{{#Wiki_filter:ES-401                                       PWR Examination Outline                                     Form ES-401-2 Facility: Waterford 3 (RO Exam)                                     Date of Exam: March 27, 2017 RO K/A Category Points                                 SRO-Only Points Tier            Group K     K   K   K   K   K   A   A   A     A   G*                 A2           G*       Total 1    2  3  4    5    6  1    2    3    4          Total

: 1.               1         3     3   3                 3   3               3     18                                 6 Emergency &

Abnormal              2         2     2   1     N/A        1   2     N/A      1       9                                 4 Plant Evolutions      Tier Totals     5     5   4                 4   5               4     27                                 10 1         3     3   2   3   2   2   2   2   3   3     3     28                                 5 2.

Plant              2        1     0   1   1   1   1   1   1   1   1     1     10                                 3 Systems Tier Totals     4     3   3   4   3   3   3   3   4   4     4     38                                 8

: 3. Generic Knowledge and Abilities             1         2       3         4                 1     2     3     4       7 Categories 3        3        2          2        10 Note:     1.       Ensure that at least two topics from every applicable K/A category are sampled within each tier of the RO and SRO-only outlines (i.e., except for one category in Tier 3 of the SRO-only outline, the Tier Totals in each K/A category shall not be less than two). (One Tier 3 Radiation Control K/A is allowed if the K/A is replaced by a K/A from another Tier 3 Category).

: 2.       The point total for each group and tier in the proposed outline must match that specified in the table. The final point total for each group and tier may deviate by +/-1 from that specified in the table based on NRC revisions. The final RO exam must total 75 points and the SRO-only exam must total 25 points.

: 3.       Systems/evolutions within each group are identified on the associated outline; systems or evolutions that do not apply at the facility should be deleted with justification; operationally important, site-specific systems/evolutions that are not included on the outline should be added. Refer to Section D.1.b of ES-401 for guidance regarding the elimination of inappropriate K/A statements.

: 4.       Select topics from as many systems and evolutions as possible; sample every system or evolution in the group before selecting a second topic for any system or evolution.

: 5.       Absent a plant-specific priority, only those K/As having an importance rating (IR) of 2.5 or higher shall be selected. Use the RO and SRO ratings for the RO and SRO-only portions, respectively.

: 6.       Select SRO topics for Tiers 1 and 2 from the shaded systems and K/A categories.

: 7.       The generic (G) K/As in Tiers 1 and 2 shall be selected from Section 2 of the K/A Catalog, but the topics must be relevant to the applicable evolution or system. Refer to Section D.1.b of ES-401 for the applicable K/As.

: 8.       On the following pages, enter the K/A numbers, a brief description of each topic, the topics importance ratings (IRs) for the applicable license level, and the point totals (#) for each system and category. Enter the group and tier totals for each category in the table above; if fuel handling equipment is sampled in a category other than Category A2 or G* on the SRO-only exam, enter it on the left side of Column A2 for Tier 2, Group 2 (Note #1 does not apply). Use duplicate pages for RO and SRO-only exams.

: 9.       For Tier 3, select topics from Section 2 of the K/A catalog, and enter the K/A numbers, descriptions, IRs, and point totals (#) on Form ES-401-3. Limit SRO selections to K/As that are linked to 10 CFR 55.43.

G*       Generic K/As

ES-401                                                         2                                       Form ES-401-2 ES-401                                                 PWR Examination Outline                                   Form ES-401-2 Emergency and Abnormal Plant Evolutions - Tier 1/Group 1 (RO / SRO)

E/APE # / Name / Safety Function             K K K   A A   G*                         K/A Topic(s)               IR     #

1  2  3  1  2 CE/E02, EA1.2: Ability to operate and 000007 (BW/E02&E10; CE/E02) Reactor                     X            / or monitor the following as they              3.3  1 Trip - Stabilization - Recovery / 1                                   apply to the (Reactor Trip Recovery):

AK1.03: Knowledge of the operational 000022 Loss of Rx Coolant Makeup / 2          X                       implications of the following concepts          3.0   6 as they apply to Loss of Reactor Coolant Makeup: Relationship between charging flow and PZR level (CFR 41.8 / 41.10 / 45.3) 2.1.32: Ability to explain and apply 000025 Loss of RHR System / 4                                  X    system limits and precautions. (CFR:            3.8  7 41.7).

AA2.01: Ability to determine and 000026 Loss of Component Cooling                          X          interpret the following as they apply          2.9  16 Water / 8                                                            to the Loss of Component Cooling Water: Location of a leak in the CCW System. (CFR: 43.5 / 45.13) 2.2.44: Ability to interpret control 000027 Pressurizer Pressure Control                            X    room indications to verify the status          4.2  8 System Malfunction / 3                                                and operation of a system, and understand how operator actions and directives affect plant and system conditions (CFR: 41.5 / 43.5 / 45.12)

EA1.12: Ability to operate and 000029 ATWS / 1                                        X            monitor the following as they apply to          4.1  9 a ATWS: M/G set power supply and reactor trip breakers (CFR 41.7 / 45.5

                                                                      / 45.13)

CE/E05, EK1.2: Knowledge of the 000040 (BW/E05; CE/E05; W/E12)                X                      operational implications of the                 3.2  11 Steam Line Rupture - Excessive Heat                                  following concepts as they apply to Transfer / 4                                                          the (Excess Steam Demand): Normal, abnormal and emergency operating procedures associated with (Excess Steam Demand)(CFR: 41.8 / 41.10 /

CE/E06, EK1.1: Knowledge of the 000054 (CE/E06) Loss of Main              X          operational implications of the        3.2 12 Feedwater / 4                                          following concepts as they apply to the (Loss of Feedwater): Components, capacity, and function of emergency systems. (CFR: 41.8 / 41.10 / 45.3)

EA2.03: Ability to determine or 000055 Station Blackout / 6                        X  interpret the following as they apply 3.9 13 to a Station Blackout: Actions necessary to restore power (CFR 43.5 /

45.13) 2.4.18: Knowledge of the specific 000056 Loss of Off-site Power / 6                    X bases of the EOPs (CFR: 41.10 / 43.1 / 3.3 14 45.13) 000057 Loss of Vital AC Inst. Bus / 6 AK3.01: Knowledge of the reasons for 000058 Loss of DC Power / 6                    X      the following responses as they apply 3.4 15 to the Loss of DC Power: Use of dc control power by D/Gs (CFR 41.5,41.10

                                                      / 45.6 / 45.1) 000062 Loss of Nuclear Svc Water / 4 000065 Loss of Instrument Air / 8               X     AA1.01: Ability to operate and / or    2.7 17 monitor the following as they apply to the Loss of Instrument Air: Remote manual loaders W/E04 LOCA Outside Containment / 3 W/E11 Loss of Emergency Coolant Recirc. / 4 BW/E04; W/E05 Inadequate Heat Transfer - Loss of Secondary Heat Sink / 4 AK2.07: Knowledge of the 000077 Generator Voltage and Electric        X        interrelations between Generator      3.6 18 Grid Disturbances / 6                                  Voltage and Electric Grid Disturbances and the following: Turbine/Generator Control (CFR: 41.4, 41.5, 41.7, 41.10

                                                      / 45.8)

K/A Category Totals:                      3 3 3 3 3 3 Group Point Total:                         18/

ES-401                                                         3                                         Form ES-401-2 ES-401                                             PWR Examination Outline                                 Form ES-401-2 Emergency and Abnormal Plant Evolutions - Tier 1/Group 2 (RO / SRO)

E/APE # / Name / Safety Function                   K K   K   A A   G*                   K/A Topic(s)         IR     #

1  2  3  1  2 000001 Continuous Rod Withdrawal / 1 000003 Dropped Control Rod / 1 000005 Inoperable/Stuck Control Rod / 1 000024 Emergency Boration / 1                         X                     AK2.01: Knowledge of the           2.7    20 interrelations between Emergency Boration and the following:

Valves (CFR 41.7 / 45.7) 000028 Pressurizer Level Malfunction / 2                         X         AA2.12: Ability to determine and   3.1    21 interpret the following as they apply to the Pressurizer Level Control Malfunctions: Cause for PZR level deviation alarm:

43.5 / 45.13) 000032 Loss of Source Range NI / 7 000033 Loss of Intermediate Range NI / 7 000036 (BW/A08) Fuel Handling Accident / 8 000037 Steam Generator Tube Leak / 3               X                       AK1.02: Knowledge of the           3.5    23 operational implications of the following concepts as they apply to Steam Generator Tube Leak:

Leak rate vs. pressure drop (CFR 41.8 / 41.10 / 45.3) 000051 Loss of Condenser Vacuum / 4                       X                 AK3.01: Knowledge of the reasons   2.8    22 for the following responses as they apply to the Loss of Condenser Vacuum: Loss of Steam Dump capability upon loss of condenser vacuum. (CFR 41.5,41.10

                                                                            / 45.6 / 45.13) 000059 Accidental Liquid Radwaste Rel. / 9 000060 Accidental Gaseous Radwaste Rel. / 9                           X     2.4.31: Knowledge of annunciator   4.2    24 alarms, indications, or response procedures (CFR: 41.10 / 45.3) 000061 ARM System Alarms / 7 000067 Plant Fire On-site / 8 AK2.03 Knowledge of the 000068 (BW/A06) Control Room Evac. / 8               X                     interrelations between the         2.9    25 Control Room Evacuation and the following: Controllers and positioners (CFR 41.7 / 45.7) 000069 (W/E14) Loss of CTMT Integrity / 5 000074 (W/E06&E07) Inad. Core Cooling / 4                     X             EA1.01: Ability to operate and     4.2    26 monitor the following as they apply to a Inadequate Core Cooling: RCS Water Inventory (CFR 41.7 / 45.5 / 45.6) 000076 High Reactor Coolant Activity / 9 W/EO1 & E02 Rediagnosis & SI Termination / 3 W/E13 Steam Generator Over-pressure / 4 W/E15 Containment Flooding / 5 W/E16 High Containment Radiation / 9 BW/A01 Plant Runback / 1 BW/A02&A03 Loss of NNI-X/Y / 7 BW/A04 Turbine Trip / 4

BW/A05 Emergency Diesel Actuation / 6 BW/A07 Flooding / 8 BW/E03 Inadequate Subcooling Margin / 4 BW/E08; W/E03 LOCA Cooldown - Depress. / 4 BW/E09; CE/A13; W/E09&E10 Natural Circ. / 4 BW/E13&E14 EOP Rules and Enclosures CE/A11; W/E08 RCS Overcooling - PTS / 4            X  AA2.2: Ability to determine and  3.0 27 interpret the following as they apply to the (RCS Overcooling):

A4.07: Ability to manually 004 Chemical and Volume                                    X        operate and/or monitor in the    3.9  29 Control                                                              control room:

Boration/dilution (CFR: 41/7

                                                                      / 45.5 to 45.8)

Relationship between temperature and pressure in CVCS components during solid plant operation A4.02: Ability to manually 005 Residual Heat Removal                                  X    X    operate and/or monitor in the    3.4  30 control room: Heat exchanger bypass flow control (CFR: 41.7 / 45.5 to 45.8) 2.1.20: Ability to interpret and execute procedure steps.      4.6  31 (CFR: 41.10 / 43.5 / 45.12)

K4.17: Knowledge of ECCS 006 Emergency Core Cooling          X                                design feature(s) and/or         3.8  32 interlock(s) which provide for the following: Safety Injection valve interlocks (CFR: 41.7)

A2.03: Ability to (a) predict 007 Pressurizer Relief/Quench                      X                the impacts of the following     3.6  33 Tank                                                                malfunctions or operations on the P S; and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those malfunctions or operations:

Overpressurization of the PZR (CFR: 41.5 / 43.5 / 45.3 /

45.13)

K1.05: Knowledge of the 008 Component Cooling Water   X                       X             physical connections and/or       3.0  34 cause-effect relationships between the CCWS and the following systems: Sources of makeup water(CFR: 41.2 to 41.9 /

A3.08: Ability to monitor automatic operation of the       3.6  35 CCWS, including: Automatic actions associated with the CCWS that occur as a result of a safety injection signal (CFR: 41.7 / 45.5)

K6.01: Knowledge of the 010 Pressurizer Pressure Control          X X    effect of a loss or          2.7 36 malfunction of the following will have on the PZR PCS:

A1.01: Ability to predict     2.8 37 and/or monitor changes in parameters (to prevent exceeding design limits) associated with operating the PZR PCS controls including:

45.5)

K1.02: Knowledge of the 012 Reactor Protection          X                physical connections and/or   3.4 38 cause effect relationships between the RPS and the following systems: 125V dc system (CFR:

41.2 to 41.9 / 45.7 to 45.8)

K2.01: Knowledge of bus power 013 Engineered Safety Features     X           X   supplies to the following:   3.6 39 Actuation                                          ESFAS/safeguards equipment control (CFR: 41.7)

K3.02: Knowledge of the 022 Containment Cooling              X            effect that a loss or        3.0 41 malfunction of the CCS will have on the following: Containment instrumentation readings (CFR: 41.7 / 45.6) 025 Ice Condenser K2.01: Knowledge of bus power 026 Containment Spray              X              supplies to the following:   3.4 42 Containment spray pumps (CFR:

K2.02: Knowledge of bus power 061 Auxiliary/Emergency            X            X supplies to the following:    3.7 46 Feedwater                                          AFW electric drive pumps(CFR:

A3.03: Ability to monitor automatic operation of the AFW, including: AFW S/G level 3.9 47 control on automatic start (CFR: 41.7 / 45.5)

A3.05: Ability to monitor 062 AC Electrical Distribution                  X    automatic operation of the ac 3.5 48 distribution system, including: Safety-related indicators and controls (CFR:

41.7 / 45.5)

A4.02: Ability to manually 063 DC Electrical Distribution                    X  operate and/or monitor in the 2.8 49 control room: Battery voltage indicator (CFR: 41.7 / 45.5 to 45.8)

K4.10: Knowledge of ED/G 064 Emergency Diesel Generator        X              system design feature(s)      3.5 50 and/or interlock(s) which provide for the following:

blackout (CFR: 41.7) 073 Process Radiation Monitoring                    X 2.4.4: Ability to recognize  4.5 52 abnormal indications for system operating parameters that are entry-level conditions for emergency and abnormal operating procedures. l (CFR: 41.10 / 43.2 / 45.6)

K1.19: Knowledge of the 076 Service Water                X                    physical connections and/or  3.6 53 cause- effect relationships between the SWS and the following systems: SWS Emergency heat loads (CFR:

41.2 to 41.9 / 45.7 to 45.8)

X        A1.02: Ability to predict    2.6 45 and/or monitor changes in parameters (to prevent exceeding design limits) associated with operating the SWS controls including: Reactor and turbine building closed cooling water temperatures K3.01: Knowledge of the 078 Instrument Air                  X                effect that a loss or         3.1 54 malfunction of the IAS will have on the following: Containment air system (CFR: 41.7 / 45.6) 2.2.44: Ability to interpret 103 Containment                                     X control room indications to  4.2 55 verify the status and operation of a system, and understand how operator actions and directives affect plant and system conditions (CFR: 41.5 / 43.5 / 45.12)

K/A Category Point Totals:       3 3 2 3 2 2 2 2 3 3 3 Group Point Total:               28/5

1 2 3 4  5  6  1  2  3  4 001 Control Rod Drive                    X                            K5.06: Knowledge of the            3.8    56 following operational implications as they apply to the CRDS: Effects of control rod motion on axial offset(CFR:

41.5/45.7)

K6.02: Knowledge of the effect 002 Reactor Coolant                          X                        or a loss or malfunction on the    3.6   57 following RCS components: RCP(CFR: 41.7 /

45.7) 011 Pressurizer Level Control 014 Rod Position Indication K4.07: Knowledge of NIS design 015 Nuclear Instrumentation          X                                feature(s) and/or interlock(s)     3.7    58 provide for the following:

Permissives (CFR: 41.7) 016 Non-Nuclear Instrumentation 017 In-Core Temperature Monitor                              X        A4.02: Ability to manually        3.8   59 operate and/or monitor in the control room: Temperature values used to determine RCS/RCP operation during inadequate core cooling (i.e., if applicable, average of five highest values)

(CFR: 41.7 / 45.5 to 45.8) 027 Containment Iodine Removal 028 Hydrogen Recombiner and Purge Control 029 Containment Purge 033 Spent Fuel Pool Cooling                      X                     A1.01: Ability to predict and/or   2.7    60 monitor changes in parameters(to prevent exceeding design limits) associated with Spent Fuel Pool Cooling System operating the controls including: Spent fuel pool water level (CFR: 41.5 /

45.5) 034 Fuel Handling Equipment 035 Steam Generator A3.02: Ability to monitor 041 Steam Dump/Turbine Bypass                            X            automatic operation of the SDS,    3.3    61 Control                                                                including: RCS Pressure, RCS Temperature, and reactor power (CFR: 41.7 / 45.5) 045 Main Turbine Generator                          X                A2.08: Ability to (a) predict      2.8    62 the impacts of the following malfunctions or operation on the MT/G system; and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those malfunctions or operations: Steam dumps are not cycling properly at low load, or stick open at higher load (isolate and use atmospheric reliefs when necessary) (CFR:

K3.01: Knowledge of the effect 055 Condenser Air Removal        X                that a loss or malfunction of    2.5 63 the CARS will have on the following: Main condenser (CFR:

ES-401                      Generic Knowledge and Abilities Outline (Tier 3)                          Form ES-401-3 Facility: Waterford 3 (RO)                              Date of Exam: September 14, 2015 Category            K/A #                                Topic                              RO        SRO-Only IR    #    IR      #

2.1.3                                                                3.7    66 (CFR: 41.10 / 45.13)

Ability to use plant computers to evaluate system or 2.1.19                                                                3.9    67 component status. (CFR: 41.10 / 45.12)

Knowledge of RO duties in the control room during fuel 2.1.44                                                                3.9   68

: 1.                           handling, such as responding to alarms from the fuel Conduct of                   handling area, communication with the fuel storage Operations                  facility, systems operated from the control room in support of fueling operations, and supporting instrumentation. (CFR: 41.10 / 43.7 / 45.12) 2.1.

Subtotal Knowledge of the process used to track inoperable 2.2.43                                                                3.0    69 alarms. (CFR: 41.10 / 43.3 / 45.13)

Ability to determine Technical Specification Mode of

: 2.                  2.2.35                                                                3.6    70 Operation. (CFR: 41.7 / 41.10 / 43.2 / 45.13)

Equipment Control            2.2.39  Knowledge of less than or equal to one hour Technical        3.9    71 Specification action statements for systems.(CFR: 41.7 /

41.10 / 43.2 / 45.13)

Subtotal Knowledge of radiological safety procedures pertaining to 2.3.13                                                                3.4    72 licensed operator duties, such as response to radiation monitor alarms, containment entry requirements, fuel handling responsibilities, access to locked high-radiation areas, aligning filters, etc. (CFR: 41.12 / 43.4 / 45.9 /

: 3.                          45.10)

41.12 / 43.4 / 45.9) 2.3.

Subtotal Knowledge of how abnormal operating procedures are 2.4.8                                                                3.8    74 used in conjunction with EOPs.(CFR: 41.10 / 43.5 /

: 4.                          Knowledge of fire protection procedures.

Emergency          2.4.25                                                                3.3    75 (CFR: 41.10 / 43.5 / 45.13)

ES-401                  Record of Rejected K/As                          Form ES-401-4 Tier /    Randomly                          Reason for Rejection Group    Selected K/A 1/1    009 EK3.04    009 EK 3.17 rejected because suitable distractors were not available for knowledge of the reason for a containment RO 3 isolation. All the distractors we came up with were not plausible.

1/1    025 2.1.32    025 2.1.27 rejected because it was not possible to create a question that asked about the purpose of an offnormal RO 7                 procedure and include credible distractors.

1/1    056 2.4.18    056 2.4.45 rejected because we could not develop a question with plausible distractors for a loss of offsite power that would RO 14 require a prioritization of annunciators (first part of the K/A) 1/1    026 AA2.01    062 AA2.02 The only possible loss of ACCW is a pump trip.

1/1    065 AA1.01    065 AA1.04 is related to an Emergency Air Compressor for a Loss of Instrument Air. W3 does not have an Emergency Air RO17 Compressor.

1/2    051 AK3.01    032 AK3.01 rejected because we could not develop a loss of source range question that did not duplicate existing RO RO 22 questions on this exam (RO68) or the previous two exams.

1/2    074 EA1.01    074 EA1.13 and the K/A for question number 59 were both asking about subcooling monitors. Rejected the K/A for RO RO 26                26 because we could not develop independent questions.

2/1    003 K6.14      003 K6.04 rejected because we could not develop a question where a fault of a CIV would affect a RCP. CBO flow has two RO 28                CIVs but isolating them has no effect due to flow being directed to another location, and the CCW valves to the RCPs fail in the open (no effect) position.

2/1  012 K1.02 012 K1.04 rejected. The rod position indicating system does not have a direct physical connection with the W3 RPS RO 38          system. Could not develop a question that effectively matched the K/A.

2/1  076 A1.02 059 A1.03 rejected because a question could not be developed that did not require a reference and a direct look RO 45 up.

2/1  004 K5.30 073 K5.01 rejected because we could only find questions for this K/A that pertained to radiation theory. We could not apply RO 51          this theory to the Process Radiation Monitors and have adequate technical references.

2/1  076 K1.19 076 K1.05 rejected because the ACCW system does not have a physical connection with the EDG system.

RO 53 2/2  041 A3.02 041 A3.05 rejected. Two independent Main Steam crossover pressures would have to fail such that the SDS is affected RO 61          (permissive and demand). The question developed for this K/A was not plausible.

3/2  2.2.43    2.2.6 rejected. The W3 procedure had mostly steps for managing the database and minutia steps for procedure RO 69 changes. The comment made documenting a problem with plausible distractors and cuing. Could not develop new distractors so a new K/A was randomly selected.

ES-401                                      PWR Examination Outline                                    Form ES-401-2 Facility: Waterford 3 (SRO)                                        Date of Exam: March 27, 2017 RO K/A Category Points                                SRO-Only Points Tier            Group K    K  K  K    K    K  A    A  A    A    G*                A2            G*      Total 1    2  3  4    5    6  1    2    3    4          Total

: 9.      For Tier 3, select topics from Section 2 of the K/A catalog, and enter the K/A numbers, descriptions, IRs, and point totals (#) on Form ES-401-3. Limit SRO selections to K/As that are linked to 10 CFR 55.43.

Actions to be taken if PTS limits are violated (CFR 43.5) 000011 Large Break LOCA / 3 000015/17 RCP Malfunctions / 4 2.2.22: Knowledge of limiting conditions for 000022 Loss of Rx Coolant Makeup / 2                            X    operations and safety limits.(CFR: 41.5 / 43.2 /      4.7    81 45.2) 000025 Loss of RHR System / 4                                  X    2.4.9: Knowledge of low power/shutdown                4.2    77 implications in accident (LOCA or loss of heat removal) mitigation strategies (CFR 41.10, 43.5, 45.13) 000026 Loss of Component Cooling Water / 8 000027 Pressurizer Pressure Control System Malfunction / 3 000029 ATWS / 1 000038 Steam Gen. Tube Rupture / 3 AA2.01 Ability to determine and interpret the 000040 (BW/E05; CE/E05; W/E12)                            X          following as they apply to the Steam Line Rupture:    4.7    78 Steam Line Rupture - Excessive Heat                                  Occurrence and location of a steam line rupture Transfer / 4                                                          from pressure and flow indications (CFR 43.5,45.13) 000054 (CE/E06) Loss of Main Feedwater / 4 2.4.6: Knowledge of EOP mitigation strategies.

DC loads lost; impact on ability to operate and        3.9    80 monitor plant systems(CFR: 43.5) 000062 Loss of Nuclear Svc Water / 4 000065 Loss of Instrument Air / 8 W/E04 LOCA Outside Containment / 3 W/E11 Loss of Emergency Coolant Recirc. / 4

BW/E04; W/E05 Inadequate Heat Transfer - Loss of Secondary Heat Sink / 4 000077 Generator Voltage and Electric Grid Disturbances / 6 K/A Category Totals:                       3 3 Group Point Total: 18/

6

ES-401                                                          3                                                    Form ES-401-2 ES-401                                            PWR Examination Outline                                              Form ES-401-2 Emergency and Abnormal Plant Evolutions - Tier 1/Group 2 (RO / SRO)

1  2  3  1  2 000001 Continuous Rod Withdrawal / 1 000003 Dropped Control Rod / 1 000005 Inoperable/Stuck Control Rod / 1 000024 Emergency Boration / 1                                    X                                                          3.9    82 AA2.05: Amount of boron to add to achieve required shutdown margin (CFR 43.5) 000028 Pressurizer Level Malfunction / 2 000032 Loss of Source Range NI / 7 000033 Loss of Intermediate Range NI / 7 000036 (BW/A08) Fuel Handling Accident / 8                            X    2.3.12 Knowledge of radiological safety          3.7    84 principles pertaining to licensed-operator duties, such as containment entry requirements, fuel handling responsibilities, access to locked high rad areas, aligning filters, etc. (CFR 43.7) 000037 Steam Generator Tube Leak / 3 000051 Loss of Condenser Vacuum / 4 000059 Accidental Liquid Radwaste Rel. / 9 000060 Accidental Gaseous Radwaste Rel. / 9 000061 ARM System Alarms / 7 000067 Plant Fire On-site / 8                                    X        AA2.17: Ability to determine and interpret        4.3    85 the following as they apply to plant fire on site: systems that may be affected by the fire (CFR 43.5) 000068 (BW/A06) Control Room Evac. / 8 000069 (W/E14) Loss of CTMT Integrity / 5 000074 (W/E06&E07) Inad. Core Cooling / 4 000076 High Reactor Coolant Activity / 9 W/EO1 & E02 Rediagnosis & SI Termination / 3 W/E13 Steam Generator Over-pressure / 4 W/E15 Containment Flooding / 5 W/E16 High Containment Radiation / 9 BW/A01 Plant Runback / 1 BW/A02&A03 Loss of NNI-X/Y / 7 BW/A04 Turbine Trip / 4 BW/A05 Emergency Diesel Actuation / 6 BW/A07 Flooding / 8 BW/E03 Inadequate Subcooling Margin / 4 BW/E08; W/E03 LOCA Cooldown - Depress. / 4 BW/E09; CE/A13; W/E09&E10 Natural Circ. / 4 BW/E13&E14 EOP Rules and Enclosures CE/A11; W/E08 RCS Overcooling - PTS / 4 CE/A16 Excess RCS Leakage / 2 CE/E09 Functional Recovery                                            X    2.2.37: Ability to determine operability and/or  4.6    83 availability of safety related equipment.

43.5) 010 Pressurizer Pressure Control 012 Reactor Protection 013 Engineered Safety Features                        X                 A2.06: Ability to (a) predict the impacts    4.0    88 Actuation                                                                of the following malfunctions or operations on the ESFAS; and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those malfunctions or operations: Inadvertent ESFAS Actuation (CFR 43.5) 022 Containment Cooling 025 Ice Condenser 026 Containment Spray 039 Main and Reheat Steam 059 Main Feedwater 061 Auxiliary/Emergency                                X                A2.04: Ability to (a) predict the impacts    3.8    90 Feedwater                                                                of the following malfunctions or operations on the AFW; and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those malfunctions or operations: pump failure or improper operation (CFR 43.5) 062 AC Electrical Distribution 063 DC Electrical Distribution 064 Emergency Diesel Generator                                    X    2.2.25 Knowledge of the bases in            4.2    89 Technical Specifications for limiting conditions for operation and safety limits (CFR 43.2) 073 Process Radiation Monitoring 076 Service Water 078 Instrument Air

103 Containment K/A Category Point Totals: 3 2 Group Point Total: 28/

ES-401                                                   5                                                   Form ES-401-2 ES-401                                       PWR Examination Outline                                             Form ES-401-2 Plant Systems - Tier 2/Group 2 (RO / SRO)

System # / Name                 K K K K   K   K A   A   A   A   G*                     K/A Topic(s)                   IR     #

1 2 3 4  5  6  1  2  3  4 001 Control Rod Drive 002 Reactor Coolant 011 Pressurizer Level Control 014 Rod Position Indication                                     X     2.4.11 Knowledge of abnormal condition          4.2    91 procedures.(CFR: 41.10 / 43.5 / 45.13) 015 Nuclear Instrumentation 016 Non-Nuclear Instrumentation 017 In-Core Temperature Monitor 027 Containment Iodine Removal 028 Hydrogen Recombiner and Purge Control 029 Containment Purge                                X                 A2.03: Ability to (a) predict the impacts of    3.1    92 the following malfunctions or operations on the Containment Purge System; and (b) based on those predictions, use procedures to correct, control, or mitigate the consequences of those malfunctions or operations: Startup operations and the associated required valve lineups. (CFR 43.5) 033 Spent Fuel Pool Cooling 034 Fuel Handling Equipment 035 Steam Generator 041 Steam Dump/Turbine Bypass Control 045 Main Turbine Generator 055 Condenser Air Removal 056 Condensate 068 Liquid Radwaste 071 Waste Gas Disposal 072 Area Radiation Monitoring 075 Circulating Water 079 Station Air                                                  X    2.4.8 Knowledge of how abnormal                4.5    93 operating procedures are used in conjunction with EOPs (CFR 43.5) 086 Fire Protection

K/A Category Point Totals: 1 2 Group Point Total: 10/

3

ES-401                      Generic Knowledge and Abilities Outline (Tier 3)                        Form ES-401-3 Facility: Waterford 3 (SRO)                             Date of Exam: September 14, 2015 Category            K/A #                                Topic                              RO        SRO-Only IR    #    IR      #

: 1.                          10CFR55, etc. (CFR 43.2)

Conduct of                  Ability to identify and interpret diverse indications to 2.1.45                                                                           4.3    95 Operations                  validate the response of another indication (CFR 43.5) 2.1.

2.2.12  Knowledge of surveillance procedures (CFR 43.5)                        4.1    97 Equipment Control             2.2.

Subtotal Ability to control releases (CFR 43.4) 2.3.11                                                                          4.3    98 3.

Subtotal Knowledge of the parameters and logic used to assess 2.4.21                                                                          4.6    99 the status of safety functions, such as reactivity control, core cooling and heat removal, reactor coolant integrity, containment conditions, radioactivity release control, etc.

: 4.                          (CFR 43.4)

Emergency                    Knowledge of events related to system operation/status 2.4.30                                                                          4.1    100 Procedures /                that must be reported to internal organizations or external Plan                        agencies, such as the State, the NRC, or the transmission system operator (CFR 43.5) 2.4.

SRO 3 They were too much alike and one of the K/As had to be (Q78) rejected.

1/1    058 AA2.03      058 AA2.02 rejected. Could not develop an SRO only question associated with the determination and interpretation SRO 5                  of a low DC voltage.

2/1    004 A2.15      004 A2.05 rejected. RCP seal failures do not have an effect on CVCS other than CBO going to the VCT. Could not SRO 11 develop a question based solely on rising CBO temperature (Q86) or flow rate.

SRO 13 (Q88) 2/1    064 2.2.25      062 2.2.25 rejected. The basis section for AC distribution (TRM 3.8.1.1) was used as an RO question on the 2015 RO SRO 14 exam (RO18). Could not develop a question that did not (Q89) duplicate the RO question.

Conduct of Operations D, R          Complete OP-004-005, Core Operating Limits Supervisory System Operation, Attachment 11.6, Calculation of K/A Importance: 3.6                            Charging and Letdown Parameters.

A2                                  2.1.23 Ability to perform specific system and integrated plant procedures during all modes of plant operation.

* Type Codes & Criteria:              (C)ontrol room, (S)imulator, or Class(R)oom (D)irect from bank ( 3 for ROs;     4 for SROs & RO retakes)

(P)revious 2 exams ( 1; randomly selected) 2017 NRC Revision 0

A5                                  2.1.18, Ability to make accurate, clear, and concise logs, Conduct of Operations                            records, status boards, and reports.

A6                                  2.1.23 Ability to perform specific system and integrated plant procedures during all modes of plant operation.

Calculate dose and assign non-licensed operators to vent K/A Importance: 3.8            P,M,R          Safety Injection piping in Safeguards Room A. Given dose rate with and without shielding installed, time to install shielding, and job completion time using 1 team or using 2 teams, determine proper job assignment.

A9                                  2.4.41, Knowledge of the emergency action level thresholds Emergency Plan                                and classifications.

N,R          Determine appropriate Emergency Plan action level in accordance with EP-001-001, Recognition and K/A Importance: 4.6                            Classification of Emergency Conditions.

ES-301                          Control Room/In-Plant Systems Outline                  Form ES-301-2 Facility:    Waterford 3                                  Date of Examination:     Mar 27, 2017 Exam Level        RO    SRO-I      SRO-U                  Operating Test No.:            1 Control Room Systems:* 8 for RO; 7 for SRO-I; 2 or 3 for SRO-U System / JPM Title                              Type Code*      Safety Function S1    001 Control Rod Drive System Place Reactor Cutback (RXC) in service and perform Immediate Operator Actions following a Cutback with unanalyzed rod configuration.

GEN 2.4.49 The ability to perform without reference to procedures those actions that require immediate operation of system components and controls.                          RO - 4.6, SRO - 4.4 S2    006 Emergency Core Cooling System Reduce RCS pressure and use High Pressure Safety Injection Pumps to restore Pressurizer level in accordance with OP-901-112, Charging        D,L,S          3 or Letdown Malfunction.

A1.18 PZR level and pressure                      RO - 4.0, SRO - 4.3 S3    003 Reactor Coolant Pump System Perform a Reactor Coolant Pump Shutdown in accordance with OP-001-002, Reactor Coolant Pump Operation. (2014 NRC Exam)

Alt. Path: Reactor Coolant pump reverse rotates requiring stopping of A,D,L,P,S      4P remaining Reactor Coolant Pumps. (W3 OE)

A2.02 Conditions which exist for an abnormal shutdown of an RCP in comparison to a normal shutdown of an RCP                        RO - 3.7, SRO - 3.9 S4    061 Emergency Feedwater System Reset EFW Pump AB after Overspeed Trip in accordance with OP-009-003, Emergency Feedwater (Control Room actions)                      EN,L,N,S        4S GEN EPE 074 EA1.07 AFW System                    RO - 4.2, SRO - 4.3 S5    022 Containment Cooling System Perform OP-903-037, Containment Cooling Fans Operability Verification                                                                D,S          5 A4.01 CCS Fans                                    RO - 3.6, SRO - 3.6 S6    064 Emergency Diesel Generator (ED/G) System Parallel Emergency Diesel Generator A for EDG testing in accordance with OP-009-002, Emergency Diesel Generator.

Alt. Path: After EDG A load is raised, EDG A load will rise without        A,D,S          6 manipulation requiring a trip of EDG A.

A4.06 Manual start, loading, and stopping of the ED/G                                          RO - 3.9, SRO - 3.9 1                                  2017 NRC Revision 2

ES-301                          Control Room/In-Plant Systems Outline            Form ES-301-2 S7  012 Reactor Protection System Reset High Containment Pressure ESFAS trip in accordance with OP-902-009, EOP Standard Appendices, Att. 5-D.                           EN,L,N,S      7 A4.04 Bistable, trips, reset and test switches    RO - 3.3, SRO - 3.3 S8  068 Liquid Radwaste System Discharge Waste Condensate Tank A to the Circulating water System in accordance with OP-007-004, Liquid Waste Management System.

Fault: Upon initiation of flow, LWM flow controller output fails high, raising flow beyond what is permitted by the release permit. (2014    A,D,P,S        9 NRC Exam)

A4.03 Stoppage of releases if limits              RO - 3.9, SRO - 3.8 exceeded 2                              2017 NRC Revision 2

ES-301                            Control Room/In-Plant Systems Outline                   Form ES-301-2 In-Plant Systems * (3 for RO; (3 for SRO-I); (3 or 2 for SRO-U)

P1    076 Service Water System (ACCW)

Transfer EFW Pump Suctions to Wet Cooling Tower after Condensate Storage Pool Depletion using EOP OP-902-009, Standard Appendices,               D,E,L,R        4S Attachment 10 (Top 10 PSA Action)

K1.20 AFW                                          RO - 3.4, SRO - 3.4 P2    064 Electrical Diesel Generators Reset EDG A following an overspeed trip with a LOOP in accordance with OP-009-002, Emergency Diesel Generator, Section 8.8.                       D,E,L,R          6 EPE 055 EA1.06 Restoration of power with one ED/G                                          RO - 4.1, SRO - 4.5 P3    006 Emergency Core Cooling System Isolate RWSP from Purification in accordance with OP-902-009, EOP Standard Appendices, Att. 40.

Alt. Path: FS-423, RWSP Suction Isolation is unable to be closed              A,E,L,N,R        2 EPE 011 EK3.12 Actions contained in EOP for emergency LOCA (large break)                  RO - 4.4, SRO - 4.6

* All RO and SRO-I control room (and in-plant) systems must be different and serve different safety functions; all five SRO-U systems must serve different safety functions; in-plant systems and functions may overlap those tested in the control room.

* Type Codes                              Criteria for RO / SRO-I / SRO-U (A)lternate path                                  4-6 / 4-6 / 2-3                  5 (C)ontrol room                                                                    0 (D)irect from bank                                  9/   8/    4                   8 (E)mergency or abnormal in-plant                              1/   1/   1                  3 (EN)gineered safety feature                    1 / 1 / 1 (control room system)             2 (L)ow-Power / Shutdown                                  1/   1/   1                   7 (N)ew or (M)odified from bank including 1(A)                        2/   2/    1                   4 (P)revious 2 exams                        3/  3/   2 (randomly selected)          2 (R)CA                                        1/   1/   1                   3 (S)imulator                                                                    8 3                                      2017 NRC Revision 2

ES-301                            Control Room/In-Plant Systems Outline                  Form ES-301-2 Facility:    Waterford 3                                    Date of Examination:      Mar 27, 2017 Exam Level        RO      SRO-I      SRO-U                  Operating Test No.:            1 Control Room Systems:* 8 for RO; 7 for SRO-I; 2 or 3 for SRO-U System / JPM Title                              Type Code*      Safety Function S1    001 Control Rod Drive System Place Reactor Cutback (RXC) in service and perform Immediate Operator Actions following a Cutback with unanalyzed rod configuration.

Alt. Path: Feedwater pump will trip resulting in a RXC. During the A,D,S          1 cutback, an incorrect CEA will drop.

GEN 2.4.49 The ability to perform without reference to procedures those actions that require immediate operation of system components and controls.                          RO - 4.6, SRO - 4.4 S2    006 Emergency Core Cooling System Reduce RCS pressure and use High Pressure Safety Injection Pumps to restore Pressurizer level in accordance with OP-901-112, Charging        D,L,S          3 or Letdown Malfunction.

A1.18 PZR level and pressure                      RO - 4.0, SRO - 4.3 S3    003 Reactor Coolant Pump System Perform a Reactor Coolant Pump Shutdown in accordance with OP-001-002, Reactor Coolant Pump Operation. (2014 NRC Exam)

Alt. Path: Reactor Coolant pump reverse rotates requiring stopping of A,D,L,P,S      4P remaining Reactor Coolant Pumps.

A2.02 Conditions which exist for an abnormal shutdown of an RCP in comparison to a normal shutdown of an RCP                        RO - 3.7, SRO - 3.9 S4    061 Emergency Feedwater System Reset EFW Pump AB after Overspeed Trip in accordance with OP-009-003, Emergency Feedwater (Control Room actions)                       EN,L,N,S        4S GEN EPE 074 EA1.07 AFW System                    RO - 4.2, SRO - 4.3 S5 S6    064 Emergency Diesel Generator (ED/G) System Parallel Emergency Diesel Generator A for EDG testing in accordance with OP-009-002, Emergency Diesel Generator.

Alt. Path: After EDG A load is raised, EDG A load will rise without        A,D,S          6 manipulation requiring a trip of EDG A.

A4.06 Manual start, loading, and stopping of the ED/G                                          RO - 3.9, SRO - 3.9 S7    012 Reactor Protection System Reset High Containment Pressure ESFAS trip in accordance with OP-902-009, EOP Standard Appendices, Att. 5-D.                              EN,L,N,S        7 A4.04 Bistable, trips, reset and test switches    RO - 3.3, SRO - 3.3 4                                2017 NRC Revision 2

ES-301                            Control Room/In-Plant Systems Outline                      Form ES-301-2 S8    068 Liquid Radwaste System Discharge Waste Condensate Tank A to the Circulating water System in accordance with OP-007-004, Liquid Waste Management System.

Fault: Upon initiation of flow, LWM flow controller output fails high, raising flow beyond what is permitted by the release permit. (2014              A,D,P,S        9 NRC Exam)

A4.03 Stoppage of releases if limits              RO - 3.9, SRO - 3.8 exceeded In-Plant Systems * (3 for RO; (3 for SRO-I); (3 or 2 for SRO-U)

K1.20 AFW                                          RO - 3.4, SRO - 3.4 P2    064 Electrical Diesel Generators Reset EDG A following an overspeed trip with a LOOP in accordance with OP-009-002, Emergency Diesel Generator, Section 8.8.                       D,E,L,R        6 EPE 055 EA1.06 Restoration of power with one ED/G                                          RO - 4.1, SRO - 4.5 P3    006 Emergency Core Cooling System Isolate RWSP from Purification in accordance with OP-902-009, EOP Standard Appendices, Att. 40.

Alt. Path: FS-423, RWSP Suction Isolation is unable to be closed                A,E,L,N,R      2 EPE 011 EK3.12 Actions contained in EOP for emergency LOCA (large break)                  RO - 4.4, SRO - 4.6

* All RO and SRO-I control room (and in-plant) systems must be different and serve different safety functions; all 5 SRO-U systems must serve different safety functions; in-plant systems and functions may overlap those tested in the control room.

* Type Codes                                Criteria for RO / SRO-I / SRO-U (A)lternate path                                  4-6 / 4-6 / 2-3                5 (C)ontrol room                                                                    0 (D)irect from bank                                    9/    8/    4                7 (E)mergency or abnormal in-plant                                1/    1/    1                3 (EN)gineered safety feature                    1 / 1 / 1 (control room system)          2 (L)ow-Power / Shutdown                                    1/    1/    1                7 (N)ew or (M)odified from bank including 1(A)                          2/    2/    1                4 (P)revious 2 exams                          3/    3/  2 (randomly selected)        2 (R)CA                                          1/    1/    1                3 (S)imulator                                                                    7 5                                        2017 NRC Revision 2

ES-301                            Control Room/In-Plant Systems Outline                Form ES-301-2 Facility:   Waterford 3                                   Date of Examination:     Mar 27, 2017 Exam Level      RO      SRO-I      SRO-U                  Operating Test No.:            1 Control Room Systems:* 8 for RO; 7 for SRO-I; 2 or 3 for SRO-U System / JPM Title                              Type Code*      Safety Function S1    001 Control Rod Drive System Place Reactor Cutback (RXC) in service and perform Immediate Operator Actions following a Cutback with unanalyzed rod configuration.

Alt. Path: Feedwater pump will trip resulting in a RXC. During the A,D,S          1 cutback, an incorrect CEA will drop.

GEN 2.4.49 The ability to perform without reference to procedures those actions that require immediate operation of system components and controls.                         RO - 4.6, SRO - 4.4 S2 S3 S4    061 Emergency Feedwater System Reset EFW Pump AB after Overspeed Trip in accordance with OP-009-003, Emergency Feedwater (Control Room actions)                       EN,L,N,S        4S GEN EPE 074 EA1.07 AFW System                     RO - 4.2, SRO - 4.3 S5 S6 S7    012 Reactor Protection System Reset High Containment Pressure ESFAS trip in accordance with OP-902-009, EOP Standard Appendices, Att. 5-D.                               EN,L,N,S        7 A4.04 Bistable, trips, reset and test switches    RO - 3.3, SRO - 3.3 S8 6                                 2017 NRC Revision 2

ES-301                             Control Room/In-Plant Systems Outline                    Form ES-301-2 In-Plant Systems * (3 for RO; (3 for SRO-I); (3 or 2 for SRO-U)

P1 P2    064 Electrical Diesel Generators Reset EDG A following an overspeed trip with a LOOP in accordance with OP-009-002, Emergency Diesel Generator, Section 8.8.                       D,E,L,R         6 EPE 055 EA1.06 Restoration of power with one ED/G                                           RO - 4.1, SRO - 4.5 P3    006 Emergency Core Cooling System Isolate RWSP from Purification in accordance with OP-902-009, EOP Standard Appendices, Att. 40.

Alt. Path: FS-423, RWSP Suction Isolation is unable to be closed              A,E,L,N,R       2 EPE 011 EK3.12 Actions contained in EOP for emergency LOCA (large break)                   RO - 4.4, SRO - 4.6

* All RO and SRO-I control room (and in-plant) systems must be different and serve different safety functions; all 5 SRO-U systems must serve different safety functions; in-plant systems and functions may overlap those tested in the control room.

* Type Codes                              Criteria for RO / SRO-I / SRO-U (A)lternate path                                  4-6 / 4-6 / 2-3                 2 (C)ontrol room                                                                   0 (D)irect from bank                                   9/   8/   4                 2 (E)mergency or abnormal in-plant                               1/   1/   1                 2 (EN)gineered safety feature                    1 / 1 / 1 (control room system)           2 (L)ow-Power / Shutdown                                   1/   1/   1                 4 (N)ew or (M)odified from bank including 1(A)                         2/   2/   1                 3 (P)revious 2 exams                         3/   3/   2 (randomly selected)         0 (R)CA                                         1/   1/   1                 2 (S)imulator                                                                   3 7                                        2017 NRC Revision 2

Appendix D                                    Scenario Outline                              Form ES-D-1 Facility:        Waterford 3          Scenario No.:        1                   Op Test No.:        1 Examiners:                                                Operators:

Initial Conditions:    Reactor power is 100%. AB Buses are aligned to Train B.

Protected Train is B; Maintain 100%. High Pressure Safety Injection Pump A is out of service.

Event              Malf.                Event                              Event No.                No.                 Type*                          Description VCT level instrument CVC-ILT-0227 Fails high diverting letdown to the Boron Management system.

I - ATC      OP-901-113, Volume Control Tank Makeup Control 1              CV12A1            I - SRO      Malfunction I - BOP      Safety Channel C RCS Cold Leg instrument RC-ITI-I - SRO      0102CC (Loop T112C) fails high requiring TS 3.3.1 2              RC19C            TS - SRO      entry and bypassing affected bistables.

Steam Generator 2 Level Control Transmitter, SG-ILT-1106, fails low requiring implementation of I - BOP      OP-901-201, Steam Generator Level Control 4              SG05B            I - SRO      Malfunction and manual control of SG level.

Lowering Main Condenser vacuum requiring R- ATC        implementation of OP-901-220, Loss of Condenser FW21A            N-BOP        Vacuum and a plant power reduction in accordance 5              FW21AA            N-SRO        with OP-901-212, Rapid Plant Power Reduction.

RC03C RP01A&B                          RCP 2A sustains a locked rotor and an automatic RP02A,B,C,&D                        reactor trip does not occur. Manual action (trip 32A DI-02A06S02-1                        and 32B Supply Bkrs) is needed to trip the reactor (CT 6          DI-02A06S03-1          M - All      1, manually trip the reactor)

I - ATC I - BOP      Relay K202A fails, CVC-401, CVC-109, IA-909, and 8              RP08C            I - SRO      FP-601A fail to close automatically

After the crew addresses the VCT instrument malfunction, RCS Cold Leg instrument RC-ITI-0102CC on CP-7 fails high. The crew will enter TS 3.3.1 action 2 and bypass bistables 3 & 4 on channel C on CP-10.

After Technical Specifications are addressed and Channel C bistables bypassed, Charging Pump B trips on overcurrent. The SRO will implement OP-901-112, Charging or Letdown Malfunction, Section E 1 ,

Charging Malfunction. The SRO should direct the ATC to start a standby charging pump after verifying a suction path available or isolate Letdown using CVC-101, Letdown Stop Valve. If Letdown is isolated, Charging and Letdown will be re-initiated using Attachment 2 of OP-901-112. The SRO should review and enter Technical Specification 3.1.2.4. Technical Specification 3.1.2.4 may be exited after aligning Charging Pump AB to replace Charging Pump B. The SRO may implement EN-OP-200, Transient Response Rules.

After the crew addresses the Charging pump malfunction, Steam Generator 2 Level Control Transmitter, SG-ILT-1106 fails low. The SRO should direct the BOP to take manual control of SG2 level 50-70%

Narrow Range and establish contingency actions. The SRO will enter OP-901-201, Steam Generator Level Control Malfunction and implement Attachment 1, General Actions. Manual action by the BOP to control SG2 level will be required during the subsequent plant shutdown and reactor trip.

After the crew completes actions in OP-901-201, a leak in the Main Condenser develops and Main Condenser vacuum begins to drop. The SRO will enter OP-901-220, Loss of Condenser Vacuum. Main Condenser vacuum will drop below 25 inches, requiring a rapid plant power reduction. The SRO will enter OP-901-212, Rapid Plant Power Reduction and should implement EN-OP-200, Transient Response Rules. Vacuum will drop below 25 inches but remain above 20 inches, the procedure trigger for tripping the Reactor. For the power reduction, the ATC will perform direct boration to the RCS as well as ASI control with CEAs and Pressurizer boron equalization. The BOP will manipulate the controls to reduce Main Turbine load.

After the reactivity manipulation is satisfied, Reactor Coolant Pump 2A rotor seizes and the RCP breaker trips. The Reactor Protection System fails to open the required Reactor Trip Breakers and an ATWS condition exists. The ATC should recognize that an automatic protection system has failed to occur and attempt to manually trip the reactor. Manual trip buttons on CP-2 (including Diverse Rx Trip) will not trip the reactor. The crew must manually trip 32A and 32B supply breakers to successfully trip the reactor (CRITICAL TASK 1). The SRO will enter OP-902-000, Standard Post Trip Actions.

During the performance of Standard Post Trip Actions (RCS Heat Removal checks), an excess steam demand event will occur on SG 1 outside containment upstream of the MSIV. The SRO will direct the ATC/BOP to initiate Safety Injection, Containment Isolation and Main Steam Isolation. The SRO will direct action to establish RCS Temperature and Pressure control using SG 2 (CRITICAL TASK 2) when CET temperature and PZR pressure begins to rise indicating a blown dry SG. Relay K202A will fail to actuate resulting in CVC-109, Letdown Outside Containment Isolation, CVC-401, Controlled Bleedoff Outside Containment Isolation, IA-909, Instrument Air Containment Isolation and FP-601A, Fire Water A Containment Isolation, valves not going to their required positions. The ATC and BOP will take action to close these valves. The crew should diagnose to OP-902-004, Excess Steam Demand Recovery and isolate Steam Generator 1.

The scenario can be terminated after the crew has isolated Steam Generator 1 or at the lead examiners discretion.

NRC Scenario 1 Critical Task Number                       Description                                       Basis Establish Reactivity Control               Failure to trip the reactor when an automatic PPS signal has failed to actuate can lead to This task is satisfied by manually         degradation of fission product barriers. OPS tripping the reactor using the manual     Management Expectation of 1 minute is 1        pushbuttons, Diverse Reactor Trip, or     determined to be a reasonable time limit to de-energizing bus 32A and 32B within 1     identify and take action for satisfactory minute of RCP 2A tripping. This task       performance.

becomes applicable following the RCP trip. (OP-902-000, 1.a.1)                 (TM-OP-100-03, CT-1)

Establish RCS Pressure and Temperature Control This task is satisfied by manually feeding An ESDE will result in a rapid cooldown and and steaming the unaffected Steam          depressurization of the RCS. After the Steam Generator to stabilize RCS temperature      Generator dries out, RCS temperature and and pressure prior to exiting the step to  pressure will begin to recover. Operator action is required to stabilize RCS pressure and stabilize RCS temperature in OP-902-2                                                    temperature to prevent a situation that may 004, Excess Steam Demand Recovery          cause pressurized thermal shock which could and take action to achieve and maintain    jeopardize the RCS integrity. A large D/P less than 1600 PSID across the affected    across the Steam Generator tubes will make a Steam Generator. This task becomes          subsequent SGTR more likely.

applicable once CET temperature and PZR pressure begins to rise following      (TM-OP-100-03, CT-7) the ESDE. (OP-902-004, step 18 or OP-902-009, App. 13)

** Per NUREG-1021, Appendix D, If an operator or the crew significantly deviates from or fails to follow procedures that affect the maintenance of basic safety functions, those actions may form the basis of a CT identified in the post-scenario review.

: 1. Malfunctions after EOP entry (1-2)                                           1

: 2. Abnormal events (2-4)                                                         4

: 3. Major transients (1-2)                                                       2

: 4. EOPs entered/requiring substantive actions (1-2)                             1

: 5. EOP contingencies requiring substantive actions (0-2)                         0

: 6. EOP based Critical tasks (2-3)                                               2 2017 NRC Exam Scenario 1 D-1 Rev 4

 

NRC Scenario 1 SCENARIO SETUP A. Reset Simulator to IC-161.

B. Verify Scenario Malfunctions, Remotes, and Overrides are loaded, as listed in the Scenario Timeline.

C. Verify HPSI pump A is removed from service as follows:

F. Verify EOOS is 8.7 Yellow with HPSI pump A out of service.

G. Protected Equipment covers on running SFP pump and HPSI Pump B control switches.

I. Start Insight, open file Crew Performance.tis.

2017 NRC Exam Scenario 1 D-1 Rev 4

 

NRC Scenario 1 SIMULATOR BOOTH INSTRUCTIONS Event 1     VCT level instrument, CVC-ILT-0227, Fails High

: 1. On Lead Examiner's cue, initiate Event Trigger 1. (Ensure the designed applicant is the ATC.)

: 3. If sent to LCP-43, wait 3 minutes and report all Cold Leg temperatures on LCP-43 read approximately 545F.

Event 3     Charging Pump B Trip

: 1. On Lead Examiner's cue, initiate Event Trigger 3.

: 2. If Work Week Manager or PMI are called, inform the caller that a work package will be assembled and a team will be sent to the Charging Pump room and breaker.

: 3. If called as NAO to investigate the breaker, wait 3 minutes and report overcurrent flags are tripped on all 3 phases for Charging Pump B.

: 4. If called as NAO to investigate the pump, wait 3 minutes and report that there are some indications of charring at the motor vent area, and an acrid odor is present but there is no fire.

: 5. If directed to perform prestart checks for the A or AB Charging pump, wait 2 minutes and report the following for directed pump:

: a. Suction and discharge valves are open

: b. Proper oil pressure and seal water flow exist

: c. No abnormal vibrations or noises present Event 4     Steam Generator 2 Level Control Transmitter, SG-ILT-1106, fails low

: 1. On Lead Examiner's cue, initiate Event Trigger 4.

: 2. If Work Week Manager or PMI are called, inform the caller that a work package will be assembled and a team will be sent to the Control Room.

NRC Scenario 1 Event 5     Main Condenser Leak, Rapid Power Reduction

: 1. On Lead Examiner's cue, initiate Event Trigger 5.

: 2. If called as TGB watch report all Air Evacuation Pumps look normal, Vacuum pump separators are greater than 1/2 full and there are no indications of a leak.

: 3. Approximately 5 minutes after being called to investigate, TGB watch should report finding a non-isolable leak up-stream of AE-401 A, Condenser Vacuum Breaker A. Location of failure is preventing any successful repair efforts.

Event 6     RCP 2A Locked Rotor, Auto Reactor Trip & Manual Pushbuttons (Ch. A, B, & DRT) at CP-2 Fail

: 1. On Lead Examiner's cue, initiate Event Trigger 6.

: 2. No expected communications for this event.

Event 7     Main Steam Line Break outside Containment, SG 1

: 1. On Lead Examiner's cue, initiate Event Trigger 7.

: 2. If the Duty Plant Manager is called, inform the caller that you will make the necessary calls.

: 3. If Chemistry is called to perform samples acknowledge the request.

: 4. If requested to check Emergency Diesel Generators (EDG), wait 3 minutes and report EDGs are operating properly. Initiate event triggers 20 & 21 to acknowledge local annunciator panels.

Event 8     Relay K202A fails, CVC-401, CVC-109, IA-909, and FP-601A fail to close automatically

At the end of the scenario, before resetting, end data collection and save the file as 2017 Scenario 1-(start-end time).tid. Export to .csv file. Save the file into the folder for the appropriate crew.

.

2017 NRC Exam Scenario 1 D-1 Rev 4

 

NRC Scenario 1 SCENARIO TIMELINE DELAY      RAMP EVENT         KEY                                 DESCRIPTION                         TRIGGER                             FINAL HH:MM:SS   HH:MM:SS EVENT DESCRIPTION 1       CV12A1     VCT LEVEL XMTR CVC-ILIC-0227 FAILS HI                               1     00:00:00   00:00:00     ACTIVE VCT LEVEL TRANSMITTER FAILS HIGH 2         RC19C     RCS COLD LEG 1A SAFETY TT 0112C FAILS (0-100%)                     2     00:00:00   00:00:00       100 SAFETY CHANNEL C RCS COLD LEG TEMPERATURE (Indicator RC-ITI-0102CC) 3         CV01B     CHARGING PUMP B TRIPPED                                             3     00:00:00   00:00:00     ACTIVE CHARGING PUMP B TRIP 4         SG05B    SG LEVEL ILT-1106 FAIL (0-100%)                                     4     00:00:00   00:00:10       0 STEAM GENERATOR 2 LEVEL CONTROL TRANSMITTER, SG-ILT-1106, FAILS LOW 5         FW21A    CONDENSER A AIR INLEAK (100%=100% OF VAC BKR)                       5     00:00:00   00:03:00       20 FW21AA    CONDENSER A AIR INLEAK VACUUM SETPOINT                              5      00:00:00   00:03:00       23.3 MAIN CONDENSER LEAK, RAPID POWER REDUCTION 6         RC03C     RCP RC-MPMP-0002A SHAFT SEIZURE                                     6      00:00:00    N/A       ACTIVE RP01A    RPS MANUAL PUSHBUTTON CH A                                         N/A     00:00:00    N/A       ACTIVE RP01B    RPS MANUAL PUSHBUTTON CH B                                        N/A     00:00:00    N/A       ACTIVE RP02A    RPS CH A AUTO TRIP FAILURE                                        N/A     00:00:00    N/A       ACTIVE RP02B    RPS CH B AUTO TRIP FAILURE                                        N/A     00:00:00     N/A       ACTIVE RP02C    RPS CH C AUTO TRIP FAILURE                                        N/A     00:00:00    N/A       ACTIVE RP02D    RPS CH D AUTO TRIP FAILURE                                        N/A     00:00:00    N/A       ACTIVE DI-02A06S02-1 DRT 1 OF 2 PB                                                      N/A     00:00:00    N/A         OFF DI-02A06S03-1 DRT 2 OF 2 PB                                                      N/A     00:00:00    N/A         OFF RCP 2A LOCKED ROTOR, AUTO REACTOR TRIP & MANUAL PUSHBUTTONS (CH. A, B, & DRT) AT CP-2 FAIL 7         MS13A     MS A BREAK OUTSIDE CNTMT BEFORE MSIV (0-100%)                       7     00:00:00   00:00:00       8%

MAIN STEAM LINE BREAK OUTSIDE CONTAINMENT, SG 1 2017 NRC Exam Scenario 1 D-1 Rev 4

 

NRC Scenario 1 REFERENCES Event Procedures 1   OP-901-113, Volume Control Tank Makeup Control Malfunction, Rev. 302 2   OP-009-007, Plant Protection System, Rev. 17 OP-903-013, Monthly Channel Checks, Rev. 18 Technical Specification 3.3.1 3   OP-901-112, Charging or Letdown Malfunction, Rev. 6 OP-002-005, Chemical Volume Control, Rev. 56 Technical Specification 3.1.2.4 4   OP-901-201, Steam Generator Level Control Malfunction, Rev. 6 5   OP-901-220, Loss of Condenser Vacuum, Rev. 302 OP-002-005, Chemical Volume Control, Rev. 56 OP-004-004, Control Element Drive, Rev. 23 OP-901-212, Rapid Plant Power Reduction, Rev. 8 6   OP-902-000, Standard Post Trip Actions, Rev. 16 7   OP-902-004, Excess Steam Demand Recovery, Rev. 16 OP-902-009, Standard Appendices, Rev. 315, Appendix 2, Figures OP-902-009, Standard Appendices, Rev. 315, Appendix 1, Diagnostic Flow Chart 8   OP-902-004, Excess Steam Demand Recovery, Rev. 16 GEN EN-OP-115, Conduct of Operations, Rev. 18 EN-OP-115-08, Annunciator Response, Rev. 4 EN-OP-200, Plant Transient Response Rules, Rev. 3 OI-038-000, EOP Operations Expectations / Guidance, Rev. 14 2017 NRC Exam Scenario 1 D-1 Rev 4

Appendix D                                      Scenario Outline                            Form ES-D-1 Facility:        Waterford 3         Scenario No.:        2                    Op Test No.:        1 Examiners:                                                Operators:

Initial Conditions:    Reactor power is 100%. AB Buses are aligned to Train B.

Protected Train is B; EFW Pump A operability check is in progress; Maintain 100%. LPSI pump A is out of service.

Event              Malf.                Event                              Event No.                No.                  Type*                            Description N - BOP N - SRO      Manually start EFW Pump A. EFW Pump A fails 1              FW06A              TS - SRO      during operability check. (TS 3.7.1.2)

Hot Leg 1 Temperature, RC-ITI-0111X, fails low affecting PZR level setpoint. OP-901-110, Pressurizer 2              RC21A                  I - All    Level Control Malfunction (Sect. E2).

C - BOP      Reactor Coolant Pump 2A Lower Seal fails.

3              RC08C              C - SRO      OP-901-130, Reactor Coolant Pump Malfunction.

Steam Generator 1 Pressure Instrument, SG-IPT-1013A, fails low requiring Technical I - BOP      Specification entry and bypass of multiple Plant I - SRO      Protection System A trip bistables. (TS 3.3.1, 3.3.2, &

4              SG04E              TS - SRO      3.3.3.5)

Feedwater Heater 5B tube leak from Condensate to heater shell causing isolation of the Low Pressure R - ATC      heater string. OP-901-221, Secondary System N - BOP      Transient (Sect. E1) and OP-901-212, Rapid Plant 5              FW35B              N - SRO      Power Reduction.

Reactor Coolant Pump 2A Middle Seal fails, requiring C - ATC      a manual reactor trip, and securing of Reactor Coolant 6              RC09C              C - SRO      Pump 2A.

Pressurizer Code Safety, RC-317A, fails open. OP-902-002, Loss of Coolant Accident Recovery. All Reactor Coolant Pumps must be secured. (CT 1, Trip 7               RC11A1                M - All    RCPs exceeding operating limits) (CT3, Cooldown)

HPSI Pump B fails to AUTO start on the Safety C - BOP      Injection Actuation Signal requiring a manual start.

SI19A High Press Safety Injection (HPSI) Pump A degrades 9                SI01A                  N/A      internally and trips.

Scenario Event Description NRC Scenario 2 The crew assumes the shift at 100% power with instructions to maintain 100% power. Low Pressure Safety Injection pump A is out of service. The crew turnover includes instructions to complete OP-903-046, Emergency Feed Pump Operability, for Emergency Feedwater (EFW) Pump A. EFW pump A will trip on overcurrent shortly after it is started. The SRO should declare EFW pump A inoperable and enter Tech Spec 3.7.1.2.d.

After Tech Specs are addressed, Loop 1 Thot instrument, RC-ITI-0111X, fails low. This affects the Reactor Regulating System Tave calculation and the Pressurizer Level Setpoint. The SRO should enter OP-901-110, Pressurizer Level Control Malfunction and implement Section E2, Pressurizer Level Setpoint Malfunction. The crew should take manual control of Pressurizer Level, select the non-faulted Thot instrument (Loop 2) in both Reactor Regulating System cabinets, verify normal setpoint is restored and restore Pressurizer Level Control to Auto after returning Pressurizer Level to setpoint.

After Pressurizer Level control is in automatic, Reactor Coolant Pump 2A Lower Seal fails. The crew should enter OP-901-130, Reactor Coolant Pump Malfunction and implement Section E1, Seal Failure.

After the crew is in Section E1 of OP-901-130 AND the BOP has adjusted Component Cooling Water Temperature, Steam Generator 1 Pressure Instrument, SG-IPT-1013A, fails low. The SRO should review and enter Technical Specifications 3.3.1 action 2, 3.3.2 actions 13 and 19 and 3.3.3.5 action a. The SRO will direct the BOP to bypass Steam Generator 1 Pressure Lo, Steam Generator 1 DP, and Steam Generator 2 DP trip bistables (11, 19 & 20) in Plant Protection System Channel A within 1 hour, in accordance with OP-009-007, Plant Protection System. The SRO should review Technical Specifications 3.3.3.5 and 3.3.3.6 using OP-903-013, Monthly Channel Checks, and determine that Technical Specification 3.3.3.5 is applicable and 3.3.3.6 is not.

Once the SRO has addressed Technical Specifications and trip bistables are bypassed, a tube leak occurs in Feedwater Heater 5B, causing Condensate flow to isolate through Low Pressure Feedwater Heaters 5B and 6B. The crew should enter OP-901-221, Secondary System Transient, and implement Section E1, Loss of Feedwater Preheating. This also requires a power reduction in accordance with OP-901-212, Rapid Plant Power Reduction which will prompt a reactivity manipulation. The SRO should implement EN-OP-200, Transient Response Rules.

After the reactivity manipulation is satisfied, Reactor Coolant Pump 2A Middle Seal fails. The crew should trip the reactor, implement OP-902-000, Standard Post Trip Actions AND secure Reactor Coolant Pump 2A.

After Reactor Coolant Pump 2A is secured, Pressurizer Code Safety, RC-317A, fails open. The crew should diagnose to OP-902-002, Loss of Coolant Accident Recovery. The crew should secure an additional Reactor Coolant Pump in the opposite loop (preferably 1A) when RCS Pressure lowers to

<1621 PSIA and secure all Reactor Coolant Pumps exceeding NPSH limits as indicated by high vibration or within 3 minutes of the Containment Spray Actuation (CRITICAL TASK 1).

When Safety Injection occurs, either manually or automatically, HPSI Pump B fails to Auto Start. High Pressure Safety Injection (HPSI) pump A will run for about three minutes, degrade internally and trip. The BOP should manually start High Pressure Safety Injection Pump B (CRITICAL TASK 2).

The scenario can be terminated after the crew starts a cooldown (CRITICAL TASK 3) or at the lead examiners discretion.

NRC Scenario 2 Critical Task Number                       Description                                       Basis Trip Any RCP Exceeding Operating Limits The time requirement of 3 minutes is based on This task is satisfied by stopping all      the RCP operating limit of 3 minutes without running RCPs within 3 minutes of loss        CCW cooling. Continued operation of RCP of Component Cooling Water flow or          without CCW or outside of the operating limits 1        prior to completing the step that verifies  could lead to a failure of the RCS pressure RCP operating limits. This task             boundary at the RCP seal.

becomes applicable after either running RCP Vibration alarms actuate OR              (TM-OP-100-03, CT-23; ECS98-001, D.10)

Containment Spray is initiated, whichever occurs first. (OP-902-002, LOCA, 9.b or 9.d.1)

Establish RCS Inventory Control Based on minimum required flow per the flow This task is satisfied by starting High      delivery curve in OP-902-009, Appendix 2E.

Pressure Safety Injection Pump B to          Failure to take action to establish the minimum establish Reactor Coolant System              required Safety Injection flow during a LOCA 2        inventory control before exiting the step    would degrade the inventory available to to verify Safety Injection Actuation Signal  maintain the fuel covered. Adequate SI flow Actuation. This task becomes applicable      ensures RCS Inventory Control and Core Heat following the initiation of a Safety          Removal safety functions are satisfied.

Injection Actuation Signal. (OP-902-002,      (TM-OP-100-03, CT-16; ECS98-001, A.02)

Commence RCS Cooldown Based on minimizing RCS leakage into This task is satisfied by opening at least    containment. Cooling down the RCS will allow one Atmospheric Dump Valve before            recovery of sub-cooled margin and subsequent depressurization. The magnitude of the break 3        exiting the step to perform Steam            flow is lowered which allows termination of Generator cooldown. This task becomes         Safety Injection flow and establishment of long applicable following the initiation of a      term cooling by means of Shutdown Cooling.

Safety Injection Actuation Signal. (OP-902-002, LOCA, step 19)                       (TM-OP-100-03, CT-20)

 

 

 

 

 

 

 

NRC Scenario 2 REFERENCES Event Procedures 1  OP-903-046, Emergency Feed Pump Operability Check, Rev. 318 Technical Specification 3.7.1.2 2  OP-901-110, Pressurizer Level Control Malfunction, Rev. 9 OP-901-501, PMC or Core Operating Limits Supervisory System Malfunction, Rev. 15 3  OP-901-130, Reactor Coolant Pump Malfunction, Rev. 11 4  OP-009-007, Plant Protection System, Rev. 17 OP-903-013, Monthly Channel Checks, Rev. 18 Technical Specification 3.3.1 Technical Specification 3.3.2 Technical Specification 3.3.3.5 Technical Specification 3.3.3.6 5  OP-901-221, Secondary System Transient, Rev. 5 OP-901-212, Rapid Plant Power Reduction, Rev. 8 OP-002-005, Chemical and Volume Control, Rev. 56 OP-004-004, Control Element Drive, Rev. 23 6  OP-901-130, Reactor Coolant Pump Malfunction, Rev. 11 OP-902-000, Standard Post Trip Actions, Rev. 16 OP-902-009, Standard Appendices, Rev. 315, Appendix 1, Diagnostic Flow Chart 7  OP-902-002, Loss of Coolant Accident Recovery Procedure, Rev. 20 OP-902-009, Standard Appendices, Rev. 315, Appendix 2, Figures OP-902-009, Standard Appendices, Rev. 315, Appendix 1, Diagnostic Flow Chart 8&9  OP-902-002, Loss of Coolant Accident Recovery Procedure, Rev. 20 GEN EN-OP-115, Conduct of Operations, Rev. 18 EN-OP-115-08, Annunciator Response, Rev. 4 EN-OP-200, Plant Transient Response Rules, Rev. 3 OI-038-000, EOP Operations Expectations / Guidance, Rev. 14 2017 NRC Exam Scenario 2 D-1 Rev 2

 

 

 

** Per NUREG-1021, Appendix D, If an operator or the crew significantly deviates from or fails to follow procedures that affect the maintenance of basic safety functions, those actions may form the basis of a CT identified in the post-scenario review.

: 1. Malfunctions after EOP entry (1-2)                                             2

: 2. Abnormal events (2-4)                                                           3

: 3. Major transients (1-2)                                                         2

: 4. EOPs entered/requiring substantive actions (1-2)                               1

: 5. EOP contingencies requiring substantive actions (0-2)                           0

: 6. EOP based Critical tasks (2-3)                                                 2 2017 NRC Exam Scenario 3 D-1 Rev 3

NRC Scenario 3 SCENARIO NOTES A. Reset Simulator to IC-163.

B. Verify Scenario Malfunctions are loaded, as listed in the Scenario Timeline.

E. Place a Protect Equipment cover on running SFP pump C/S.

F. Ensure Protected Train B sign is placed in SM office window.

H. Place a copy of OP-010-003, Plant Startup, on the Control Room desk with step 9.4.52.2 (secure AFW) circled and several of the previous steps circle-slashed to show progress. Fill in initials and circle-slash steps 9.4.53 (adjust Blowdown), 9.4.59 (mode 1 Tech Spec logs) and 9.4.60 (Chemistry contacted) as complete. Sign step 9.4.61 (SM permission to enter mode 1).

: 1. C24104 on CP3, CRT 6 (0-10 scale, 1 sec update)

: 2. SG Wide Range levels on CP-35 (15 sec update)

K. Start Insight, open file Crew Performance.tis.

2017 NRC Exam Scenario 3 D-1 Rev 3

 

NRC Scenario 3 SIMULATOR BOOTH INSTRUCTIONS Event 1     Secure AFW Pump and raise reactor power

: 1. If called as an NAO to standby the AFW pump, acknowledge the communication. Wait 2 minutes and report you are standing by.

: 2. If called as Chemistry to verify SG chemistry is within specification, inform the caller that SG chemistry is satisfactory. If asked for your name, say Joe Chemist.

: 3. If called as an NAO to open or throttle open MS-148, acknowledge the communication. Wait 5 minutes, report that you will be slowly opening/throttling MS-148, MS Supply to Gland Seal Isolation. Initiate Event Trigger 1. After MS-148 completes ramping, report that MS-148 is open/throttled open. If you are directed to further throttle open MS-148, simply acknowledge the request, wait ~30 seconds and report the new throttled position. Repeat as necessary until it is reported that MS-148 is fully open.

: 5. If called as an NAO to secure the Portable Auxiliary Boiler, acknowledge the communication. Wait 5 minutes, initiate Event Trigger 20 and report that the Portable Aux Boiler is secured..

Event 2     Pressurizer Level Controller, RC-ILIC-0110, Output Fails Off

: 1. On Lead Examiner's cue, initiate Event Trigger 2.

: 2. If Work Week Manager or PMI are called, inform the caller that a work package will be assembled and a team will be sent to the Control Room.

Event 3     RWSP Level Instrument, SI-ILI-0305B, Fails Low & RAS Trip Generated

: 1. On Lead Examiner's cue, initiate Event Trigger 3.

: 2. If Work Week Manager or PMI are called, inform the caller that a work package will be assembled and a team will be sent to the Control Room.

Event 4     Component Cooling Water Pump B Trips

: 1. On Lead Examiner's cue, initiate Event Trigger 4.

: 2. If called as the watchstander and sent to CCW Pump B, wait 3 minutes, report that the pump looks normal locally.

Event 5     Pressurizer Pressure Control Channel, RC-IPT-0100X, Fails High and Pressurizer Spray Valve RC-301B Fails Open

2017 NRC Exam Scenario 3 D-1 Rev 3

 

NRC Scenario 3 Event 6     Loss of Offsite Power

: 1. On Lead Examiner's cue, initiate Event Trigger 6.

: 2. If the Duty Plant Manager is called, inform the caller that you will make the necessary calls.

Event 7&8 EDG A Trips on Overspeed; 3B-to-2B Bus Tie Breaker Fails to Trip on UV

: 1. If called as an NAO to investigate EDG A, wait 3 minutes; initiate Event Trigger 21 (EGR26) to acknowledge the local alarm panel and report that EDG A is not running, EMERGENCY STOP or UNIT S/D and ENGINE OVERSPEED alarms are locked in but there is no obvious signs of damage. If asked, report Overspeed Butterfly valve is tripped.

: 2. If Work Week Manager or PMM are called, inform the caller that a team will be organized and sent to the field as soon as possible.

: 3. If called as an NAO to check EDG B, wait 2 minutes; initiate Event Trigger 22 (EGR27) to acknowledge the local alarm panel. If EDG B output breaker is closed and CCW pump B is running, report EDG B is running and all parameters are normal. If CCW pump B is not running (i.e. EDG B Output breaker is not closed), report EDG B is running and SERVICE WATER LOW FLOW alarm is locked in.

 

NRC Scenario 3 DELAY    RAMP EVENT       KEY                             DESCRIPTION           TRIGGER                           FINAL HH:MM:SS HH:MM:SS EVENT DESCRIPTION N/A      MSR32      TEMPORARY AUX BOILER                          20        N/A      N/A      OFFLINE TEMPORARY AUX BOILER (16 MIN TILL RATED PRESS)

N/A      EGR26      EDG A LOCAL ANNUN ACK                          21      00:00:00 00:00:00     ACKN LOCAL EDG ANNUNCIATOR ACKNOWLEDGE N/A      EGR27      EDG B LOCAL ANNUN ACK                          22      00:00:00  00:00:00     ACKN LOCAL EDG ANNUNCIATOR ACKNOWLEDGE 2017 NRC Exam Scenario 3 D-1 Rev 3

NRC Scenario 3 REFERENCES Event Procedures 1  OP-010-003, Plant Startup, Rev. 342 OP-003-035, Auxiliary Feedwater, Rev. 305 OP-004-004, Control Element Drive, Rev. 23 2  OP-901-110, Pressurizer Level Control Malfunction, Rev. 9 3  OP-009-007, Plant Protection System, Rev. 17 OP-903-013, Monthly Channel Checks, Rev. 18 Technical Specification 3.3.2 4  OP-901-510, Component Cooling Water Malfunction, Rev. 303 Technical Specification 3.7.3 & Cascading 5  OP-901-120, Pressurizer Pressure Control Malfunction, Rev. 302 OP-902-000, Standard Post Trip Actions, Rev 16 OP-902-009, Standard Appendices, Rev. 315, Appendix 1 (Diagnostic Flow Chart),

Appendix 2 (Figures) 6  OP-902-003, Loss of Offsite Power/Loss of Forced Circ Recovery Procedure, Rev. 10 7&8  OP-902-000, Standard Post Trip Actions, Rev. 16 GEN  EN-OP-115, Conduct of Operations, Rev. 18 EN-OP-115-08, Annunciator Response, Rev. 4 EN-OP-200, Plant Transient Response Rules, Rev. 3 OP-100-014, TS and TRM Compliance, Rev. 337 OI-038-000, EOP Operations Expectations / Guidance, Rev. 14 2017 NRC Exam Scenario 3 D-1 Rev 3

Appendix D                                     Scenario Outline                             Form ES-D-1 Facility:         Waterford 3         Scenario No.:       4                   Op Test No.:       1 Examiners:                                               Operators:

Initial Conditions:   Reactor power is ~90%. AB Buses are aligned to Train B. No major equipment out of service. Heater Drain Pump B is secured. Charging Pumps B (lead) and AB running.

Turnover:

Protected Train is B; Maintain power while PMI troubleshoots a Heater Drain Pump B annunciator.

Event              Malf.                Event                              Event No.                 No.                 Type*                           Description Condensate Storage Pool level instrument EFW-ILI-1              FW51A            TS - SRO      9013A fails low. (TS 3.3.3.5, TS 3.3.3.6)

Letdown Flow Control Valve, CVC-113A, fails closed C - ATC      requiring entry into OP-901-112, Charging or Letdown 2              CV30A2            C - SRO      Malfunction.

Steam Generator #1 Feedwater flow instrument FW-I - BOP      IFR-1111 fails low. OP-901-201, Steam Generator 3              FW26A            I - SRO      Level Control Malfunction.

R - ATC       CEA 11 drops into the core requiring a rapid plant N - BOP      down power in accordance with OP-901-212, Rapid N - SRO      Plant Power Reduction. OP-901-102, CEA or 4              RD02A11            TS - SRO      CEDMCS Malfunction. (TS 3.1.3.1)

RC23A             C - ATC       RCS Cold Leg leak; Charging Pump A fails to auto-5              CV02A            C - SRO      start.

The leak grows into a LOCA requiring implementation of OP-902-000, Standard Post Trip Actions and OP-902-002, Loss of Coolant Accident Recovery Procedure. Stop RCPs (CT 1, Trip RCPs exceeding 6              RC23A            M - All      operating limits).

CS-125B, Containment Spray Header B Isolation, fails to auto-open requiring manual action to open CS-C - BOP      125B (CT 2, Containment Temperature & Pressure 7              CS04B            C - SRO      control).

Main Steam Line 2 Break inside containment requiring entry into OP-902-008, Functional Recovery 8              MS11B            M - All      Procedure.

Containment Spray Pump A trips requiring action to C - BOP      override close CS-125A, Containment Spray Header A 9              CS01A            C - SRO      Isolation (CT 3, Containment Isolation).

*         (N)ormal,   (R)eactivity, (I)nstrument, (C)omponent,     (M)ajor 2017 NRC Exam Scenario 4 D-1 Rev 2