) . ROD 12-29 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4341) ROD 16-29 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4342) ROD 20-29 IS STUCK AT PRESENT LOCATION; .

YP_XMFTB(4343) ROD 24-29 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4344)- ROD 28-29 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4345) ROD 32-29 IS STUCK AT PRESENT LOCATION; i P_XMFTB(4346) ROD 36-29 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4347) ROD 40-29 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4348) ROD 44 29 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4349) ROD 48 29 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4350) ROD 52-29 IS STUCK AT PRESENT LOCATION;.

YP_XMFTB(4351) - ROD 04-25 IS STUCK AT PRESENT LOCATION; YP_XMITB(4352) ROD 08-25 IS STUCK AT PRESENT LOCATION; i YP_XMFTB(4353) ROD 12-25 IS STUCK AT PRESENT LOCATION; YP_XMITB(4354) ROD 16-25 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4355) ROD 20 25 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4356) ROD 24-25 IS STUCK AT FRESENT LOCATION; YP_XMFTB(4357) ROD 28-25 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4358) ROD 32-25 IS STUCK AT PRESENT LOCATION; .

YP_XMFTB(4359) ROD 36-25 IS STUCK AT PRESENT LOCATION; l

YP_XMITB(4360) ROD 40 25 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4361) ROD 44-25 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4362) ROD 48-25 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4363) ROD 52-25 IS STUCK AT PRESENT LOCATION; 34 l

ATTACHMENT 2 MALFUNCTIONS L

YP_XMFTB(4364) ROD 04-21 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4365) ROD 08-21 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4366) ROD 12 21 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4367) ROD 16-21 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4368) ROD 20-21 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4369) ROD 24 21 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4370) ROD 28-21 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4371) ROD 32 21 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4372) ROD 36-21 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4373) ROD 40-21 IS STUCK AT PRESENT LOCATION;

'YP_XMFTB(4374) ROD 44-21 IS STUCK AT PRESENT LOCATION; l- YP_XMFTB(4375) ROD 48-21 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4376) ROD 52-21 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4377) ROD 0417 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4378) ROD 0817 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4379) ROD 12-17 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4380) ROD 16-17 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4381) ROD 20-17 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4382) ROD 24-17 IS STUCK AT PRESENT LOCATION; YP_XMFFB(4383) ROD 28-17 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4384) ROD 32-17 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4385) ROD 36-17 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4386) ROD 40-17 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4387) ROD 44-17 IS STUCL' AT PRESENT LOCATION; YP_XMFTB(4388) ROD 48-17 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4389) ROD 5217 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4390) ROD 08-13 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4391) ROD 1213 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4392) ROD 16-13 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4393) _ ROD 2013 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4394) ROD 24-13 IS STUCK AT PRESENT LOCATION; j YP_XMFTB(4395) ROD 2813 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4396) ROD 32-13 IS STUCK AT PRESENT LOCATION; j YP_XMFTB(4397) ' ROD 36-13 IS STUCK AT PRESENT LOCATION; j YP_XMFTB(4397) ROD 36-41 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4398) ROD 40-13 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4399) ROD 4413 IS STUCK AT PRESENT LOCATION; j YP_XMFTB(4400) ROD 4813 IS STUCK AT PRESENT LOCATION; j

- YP_XMFTB(4401) ROD 12-09 IS STUCK AT PRESENT LOCATION; l

YP_XMFTB(4402) ROD 16-09 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4403) ROD 20-09 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4404) ROD 24-09 IS STUCK AT PRESENT LOCATION; )

YP_XMFTB(4405) ROD 28-09 IS STUCK AT PRESENT LOCATION; l

YP_XMFTB(4406) ROD 32-09 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4407)- ROD 36-09 IS STUCK AT PRESENT LOCATION; YP XMFTB(4408) ROD 40-09 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4409) ROD 44-09 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4410) ROD 16-05 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4411) ROD 20-05 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4412) ROD 24-05 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4413) - ROD 28-05 IS STUCK AT PRESENT LOCATION; I YP_XMFTB(4414) ROD 32-05 IS STUCK AT PRESENT LOCATION; YP, XMFTB(4415) ROD 36-05 IS STUCK AT PRESENT LOCATION; YP_XMFTB(4416) ROD 40-05 IS STUCK AT PRESENT LOCATION; 35 l

ATTACHMENT 2 MALFUNCTIONS ROD 16 53 IS UNCOUPLED; i YP_XMFTB(4417)

J YP_XMFTB(4418) ROD 20 53 IS UNCOUPLED; YP_XMFTB(4419) ROD 24-53 IS UNCOUPLED; 4 YP_XMFTB(4420) ROD 28 53 IS UNCOUPLED; YP_XMFTB(4421) ROD 32-53 IS UNCOUPLED;

, YP_XMFTB(4422) ROD 36-53 IS UNCOUPLED;

- YP_XMFTB(4423) ROD 40-53 IS UNCOUPLED; l YP_XMFTB(4424) ROD 12-49 IS UNCOUPLED; YP_XMFTB(4425) ROD 16-49 IS UNCOUPLED; YP_XMFTB(4426) ROD 20-49 IS UNCOUPLED;

]

YP_XMFTB(4427) ROD 24-49 IS UNCOUPLED; YP_XMFTB(4428) ROD 28-49 IS UNCOUPLED; {

a YP_XMFTB(4429) - ROD 32-49 IS UNCOUPLED; YP_XMFTB(4430) ROD 36-49 IS UNCOUPLED; YP_XMFTB(4431) ROD 4049 IS UNCOUPLED; YP_XMFTB(4432) ROD 44-49 IS UNCOUPLED; YP_XMFTB(4433) ROD 08-45 IS UNCOUPLED; .

YP_XMFTB(4434) ROD 12-45 IS UNCOUPLED; YP_XMFTB(4435) ROD 16-45 IS UNCOUPLED; YP_XMFTB(4436) ROD 2045 IS UNCOUPLED; I

YP_XMFTB(4437) ROD 2445 IS UNCOUPLED;  !

YP_XMFTB(4438) ROD 2845 IS UNCOUPLED; ROD 3245 IS UNCOUPLED;

)

YP_XMFTB(4439)

YP_XMFTB(4440) ROD 36-45 IS UNCOUPLED; YP_XMFTB(4441) ROD 40-45 IS UNCOUPLED; YP_XMFTB(4442) ROD 44-45 IS UNCOUPLED;  ;

YP_XMFTB(4443) ROD 48 45 IS UNCOUPLED; YP_XMFTB(4444) ROD 04-4I IS UNCOUPLED; I YP_XMFTB(4445) ROD 08-41 IS UNCOUPLED; I YP_XMFTB(4446) ROD 12-41 IS UNCOUPLED; YP_XMFTB(4447) ROD 1641 IS UNCOUPLED; YP_XMFTB(4448) ROD 20-41 IS UNCOUPLED; YP_XMFTB(4449) ROD 2441 IS UNCOUPLED; YP_XMFTB(4450) ROD 28-41 IS UNCOUPLED; YP_XMFTB(4451) ROD 3241 IS UNCOUPLED; I YP_XMFTB(4452) - ROD 36-41 IS UNCOUPLED; YP_XMFTB(4453) ROD 40-41 IS UNCOUPLED; j YP_XMFTB(4454) ROD 44-41 IS UNCOUPLED; YP_XMFTB(4455) ROD 48-41 IS UNCOUPLED; ,

YP_XMFTB(4456) ROD 52-41 IS UNCOUPLED; - l YP_XMFTB(4457) ROD 04-37 IS UNCOUPLED; YP_XMFTB(4458) ROD 08-37 IS UNCOUPLED; l YP_XMFTB(4459) ROD 12-37 IS UNCOUPLED; I YP_XMFTB(4460) ROD 16-37 IS UNCOUPLED; YP_XMFTB(4461) ROD 20-37 IS UNCOUPLED; YP_XMFTB(4462) ROD 24-37 IS UNCOUPLED; YP_XMFTB(4463) ROD 28-37 IS UNCOUPLED; YP_XMFTB(4464) ROD 32-37 IS UNCOUPLED;

, YP_XMFTB(4465) ROD 36-37 IS UNCOUPLED; l YP_XMFTB(4466) ROD 40-37 IS UNCOUPLED; YP_XMFTB(4467) ROD 44 37 IS UNCOUPLED; YP_XMFTB(4468) ROD 48-37 IS UNCOUPLED; YP_XMFTB(4469) RCD 52-37 IS UNCOUPLED; YP_XMFTB(4470) ROD 04 33 IS UNCOUPLED; 36 i

IL

[L ATTACHMENT 2 MALFUNCTIONS L

l L ROD 08-33 IS UNCOUPLED;

.YP_XMFTB(4471) nYP_XMFTB(4472) ROD 12-33 IS UNCOUPLED;

, YP_XMFTB(4473) ROD 16-33 IS UNCOUPLED; l YP_XMFTB(4474) ROD 20-33 IS UNCOUPLED; l - YP_XMFTB(4475) ROD 24-33 IS UNCOUPLED; '

YP_XMFTB(4476) ROD 28 33 IS UNCOUPLED; l YP_XMFTB(4477) . ROD 32 33 IS UNCOUPLED;

[ ' YP_XMFTB(4478) . ROD 36-33 IS UNCOUPLED;

!~ YP_XMFTB(4479) ROD 40-33 IS UNCOUPLED; L YP_XMFTB(4480) ROD 44-33 IS UNCOUPLED; j YP_XMFTB(4481) ROD 48-33 IS UNCOUPLED; YP_XMFTB(4482) - ROD $2-33 IS UNCOUPLED; I YP_XMFTB(4483) ROD 04 29 IS UNCOUPLED; l YP,.XMFTB(4484) ROD 08-29 IS UNCOUPLED; YP_XMFTB(4485) ROD 12-29 IS UNCOUPLED; YP_XMFTB(4486) ROD 16-29 IS UNCOUPLED; YP_XMFTB(4487) ROD 20-29 IS UNCOUPLED; YP_XMFTB(4488) ROD 24-29 IS UNCOUPLED; YP_XMFTB(4489) ' = ROD 28-29 IS UNCOUPLED; YP_XMFTB(4490) ROD 32-29 IS UNCOUPLED; q YP_XMFTB(4491) ROD 36-29 IS UNCOUPLED; i YP_XMFTB(4492) ROD 40-29 IS UNCOUPLED; YP_XMFTB(4493) ROD 44-29 IS UNCOUPLED; YP_XMFTB(4494) ROD 48-29 IS UNCOUPLED; YP_XMFTB(4495) ROD 52-29 IS UNCOUPLED; YP_XMFTB(4496) ROD 04-25 IS UNCOUPLED; YP_XMFTB(4497) ROD 08-25 IS UNCOUPLED; YP_XMFTB(4498) . ROD 12-25 IS UNCOUPLED; YP_XMFTB(4499) ROD 16 25 IS UNCOUPLED; i

YP_XMFTB(4500) ROD 20-25 IS UNCOUPLED; YP_XMFrB(4501) ROD 24-25 IS UNCOUPLED; YP_XMFTB(4502) ROD 28-25 IS UNCOUPLED; YP_XMFTB(4503) - ROD 32 25 IS UNCOUPLED; YP_XMFTB(4504) ROD 36-25 IS UNCOUPLED;

.YP_XMFTB(4505) ROD _40-25 IS UNCOUPLED; .

YP_XMFTB(4506) ROD 44-25 IS UNCOUPLED;

- YP_XMFTB(4507)_ ROD 48-25 IS UNCOUPLED; YP_XMFTB(4508) ROD 52-25 IS UNCOUPLED; YP_XMFTB(4509) - ROD 04-21 IS UNCOUPLED; YP_XMFTB(4510) ROD 08 21 IS UNCOUPLED; YP_XMFTB(4511) ROD 12-21 IS UNCOUPLED; 1 YP_XMFTB(4512) ROD 16-21 IS UNCOUPLED; YP_XMFTB(4513) ROD 20-21 IS UNCOUPLED; .

YP_XMFTB(4514) ROD 24 21 IS UNCOUPLED; -

YP_XMFTB(4515) ' ROD 28-21 IS UNCOUPLED; YP_XMFTB(4516) ROD 32-21 IS UNCOUPLED; YP_XMFTB(4517) . ROD 36-21 IS UNCOUPLED; 1YP_XMFTB(4518)- ROD 40-21 IS UNCOUPLED; i YP_XMFTB(4519) ROD 44-21 IS UNCOUPLED; l7 YP_XMFTB(4520) ROD 48 21 IS UNCOUPLED; L YP_XMFTB(4521) ROD 52-21 IS UNCOUPLED; YP_XMFTB(4522) ROD 04-17 IS UNCOUPLED; YP_XMFTB(4523)- ROD 0817 IS UNCOUPLED;

,YP_XMFTB(4524) ROD 12-17 IS UNCOUPLED;

}

37

ATTACHMENT 2 MALFUNCTIONS l- YP_XMFTB(4525) ROD 16-17 IS UNCOUPLED; i .YP_XMFTB(4526) ROD 20-17 IS UNCOUPLED; YP_XMFTB(4527) ROD 24-17 IS UNCOUPLED;

[ YP_XMFTB(4528) ROD 28-17 IS UNCOUPLED; YP_XMFTB(4529)- ROD 32-17 IS UNCOUPLED; l

YP_XMFTB(4530) ROD 36-17 IS UNCOUPLED; YP_XMITB(4531) ROD 40-17 IS UNCOUPLED; YP_XMFTB(4532) ROD 44-17 IS UNCOUPLED; YP_XMFTB(4533) ROD 4817 IS UNCOUPLED;

, YP_XMFTB(4534) ^ ROD 52-17 IS UNCOUPLED; YP_XMFTB(4535) ROD 08-13 IS UNCOUPLED; YP_XMFTB(4536) ROD 12-13 IS UNCOUPLED; YP_XMFTB(4537) ROD 16-13 IS UNCOUPLED;

. YP_XMFTB(4538) ROD 20-13 IS UNCOUPLED; YP_XMFTB(4539) ROD 24-13 IS UNCOUPLED; YP_XMFTB(4540) ROD 28-13 IS UNCOUPLED; YP_XMFTB(4541) - - ROD 32-13 IS UNCOUPLED; YP_XMFTB(4542) ROD 36-13 IS UNCOUPLED; YP_XMFTB(4543) ' ROD 40-13 IS UNCOUPLED; YP_XMFTB(4544) ROD 44-13 IS UNCOUPLED; YP_XMFTB(4545) ROD 48-13 IS UNCOUPLED; '

' YP_XMFTB(4546) ROD 12-09 IS UNCOUPLED; YP_XMFTB(4547) ROD 16-09 IS UNCOUPLED;  ;

' YP_XMFTB(4548) ROD 20-09 IS UNCOUPLED; l YP_XMFTB(4549) ROD 24-09 IS UNCOUPLED; YP_XMFTB(4550) ROD 28-09 IS UNCOUPLED; YP_XMFTB(4551) ROD 32-09 IS UNCOUPLED; YP_XMFTB(4552) ROD 36-09 IS UNCOUPLED; YP_XMFTB(4553) ROD 40-09 IS UNCOUPLED; YP_XMFTB(4554) ROD 44-09 IS UNCOUPLED; YP_XMFTB(4555) ROD 16-05 IS UNCOUPLED; YP_XMFTB(4556) ROD 20-05 IS UNCOUPLED; YP_XMFTB(4557) ROD 24-05 IS UNCOUPLED; .

YP_XMFTB(4558) ROD 28-05 IS UNCOUPLED; YP_XMFTB(4559) ROD 32-05 IS UNCOUPLED; YP_XMFTB(4560) ROD 36-05 IS UNCOUPLED; YP_XMFTB(4561) ROD 40-05 IS UNCOUPLED; YP_XMFTB(4562) ROD 16-53 ACCUMULATOR TROUBLE; YP_XMFTB(4563) ROD 20-53 ACCUMULATORTROUBLE;

- YP_XMFTB(4564) ROD 24-53 ACCUMULATORTROUBLE; YP_XMFTB(4565) ROD 28-53 ACCUMULATORTROUBLE;

.YP_XMFTB(4566) ROD 32-53 ACCUMULATORTROUBLE; YP_XMFTB(4567) ROD 36-53 ACCUMULATOR TROUBLE; YP_XMFTB(4568) ROD 40-53 ACCUMULATOR TROUBLE;

' YP_XMFTB(4569) ROD 12-49 ACCUMULATOR TROUBLE; YP_XMFTB(4570) ROD 16-49 ACCUMULATOR TROUBLE; YF_XMFTB(4571) - ROD 20-49 ACCUMULATOR TROUBLE; YP_XMFTB(4572) ROD 24-49 ACCUMULATOR TROUBLE; YP_XMFTB(4573) ROD 28-49 ACCUMULATORTROUBLE; YP_XMFTB(4574) ROD _32-49 ACCUMULATORTROUBLE; YP_XMFTB(4575) . ROD 36-49 ACCUMULATOR TROUBLE; YP_XMFTB(4576) ROD 40-49 ACCUMULATOR TROUBLE; YP_XMFTB(4577) ROD 44-49 ACCUMULATOR TROUBLE; YP_XMFTB(4578) ROD 08-45 ACCUMULATORTROUBLE; l'

38

c j ATTACHMENT 2 MALFUNCTIONS YP,_XMFTB(4579) - ROD 12-45 ACCUMULATORTROUBLE; YP.,XMFFB(4580) ROD 16-45 ACCUMULATORTROUBLE; YP_XMFTB(4581) ROD 20-45 ACCUMULATOR TROUBLE; r YP_XMFTB(4582) ROD 24-45 ACCUMULATORTROUBLE; l' YP_XMFTB(4583) ROD 28 45 ACCUMULATOR TROUBLE;

' YP_XMFTB(4584)- ROD 32-45 ACCUMULATOR TROUBLE; YP_XMFTB(4585) . ROD 36-45 ACCUMULATOR TROUBLE; YP_XMFTB(4586) ROD 40-45 ACCUMULATOR TROUBLE; YP_XMFTB(4587) ROD 44-45 ACCUMULATOR TROUBLE;

!. YP_XMFTB(4588) ROD 48-45 ACCUMULATORTROUBLE; l . YP_XMFTB(4589) ROD 04-41 ACCUMULATOR TROUBLE;

! YP_XMFTB(4590) ROD 08-41 ACCUMULATOR TROUBLE; .

l .YP_XMFFB(.4591) . ' ROD 12-41 ACCUMULATOR TROUBLE; YP_XMFTB(4592) ROD 16-41 ACCUMULATOR TROUBLE;

- YP_XMFTB(4593) ROD 20-41 ACCUMULATOR TROUBLE; l YP_XMFTB(4594) ROD 24-41 ACCUMULATORTROUBLE;

( YP_XMFTB(4595) ROD 28-41 ACCUMULATOR TROUBLE; l YP_XMFTB(4596) ROD 32-41 ACCUMULATOR TROUBLE; YP_XMFTB(4597) ROD 36-41 ACCUMULATOR TROUBLE; YP,.XMFTB(4598) ROD 40-41 ACCUMULATOR TROUBLE; YP_XMFTB(4599) ROD 44-41 ACCUMULATOR TROUBLE; YP_XMFTB(4600) ROD 48-41 ACCUMULATOR TROUBLE:

YP_XMFrB(4601) ROD 52-41 ACCUMULATOR TROUBLE YP_XMFTB(4602) ROD 04-37 ACCUMULATOR TROUBLE; YP_XMFTB(4603) ROD 08-37 ACCUMULATOR TReb8LE; YP_XMFTB(4604) ROD 12-37. ACCUMULATORTROUBLE; YP_XMFTB(4605) ROD 16-37 ACCUMULATOR TROUBLE;

, YP_XMFTB(4606) ROD 20-37 ACCUMULATOR TROUBLE; l YP_XMFTB(4607) ROD 24-37 ACCUMULATCA TROUBLE; l YP_XMFTB(4608) ROD 28-37 ACCUMULAYORTROUBLE; j YP_XMFTB(4609) ROD 32-37 ACCUMULATOR TROUBLE; j YP_XMFTB(4610) ROD 36-37 ACCUMULA TOR TROUBLE; l YP_XMFTB(4611) ROD 40-31 ACCUMULATOR TROUBLE;

[ YP_XMFTB(4612) ROD 44-37 ACCUMUL ATOR TROUBLE;

YP_XMFTB(4613) ROD 48-3-i ACCUk'LLATOR TROUBLE; YP_XMFTB(4614) ROD 52-37 ACCUMULATOR TROUBLE; YP_XMFIB(4615) . ROD 04-33 ACCUMULATOP TROUBLE; YP_XMFTB(4616) ROD 08 33 ACCUMULATORTROUBLE; YP_XMFTB(4617) ROD 12-33 ACCUMULATOR TROUBLE; YP_XMFTB(4618) ROD 16 33 ACCUMULATORTROUBLE; YP_XMFTB(4619) ROD 20-33 ACCUMULATOR TROUBLE; YP_XMFTB(4620) ROD 24 33 ACCUMULATOR TROUBLE;

- YP_XMFTB(4621) ROD 28-33 ACCUMULATOR TROUBLE;

i. YP_XMFTB(4622) ROD 32-33 ACCUMULATOR TROUBLE;

. YP_XMFTB(4623) ROD 36-33 ACCUMULATOR TROUBLE; YP_XMFTB(4624) ROD 40-33 ACCUMULATOR TROUBLE; YP_XMFTB(4625) ROD 44-33 ACCUMULATOR TROUBLE; YP_XMFTB(4626) ROD 48-33 ACCUMULATOR TROUBLE; YP_XMFTB(4627) - ROD 52-33 ACCUMULATOR TROUBLE; I

, YP_XMFTB(4628) ROD 04-29 ACCUMULATOR TROUBLE; YP_XMFTB(4629) ROD 08-29 ACCUMULATOR TROUBLE; YP_XMFTB(4630) ROD 12-29 ACCUMULATORTROUBLE; YP_XMFTB(4631) : ' ROD 16-29 ACCUMULATOR TROUBLE; YP_XMFTB(4632) ROD 20-29 ACCUMULATOR TROUBLE; 39 L-

.I

t. '.

ATTACHMENT 2. MALFUNCTIONS

- YP_XMFTB(4633) ROD 24-29 ACCUMULATORTROUBLE;

YP_XMFTB(4634) ROD 28 29 ACCUMULATOR TROUBLE; YP_XMFTB(4635) ROD 32 29 ACCUMULATORTROUBLE;.

YP_XMFTB(4636) ROD 36-29 ACCUMULATOR TROUBLE;

. YP_XMFTB(4637). ROD 40-29 ACCUMULATOR TROUBLE; YP_XMFTB(4638) ROD 44-29 ACCU'MULATOR TROUBLE; YP_XMFTB(4639) ROD 48 29 ACCUMULATOR TROUBLE; YP_XMFTB(4640) ROD 52-29 ACCUMULATOR TROUBLE;

_YP_XMFTB(4641) ROD 04-25 ACCUMULATOR TROUBLE; YP_XMFTB(4642) ROD 08 25 ACCUMULATORTROUBLE; YP_XMFTB(4643) ROD 12-25 ACCUMULATOR TROUBLE; YP_XMFTB(4644) ROD 16-25 ACCUMULATORTROUBLE; YP_XMFTB(4645) ROD 20-25 ACCUMULATOR TROUBLE; YP_XMFTB(4646) : ROD 24-25 ACCUMULATOR TROUBLE; YP_XMFTB(4647) ROD 28-25 ACCUMULATORTROUBLE; YP_XMFTB(4648) ROD 32-25 ACCUMULATOR TROUBLE; YP_XMFTB(4649) ROD 36-25 ACCUMULATOR TROUBLE; YP_XMFTB(4650) ROD 40-25 ACCUMULATORTROUBLE; YP_XMFTB(4651) ROD 44 25 ACCUMULATOR TROUBLE; YP_XMFTB(4652) ROD 48-25 ACCUMULATOR TROUBLE; YP_XMFTB(4653) ROD $2 25 ACCUMULATOR TROUBLE;

YP_XMFTB(4654) ROD 04-21 ACCUMULATOR TROUBLE;

_YP_XMFTB(4655) ROD 08 21 ACCUMULATOR TROUBLE;

' YP_XMFTB(4656) ROD 12-21 ACCUMULATORTROUBLE; YP_XMFTB(4657) ROD 16-21 ACCUMULATORTROUBLE; YP_XMFTB(4658) ROD 20-21 ACCUMULATOR TROUBLE; YP_XMFTB(4659) ROD 24-21 ACCUMULATOR TROUBLE; YP_XMFTB(4660) ROD 28-21 ACCUMULATORTROUBLE; YP_XMFTB(4661) ROD 32-21 ACCUMULATORTROUBLE; YP_XMFTB(4662) ROD 36-21 ACCUMULATOR TROUBLE; YP_XMFTB(4663) ROD 40-21 ACCUMULATOR TROUBLE; YP_XMFTB(4664). ROD 44 21 ACCUMULATOR TROUBLE; YP_XMFTB(4665) ROD 48-21 ACCUMULATOR TROUBLE; YP_XMFTB(4666) ROD $2-21 ACCUMULATOR TROUBLE; YP_XMFTB(4667) ROD 04-17 ACCUMULATOR TROUBLE; YP_XMFTB(4668) ROD 08-17 ACCUMULATOR TROUBLE; YP_XMFTB(4669) ROD 1217 ACCUMUL.ATOR TROUBLE; YP_XMFTB(4670) ROD 16-17 ACCUMULATOR TROUBLE; YP_XMFTB(4671) ROD 20-17 ACCUMULATOR TROUBLE; YP_XMFTB(4672) ROD 24-17 ACCUMULATOR TROUBLE; YP_XMFTB(4673) ROD 28-17 ACCUMULATOR TROUBLE; YP_XMFTB(4674) ROD 32-17 ACCUMULATOR TROUBLE; YP_XMFTB(4675) - ROD 36-17 ACCUMULATOR TROUBLE; YP_XMFTB(4676) ROD 40-17 ACCUMULATOR TROUBLE; YP_XMFTB(4677) _ ROD 44-17 ACCUMULATOR TROUBLE; YP_XMFTB(4678) ROD 4817 ACCUMULATOR TROUBLE; YP_XMFTB(4679) ROD $2-17 ACCUMULATOR TROUBLE; YP_XMFTB(4680) ROD 0813 ACCUMULATOR TROUBLE; YP_XMFTB(4681) ROD 1213 ACCUMULATOR TROUBLE; YP_XMFTB(4682) ROD 16-13 ACCUMULATORTROUBLE; YP_XMFTB(4683) ROD 2013 ACCUMULATOR TROUBLE;

' YP_XMFTB(4684) ROD 24-13 ACCUMULATORTROUBLE; YP_XMFTB(4685) . ROD 2813 ACCUMULATOR TROUBLE; YP_XMFTB(4686) ROD 32-13 ACCUMULATORTROUBLE; 40

p i

ATTACHMENT 2 MALFUNCTIONS

, YP_XMFTB(4687) ROD 36-13 ACCUMULATORTROUBLE;

! YP,,XMFTB(4688) ROD 40-13 ACCUMULATOR TROUBLE; YP_XMFTB(4689) ROD 44-13 ACCUMULATOR TROUBLE; l

YP_XMFTB(4690) ROD 48-13 ACCUMULATORTROUBLE;

.YP_XMFTB(4691) ROD 12-09 ACCUMULATORTROUBLE;  ;

YP_XMFTB(4692) ROD 164)9 ACCUMULATOR TROUBLE;  ;

l YP_XMFTB(4693) ROD 20-09 ACCUMULATOR TROUBLE; E

YP_XMFTB(4694) ROD 24-09 ACCUMULATORTROUBLE; YP_XMFTB(4695) - ROD 28-09 ACCUMULATOR TROUBLE; j

l YP_XMFTB(4696) ROD 32-09 ACCUMULATOR TROUBLE; j l- YP_XMFTB(4697) ROD 36-09 ACCUMULATORTROUBLE; l

- YP_XMFTB(4698) ROD 404)9 ACCUMULATOR TROUBLE; I i

YP_XMFTB(4699) ROD 44-09 ACCUMULATOR TROUBLE; j YP_XMFTB(4700) ROD 16-05 ACCUMULATORTROUBLE; >

YP_XMFTB(4701) ROD 20-05 ACCUMULATOR TROUBLE; l l YP,XMFTB(4702) ROD 24-05 ACCUMULATORTROUBLE; I YP_XMFTB(4703) ROD 28-05 ACCUMULATOR TROUBLE; )

YP_XMITB(4704) ROD 32 05 ACCUMULATOR TROUBLE; I YP_XMFTB(4705) ROD 36-05 ACCUMULATOR TROUBLE; YP_XMFTB(4706)

YP_XMFTB(4707)

ROD 40-05 ACCUMULATOR TROUBLE; ROD 16-53 SCRAM DISCHARGE VOLUME IS LEAKING;

)j YP ,XMFTB(4708) ROD 20-53 SCRAM DISCHARGE VOLUME IS LEAKING; j YP_XMFTB(4709) ROD 24 53 SCRAM DISCHARGE VOLUME IS LEAKING; l YP_XMFTB(4710) - ROD 28-53 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4711) ROD 32-53 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4712) ROD 36-53 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4713) ROD 40-53 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XVFTB(4714) ROD 12-49 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4715) ROD 16-49 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFfB(4716) ROD 20-49 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4717) ROD 24-49 SCRAM DISCHARGE VOLUME IS LEAKING; ,

YP_XMFTB(4718) ROD 28-49 SCRAM DISCHARGE VOLUME IS LEAKING:

ROD 32-49 SCRAM DISCHARGE VOLUME IS LEAKING; ]

YP_XMFTB(4719) i YP_XMFFB(4720) ROD 36-49 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4721) ROD 40-49 SCRAM DISCHARGE VOLUME IS LEAKING; .

YP_XMFTB(4722) - ROD 44-49 SCRAM DISCHARGE VOLUME IS LEAKING; ROD 08-45 SCRAM DISCHARGE VOLUME IS LEAKING;

)i YP_XMFTB(4723)

YP_XMFTB(4724) ROD 12-45 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4725) ROD 16-45 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4726) ROD 20-45 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4727) ROD 24-45 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMITB(4728) ROD 28-45 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4729) ROD 32-45 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4?30) ROD 36-45 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4731) ROD 40-45 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4732) - ROD 44-45 SCRAM DISCHARGE VOLUME IS LEAKING; l YP_XMFTB(4733) ROD 48-45 SCRAM DISCHARGE VOLUME IS LEAKING; L YP_XMFTB(4734) ROD 04-41 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4735) ROD 08-41 SCRAM DISCHARGE VOLUME IS LEAKING; l

i< YP_XMFTB(4736) - ROD 12-41 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4737) ROD 16-41 SCRAM DISCHARGE VOLUME IS LEAKING; ROD 20-41 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4738)

YP_XMFTB(4739) ROD 24-41 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4740) ROD 28-41 SCRAM DISCHARGE VOLUME IS LEAKING; I

41 t

y 9, ..

' ATTACHMENT 2 MALFUNCTIONS ii YP_XMFTB(4741) ROD 32-41 SCRAM DISCHARGE VOLUME IS LEAKING;

YP_XMFTB(4742) ROD 36 41 SCRAM DISCHARGE VOLUME IS LEAKING; YP_WFTB(4743) ROD 40 41 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4744) ROD 44-41 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4745) ROD 48-41 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMITB(4746) ROD 52-41 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4747) ROD 04-37 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMITB(4748) ROD 08-37 SCRAM DISCHARGE VOLUME IS LEAKING;-

l  : YP_XMPTB(4749) ROD 12 37 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4750) . ROD 16-37. SCRAM DISCHARGE VOLUME IS LEAKING;

-YP_XMFTB(4751) ROD 20-37 SCRAM DISCHARGE VOLUME IS LEAKING; l YP_XMFTB(4752) ROD 24-37 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4753) ROD 28-37 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4754) . ROD 32-37 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4755) ROD 36-37 SCRAM DISCHARGE VOLUME IS LEAKING;

. YP_XMFTB(4756) ROD 40-37 SCRAM DISCH.ARGE VOLUME IS LEAKING; YP_XMFTB(4757) ROD 44-37 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4758) ROD 48-37 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4759) ROD 52-37 SCRAM DISCHARGE VOLUME IS LEAKING;  ;

YP_XMFTB(4760) ROD 04 33 SCRAM DISCHARGE VOLUME IS LEAKING; I YP_XMFTB(4761) ROD 08 33 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4762) ROD 12-33 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4763) ROD 16-33 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4764) ROD 20-33 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4765) ROD 24 33 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4766) ROD 28-33 SCRAM DISCHARGE VOLUME IS LEAKING;

YP_XMFTB(4767) ROD 32-33 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4768) ROD 36 33 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4769) ROD 40-33 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4770) ROD 44-33 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4771) ROD 48-33 SCRAM DISCHARGE VOLUME IS LEAKING; ,

-YP_XMFTB(4772) - ROD $2-33 SCRAM DISCHARGE VOLUV ;IS LEAKING; YP_XMFTB(4773) ROD 04 29 SCRAM DISCHARGE VOLLud IS LEAKING; YP_XMFTB(4774) ROD 08 29 SCRAM DISCHARGE VOLUME IS LEAKING; -

YP_XMFTB(4775) ROD 12-29 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4776) ROD 16-~29 SCRAM DISCHARGE VOLUME IS LEAKING; i YP_XMFTB(4777) ROD 20-29 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4778) ROD 24-29 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4779) ROD 28-29 SCRAM DISCHARGE VOLUME IS LEAKING;

'YP_XMFTB(4780) ROD 32 29 SCRAM DISCHARGE VOLUME IS LEAKING; YPJMFTB(4781) ROD 36-29 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4782) ROD 40 29 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4783) ROD 44-29 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4784) ROD 4049 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4785) ROD 52-29 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4786) ROD 04-25 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4787) ROD 08-25 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4788) ROD 12-25 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4789) ROD 16 25 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4790) ROD 20-25 SCRAM DISCHARGE VOLUME IS LEAKING;

~YP_XMFTB(4791) ROD 24-25 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4792) ROD 28-25 SCRAM DISCHARGE VOLUME IS LEAKING;

' YP_XMFTB(4793) ROD 32 25 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMITB4794)- ROD 36-25 SCRAM DISCHARGE VOLUME IS LEAKING; 42

=

I ATTACHMENT 2 MALFUNCTIONS

'YP_XMFTB(4795) ROD 40-25 SCRAM DISCHARG'd VOLUME IS LEAKING; YP_XMFTB(4796) ROD 44 25 SCRAM DISCHARGE VOLUME IS LEAKING;

.YP_XMETB(4797) . ROD 48-25 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4798) ROD $2-25 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4799) ROD 04-21 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4800) ROD 08-21 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4801) ROD 12 21 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4802) ROD 16-21 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMITB(4803) ROD 20 21 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4804) ROD 24 21 SCRAM DISCHARGE VOLUME IS LEAKING;

YP_XMFTB(4805) ROD 28-21 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4806) _ ROD 32-21 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4807) ROD 36-21 SCRAM DISCHARGE VOLUME IS LEAKING; YP, XMFTB(4808) ROD 40-21 SCRAM DISCHARGE VOLUME IS LEAKING; l YP_XMFTB(4809) ROD 44 21 SCRAM DISCilARGE VOLUME IS LEAKING; j YP_XMFTB(4810) ROD 48-21 SCRAM DISCHARGE VOLUME IS LEAKING; ROD 52-21 SCRAM DISCHARGE VOLUME IS LEAKING; J YP_XMFTB(4811) j YP_XMFTB(4812) ROD 04-17 SCRAM DISCHARGE VOLUME IS LEAKING; j YP_XMFTB(4813) ROD 08-17 SCRAM DISCHARGE VOI,UME IS LEAKING; j

- YP_XMFTB(4814) ROD 12-17 SCRAM DISCHARGE VOLUME IS LEAKING;' l YP_XMFTD(4815) ROD 16-17 SCRAM DISCHARGE VOLUME IS LEAKING; ROD 20-17 SCRAM DISCHARGE VOLUME IS LEAKING;

)

YP_XMFTB(4816)

YP_XMFTB(4817) ROD 24 17 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4818) ROD 28 17 SCRAM DISCHARGE VOLUME IS LEAKING;  !

YP_XMFTB(4819) ROD 32-17 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4820) ROD 36-17 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4821) ROD 40-17 SCRAM DISCHARGE VOLUME IS LEAKING; YP,XMFTB(4822) ROD 44-17 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4823) ROD 48-17 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4824) ROD 52-17 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4825) ROD 08-13 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4826) ROD 12-13 SCRAM DISCHARGE VOLUME IS LEAKING;  ;

YP ,XMETB(4827) ROD 16-13 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4828) ROD 2013 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4829) - ROD 24-13 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4830) ROD 28-13 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4831) ROD 32-13 SCRAM DISCHARGE VOLUME IS LEAKING; L YP_XMFTB(4832) ROD 36-13 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4833) ROD 4013 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4834) ROD 44-13 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4835) ROD 4813 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4836) ROD 12-09 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4837) ROD 16-09 SCRAM DISCHARGE VOLUME IS LEAKING; j YP_XMFTB(4838) . ROD 20-09 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4839) ROD 24-09 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4840) ROD 28-09 SCRAM DISCHARGE VOLUME IS LEAKING;  ;

YP_XMFTB(4841) ROD 32-09 SCRAM DISCH ARGE VOLUME IS LEAKING; I YP_XMFTB(4842) ROD 36-09 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4843) - ROD 40-09 SCRAM DISCHARGE VOLUME IS LEAKING; j YP_XMFTB(4844) ROD 44-09 SCRAM DISCHARGE VOLUME IS LEAKING; '

YP_XMFTB(4845) ROD 16-05 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4846): ROD 20-05 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4847) ROD 24-05 SCRAM DISCHARGE VOLUME IS LEAKING; YP_XMFTB(4848), ' ROD 28-05 SCRAM DISCHARGE VOLUME IS LEAKING; 43

f i'

l..

• L ATTACHMENT 2 ' MALFUNCTIONS l

YP_XMFTB(4849) ROD 32-05 SCRAM DISCHARGE VOLUME IS LEAKING; o YP_XMFTB(4850) ROD 36-05 SCRAM DISCHARGE VOLUME IS LEAKING;

, YP_XMFTB(4851) ROD 40-05 SCRAM DISCHA.RGE VOLUME IS LEAKING; l- YP_XMFTB(4852) CRD PUMP 'A' TRIP l YP_XMFTB(4853) CRD PUMP 'B' TRIP -

l YP_XMFTB(4855) RACS POWER SUPPLY FAILURE; YP_XMFTB(4856) RPIS FAILURE OF OPEN REED SWITCH; YP_XMFTB(4857) RPIS FAILURE OF CLOSED REED SWITCH; YP_XMFTB(485h) RCIS TIMER MALFUNCTION; l YP_XMFTB(4359) RCIS SELF TEST FAILURE; j .YP_XMFTB(4931) - CHILLER WOO 2CA TRIP ;

i. YP_XMFTB(4932) CHILLER WOO 2CB TRIP ;

[ YP_XMFTB(4933) CHILLER WOO 2CC TRIP ;

YP_XMFTB(4934) CHILLER WOO 2CD TRIP ;

L YP_,XMITB(4935) - CHILLER WOO 2CE TRIP ;

YP_XMFTB(5010) - HVAC FAN VC03CA TRIP;  ;

YP_XMFTB(5047) DRYWELL CHILLER VPO4CA TRIP;; )

YP_XMFTB(5048) DRYWELL CHILLER VPO4CB TRIP; YP_XMFTB(5056) VALVE HG004 BINDING AT 50%;-

YP_XMFTB(5116) B21F016 DIVISIONAL TRIP OVERRIDE; YPXMALSE(100) ROD 16-49 SEALS ARE WORN; O - 100%

YPXMALSE(101) ROD 20-49 SEALS ARE WORN; O - 100%

YPXMALSE(102) ROD 24-49 SEALS ARE WORN; O - 100%

YPXMALSE(103) ROD 28-49 SEALS ARE WORN; O - 100% 1 YPXMALSE(104) ROD 32-49 SEALS ARE WORN; O - 100%

YPXMALSE(105) ROD 36-49 SEALS ARE WORN; O - 100% {

j YPXMALSE(106) ROD 40-49 SEALS ARE WORN; O - 100%

YPXMALSE(107) ROD 44-49 SEALS ARE WORN; O - 100% l YPXMALSE(108) ROD 08-45 SEALS ARE WORN; O - 100%

l YPXMALSE(109) ROD 12-45 SEALS ARE WORN; O - 100%

l YPXMALSE(110) ROD 16-45 SEALS ARE WORN; O - 100%

YPXMALSE(111) ROD 20-45 SEALS ARE WORN; O - 100% I I YPXMALSE(112) - ROD 24-45 SEALS ARE WORN; O - 100%

YPXMALSE(113) ROD 28-45 SEALS ARE WORN; O - 100%

YPXMALSE(ll4) ROD 32-45 SEALS ARE WORN; O - 100%

l YPXMALSE(115) ROD 36-45 SEALS ARE WORN; O - 100%

j YPXMALSE(ll6) ROD 40-45 SEALS ARE WORN; O - 100%

YPXMALSE(117) ROD 44-45 SEALS ARE WORN; O - 100%

YPXMALSE(118) ROD 48-45 SEALS ARE WORN; O - 100%

L YPXMALSE(119) ROD 04-41 SEALS ARE WORN; O - 100%

i YPXMALSE(120) ROD 08-41 SEALS ARE WORN; o - 100%

i YPXMALSE(121) ROD 12-41 SEALS ARE WORN; O - 100%

YPXMALSE(122) ROD 16-41 SEALS ARE WORN; O - 100%

YPXMALSE(123) ROD 20-41 SEALS ARE WORN; O - 100%

l- YPXMALSE(124) ROD 24-41 SEALS ARE WORN; O - 100%

!- YPXMALSE(125) ROD 28-41 SEALS ARE WORN; o - 100%

-YPXMALSE(126) ROD 32-41 SEALS ARE WORN; O - 100%

YPXMALSE(127) ROD 36-41 SEALS ARE WORN; O- 100%

YPXMALSE(128) ROD 40-41 SEALS ARE WORN; O - 100%

YPXMALSE(129) ROD 44-41 SEALS ARE WORN; O - 100%

YPXMALSE(130) ROD 48-41 SEALS ARE WORN; o - 100%

YPXMALSE(131)- ROD 52-41 SEALS ARE WORN; O - 100%

YPXMALSE(132) ROD 04-37 SEALS ARE WORN; O - 100% I YPXMALSE(133) ROD 08 37 SEALS ARE WORN; O - 100%

L 44 i

c-ATTACHMENT 2 MALFUNCTIONS YPXMALSE(134) ROD 12-37 SEALS ARE WORN; O - 100%

YPXMALSE(135) . ROD 16-37 SEALS ARE WORN; O - l(X)%

YPXMALSE(136) - ROD 20-37 SEALS ARE WORN; O - 100%

YPXMALSE(137) ROD 24-37 SEALS .ARE WORN; O - 100%

YPXMALSE(138) ROD 28-37 SEALS ARE WORN; O - 100%

YPXMALSE(139) ROD 32-37 SEALS ARE WORN; O - 100%

YPXMALSE(140) ROD 36-37 SEALS ARE WORN; O - 1(X)%

YPXMALSE(141) ROD 40-37 SEALS ARE WORN; O - 100%

YPXMALSE(142) ROD 44 37 SEALS ARE WORN; O - 1(X)%

.YPXMALSE(143) ROD 48-37 SEALS ARE WORN; O - 100%

YPXMALSE(144) _ ROD 52-37 SEALS ARE WORN; O - 1(X)%

' YPXMALSE(145) ROD 04 33 SEALS ARE WORN; O - 100%

YPXMALSE(146) ROD 08-33 SEALS ARE WORN; O - 1(X)%

YPXMALSE(147) ROD 12-33 SEALS ARE WORN; O - 100%

YPXMALSE(148) ROD 16-33 SEALS ARE WORN; O - 100%

YPXMALSE(149) ROD 20-33 SEALS ARE WORN; O - 100%

YPXMALSE(150) ROD 24-33 SEALS ARE WORN; O - 100%

- YPXMALSE(151) ROD 28-33 SEALS ARE WORN; O - 100*A YPXMALSE(152) ROD 32-33 SEALS ARE WORN; o - 100%

. YPXMALSE(153) ROD 36-33 SEALS ARE WORN; O - 100%

YPXMALSE(154) ROD 40-33 SEALS ARE WORN; O - 100% l YPXMALSE(155) ROD 44-33 SEALS ARE WORN; O - 100%

YPXMALEE(156) ROD 48-33 SEALS ARE WORN; O - 100%

YPXMALSE(157) ROD 52-33 SEALS ARE WORN; O - 100%

YPXMALSE(158) ROD 04-29 SEALS ARE WORN; O - 100%

YPXMALSE(159) ROD 08-29 SEALS ARE WORN; O - 100%

YPXMALSE(160) ROD 12 29 SEALS ARE WORN; O 100%

YPXMALSE(161) ROD 16-29 SEALS ARE WORN; O - 100%

YPXMALSE(162) ROD 20-29 SEALS ARE WORN; O - 100%

YPXMALSE(163) ROD 24-29 SEALS ARE WORN; O - 100%

YPXMALSE(164) ROD 28-29 SEALS ARE WORN; O - 100%

YPXMALSE(165) ROD 32-29 SEALS ARE WORN; O - 100%

YPXMALSE(166) ROD 36-29 SEALS ARE WORN; O - 100%

YPXMALSE(167) ROD 40-29 SEALS ARE WORN; O - 100%

- YPXMALSE(168) ROD 44 29 SEALS ARE WORN; O - 100%

. YPXMALSE(169) ROD 48-29 SEALS ARE WORN; O - 1(X)%

YPXMALSE(170) ROD 52-29 SEALS ARE WORN; O 100%

- YPXMALSE(171) ROD 04-25 SEALS ARE WORN; O - 100%

- YPXMALSE(172) ROD 08-25 SEALS ARE WORN; O - 100%

YPXMALSE(173) ROD 12-25 SEALS ARE WORN; o - 100%

YPXMALSE(174) ROD 16-25 SEALS ARE WORN; 0 - 100%

YPXMALSE(175) ROD 20-25 SEALS ARE WORN; O - 100%

. YPXMALSE(176) ROD 24 25 SEALS ARE WORN; O 100% -

YPXMALSE(177)' ROD 28-25 SEALS ARE WORN; O 100%

YPXMALSE(178) _ ROD 32 25 SEALS ARE WORN; O - 100%

YPXMALSE(179)' ROD 36-25 SEALS ARE WORN; O - 100%

YPXMALSE(180) ROD 40-25 SEALS ARE WORN; O - 100%

YPXMALSE(181) ROD 44 25 SEALS ARE WORN; O- 100%

YPXMALSE(182) -ROD 48-25 SEALS ARE WORN; O - 100%

- YPXMALSE(183) ROD 52 25 SEALS ARE WORN; O - 100%

_YPXMALSE(184)

ROD 04-21 SEALS ARE WORN; O - 100%

YPXMALSE(185) ROD 08 21 SEALS ARE WORN; O - 100%

- YPXMALSE(186) - ROD 12-21 SEALS ARE WORN; o - 100%

YPXMALSE(187) ROD 16-21 SEALS ARE WORN; O - 100%

]

1 45 L

ATTACHMENT 2 MALFUNCTIONS YPXMALSE(188) ROD 20-21 SEALS ARE WORN; o - 100%

YPXMALSE(189) ROD 24-21 SEALS ARE WORN; O - 100%

YPXMALSE(190) . ROD 28-21 SEALS ARE WORN; O - 100%

~ YPXMALSE(191) ROD 32-21 SEALS ARE WORN; O - 100%

YPXMALSE(192) ROD 36 21 SEALS ARE WORN; O - 100%

YPXMALSE(193) ROD 40-21 SEALS ARE WORN; O - 100%

- YPXMALSE(194) ROD 44-21 SEALS ARE WORN; O - 100%

YPXMALSE(195) ROD 48-21 SEALS ARE WORN; O - 100%

YPXMALSE(196) ROD 52-21 SEALS ARE WORN; O - 100%

YPXMALSE(197) ROD 04-17 SEALS ARE WORN; O - 100%

YPXMALSE(198) ROD 08-17 SEALS ARE WORN; O 100%

- YPXMALSE(199) ROD 12-17 SEALS ARE WORN; O - 100%

YPXMALSE(200) ROD 16-17 SEALS ARE WORN; O - 100% .

YPXMALSE(201) ROD 20-17 SEALS ARE WORN; O - 100%

YPXMALSE(202) ROD 24-17 SEALS ARE WORN; O - 100%

YPXMALSE(203) ROD 28-17 SEALS ARE WORN; 0 - 100%

YPXMALSE(204) ROD 3217 SEALS ARE WORN; O - 100%

YPXMALSE(205) ROD 36-17 SEALS ARE WORN; o - 100%

YPXMALSE(206) ROD 40-17 SEALS ARE WORN; O - 100%

YPXMALSE(207) ROD 44-17 SEALS ARE WORN; O - 100%

YPXMALSE(208) - ROD 48-17 SEALS ARE WORN; O - 100%

YPXMALSE(209) ROD 52-17 SEALS ARE WORN; O - 100%

YPXMALSE(210) ROD 08-13 SEALS ARE WORN; O - 100%

YPXMALSE(211) ROD 12-13 SEALS ARE WORN; O - 100%

YPXMALSE(212) ROD 16-13 SEALS ARE WORN; O - 100%

l YPXMALSE(213) ROD 20-13 SEALS ARE WORN; O - 100%

YPXMALSE(214) ROD 24-13 SEALS ARE WORN; O - 100%

YPXMALSE(215) ROD 28-13 SEALS ARE WORN; O - 100%

YPXMALSE(216) ROD 32-13 SEALS ARE WORN; O - 100% '

YPXMALSE(217) ROD 36-13 SEALS ARE WORN; O - 100%

YPXMALSE(218)' ROD 40-13 SEALS ARE WORN; O - 100%

YPXMALSE(219) ROD 44-13 SEALS ARE WORN; 0 - 100%

YPXMALSE(220) ROD 48-13 SEALS ARE WORN; O - 100%

YPXMALSE(221) ROD 12-09 SEALS ARE WORN; O - 100%

YPXMALSE(222): ROD 16-09 SEALS ARE WORN; O - 100%

YPXMALSE(223) ROD 20-09 SEALS ARE WORN; O - 100%

YPXMALSE(224) ~ ROD 24-09 SEALS ARE WORN; O - 100%

YPXMALSE(225) ROD 28-09 SEALS ARE WORN; O - 100%

YPXMALSE(226) ROD 32-09 SEALS ARE WORN; o - 100% i YPXMALSE(227) ROD 36-09 SEALS ARE WORN; O - 100% )

YPXMALSE(228) ROD 40-09 SEALS ARE WORN; O - 100%

YPXMALSE(229) ROD 44-09 SEALS ARE WORN; O - 100%

YPXMALSE(230) ROD 16-05 SEALS ARE WORN; O - 100% .

YPXMALSE(231) . ROD 20-05 SEALS ARE WORN; o - 100%  !

YPXMALSE(232) - , ROD 24-05 SEALS ARE WORN; O - 100%

. YPXMALSE(233) ROD 28-05 SEALS ARE WORN; O - 100%'

YPXMALSE(234) ROD 32-05 SEALS ARE WORN; O - 100%

YPXMALSE(235) ' ROD 36-05 SEALS ARE WORN; O - 100%

YPXMALSE(236) - ROD 40-05 SEALS ARE WORN; O - 100%

YPXMALSE(237) ' A' CRD FLOW CONTROL VALVE FAIL YPXMALSE(238) B' CRD FLOW CONTROL VALVE FAIL YPXMALSE(244) ' 4 MS LINES RUPTURE IN TUNNEL; O - 100%

YPXMALSE(249) MS LINE A RUPTURE IN DRYWELL; O - 100%

YPXMALSE(250) ' MS LINE B RUPTURE IN DRYWELL; O - 100% - 1 46

E ATTACHMENT 2 MALFUNCTIONS YPXMALSE(251) MS LINE C RUPTURE IN DRYWELL; O - 100%

YPXMALSE(252) MS LINE D RUPTURE IN DRYWELL; O - 100%

YPXMALSE(253) MS LINE A RUITURE IN TUNNEL; O - 100%

YPXMALSE(254) MS LINE B RUI'TURE IN TUNNEL; o - 100%

YPXMALSE(255) MS LINE C RUPTURE IN TUNNEL; O - 100%

YPXMALSE(256) MS LINE D RUPTURE JN TUNNEL; O - 100%

YPXMALSE(257) MS LINE A RUPTURE IN TURBINE BUILDING; O 100%

YPXMALSE(258) AS LINE B RUPTURE IN TURBINE BUILDING; O - 100% '

- YPXMALSE(259) MS LINE C RUPTURE IN TURBINE BUILDING; O - 100%

YPXMALSE(260) MS LINE D RUPTURE IN TURBINE BUILDING; O - 100%

YPXMALSE(92) ROD 16-53 SEALS ARE WORN; O - 100%

YPXMALSE(93) ' ROD 20-53 SEALS ARE WORN; O - 100%

> YPXMALSE(94) ROD 24-53 SEALS ARE WORN; O - 100%

YPXMALSE(95) ROD 28-53 SEALS ARE WORN; O - 100%

YPXMALSE(96) ROD 32-53 SEALS ARE WORN; O - 100%

YPXMALSE(97) ROD 36-53 SEALS ARE WORN; O - 100% .,

YPXMALSE(98) ROD 40-53 SEALS ARE WORN; O - 100%

YPXMALSE(99) ROD 12-49 SEALS ARE WORN; O - 100% j YCFWC2AU(1) CONDENSATE FILTER A PLC STATUS; YCFWC2AU(2) CONDENSATE FILTER B PLC STATUS; YCFWC2AU(3) CONDENSATE FILTER C PLC STATUS;

)

YCFWC2AU(4) CONDENSATE FILTER D PLC STATUS; YCFWC2AU(5) CONDENSATE FILTER E PLC STATUS; YCFWC2AU(6) CONDENSATE FILTER F PLC STATUS; YCFWC2AU(7) CONDENSATE FILTER G PLC STATUS; YCFWC2AU(8) CONDENSATE FILTER H PLC STATUS; YCFWC2AU(9)- CONDENSATE FILTER J PLC STATUS; YFFWC2FA(1) CONDENSATE FILTER A PLC SIGNAL FAIL AS IS; YFFWC2FA(2) CONDENSATE FILTER B PLC SIGNAL FAIL AS IS; YFFWC2FA(3) . CONDENSATE FILTER C PLC SIGNAL FAIL AS IS; YFFWC2FA(4) CONDENSATE FILTER D PLC SIGNAL FAIL AS IS; YFFWC2FA(5) CONDENSATE FILTER E PLC SIGNAL FAIL AS IS; YFFWC2FA(6) CONDENSATE FILTER F PLC SIGNAL FAIL AS IS;

'YFFWC2FA(7) CONDENSATE FILTER G PLC SIGNAL FAIL AS IS; YFFWC2FA(8) CONDENSATE FILTER H PLC SIGNAL FAIL AS IS; YFFWC2FA(9) CONDENSATE FILTER J PLC SIG NALFAIL AS IS; YFFWC2PW(1) CONDENSATE FILTER A PLC POWER FAIL; YFFWC2PW(2) CONDENSATE FILTER B PLC POWER FAIL;

' YFFWC2PW(3) CONDENSATE FILTER C PLC POWER FAIL; YFFWC2P.W(4) CONDENSATE FILTER D PLC POWER FAIL; I YFFWC2PW(5) CONDENSATE FILTER E PLC POWER FAIL; <

YFFWC2PW(6) CONDENSATE FILTER F PLC POWER FAIL; YFFWC2PW(7) CONDENSATE FILTER G PLC POWER FAIL; l YFFWC2PW(8) - CONDENSATE FILTER H PLC POWER FAIL; YFFWC2PW(9) CONDENSATE FILTER J PLC POWER FAIL; l YFFWCBFA(1) C34-R601 A NVA CONTROLLER SIGNAL FAIL AS IS;

l. ' YFFWCBFA(2)- C34-R601B hVA CONTROLLER SIGNAL FAIL AS IS; YFFWCBFA(3) C34-R601C hUA CONTROLLER SIGNAL FAIL AS IS; YFFWCBFA(4) C34-R602 M/A CONTROLLER SIGNAL FAIL AS IS;

..YFFWCBFA(5) 1LC-CD057A CONTROLLER OUTPUT FAIL AS IS; YFFWCBFA(6) ' ILC-CD057B CONTROLLER OUTPUT FAIL AS IS; YFFWCBPW(1) C34-R601 A hVA CONTROLLER POWER AVAILABLE YFFWCBPW(2) C34 R601B hVA CONTROLLER POWER AVAILABLE YFFWCBPW(3) - C34-R601C hVA CONTROLLER POWER AVAILABLE 47 u

( .

ATTACHMENT 2 MALFUNCTIONS l

L YFFWCBPW(4) C34 R602 M/A CONTROLLER POWER AVAILABLE YFFWCBPW(5) ILC-CD057A POWER AVAILABLE

( YFFWCBPW(6) ILC-CD057B POWER AVAILABLE YFFWCTFA(1) ' FIC-CD029 CD PUMP A MINIMUM FLOW CONTROLLER Fall AS IS; l ' YFFWCTFA(10)

FIC-CD058 CB PUMP C MINIMUM FLOW CONTROLLER Fall AS IS; ,

! . YFFWCTFA(ll) FIC-CD060 CB PUMP D MINIMUM FLOW CONTROLLER Fall AS IS; '

YFFWCTFA(12) - FIC-FWOO2 FW PUMP A MINIMUM FLOW CONTROLLER FAIL AS IS; l

YFFWCTFA(13)- FIC-FWOO4 FW PUMP B MINIMUM FLOW CONTROLLER FAIL AS IS; I

YFFWCTFA(14) FIC-FWOO6 FW PUMP C MINIMUM FLOW CONTROLLER FAIL AS IS; YFFWCTFA(17) I.lC-HD017 5A HEATER NORMAL LEVEL CONTROLLER Fall AS IS; YFFWCTFA(18) .lC-HD018 5B HEATER NORMAL LEVEL CONTROLLER FAIL AS IS;

LIC-HD019 4A HEATER NORMAL LEVEL CONTROLLER FAIL AS IS;

' YFFWCTFA(19)

YFFWCTFA(2) . FIC-CD031 CD PUMP B MINIMUM FLOW CONTROLLER FAIL AS IS;

. YFFWCTFA(20) ' LIC-HD020 4B HEATER NORMAL LEVEL CONTROLLER Fall AS IS; YFFWCTFA(21) LIC-HD0213 A HEATER NORMAL LEVEL CONTROLLER FAIL AS IS; YFFWCTFA(22) LIC-HD022 3B HEATER NORMAL LEVEL CONTROLLER FAIL AS IS; YFFWCTFA(23) LIC-HD023 2A HEATER NORMAL LEVEL CONTROLLER Fall AS IS; YFFWCTFA(24) ' LIC-H0024 2B HEATER NORMAL LEVEL CONTROLLER FAIL AS IS; YFFWCTFA(25) LIC-HD025 6A HEATER NORMAL LEVEL CONTROLLER FAIL AS IS; YFFWCFFA(26) LIC-HD026 68 HEATER NORMAL LEVEL CONTROLLER Fall AS IS; YFFWCTFA(3) FIC-CD033 CD PUMP C MINIMUM FLOW CONTROLLER Fall AS IS; YFFWCTFA(33) LIC-HD099 6A HEATER EMERGENCY LEVEL CONTROLLER FAIL AS IS; l

YFFWCTFA(34) LIC-HD100 6B HEATER EMERGENCY LEVEL CONTROLLER FAIL AS IS; YFFWCTFA(35) LIC HD1015A HEATER EMERGENCY LEVEL CONTROLLER FAIL AS IS; YFFWCTFA(36) LIC-HD102 5B HEATER EMERGENCY LEVEL CONTROLLER FAIL AS IS; YFFWCTFA(37) LIC-HD103 4A HEATER EMERGENCY LEVEL CONTROLLER FAIL AS IS; YFFWCTFA(38) LIC-HD104 4B HEATER EMERGENCY LEVEL CONTROLLER Fall AS IS; YFFWCTFA(39) LIC-HD105 3A HEATER EMERGENCY LEVEL CONTROLLER Fall AS IS; YFFWCTFA(4) FIC-CD035 CD PUMP D MINIMUM FLOW CONTROLLER FAIL AS IS; YFFWCTFA(40) LIC-HD106 3B HEATER EMERGENCY LEVEL CONTROLLER FAIL AS IS; YFFWCTFA(41) LIC-HD107 2A HEATER EMERGENCY LEVEL CONTROLLER Fall AS IS; YFFWCTFA(42) LIC-HD108 2B HEATER EMERGENCY LEVEL CONTROLLER FAIL AS IS; YFFWCTFA(43) LIC-HD109 FLASH TANK A NORMAL LEVEL CONTROLLER FAIL AS IS; YFFWCTFA(44) LIC-HD110 FLASH TANK A EMERGENCY LEVEL CONTROLLER FAlLAS IS; YFFWCTFA(45) LIC-HDill FLASH TANK B EMERGENCY LEVEL CONTROLLER Fall AS IS; YFFWCFFA(46) LIC HDil2 FLASH TANK B NORMAL LEVEL CONTROLLER FAIL AS IS; YFFWCTFA(5) FIC-CD079 SJAE MINIMUM FLOW CONTROLLER FAIL AS IS; YFFWCTFA(6) FIC-CD093 OFFGAS A MINIMUM FLOW CONTROLLER FAIL AS IS; YFFWCTFA(7) FIC-CD094 OFFGAS B MINIMUM FLOW CONTROLLER Fall AS IS; YFFWCTFA(8) FIC-CD054 CB PUMP A MINIMUM FLOW CONTROLLER Fall AS IS; YFFWCTFA(9) FIC-CD056 CB PUMP B MINIMUM FLOW CONTROLLER FAIL- AS IS; YFFWCTPW(1) FIC-CD029 CD PUMP A MINIMUM FLOW CONTROLLER POWER; YFFWCTPW(10) - FIC-CD058 CB PUMP C MINIMUM FLOW CONTROLLER POWER; YFFWCTPW(11) FIC-CD060 CB PUMP D MINIMUM FLOW CONTROLLER POWER; YFFWCTPW(12) FIC-FWOO2 FW PUMP A MINIMUM FLOW CONTROLLER POWER; YFFWCTPW(13) FIC-FWOO4 FW PUMP B MINIMUM FLOW CONTROLLER POWER; YFFWCTPW(14) FIC FWOO6 FW PUMP C MINIMUM FLOW CONTROLLER POWER; YFFWCTPW(17) LIC-HD017 SA HEATER NORML LEVEL CONTROLLER POWER; l YFFWCTPW(18) LIC-HD018 SB HEATER NORMAL LEVEL CONTROLLER POWER; YFFWCFPW(19) LIC-HD019 4A HEATER NORMAL LEVEL CONTROLLER POWER; I YFFWCTPW(2) FIC-CD031 CD PUMP B MINIMUM FLOW CONTROLLER POWER; i YFFWCTPW(20) LIC-HD020 4B HEATER NORMAL LEVEL CONTROLLER POWER; YFFWCTPW(21) LIC-HD0213A HEATER NORMAL LEVEL CONTRGLLER POWER; YFFWCTPW(22) LIC-HD022 3B HEATER NORMAL LEVEL CONTROLLER POWER; 48

ATTACHMENT 2 MALFUNCTIONS YFFWCTPW(23) LIC HD023 2A HEATER NORMAL LEVEL CONTROLLER POWER; YFFWCTPW(24) LIC-HD024 2B HEATER NORMAL LEVEL CONTROLLER POWER; YFFWCTPW(25) LIC-HD025 6A HEATER NORMAL LEVEL CONTROLLER POWER; YFFWCTPW(26) . LIC HD026 6B llEATER NORMAL LEVEL CONTROLLER POWER; YFFWCTPW(3) FIC CD033 CD PUMP C MINIMUM FLOW CONTROLLER POWER; YFFWCTPW(33) LIC-HD099 6A HEATER EMERGENCY LEVEL CONTROLLER POWER;

' YFFWCTPW(34) LIC-HD100 6B HEATER EMERGENCY LEVEL CONTROLLER POWER; YFFWCTPW(35) LIC HD101 SA HEATER EMERGENCY LEVEL CONTROLLER POWER; I

YFFWCTPW(36) LIC-HD102 $B HEATER EMERGENCY LEVEL CONTROLLER POWER; YFFWCTPW(37) LIC-HD103 4A HEATER EMERGENCY LEVEL CONTROLLER POWER; L YFFWCTPW(38) LIC-HD104 4B HEATER EMERGENCY LEVEL CONTROLLER POWER; YFFWCTPW(39) LIC-HD105 3A HEATER EMERGENCY LEVEL CONTROLLER POWER;

.YFFWCTPW(4) FIC-CD035 CD PUMP D MINIMUM FLOW CONTROLLER POWER;

- YFFWCTPW(40) LIC-HD106 3B HEATER EMERGENCY LEVEL CONTROLLER POWER; YFFWCTPW(41) LIC HD107 2A HEATER EMERGENCY LEVEL CONTROLLER POWER; YFFWCTPW(42) LIC-HD108 2B HEATER EMERGENCY LEVEL CONTROLLER POWER;

' YFFWCTPW(43) LIC-HD109 FLASH TANK A NORMAL LEVEL CONTROLLER POWER; YFFWCTPW(44) LIC-HDI10 FLASH TANK A EMERGENCY LEVEL CONTROLLER POWER; YFFWCTPW(45) LIC-HDI11 FLASH TANK B EMERGENCY LEVEL CONTROLLER POWER; YFFWCTPW(46) LIC-HD112 FLASH TANK B NORMAL LEVEL CONTROLLER POWER; YFFWCTPW(5) FIC-CD079 SJAE MINIMUM FLOW CONTROLLER POWER; YFFWCTPW(6) FIC-CD093 OFFGAS A MINIMUM FLOW CONTROLLER POWER;

- YFFWCTPW(7) FIC-CD094 OFFGAS B MINIMUM FLOW CONTROLLER POWER; YFFWCTPW(8) ' FIC-CD054 CB PUMP A MINIMUM FLOW CONTROLLER POWER; YFFWCTPW(9) FIC-CD056 CB PUMP B MINIMUM FLOW CONTROLLER POWER; YFFWHVLH LOSS OF HYDRAULIC PRESSURE TO FWOO4; YFFWPPSS(l) CD PUMP A SHEARED SHAFT; YFFWPPSS(10) CY PUMP B SHEARED SHAFT;

^ YFFWPPSS(ll) CY PUMP C SHEARED SHAFT; YFFWPPSS(12) MC PUMP A SHEARED SRAFT; YFFWPPSS(13) MC PUMP B SHEARED SHAFT;

. YFFWPPSS(14) FW PUMP C SHEARED SHAFT; YFFWPPSS(15) FW PUMP A SHEARED SHAFT; YFFWPPSS(16) FW PUMP B SHEARED SHAFT;

' YFFWPPSS(2) CD PUMP B SHEARED SHAFT; YFFWPPSS(3) CD PUMP C SHEARED SHAFT; YFFWPPSS(4) CD PUMP D SHEARED SHAFT; YFFWPPSS(5) CB PUMP A SHEARED SHAFT; YFFWPPSS(6) CB PUMP B SHEARED SHAFT; YFFWPPSS(7) CB PUMP C SHEARED SHAFT; YFFWPPSS(8) CB PUMP D SHEARED SHAFT; YFFWPPSS(9) CY PUMP A SHEARED SHAFT; YFRICBFA(1) MAIN CONTROL ROOM CONTROLLER E51R600 OUTPUT FAIL AS IS;

~ YFRICBFA(2) MAIN CONTROL ROOM CONTROLLER C61R601 OUTPUT FAIL AS IS; YFRICBPW(1) MAIN CONTROL ROOM CONTROLLER E51R600 POWER FAILURE; YFRICBPW(2) MAIN CONTROL ROOM CONTROLLER C61R601 POWER FAILURE; l YFRIPPSS RCIC PUMP SHEARED SHAFT;

! YFRISPSS WATER LEG PUMP SHEARED SHAFT; YFRITVFD E51C002E FAIL TO DISENGAGE; YFRITVFE ' - E51C002E FAllTO ENGAGE; YP_RR24 DIVISION 2 REFERENCE LEG BREAK AT DRYWELL WALL IN CONTAINMENT YP_RR26A - FLOW CONTROL VALVE F060A DISC SEPARATED FROM STEM; YP RR26B FLOW CONTROL VALVE F060B DISC SEPARATED FROM STEM; l1 49 L

m ATTACHMENT 2 MALFUNCTIONS YP_XMFTB(1) HPCS PUN MOTOR COUPLING FAILURE; 1 YP_XMFTB(2) LPCS PUMP MOTOR COUPLING FAILURE; YP_XMFTB(3) RHR A PUMP MOTOR COUPLING FAILURE; YP_XMFTB(3922) - . RR PUMP A MOTOR HIGH TEMPERATURE; YP_XMFTB(3923) RR PUMP B MOTOR HIGH TEMPERATURE;

'YP_XMFTB(3929) DAP #1 HALTS; YP_XMFTB(3930) DAP #2 HALTS; YP_XMFTB(3997) 4160 VOLT BUS 1Cl OVERCURRENT TRIP; YP_XMFTB(3999) 480 VOLT BUS IB OVERCURRENT TRIP; YP_XMFTB(4) RHR B PUMP MOTOR COUPLING FAILURE; YP_XMFTB(4000); 480 VOLT BUS 1C OVERCURPINT TRIP; YP_XMFTB(4001) 480 VOLT BUS ID OVERCURRENT TRIP; YP_XMFTB(4002) 480 VOLT BUS lE OVERCURRENT TRIP; YP_XMFTB(4003) 480 VOLT BUS 1F OVERCURRENT TRIP; YP_XMFTB(4004) - 480 VOLT BUS 1G OVERCURRENT TRIP; YP_XMFTB(4005) 480 VOLT BUS lH OVERCURRENT TRIP; YP_XMFTB(4007) 480 VOLT BUS IJ OVERCURRENT TRIP;  ;

YP_XMFTB(4008) 480 VOLT BUS IK OVERCURRENT TRIP; j

.YP_XMFTB(4010) 480 VOLT BUS 1M OVERCURRENT1 RIP; j YP_XMFTB(4012) 480 VOLT BUS B OVERCURRENT TRIP; YP_XMFTB(4013) 480 VOLT BUS C OVERCURRENT TRIP;,

YP_XMFTB(4014) 480 VOLT BUS D OVERCURRENT TRIP; YP_XMFTB(4015) 480 VOLT BUS E OVERCURRENT TRIP; YP_XMFTB(4016) 480 VOLT BUS F OVERCURRENT TRIP; YP_XMFTB(4017) 480 VOLT BUS G OVERCURRENT TRIP; YP_XMFTB(4018) 480 VOLT BUS H OVERCURRENT1 RIP; YP_XMFTB(4019) 480 VOLT BUS I OVERCURRENT TRIP; YP_XMFTB(4020) 480 VOLT BUS J OVERCURRENT TRIP; YP_XMFTB(4021) 480 VOLT BUS K OVERCURRENT TRIP; YP_XMFTB(4022) 480 VOLT BUS L OVERCURRENT TRIP; YP_XMFTB(4023) 480 VOLT BUS M OVERCURRENT TRIP; YP_XMFTB(4024) 480 VOLT BUS N OVERCURRENT TRIP; YP_XMFTB(4026) 480 VOLT BUS P OVERCURRENT TRIP; YP_XMFTB(4027) 480 VOLT BUS Q OVERCURRENT TRIP; YP_XMFTB(4028) 480 VOLT BUS R OVERCURRENT TRIP; YP_XMFTB(4032) UNIT AUXILIARY TRANSFORMER "B" LOCKOUT; i YP_XMFTB(4038) COMPUTER UPS 1B OVERCURERNT TRIP; YP_XMFTB(4044) 125 VOLT DC BUS ID OVERCURRENT TRIP; YP_XMFTB(4049) BATTERY CHARGER IC TRIP; YP_XMFTB(4050) BATTERY CHARGER ID TRIP; YP_XMFTB(4058) COMPUTER UPS IB INVERTER TRIP; YP_XMFTB(4067) MAIN TRANSFORMER 86 RELAY TRIP; YP_XMFTB(4097) MOTOR DRIVEN REACTOR FEED PUMP CONTROL SIGNAL FAILURE YP_XMFTB(4098) TURBINE DRIVEN REACTOR FEED PUMP A LOW LUBE OIL PRESSURE

. YP_XMFTB(4104) HPCS VALVE E22 F301 IS SHUT

.YP_XMFTB(4108) F041 A SRV FAIL TO RESEAT; '

YP_XMFTB(4109) F041B ADS VALVE Fall TO RESEAT; YP_XMFTB(4110) F041C ADS VALVE FAIL TO RESEAT; YP_XMFTB(4111) F041D ADS VALVE FAIL TO RESEAT; YP_XMFTB(4112) F041F ADS VALVE FAIL TO RESEAT; YP_XMFTB(4113) F041G SRV FAllTO RESEAT; YP_XMFTB(4114) F041L SRV FAIL TO RESEAT; YP_XMITB(4115) F047A ADS VALVE FAllTO RESEAT; YP_XMFTB(4116) F047B SRV FAllTO RESEAT; 50

m.

ATTACHMENT 2 MALFUNCTIONS YP_XMFTB(4117) F047C ADS VALVE FAIL TO RESEAT; YP_XMFTB(4118) F047D SRV FAIL TO RESEAT; l YP_XMFTB(4119) F047F LOW LOW SET VALVE FAIL TO RESEAT; YP_XMFTB(4120) . F051B LOW LOW SET VALVE FAIL TO RESEAT; YP_XMFTB(4121) F051C LOW LOW SET VALVE FAIL TO RESEAT (REMOTE SHUTDOWN PANEL);

YP_XMFTB(4122) F051D LOW LOW SET VALVE FAIL TO RESEAT (REMOTE SilUTDOWN PANEL);

YP_XMFTB(4123) F051G ADS / LOW LOW SET VALVE FAIL TO RESEAT (REMOTE SHUTDOWN PANEL);

YP_XMFTB(4876) SRM A DETECTOR STUCK; YP_XMFTB(4877) SRM B DETECTOR STUCK; YP_XMFTB(4878) SRM C DETECTOR STUCK; YP_XMITB(4879) SRM D DETECTOR STUCK; YP_XMFTB(4880) IRM A FAILS UPSCALE; YP_XMFTB(4881) 1RM B FAILS UPSCALE;

. YP_XMFTB(4882) IRM C FAILS UPSCALE; YP_XMFTB(4883) IRM D FAILS UPSCALE; YP_XMFTB(4884) ' IRM E FAILS UPSCALE; YP_XMFTB(4885) . IRM F FAILS UPSCALE; YP_XMFTB(4886) IRM G FAILS UPSCALE; YP_XMFTB(4887) IRM H FAILS UPSCALE; YP_XMFTB(4888) IRM A GOES INOPERABLE; YP_XMFTB(4889) IRM B GOES INOPERABLE; YP_XMFTB(4890) IRM C GOES INOPERABLE; YP_XMFTB(4891) IRM D GOES INOPERABLE; YP_XMFTB(4892) IRM E GOES INOPERABLE; YP_XMFTB(4893) IRM F GOES INOPERABLE; ,

YP_XMFTB(4894) IRM G GOES INOPERABLE;

' YP_XMFTB(4895) - IRM H GOES INOPERABLE; YP_XMFTB(4896) IRM A STUCK; YP_XMFTB(4897) IRM B STUCK; YP_XMFTB(4898) IRM C STUCK; YP_XMITB(4899) IRM D STUCK; YP_XMFTB(4900) IRM E STUCK; YP_XMFTB(4901) IRM F STUCK; YP_XMITB(4902) IRM G STUCK; YP_XMFTB(4903) IRM H STUCK; YP_XMFTB(4920) APRM A GOES INOPERABLE; YP_XMITB(4921) ' APRM B GOES INOPERABLE;

- YP_XMFTB(4922) . APRM C GOES INOPERABLE; YP_XMFTB(4923) APRM D GOES INOPERABL.E; YP_XMFTB(4946) PMS PROCESSOR HALTS; YP_XMFTB(4956) RHR HEAT EXCHANGER A BYPASS VALVE F048A FAIL AS IS ;

YP_XMFTB(4958) LOSS OF SHUTDOWN COOLING - VALVE F009 CLOSED; YP_XMFTB(4962) E51F031 SUCTION VALVE FAILS TO SHIFF; YP_XMFTB(4971) RR PUMP A INCORRECT START SEQUENCE; YP_XMFTB(4972) RR PUMP B INCORRECT START SEQUENCE; YP_XMFTB(4980) - INSTRUMENT LINE VARBLE LEG RUFFURE IN CONTAINMENT; YP_XMFTB(4994) LPCS VALVE E21-F309 IS SHUT YP_XMFTB(5) RHR C PUMP MOTOR COUPLING FAIL; YP_XMFFB(5049) VALVE FC007 BINDING AT 50*4; YP_XMFTB(5050) VALVE FC008 BINDING AT 50%;

YP_XMFTB(5051) VALVE FCol7 BINDING AT 50%;

51

m d'. .

ATTACHMENT 2 MALFUNCTIONS YP_XMFTB(5052) VALVE FCO23 BINDING AT 50%;

YP_XMFTB(5053) VALVE FCO36 BINDING AT 50%;

YP_XMFTB(5054) VALVE FC037 BINDING AT 50%;

- YP_XMFTB(5055) VALVE HG001 BINDING AT 50%;

e YP_XMFTB(5057) VALVE SF002 BINDING AT 50%;

YP_XMFTB(5077) . HYDROGEN BURN IN CONTAINMENT; YP_XMFTB(5104) HPCS MINIMUM FLOW TO SUPPRESSION POOL VALVE F012 FAILS OPEN

. YP_XMFTB($105) LPCS MINIMUM FLOW TO SUPPRESSION POOL VALVE F0ll FAILS OPEN YP_XREMT(731) TURBINE DRIVEN REACTOR FEED PUMP LOW SUCTION TRIP LOGIC YPXMALSE(240). STEAM FLOW SUMMER C34-K644 FAILS; YVFWTKLV(1) CY TANK LEVEL CONTROL (FEET); o - 100 FEET

~ YVFWTKLV(2) MC TANK LEVEL CONTROL (FEET); O - 100 FEET YVRITKBO RCIC STORAGE TANK BORON MASS; O - 15000 LBM YVRITKLV RCIC STORAGE TANK LIQUID LEVEL: 0 - 100% TMX LEVEL YVRITKT RCIC STORAGE TANK TEMPERATURE; o - 212 DEGREES F.

YVRITPLV(1) INLET DRAIN POT LIQUID LEVEL; o - 10 FEET YVRITPLV(2) OUTLET DRAIN POT LIQUID LEVEL: 0 - 10 FEET HPPLUGUP(l) HPCS SUCTION STRAINER CLOGGED 0 - 100%

LPCSPLUG(1) LPCS SUCTION STRAINER CLOGGED 0 - 100%

RHPLUGC . RHR C SUCTION STRAINER CLOG; O - 100%

RIPLUGUP RCIC SUCTION STRAINER PLUG UP; YAFWC2FV(1) CONDENSATE FILTER A PLC OUTPUT SIGNAL LEVEL;0 - 100%

YAFWC2FV(2) CONDENSATE FILTER B PLC OUTPUT SIGNAL LEVEL;0 - 100%

YAFWC2FV(3) CONDENSATE FILTER C PLC OUTPUT SIGNAL LEVEL;0 - 100%

YAFWC2FV(4) CONDENSATE FILTER D PLC OUTPUT SIGNAL LEVEL;0 - 1(X)%

YAFWC2FV(5) CONDENSATE FILTER E PLC OUTPUT SIGN AL LEVEL;0 - 100%

YAFWC2FV(6) CONDENSATE FILTER F PLC OUTPUT SIGNAL LEVEL;0 - 100%

YAFWC2FV(7) CONDENSATE FILTER G PLC OUTPUT SIGNAL LEVEL;0 - 100%

YAFWC2FV(8) CONDENSATE FILTER H PLC OUTPUT SIGNAL LEVEL;0 - 100%

YAFWC2FV(9) CONDENSATE FILTER J PLC OUTPUT SIGNAL LEVEL;0 - 100%

YAFWCBFV(1) C34-R601 A M/A CONTROLLER OUTPUT SIGNAL;0 - 100%

YAFWCBFV(2) C34-R601B M/A CONTROLLER OUTPUT SIGNAL; O - 100%

YAFWCBFV(3) C34-R601C M/A CONTROLLER OUTPUT SIGNAL; O - 1(X)%

YAFWCBFV(4) C34-R602 M/A CONTROLLER OUTPUT SIGNAL; O - 100%

YAF 'VCDcV(5) ILC-CD057A CONDENSER OVERFLOW OUTPUT SIGNAL; 0" - 80" YA. V(6) ILC-CD057B CONDENSER M/U OUTPUT SIGNAL; 0" - 80" YAFE G ' f(l) FIC-CD029 CD PUMP A MINIMUM FLOW CONTROLLER OUTPUT; O - 100%

YAFWCTFV(10) FIC-CD058 CB PUMP C MINIMUM FLOW CONTROLLER OUTPUT; O 100%

YAFWCTFV(ll) FIC-CD060 CB PUMP D MINIMUM FLOW CONTROLLER OUTPUT; O - 100%

YAFWCTFV(17) LIC-HD017 5A HEATER NORMAL LEVEL CONTROLLER OUTPUT; O - 100%

YAFWCTFV(18) LIC HD018 5B HEATER NORMAL LEVEL CONTROLLER OUTPUT; O - 100%

YAFWCTFV(19) LIC-HD019 4 A HEATER NORMAL LEVEL CONTROLLER OUTPUT; O - 100%

YAFWCTFV(2) FIC-CD031 CD PUMP B MINIMUM FLOW CONTROLLER OUTPUT; o - 100%

YAFWCTFVt20) LIC.HD020 4B HEATER NORMAL LEVEL CONTROLLER OUTPUT; o - 100%

YAFWCTFV(21) LIC-HD0213 A HEATER NORMAL LEVEL CONTROLLER OUTPUT; O - 100%

YAFWCTFV(22) LIC-HD022 3B HEATER NORMAL LEVEL CONTROLLER OUTPUT; O - 100%

YAFWCTFV(23) LIC-HD023 2A HEATER NORMAL Li'. VEL CONTROLLER OUTPUT; O - 100%

YAFWCTFV(24) LIC-HD024 2B HEATER NORMAL LEVEL CONTROLLER OUTPUT; O - 100%

YAFWCTFV(25) LIC-HD025 6A HEATER NORMAL LEVEL CONTROLLER OUTPUT; O - 100%

YAFWCTFV(26) LIC-HD026 6B HE ATER NORMAL LEVEL CONTROLLER OUTPUT; O - 100%

YAFWCTFV(3) FIC-CD033 CD PUMP C MINIMUM FLOW CONTROLLER OUTPUT; o #%

YAFWCTFV(33) LIC HD099 6A HEATER EMERGENCY LEVEL CONTROLLER OUTPUT;0 - 100%

YAFWCTFV(34) . LIC-HD100 6B HEATER EMERGENCY LEVEL CONTROLLER OUTPUT;0 - 100%

YAFWCTFV(35) LIC-HD101 SA HEATER EMERGENCY LEVEL CONTROLLER OUTPUT;0 - 100%

52

ATTACHMENT 2 MALFUNCTIONS YAFWCTFV(36) LIC-HD102 5B HEATER EMERGENCY LEVEL CONTROLLER OUTPUT;0 - 100%

YAFWCTFV(37) LIC-HD103 4 A HEATER EMERGENCY LEVEL CONTROLLER OUTPUT;0 - 100%

YAFWCTFV(38) LIC-HD104 4B HEATER EMERGENCY LEVEL CONTROLLER OUTPUT;0 - 100%

YAFWCTFV(39) LIC-HD105 3 A HEATER EMERGENCY LEVEL CONTROLLER OUTPUT;0 - 100%

YAFWCTFV(4) ' FIC-CD035 CD PUMP D MINIMUM FLOW CONTROLLER OUTPUT;0 - 100%

- YAFWCTFV(40) LIC-HD106 3B HEATER EMERGENCY LEVEL CONTROLLER OUTPUT; O -

100 %

YAFWCTFV(41) LIC-HD107 2A HEATER EMERGENCY LEVEL CONTROLLER OUTPUT; O - l 100 %

YAFWCTFV(42) LIC-HD108 2B HEATER EMERGENCY LEVEL CONTROLLER OUTPUT; O -

100 %

YAFWCTFV(44) LIC-HDI10 FLASH TANK A EMERGENCY LEVEL CONTROLLER OUTPUT; O -

100 %

YAFWCTFV(45) LIC-HDill FLASH TANK B EMERGENCY LEVEL CONTROLLER OUTPUT; O -

100 % I YAFWCTFV(46) LIC-HDI12 FLASH TANK B NORMAL LEVEL CONTROLLER OUTPUT; O - 100% l YAFWCTFV(5) FIC-CD079 SJAE MINIMUM FLOW CONTROLLER OUTPT; O - 100% l YAFWCTFV(6) FIC-CD093 OFFGAS A MINIMUM FLOW CONTROLLER OUTPUT; O - 100%

YAFWCTFV(7) FIC-CD094 OFFGAS B MINIMUM FLOW CONTROLLER OUTPUT; O - 100%

YAFWCTFV(8) FIC-CD054 CB PUMP A MINIMUM FLOW CONTROLLER OUTPT; o - 100%

YAFWCTFV(9) FIC-CD056 CB PUMP B MINFIMUM LOW CONTROLLER OUTPT; O - 100%

YAFWL10 LEAK AT DISCHARGE OF CD002 A (CD PUMP A); O - 100% ,

YAFWL11 LEAK AT DISCHARGE OF CD002B (CD PUMP B); O - 100% I YAFWL112 LEAK BETWEEN B21F032A & B21F010A; O - 100%

YAFWL113 LEAK BETWEEN B21F032B & B21F010B; O - 100%

YAFWL119 LEAK AT COMBINED OUTLET OF MC PUMPS; O - 100%

YAFWL12 LEAK AT DISCHARGE OF CD002C (CD PUMP C); O - 100%

YAFWL127 LEAK AT COMBINED OUTLET OF CY PUMPS; o - 100%

YAFWL13 LEAK AT DISCHARGE OF CD002D (CD PUMP D); O - 100%

YAF NL47 LEAK AT DISCHARGE OF CB PUMP A; O - 100%

YAFWL48 LEAK AT DIECHARGE OF CB PUMP B; O - 100% )

YAFWL49 LEAK AT DISCHARGE OF CB PUMP C; O - 100%

YAFWL50 LEAK AT DISCHARGE OF CB PUMP D; O - 100%

YAFWL83 LEAK AT COMBINED OUTLET OF #6 HEATERS; O - 100% i YAFWL91 LEAK AT DISCHARGE OF FW PUMP A; O - 100%

YAFWL92 LEAK AT DISCHARGE OF FW PUMP B; O - 100%

YAFWL93 LEAK AT DISCHARGE OF FW PUMP C; O - 100%

YAFWPPDE(1) CD PUMP A PUMPING EFFICIENCY; YAFWPPDE(10) CY PUMP B PUMPING EFFICIENCY; YAFWPPDE(11) CY PUMP C PUMPING EFFICIENCY; YAFWPPDE(12) MC PUMP A PUMPING EFFICIENCY; YAFWPPDE(13) MC PUMP B PUMPING EFFICIENCY; YAFWPPDE(14) FW PUMP C PUMPING EFFICIENCY; YAFWPPDE(15) FW PUMP A PUMPING EFFICIENCY; YAFWPPDE(16) FW PUMP B PUMPING EFFICIENCY; YAFWPPDE(2) CD PUMP B PUMPING EFFICIENCY; YAFWPPDE(3) CD PUMP C PUMPING EFFICIENCY; YAFWPPDE(4) CD PUMP D PUMPING EFFICIENCY; YAFWPPDE(5) CB PUMP A PUMPING EFFICIENCY; YAFWPPDE(6) CB PUMP B PUMPING EFFICIENCY; YAFWPPDE(7) CB PUMP C PUMPING EFFICIENCY; YAFWPPDE(8) CB PUMP D PUMPING EFFICIENCY; YAFWPPDE(9) CY PUMP A PUMPING EFFICIENCY; YAFWPPLB(1) CD PUMP A BEARING EFFICIENCY;

.53

ATTACHMENT 2 MALFUNCTIONS

'YAFWPPLB(10) . CY PUMP B BEARING EFFICIENCY; YAFWPPLB(ll) CY PUMP C BEARING EFFICIENCY; L YAFWPPLB(12) - MC PUMP A BEARING EFFICIENCY; YAFWPPLB(13). MC PUMP B BEARING EFFICIENCY; YAFWPPLB(14) FW PUMP C BEARING EFFICIENCY; YAFWPPLB(15) FW PUMP A BEARING EFFICIENCY; YAFWPPLB(16): FW PUMP B BEARING EFFICIENCY;

.YAFWPPLB(2) CD PUMP B BEARING EFFICIENCY; YAFWPPLB(3) CD PUMP C BEARING EFFICIENCY; YAFWPPLB(4) CD PUMP D BEARING EFFICIENCY; YAFWPPLB(5) ' CB PUMP A BEARING EFFICIENCY;

YAFWPPLB(6) CB PUMP B BEARING EFFICIENCY; YAFWPPLB(7) CB PUMP C BEARING EFFICIENCY;

' YAFWPPLB(8)- CB PUMP D BEARING EFFICIENCY;-

YAFWPPLB(9) CY PUMP A BEARING EFFICIENCY; -

YAFWTKLK(2) MC TANK MAK TO ATMOSPHERE; O - 100%

YAHDHXLA(1) DRAIN COOLER A SHELL TOP LEAK; O - 100% .

YAHDHXLA(10) - HEATER #4B SHELL TOP LEAK; O - 100%

YAHDHXLA(ll) HEATER #5A SHELL TOP LEAK; O - 100%

i YAHDHXLA(12) HEATER #5B SHELL TOP LEAK; O - 100%

YAHDHXLA(13) HEATER #6A SHELL TOP LEAK; O - 100%

YAHDHXLA(14) HEATER #6B SHELL TOP LEAK; O - 100% j YAHDHXLA(2) DRAIN COOLER B SHELL TOP LEAK; O - 100% l l

YAHDHXLA(3) HEATER #I A SHELL TOP LEAK; O - 100%

YAHDHXLA(4) f. EATER #1B SHELL TOP LEAK; O - 100%

YAHDHXLA(5) rlEATER #2A SHELL TOP LEAK; O - 100%

YAHDHXLA(6) HEATER #2B SHELL TOP LEAK; o - 100%

YAHDHXLA(7) HEATER #3A SHELL TOP LEAK; O - 100%

, YAHDHXLA(8) - HEATER #3B SHELL TOP LEAK; O - 100%

L YAHDHXLA(9) HEATER #4A SHELL TOP LEAK; O - 100%

YAHDHXLB(1) - DRAIN COOLER A SHELL BOTTOM LEAK; o - 100%

YAHDHXLB(10) HEATER #4B SHELL BOTTOM LEAK; o 100%

YAHDHXLB(ll) HEATER #5A SHELL BOTTOM LEAK; O - 100%

YAHDHXLB(12) HEATER #5B SHELL BOTTOM LEAK; O - 100%

YAHDHXLB(13) HEATER #6A SHELL BOTTOM LEAK; O - 100%

YAHDHXLB(14) HEATER #6B SHELL BOTTOM LEAK; o - 100%

YAHDHXLB(2) DRAIN COOLER B SHELL BOTTOM LEAK; O - 100%

. YAHDHXLB(3) HEATER #1 A SHELL BOTTOM LEAK; O - 100%

YAHDHXLB(4) HEATER #1B SHELL BOTTOM LEAK; O - 100%

YAHDHXLB(5) HEATER #2A SilELL BOTTOM LEAK; O - 100%

YAHDHXLB(6) HEATER #2B SHELL BOTTOM LEAK; O - 100%

YAHDHXLB(7) HEATER #3 A SHELL BOTTOM LEAK; O - 100%

YAHDHXLB(8) HEATER #3B SHELL BOTTOM LEAK; O - 100%

YAHDHXLB(9) HEATER #4A SHELL BOTTOM LEAK; 0 - 100%

YAHDHXTF(l) - DRAIN COOLER A TUBE FOULING; o - 100%

YAHDHXTF(10) - HEATER #4B TUBE FOULING; O - 100%

YAHDHXTF(ll) HEATER #5A TUBE FOULING; O - 100%

YAHDHXTF(12) HEATER #5B TUBE FOULING; o - 100%

YAHDHXTF(13) HEATER #6A TUBE FOULING; O - 100%

YAHDHXTF(i4) HEATER #6B TUBE FOULING; O 100% f YAHDHXTF(2) DRAIN COOLER B TUBE FOULING; O - 100%

YAHDMXTF(3)' HEATER #1 A TUBE FOULING; O - 100%

. YAHDHXTF(4) HEATER #1B TUBE FOULING; O - 100%

- YAHDHXTF(5) HEATER #2A TUBE FOULING; O - 100%

54

1 a c, ATTACHMENT 2 MA, FUNCTIONS YAHDHXTF(6) HEATER #2B TUBE FOULING; o - 100%-

YAHDHXTF(7) HEATER #3A TUBE FOULING; O - 100%

YAHDHXTF(8) HEATER #3B TUBE FOULING; O - 100%

,YAHDHX*1T(9) ' HEATER #4A TUBE FOULING; o - 100%

YAHDHXTL(1) DRAIN COOLER A TUBE LEAK; O - 100%

.YAHDHXTL(10) HEATER #4B TUBE LEAK; O - 100%

YAHDHXTL(1!)- HEATER #5A TUBE LEAK; o - 100% . l YAHDHXTL(12) . HEATER #5B TUBE LEAK; O - 100%

YAHDHXTL(13) HEATER #6A TUBE LEAK; O- 100%

]j

- YAHDHXTL(14) . HEATER #6B TUBE LEAK; O MO%

YAHDHXTL(2) DRAIN COOLER B TUBE LEAK; O - 100% j YAHDHXTL(3) HEATER #1 A TUBE LEAK; O - 100% j YAHDHXTI.(4) HEATER #1B TUBE LEAK; o - l(X)% j YAHDHX1L(5) HEATER #2A TUBE LEAK; O - 100% j YAHDHXTL(6) HEATER #2B TUBE LEAK; O - 100% )

YAHDHXTL(7) HEATER #3A TUBE LEAK; O - 100% j YAHDHXTL(8) HEATER #3B TUBE LEAK; O - 100% '

YAHDHXTL(9) , HEATER #4A TUBE LEAK,0 - 100%

YAHDHXTP(l) DRAIN COOLER A TUBES PLUGGED; O - 100%

'YAHDHXTP(10) . HEATER #4B TUBES PLUGGED; O - 100% ~ j YAHDHXTP(ll) HEATER #5A TUBES PLUGGED; O - 100*/.  !

YAHDHXTP(12) HEATER #5B TUBES PLUGGED; O - 100%

YAHDHXTP(13) HEATER #6A TUBES PLUGGED; O - 100%

YAHDHXTP(14) HEATER #6B TUBES PLUGGED; o - 100%

YAHDHXTP(2) DRAIN COOLER B TUBES PLUGGED; O - 100%

YAHDHXTP(3) HEATER #1 A TUBES PLUGGED; o - 100%

YAHDHXTP(4) HEATER #1B TUBES PLUGGED; o - 100%

YAHDHXTP(5) HEATER #2A TUBES PLUGGED; O - 100%

YAHDHXTP(6) HEATER #2B TUBES PLUGGED; O - 100%

YAHDHXTP(7) HEATER #3A TUBES PLUGGED; O - 100%

YAHDilXTP(8) HEATER #3B TUBES PLUGGED; O - 100%

l YAHDHXTP(9) . HEATER #4A TUBES PLUGGED; O - 100%

FLASH TANK A LEAK AT BOTTOM; o - 100%

YAHDTKLA(1)

YAHDTKLA(2) FLASH TANK B LEAK AT BOTTOM; O - 100%

YAHDTKLB(1) FLASH TANK A LEAK AT TOP; O - 100%

.YAHDTKLB(2) FLASH TANK B LEAK AT TOP; o - 100%

YARIAVFP(l) E5IF004 FAIL TO POSITION; o - 100%

YARIAVFP(2) . E51F005 FAllTO POSITION; O - 100%

YARIAVFP(3) E51F025 FAIL TO POSITION; O - 100%

YARIAVFP(4) E51F026 FAIL TO POSITION; O - 100%

YARIAVFP(5) E51F054 FAllTO POSITION; O - 100%

YARIAVFP(6) E51F316 FAIL TO POSITION; O - 100%

YARIAVFS(l) E51F004 GETS STUCK AT POSITION; O - 100%

YARIAVFS(2) E51F005 GETS STUCK AT POSITION; o - 100% )

YARIAVFS(3) E51F025 GETS STUCK AT POSITION; O - 100%  ;

E51F026 GETS STUCK AT POSITION; o - 100%

- YARIAVFS(4)

E51F054 GETS STUCK AT POSITION; o - 100%

)

YARIAVFS(5)

YARIAVFS(6)  ; E51F316 GETS STUCK AT POSITION; O - 100%

YARICBFV(1) MAIN CONTROL ROOM CONTROLLER E51R600 OUTPUT VARIABLE FAILURE; YARICBFV(2) MAIN CONTROL ROOM CONTROLLER C61R601 OUTPUT VARIABLE FAILURE; YARICVFP(l) E51F011 FAIL TO POSITION; O - 100%

YARICVFP(2) E51F021 FAIL TO POSITION; O - 100%

55

ATTACHMENT 2 MALFUNCTIONS

.YARICVFP(3) E51F040 FAIL TO POSITION; O - 100%

YARICVFP(4) E51F061 FAIL TO POSITION; O - 100%

YARICVFP(5) E51F065 FAIL TO POSITION; O - 100%

YARIHVFP E51F610 FAIL TO POSITION; o - 100%

YARIHVFS E51F610 GETS STUCK AT POSITION; O - 100%

YARIKVFP E5IF066 FAIL TO POSITION; O - 100%

YARIKVFS E51F066 GETS STUCK AT POSITION; O - 100%

YARIKVSL E51F066 STEM PACKING LEAK; O - 100%

- YARIL19 WATER LEO PUMP SUCTION LINE LEAK; O - 100%

YARIL20 RCIC PUMP SUCTION LINE LEAK; O - 100%

YARIL21 RCIC PUMP DISCHARGE LINE LEAK; O - 100%

YARIL22 RCIC DISCHARGE LEAK IN DRYWELL; O - 100%

YARILOLK RCIC LUBE OIL LEAK; O 100%;

YARIMVFP(l) E51F010 FAIL TO POSITION; 0 - 100%

YARIMVFP(10) E51F064 FAIL TO POSITION; O - 100%

YARIMVFP(11) E51F068 Fall TO POSITION; O - 100%

YARIMVFP(12) - E5IF076 FAIL TO POSITION; O - 100%

YARIMVFP(13) E51F077 FAIL TO POSITION; O - 100%

YARIMVFP(14) E51F078 Fall TO POSITION; O - 100%

YARIMVFP(15) E51F095 FAIL TO POSITION; O - 100%

YARIMVFP(2) E51F013 Fall TO POSITION; O - 100%

YARIMVFP(3) E51F019 FAIL TO POSITION; O - 100%

YARIMVFP(4) E$1F022 FAIL TO POSITION; O - 100%

YARIMVFP(5) E51F031 FAIL TO POSITION; O - 100%

YARIMVFP(6) E51F045 FAIL TO POSITION; O - 100%

YARIMVFP(7) E51F046 FAllTO POSITION; O - 100%

YARIMVFP(8) E51F059 FAIL TO POSITION; O - 100%

l YARIMVFP(9) E51F063 Fall TO POSITION; O - 100%

YARIMVFS(l) E51F010 GETS STUCK AT POSITION; O - 100%

YARIMVFS(10) E51F064 GETS STUCK AT POSITION; O - 100%

YARIMVFS(ll) E51F068 GETS STUCK AT POSITION; O - 100%

YARIMVFS(12) E51F076 GETS STUCK AT POSITION; O - 100%

YARIMVFS(13) E51F077 GETS STUCK AT POSITION; O - 100%

YARIMVFS(14) E51F078 GETS STUCK AT POSITION; O - 100%

YARIMVFS(15) E51F095 GETS STUCK AT POSITION; O - 100%

YARIMVFS(2) E51F013 GETS STUCK AT POSITION; O - 100%

YARIMVFS(3) E51F019 GETS STUCK AT POSITION; O - 100%

YARIMVFS(4) E51F022 GETS STUCK AT POSITION; O - 100%

YARIMVFS(5) E51F031 GETS STUCK AT POSITION; O - 100%

YARIMVFS(6) E51F045 GETS STUCK AT POSITION; O - 100%

YARIMVFS(7) E51F046 GETS STUCK AT POSITION; O - 100%

YARIMVFS(8) E51F059 GETS STUCK AT POSITION; O - 100%

YARIMVFS(9) E51F063 GETS STUCK AT POSITION; O - 100%

YARIPPDE RCIC PUMP DEGRADED EFFICIENCY; l YARIPPLB RCIC PUMP LOCKED BEARINGS; I YARIRVFP E51F090 FAIL TO POSITION; O - 100%

L YARIRVFS E51F090 GETS STUCK AT POSITION; O - 100%

! YARISPBF WATER LEG PUMP BEARING FAILURE; O - 100%;

j YARISPDE WATER LEG PUMP DECREASED EFFICIENCY; i

YARISVFP E5IF335 FAIL TO POSITION; o - 100% -

YARISVFS E51F335 GETS STUCK AT POSITION; o - 100%

YARITKLK RCIC STORAGE TANK LEAK; O - 100%;

YARITPLA(2) RCIC OUTLET DRAIN POT LEAK AT TOP; O - 100%;

YARITPLB(1) RCIC INLET DRAIN POT LEAK AT BOTTOM; O - 100%;

56 1

l L

ATTACHMENT 2 MALFUNCTIONS YARITPLB(2) ' RCIC OUTLET DRAIN POT LEAK AT BOTTOM; O - 100%;

YARITVFP E51C002E FAIL TO POSITION; O - 1(X)%

YARITVFS E51C002E GETS STUCK AT POSITION; O - 100% ,

YPRR25- RR25-DIV 2 REF LEG BREAK AT INST RACK IN CONTAINMNT;0 - 100%

YPXMALSE(1I) CCW HEAT EXCHANGER A TUBE LEAK; O - 100%

YPXMALSE(12) CCW HEAT EXCHANGER B TUBE LEAK; O - 100%

YPXMALSE(2) . CONTROL ROD WORTH INCREASE,0 - 100%

YPXMALSE(407) IRM A ERRATIC INDICATION; O - 1(X)%

' YPXMALSE(408) 1RM B ERRATIC INDICATION; O - 100%

YPXMALSE(409) . IRM C ERRATIC INDICATION; o - 100%

YPXMALSE(410) IRM D ERRATIC INDICATION; O - 100%

' YPXMALSE(411) IRM E ERRATIC INDICATION; O - 100% -

YPXMALSE(412) 1RM F ERRATIC INDICATION; O - 100%

YPXMALSE(413) IRM G ERRATIC INDICATION; O - 100%

YPXMALSE(414) _ ' IRM H ERRATIC INDICATION; O - 100%

YPXMALSE(415) APRM A ERRATIC INDICATION; o - 100%

' YPXMALSE(416) APRM B ERRATIC INDICATION; O - 1(X)%

YPXMALSE(417) APRM C ERRATIC INDICATION; O - 100%

- YPXMALSE(418) APRM D ERRATIC INDICATION; o - 100%

YPXMALSE(423) RHR HEAT EXCHANGER A TUBE LEAK; O - 100%

YPXMALSE(429) LPCI LOOP A LINE BREAK; O - 100%

YPXMALSE(430) LPCI LOOP B LINE BREAK; O - 100%

YPXMALSE(431) LPCI LOOP C LINE BREAK; O - 100%

YPXMALSE(546) C34N004 A FW LEVEL SENSOR FAILURE;0 - 100%

YPXMALSE(549) LT B21-N095 A REACTOR LEVEL TRANSMITTER FAILURE ;0 - 100%

YPXMALSE(551) LT B21-N080A REACTOR LEVEL TRANSMITTER FAILURE ;0 - 100%

YPXMALSE(561) LT B21-N095B REACTOR LEVEL TRANSMITTER FAILURE ;0 - 100% ,

YPXMALSE(563) LT B21-N091F REACTOR LEVEL TRANSMITTER FAILURE ;0 - 100% 1 YPXMALSE(565) - LT B21-N0918 REACTOR LEVEL TRANSMITTER FAILURE ;0 - 1(X)%

YPXMALSE(566) LT B21-N4008 REACTOR LEVEL TRANSMITTER FAILURE ;0 - 100%

YPXMALSE(572) LT B21-N073D REACTOR LEVEL TRANSMITTER FAILURE ;0 - 100%

YPXMALSE(574) PT B21-N078C RE ACTOR PRESSURE TRANSMITTER FAILURE;0 - 100%

YPXMALSE(575) PT B21-N068 A REACTOR PRESSURE TRANSMITTER FAILURE;0 - 100%

YPXMALSE(576) PT B21-N068E REACTOR PRESSURE TRANSMITTER FAILURE;0 - 100%

YPXMALSE(577) Irr B21-N078A REACTOR PRESSURE TRANSMITTER FAILURE;0 - 100%

YPXMALSE(578) Irr B21-N097A REACTOR PRESSURE TRANSMITTER FAILURE;0 - 100%

YPXMALSE(581) PT B21-N078B REACTOR PRESSURE TRANSMITTER FAILURE;0 - 100%

YPXMALSE(582) Irr B21-N068B REACTOR PRESSURE TRANSMITTER FAILURE;0 - 100%

YPXMALSE(583) PT B21-N068F REACTOR PRESSURE TRANSMITTER FAILURE;0 - 100%

YPXMALSE(584) PT B21-N097B REACTOR PRESSURE TRANSMITTER FAILURE;0 - 100%

YPXMALSE(585) Irr B21-N401B REACTOR PRESSURE TRANSMITTER FAILURE;0 - 100%

YPXMALSE(586) PT B21-N401F REACTOR PRESSURE TRANSMITTER FAILURE;0 - 100%

YPXMALSE(587) Irr B21-N078D REACTOR PRESSURE TRANSMITTER FAILURE;0 - 1(X)%

YPXMALSE(662) UNISOLATABLE LEAK IN SF SUCTION;0 - 100%

YPXMALSE(71) LPCS LINE BREAK; O - 100%

YPXRR20A(1) FLOW CONTROL VALVE F060A FAIL STUCK AT POSITION; o - 100%

YPXRR20A(2) - FLOW CONTROL VALVE F060B FAIL STUCK AT PUm 62 N; O - 100%

YVHDHXLV(1) - DRAIN COOLER A LEVEL (FEET.); O - 100%

YVHDHXLV(10) - HEATER #4B LEVEL (FEET.); o - 1(X)%

YVHDHXLV(11) HEATER #5A LEVEL (FEET.); o - 100%

YVHDHXLV(12) HEATER #5B LEVEL (FEET.); O - 100%

YVHDHXLV(13) HEATER #6A LEVEL (FEET.); O - 100%

-YVHDHXLV(14). HEATER #6B LEVEL (FEET.); o - 100%

YVHDHXLV(2) DRAIN COOLER B LEVEL (FEET.); O - 100%

57

c; . - -.: ,

ATTACHMENT 2 MALFUNCTIONS

YVHDHXLV(3) HEA FER #1 A LEVEL (FEET.); O - 100%

1YVHDHXLV(4) HEATER #1B LEVEL (FEET.); o - 100%

VVHDHXLV(5) HEATER #2A LEVEL (FEET.); O - 100%

- YVHDHXLV(6) HEATER #2B LEVEL (FEET.); O - 100%

YVHDHXLV(7) HEATER #3 A LEVEL (FEET.); o - 100%

YVHDHXLV(8) _ ' HEATER #3B LEVEL (FEET.); O - 100%

YVHDHXLV(9) HEATER #4A LEVEL (FEET.); o - 100%

YVR1AVLK(1) . E51F004 LEAKS BY; O - 100% '

YVRIAVLK(2). ' E51F005 LEAKS BY; O - 100%

YVRIAVLK(3) . E51F025 LEAKS BY; o - 100%

YVRIAVLK(4) . E51F026 LEAKS BY; o - 100%

YVRIAVLK(5) E51F054 LEAKS BY; O - 100%

YVRIAVLK(6) E51F316 LEAKS BY;O - 100%

YVRICVLK(1) E51Foll LEAKS BY; O - 100%

YVRICVLK(2) _ E51F021 LEAKS BY; o - 100%

' YVRICVLK(3) - E51F040 LEAKS BY; O - 100%

YVRICVLK(4) E51F061 LEAKS BY; O - 100%

YVRICVLK(5) E51F065 LEAKS BY; O - 100%

YVRIHVLK E51F610 LEAKS BY; o - 100%

YVRIKVLK E51F066 LEAKS BY; o - 100%

YVRIMVLK(1) E51F010 LEAKS BY; O - 100%

o YVRIMVLK(10) E5iF064 LEAKS BY; O - 100%

l' YVRIMVLK(11) E51F068 LEAKS BY; O - 100%

-YVRIMVLK(12) E51F076 LEAKS BY; O - 100%

YVRIMVLK(13) E51F077 LEAKS BY; O - 100%

L YVRIMVLK(14) . E51F078 LEAKS BY; O - 100%

l YVRIMVLK(15) E51F095 LEAKS BY; O - 100%

j YVRIMVLK(2) E51F013 LEAKS BY; O - 100%

YVRIMVLK(3) E51F019 LEAKS BY;0 - 100%

YVRIMVLK(4) E51F022 LEAKS BY; O - 100%

YVRIMVLK(5) E51F031 LEAKS BY; O - 100%

YVRIMVLK(6) E51F045 LEAKS BY; O - 100%

YVRIMVLK(7) E51F046 LEAKS BY; O - 100%

l ' YVRIMVLK(8)

E51F059 LEAKS BY; O - 100%

YVRIMVLK(9) E51F063 LEAKS BY; O - 100%

YVRIRVLK E51F090 LEAKS BY; O - 100%

YVRISVLK E51F335 LEAKS BY; o - 100%

YVRITVLK E51C002E LEAKS BY; o - 100%

58

T .

ATTACHMENT 3 REMOTE FUNCTIONS 4

CUFDANRS RESET FILTER /DEMINERALIZER SYSYSTEM TROUBLE ANNUNCIATOR ;

EGRVRPWR ARM REVERSE POWER TRIP; FP_RFINJ . LINE UP MANUAL VALVES FOR FP JINJECTION; FPNPUMP NUMBER OF RUNNING FIRE PUMPS; GETARS TURN ON GETARS SENTINEL ALARM HP_MSC4(l) MANUAL CLOSE HPCS INJECTION VALVE RX)4; HP_MSCL5 MANUAL CLOSE LPCS INJECTION VALVE F005; HP_MSO4(1) MANUAL OPEN HPCS INJECTION VALVE F004; HP_MSOLS MANUAL OPEN LPCS INJECTION VALVE F005; MTVACBYP MAIN TURBINE VACUUM TRIP BYPASS; PCDCH2C CONTAINMENT H2 CONCENTRATION (0 - 100%)

PCDCH2D DRYWELL .H2 CONCENTRATION (0 -100*A)

PCDCO2C CONTAINMENT O2 CONCENTRATION (0 - 100%)

PCDCO2D DRYWELL O2 CONCENTRATION (0 - 100%)

PCFCFILL FILL FC TANK VALVE FC038; PCFCINJ FC INJECTION TO REACTOR LINE UP ;

RCSPEEDI SUBSTITUTE RR PUMP A SLOW SPEED; RCSPEED2- SUBSTITUTE RR PUMP B SLOW SPEED; RH_EP205 E12F008,F023,F053A ISOLATE; i

RH_EP206 E12F009, & F053B ISOLATE; q RH_EP209 E12F021, F027B, & F028B LPCI; '

RH_MSC42(1) MANUAL CLOSE RHR A INJECTION VALVE F042A; RH_MSC42(2) MANUAL CLOSE RHR B INJECTION VALVE F042B; RH_MSC42(3) MANUAL CLOSE RHR C INJECTION VALVE F042C; RH_MSO42(1) MANUAL OPEN RHR A INJECTION VALVE F042A; ,

l RH_MSO42(2) MANUAL OPEN RHR B INJECTION VALVE F042B;

]

RH_MSO42(3) MANUAL OPEN RHR C INJECTION VALVE F042C; RR_FBYPS RR PUMP LOW SPEED TO FAST SPEED INTERLOCK BYPASS; SX_RF173 1SX173B AUTO OPEN; YAFWCTFV(12) FIC-FWOO2 FW PUMP A MINIMUM FLOW CONTROLLER OUTPUT;0 - 100%

YAFWCTFV(13) FIC-FWOO4 FW PUMP B MINIMUM FLOW CONTROLLER OUTPUT;0 - 100%

YAFWCTFV(14) FIC-FWOO6 FW PUMP C MINIMUM FLOW CONTROLLER OUTPUT;0 - 100%

YAFWCTFV(43) FLASH TANK A NORM AL LEVEL CONTTOLLER OUTPUT

, YAFWMVFP(ll) VALVE CB006A FAIL POSITION YAFWMVFP(6) VALVE CB003 A Fall POSITION YC4506C LOCAL CLOSE BREAKER 4506; t YC4510C LOCAL CLOSE BREAKER 4510;

]

YCFWBFPA CONDENSATE FILTER A BYPASS STATUS; YCFWBFPB CONDENSATE FILTER B BYPASS STATUS; YCFWBFPC CONDENSATE FILTER C BYPASS STATUS; YCFWBFPD CONDENSATE FILTER D BYPASS STATUS; YCFWBFPE CONDENSATE FILTER E BYPASS STATUS; YCFWBFPF CONDENSATE FILTER F BYPASS STATUS; YCFWBFPG CONDENSATE FILTER G BYPASS STATUS; YCFWBFPH CONDENSATE FILTER H BYPASS STATUS; YCFWBFPJ CONDENSATE FILTER J BYPASS STATUS; YCFWCTAU(12) FIC-FWo02 FW PUMP A M1.NIMUM FLOW CONTROLLER M/A; YCFWCTAU(13) FIC-FWOO4 FW PUMP B MINIMUM FLOW CONTROLLER M/A; YCFWCTAU(14) FIC-FWOO6 FW PUMP C MINIMUM FLOW CONTROLLER M/A; YCFWSWS1 CONDENSATE FILTER PLC POWER SUPPLY; VCHPPHC(l) LOCAL CLOSE HPCS PUMP BREAKER; YCHPPHT(l) LOCAL TRIP HPCS PUMP BREAKER; YCHPPLC LOCAL CLOSE LPCS PUMP BREAKER; 59 l

t. _ i

r2 4 . s ATTACHMENT 3 REMOTE FUNCTIONS

' YCHPPLT LOCAL TRIP LPCS PUMP BREAKER; YCREMPWR BACKFEED THE UNIT AUXILIARY TRANSFORMERS; YCRHPPAC RHR A BREAKER LOCAL CLOSE; '

YCRHPPAT RHR A BREAKER LOCAL TRIP; YCRHPPBC RHR B BREAKER LOCAL CLOSE; YCRHPPBT RHR B BREAKER LOCAL TRIP;

.YCRHPPCC RHR C BREAKER LOCAL CLOSE; YCRHPPCT RHR C BREAKER LOCAL TRIP; YP_HPCON(1) CONTROL FUSES OF HPCS PUMP BREAKER OUT; YP_LPCON CONTROL FUSES OF LPCS PUMP BREAKER OUT; YP_RHCN1 RHR A BREAKER CONTROL POWER FUSES; YP_RHCN2 RHR B BREAKER CONTROL POWER FUSES; YP_RHCN3 RHR C BREAKER CONTROL POWER FUSES; YP_XREMT(1) RWCU FILTER /DEMINERALIZER TRAIN A IN SERVICE ;

YP_XREMT(10) START SEAL WATER PUMP A, LINE UP WT TO CONDENSER VACCUUM PUMP A. PLACE WT HEAT EXCHANGER B IN SERVICE YP_XREMT(ll) CCW SURGE TANK DRAIN VALVE; YP_XREMT(12) START SEAL WATER PUMP B, UNE UP WT TO CONDENSER VACCUUM

, PUMP B, PLACE WT HEAT EXCHANGER B IN SERVICE YP_XREMT(13) RESET DIVISION 1 DG LOCKOUT; YP_XREMT(15) OPERATE DC PNL 1E-lF TIE; YP_XREMT(16) OPERATE SY DISCONNECT 4501; YP_XREMT(17) OPERATE SY DISCONNECT 4503; YP_XREMT(18) OPERATE SY DISCONNECT 4504; YP_XREMT(19) OPERATE SY DISCONNECT 4505; j YP_XREMT(2) RWCU FILTER /DEMINERALIZER TRAIN B IN SERVICE ;

YP_XREMT(20) OPERATE SY DISCONNECT 4507; YP_XREMT(21) OPERATE SY DISCONNECT 4509; YP_XREMT(22) OPERATE SY DISCONNECT 4511; j

YP_XREMT(23) OPERATE SY DISCONNECT 4517; YP_XREMT(24) OPERATE SY DISCONNECT 4519; YP_XREMT(25) OPERATE SY DISCONNECT 4520; YP_XREMT(26) OPERATE SY DISCONNECT 4523;  ;

YP_XREMT(27) OPERATE SY DISCONNECT 4525; YP_XREMT(28) OPERATE AP DISCONNECT ET4; YP_XREMT(29) OPERATE AP DISCONNECT ETl4; YP_XREMT(3) RWCU PUMP A STATUS; YP_XREMT(30) OPERATE AP DISCONNECT RTl4; i YP_XREMT(31) OPERATE AP DISCONNECT RT16; I YP_XREMT(32) RESET GENERATOR & TRANSFORMER 86 RELAY; YP_XREMT(33) ISO PHASE BUS COOLING DUCT FAN A; YP_XREMT(34) ISO PHASE BUS COOLING DUCT FAN B; 4 YP_XREMT(35) RESET RPS SOLENOID INVERTER A TROUBLE ALARM; YP_XREMT(36) RESET RPS SOLENOID INVERTER B TROUBLE ALARM; YP_XREMT(365) F051D SOLENOID A POWER ;

YP_XREMT(366) F047A SOLENOID A POWER ; ,

YP_XREMT(367) F041 A SOLENOID A POWER ;

YP_XREMT(368) F051G SO'.ENOlD A POWER ;

YP_XREMT(369) F041L SOLENOID A POWER ;

YP_XREMT(370) F047C SOLENOID A POWER ;

YP_XREMT(371) F041G SOLENC*U A POWER ;

YP_XREMT(372) F051C SOLENOID A POWER ;

YP_XREMT(373) . F041C SOLENOID A POWER ;

YP_XREMT(374) F047B SOLENOID A POWER ;

60 t:

p L . ATTACHMENT 3 REMOTE FUNCTIONS l l~

YP_XF;PMT(375) F04iB SOLENOID A POWER ;

YP_XREMT(376) . F051B SOLENOID A POWER ;

'. YP_XREMT(377) F041F SOLENOID A POWER ;

YP_XREMT(378) F047F SOLENOID A POWER;

, YP_XREMT(379) - F041D SOLENOID A POWER ; - l YP_XREMT(380) F047D SOLENOID A POWER ;

YP_XREMT(381) ' . F051D SOLENOID B POWER ; ~j YP_XREMT(382) F047A SOLENOID B POWER ;

YP_XREMT(383) F041 A SOLENOID B POWER; l YP_XREMT(384) F051G SOLENOID B POWER ;

. F041L SOLENOID B POWER ; ]

YP_XREMT(385)

YP_XREMT(386) F047C SOLENOID B POWER ;

YP_XREMT(387) F041G SOLENOID B POWER ;

YP_XREMT(388) F051C SOLENOID B POWER ;

' j YP_XREMT(389) F041C SOLENOID B POWER ;

. YP_XREMT(390) F047B SOLENOID B POWER ;

YP_XREMT(391) F041B SOLENOID B POWER ;

YP_XREMT(392) F051B SOLENOID B POWER ;

YP_XREMT(393) F041F SOLENOID B POWER ;

YP_XREMT(394) ' F047F SOLENOID B POWER ;

YP_XREMT(395) F041D SOLENOID B POWER ;

YP_XREMT(396) F047D SOLENOID B POWER ;

YP_XREMT(397) DEENERG12E ALL SOLENOID A BREAKERS ;

YP_XREMT(398) DEENERGIZE ALL SOLENOID B BREAKERS ;

YP_XREMT(4) RWCU PUMP B STATUS; YP_XREMT(400)- ALL SRV SOLENOID B SWITCH POSITION; YP_XREMT(5) RWCU PUMP C STATUS;- ]

YP_XREMT(513) NS4 DIVISION I CHA:iNEL BYPASS; YP_XREMT(514) NS4 DIVISION 2 CHANNEL BYPASS; YP_XREMT(515) NS4 DIVISION 3 CHANNEL BYPASS;

.YP .XREMT(516) ~ NS4 DIVISION 4 CHANNEL BYPASS; YP,XREMT(518) OPERATE MS-OG RECOMBINER A SUPPLY VALVE; )

i $_XREMT(519) OPERATE MS-OG RECOMBINER B SUPPLY VALVE; J YP_XREMT(520) LPRM 14-47A IS BYPASSED (C APRM DETECTOR);

YP_XREMT(521) LPRM 1447B IS BYPASSED (D APRM DETECTOR);

YP_XREMT(522) LPRM 14-47C IS BYPASSED (A APRM DETECTOR);

YP_XREMT(523) LPRM 14-47D IS BYPASSED (B APRM DETECTOR);

YP_XREMT(524) LPRM 22-47A IS BYPASSED (D APRM DETECTOR);

YP_XREMT(525) LPRM 22-47B IS BYPASSED (A APRM DETECTOR);

YP_XREMT(526) .LPRM 22-47C IS BYPASSED (B APRM DETECTOR);

YP_XREMT(527) LPRM 22-47D IS BYPASSED (C APRM DETECTOR); <

' YP_XREMT(528) LPRM 30-47A IS BYPASSED (C APRM DETECTOR);

YP_XREMT(529) LPRM 30-47B IS BYPASSED (D APRM DETECTOR);

YP_XREMT(53) F051D SOLENOID B SWITCH POSITION; YP_XREMT(530) . LPRM 3047C IS BYPASSED (A APRM DETECTOR);

YP_XREMT(531) LPRM 22-15B IS BYPASSED (A APRM DETECTOR);

p YP_XREMT(531) ' LPRM 30-47D IS BYPASSED (B APRM DETECTOR);

YP_XREMT(532) LPRM 38-47A IS BYPASSED (D APRM DETECTOR);

YP_XREMT(533) LPRM 38-47B IS BYPASSED (A APRM DETECTOR);

YP_XREMT(534) LPRM 38-47C IS BYPASSED (B APRM DETECTOR);

YP_XREMT($35)' LPRM 38-47D IS BYPASSED (C APRM DETECTOR);

. YP_XREMT(536) .LPRM 30-15C IS BYPASSED (A APRM DETECTOR); '

}

YP_XREMT(536) LPRM 46-47A IS BYPASSED (C APRM DETECTOR);

YP_XREMT(537) LPRM 46-475 23 ! BYPASSED (D APRM DETECTOR);

61

.g ATTACHMENT 3 REMOTE FUNCTIONS

- YP_XREMT(538) LPRM 46-47C IS BYPASSED (A APRM DETECTOR);

YP_XREMT(539) LPRM 38-15B IS BYPASSED (A APRM DETECTOR);

YP_XREMT(539) ~ LPRM 46-47D IS BYPASSED (B APRM DETECTOR);

YP_XREMT(54) F047A SOLENOID B SWITCH POSITION; YP_XREMT(54) F041 A SOLENOID B SWITCH POSITION; YP_XREMT(540) LPRM 06 39A IS BYPASSED (A APRM DETECTOR);

YP_XREMT(541) LPRM 06-39B IS BYPASSED (B APRM DETECTOR);

- YP_XREMT(542) LPRM 06-39C IS BYPASSED (C AFRM DETECTOR);

. YP_XREMT(543) LPRM 06-39D IS BYPASSED (D APRM DETECTOR);

YP,_XREMT(544) LPRM 46-15C 15 BYPASSED (A APRM DETECTOR),

YP_XREMT(544) LPRM 14 39A IS BYPASSED (D APRM DETECTOR);

YP_XREMT(545) 'LPRM 14-39B IS BYPASSED (C APRM DETECTOR);

YP_XREMT(546) LPRM 14 39C IS BYPASSED (D APRM DETELTOR);

YP_XREMT(547) LPRM 14 39D IS BYPASSED (A APRM DETECTOR);

YP_XREMT(548) - LPRM 22-39A IS BYPASSED (A APRM DETECTOR);

YP_XREMT(549) LPRM 22-39B IS BYPASSED (B APRM DETECTOR);

YP_XREMT(55) F051G SOLENOID B SWITCH POSITION; YP_XREMT(550) LPRM 22-39C IS BYPASSED (C APRM DETECTOR);

. YP_XREMT(551) LPRM 22-39D IS BYPASSED (D APRM DETECTOR);

' YP_XREMT(552) LPRM 30-39A IS BYPASSED (B APRM DETECTOR);

YP_XREMT(553) LPRM 30-398 IS BYPASSED (C APRM DETECTOR);-

' YP_XREMT(554) LPRM 30-39C IS BYPASSED (D APRM DETECTOR);

YP_XREMT(555) LPRM 30-39D IS BYPASSED (A APRM DETECTOR);

YP_XREMT(556) LPRM 38-39A IS BYPASSED (A APRM DETECTOR);

YP_XREMT(557) LPRM 38-398 IS BYPASSED (B APRM DETECTOR);

YP_XREMT(558) LPRM 38-39C IS BYPASSED (C APRM DETECTOR);

YP_XREMT(559) LPRM 38-39D IS BYPASSED (D APRM DETECTOR);

YP_XREMT(56) F041L SOLENOID B SWITCH POSITION;

' YP_XREMT(560) LPRM 46-39A IS BYPASSED (B APRM DETECTOR);

YP_XREMT(561) LPRM 46-39B IS BYPASSED (C APRM DETECTOR);

YP_XREMT(562) LPRM 46-39C IS BYPASSED (D APRM DETFCTOR);

YP_XREMT(563) LPRM 46-39D IS BYPASSED (A APRM DETELTOR);

YP_XREMT(564) LPRM 06-3 t A IS BYPASSED (D APRM DETECTOR);

YP_XREMT(565) LPRM 06-31B IS BYPASSED (A APRM DETECTOR);-

' YP_XREMT(566) LPRM 06-31C IS BYPASSED (B APRM DETECTOR);

YP_XREMT(567) LPRM 06-31D IS BYPASSED (C APRM DETECTOR);

YP_XREMT(568) LPRM 14-31 A IS BYPASSED (C APRM DETECTOR);

YP_XREMT(569) LPRM 14 31B IS BYPASSED (D APRM DETECTOR);

YP_XREMT(57) F047C SOLENOID B SWITCH POSITION;

' YP_XREMT(570) LPRM 14-3IC IS BYPASSED (A APRM DETECTOR);

YP_XREMT(571) LPRM 14-31D IS BYPASSED (B APRM DETECTOR);

YP_XREMT(572) LPRM 22-31 A IS BYPASSED (D APRM DETECTOR);

YP_XREMT(573) LPRM 22 3IB IS BYPASSED (A APRM DETECTOR);

YP_XREMT(574) LPRM 22 31C IS BYPASSED (B APRM DETECTOR);,

YP_XREMT(575) LPRM 22-3ID IS BYPASSED (C APRM DETECTOR);

YP_XREMT(576) LPRM 30-31 A IS BYPASSED (C APRM DETECTOR);

l YP_XREMT(577) LPRM 30 31B IS BYPASSED (D APRM DETECTOR);

YP_XREMT(578) LPRM 30-31C IS BYPASSED (A APRM DETECTOR);

YP_XREMT(579) LPRM 30-31D IS BYPASSED (B APRM DETECTOR);

YP_XREMT(58) F04IG SOLENOID B SWITCH POSITION; YP_XREMT(580) , LPRM 38-31 A IS BYPASSED (D APRM DETECTOR);

YP_XREMT(531) - LPRM 38-31B IS BYPASSED (A APRM DETECTOR);

. YP_XREMT(582) LPRM 3M-31C IS BYPASSED (B APRM DETECTOR);

YP_XREMT(583) LPRM 38-31D IS BYPASSED (C APRM DETECTOR);

62 l

L

y l.

e ATTACHMENT 3 REMOTE FUNCTIONS i

l YP_XREMT(584) LPRM 46-31 A IS BYPASSED (C APRM DETECTOR);

l YP_XREMT(585) LPRM 46-31B IS BYPASSED (D APRM DETECTOR);

- YP_XREMT(586) - LPRM 46-31C IS BYPASSED (A APRM DETECTOR);

l _ YP_XREMT(587) LPRM 46-31D IS BYPASSED (B APRM DETECTOR);

l YP_XREMT(588) LPRM 06-23 A IS BYPASSED (A APRM DETECTOR);

l YP_XREMT(588) .LPRM 06-23B IS BYPASSED (B APRM DETECTOR); 1 l YP_XREMT(59) F05IC SOLENOID B SWITCH POSITION; l YP_XREMT(590) LPRM 06-23C IS BYPASSED (C APRM DETECTOR);

YP_XREMT(591) LPRM 06-23D IS BYPASSED (D APRM DETECTOR);

YP_XREMT(592) LPRM 14-23 A IS BYPASSED (B APRM DETECTOR);

YP_XREMT(593) LPRM 14-23B IS BYPASSED (C APRM DETECTOR);

YP_XREMT(594) LPRM 14-23C IS BYPASSED (D APRM DETECTOR);

YP_XREMT(595) LPRM 14-23D IS BYPASSED (A APRM DETECTOR); l YP_XREMT(596) . LPRM 22-23 A IS BYPASSED (A APRM DETECTOR); J YP_XREMT(597) LPRM 22-23B IS BYPASSED (B APRM DETECTOR);

YP_XREMT(598) LPRM 22-23C IS BYPASSED (C APRM DETiX"TY . t I

YP_XKEMT(599) LPRM 22-23D IS BYPASSED (D APRM DETE i ~ R);

YP_XREMT(6) IN SERVICE RWCU HEAT EXCHANGER- B/A; YP_XREMT(60) F041C SOLENOID B SWITCH POSITION; YP_XREMT(600) LPRM 30-23 A IS BYPASSED (B APRM DETECTOR);

YP_XREMT(601) LPRM 30-23B IS BYPASSED (C APRM DETECTOR);

YP_XREMT(602) LPRM 30 23C IS BYPASSED (D APRM DETECTOR); -l YP_XREMT(603) LPRM 30-23D IS BYPASSED (A APRM DETECTOR); j

' YP_XREMT(604) LPRM 38-23A IS BYPASSED (A APRM DETECTOR);  ;

YP_XREMT(605) LPRM 38-23B IS BYPASSED (B APRM DETECTOR);

}

YP_XREMT(606) LPRM 38-23C IS BYPASSED (C APRM DETECTOR);

YP_XREMT(607) LPRM 38-23D IS BYPASSED (D APRM DETECTOR);

YP_XREMT(608) LPRM 46-23A IS BYPASSED (B APRM DETECTOR);

YP, XREMT(609) LPRM 46-238 IS BYPASSED (C APRM DETECTOR);

YP_XREMT(61) F047B SOLENOID B SWITCH POSITION; YP_XREMT(610) LPRM 46-23C IS BYPASSED (D APRM DETECTOR);

YP_XREMT(611) LPRM 46-23D IS BYPASSED (A APRM DETECTOR);

YP_XREMT(612) LPRM 06-15A IS BYPASSED (D APRM DETECTOR);

YP_XREMT(613) LPRM 06-15B IS BYPASSED (A APRM DETECTOR);

YP_XREMT(614) LPRM 06-15C IS BYPASSED (B APRM DETECTOR);

YP_XREMT(615) LPRM 06-15D IS BYPASSED (C APRM DETECTOR);

- YP_XREMT(616) LPRM 14-15A IS BYPASSED (C APRM DETECTOR);

YP_XREMT(617) LPRM 14-15B IS BYPASSED (D APRM DETECTOR);

YP_XREMT(618) LPRM 14-15C IS BYPASSED (A APRM DETECTOR);

YP_XREMT(619) LPRM 14-15D IS BYPASSED (B APRM DETECTOR);

YP_XREMT(62) F0418 SOLENOID B SWITCH POSITION;

' YP_XREMT(620) LPRM 22-15A IS BYPASSED (D APRM DETECTOR);

YP_XREMT(622) LPRM 22-15C IS BYPASSED (B APRM DETECTOR);

YP_XREMT(623) LPRM 22-15D IS BYPASSED (C APRM DETECTOR);

YP_XREMT(624) LPRM 30-15A IS BYPASSED (C APRM DETECTOR);

, YP_XREMT(625) LPRM 3015B IS BYPASSED (D APRM DETECTOR);

YP_XREMT(627) LPRM 30-15D IS BYPASSED (B APRM DETECTOR);

YP_XREMT(628) - LPRM 38-15A IS BYPASSED (D APRM DETECTOR);

YP_XREMT(63) F051B SOLENOID B SWITCH POSITION;

. YP_XREMT(630) .LPRM 38-15C IS BYPASSED (B APRM DETECTOR);

YP_XREMT(631) ' LPRM 38-15D IS BYPASSED (C APRM DETECTOR);

-- YP_XREMT(632) LPRM 46-15A IS BYPASSED (C APRM DETECTOR);

YP.,XREMT(633) LPRM 46-15B IS BYPASSED (D APRM DETECTOR);

YP_XREMi(635) LPRM 46-15D IS BYPASSED (B APRM DETECTOR);

63

ATTACHMENT 3 REMOTE FUNCTIONS l .YP_XREMT(636) LPRM 14-07A IS BYPASSED (B APRM DETECTOR);

YP_XREMT(637) LPRM 14-07B IS BYPASSED (C APRM DETECTOR);

YP_XREMT(638) LPRM 14-07C IS BYPASSED (D APRM DETECTOR);

YP_XREMT(639) LPRM 14-07D IS BYPASSED (A APRM DETECTOR);

YP_XREMT(64) F041F SOLENOID B SWITCH POSITION; YP_XREMT(640) . - LPRM 22-07A IS BYPASSED (A APRM DETECTOR);

YP_XREMT(641) LPRM 22-07B IS BYPASSED (B APRM DETECTOR);

YP_XREMT(642) LPRM 22-07C IS BYPASSED (C APRM DETECTOR);

YP_XREMT(643) LPRM 22-07D IS BYPASSED (D APRM DETECTOR);

YP_XREMT(644) LPRM 30-07A IS BYPASSED (B APRM DETECTOR);

YP_XREMT(645) LPRM 30-07B IS BYPASSED (C APRM DETECTOR);

YP_XREMT(646) LPRM 30-07C IS BYPASSED (D APRM DETECTOR);

YP_XREMT(647) LPRM 30-07D IS BYPASSED (A APRM DETECTOR);

YP_XREMT(648) LPRM 38-07A IS BYPASSED (A APRM DETECTOR),

YP_XREMT(649) LPRM 38-07B IS BYPASSED (B APRM DETECTOR);

YP_XREMT(65) F047F SOLENOID B SWITCH POSITION; YP_XREMT(650) LPRM 38-07C IS BYPASSED (C APRM DETECTOR);

YP_XREMT(651) LPRM 38-07D IS BYPASSED (D APRM DETECTOR);

YP_XREMT(652) AIR PURGE TO OG RECOMBINER A F004 A; YP_XREMT(653) AIR PURGE TO OG RECOMBINER B F004B; YP_XREMT(654) IN SERVICE REGENERATION TRAIN ; I YP_XREMT(655) RESET TIMER CAM ;

j YP_XREMT(66) F041D SOLENOID B SWITCH POSITION; YP_XREMT(668) RHR FC ASSIST MANUAL LINE UP; YP_XREMT(669) RHR B WATER LEG VALVE F085B; l YP_XREMT(67) F047D SOLENOID B SWITCH POSITION; YP_XREMT(670) RHR B FLUSH VALVE F044B; YP_XREMT(671) RCIC TURBINE MECHANICAL RESET; l YP_XREMT(672) SRM SHORTING LINK STATUS; YP_XREMT(673) NSPS SCRAM BREAKER STATUS; YP_XREMT(674) RESET RR PUMP A LOCK OUT RELAY; YP_XREMT(675) RESET RR PUMP B LOCK OUT RELAY; YP_XREMT(676) HYDRAULIC POWER UNIT A STATUS ;

YP_XREMT(677) HYDRAULIC POWER UNIT B STATUS ;

YP_XREMT(678) INJECTION TO LOWER PLENUM VALVE C41F008; YP_XREMT(69) RESTORE SA HEADER ;

YP_XREMT(699) SH'UNT TRIP RESTORATION EXCEPT FOR TURBINE BUILDING MCC IM; YP_XREMT(70) RESTORE RW BUULDUNG 1 A HEADER; YP_XREMT(703) RESTORE SA COMPRESSOR 0 SEAL PRESSURE; YP_XREMT(704) RESTORE SA COMPRESSOR 1 SEAL PRESSURE; YP_XREMT(705) RESTORE SA COMPRESSOR 2 SEAL PRESSURE;  ;

YP_XREMT(706) BYPASS IA DRYER TROUBLE ANNUNCIATOR; '

YP_XREMT(707) ENABLE / DISABLE SM DUMP VALVE DIVISION 1 ;

YP_XREMT(708) ENABLE / DISABLE SM DUMP VALVE DIVISION 2 ;  ;

YP_XREMT(71) RESTORE CONTROL BUILDING IA HEADER; YP_XREMT(720) RHR A FLUSH VALVE F044A; l YP_XREMT(721) SUPPRESSION POOL REJECT TO CY TANK VIA SF/FC; YP_XREMT(722) START DCS >10 MINUTE LOSS OF POWER; YP_XREMT(723) E12F008 SUPPLY BREAKER POSITION; YP_XREMT(725) OPERATE SY DISCONNECT 4513; YP_XREMT(726) OPERATE SY DISCONNECT 4521; YP_XREMT(727) RESET GENERATOR ELECTRICAL. FAULT; YP_XREMT(731) TURBINE DRIVEN REACTOR FEED PUMP LOW SUCTION TRIP LOGIC YP_XREMT(732) DEFEAT TURBINE BUILDING MCC-lM SHUNT TRIP; 64

)

ATTACHMENT 3 REMOTE FUNCTIONS i L YP_XREMT(733) - LOW REACTOR PRESSURE VESSEL PRESSURE RCIC INTERLOCK;

- YP_XREMT(734) HIGH POOL RCIC SUCTION INTERLOCK;

.YP_XREMT(735) 1A ISOLATION INTERLOCK; YP_XREMT(736) LOW RPV LEVEL MSIV INTERLOCK; YP_XREMT(737) RWCU SYSTEM ISOLATIONS; YP_XREMT(738) VP SYSTEM ISOLATIONS; YP_XREMT(739) lA.AND GROUP 1 ISOLATIONS; YP_XREMT(739) RPV VENT PATH ISOLATION MSIV'S; YP_XREMT(740) RCIC ISOLATIONS; )

YP_XREMT(740) RPV VENT PATH ISOLATION RCIC; .

I YP_XREMT(741) HIGH RPV LEVEL MOTOR DRIVEN REACTOR FEED PUMP TRIP; YP_XREMT(742) HIGH RPV LEVEL HPCS ISOLATION; YP_XREMT(743) VENT CONTAINMENT- RHR A INTERLOCKS; YP_XREMT(744) VENT CONTAINMENT- FC INTERLOCKS; YP_XREMT(745) VENT CONTAINMENT- RHR B INTERLOCKS; YP_XREMT(746) ' ENT CONTAINMENT - VR INTERLCOKS; YP_XREMT(747) VF SYSTEM LOCA ISOLATIONS; YP_XREMT(748) RPS LOGIC TRIPS; YP_XREMT(749) ARI LOGIC TRIPS; YP_XREMT(750) INSERT ROD BLOCKS; YP_XREMT(751) RHR A INJECTION VALVE SEAL IN; YP_XREMT(752) RHR B INJECTION VALVE SEAL IN; YP_XREMT(753) RHR C INJECTION VALVE SEAL IN; YP_XREMT(754) LPCS INJECTION VLV SEAL IN;

.YP_XREMT(755) HPCS INJECTION VLV SEAL IN;'

YP_XREMT(756) CONDENSER VACCUUM PUMP HIGH RADIATION TRIP; YP_XREMT(757) RR PUMP A/B LOW TEMPERATURE INTERLOCK OVERRIDE; YP_XREMT(758) BYPASS VALVE LOW VACUUM TRIP; YP,XREMT(759) SHUNT RESET TURBINE BUILDING MCC IM; YP_XREMT(761) RESET DIVISION 2 DG LOCKOUT; YP_XREMT(762) RESET DIVISION 3 DG LOCKOUT; YP_XREMT(763) MANUAL OPERATION OF ADS BACK-UP AIR SUPPLY VALVE; YP_XREMT(764) CLOS'JRE OF VALVES ES013 A/B AND ES016A/B; YP_XREMT(765) SECURE RT FLOW TO FW LINE A ;

SECURE RT FLOW TO FW LINE B ; l YP_XREMT(766) i YP_XREMT(767) HIGH POOL HPCS SUCTION INTERLOCK; YP_XREMT(768) DEFEAT / LOSS OF DC POWER ALARM

' YP_XREMT(769) SF AUTOISOLATIONS; '

YP_XREMT(770) OPERATE DIVISION 1 LOAD BREAKERS; YP_XREMT(771) OPERATE CIRCUIT 14 BREAKER DIVISION 1; l

YP_XREMT(772) OPERATE DIVISION 2 LOAD BREAKERS; YP_XREMT(773) OPERATE CIRCUIT 14 BREAKER DIVISION 2; YP_XREMT(774) OPERATE DIVISION 3 LOAD BREAKERS; j

, YP_XREMT(775) OPERATE DIVISION 4 LOAD BREAKERS; -

YP_XREMT(776) DIVISION 1 H202/ POST LOCA MODE; YP_XREMTt777) DIVISION 2 H202/ POST LOCA MODE; YP_XREMT(779) SA COMPRESSOR 0 IN UNLOAD MODE; YP_XREMT(780) SA COMPRESSOR 1 IN UNLOAD MODE; YP_XREMT(781) SA COMPRESSOR I IN UNLOAD MODE; YP_XREMT(782) DISABLE LOW PRESSURE START FOR SA COMPOMPRESSOR;

' YP_XREMT(8) ' CCW HEAT EXCHANGER A OFF/ON LINE;

.YP_XREMT(812) ACKNOWLEDGE LOCAL GC SYSTEM TROUBLE ALARM YP_XREMT(9) . CCW HEAT EXCHANGER B OFF/ON LINE; YPCWREMT(1) VALVE ICC076A BREAKER STATUS; i

65 i

r 3 ATTACHMENT 3 REMOTE FUNCTIONS

. YPCWREMT(2) VALVE ICC076B BREAKER STATUS; l YPHPCY(1) CY INJECTION TO REACTOR VIA HPCS; YPLPACY CY INJECrlON TO REACTOR VIA LPCI A; YPLPBCY- CY INJECTION TO REACTOR VIA LPCI B; YPLPCCY CY INJECTION TO REACTOR VIA LPCI C; YPLPCY CY INJECTION TO REACTOR VIA LPCS;

YPXREMPO(1) TEMPERATURE CONTROL BYPASS VALVE (WS015);0 -100%

l ~ YPXREMPO(2) MAIN CONDENSER TUBE FOULING; O - 100%

YPXREMPO(24) APRM A GAIN ADJUSTMENT (0.5 - 1.5) f YPXREMPO(25) APRM B GAIN ADJUSTMENT (0.5 - 1.5)

YPXREMPO(26) - APRM C GAIN ADJUSTMENT (0.5 - 1.5)

YPXREMPO(27) ' APRM D GAIN ADJUSTMENT (0.5 - 1.5)

YPXREMPO(29)' FUEL POOL HEAT LOAD; O - 100%

l YPXREMPO(3) CONTROL LAKE TEMPERATURE 33 - 90 DEGREES; l YPXREMPO(4) ADJUST GRID FREQENCY (59.5 HZ TO 60.5HZ) i YPXREMPO(5) ADJUST GRID VOLTAGE (327.5KV TO 362.5KV)

YPXREMPO(6) H2 REGULATOR SETPOINT (0.0 - 65.0)

YVFWC2SP CNDENSATE FILTER FLOW RATE SET; O - 6000 GPM YVFWCPCL(1) CNDENSATE POLISHF.R A CLOGGING FACTOR; O 100%

YVFWCPCL(2) CNDENSATE POLISHER B CLOGGING FACTOR; O - 100%

YVFWCPCL(3) CNDENSATE POLISHER C CLOGGING FACTOR; O - 100%

YVFWCPCL(4)- CNDENSATE POLISHER D CLOGGING FACTOR; O - 100%

YVFWCPCL(5) CNDENSATE POLISHER E CLOGGING FACTOR; O - 100%

YVFWCPCL(6) CNDENSATE POLISHER F CLOGGING FACTOR; O - 100%

YVFWCPCL(7) CNDENSATE POLISHER G CLOGGING FACTOR; O - 100%

YVFWCPCL(8) CNDENSATE POLISHER H CLOGGING FACTOR; O - 100%  !

YVFWCPCL(9) CNDENS ATE POLISHER J CLOGGING FACTOR; O - 100% j

( YVMCLVDP(l) B21F484A LOCAL VALVE DEMAND POSITION;0 - 100% '

YVMCLVDP(2) B21F484B LOCAL VALVE DEMAND POSITION;0 - 100%

YVMCMCLV CONDENSER HOTWELL LIQUID LEVEL - FEET YVMCMCTF CONDENSER TUBE FOULING HEAT TRANSFER PROPERTIES ;0 - 100%

YCMSCTAU(1) PDIC-N596 MSR A REHEAT CONTROL AUTO / MANUAL; l YCMSCTAU(2) PDIC-N597 MSR B REHEAT CONTROL AUTO / MANUAL;

! YCMSCTMN(1) PDIC-N596 MSR A REHEAT CONTROL MANUAL; YCMSCTMN(2) PDIC-N597 MSR B REHEAT CONTROL MANUAL; j YP_XREMT(100) ROD 44-45 RGDS CONTROL ROD DRIVE BYPASS;

! YP_XREMT(101) ROD 48-45 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(102) ROD 04-41 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(103) ROD 08-41 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(104) ROD 12-41 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(105) ROD 16-41 RGDS CONTROL ROD DRIVE BYPASS; l YP_XREMT(106) ROD 20-41 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(107) ROD 24-41 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(108) ROD 28-41 RGDS CONTROL ROD DRIVE BYPASS; l

YP_XREMT(109) ROD 32-41 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(llo) - ROD 36-41 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(lll) ROD 40-41 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(ll2) ROD 44-41 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(ll3) ROD.48-41 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(ll4) ROD 52-41 RGDS CONTROL ROD DRIVE BYPASS;

- YP_XREMT(ll5) . ROD 04-37 RGDS CONTROL ROD DRIVE BYFASS; YP_XREMT(ll6) - ROD 08-37 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(ll7) ROD 12-37 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(ll8) ROD 16-37 RGDS CONTROL ROD DRIVE BYPASS; 66 l >

l

y . ,' .;

. ATTACHMENT 3 REMOTE FUNCTIONS .

lc . YP_XREMT(119) ROD 20 37 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(120) . ROD 24-37 RGDS CONTROL ROD DRIVE BYPASS;

,

YP_XREMT(121) ROD 28-37 RGDS CONTROL ROD DRIVE BYPASS;

j. ' YP_XREMT(122)- ROD 32-37 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(123) : ROD 36-37 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(124) ROD 40 37 RGDS CONTROL ROD DRIVE BYPASS; 1YP_XREMT(125) . ROD 44 37 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(126)- ROD 48-37 RGDS CONTROL ROD DRIVE BYPASS;

. YP_XREMT(127) . ROD 52-37 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(128) ROD 04-33 RGDS CONTROL ROD DRIVE BYPASS;

-YP_XREMT(129) ROD 08-33 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(130) ROD 12-33 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(131) ROD 16-33 RGDS CONTROL ROD DRIVE B'(PASS; YP_XREMT(132) ROD 20-33 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(133) ROD 24-33 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(134) ROD 28-33 RGDS CONTROL ROD DRIVE BYPASS, YP_XREMT(135) . ROD 32-33 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(136) RG9 36-33 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(137) ROD 40-33 RGDS CONTROL ROD DRIVE BYPASS; l

YP_XREMT(138) ROD 44-33 RGDS CONTROL ROD DRIVE BYPASS; -

YP_XREMT(139) ROD 48-33 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(140) ROD $2-33 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(141) ROD 04-29 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(142) ROD 08-29 RGDS CONTROL ROD DRIVE BYPASS;

. YP_XREMT(143) ROD 12-29 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(144) ROD 16-29 RGDS CONTROL ROD DRIVE BYPASS;

. YP_XREMT(145) ROD 20-29 RGDS CONTROL ROD DRIVE BYPASS;

- YP_XREMT(146) ROD 24-29 RGDS CONTROL ROD DRIVE BYPASS;

' YP_XREMT(147) ROD 28-29 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(148) ROD 32-29 RGDS CON TROL ROD DRIVE BYPASS; YP_XREMT(149) ROD 36-29 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(150) - ROD 40-29 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(151)'. ROD 44-29 RGDS CONTROL ROD DRIVE BYPASS; i YP_XREMT(152) ROD 48-29 RGDS CONTROL ROD DRIVE BYPASS;-

YP_XREMT(153) - ROD 52-29 RODS CONTROL ROD DRIVE BYPASS; YP_XREMT(154) ROD 04-25 RGDS CONTROL ROD DRIVE BYPASS;

YP_XREMT(155) ROD 08-25 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(156) ROD 12-25 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(157) ROD 16-25 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(158) ROD 20-25 RGDS CONTROL ROD DRIVE BYPASS; l

YP_XREMT(159) ROD 24-25 RGD3 CONTROL ROD DRIVE BYPASS; YP_XREMT(160) ROD 28 25 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(161) ROD 32-25 RGDS CONTROL ROD DRIVE BYPASS; YP_XRELT(162) . ROD 36-25 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(163) ROD 40-25 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(164) . ROD 44-4.5 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(165) ROD 48-25 RGDS CONTROL ROD DRIVE BYPASS; l YP_XREMT(166) ROD 52-25 RGDS CON TROL ROD DRIVE BYPASS; YP_XREMT(167) - ROD 04-21 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(168) ROD 08 21 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(169) . ROD 12-21 RGDS CONTROL ROD DRIVE BYPASS;

' YP_XREMT(170) ROD 16-21 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(171) ROD 20-21 RGDS CONTROL ROD DRIVE BYPASS;

. YP_XREMT(172) ROD 24-21 RGDS CONTROL ROD DRIVE BYPASS; L

67 LL

ATTACHMENT 3 REMOTE FUNCTIONS YP_XREM1il73) ROD 28-21 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(174) ROD 32-21 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(175) ROD 36-21 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(176) - ROD 40-21 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(177) ROD 44-21 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(178). ROD 48-21 RGDS CONTROL ROD DRIVE BYPASS; .

YP_XREMT(179) ROD 52 21 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(180) ROD 0417 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(181) . ROD 08-17 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(182) ROD 12-17 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(183) ROD 16-17 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(184)' ROD 20-17 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(185) ROD 24-17 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(186) . ROD 2817 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(187) ROD 32-17 RGDS CONTROL. ROD DRIVE BYPASS; YP_XREMT(188) . ROD 36-17 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(189) ROD 4017 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(190) ROD 44-17 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(191) ROD 48-17 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(192) ROD 5217 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(193) ROD 08-13 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(194) ROD 12-13 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(195) ROD 16-13 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(196) ROD 20-13 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(197) ROD 24-13 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(198) ROD 28-13 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(199) ROD 32-13 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(200) ROD 3613 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(201) ROD 40-13 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(202) ROD 44-13 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(203) ROD 4813 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(204) ROD 12-09 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(205) ROD 16-09 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(206) ROD 20-09 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(207) ROD 24-09 RGDS CONTROL ROD DRIVE BYPASS; YP XREMT(208) ROD 28-09 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(209) ROD 32-09 RGDS CONTROL ROD DRIVE BYPASS; YP_XPIMT(210) ROD 36-09 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(211) ROD 40-09 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(212) ROD 44-09 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(213) ROD 16-05 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(214) ROD 20-05 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(21]) ROD 24-05 RGDS CONTROL ROD DRIVE BYPASS;

.YP_XREMT(2)o) ROD 28-05 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(217) ROD 32-05 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(218) ROD 36-05 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(219) . ROD 40-05 RGDS CONTROL ROD DRIVE BYPASS, YP_XREMT(220) ROD 16-53 CONTROL ROD POSITION BYPASSED; YP_XREMT(221) ROD 20-53 CONTROL ROD POSITION BYPASSED; YP_XREMT(222) ROD 24-53 CONTROL ROD POSITION BYPASSED; YP_XREMT(223) ROD 28-53 CONTROL ROD POSITION BYPASSED; I YP_XREMT(224) ROD 32-53 CONTROL ROD POSITION BYPASSED; YP_XREMT(225) ROD 36-53 CONTROL ROD POSITION BYPASSED; YP_XREMT(226) ROD 40-53 CONTROL ROD POSITION . BYPASSED; 68

=

' ATTACHMENT 3 REMOTE FUNCTIONS YP_XREMT(227) ROD 12-49 CONTROL ROD POSITION BYPASSED;

' YP_XREMT(228) ~ ROD 16 49 CONTROL ROD POSITION BYPASSED;

- YP_XREMT(229) ROD 20-49. CONTROL ROD POSITION BYPASSED; j

~ YP_XREMT(230) ROD 24-49 CONTROL ROD POSITION BYPASSED; YP_XREMT(231) ROD 28-49 CONTROL ROD POSITION BYPASSED; YP_XREMT(232) . . ROD 32-49 CONTROL ROD POSITION BYPASSED; YP_XREMT(233) - ROD 36-49 CONTROL ROD POSITION BYPASSED; YP_XREMT(234) '- ' ROD 40-49 CONTROL ROD POSITION BYPASSED; YP_XREMT(235) ROD.44-49 CONTROL ROD POSITION BYPASSED; l YP_XREMT(236) . ROD 08-45 CONTROL ROD POSITION BYPASSED; l YP_XREMT(237) . _ ROD 12-45 CONTROL ROD POSITION BYPASSED; j YP_XREMT(238). ROD 16-45 CONTROL ROD POSITION BYPASSED; YP_XREMT(239) . ROD 20-45 CONTROL ROD POSITION BY~ PASSED; YP_XREMT(240) .. ROD 24-45 CONTROL ROD POSITION BYPASSED; YP_XREMT(241) . . ROD 28-45 CONTROL ROD POSITION BYPASSED;

-YP_XREMT(242) - ROD 32-45 CONTROL ROD POSITION BYPASSED; YP_XREMT(243) ROD 36-45 CONTROL ROD POSITION BYPASSED; i YP_XREMT(244) ROD 40-45 CONTROL ROD POSITION BYPASSED; YP_XREMT(245) . ROD 44-45 CONTROL ROD POSITION BYPASSED; .

TP_XREMT(246) ROD 48-45 CONTROL ROD POSITION BYPASSED;

YP_XREMT(247) . ROD 04-41 CONTROL ROD POSITION BYPASSED;

.J

- YP_XREMT(248) ROD 08-41 CONTROL ROD POSITION BYPASSED; YP_XREMT(249) ROD 12-41 CONTROL ROD POSITION BYPASSED; YP_XREMT(250) ROD 16-41 CONTROL ROD POSITION BYPASSED;

. ROD 20-41 CONTROL ROD POSITION BYPASSED;

)

YP_XREMT(251) i YP_XREMT(252) . ROD 24-41 CONTROL ROD POSITION EYPASSED; YP_XREMT(253) ROD 28-41 CONTROL ROD POSITION BYPASSED; i l

YP_XREMT(254) ' ROD 32-41 CONTROL ROD POSITION BYPASSED;.

YP_XREMT(255) ROD 36-41 CONTROL ROD POSITION BYPASSED; YP_XREMT(256) ROD 40-41 CONTROL ROD POSITION BYPASSED; I YP_XREMT(257) ROD 44-41 CONTROL ROD POSITION BYPASSED; )

YP_XREMT(258) ROD 48-41 CONTROL ROD POSITION BYPASSED; YP_XREMT(259) ROD 52-41 CONTROL ROD POSITION BYPASSED; YP_XREMT(260) ROD 04-37 CONTROL ROD POSITION BYPASSED;

' YP_XREMT(261) ROD 08-37 CONTROL ROD POSITION BYPASSED; YP_XREMT(262) ROD 12-37 CONTROL ROD POSITION BYPASSED; YP_XREMT(263) ROD 16-37 CONTROL ROD POSITION BYPASSED; YP_XREMT(264) ROD 20 37 CONTROL ROD POSITION BYPASSED; YP_XREMT(265) ROD 24-37 CONTROL ROD POSITION BYPASSED; YP_XREMT(266) ROD 28-37 CONTROL ROD POSITION BYPASSED; YP_XREMT(267) ROD 32-37 CONTROL ROD POSITION BYPASSED; YP_XREMT(268) ROD 36-37 CONTROL ROD POSITION BYPASSED; YP_XREMT(269) ROD 40-37 CONTROL ROD POSITION BYPASSED; i YP_XREMT(270) ROD 44-37 CONTROL ROD POSITION BYPASSED; i YP_XREMT(271) ROD 48-37 CONTROL ROD POSITION BYPASSED; i YP_XREMT(272) ROD 52-37 CONTROL . ROD POSITION BYPASSED; YP_XREMT(273) . . ROD 04-33 CONTROL ROD POSITION BYPASSED;

! YP_XREMT(274) ROD 08-33 CONTROL ROD POSITION BYPASSED; ROD 12-33 CONTROL ROD POSITION BYPASSED; l -YP_XREMT(275) ' )

YP_XREMT(276) ROD 16-33 CONTROL ROD POSITION BYPASSED;

[ YP_XREMT(277) . ROD 20-33 CONTROL ROD POSITION BYPASSED; j YP_XREMT(278) ROD 24-33 CONTROL ROD POSITION BYPASSED;  !

YP_XREMT(279) . ROD 28-33 CONTROL ROD POSITION BYPASSED; j YP_XREMT(280) ROD 32-33 CONTROL ROD POSITION BYPASSED; 69 1

f(

= , - . , -

ATTACHMENT 3 REMOTE FUNCTIONS g YP_XREMT(281) ~ ROD 36-33 CONTROL ROD POSITION BYPASSED; l~ , YP,,XREMT(282) ROD 40-33 CONTROL ROD POSITION BYPASSED;

. YP_XREMT(283) ROD 44-33 CONTROL ROD POSITION BYPASSED; YP_XREMT(284) , ROD 48-33 CONTROL ROD POSITION BYPASSED; YP_XREMT(285) ROD 52-33 CONTROL ROD POSITION BYPASSED;

YP_XREMT(286) ROD 04-29 CONTROL ROD POSITION BYPASSED; YP_XREMT(287) ROD 08-29 CONTROL ROD POSITION BYPASSED; YP_XREMT(288)' ROD,12-29 CONTROL ROD POSITION BYPASSED; YP_XREMT(289) ROD 16-29 CONTROL ROD POSITION BYPASSED; l'

YP_XREMT(290) _ ROD 20-29 CONTROL ROD POSITION BYPASSED;

' YP_XREMT(291): ROD 24-29 CONTROL ROD POSITION BYPASSED;

' YP_XREMT(292) ROD 28-29 CONTROL ROD POSITION BYPASSED; l 'YP_XREMT(293) ROD 32-29 CONTROL ROD POSITION BYPASSED; YP_XREMT(294)- ROD 36-29 CONTROL ROD POSITION BYPASSED;

' YP_XREMT(295) - ROD 40-29 CONTROL ROD POSITION BYPASSED; i

YP_XREMT(296) ROD 44-29 CONTROL ROD POSITION BYPASSED;

-)

i YP_XREMT(297) ROD 48-29 CONTROL ROD POSITION BYPASSED; I

. YP_XREMT(298) ROD 52 29 CONTROL ROD POSITION BYPASSED;

{

l YP_XREMT(299) . - ROD 04-25 CONTROL ROD POSITION BYPASSED; j YP_XREMT(300)- ROD 08-25 CONTROL ROD POSITION BYPASSED; - j

' YP_XREMT(301) - ROD 12-25 CONTROL ROD POSITION BYPASSED;

' YP_XREMT(302) ROD 16-25 CONTROL ROD POSITION BYPASSED;

~ YP_XREMT(303) ROD 20-25 CONTROL ROD POSITION BYPASSED; YP_XREMT(304) _ ROD 24 25 CONTROL ROD POSITION BYPASSED; YP_XREMT(305) ROD 28 25 CONTROL ROD POSITION BYPASSED; YP_XREMT(306) ROD 32-25 CONTROL ROD POSITION BYPASSED; YP_XREMT(307) ROD 36-25 CONTROL ROD POSITION BYPASSED; YP_XREMT(308) ROD 40-25 CONTROL ROD POSITION BYPASSED; YP_XREMT(309) ROD 44-25 CONTROL ROD POSITION BYPASSED; YP_XREMT(310) - ROD 48-25 CO'NTROL ROD POSITION BYPASSED; YP_XREMT(311) ROD 52-25 CONTROL ROD POSITION BYPASSED; YP_XREMT(312) ROD 04-21 CONTROL ROD POSITION BYPASSED; YP_XREMT(313) ROD 08 21 CONTROL ROD POSITION BYPASSED; YP_XREMT(314) . ROD 12-21 CONTROL ROD POSITION BYPASSED; YP_XREMT(315) ROD 16-21 CONTROL ROD POSITION BYPASSED; YP_XREMT(316) ROD 20-21 CONTROL ROD POSITION BYPASSED; YP_XREMT(317) ROD 24 21 CONTROL ROD POSITION BYPASSED; YP_XREMT(318) ROD 28-21 CONTROL ROD POSITION BYPASSED; YP_XREMT(319) ROD 32 21 CONTROL ROD POSITION BYPASSED; YP_XREMT(320) ROD 36-21 CONTROL ROD POSITION BYPASSED;

'YP_XREMT(321) ROD 40-21 CONTROL ROD POSITION BYPASSED; YP_XREMT(322) ROD 44 21 CONTROL ROD POSITION BYPASSED; YP_XREMT(323) - ROD 48-21 CONTROL ROD POSITION BYPASSED; YP_XREMT(324) ROD 52 21 CONTROL ROD POSITION BYPASSED;

. YP_XREMT(325) ' ROD 0417 CONTROL ROD POSITION BYPASSED; YP_XREMT(326) ROD 08-17 CONTROL ROD POSITION BYPASSED; YP_XREMT(327) ROD 12 17 CONTROL ROD POSITION BYPASSED; YP_XREMT(328) - ROD 1617 CONTROL ROD POSITION BYPASSED;

- YP_XREMT(329) . ROD 20-17 CONTROL ROD POSITION BYPASSED; YP_XREMT(330) ROD 24-17 CONTROL ROD POSITION BYPASSED; l

YP_XREMT(331) ROD 28-17 CONTROL ROD POSITION BYPASSED; YP_XREMT(332) ROD 32-17 CONTROL ROD POSITION BYPASSED;  ;

. YP_XREMT(333) ROD 36-17 CONTROL ROD POSITION BYPASSED; YP_XREMT(334) ROD 40-17 CONTROL ROD POSITION BYPASSED; 70 E

L

g

!? f..

ATTACHMENT 3 REMOTE FUNCTIONS YP_XREMT(335) ROD 4417 CONTROL ROD POSITION BYPASSED; YP_XREMT(336) ROD 48-17 CONTROL ROD POSITION BYPASSED; YP_XREMT(337) . ROD 52-17 CONTROL ROD POSITION BYPASSED;

YP_XREMT(338) ROD 08-13 CONTROL ROD POSITION BYPASSED; YP_XREMT(339) ROD 12-13 CONTROL ROD POSITION BYPASSED; YP_XREMT(340) - ROD 16-13 CONTROL ROD POSITION BYPASSED;

. YP_XREMT(341) . ROD 20-13 CONTROL ROD POSITION BYPASSED;

-YP_XREMT(342) ROD 24-13 CONTROL ROD POSITION BYPASSED; YP_XREMT(343) ROD 28-13 CONTROL, ROD POSITION BYPASSED; YP_XREMT(344) . ROD 32-13 CONTROL ROD POSITION BYPASSED; YP_XREMT(345) ROD 3613 CONTROL ROD POSITION BYPASSED; YP_XREMT(346) ~ ROD 40-13 CONTROL ROD POSITION BYPASSED; YP_XREMT(347) ROD 44-13 CONTROL ROD POSITION BYPASSED; YP_XREMT(348) ROD 48-13 CONTROL ROD POSITION BYPASSED; YP_XREMT(349) . ROD 12-09 CONTROL ROD POSITION BYPASSED; YP_XREMT(350)' ROD 16-09 CONTROL ROD POSITION BYPASSED; YP_XREMT(351) ROD 20-09 CONTROL ROD POSITION BYPASSED; YP_XREMT(352) ROD 24-09 CONTROL ROD POSITION BYPASSED; 'j YP_XREMT(353) ROD 28-09 CONTROL ROD POSITION BYPASSED; YP_XREMT(354) . ROD 32-09 CONTROL ROD POSITION BYPASSED; YP_XREMT(355) ROD 36-09 CONTROL ROD POSITION BYPASSED; }

YP_XREMT(356) ROD 40-09 CONTROL ROD POSITION BYPASSED;

' YP_XREMT(357) ROD 44-09 CONTROL ROD POSITION BYPASSED; YP_XREMT(358) ROD 16-05 CONTROL ROD. POSITION BYPASSED; YP_XREMT(359) ROD 20-05 CONTROL ROD POSITION BYPASSED; YP_XREMT(360) ROD 24-05 CONTROL ROD POSITION BYPASSED; YP_XREMT(361) . ROD 28-05 CONTROL ROD POSITION BYPASSED; YP_XREMT(362) ROD 32-05 CONTROL ROD POSITION BYPASSED; YP_XREMT(363) ROD 36-05 CONTROL ROD POSITION BYPASSED; YP_XREMT(364) ROD 40-05 CONTROL ROD POSITION BYPASSED; )

YP_XREMT(511) AUXILIARY BOILER STATUS; l YP_XREMT(512) . MSIV INBOARD LEAKAGE CONTROL SUSTEM STATUS; YP_XREMT(513) MSIV OUTBOARD LEAKAGE CONTROL SYSTEM STATUS; YP_XREMT(656) VF SUPPLY FAN VF03CA ON/OFF ;

YP_XREM f(657) . VF EXHAUST FAN VF04CA ON/OFF ;

.YP_XREMT(658) VC CHILLER A ON/OFF ;

- YP_XREMT(659) VC CH.lLLER B ON/OFF ;

YP_XREMT(660) VP CHILLER A ON/OFF ;

YP_XREMT(661) VP CHILLER B ON/OFF ;

YP_XREMT(662) START WO CHILLER A ;

YP_XREMT(663) START WO CHILLER B ; j YP_XREMT(664) START WO CHILLER C ;

YP_XREMT(665) . START WO CHILLER D ;

YP_XREMT(666) START WO CHILLER E ;

YP_XREMT(693) VF SUPPLY FAN VF03CB ON/OFF ;

YP_XREMT(694) VF EXHAUST FAN VF04CB O,N/OFF ;

YP_XREMT(695) VA SUPPLY / EXHAUST FAN A ON/OFF ;

YP_XREMT(696) VA SUPPLY / EXHAUST FAN B ON/OFF ;

YP_XREMT(697) CRD PUMP 'A' DISCHARGE VALVE 1Cl1F014A; YP_XREMT(698) CRD PUMP 'B' DISCHARGE VALVE 1ClIFO14B;

'YP_XREMT(709) . VT SUPPLY / EXHAUST FAN A ON/OFF ;

YP_XREMT(710) - VT SUPPLY / EXHAUST FAN B ON/OFF ;  ;

OPEN CHARGING WATER HEADER VALVE ICIIF034; YP_XREMT(712)-

YP_XREMT(713) WO PUMP B M AIN CONTROL ROOM / LOCAL SWITCH ;

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ATTACHMENT 3 REMOTE FUNCTIONS l_ . YP_XREMT(714) _WO PUMP C MAIN CONTROL ROOM / LOCAL SWITCH ;

.YP_XREMT(715) WO PUMP D MAIN CONTROL ROOM / LOCAL SWITCH ;

3 YP_XREMT(716) WO PUMP E MAIN CONTROL ROOM / LOCAL SWITCH ;

YP_XREMT(718) WO PUMP A MAIN CONTROL ROOM / LOCAL SWITCH ;

YP_XREMT(72) CRD HYDRAULIC FLOW CONTROL VALVE SELECT; YP_XREMT(724) . OPEN BREAKER TO B21RX)l;

. YP_XREMT(73) CRD HYDRAULIC SUPPLY TO RR PUMP 'A' SEALS; YP_XREMT(74) CRD HYDRAULIC SUPPLY TO RR PUMP 'B' SEALS;

- YP_XREMT(75) ROD 16-53 RGDS CONTROL ROD DRIVE BYPASS;

. YP_XREMT(76) . ROD 20-53 RGDS CONTROL ROD DRIVE BYPASS;

)

YP_XREMT(77) . ROD 24-53 RGDS CONTROL ROD DRIVE BYPASS; J YP_XREMT(778) CRD HYDRAULIC SUCTION FILTERS BYPASS;

. YP_XREMT(78) - ROD 28-53 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(79) ROD 32-53 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(80) . ROD 36-53 RGDS CONTROL ROD DRIVE BYPASS; j YP_XREMT(81) ROD 40-53 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(82) . ROD 12-49 RGDS CONTROL ROD DRIVE BYPASS; J

YP_XREMT(83) - ROD 16-49 RGDS CONTROL ROD DRIVE BYPASS; '

.YP_XREMT(84) ROD 20-49 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(85) ROD 24-49 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(86) ROD 28-49 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(87) ROD 32-49 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(88) ROD 36-49 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(89) _ ROD 40-49 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(90) ROD 44-49 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(91) ROD 08-45 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(92) ROD 12-45 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(93) ROD 16-45 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(94) ROD 20-45 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(95) ROD 24-45 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(96) ROD 28-45 RGDS CONTROL ROD DRIVE BYPASS; YP_XREMT(97) ROD 32-45 RGDS CONTROL ROD DRIVE BYPASS; j YP_XREMT(98) ROD 36-45 RGDS CONTROL ROD DRIVE BYPASS; i YP_XREMT(99) ' ROD 40-45 RGDS CONTROL ROD DRIVE BYPASS; YVMSCTH1 B21RSHLVI MANUAL OVERRIDE;0-100%

YVMSCTH2 B21RSHLV2 MANUAL OVERRIDE;0-100%  ;

YVMSCTL1 B21RSLLVI MANUAL OVERRIDE;0-100%

YVMSCTL2 B21RSLLV2 MANUAL OVERRIDE;0-l(X)%

YVMSCTSP(l) PDIC-N596 MSR A REHEAT CONTROLLER SETPOINT (0-975 PSI)

YVMSCTSP(2) PDIC-N597 MSR B REHEAT CONTROLLER SETPNOIT (0-975 PSI) '

I 72

ATTACHMENT 4 SIMULATION LIMITS The following actions are optionally performed for each parameter whenever its limit of simulation is reached:

1. The Simulator Confidence page is called up and will list all parameters that reached their limits.

2. The simulator is frozen.

3. The instructor station sounds an audible alarm.

4. The Simulator Confidence snapshot is created (IC #101).

The Limits Of Simulation are:

1

• Suppression Pool Temperature greater than 212.0 Degrees F e Containment Pressure greater than 15.0 PSIG e Drywell Pressure greater than 30.0 PSIG .

. Drywell Temperature greater than 330.0 Degrees F e Turbine Shaft Speed greater than 2500.0 RPM e Fuel Clad Temperature greater than 2200.0 Degrees F l

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v ATTACHMENT 5 SIMULATOR PERFORMANCE VERIFICATION GUIDE INDEX  !

l Steady State Comparison Tests ' Revision  ;

l i

i 1,01 Principal Mass and Energy Balance 10 )

1.02 . Simulator Stability . I1  !

1.04 Steady State Performance _- 50% Power- 10

-1.05 Steady State Performance -~ 75% Power 10 ,

1.06 Steady State Performance - 100% Power 10 Normal Plant Evolution Tests .

2.04 - Reac' tor Trip Followed By Recovery to Rated Power 10 2,07 Startup, Shutdown, and Power Operations With Less i than Full Reactor Coolant Flows 10 j

-2,08 Core Performance Testing 10 2,09

]

Operator Conducted Surveillance Testing 10 "

2.10 Normal Plant Evolutions 10 Malfunction Tests 3,01a Large Break LOCA Inside Primary Containment 10 )

3.0lb - Small Break LOCA Inside Primary Containment 11 3.01c Stuck Open SRV 11 3.02 Loss of Service / Instrument Air - 10 3.03 Loss of Offsite Power 10 3.04 Loss of Emergency Power 10 3.05 Loss of Emergency Diesel Generators 10 3.06 Loss of Selected 480 Volt Buses 10 3.07 Loss of o900 and 4160 Volt Buses 10 3,08 Loss ofInstrumentation Buses (AC and DC) 10 3.09 Recirculation Pump (s) Trip 11 3,10 Loss of Condenser Vacuum /Hotwell Level Control 10 3.11' ~ Loss of Service Water i1

~ 3.12 Loss of Shutdown Cooling i1 J 3.13- Los.s of Component Cooling 11 ]

3.14 Feedwater System / Control Failure 10 3.15 Loss ofInjection Capability 11 3.16 Loss of Protective System Channel 10 3.17 Control Rod Failures 10 3.18 ' Fuel Clad Failures 11 3.19 Turbine Trip 10 3.20a Large Steamline Break Outside Containment i1 ATTACHMENT 5 SIMULATOR PERFORMANCE VERIFICATION GUIDE INDEX Steady State Comparison Tests Revision 3.20b Small Steamline Break Outside Containment 11 3.21 Feedwater Line Break Outside Containment 10 3.22 Nuclear Instrumentation Failures 11 3.23 Passive Malfunctions 11 3.24 Reactor Protection System Failure (ATWS) 11 3.25 Turbine Bypass Failure 10 3.26 Generator Trip 10 3.27 Failure of Reactor Recirculation and Reactor Core Isolation Cooling Flow Controllers 10 3.28 Process Instrumentation Failures 10 Miscellaneous Tests 4.01 Simulator Physical Fidelity / Human Factors Verification Criteria 10 4.02 f

Simulator Instructor Station Capabilities 10 j 4.03 Malfunction Performance Test 10 j 4.04 Computer Timing Test i1 !

4.05 Display Control System Verification 10 l Benchmark Transient Tests 1

5.01 Manual Scram 10 5.02 Simultaneous Trip of All Feedwater Pumps 10 5.03 Simultaneous Closure of All MSIVs 10 5.04 Simultaneous Trip of All Recirculation Pumps 10 5.05 Single Recirculation Pump Trip 10 5.06 Main Turbine Trip (At Max Pwr Level Without an Immediate Scram) 10 5.07 Maximum Rate Power Ramp Down To Approximately 75%

Then Back Up to 100% 10 5.08 Maximum Size Reactor Coolant System Rupture Combined With Loss of All Offsite Power 10 5.09 Maximum Size Unisolable Main Steam Line Rupture 10 5.10 Simultaneous Closure of All Main Steam Isolation Valves Combined With A Single Stuck Open SRV (Inhibit High Pressure ECCS Activation) 10

5. I 1 Generator Trip (LER 89-028) 10 5.12 Simultaneous Circulating Water Pump Trip (LER 88-019) 10 5.13 Recirculation Pump Seal Failure (LER 89-022) 10 ATTACHMENT 6 SIMULATOR TESTING SCHEDULE SPVG # 1998 1999 2000 2001 2002 1.0 Steady State Comparison Tests 1.01 Principle Mass and Energy Balance X X X X X 1.02 Simulator Stability X X X X X 1.04 Steady State Performance - 50 % X X X X X 1.05 Steady State Performance - 75 % X X X X X 1.06 Steady State Performance - 100% X X X X X 2.0 Normal Plant Evolution Tests 2.04 Reactor Trip Followed By Recovery To X X X X X Rated Power 2.07 Startup, Shutdown, and Power Operations X X X X X with less than Full Reactor Coolant Flows 2.08 Core Performance Testing X X X X X 2.09 Operator Conducted Surveillance Testing X X X X X 2.10 Normal Plant Evolutions X X X X X 3.0 Malfunction Tests 3.01a Large Break LOCA Inside Primary X X Containment 3.0lb Small Break LOCA Inside Primary X X i Containment 3.01c Stuck Open SRV X X l

{

3.02 Loss of Service / Instrument Air X X l 3.03 Loss of Offsite Power X X i 3.04 Loss of Emergency Power X X 3.05 Loss of Emergency Diesel Generators X X 3.06 Loss of Selected 480 Volt Buses X X j 3.07 Loss of 6900 and 4160 Volt Buses X X i 3.08 Loss ofInstrumentation Buses (AC and X X  ;

DC)  !

3.09 Recirculation Pump (s) Trip X X j 3.10 Loss of Condenser Vacuum /Hotwell Level X X  !

Control l

3.11 Loss of Service Water X X  ;

3.12 Loss of Shutdown Cooling X X i l

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ATTACHMENT 6 SIMULATOR TESTING SCHEDULE SPVG # 1998 1999 2000 2001 2002 i

3.13 Loss of Component Cooling 'X X 3.14 Feedwater System / Control Failure X X 3.15 Loss oflnjection Capability X X

- 3.16 Loss of Protective System Channel X X 3.17 Control Rod Failures X X 3.18 Fuel Clad Failures X X 3.19 Turbine Trip X X 3.20a Large Steamline Break Outside X X Containment ,

3.20b Small Steamline Break Outside X X Containment 3.21 Feedwater Line Break Outside Containment X X 3.22 Nuclear Instrumentation Failures X X 3.23 Passive Malfunctions X X 3.24 Reactor . Protection System Failure (ATWS) X X 3.25. Turbine Bypass Failure X X 3.26 Generator Trip X X 3.27 Failure of Reactor Recirculation and X .X Reactor Core Isolation Cooling Flow 3.28 Process Instrumentation Failures X X 4.0 Miscellaneous Tests 4.01 Simulator Physical Fidelity / Human Factors ~X X X X X Verification Criteria 4.02 Simulator Instructor Station Capabilities X X X X X 4.03 Malfunction Performance Test 25 % 25 % 25 % 25% 25 %

4.04 Computer Timing Test X X X X X )

l 5.0 Benchmark Transient Tests 5.01 Manual Scram X X X' X X i 5.02 Simultaneous. Trip of All Feedwater Pumps X X X X X

' 5.03 Simultaneous Closure of All MSIVs X X X X X 5.04 Simultaneous Trip of All Recirculation X X X X X Pumps

~-

m.,.;,

ATTACHMENT 6 SIMULATOR TESTING SCHEDULE SPVG # 1998 1999 2000 2001 2002 5.05 Single Recirculation Pump Trip X X X X X  ;

5.06 Main Turbine Trip (At Max Power level X X X X X l without a Scram) l 5.07 Maximum Rate Power Ramp Down to X X X X X l Approximately 75% then Back up to 100% {

5.08 Maximium Size Reactor Coolant System X X X X X j Rupture Combined with LOOP )

5.09 Maximum Size Unisolable Main Steam Line X X X X X {

Rupture 5.10 Simultaneous Closure of All MSIVs X X X X X Combined With A Single Stuck Open SRV

( Inhibit High Pressure ECCS Activation )

5.11 Generator Trip (LER 89-028) X X X X X 5.12 Simultaneous Circulating Water Pump Trip X X X X X (LER 88-019) _

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