ML071360136: Difference between revisions

From kanterella
Jump to navigation Jump to search
(Created page by program invented by StriderTol)
(StriderTol Bot change)
 
Line 31: Line 31:
000003 ES-401                                      PWR Examination Outline                              Form ES-401-2
000003 ES-401                                      PWR Examination Outline                              Form ES-401-2
=acility:        TMI Unit 1                                Date of Exam:      4/22/2007 RO K/A Category Points                      SRO-Only Points Tier          Group K    K K K K K A A A A G T o t a l                      A2          G*      Total 1  2 3 4 5 6 1 2 3 4 *
=acility:        TMI Unit 1                                Date of Exam:      4/22/2007 RO K/A Category Points                      SRO-Only Points Tier          Group K    K K K K K A A A A G T o t a l                      A2          G*      Total 1  2 3 4 5 6 1 2 3 4 *
: 1.        I    1 Emergency
: 1.        I    1 Emergency Abnormal 2    Tier Plant Evolutions        Totals Plant Systems            Tier Totals
      &
Abnormal 2    Tier Plant Evolutions        Totals Plant Systems            Tier Totals
: 3. Generic Knowledge and Abilities Categories 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 WA category shall not be less than two).
: 3. Generic Knowledge and Abilities Categories 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 WA category shall not be less than two).
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 k1 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.
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 k1 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.
Line 52: Line 50:
NUREG-I02 1                                                                    2
NUREG-I02 1                                                                    2


ES-401                                                                  TMI Unit 1                                                                    Form ES-401-2 NRC Written Examination Outline Emergency and Abnormal Plant Evolutions - Tier 1 Group 1
ES-401                                                                  TMI Unit 1                                                                    Form ES-401-2 NRC Written Examination Outline Emergency and Abnormal Plant Evolutions - Tier 1 Group 1 Knowledge of the operational implications of the 029 I Anticipated Transient Without Scram (ATWS) I 1        X                        EKI .01    following concepts as they apply to the ATWS: Reactor                46 nucleonics and thenno-hydraulics behavior
                                                                                                                                                                    -
Knowledge of the operational implications of the 029 I Anticipated Transient Without Scram (ATWS) I 1        X                        EKI .01    following concepts as they apply to the ATWS: Reactor                46 nucleonics and thenno-hydraulics behavior
                                                                                       ~
                                                                                       ~
Knowledge of the reasons for the following responses 038 ISteam Generator Tube Rupture I 3                                X              EK3.03    as the apply to the SGTR: Automatic actions associated              47 with hiah radioactivitv in SIG samDle lines
Knowledge of the reasons for the following responses 038 ISteam Generator Tube Rupture I 3                                X              EK3.03    as the apply to the SGTR: Automatic actions associated              47 with hiah radioactivitv in SIG samDle lines 054 ILoss of Main Feedwater I 4                                      X              AK3.03 Knowledge of the reasons for the following responses as they apply to the Loss of Main Feedwater (MFW):
                                                                    -
Manual control of AFW flow control valves I  3.8 48 Knowledge of the operational implications of the 055 /Station Blackout 16                                    X                        EK1.02    following concepts as they apply to the Station              4.1    49 Knowledge of the operational implications of the 056 ILoss of Off-site Power f 6                            X                                  following concepts as they apply to Loss of Offsite AK1.04                                                                  3.1    50 Power: Definition of saturation conditions, implication for the svstems Emergency Procedures I Plan Ability to recognize 057 I Loss of Vital AC Electrical Instrument Bus I6    X                                      abnormal indications for system operating parameters 2.4.4                                                                  4.0    51 which are entry-level conditions for emergency and abnormal operating procedures.
054 ILoss of Main Feedwater I 4                                      X              AK3.03 Knowledge of the reasons for the following responses as they apply to the Loss of Main Feedwater (MFW):
Manual control of AFW flow control valves I  3.8
                                                                                                                                                                    -
48 Knowledge of the operational implications of the 055 /Station Blackout 16                                    X                        EK1.02    following concepts as they apply to the Station              4.1    49 Knowledge of the operational implications of the 056 ILoss of Off-site Power f 6                            X                                  following concepts as they apply to Loss of Offsite AK1.04                                                                  3.1    50 Power: Definition of saturation conditions, implication for the svstems Emergency Procedures I Plan Ability to recognize 057 I Loss of Vital AC Electrical Instrument Bus I6    X                                      abnormal indications for system operating parameters 2.4.4                                                                  4.0    51 which are entry-level conditions for emergency and abnormal operating procedures.
                                                                                                                                                                   ~ -
                                                                                                                                                                   ~ -
Knowledge of the operational implications of the 058 ILoss of DC Power 16                                    X                        AKI .01  following concepts as they apply to Loss of DC Power:        2.8    52 Battery charger equipment and instrumentation
Knowledge of the operational implications of the 058 ILoss of DC Power 16                                    X                        AKI .01  following concepts as they apply to Loss of DC Power:        2.8    52 Battery charger equipment and instrumentation Knowledge of the reasons for the following responses 062 ILoss of Nuclear Service Water I 4                              X                        as they apply to the Loss of Nuclear Service Water The AK3.02                                                                  3.6    53 automatic actions (alignments) within the nuclear service water resulting from the actuation of the ESFAS Knowledge of the interrelations between the (Inadequate Heat Transfer) and the following: Facility's E04 Ihadequate Heat Transfer I 4                                X heat removal systems, including primary coolant, EK2.2                                                                  4.2    54 emergency coolant, the decay heat removal systems, and relations between the proper operation of these systems to the operation of the facility.
                                                                                                                                                                    -
Knowledge of the reasons for the following responses 062 ILoss of Nuclear Service Water I 4                              X                        as they apply to the Loss of Nuclear Service Water The AK3.02                                                                  3.6    53 automatic actions (alignments) within the nuclear service water resulting from the actuation of the ESFAS
                                                                    -
Knowledge of the interrelations between the (Inadequate Heat Transfer) and the following: Facility's E04 Ihadequate Heat Transfer I 4                                X heat removal systems, including primary coolant, EK2.2                                                                  4.2    54 emergency coolant, the decay heat removal systems, and relations between the proper operation of these systems to the operation of the facility.
                                                                                                                                         ~                          -
                                                                                                                                         ~                          -
Knowledge of the reasons for the following responses E05 IExcessive Heat Transfer I 4                                    X as they apply to the (Excessive Heat Transfer) Normal, EK3.2                                                                  35    55 abnormal and emergency operating procedures associated with (Excessive Heat Transfer).
Knowledge of the reasons for the following responses E05 IExcessive Heat Transfer I 4                                    X as they apply to the (Excessive Heat Transfer) Normal, EK3.2                                                                  35    55 abnormal and emergency operating procedures associated with (Excessive Heat Transfer).
Line 81: Line 69:
Ability to determine and interpret the following as they apply to the (Natural Circulation Cooldownj ED9 I Natural Circulation Operations I4                                        EA22      Adherence to appropriate procedures and operation            4.0  85 within the limitations in the facility's license and amendments.
Ability to determine and interpret the following as they apply to the (Natural Circulation Cooldownj ED9 I Natural Circulation Operations I4                                        EA22      Adherence to appropriate procedures and operation            4.0  85 within the limitations in the facility's license and amendments.
Knowledge of the reasons for the following responses as they apply to the Steam Generator Tube Leak:
Knowledge of the reasons for the following responses as they apply to the Steam Generator Tube Leak:
037 I Steam Generator Tube Leak I 3                          X              AK3.02 Comparison of makeup flow and letdown flow for various modes of operation
037 I Steam Generator Tube Leak I 3                          X              AK3.02 Comparison of makeup flow and letdown flow for various modes of operation Ability to operate and I or monitor the following as they 051 I Loss of Condenser Vacuum I 4                                            AA1.04 apply to the Loss of Condenser Vacuum: Rod position 060 I Accidental Gaseous RadWaste Release I 9 068 I Control Room Evacuation I 8                        X X
                                                              -
t      AA1.02 AK2.07 Ability to operate and I or monitor the following as they apply to the Accidental Gaseous Radwaste:
Ability to operate and I or monitor the following as they 051 I Loss of Condenser Vacuum I 4                                            AA1.04 apply to the Loss of Condenser Vacuum: Rod position 060 I Accidental Gaseous RadWaste Release I 9 068 I Control Room Evacuation I 8                        X
                                                                  -
X t      AA1.02 AK2.07 Ability to operate and I or monitor the following as they apply to the Accidental Gaseous Radwaste:
Ventilation system
Ventilation system
__            ~~
__            ~~
Line 97: Line 82:
NUREG-IO21                                                            5
NUREG-IO21                                                            5


ES-401                                                      TMI Unit 1                                                                Form ES-401-2 NRC Written Examination Outline Emergency and Abnormal Plant Evolutions - Tier 1 Group 2
ES-401                                                      TMI Unit 1                                                                Form ES-401-2 NRC Written Examination Outline Emergency and Abnormal Plant Evolutions - Tier 1 Group 2 Knowledge of the interrelations between the (Inadequate Subcooling Margin) and the following:
                                                                                                                                                -
Knowledge of the interrelations between the (Inadequate Subcooling Margin) and the following:
Facility's heat removal systems, including primary E03 I hadequate Subcooling Margin I4                                              coolant, emergency coolant, the decay heat removal 64 systems, and relations between the proper operation of these systems to the operation of the facility.
Facility's heat removal systems, including primary E03 I hadequate Subcooling Margin I4                                              coolant, emergency coolant, the decay heat removal 64 systems, and relations between the proper operation of these systems to the operation of the facility.
Knowledge of the reasons for the following responses as they apply to the (Natural Circulation Cooldown)
Knowledge of the reasons for the following responses as they apply to the (Natural Circulation Cooldown)
EO9 I Natural Circulation Operations I4                                            Manipulation of controls required to obtain desired          65 operating results during abnormal and emergency situations.
EO9 I Natural Circulation Operations I4                                            Manipulation of controls required to obtain desired          65 operating results during abnormal and emergency situations.
KIA Category Point Total:                I 012 0
KIA Category Point Total:                I 012 0 NUREG-I021                                                      6
                                              -
NUREG-I021                                                      6


I ES-401                                                                    TMI Unit 1                                                                Form ES-401-2 NRC Written Examination Outline Plant Systems - Tier 2 Group 1 System #/Name                    I G I K1 I K2 I K3 I K4 I K5 I K6 I A I I A2 I I I Number I A3  A4                                  KIA Topics                      I Imp. I Q#
I ES-401                                                                    TMI Unit 1                                                                Form ES-401-2 NRC Written Examination Outline Plant Systems - Tier 2 Group 1 System #/Name                    I G I K1 I K2 I K3 I K4 I K5 I K6 I A I I A2 I I I Number I A3  A4                                  KIA Topics                      I Imp. I Q#
Ability to (a) predict the impacts of the following malfunctions or operations on the PZR PCS, and (b) based on those predictions. use procedures to 010 Pressurizer Pressure Control                                                      A2.02                                                                3.9  86 correct control. or mitigate the consequences of those malfunctions or operations Spray valve failures 012 Reactor Protection                                                                2.1.30 I  Conduct of Operations: Ability to locate and operate components. including local controls.
Ability to (a) predict the impacts of the following malfunctions or operations on the PZR PCS, and (b) based on those predictions. use procedures to 010 Pressurizer Pressure Control                                                      A2.02                                                                3.9  86 correct control. or mitigate the consequences of those malfunctions or operations Spray valve failures 012 Reactor Protection                                                                2.1.30 I  Conduct of Operations: Ability to locate and operate components. including local controls.
3.4  87
3.4  87 026 Containment Spray                                                                  2132  I  Conduct of Operations Ability to explain and apply all system limits and precautions 38    88 Ability to (a) predict the impacts of the following malfunctions or operations on the ac distribution system and (b) based on those predictions use 062 AC Electrical Distribution                                            X          A2.12                                                                3.6  89 procedures to correct control or mitigate the consequences of those malfunctions or operations Restoration of power to a system with a fault on it Conduct of Operations Knowledge of system 103 Containment                    X                                                  2.1.27                                                              29    90 purpose and or function 003 Reactor Coolant Pump                                                              K6.04 Knowledge of the effect of a loss or malfunction on the followina will have on the RCPS: Containment isolation vailes affecting RCP operation I  2.8    1 Knowledge of the physical connections andlor 004 Chemical and Volume                                                                        cause-effect relationships between the CVCS and X                                              K1.10                                                                2.7  2 Control                                                                                        the following systems: CRDS operation in automatic mode control 005 Residual Heat Removal                                                              K6.03 Knowledge of the effect of a loss or malfunction on the following will have on the RHRS: RHR heat exchanger 1  2.5    3 Ability to manually operate andlor monitor in the 006 Emergency Core Cooling                                                          X  A4.05    control room: Transfer of ECCS flow paths prior to                4 recirculation 007 Pressurizer RelieflQuench                                                                    Knowledge of the effect that a loss or malfunction of K3.01    the PRTS will have on the following: Containment                  5 008 Component Cooling Water                                                              2.1.2 Conduct of Operations: Knowledge of operator responsibilities during all modes of plant operation.
                                                                                                                                                                    -
026 Containment Spray                                                                  2132  I  Conduct of Operations Ability to explain and apply all system limits and precautions 38    88 Ability to (a) predict the impacts of the following malfunctions or operations on the ac distribution system and (b) based on those predictions use 062 AC Electrical Distribution                                            X          A2.12                                                                3.6  89 procedures to correct control or mitigate the consequences of those malfunctions or operations Restoration of power to a system with a fault on it Conduct of Operations Knowledge of system 103 Containment                    X                                                  2.1.27                                                              29    90 purpose and or function
                                    -
003 Reactor Coolant Pump                                                              K6.04 Knowledge of the effect of a loss or malfunction on the followina will have on the RCPS: Containment isolation vailes affecting RCP operation I  2.8    1 Knowledge of the physical connections andlor 004 Chemical and Volume                                                                        cause-effect relationships between the CVCS and X                                              K1.10                                                                2.7  2 Control                                                                                        the following systems: CRDS operation in automatic mode control 005 Residual Heat Removal                                                              K6.03 Knowledge of the effect of a loss or malfunction on the following will have on the RHRS: RHR heat exchanger 1  2.5    3 Ability to manually operate andlor monitor in the 006 Emergency Core Cooling                                                          X  A4.05    control room: Transfer of ECCS flow paths prior to                4 recirculation
                                                                                                                                                                    -
007 Pressurizer RelieflQuench                                                                    Knowledge of the effect that a loss or malfunction of K3.01    the PRTS will have on the following: Containment                  5 008 Component Cooling Water                                                              2.1.2 Conduct of Operations: Knowledge of operator responsibilities during all modes of plant operation.
I  3.0    6 Ability to (a) predict the impacts of the following malfunctions or operations on the PZR PCS; and (b) 010 Pressurizer Pressure Control                                            X          A2.03    based on those predictions, use procedures to              4.1    7 correct, control, or mitigate the consequences of those malfunctions or operations: PORV failures NUREG-1021                                                                      7
I  3.0    6 Ability to (a) predict the impacts of the following malfunctions or operations on the PZR PCS; and (b) 010 Pressurizer Pressure Control                                            X          A2.03    based on those predictions, use procedures to              4.1    7 correct, control, or mitigate the consequences of those malfunctions or operations: PORV failures NUREG-1021                                                                      7


NRC Written Examination Outline Plant Systems - Tier 2 Group 1 I l l 1 Knowledge of the effect of a loss or malfunction of 010 Pressurizer Pressure Control                                      K6.01  the following will have on the PZR PCS: Pressure detection systems Knowledge of the effect of a loss or malfunction of 012 Reactor Protection                                                K6.10  the following will have on the RPS: Permissive circuits Knowledge of bus power supplies to the following:
NRC Written Examination Outline Plant Systems - Tier 2 Group 1 I l l 1 Knowledge of the effect of a loss or malfunction of 010 Pressurizer Pressure Control                                      K6.01  the following will have on the PZR PCS: Pressure detection systems Knowledge of the effect of a loss or malfunction of 012 Reactor Protection                                                K6.10  the following will have on the RPS: Permissive circuits Knowledge of bus power supplies to the following:
013 Engineered Safety Features        X                              K2.01  ESFAS/safeguardsequipment control                        3.6  10 Actuation 013 Engineered Safety Features                                                Conduct of Operations: Ability to explain and apply 2.1.32  all system limits and precautions.                      3.4  11 Actuation 022 Containment Cooling                                            1
013 Engineered Safety Features        X                              K2.01  ESFAS/safeguardsequipment control                        3.6  10 Actuation 013 Engineered Safety Features                                                Conduct of Operations: Ability to explain and apply 2.1.32  all system limits and precautions.                      3.4  11 Actuation 022 Containment Cooling                                            1 Ability to monitor automatic operation of the CCS, Initiation of safeguards mode of operation I 4'1 I 12 Conduct of Operations: Knowledge of system              2.8 012 Reactor Protection                                                2.1.27                                                                13 purpose and or function.
                                                                  -:
Ability to manually operate andlor monitor in the A4.01                                                            4.5  14 026 Containment Spray                                                        control room: css controls Knowledge of the effect that a loss or malfunction of    3.9 026 Containment Spray                    X                            K3.01                                                                  15 the CSS will have on the following: CCS Ability to predict and/or monitor changes in parameters (to prevent exceeding design limits) 039 Main and Reheat Steam                                            A I .06                                                          3.0  16 associated with operating the MRSS controls including: Main steam pressure Ability to (a) predict the impacts of the following malfunctions or operations on the MFW; and (b) based on those predictions, use procedures to 059 Main Feedwater                                                    A2.07                                                            3.0  17 correct, control, or mitigate the consequences of those malfunctions or operations: Tripping of MFW pump turbine Knowledge of the effect that a loss or malfunction of    3.6  18 059 Main Feedwater                      X                            K3.02 the MFW will have on the following: AFW system Knowledge of the effect of a loss or malfunction of 061 Auxillary/Ernergency Feedwater Ability to monitor automatic operation of the ac 062 AC Electrical Distribution Ability to monitor automatic operation of the dc 063 DC Electrical Distribution                                        A3.01  electrical system, including: Meters, annunciators,      2.7  21 dials, recorders, and indicating lights NUREG-I 021                                              8
Ability to monitor automatic operation of the CCS, Initiation of safeguards mode of operation I 4'1 I 12 Conduct of Operations: Knowledge of system              2.8 012 Reactor Protection                                                2.1.27                                                                13 purpose and or function.
                                                                                                                                            -
Ability to manually operate andlor monitor in the A4.01                                                            4.5  14 026 Containment Spray                                                        control room: css controls Knowledge of the effect that a loss or malfunction of    3.9 026 Containment Spray                    X                            K3.01                                                                  15 the CSS will have on the following: CCS
                                                                                                                                          -
Ability to predict and/or monitor changes in parameters (to prevent exceeding design limits) 039 Main and Reheat Steam                                            A I .06                                                          3.0  16 associated with operating the MRSS controls including: Main steam pressure Ability to (a) predict the impacts of the following malfunctions or operations on the MFW; and (b) based on those predictions, use procedures to 059 Main Feedwater                                                    A2.07                                                            3.0  17 correct, control, or mitigate the consequences of those malfunctions or operations: Tripping of MFW pump turbine
                                                                                                                                          -
Knowledge of the effect that a loss or malfunction of    3.6  18 059 Main Feedwater                      X                            K3.02 the MFW will have on the following: AFW system Knowledge of the effect of a loss or malfunction of 061 Auxillary/Ernergency Feedwater Ability to monitor automatic operation of the ac 062 AC Electrical Distribution Ability to monitor automatic operation of the dc 063 DC Electrical Distribution                                        A3.01  electrical system, including: Meters, annunciators,      2.7  21 dials, recorders, and indicating lights NUREG-I 021                                              8


ES-401                                              TMI Unit 1                                                                    Form ES-401-2 NRC Written Examination Outline Plant Systems - Tier 2 Group 1 I          L Ability to predict and/or monitor changes in parameters (to prevent exceeding design limits) 064 Emergency Diesel Generator                                    A I .03  associated with operating the ED/G system controls        3.2    22 including: Operating voltages, currents, and temperatures Ability to (a) predict the impacts of the following malfunctions or operations on the PRM system; and A2.02    (b) based on those predictions, use procedures to        2.7    23 correct, control, or mitigate the consequencesof those malfunctions or operations: Detector failure Knowledge of the physical connections and/or cause-effect relationships between the PRM system K1                                                                3.6    24 and the following systems: Those systems served by PRMs Conduct of Operations: Knowledge of operator 2'1 '2                                                            3.0    25 responsibilities during all modes of plant operation.
ES-401                                              TMI Unit 1                                                                    Form ES-401-2 NRC Written Examination Outline Plant Systems - Tier 2 Group 1 I          L Ability to predict and/or monitor changes in parameters (to prevent exceeding design limits) 064 Emergency Diesel Generator                                    A I .03  associated with operating the ED/G system controls        3.2    22 including: Operating voltages, currents, and temperatures Ability to (a) predict the impacts of the following malfunctions or operations on the PRM system; and A2.02    (b) based on those predictions, use procedures to        2.7    23 correct, control, or mitigate the consequencesof those malfunctions or operations: Detector failure Knowledge of the physical connections and/or cause-effect relationships between the PRM system K1                                                                3.6    24 and the following systems: Those systems served by PRMs Conduct of Operations: Knowledge of operator 2'1 '2                                                            3.0    25 responsibilities during all modes of plant operation.
Line 134: Line 102:


ES-401                                    TMI Unit 1                                                                  Form ES-401-2 NRC Written Examination Outline Plant Systems - Tier 2 Group 2 I
ES-401                                    TMI Unit 1                                                                  Form ES-401-2 NRC Written Examination Outline Plant Systems - Tier 2 Group 2 I
Conduct of Operations Ability to explain and apply 011 Pressurizer Level Control                            2.1.32                                                            3.8    91 all system limits and precautions
Conduct of Operations Ability to explain and apply 011 Pressurizer Level Control                            2.1.32                                                            3.8    91 all system limits and precautions Ability to (a) predict the impacts of the following malfunctions or operations on the Waste Gas Disposal System and (b) based on those 071 Waste Gas Disposal                                    A2.08                                                              2.8    92 predictions, use procedures to correct control, or mitigate the consequences of those malfunctions or 1                  x                                              operations Meteorologicalchanges 4-i Conduct of Operations: Ability to perform specific 086 Fire Protection                                      2.1.23    system and integrated plant procedures during all        4.0 modes of plant operation.
                                                                                                                                  -
Ability to (a) predict the impacts of the following malfunctions or operations on the Waste Gas Disposal System and (b) based on those 071 Waste Gas Disposal                                    A2.08                                                              2.8    92 predictions, use procedures to correct control, or mitigate the consequences of those malfunctions or 1                  x                                              operations Meteorologicalchanges 4-i Conduct of Operations: Ability to perform specific 086 Fire Protection                                      2.1.23    system and integrated plant procedures during all        4.0 modes of plant operation.
Knowledge of the following operational implications 001 Control Rod Drive                                    K5.33    as they apply to the CRDS: Xenon production and          3.2 removal process Knowledge of the operational implications of the 011 Pressurizer Level Control                            K5.12    following concepts as they apply to the PZR LCS          2.7      30 Criteria and purpose of PZR level program Knowledge of ITM system design feature(s) and/or 017 In-core Temperature Monitor                                                                                            3.4      31 subcooling monitors 027 Containment Iodine Removal                                                                                              3.1    32 Knowledge of design feature(s) andlor interlock(s) 029 Containment Purge                                    K4.02    which provide for the following: Negative pressure in containment Ability to (a) predict the impacts of the following malfunctions or operations on the Spent Fuel Pool Cooling System ; and (b) based those predictions, 033 Spent Fuel Pool Cooling                              A2.03    use procedures to correct, control, or mitigate the consequences of those malfunctions or operations:
Knowledge of the following operational implications 001 Control Rod Drive                                    K5.33    as they apply to the CRDS: Xenon production and          3.2 removal process Knowledge of the operational implications of the 011 Pressurizer Level Control                            K5.12    following concepts as they apply to the PZR LCS          2.7      30 Criteria and purpose of PZR level program Knowledge of ITM system design feature(s) and/or 017 In-core Temperature Monitor                                                                                            3.4      31 subcooling monitors 027 Containment Iodine Removal                                                                                              3.1    32 Knowledge of design feature(s) andlor interlock(s) 029 Containment Purge                                    K4.02    which provide for the following: Negative pressure in containment Ability to (a) predict the impacts of the following malfunctions or operations on the Spent Fuel Pool Cooling System ; and (b) based those predictions, 033 Spent Fuel Pool Cooling                              A2.03    use procedures to correct, control, or mitigate the consequences of those malfunctions or operations:
Abnormal Spent Fuel Pool water level or loss of water level.
Abnormal Spent Fuel Pool water level or loss of water level.
I
I Ability to manually operate andlor monitor in the control room: Turbine valve indicators (throttle, 045 Main Turbine Generator                          X    A4.01                                                              3.1    35 governor, control, stop, intercept), alarms, and I I            I annunciators.
                                                                                                                                    -
Ability to manually operate andlor monitor in the control room: Turbine valve indicators (throttle, 045 Main Turbine Generator                          X    A4.01                                                              3.1    35 governor, control, stop, intercept), alarms, and I I            I annunciators.
A3.01    Ability to monitor automatic operation of the W a r r - , , y l y 071 Waste Gas Disposal                        X Gas Disposal System including: HRPS 072 Area Radiation Monitoring I
A3.01    Ability to monitor automatic operation of the W a r r - , , y l y 071 Waste Gas Disposal                        X Gas Disposal System including: HRPS 072 Area Radiation Monitoring I
1 I
1 I
Line 225: Line 189:
NUREG-1021, Revision 9
NUREG-1021, Revision 9


8000643 ES-301                        Control Room/ln-Plant Systems Outline                    Form ES-301-2
8000643 ES-301                        Control Room/ln-Plant Systems Outline                    Form ES-301-2 Facility:      TMI Unit 1                                      Date of Examination:        April 2007 Exam Level (circle one):      RO / SRO(I) / SRO (U)            Operating Test No.:          NRC Control Room Systems@(8 for RO; 7 for SRO-I; 2 or 3 for SRO-U, including 1 ESF)
                                                                                                        -
Facility:      TMI Unit 1                                      Date of Examination:        April 2007 Exam Level (circle one):      RO / SRO(I) / SRO (U)            Operating Test No.:          NRC
-
Control Room Systems@(8 for RO; 7 for SRO-I; 2 or 3 for SRO-U, including 1 ESF)
Type Code*      Safety System / JPM Title Function a,    Take corrective action for a Control Rod Drive Sequence Fault in              M. L          1 accordance with (IAW) OP-TM-MAP-GOZOZ.
Type Code*      Safety System / JPM Title Function a,    Take corrective action for a Control Rod Drive Sequence Fault in              M. L          1 accordance with (IAW) OP-TM-MAP-GOZOZ.
System: 001
System: 001
Line 293: Line 253:
CRS            NLO Reports an excessive oil leak from Emergency Feedwater Pump EF-P-1 (TS).
CRS            NLO Reports an excessive oil leak from Emergency Feedwater Pump EF-P-1 (TS).
3    +M                            Turbine Header Pressure instrument fails high slowly I ARO 4      CC04A        C CRS          Intermediate Closed Cooling Water Pump IC-P-1A trips and IC-P-I B fails to auto start I CUR0 5        MS19A        N CRS        Steam Leak in the Turbine Building N ARO R URO 6        FW-15A      M CRS        Feedwater Pump 1A trip FW-15B      M URO        Feedwater Pump 1B trip TC076        M ARO        Turbine stop valve fails open 7        FW17        C CRS        Emergency Feedwater Pump EF-P-1 trips on start FW18A        C ARO        Emergency Feedwater Pump EF-P-2A does not start. (CT-14) 8        MU086        C CRS        High Pressure Injection Valve (HPI) MU-V-16B fails to open C URO        B ESAS Manual Actuation Failure (CT-2)
3    +M                            Turbine Header Pressure instrument fails high slowly I ARO 4      CC04A        C CRS          Intermediate Closed Cooling Water Pump IC-P-1A trips and IC-P-I B fails to auto start I CUR0 5        MS19A        N CRS        Steam Leak in the Turbine Building N ARO R URO 6        FW-15A      M CRS        Feedwater Pump 1A trip FW-15B      M URO        Feedwater Pump 1B trip TC076        M ARO        Turbine stop valve fails open 7        FW17        C CRS        Emergency Feedwater Pump EF-P-1 trips on start FW18A        C ARO        Emergency Feedwater Pump EF-P-2A does not start. (CT-14) 8        MU086        C CRS        High Pressure Injection Valve (HPI) MU-V-16B fails to open C URO        B ESAS Manual Actuation Failure (CT-2)
Scenario Event Description NRC Scenario 1 Three Mile Island NRC Scenario #I The crew will take the watch with reactor power at 100% and ICs in Full Automatic. Emergency Feedwater (EFW) Pump EF-P2B is 00s for a bearing replacement. Decay Heat River Water Pump DR-P-1A is running in preparation for a liquid release.
Scenario Event Description NRC Scenario 1 Three Mile Island NRC Scenario #I The crew will take the watch with reactor power at 100% and ICs in Full Automatic. Emergency Feedwater (EFW) Pump EF-P2B is 00s for a bearing replacement. Decay Heat River Water Pump DR-P-1A is running in preparation for a liquid release.
When the crew has accepted the watch the Lead Examiner can cue the initiation of the trip of Decay Heat River Water Pump DR-P-1A. The Crew should respond in accordance with MAP Alarm B-1-5, 480V ES Motor Trip and 8-24, 480V ES Motor Overload. The CRS should review Tech Spec 3.3.1.4.d and declare a 72 hour timeclock based on Tech Spec 3.3.2. When the Tech Spec call has been made the scenario can continue.
When the crew has accepted the watch the Lead Examiner can cue the initiation of the trip of Decay Heat River Water Pump DR-P-1A. The Crew should respond in accordance with MAP Alarm B-1-5, 480V ES Motor Trip and 8-24, 480V ES Motor Overload. The CRS should review Tech Spec 3.3.1.4.d and declare a 72 hour timeclock based on Tech Spec 3.3.2. When the Tech Spec call has been made the scenario can continue.
Line 301: Line 260:
After IC-P-1B has been started the Lead Evaluator can cue initiation of the steam leak in the Turbine Building. The crew should diagnose the steam leak in the Turbine Building and the CRS should implement 1203-24, Steam Leak. An NLO will provide a report of severity enough to begin a plant shutdown. The CRS should order a plant shutdown in accordance with 1102-4, Power Operations.
After IC-P-1B has been started the Lead Evaluator can cue initiation of the steam leak in the Turbine Building. The crew should diagnose the steam leak in the Turbine Building and the CRS should implement 1203-24, Steam Leak. An NLO will provide a report of severity enough to begin a plant shutdown. The CRS should order a plant shutdown in accordance with 1102-4, Power Operations.
At the cue of the Lead Examiner or after the first Feedwater Pump (FW-P-1A or FW-P-1B) is secured initiate the trip of the remaining pump to trip the reactor. If the crew trips the reactor due to the steam leak the trip of both Feedwater Pumps will be initiated at e40 % power. One turbine stop valve will fail to close and the contingency steps of OP-TM-EOP-001, Reactor Trip will have to be taken for the turbine. The steam leak will be isolated when the turbine trips. The CRS will initiate OP-TM-EOP-001, Reactor Trip.
At the cue of the Lead Examiner or after the first Feedwater Pump (FW-P-1A or FW-P-1B) is secured initiate the trip of the remaining pump to trip the reactor. If the crew trips the reactor due to the steam leak the trip of both Feedwater Pumps will be initiated at e40 % power. One turbine stop valve will fail to close and the contingency steps of OP-TM-EOP-001, Reactor Trip will have to be taken for the turbine. The steam leak will be isolated when the turbine trips. The CRS will initiate OP-TM-EOP-001, Reactor Trip.
000603 Scenario Event Description NRC Scenario 1 Three Mile Island NRC Scenario #I      Continued Following the loss of both Feedwater Pumps, EF-P-I will trip (if not previously isolated by the CRS) and EF-P-2A fails to start. The crew should diagnose the lack of heat transfer and respond in accordance with OP-TM-EOP-004, Lack of Primary to Secondary Heat Transfer.
000603 Scenario Event Description NRC Scenario 1 Three Mile Island NRC Scenario #I      Continued Following the loss of both Feedwater Pumps, EF-P-I will trip (if not previously isolated by the CRS) and EF-P-2A fails to start. The crew should diagnose the lack of heat transfer and respond in accordance with OP-TM-EOP-004, Lack of Primary to Secondary Heat Transfer.
Without primary to secondary heat transfer PORVlHPl cooling is the only method to maintain adequate core cooling which makes this a critical task. PORVIHPI Cooling will be initiated in accordance with OP-TM-EOP-009, HPI Cooling (CT-14). The ARO will initiate OP-TM-EOP-010, Guide 16, EFW Failure for the Emergency Feedwater Pump failures.
Without primary to secondary heat transfer PORVlHPl cooling is the only method to maintain adequate core cooling which makes this a critical task. PORVIHPI Cooling will be initiated in accordance with OP-TM-EOP-009, HPI Cooling (CT-14). The ARO will initiate OP-TM-EOP-010, Guide 16, EFW Failure for the Emergency Feedwater Pump failures.
Line 307: Line 265:
The CRS will subsequently transition to OP-TM-EOP-006, LOCA Cooldown from EOP-009.
The CRS will subsequently transition to OP-TM-EOP-006, LOCA Cooldown from EOP-009.
The Lead Evaluator can terminate the scenario when all high level activities have been completed and the evaluators agree the crew can be properly evaluated.
The Lead Evaluator can terminate the scenario when all high level activities have been completed and the evaluators agree the crew can be properly evaluated.
OOOGQ3 Scenario Event Description NRC Scenario 1 Description                            Procedure Support Initial Set-up.                EF-P-26 00s for bearing replacement 3R-P-1A Running in preparation for a liquid release DR-P-1A Trips                  TS 3.3.1.4.d and 3.3.2, ECCS Systems MAP Alarm 8-1-5, 480V ES Motor Trip MAP Alarm 8-2-5, 480V ES ES Motor Overload EF-P-1 Bearing Oil Leak        TS 3.4.1.1.a.4, Decay Heat Removal Capability Turbine Header Pressure        3P-TM-MAP-H0302, Sass Mismatch instrument fails high 3P-TM-MAP-H0203, Mn Turb Hdr Press Hi/Lo 3P-TM-301-471, Manual Control of the Main Turbine 3P-TM-621-471, ICs Manual Control 3P-TM-621-451, Selecting Alternate Instrument Inputs to ICs Intermediate Closed Cooling    1202-17, Loss of Intermediate Cooling System Water Pump IC-P-1A trips 4A-1-6, 480V BOP Motor Trip and IC-P-1B fails to auto start                          OP-TM-MAP-CO102, IC CRD Flow LO OP-TM-MAP-C0202, IC System Flow Lo 1203-24 Steam Leak Steam Leak in the Turbine      1102-4 Power Operations Building Feedwater Pump 1A (or 1B)      OP-TM-EOP-001, Reactor Trip trip Turbine stop valve fails to close Emergency Feedwater Pump        OP-TM-EOP-010, Guide 16, EFW Failure EF-P-1 trips on start OP-TM-EOP-004, Lack of Primary to Secondary Emergency Feedwater Pump        Heat Transfer EF-P-2A does not start.
OOOGQ3 Scenario Event Description NRC Scenario 1 Description                            Procedure Support Initial Set-up.                EF-P-26 00s for bearing replacement 3R-P-1A Running in preparation for a liquid release DR-P-1A Trips                  TS 3.3.1.4.d and 3.3.2, ECCS Systems MAP Alarm 8-1-5, 480V ES Motor Trip MAP Alarm 8-2-5, 480V ES ES Motor Overload EF-P-1 Bearing Oil Leak        TS 3.4.1.1.a.4, Decay Heat Removal Capability Turbine Header Pressure        3P-TM-MAP-H0302, Sass Mismatch instrument fails high 3P-TM-MAP-H0203, Mn Turb Hdr Press Hi/Lo 3P-TM-301-471, Manual Control of the Main Turbine 3P-TM-621-471, ICs Manual Control 3P-TM-621-451, Selecting Alternate Instrument Inputs to ICs Intermediate Closed Cooling    1202-17, Loss of Intermediate Cooling System Water Pump IC-P-1A trips 4A-1-6, 480V BOP Motor Trip and IC-P-1B fails to auto start                          OP-TM-MAP-CO102, IC CRD Flow LO OP-TM-MAP-C0202, IC System Flow Lo 1203-24 Steam Leak Steam Leak in the Turbine      1102-4 Power Operations Building Feedwater Pump 1A (or 1B)      OP-TM-EOP-001, Reactor Trip trip Turbine stop valve fails to close Emergency Feedwater Pump        OP-TM-EOP-010, Guide 16, EFW Failure EF-P-1 trips on start OP-TM-EOP-004, Lack of Primary to Secondary Emergency Feedwater Pump        Heat Transfer EF-P-2A does not start.
OP-TM-EOP-009, HPI Cooling High Pressure Injection        OP-TM-211-901, Emergency Injection (HPIILPI).
OP-TM-EOP-009, HPI Cooling High Pressure Injection        OP-TM-211-901, Emergency Injection (HPIILPI).
Valve (HPI) MU-V-16B fails to open B ESAS Manual Actuation Failure
Valve (HPI) MU-V-16B fails to open B ESAS Manual Actuation Failure 080683 Scenario Event Description NRC Scenario 1 Initialization IC-16 100% HFP, ICs Full AUTO Console Left        EF-P-28 Tagged 00s                Scenario Support EF-P-2B PTL          EF-P-2B PTUEF-P-2B BKR OPEN Remote Function      Value:      OUT                  Scenario Support FWRl3                When:      Immediately Main Console        Robust Barriers applied IAW      Scenario Support Risk Document Console Center      DR-P-1A Running                  Scenario Support DR-P-1A NAS Malfunction RW04A    Value:      Insert                DR-P-1A Trips When:      Event 1 Malfunction MSOl B  Value:      Insert Sev. 100%      Turbine Header Pressure When:      Event 3 RAMP 300 sec  instrument fails high SPIOA-PT2 I/O Override IC-P-1B Value:      Insert OFF            IC-P-1B Fails to Auto Start NAT                  When:      Immediately Malfunction CC04A    Value:      Insert                IC-P-1A trip When:      Event 4 Malfunction MS19B    Value:      Insert Sev. 10%      Steam Leak in the Turbine When:      Event 5 RAMP 300 sec  Building Malfunction FW15A    Value:      Insert                Feedwater Pump 1A trip When:      Event 6 ratpwc40 Malfunction FWI 58  Value:      Insert                Feedwater Pump 1B trip When:      Event 6 ratpwc40 Malfunction TC07B    Value:      Insert                Turbine Stop Valve B Fails When:      Immediately          Open Malfunction FW17    Value:      Insert                Emergency Feedwater Pump When:      Event 7 fwnefp1>0.1  EF-P-1 trip Malfunction FW18A    Value:      Insert                Emergency Feedwater Pump 01A6S28-            When:      Event 8 ratpw40      EF-P-2A trip ZDIEFP2A(5) ON MU08B                Value:      Insert              High Pressure Injection Valve When:      Event 9              (HPI) MU-V-16B fails as is muvmuvl6b>0.1 03A4S02-ZDIPBIRBB    Value:      Insert OFF          B ESAS 4 psig Manual When:        Immediately          Actuation Failure 03A4SOI-ZDIPBl RCB  Value:      Insert OFF            B ESAS 4 psig 1600 psig When:        Immediately          Actuation Failure Appendix D                                    Scenario Outline                              Form ES-D-1 Facility:        Three Mile Island            Scenario No.:        2    OpTestNo.:        NRC Examiners:                                                Operators:
 
080683 Scenario Event Description NRC Scenario 1 Initialization IC-16 100% HFP, ICs Full AUTO Console Left        EF-P-28 Tagged 00s                Scenario Support EF-P-2B PTL          EF-P-2B PTUEF-P-2B BKR OPEN Remote Function      Value:      OUT                  Scenario Support FWRl3                When:      Immediately Main Console        Robust Barriers applied IAW      Scenario Support Risk Document Console Center      DR-P-1A Running                  Scenario Support DR-P-1A NAS Malfunction RW04A    Value:      Insert                DR-P-1A Trips When:      Event 1 Malfunction MSOl B  Value:      Insert Sev. 100%      Turbine Header Pressure When:      Event 3 RAMP 300 sec  instrument fails high SPIOA-PT2 I/O Override IC-P-1B Value:      Insert OFF            IC-P-1B Fails to Auto Start NAT                  When:      Immediately Malfunction CC04A    Value:      Insert                IC-P-1A trip When:      Event 4 Malfunction MS19B    Value:      Insert Sev. 10%      Steam Leak in the Turbine When:      Event 5 RAMP 300 sec  Building Malfunction FW15A    Value:      Insert                Feedwater Pump 1A trip When:      Event 6 ratpwc40 Malfunction FWI 58  Value:      Insert                Feedwater Pump 1B trip When:      Event 6 ratpwc40 Malfunction TC07B    Value:      Insert                Turbine Stop Valve B Fails When:      Immediately          Open Malfunction FW17    Value:      Insert                Emergency Feedwater Pump When:      Event 7 fwnefp1>0.1  EF-P-1 trip Malfunction FW18A    Value:      Insert                Emergency Feedwater Pump 01A6S28-            When:      Event 8 ratpw40      EF-P-2A trip ZDIEFP2A(5) ON MU08B                Value:      Insert              High Pressure Injection Valve When:      Event 9              (HPI) MU-V-16B fails as is muvmuvl6b>0.1 03A4S02-ZDIPBIRBB    Value:      Insert OFF          B ESAS 4 psig Manual When:        Immediately          Actuation Failure 03A4SOI-ZDIPBl RCB  Value:      Insert OFF            B ESAS 4 psig 1600 psig When:        Immediately          Actuation Failure
 
Appendix D                                    Scenario Outline                              Form ES-D-1 Facility:        Three Mile Island            Scenario No.:        2    OpTestNo.:        NRC Examiners:                                                Operators:
/
/
Initial Conditions:  0    Reactor Startup is in Progress 0    NI-3 is 00s due to a detector failure Turnover:            Take the Reactor Critical Critical Tasks:      0    Initiate HPI (CT-2) 0    Trip all RCPs (CT-1)
Initial Conditions:  0    Reactor Startup is in Progress 0    NI-3 is 00s due to a detector failure Turnover:            Take the Reactor Critical Critical Tasks:      0    Initiate HPI (CT-2) 0    Trip all RCPs (CT-1)
Line 325: Line 278:
C URO C CRS          Emergency Feedwater Pump Steam Supply Valve MS-V-13A Fails Open. (CT-21)
C URO C CRS          Emergency Feedwater Pump Steam Supply Valve MS-V-13A Fails Open. (CT-21)
C ARO
C ARO
         *  (N)ormal,    (R)eactivity,    (I)nstrument,    (C)omponent,      (M)ajor
         *  (N)ormal,    (R)eactivity,    (I)nstrument,    (C)omponent,      (M)ajor Scenario Event Description NRC Scenario 2 Three Mile Island NRC Scenario #2 The crew will take the watch with reactor startup in progress pulling toward criticality. NI-3 is 00s due to a detector failure. The crew will continue the reactor startup.
 
Scenario Event Description NRC Scenario 2 Three Mile Island NRC Scenario #2 The crew will take the watch with reactor startup in progress pulling toward criticality. NI-3 is 00s due to a detector failure. The crew will continue the reactor startup.
As soon as the crew accepts the watch the lead Examiner can cue the failure of RB Hi Range monitor RM-G-22. MAP Alarm C-1-1, Radiation Level High will be received and the crew should diagnose the failure of the instrument. The CRS should review TS 3.5.5.2and declare a 7 day timeclock based on the failure. As soon as the TS call is made the crew can be directed to continue the startup.
As soon as the crew accepts the watch the lead Examiner can cue the failure of RB Hi Range monitor RM-G-22. MAP Alarm C-1-1, Radiation Level High will be received and the crew should diagnose the failure of the instrument. The CRS should review TS 3.5.5.2and declare a 7 day timeclock based on the failure. As soon as the TS call is made the crew can be directed to continue the startup.
When the crew has progressed in the startup to satisfy the reactivity manipulation the Lead Examiner can cue the initiation of the Intermediate Range NI-4 detector failure. The CRS should terminate the startup and review TS 3.5.1.1 and Table 3.5-1 and declare a one hour timeclock based on zero Intermediate Range Instruments operable.
When the crew has progressed in the startup to satisfy the reactivity manipulation the Lead Examiner can cue the initiation of the Intermediate Range NI-4 detector failure. The CRS should terminate the startup and review TS 3.5.1.1 and Table 3.5-1 and declare a one hour timeclock based on zero Intermediate Range Instruments operable.
Line 336: Line 287:
Decay Heat Closed Cooling Water Pump DC-P-1B will trip when ESAS is actuated and the CRO will have to implement OP-TM-211-901, Emergency Injection (HPVLPI) Contingency Actions to transfer Makeup Pump MU-P-1C cooling to Nuclear Services Closed Cooling Water (NSCCW). This will required securing MU-P-1C.
Decay Heat Closed Cooling Water Pump DC-P-1B will trip when ESAS is actuated and the CRO will have to implement OP-TM-211-901, Emergency Injection (HPVLPI) Contingency Actions to transfer Makeup Pump MU-P-1C cooling to Nuclear Services Closed Cooling Water (NSCCW). This will required securing MU-P-1C.
After MU-P-IC cooling has been transferred to NSCCW the Lead Examiner can cue the increase. The leak size will result in a loss of subcooled margin. HPI will not automatically actuate at 1600 psig RCS pressure and will have to be manually actuated in accordance with OP-TM-642-901, 1600 PSlG ESAS Actuation. The CRS should initiate OP-TM-EOP-002, Loss of 25°F Subcooled Margin. All four Reactor Coolant Pumps will be tripped within one minute of the loss of subcooled margin (CT-I) resulting in Emergency Feedwater actuation. This is a critical task since failure to trip the RCPs could result in the core not being adequately covered and raise the potential for fuel clad failure.
After MU-P-IC cooling has been transferred to NSCCW the Lead Examiner can cue the increase. The leak size will result in a loss of subcooled margin. HPI will not automatically actuate at 1600 psig RCS pressure and will have to be manually actuated in accordance with OP-TM-642-901, 1600 PSlG ESAS Actuation. The CRS should initiate OP-TM-EOP-002, Loss of 25°F Subcooled Margin. All four Reactor Coolant Pumps will be tripped within one minute of the loss of subcooled margin (CT-I) resulting in Emergency Feedwater actuation. This is a critical task since failure to trip the RCPs could result in the core not being adequately covered and raise the potential for fuel clad failure.
The CRS will transition back to EOP-005 and when EF-P-1 is secured the crew should diagnose the Steam Supply Valve MS-V-13A failure to close and close it manually to stop the
The CRS will transition back to EOP-005 and when EF-P-1 is secured the crew should diagnose the Steam Supply Valve MS-V-13A failure to close and close it manually to stop the OOOG83 Scenario Event Description NRC Scenario 2 Three Mile Island NRC Scenario #2 Continued unmonitored release (CT-21). This is a critical task in that failure to isolate EF-P-1 would result in an uncontrolled radiation release from a non-essential load.
 
OOOG83 Scenario Event Description NRC Scenario 2 Three Mile Island NRC Scenario #2 Continued unmonitored release (CT-21). This is a critical task in that failure to isolate EF-P-1 would result in an uncontrolled radiation release from a non-essential load.
The A OTSG will subsequently be isolated in accordance with EOP-005 (CT-22). This OTSG is not required for cooldown and overfill can not be prevented by steaming, requiring the OTSG to be isolated reducing the radiological consequences of the event.
The A OTSG will subsequently be isolated in accordance with EOP-005 (CT-22). This OTSG is not required for cooldown and overfill can not be prevented by steaming, requiring the OTSG to be isolated reducing the radiological consequences of the event.
The Lead Evaluator can terminate the scenario when all high level activities have been completed and the evaluators agree the crew can be properly evaluated.
The Lead Evaluator can terminate the scenario when all high level activities have been completed and the evaluators agree the crew can be properly evaluated.
OOOG103 Scenario Event Description NRC Scenario 2 Description                            Procedure Support Initial Set-up.                  Reactor Startup in progress Intermediate Range NI-3 is 00s Reactor Building Hi Range        Tech Spec 3.5.5.2 Accident Monitoring Radiation Monitor Failure        Instrumentation (TS)
OOOG103 Scenario Event Description NRC Scenario 2 Description                            Procedure Support Initial Set-up.                  Reactor Startup in progress Intermediate Range NI-3 is 00s Reactor Building Hi Range        Tech Spec 3.5.5.2 Accident Monitoring Radiation Monitor Failure        Instrumentation (TS)
Reactor Startup                  OP 1103-8, Approach to Criticality Intermediate Range              TS 3.5.1.1, Operational Safety Instrumentation Instrument NI-4 Fails Low        Table 3.5-1 (TS)
Reactor Startup                  OP 1103-8, Approach to Criticality Intermediate Range              TS 3.5.1.1, Operational Safety Instrumentation Instrument NI-4 Fails Low        Table 3.5-1 (TS)
Line 348: Line 296:
OTSG Tube Rupture in A          OP-TM-EOP-005, OTSG Tube Leakage OTSG requiring HPI initiation OP-TM-EOP-010, Guide 9 RCS Inventory Control High Capacity Makeup Flow        OP-TM-EOP-010, Guide 9 RCS Inventory Control Valve MU-V-217 Breaker Trips Decay Heat Closed Cooling          OP-TM-211-901, Emergency Injection (HPIILPI)
OTSG Tube Rupture in A          OP-TM-EOP-005, OTSG Tube Leakage OTSG requiring HPI initiation OP-TM-EOP-010, Guide 9 RCS Inventory Control High Capacity Makeup Flow        OP-TM-EOP-010, Guide 9 RCS Inventory Control Valve MU-V-217 Breaker Trips Decay Heat Closed Cooling          OP-TM-211-901, Emergency Injection (HPIILPI)
Water Pump Trips on ESAS OP-TM-543-440, Swapping MU-P-1C Cooling to NS Actuation OTSG Tube Rupture in A            OP-TM-EOP-002, Loss of 25°F Subcooled Margin OTSG Loss of Subcooled OP-TM-EOP-005, OTSG Tube Leakage Margin Both Trains of HPI Fail to        OP-TM-211-901, Emergency Injection (HPVLPI)
Water Pump Trips on ESAS OP-TM-543-440, Swapping MU-P-1C Cooling to NS Actuation OTSG Tube Rupture in A            OP-TM-EOP-002, Loss of 25°F Subcooled Margin OTSG Loss of Subcooled OP-TM-EOP-005, OTSG Tube Leakage Margin Both Trains of HPI Fail to        OP-TM-211-901, Emergency Injection (HPVLPI)
Actuate at 1600 psig OP-TM-642-901, 1600 PSlG ESAS Actuation Emergency Feedwater Pump          OP-TM-EOP-005, OTSG Tube Leakage Steam Supply Valve MS-V-13A Fails Open
Actuate at 1600 psig OP-TM-642-901, 1600 PSlG ESAS Actuation Emergency Feedwater Pump          OP-TM-EOP-005, OTSG Tube Leakage Steam Supply Valve MS-V-13A Fails Open Scenario Event Description NRC Scenario 2 Initialization IC-.. Reactor Startup in Progress Remote Function      Value:      OUT                    Scenario Support When:      Immediately RPS Cabinet C        Turn NI-3 Detector Power Supply    Scenario Support OFF Place EDT on Switch RPS Cabinet C        Turn NI-3 Aux Power Supply OFF    Scenario Support Place EDT on Switch Console Center      Place EDT on NI-3 indication      Scenario Support NI-3 Malfunction RM0322  Value:      Insert                RM-G-22 Fails High When:      Event 1 Malfunction NI11B    Value:      Insert                NI-4 Power Supply Fails OFF When:      Event 3 Malfunction MSO9D    Value:      Insert Sev. 100%      MS-V-3D Fails Open When:      Event 4 Malfunction THI 5A  Value:      Insert Sev. 0.05%      OTSG A Tube Leak When:      Event 5 RAMP 100 sec Malfunction TH16A    Value:      Insert 2.3%            OTSG A Tube Rupture When:      Event 6 RAMP 300 sec Malfunction MU09    Value:      Insert                High Capacity Makeup Valve When:      Immediately            Fails as is Malfunction ESOIA    Value:      Insert                ESAS Failure to Actuate at When:        ImmediateIy          HPI Setpoint (1600 PSIG)
 
Scenario Event Description NRC Scenario 2 Initialization IC-.. Reactor Startup in Progress Remote Function      Value:      OUT                    Scenario Support When:      Immediately RPS Cabinet C        Turn NI-3 Detector Power Supply    Scenario Support OFF Place EDT on Switch RPS Cabinet C        Turn NI-3 Aux Power Supply OFF    Scenario Support Place EDT on Switch Console Center      Place EDT on NI-3 indication      Scenario Support NI-3 Malfunction RM0322  Value:      Insert                RM-G-22 Fails High When:      Event 1 Malfunction NI11B    Value:      Insert                NI-4 Power Supply Fails OFF When:      Event 3 Malfunction MSO9D    Value:      Insert Sev. 100%      MS-V-3D Fails Open When:      Event 4 Malfunction THI 5A  Value:      Insert Sev. 0.05%      OTSG A Tube Leak When:      Event 5 RAMP 100 sec Malfunction TH16A    Value:      Insert 2.3%            OTSG A Tube Rupture When:      Event 6 RAMP 300 sec Malfunction MU09    Value:      Insert                High Capacity Makeup Valve When:      Immediately            Fails as is Malfunction ESOIA    Value:      Insert                ESAS Failure to Actuate at When:        ImmediateIy          HPI Setpoint (1600 PSIG)
Train A Malfunction ESOI B  Value:      Insert                ESAS Failure to Actuate at When:        Immediately          HPI Setpoint (1600 PSIG)
Train A Malfunction ESOI B  Value:      Insert                ESAS Failure to Actuate at When:        Immediately          HPI Setpoint (1600 PSIG)
Train B Malfunction CC02B    Value:      Insert                Decay Closed Cooling Water When:        Event 8 rrvdrvl b>0.1 Pump 1B Trip Malfunction THI 7A  Value:      Insert 20%            OTSG A Tube Rupture When:        Event 9 RAMP 10 sec Malfunction FW45A  Value:      Insert                MS-V-13A Fails as is (open)
Train B Malfunction CC02B    Value:      Insert                Decay Closed Cooling Water When:        Event 8 rrvdrvl b>0.1 Pump 1B Trip Malfunction THI 7A  Value:      Insert 20%            OTSG A Tube Rupture When:        Event 9 RAMP 10 sec Malfunction FW45A  Value:      Insert                MS-V-13A Fails as is (open)
When:        Event 11 fwvmsvl3a=-0.9
When:        Event 11 fwvmsvl3a=-0.9 om03 Appendix D                                    Scenario Outline                              Form ES-D-1 Facility:        Three Mile Island            Scenario No.:      3    OpTestNo.:        NRC Examiners:                                                Operators:
 
om03 Appendix D                                    Scenario Outline                              Form ES-D-1 Facility:        Three Mile Island            Scenario No.:      3    OpTestNo.:        NRC Examiners:                                                Operators:
Initial Conditions:        85% power, MOC 0    Power Escalation Following a trip and maintenance outage MU-P-1B 00s Turnover:            Raise Power to 100%.
Initial Conditions:        85% power, MOC 0    Power Escalation Following a trip and maintenance outage MU-P-1B 00s Turnover:            Raise Power to 100%.
Critical Tasks:      0    Trip all RCPs (CT-1) 0    Establish FW Flow and Feed SGs (CT-10) p Event        Malf.
Critical Tasks:      0    Trip all RCPs (CT-1) 0    Establish FW Flow and Feed SGs (CT-10) p Event        Malf.
Line 366: Line 310:
Reactor Coolant Pump RC-P-1D High Vibration I RURO I  N URO 4                    C CRS        Feedwater Flow Fails to re-ratio after securing RC-P-1D C ARO C URO 5        THO6        M CRS        An RCS leak occurs requiring a Reactor Trip M URO M ARO 6
Reactor Coolant Pump RC-P-1D High Vibration I RURO I  N URO 4                    C CRS        Feedwater Flow Fails to re-ratio after securing RC-P-1D C ARO C URO 5        THO6        M CRS        An RCS leak occurs requiring a Reactor Trip M URO M ARO 6
7 RWOIOB I CCRS CURO Reactor Building Emergency Cooling Pump RR-P-1B does not start on ESAS actuation RC-P-1A does not trip when control switch is rotated to the stop position (CT-1) 8                                  Emergency Feedwater Valves to the A OTSG EF-V30A and EF-V-30D do not control in automatic due to a level setpoint failure (CT-10)
7 RWOIOB I CCRS CURO Reactor Building Emergency Cooling Pump RR-P-1B does not start on ESAS actuation RC-P-1A does not trip when control switch is rotated to the stop position (CT-1) 8                                  Emergency Feedwater Valves to the A OTSG EF-V30A and EF-V-30D do not control in automatic due to a level setpoint failure (CT-10)
       *  (N)ormal,    (R)eactivity,  (I)nstrument,    (C)omponent,      (M)ajor
       *  (N)ormal,    (R)eactivity,  (I)nstrument,    (C)omponent,      (M)ajor Scenario Event Description NRC Scenario 3 Three Mile island NRC Scenario #3 The crew will take the watch with reactor power at 85% and ICs in Full Automatic. The plant is in a power escalation following an automatic trip several days ago and a subsequent maintenance period.
 
Scenario Event Description NRC Scenario 3 Three Mile island NRC Scenario #3 The crew will take the watch with reactor power at 85% and ICs in Full Automatic. The plant is in a power escalation following an automatic trip several days ago and a subsequent maintenance period.
When the crew has accepted the watch the Lead Examiner can cue the initiation of the Report from the NLO that he was in the area of I C ES Valves MCC and heard a breaker trip. It was the Power Operated Relief Valve (PORV) Block Valve breaker. The CRS should review TS 3.1.12.4 for PORV Block Valve Operability and declare a 1 hour timeclock is in effect to close the PORV.
When the crew has accepted the watch the Lead Examiner can cue the initiation of the Report from the NLO that he was in the area of I C ES Valves MCC and heard a breaker trip. It was the Power Operated Relief Valve (PORV) Block Valve breaker. The CRS should review TS 3.1.12.4 for PORV Block Valve Operability and declare a 1 hour timeclock is in effect to close the PORV.
The PORV Block Valve breaker will not be returned to service and the scenario can continue when the TS call is made.
The PORV Block Valve breaker will not be returned to service and the scenario can continue when the TS call is made.
Line 379: Line 321:
When subcooling margin is lost RC-P-1A control switch will not trip the breaker and the URO will have to open the breakers for the 1A 7KV bus to trip the pump (CT-1). If the pump is not tripped within one minute the crew will have to keep RC-P-1A running in accordance with OP-TM-EOP-010, Rule 1 Loss of Subcooling Margin. This is a critical task since failure to trip the RCPs could result in the core not being adequately covered and raise the potential for fuel clad failure. The CRS will initiate OP-TM-EOP-002, Loss of Subcooled Margin.
When subcooling margin is lost RC-P-1A control switch will not trip the breaker and the URO will have to open the breakers for the 1A 7KV bus to trip the pump (CT-1). If the pump is not tripped within one minute the crew will have to keep RC-P-1A running in accordance with OP-TM-EOP-010, Rule 1 Loss of Subcooling Margin. This is a critical task since failure to trip the RCPs could result in the core not being adequately covered and raise the potential for fuel clad failure. The CRS will initiate OP-TM-EOP-002, Loss of Subcooled Margin.
When Emergency Feedwater is actuated EF-V-30A and EF-V-30D will not operate in automatic and will have to be taken to hand to feed the A OTSG (CT-10). This is a critical task in that failure to take manual control would result in the A OTSG going dry and becoming unavailable to maintain or initiate primary to secondary heat transfer.
When Emergency Feedwater is actuated EF-V-30A and EF-V-30D will not operate in automatic and will have to be taken to hand to feed the A OTSG (CT-10). This is a critical task in that failure to take manual control would result in the A OTSG going dry and becoming unavailable to maintain or initiate primary to secondary heat transfer.
Scenario Event Description NRC Scenario 3 Three Mile island NRC Scenario #3 Continued The Lead Evaluator can terminate the scenario when all high level activities have been completed and the evaluators agree the crew can be properly evaluated.
Scenario Event Description NRC Scenario 3 Three Mile island NRC Scenario #3 Continued The Lead Evaluator can terminate the scenario when all high level activities have been completed and the evaluators agree the crew can be properly evaluated.
806)003 Scenario Event Description NRC Scenario 3 Description                            Procedure Support Initial Set-up.                  3P 1102-2 Plant Startup Power Operated Relief Valve      TS 3.1.12.4, PORV Block Valve Operability (PORV) Block Valve RC-V-2 Breaker Trips (TS).
806)003 Scenario Event Description NRC Scenario 3 Description                            Procedure Support Initial Set-up.                  3P 1102-2 Plant Startup Power Operated Relief Valve      TS 3.1.12.4, PORV Block Valve Operability (PORV) Block Valve RC-V-2 Breaker Trips (TS).
Stuck Rod in Group 7 (TS)        TS 4.7.1.2, Rod Misalignment TS 3.5.2.2 Operation With Inoperable Rods OP-TM-AOP-062 Inoperable Rod Reactor Coolant Pump RC-P-      Computer Alarm L3125, RC-P-I D High Vibration I D High Vibration OP 1102-4, Power Operation Feedwater Flow Fails to re-      OP-TM-MAP-H0204, Reactor Inlet ATc HI ratio after securing RC-P-1D OP-TM-621-471, ICs Manual Control RCS Leak in the RB              OP-TM-EOP-001, Reactor Trip OP-TM-EOP-010, Rule 1, Loss of Subcooling Margin OP-TM-EOP-002, Loss of Subcooled Margin OP-TM-EOP-006, LOCA Cooldown Reactor Building Emergency      OP-TM-534-901, RB Emergency Cooling Operations Cooling Pump RR-P-1B does OS-24, Conduct of Operations During Abnormal and not start on ESAS actuation Emergency Events RC-P-1A does not trip when      OS-24, Conduct of Operations During Abnormal and control switch is rotated to    Emergency Events the stop position OP-TM-EOP-010, Rule 1, Loss of Subcooling Margin Emergency Feedwater            OP-TM-EOP-010, Guide 16, EFW Failure Valves to the A OTSG EF-V-30A and EF-VSOD do not control in automatic
Stuck Rod in Group 7 (TS)        TS 4.7.1.2, Rod Misalignment TS 3.5.2.2 Operation With Inoperable Rods OP-TM-AOP-062 Inoperable Rod Reactor Coolant Pump RC-P-      Computer Alarm L3125, RC-P-I D High Vibration I D High Vibration OP 1102-4, Power Operation Feedwater Flow Fails to re-      OP-TM-MAP-H0204, Reactor Inlet ATc HI ratio after securing RC-P-1D OP-TM-621-471, ICs Manual Control RCS Leak in the RB              OP-TM-EOP-001, Reactor Trip OP-TM-EOP-010, Rule 1, Loss of Subcooling Margin OP-TM-EOP-002, Loss of Subcooled Margin OP-TM-EOP-006, LOCA Cooldown Reactor Building Emergency      OP-TM-534-901, RB Emergency Cooling Operations Cooling Pump RR-P-1B does OS-24, Conduct of Operations During Abnormal and not start on ESAS actuation Emergency Events RC-P-1A does not trip when      OS-24, Conduct of Operations During Abnormal and control switch is rotated to    Emergency Events the stop position OP-TM-EOP-010, Rule 1, Loss of Subcooling Margin Emergency Feedwater            OP-TM-EOP-010, Guide 16, EFW Failure Valves to the A OTSG EF-V-30A and EF-VSOD do not control in automatic
~
~
 
Scenario Event Description NRC Scenario 3 Initialization IC-I6  85% Power, ICs Full AUTO          Scenario Support Remote Function        Value:    Insert OUT            RC-V-2 Breaker trips RCRl9                  When:      Event 1 Malfunction RD0216    Value:    Insert                Stuck rod in Group 7 When:      Immediately Malfunction THI 3D    Value:    Insert Sev. 50%        RC-P-1D High Vibration When:      Event 2 RAMP 300 sec Monitor ICK314B        Value:    Insert 10.0            FW Flow Fails to Re-ratio (normal value 0.0101)  When:      Immediately Malfunction THO6      Value:    Insert Sev. 0.5%      RCS Leak at RCP Discharge When:      Event 5 RAMP 100 sec Malfunction RW1OB      Value:    Insert                RR-P-1B fails to start on When:      Immediately            ESAS signal I/O Override 02A3S11-  Value:    ON                    RC-P-1A Breaker Fails to Trip ZDlCSRCPlA(4) NAS      When:      Immediately 110 Override 02A3S11-  Value:    OFF                    RC-P-?A Breaker Fails to Trip ZDlCSRCPlA(2) STP      When:      ImmediateIy I/O Override 02A3S11- Value:    OFF                    RC-P-1A Breaker Fails to Trip ZDICSRCPIA(1) PTL      When:      Immediately Remote Function      Value:      Insert Sev. 0%        OTSG Operate Level Setpoint ICR02                When:      Immediately          for EFW Control A IMQ3 Appendix D                                    Scenario Outline                          Form ES-D-1 Facility:        Three Mile Island            Scenario No.:          4    OpTestNo.:    NRC Examiners:                                                Operators:
Scenario Event Description NRC Scenario 3 Initialization IC-I6  85% Power, ICs Full AUTO          Scenario Support Remote Function        Value:    Insert OUT            RC-V-2 Breaker trips RCRl9                  When:      Event 1 Malfunction RD0216    Value:    Insert                Stuck rod in Group 7 When:      Immediately Malfunction THI 3D    Value:    Insert Sev. 50%        RC-P-1D High Vibration When:      Event 2 RAMP 300 sec Monitor ICK314B        Value:    Insert 10.0            FW Flow Fails to Re-ratio (normal value 0.0101)  When:      Immediately Malfunction THO6      Value:    Insert Sev. 0.5%      RCS Leak at RCP Discharge When:      Event 5 RAMP 100 sec Malfunction RW1OB      Value:    Insert                RR-P-1B fails to start on When:      Immediately            ESAS signal I/O Override 02A3S11-  Value:    ON                    RC-P-1A Breaker Fails to Trip ZDlCSRCPlA(4) NAS      When:      Immediately 110 Override 02A3S11-  Value:    OFF                    RC-P-?A Breaker Fails to Trip ZDlCSRCPlA(2) STP      When:      ImmediateIy I/O Override 02A3S11- Value:    OFF                    RC-P-1A Breaker Fails to Trip ZDICSRCPIA(1) PTL      When:      Immediately Remote Function      Value:      Insert Sev. 0%        OTSG Operate Level Setpoint ICR02                When:      Immediately          for EFW Control A
 
IMQ3 Appendix D                                    Scenario Outline                          Form ES-D-1 Facility:        Three Mile Island            Scenario No.:          4    OpTestNo.:    NRC Examiners:                                                Operators:
II Initial Conditions:
II Initial Conditions:
0 0
0 0
Line 399: Line 336:
C URO 4        FW35      N CRS          Main Condenser Vacuum Leak R URO N ARO 5        MS04A    M CRS          Main Steam Safety Valve fails to reseat. (MS-V-17A) and a steam MS03A                    leak in the Intermediate Building lCRl3    M URO          SG A Lo Press Isolation Setpoint is at zero psig FWI 1A    M ARO          Startup Feedwater Valve FW-V-16A Fails at 100% Open (CT-17 and CT-30) 6        RD02010  C CRS          Two Control rods fail to fully insert (CT-23)
C URO 4        FW35      N CRS          Main Condenser Vacuum Leak R URO N ARO 5        MS04A    M CRS          Main Steam Safety Valve fails to reseat. (MS-V-17A) and a steam MS03A                    leak in the Intermediate Building lCRl3    M URO          SG A Lo Press Isolation Setpoint is at zero psig FWI 1A    M ARO          Startup Feedwater Valve FW-V-16A Fails at 100% Open (CT-17 and CT-30) 6        RD02010  C CRS          Two Control rods fail to fully insert (CT-23)
RD02056  C URO
RD02056  C URO
         *  (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor
         *  (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor 080G03 Scenario Event Description NRC Scenario 4 Three Mile Island Audit Scenario #4 The crew will take the watch with reactor power at 100% and ICs in Full Automatic. NS-P-1A is 00s for maintenance and will be out for two days. NS-P-1B is running on the 1P 480 Volt ES Bus and is selected for ES.
 
080G03 Scenario Event Description NRC Scenario 4 Three Mile Island Audit Scenario #4 The crew will take the watch with reactor power at 100% and ICs in Full Automatic. NS-P-1A is 00s for maintenance and will be out for two days. NS-P-1B is running on the 1P 480 Volt ES Bus and is selected for ES.
After the crew has accepted the watch and on cue from the Lead Examiner the Auxiliary Transformer B trip can be initiated. The I C 4160V bus will fast transfer to the A Auxiliary Transformer and the A Diesel Generator will start and load the 1D 4160 V ES bus. The crew should respond in accordance with the electrical MAP alarm responses (B-1-1, B-1-5, AA-1-8),
After the crew has accepted the watch and on cue from the Lead Examiner the Auxiliary Transformer B trip can be initiated. The I C 4160V bus will fast transfer to the A Auxiliary Transformer and the A Diesel Generator will start and load the 1D 4160 V ES bus. The crew should respond in accordance with the electrical MAP alarm responses (B-1-1, B-1-5, AA-1-8),
OP-TM-AOP-013, Loss of 1D 4160V Bus, and EP 1203-20 Nuclear Services Closed Cooling Water Failure to restart NS-P-1B on the A Diesel. The CRS should review TS 3.7.2.b and declare a 30 day timeclock due only one Auxiliary Transformer being operable and the diesel generator is already loaded on the bus.
OP-TM-AOP-013, Loss of 1D 4160V Bus, and EP 1203-20 Nuclear Services Closed Cooling Water Failure to restart NS-P-1B on the A Diesel. The CRS should review TS 3.7.2.b and declare a 30 day timeclock due only one Auxiliary Transformer being operable and the diesel generator is already loaded on the bus.
Line 414: Line 349:
The crew should diagnose the failure of two control rods to fully insert and will have to Emergency Borate in accordance with OP-TM-EOP-010, Rule 5, Emergency Boration. The URO will have to initiate letdown if >50gpm of injection is not achieved CT-23). This is a critical task in that adequate shutdown margin may not exist due to the two stuck rods and the RCS cooldown caused by the steam leak.
The crew should diagnose the failure of two control rods to fully insert and will have to Emergency Borate in accordance with OP-TM-EOP-010, Rule 5, Emergency Boration. The URO will have to initiate letdown if >50gpm of injection is not achieved CT-23). This is a critical task in that adequate shutdown margin may not exist due to the two stuck rods and the RCS cooldown caused by the steam leak.
The Lead Evaluator can terminate the scenario when all high level activities have been completed and the evaluators agree the crew can be properly evaluated.
The Lead Evaluator can terminate the scenario when all high level activities have been completed and the evaluators agree the crew can be properly evaluated.
0006i03 Scenario Event Description NRC Scenario 4 Description                              Procedure Support Initial Set-up.                  100% Power MOC, NS-P-1A OOS, NS-P-1B Running on the I P 480V Bus and selected for ES Auxiliary Transformer B          MAP Alarm B-1-5, 480 Volt ES Motor Trip Fault Pressure Trip OP-TM-AOP-013, LOSSOf 1D 4160V BUS TS 3.7.2.b Inadvertent ESAS Actuation      OP 1105-3, Safeguards Actuation System Train A OP-TM-211-950, Restoration of Letdown Flow Makeup Pump MU-P-1A Fails        TS 3.3.1. I .b and TS 3.3.2, ECCS Equipment to Start on ESAS Actuation OP-TM-EOP-001, Reactor Trip Main Condenser Vacuum            OP-TM-MAP-M0206, Aux Cond Hotwell Level Hi Leak OP-TM-MAP-NOIO6, Mn Cond VACUUM LO Main Steam Safety Valve          OP-TM-EOP-003, Excessive Primary to Secondary fails to reseat. (MS-V-17A)      Heat Transfer and Steam Leak in the Intermediate Building            OP-TM-EOP-010, Rule 3, Excessive Heat Transfer SG A Lo Press Isolation Setpoint is at zero psig Startup Feedwater Valve FW-V-16A Fails at 100% Open (CT-17 and CT-30)
0006i03 Scenario Event Description NRC Scenario 4 Description                              Procedure Support Initial Set-up.                  100% Power MOC, NS-P-1A OOS, NS-P-1B Running on the I P 480V Bus and selected for ES Auxiliary Transformer B          MAP Alarm B-1-5, 480 Volt ES Motor Trip Fault Pressure Trip OP-TM-AOP-013, LOSSOf 1D 4160V BUS TS 3.7.2.b Inadvertent ESAS Actuation      OP 1105-3, Safeguards Actuation System Train A OP-TM-211-950, Restoration of Letdown Flow Makeup Pump MU-P-1A Fails        TS 3.3.1. I .b and TS 3.3.2, ECCS Equipment to Start on ESAS Actuation OP-TM-EOP-001, Reactor Trip Main Condenser Vacuum            OP-TM-MAP-M0206, Aux Cond Hotwell Level Hi Leak OP-TM-MAP-NOIO6, Mn Cond VACUUM LO Main Steam Safety Valve          OP-TM-EOP-003, Excessive Primary to Secondary fails to reseat. (MS-V-17A)      Heat Transfer and Steam Leak in the Intermediate Building            OP-TM-EOP-010, Rule 3, Excessive Heat Transfer SG A Lo Press Isolation Setpoint is at zero psig Startup Feedwater Valve FW-V-16A Fails at 100% Open (CT-17 and CT-30)
Two Control rods fail to fully  OP-TM-EOP-010, Rule 5, Emergency Boration insert
Two Control rods fail to fully  OP-TM-EOP-010, Rule 5, Emergency Boration insert
\ b 000G03 Scenario Event Description NRC Scenario 4 Initialization IC-I 6 100% HFP, ICs Full AUTO Console Center        NS-P-1B Running                  Scenario Support NS-P-1B NAS          NS-P-1B-1P Bkr CLOSED Remote Function      Value:      1P                    Scenario Support CCRl9                When:      Immediately Console Right        NS-P-1B-1S PTL                    Scenario Support NS-P-1B PTL          NS-P-1B-I S Bkr OPEN Remote Function      Value:      NS-PI B              Scenario Support CCR21                When:      Immediately Console Center        NS-P-1A Tagged 00s                Scenario Support NS-P-1A PTL          NS-P-1A Bkr OPEN Remote Function      Value:      OUT                  Scenario Support CCRl8                When:      Immediately Main Console          Robust Barriers applied IAW Risk  Main Console Document Malfunction ED03D    Value:      Insert                Auxiliary Transformer B Fault When:      Event 1              Pressure Trip Malfunction ES07A    Value:      Insert                Inadvertent ESAS Actuation When:      Event 2              (1600 psig) Train A Malfunction MU23A    Value:      Insert                MU-P-1A ES Start Failure When:      Immediately Malfunction FW35      Value:      Severity 15%          Vacuum Leak RAMP 300 Sec When:      Event 4 Malfunction TCOl      Value:      Insert                Turbine Trip When:      Event 5 ratpw<95%
\ b 000G03 Scenario Event Description NRC Scenario 4 Initialization IC-I 6 100% HFP, ICs Full AUTO Console Center        NS-P-1B Running                  Scenario Support NS-P-1B NAS          NS-P-1B-1P Bkr CLOSED Remote Function      Value:      1P                    Scenario Support CCRl9                When:      Immediately Console Right        NS-P-1B-1S PTL                    Scenario Support NS-P-1B PTL          NS-P-1B-I S Bkr OPEN Remote Function      Value:      NS-PI B              Scenario Support CCR21                When:      Immediately Console Center        NS-P-1A Tagged 00s                Scenario Support NS-P-1A PTL          NS-P-1A Bkr OPEN Remote Function      Value:      OUT                  Scenario Support CCRl8                When:      Immediately Main Console          Robust Barriers applied IAW Risk  Main Console Document Malfunction ED03D    Value:      Insert                Auxiliary Transformer B Fault When:      Event 1              Pressure Trip Malfunction ES07A    Value:      Insert                Inadvertent ESAS Actuation When:      Event 2              (1600 psig) Train A Malfunction MU23A    Value:      Insert                MU-P-1A ES Start Failure When:      Immediately Malfunction FW35      Value:      Severity 15%          Vacuum Leak RAMP 300 Sec When:      Event 4 Malfunction TCOl      Value:      Insert                Turbine Trip When:      Event 5 ratpw<95%
Malfunction MS04A    Value:      Insert Sev. 100%      Main Steam Safety Valve When:      Event 6 ratpwc5%      Leaks/Fails to Reseat (MS-V-17A)
Malfunction MS04A    Value:      Insert Sev. 100%      Main Steam Safety Valve When:      Event 6 ratpwc5%      Leaks/Fails to Reseat (MS-V-17A)
Malfunction MS03A    Value:      Insert Sev. 100%      Main Steam Leak Outside the When:      Event 6 ratpw<5%      RB Malfunction RD0223    Value:      Insert                Stuck Rod When:      Immediately Malfunction RD0239  Value:      Insert              Stuck Rod When:        ImmediateIy Malfunction FW1? A    Value:      Insert              Startup Feedwater Valve Fails When:        Immediately          as is (FW-V-16A)
Malfunction MS03A    Value:      Insert Sev. 100%      Main Steam Leak Outside the When:      Event 6 ratpw<5%      RB Malfunction RD0223    Value:      Insert                Stuck Rod When:      Immediately Malfunction RD0239  Value:      Insert              Stuck Rod When:        ImmediateIy Malfunction FW1? A    Value:      Insert              Startup Feedwater Valve Fails When:        Immediately          as is (FW-V-16A)
Remote Function      Value:      Insert              SG A Lo Press Isolation lCRl3                When:        Immediately          setpoint
Remote Function      Value:      Insert              SG A Lo Press Isolation lCRl3                When:        Immediately          setpoint 000G03 ES-301                                      Transient and Event Checklist                                Form ES-301-5 Facility:        TMI                                  Date of Exam:      April 2007      ODeratina Test No.:    NRC A          E                                                        Scenarios P          v P          E              1                  2                                              T              M L          N                                                                                0              I I        T                                                                                T              N CREW                CREW C                    POSITION            POSITION          POSITION        POSITION      A              I A          T                                                                                L              M N          Y                                                                                                U T          P                                                                                                M(*)
 
000G03 ES-301                                      Transient and Event Checklist                                Form ES-301-5 Facility:        TMI                                  Date of Exam:      April 2007      ODeratina Test No.:    NRC A          E                                                        Scenarios P          v P          E              1                  2                                              T              M L          N                                                                                0              I I        T                                                                                T              N CREW                CREW C                    POSITION            POSITION          POSITION        POSITION      A              I A          T                                                                                L              M N          Y                                                                                                U T          P                                                                                                M(*)
R      I      U 1      1      1      0 SR016 1      1      1      1 R02 2
R      I      U 1      1      1      0 SR016 1      1      1      1 R02 2
SROll Instructions:
SROll Instructions:
Line 435: Line 366:
             -    TMI                                  Date of Exam:      ADril2007      ODeratina Test No.:    NRC E                                                      Scenarios v
             -    TMI                                  Date of Exam:      ADril2007      ODeratina Test No.:    NRC E                                                      Scenarios v
E              1                  2                  3              4          T              M N                                                                                0              I T                                                                                T              N CREW                CREW              CREW            CREW POSITION            POSITION          POSITION        POSITION        A              I T                                                                                L              M Y                                                                                                U P
E              1                  2                  3              4          T              M N                                                                                0              I T                                                                                T              N CREW                CREW              CREW            CREW POSITION            POSITION          POSITION        POSITION        A              I T                                                                                L              M Y                                                                                                U P
E RX SR015 NOR IIC MAJ TS Rx RO1 NOR IIC MAJ TS RX NOR SROU        IIC MAJ
E RX SR015 NOR IIC MAJ TS Rx RO1 NOR IIC MAJ TS RX NOR SROU        IIC MAJ TS Instructions:
            -
TS Instructions:
: 1.        Circle the applicant level and enter the operating test number and Form ES-D-1 event numbers for each event type; TS are not applicable for RO applicants. ROs must service in both the at-the-controls (ATC) and balance-of-plant (BOP) positions; Instant SROs must do one scenario, including at least two instrument or component (I/C) malfunctions and one major transient, in the ATC position.
: 1.        Circle the applicant level and enter the operating test number and Form ES-D-1 event numbers for each event type; TS are not applicable for RO applicants. ROs must service in both the at-the-controls (ATC) and balance-of-plant (BOP) positions; Instant SROs must do one scenario, including at least two instrument or component (I/C) malfunctions and one major transient, in the ATC position.
: 2.        Reactivity manipulations may be conducted under normal or controlled abnormal conditions (refer to Section D.5.d) but must be significant per Section C.2.a of Appendix D. (*) Reactivity and normal evolutions may be replaced with additional instrument or component malfunctions on a 1-for-? basis.
: 2.        Reactivity manipulations may be conducted under normal or controlled abnormal conditions (refer to Section D.5.d) but must be significant per Section C.2.a of Appendix D. (*) Reactivity and normal evolutions may be replaced with additional instrument or component malfunctions on a 1-for-? basis.
Line 445: Line 374:


ES-301                                      Transient and Event Checklist                                Form ES-301-5
ES-301                                      Transient and Event Checklist                                Form ES-301-5
  =acility:        TMI                                  Date of Exam:      April 2007      Operating Test No.:    NRC Scenarios Rx
  =acility:        TMI                                  Date of Exam:      April 2007      Operating Test No.:    NRC Scenarios Rx SR017 NOR I/C MAJ TS RX R03 NOR MAJ TS RX NOR SR012      I/C MAJ Instructions:
            -
SR017 NOR I/C MAJ TS
            -
RX
            -
R03 NOR MAJ TS
            -
RX
            -
NOR SR012      I/C MAJ Instructions:
: 1.        Circle the applicant level and enter the operating test number and Form ES-D-1 event numbers for each event type; TS are not applicable for RO applicants. ROs must service in both the at-the-controls (ATC) and balance-of-plant (BOP) positions; Instant SROs must do one scenario, including at least two instrument or component ( K ) malfunctions and one major transient, in the ATC position.
: 1.        Circle the applicant level and enter the operating test number and Form ES-D-1 event numbers for each event type; TS are not applicable for RO applicants. ROs must service in both the at-the-controls (ATC) and balance-of-plant (BOP) positions; Instant SROs must do one scenario, including at least two instrument or component ( K ) malfunctions and one major transient, in the ATC position.
: 2.        Reactivity manipulations may be conducted under normal or controlledabnormal conditions (refer to Section D.5.d) but must be significant per Section C.2.a of Appendix D. (*) Reactivity and normal evolutions may be replaced with additional instrument or component malfunctions on a 1-for-I basis.
: 2.        Reactivity manipulations may be conducted under normal or controlledabnormal conditions (refer to Section D.5.d) but must be significant per Section C.2.a of Appendix D. (*) Reactivity and normal evolutions may be replaced with additional instrument or component malfunctions on a 1-for-I basis.
Line 465: Line 384:
  -acility:
  -acility:
P A
P A
             - E TMI                                  Date of Exam:      April 2007 Scenarios Operating Test No.:    NRC P          v P          E L          N I        T C                    POSITION            POSITION            POSITION        POSITION A          T N          Y T          P
             - E TMI                                  Date of Exam:      April 2007 Scenarios Operating Test No.:    NRC P          v P          E L          N I        T C                    POSITION            POSITION            POSITION        POSITION A          T N          Y T          P E                                                S R
                                                              -
E                                                S R
             -                                                  0 RX SR018 NOR
             -                                                  0 RX SR018 NOR
             -                                                                                  1 I/C                                                                                10 MAJ
             -                                                                                  1 I/C                                                                                10 MAJ
             -                                                                                  2 TS                                                                                  2 RX                                                                                  1 SR014 NOR                                                3                                1 I/C                                                                                6 MAJ                                                5                              2 TS
             -                                                                                  2 TS                                                                                  2 RX                                                                                  1 SR014 NOR                                                3                                1 I/C                                                                                6 MAJ                                                5                              2 TS RX NOR SR013      I/C                                                                                  9 MAJ
            -
             -                                                                                    2 TS Instructions:
RX NOR SR013      I/C                                                                                  9 MAJ
             -                                                                                    2
            -
TS Instructions:
                                                                                               -  2
                                                                                               -  2
: 1.        Circle the applicant level and enter the operating test number and Form ES-D-1 event numbers for each event type; TS are not applicable for RO applicants. ROs must service in both the at-the-controls (ATC) and balance-of-plant (BOP) positions; Instant SROs must do one scenario, including at least two instrument or component (VC) malfunctions and one major transient, in the ATC position.
: 1.        Circle the applicant level and enter the operating test number and Form ES-D-1 event numbers for each event type; TS are not applicable for RO applicants. ROs must service in both the at-the-controls (ATC) and balance-of-plant (BOP) positions; Instant SROs must do one scenario, including at least two instrument or component (VC) malfunctions and one major transient, in the ATC position.

Latest revision as of 15:06, 13 March 2020

Draft - Outlines (Folder 2)
ML071360136
Person / Time
Site: Three Mile Island Constellation icon.png
Issue date: 03/09/2007
From:
AmerGen Energy Co
To: D'Antonio J
Operations Branch I
Sykes, Marvin D.
Shared Package
ML060800145 List:
References
50-289/07-301
Download: ML071360136 (46)


Text

TMI 2007 NRC Initial License Written Examination Written Examination Outline Methodology The written examination outline was developed using a proprietary electronic random outline generator developed by Western Technical Services, Inc.

The software was designed to provide a written examination outline in accordance with the criteria contained in NUREG 1021, Revision 9.

The application was developed using Visual Basic code, relying on a true random function based on the PC system clock. The random generator selects topics in a Microsoft Access Database containing Revision 2 of the PWR K&A catalogue. The selected data is then written to a separate data table. The process for selection of topics is similar to the guidance in ES-401, Attachment 1.

The attached outline report and plant specific suppression profile (not used for TMI; ONLY System 025, Ice Condenser, was pre-suppressed) report are written directly from the data tables created by the software. Electronic copies of the data tables are on file.

The process used to develop the outlines is as follows:

For Tier 1 and Tier 2 generic items, only the items required to be included in accordance with ES-401, Attachment 2 are included in the generation process Outline is generated for all topics with KA importance 22.5.

25 SRO topics are randomly selected from Tier 1 AA2 and required generic items, Tier 2 A2 and required generic items, (including all System 034 topics) and Tier 3 generic items (All with ties to 10CFR55.43). 75 RO topics are randomly selected to complete the outline, 100 topics total.

The exam report generated lists the topic (Question) number in the far right column. RO topics are numbered 1-75, and SRO topics are numbered 76-100.

The SRO topics are written in red ink for ease of identification.

Items that are rejected after the initial generation process are placed on the rejected items page. The software tracks which items are added, and a report of outline modification may be generated.

Disposition of any item randomly selected but not included in the outline is documented and included.

000003 ES-401 PWR Examination Outline Form ES-401-2

=acility: TMI Unit 1 Date of Exam: 4/22/2007 RO K/A Category Points SRO-Only Points Tier Group K K K K K K A A A A G T o t a l A2 G* Total 1 2 3 4 5 6 1 2 3 4 *

1. I 1 Emergency Abnormal 2 Tier Plant Evolutions Totals Plant Systems Tier Totals
3. Generic Knowledge and Abilities Categories 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 WA category shall not be less than two).

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 k1 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.

Systems/evolutions within each group are identified on the associated outline; systems or evolutions that do not apply at the facility should be deleted and justified; operationally important, site-specific systems that are not included on the outline should be added. Refer to ES-401, Attachment 2, for guidance regarding elimination of inappropriate K/A statements.

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.

Absent a plant specific priority, only those KAs 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.

Select SRO topics for Tiers 1 and 2 from the shaded systems and WA categories.

The generic (G) WAS in Tiers 1 and 2 shall be selected from Section 2 of the WA Catalog, but the topics must be relevant to the applicable evolution or system.

8. On the following pages, enter the K/A numbers, a brief description of each topic, the topics importance ratings (IR) 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. Use duplicate pages for RO and SRO-only exams.

/9 For Tier 3, select topics from Section 2 of the WA 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 10CFR55.43 NUREG-I021 1

ES-401 TMI Unit 1 Form ES-401-2 NRC Written Examination Outline Emergency and Abnormal Plant Evolutions - Tier 1 Group 1 Ability to determine and interpret the following as they 015 I Reactor Coolant Pump Malfunctions14 X AA2 01 apply to the Reactor Coolant Pump Malfunctions (Loss 35 76 of RC Flow) Cause of RCP failure 027 i Pressurizer Pressure Control System Malfunction Conduct of Operations Ability to explain and apply all 13 32 system limits and precautions 38 77 Emergency Procedures I Plan Ability to verify system 029 /Anticipated Transient Without Scram (ATWS) / 1 X alarm setpornts and operate controls identified in the alarm remonse manual Ability to determine or interpret the following as they 038 I Steam Generator Tube Rupture / 3 apply to a SGTR: Pressure at which to maintain RCS during SIG cooldown

+

054 i Loss of Main Feedwater / 4 AA2.06

~x 065 I Loss of Instrument Air I 8 Ix I 2.1.32 007 I Reactor Trip I 1 X EK2.02 008 / Pressurizer Vapor Space Accident / 3 AA2.17 009 I Small Break LOCA I 3 2.1.2 015 I Reactor Coolant Pump Malfunctionsl4 X AK2.07 022 I Loss of Reactor Coolant Makeup / 2 x I AA2.02 Ability to determine and interpret the following as they apply to the Loss of Reactor Coolant Makeup:

Charging pump problems 3.2 43 Ability to operate and I or monitor the following as they 325 I Loss of Residual Heat Removal System I 4 X AA1.01 apply to the Loss of Residual Heat Removal System: 3.6 44 RCSIRHRS cooldown rate Knowledge of the reasons for the following responses as they apply to the Loss of Component Cooling Water:

326 I Loss of Component Cooling Water I 8 X AK3.03 4.0 45 Guidance actions contained in EOP for Loss of CCWInuclear service water I

NUREG-I02 1 2

ES-401 TMI Unit 1 Form ES-401-2 NRC Written Examination Outline Emergency and Abnormal Plant Evolutions - Tier 1 Group 1 Knowledge of the operational implications of the 029 I Anticipated Transient Without Scram (ATWS) I 1 X EKI .01 following concepts as they apply to the ATWS: Reactor 46 nucleonics and thenno-hydraulics behavior

~

Knowledge of the reasons for the following responses 038 ISteam Generator Tube Rupture I 3 X EK3.03 as the apply to the SGTR: Automatic actions associated 47 with hiah radioactivitv in SIG samDle lines 054 ILoss of Main Feedwater I 4 X AK3.03 Knowledge of the reasons for the following responses as they apply to the Loss of Main Feedwater (MFW):

Manual control of AFW flow control valves I 3.8 48 Knowledge of the operational implications of the 055 /Station Blackout 16 X EK1.02 following concepts as they apply to the Station 4.1 49 Knowledge of the operational implications of the 056 ILoss of Off-site Power f 6 X following concepts as they apply to Loss of Offsite AK1.04 3.1 50 Power: Definition of saturation conditions, implication for the svstems Emergency Procedures I Plan Ability to recognize 057 I Loss of Vital AC Electrical Instrument Bus I6 X abnormal indications for system operating parameters 2.4.4 4.0 51 which are entry-level conditions for emergency and abnormal operating procedures.

~ -

Knowledge of the operational implications of the 058 ILoss of DC Power 16 X AKI .01 following concepts as they apply to Loss of DC Power: 2.8 52 Battery charger equipment and instrumentation Knowledge of the reasons for the following responses 062 ILoss of Nuclear Service Water I 4 X as they apply to the Loss of Nuclear Service Water The AK3.02 3.6 53 automatic actions (alignments) within the nuclear service water resulting from the actuation of the ESFAS Knowledge of the interrelations between the (Inadequate Heat Transfer) and the following: Facility's E04 Ihadequate Heat Transfer I 4 X heat removal systems, including primary coolant, EK2.2 4.2 54 emergency coolant, the decay heat removal systems, and relations between the proper operation of these systems to the operation of the facility.

~ -

Knowledge of the reasons for the following responses E05 IExcessive Heat Transfer I 4 X as they apply to the (Excessive Heat Transfer) Normal, EK3.2 35 55 abnormal and emergency operating procedures associated with (Excessive Heat Transfer).

NUREG-I 021 3

ES-401 TMI Unit 1 Form ES-401-2 NRC Written Examination Outline Emergency and Abnormal Plant Evolutions - Tier 1 Group 1 Knowledge of the reasons for the following responses as they apply to the (Post-Trip Stabilization)RO or SRO function as a within the control room team as E10 I Post-Trip Stabilization I 1 X EK34 4.0 56 appropriate to the assigned position, in such a way that procedures are adhered to and the limitations in the facilities license and amendments are not violated.

K/A Category Point Totals: Group Point 1816 213 4 3 6 1 213 Total:

NUREG-I 021 4

ES-401 TMI Unit 1 Form ES-401-2 NRC Written Examination Outline Emergency and Abnormal Plant Evolutions - Tier 1 Group 2 T

Emergency Procedures / Plan Knowledge of which 037 / Steam Generator Tube Leak i 3 X 2.4.30 events related to system operabonslstatus should be 3.6 82 reported to outside agencies Ability to determine and interpret the following as they apply to the Accidental Gaseous Radwaste The 060 I Accidental Gaseous RadWaste Release i 9 EA2.04 3.4 83 e

effects on the power plant of isolating a given radioactive- aas leak Equipment Control Knowledge of bases in technical 067 / Plant Fire On-site I 8 X 2.2.25 specifications for limiting conditions for operations and 3.7 84 safety limits.

Ability to determine and interpret the following as they apply to the (Natural Circulation Cooldownj ED9 I Natural Circulation Operations I4 EA22 Adherence to appropriate procedures and operation 4.0 85 within the limitations in the facility's license and amendments.

Knowledge of the reasons for the following responses as they apply to the Steam Generator Tube Leak:

037 I Steam Generator Tube Leak I 3 X AK3.02 Comparison of makeup flow and letdown flow for various modes of operation Ability to operate and I or monitor the following as they 051 I Loss of Condenser Vacuum I 4 AA1.04 apply to the Loss of Condenser Vacuum: Rod position 060 I Accidental Gaseous RadWaste Release I 9 068 I Control Room Evacuation I 8 X X

t AA1.02 AK2.07 Ability to operate and I or monitor the following as they apply to the Accidental Gaseous Radwaste:

Ventilation system

__ ~~

Knowledge of the interrelations betweenthe Control Room Evacuation and the following: EDlG

~

3.3 t'

Ability to operate and I or monitor the following as they A01 / Plant Runback I 1 apply to the (Plant Runback) Operating behavior characteristics of the facility.

Knowledge of the reasons for the following responses as they apply to the (Loss of NNI-Y) Normal, abnormal A03 / LOSS Of NNI-Y 1 7 AK3.2 and emergency operating procedures associated with (LOSSOf NNI-Y).

~~ ~~

Knowledge of the interrelations between the (Turbine Trip) and the following. Facility's heat removal systems, including primary coolant, emergency A04 / Turbine Trip / 4 X coolant, the decay heat removal systems, and relations between the proper operation of these systems to the operation of the facility.

NUREG-IO21 5

ES-401 TMI Unit 1 Form ES-401-2 NRC Written Examination Outline Emergency and Abnormal Plant Evolutions - Tier 1 Group 2 Knowledge of the interrelations between the (Inadequate Subcooling Margin) and the following:

Facility's heat removal systems, including primary E03 I hadequate Subcooling Margin I4 coolant, emergency coolant, the decay heat removal 64 systems, and relations between the proper operation of these systems to the operation of the facility.

Knowledge of the reasons for the following responses as they apply to the (Natural Circulation Cooldown)

EO9 I Natural Circulation Operations I4 Manipulation of controls required to obtain desired 65 operating results during abnormal and emergency situations.

KIA Category Point Total: I 012 0 NUREG-I021 6

I ES-401 TMI Unit 1 Form ES-401-2 NRC Written Examination Outline Plant Systems - Tier 2 Group 1 System #/Name I G I K1 I K2 I K3 I K4 I K5 I K6 I A I I A2 I I I Number I A3 A4 KIA Topics I Imp. I Q#

Ability to (a) predict the impacts of the following malfunctions or operations on the PZR PCS, and (b) based on those predictions. use procedures to 010 Pressurizer Pressure Control A2.02 3.9 86 correct control. or mitigate the consequences of those malfunctions or operations Spray valve failures 012 Reactor Protection 2.1.30 I Conduct of Operations: Ability to locate and operate components. including local controls.

3.4 87 026 Containment Spray 2132 I Conduct of Operations Ability to explain and apply all system limits and precautions 38 88 Ability to (a) predict the impacts of the following malfunctions or operations on the ac distribution system and (b) based on those predictions use 062 AC Electrical Distribution X A2.12 3.6 89 procedures to correct control or mitigate the consequences of those malfunctions or operations Restoration of power to a system with a fault on it Conduct of Operations Knowledge of system 103 Containment X 2.1.27 29 90 purpose and or function 003 Reactor Coolant Pump K6.04 Knowledge of the effect of a loss or malfunction on the followina will have on the RCPS: Containment isolation vailes affecting RCP operation I 2.8 1 Knowledge of the physical connections andlor 004 Chemical and Volume cause-effect relationships between the CVCS and X K1.10 2.7 2 Control the following systems: CRDS operation in automatic mode control 005 Residual Heat Removal K6.03 Knowledge of the effect of a loss or malfunction on the following will have on the RHRS: RHR heat exchanger 1 2.5 3 Ability to manually operate andlor monitor in the 006 Emergency Core Cooling X A4.05 control room: Transfer of ECCS flow paths prior to 4 recirculation 007 Pressurizer RelieflQuench Knowledge of the effect that a loss or malfunction of K3.01 the PRTS will have on the following: Containment 5 008 Component Cooling Water 2.1.2 Conduct of Operations: Knowledge of operator responsibilities during all modes of plant operation.

I 3.0 6 Ability to (a) predict the impacts of the following malfunctions or operations on the PZR PCS; and (b) 010 Pressurizer Pressure Control X A2.03 based on those predictions, use procedures to 4.1 7 correct, control, or mitigate the consequences of those malfunctions or operations: PORV failures NUREG-1021 7

NRC Written Examination Outline Plant Systems - Tier 2 Group 1 I l l 1 Knowledge of the effect of a loss or malfunction of 010 Pressurizer Pressure Control K6.01 the following will have on the PZR PCS: Pressure detection systems Knowledge of the effect of a loss or malfunction of 012 Reactor Protection K6.10 the following will have on the RPS: Permissive circuits Knowledge of bus power supplies to the following:

013 Engineered Safety Features X K2.01 ESFAS/safeguardsequipment control 3.6 10 Actuation 013 Engineered Safety Features Conduct of Operations: Ability to explain and apply 2.1.32 all system limits and precautions. 3.4 11 Actuation 022 Containment Cooling 1 Ability to monitor automatic operation of the CCS, Initiation of safeguards mode of operation I 4'1 I 12 Conduct of Operations: Knowledge of system 2.8 012 Reactor Protection 2.1.27 13 purpose and or function.

Ability to manually operate andlor monitor in the A4.01 4.5 14 026 Containment Spray control room: css controls Knowledge of the effect that a loss or malfunction of 3.9 026 Containment Spray X K3.01 15 the CSS will have on the following: CCS Ability to predict and/or monitor changes in parameters (to prevent exceeding design limits) 039 Main and Reheat Steam A I .06 3.0 16 associated with operating the MRSS controls including: Main steam pressure Ability to (a) predict the impacts of the following malfunctions or operations on the MFW; and (b) based on those predictions, use procedures to 059 Main Feedwater A2.07 3.0 17 correct, control, or mitigate the consequences of those malfunctions or operations: Tripping of MFW pump turbine Knowledge of the effect that a loss or malfunction of 3.6 18 059 Main Feedwater X K3.02 the MFW will have on the following: AFW system Knowledge of the effect of a loss or malfunction of 061 Auxillary/Ernergency Feedwater Ability to monitor automatic operation of the ac 062 AC Electrical Distribution Ability to monitor automatic operation of the dc 063 DC Electrical Distribution A3.01 electrical system, including: Meters, annunciators, 2.7 21 dials, recorders, and indicating lights NUREG-I 021 8

ES-401 TMI Unit 1 Form ES-401-2 NRC Written Examination Outline Plant Systems - Tier 2 Group 1 I L Ability to predict and/or monitor changes in parameters (to prevent exceeding design limits) 064 Emergency Diesel Generator A I .03 associated with operating the ED/G system controls 3.2 22 including: Operating voltages, currents, and temperatures Ability to (a) predict the impacts of the following malfunctions or operations on the PRM system; and A2.02 (b) based on those predictions, use procedures to 2.7 23 correct, control, or mitigate the consequencesof those malfunctions or operations: Detector failure Knowledge of the physical connections and/or cause-effect relationships between the PRM system K1 3.6 24 and the following systems: Those systems served by PRMs Conduct of Operations: Knowledge of operator 2'1 '2 3.0 25 responsibilities during all modes of plant operation.

Knowledge of the physical connections andlor K1.03 cause-effect relationshipsbetween the IAS and the following systems: Containment air Conduct of Operations: Ability to recognize 103 Containment X 2.1.33 indications for system operating parameters which are entry-level conditions for technical specifications.

103 Containment X A3'01 Ability to monitor automatic operation of the contain-ment system, including: Containment isolation 3.9 I 28 K/A Category Point Totals: 5/3 3 1 3 4 2 Group Point Total: I I 2815 NUREG-1021 9

ES-401 TMI Unit 1 Form ES-401-2 NRC Written Examination Outline Plant Systems - Tier 2 Group 2 I

Conduct of Operations Ability to explain and apply 011 Pressurizer Level Control 2.1.32 3.8 91 all system limits and precautions Ability to (a) predict the impacts of the following malfunctions or operations on the Waste Gas Disposal System and (b) based on those 071 Waste Gas Disposal A2.08 2.8 92 predictions, use procedures to correct control, or mitigate the consequences of those malfunctions or 1 x operations Meteorologicalchanges 4-i Conduct of Operations: Ability to perform specific 086 Fire Protection 2.1.23 system and integrated plant procedures during all 4.0 modes of plant operation.

Knowledge of the following operational implications 001 Control Rod Drive K5.33 as they apply to the CRDS: Xenon production and 3.2 removal process Knowledge of the operational implications of the 011 Pressurizer Level Control K5.12 following concepts as they apply to the PZR LCS 2.7 30 Criteria and purpose of PZR level program Knowledge of ITM system design feature(s) and/or 017 In-core Temperature Monitor 3.4 31 subcooling monitors 027 Containment Iodine Removal 3.1 32 Knowledge of design feature(s) andlor interlock(s) 029 Containment Purge K4.02 which provide for the following: Negative pressure in containment Ability to (a) predict the impacts of the following malfunctions or operations on the Spent Fuel Pool Cooling System ; and (b) based those predictions, 033 Spent Fuel Pool Cooling A2.03 use procedures to correct, control, or mitigate the consequences of those malfunctions or operations:

Abnormal Spent Fuel Pool water level or loss of water level.

I Ability to manually operate andlor monitor in the control room: Turbine valve indicators (throttle, 045 Main Turbine Generator X A4.01 3.1 35 governor, control, stop, intercept), alarms, and I I I annunciators.

A3.01 Ability to monitor automatic operation of the W a r r - , , y l y 071 Waste Gas Disposal X Gas Disposal System including: HRPS 072 Area Radiation Monitoring I

1 I

K3.01 1 I

Knowledge of the effect that a loss or malfunction of the ARM system will have on the following:

Containment ventilation isolation I

I 3.2 I

37 NUREG-I021 IO

ES-401 TMI Unit 1 Form ES-401-2 NRC Written Examination Outline Plant Systems - Tier 2 Group 2 WA Category Point Totals: 0/2 0 1 1 2 2 0 0 1/1 1 2 Group Point Total: 1013 NUREG-I 021 11

Facility: I TMI Unit 1 I Date of Exam: 4/22/2007 Topic RO I SRO-Only I

Knowledge of conditions and limitations in 2'1'10 3.9 94 the facility license.

Ability to explain and apply all system limits 2'1.32 and Drecautions.

1.

Conduct of Operations I 2'1'17 I Ability to make accurate, clear and concise verbal reports.

12.1.27 I Knowledge of system purpose and or unction Subtotal Knowledge of new and spentfiel 2'2'28 3.5 96 movement procedures 2.2.33 Knowledge of control rod programming. 2.9 97 Knowledge of the process for determining

2. 2.8 68 1 Equipment Control Knowledge of refueling administrative 2.5 I 69 I A Subtotal 2.3.2 Knowledge of facility ALARA program.

Knowledge of 10 CFR: 20 and related 2'3'1 facility radiation control requirements Knowledge of radiation exposure limits and 2.3.4 contamination control, including permissible

3. levels in excess of those authorized.

Radiation Control Ability to perform procedures to reduce 2.3.1 0 excessive levels of radiation and guard against personnel exposure.

2.3.11 Ability to control radiation releases.

Subtotal 2'4.4' 1 Knowledge of the emergency action level thresholds and classifications.

Knowledge of general guidelines for EOP 2'4.14 flowchart use.

4. Knowledge Knowlc - of the RO's responsibilities in Emergency 2.4.39 emergency plan implementation.

Procedures I Plan Knowledge of crew roles and 2'4'1 responsibilities during EOP flowchart use.

I Subtotal NUREG-I021 12

5 P

Tier I Randomly Grow Selected WA Reason for Rejection 2I 1 025 G2.1.27 # I 3 System does not exist at TMI. Reselected system 012 Facility does not perform function for the selected topic. Randomly selected 111 AA2.1

~ 2 . 0 for 1 same topic.

Excessive overlap with audit examination. Impossible to develop significantly 055 EK1 different question. Randomly selected EK2.02 for same topic Facility does not have air ejectors, and Off-Gas monitors do not have a reset 037 AK3.02 function. Randomly selected AK3.03 No pneumatic valves in DHR system at facility. Randomly selected K1.05 for 211 Oo4 K1.lo topic area Facility does not have Containment Spray Reset switches. Randomly selected 211 026 A4.05 A4.01 Waste Gas system has no rupture discs at facility. Randomly selected A2.08 212 07' A2'03 for the same topic.

No procedural support for Inadequate SDM in SFP. Randomly selected A2.03 212 033 A2'01

. . for the same topic.

1 I 1 NUREG-1021 13

6300003 ES-301 Administrative Topics Outline Form ES-301-1

-acility: TMI Unit 1 Date of Examination: April 2007 Examination Level (circle one): / SRO Operating Test Number: NRC Administrative Topic Describe activity to be performed (see Note) Code*

Perform a batch calculation in accordance with OP Zonduct of Operations N 1103-4, SOLUBLE BORON CONCENTRATION CONTROL, Enclosure 1.

2.1.25 (2.8): Ability to obtain and interpret station reference materials such as graphs, monographs, and tables which contain performance data.

Perform a transient RCS leak rate calculation in Sonduct of Operations accordance with OS-24, CONDUCT OF OPERATIONS DURING ABNORMAL AND EMERGENCY EVENTS, ATTACHMENT F.

2.1.19 (3.0): Ability to use plant computer to obtain and evaluate parametric information on system or component status.

Perform Shiftly Checks of Decay Heat Removal Equipment Control Capability in accordance with Surveillance Procedure 1301-1, SHIFT AND DAILY CHECKS, Data Sheet 3 -

Section C.2.

2.2.12 (3.0): Knowledge of surveillance procedures.

Given a set of conditions, determine and apply the Radiation Control facility dose limits.

2.3.1 (2.6): Knowledge of 10 CFR: 20 and related facility radiation control requirements.

N/A - not selected for RO NOTE: All items (5 total) are required for SROs. RO applicants require only 4 items unless they are retaking only the administrative topics, when 5 are required.

  • Type Codes & Criteria: (C)ontrol room (D)irect from bank (I3 for ROs; I for SROs & RO retakes)

(N)ew or (M)odified from bank (> 1)

(P)revious 2 exams (I1; randomly selected)

(S)imulator NUREG-1021, Revision 9

0 0 0 0 ~ ~

ES-301 Administrative Topics Outline Form ES-301-1 THREE MILE ISLAND 2007 NRC RO EXAMINATION CONDUCT OF OPERATIONS (Al-I): Perform a batch calculation in accordance with OP 1103-4, SOLUBLE BORON CONCENTRATION CONTROL, Enclosure 1. Given a situation and conditions, determine the applicable section of 1103-4, Enclosure Iand utilize the referenced figures and tables to perform a batch calculation. New JPM. RO/SRO Common.

CONDUCT OF OPERATIONS (AI -2): Perform a transient RCS leak rate calculation in accordance with OS-24, CONDUCT OF OPERATIONS DURING ABNORMAL AND EMERGENCY EVENTS, ATTACHMENT F. Given a frozen simulator with an RCS leak in progress, use the plant computer to extract the necessary data and then calculate the leak rate.

The calculation is ROISRO Common. Modify Bank JPM 11205057 by changing the initial conditions and requiring the applicant to retrieve the data from the plant computer on a frozen simulator.

EQUIPMENT CONTROL (A2): Perform Shiftly Checks of Decay Heat (DH) Removal Capability in accordance with Surveillance Procedure 1301-1, SHIFT AND DAILY CHECKS, Data Sheet 3 - Section C.2. Evaluate DH Pump performance, system alignment and the adequacy of support instrumentation with the simulator in cold shutdown on DH cooling; identifying all (two, or more) errors. RO only. New JPM RADIATION CONTROL (A3): Given an emergency situation and survey maps, determine the area dose rate near a specified plant component and apply the applicable facility limit to determine the stay time for the situation. RO/SRO Common. New JPM.

NUREG-1021 Revision 9

ES-301 Administrative Topics OutIine Form ES-301-1 Facility: TMI Unit 1 Date of Examination: April 2007 Examination Level (circle one): RO / ml Operating Test Number: NRC Administrative Topic Describe activity to be performed (see Note)

Perform a batch calculation in accordance with Conduct of Operations N OP 1103-4, SOLUBLE BORON CONCENTRATION CONTROL, Enclosure 1.

2.1.25 (2.W3.1): Ability to obtain and interpret station reference materials such as graphs, monographs, and tables which contain performance data.

Perform a transient RCS leak rate calculation in Conduct of Operations accordance with OS-24, CONDUCT OF OPERATIONS DURING ABNORMAL AND EMERGENCY EVENTS, ATTACHMENT F, and apply the Technical Specification/procedural requirements to the calculation.

2.1 . I 2 (4.0): Ability to apply technical specifications for a system.

Evaluate a proposed temporary procedure change.

Equipment Control N 2.2.6 (3.3): Knowledge of the process for making changes in procedures as described in the safety analysis report.

Given a set of conditions, determine and apply the Radiation Control N facility dose limits.

2.3.1 (2.6/3.0): Knowledge of 10 CFR: 20 and related facility radiation control requirements.

Given a set of conditions, determine the Emergency Emergency Plan P/M Action Level (EAL) and make a Protective Action Recommendation (PAR).

2.4.44 (4.0): Knowledge of emergency plan protective action recommendations.

NOTE: All items (5 total) are required for SROs. RO applicants require only 4 items unless they are retaking only the administrative topics, when 5 are required.

  • Type Codes & Criteria: (C)ontrol room (D)irect from bank (I3 for ROs; I for SROs & RO retakes)

(N)ew or (M)odified from bank (> I )

(P)revious 2 exams (I 1; randomly selected)

( S )imulator NUREG-1021, Revision 9

000003 ES-301 Administrative Topics OutIine Form ES-301-1 THREE MILE ISLAND 2007 NRC SRO EXAMINATION CONDUCT OF OPERATIONS (AI -1): Perform a batch calculation in accordance with 1103-4, SOLUBLE BORON CONCENTRATION CONTROL, Enclosure 1. Given a situation and conditions, determine the applicable section of OP 1103-4, Enclosure Iand utilize the referenced figures and tables to perform a batch calculation. New JPM. RO/SRO Common.

CONDUCT OF OPERATIONS (Al-2): Perform a transient RCS leak rate calculation in accordance with OS-24, CONDUCT OF OPERATIONS DURING ABNORMAL AND EMERGENCY EVENTS, ATTACHMENT F, and apply the Technical Specification/procedural requirements to the calculation. Given a frozen simulator with an RCS leak in progress, use the plant computer to extract the necessary data and then calculate the leak rate. The calculation is RO/SRO Common. The SRO applicants will apply the Technical Specification/procedural requirements based on their calculations. Modify Bank JPM 11205057 by changing the initial conditions, requiring the applicant to retrieve the data from the plant computer on a frozen simulator and having the SRO applicant determine and apply the facility requirements.

EQUIPMENT CONTROL (A2): Evaluate a proposed temporary procedure change. Apply facility requirements to the review of a temporary procedure change containing two (or more) administrative and/or technical errors. New JPM. SRO only.

RADIATION CONTROL (A3): Given an emergency situation and survey maps, determine the area dose rate near a specified plant component and apply the applicable facility limit to determine the stay time for the situation. RO/SRO Common. New JPM.

EMERGENCY PLAN (A4): Given a set of conditions, determine the Emergency Action Level (EAL) and make a Protective Action Recommendation (PAR). Randomly selected task from one of the previous two NRC examinations. Modify by changing the conditions. SRO only.

NUREG-1021, Revision 9

8000643 ES-301 Control Room/ln-Plant Systems Outline Form ES-301-2 Facility: TMI Unit 1 Date of Examination: April 2007 Exam Level (circle one): RO / SRO(I) / SRO (U) Operating Test No.: NRC Control Room Systems@(8 for RO; 7 for SRO-I; 2 or 3 for SRO-U, including 1 ESF)

Type Code* Safety System / JPM Title Function a, Take corrective action for a Control Rod Drive Sequence Fault in M. L 1 accordance with (IAW) OP-TM-MAP-GOZOZ.

System: 001

b. Take corrective action for a low pressure injection failure during 2 a large break LOCA IAW OP-TM-211-901.

System: 006

c. Respond to an RCS narrow range pressure instrument failure IAW D 3 alarm response procedure MAP G-1-6.

System: 010

d. Respond to an RCP Seal problem IAW AOP-040. 4P System: 003
e. Cross-connect Secondary River Water to Nuclear River Water IAW D 4s EP 1202-38. (RO Ody)

System: 076

f. Return RB Emergency Cooling to standby following a manual 5 actuation IAW OP-TM-534-901.

System: 022

g. Energize a Vital AC Bus during a loss of off-site power using the 6 SBO Diesel IAW AOP-020.

System: 062

h. Respond to an alarm on Control Room RMS Channel RM-A1 IAW 7 MAP C, C-1-1.

System: 073 1 Implant Systems@(3 for RO; 3 for SRO-I; 3 or 2 for SRO-U)

i. Reset the steam-driven EFW Pump overspeed trip IAW EOP-10, 4s GUIDE 16.1.

System: 061 NUREG-1021, Revision 9

~00003 ES-301 Control Room/ln-Plant Systems Outline Form ES-301-2

j. Initiate emergency boration IAW EOP-020. M, R, E 8 System: APE 068
k. Manually operate RR-V-6, Reactor Building Emergency Cooler Pressure Control Valve, IAW OP-1104-38.

@ 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 I SRO-I I SRO-U (A)lternate path 4-6 14-6 I 2-3 (C)ontrol room (D)irect from bank 91 81 4 (E)mergency or abnormal in-plant 1 1 11 1 (L)ow-Power I Shutdown . I / 11 1 (N)ew or (M)odified from bank including 1(A) s21 2 1 S I (P)revious 2 exams 3I 3 I 2 (randomly selected)

(WA 11 11 1 (S)imulator THREE MILE ISLAND 301-2 JPM

SUMMARY

STATEMENTS

a. Take corrective action for a Control Rod Drive Sequence Fault in accordance with (IAW)

OP-TM-MAP-G0202. Group 7 rods withdraw out-of-sequence when power is being raised from 5% in preparation for synchronizing the main turbine generator. The applicant will respond IAW OP-TM-G0202, CRD SEQUENCE FAULT, and correct the overlap problem IAW OP-TM-622-412, RECOVERING FROM A SEQUENCE INHIBIT CAUSED BY EXCESSIVE OVERLAP. Modify Bank JPM 11.2.05.159 by changing the initial conditions and therefore the procedure path. To be performed by: RO, SROI, SROU. Failure to properly perform the task will result in a violation of technical specifications and operation outside of accident analysis assumptions.

b. Take corrective action for a low pressure injection failure IAW OP-TM-EOP-006.

Applicant will assume the watch with directions to perform EOP-006, LOCA COOLDOWN. DH-P-1B has failed to start, requiring alternative actions. The alternate path is via OP-TM-211-901, EMERGENCY INJECTION. Bank JPM 11.2.05.195. To be performed by: RO, SROI, SROU. Failure to properly perform the task will result in the possibility that all LPI flow is out the break.

NUREG-1021, Revision 9

ES-301 Control RoomAn-Plant Systems Outline Form ES-301-2

c. Respond to an RCS narrow range pressure instrument failure IAW alarm response procedure MAP G-1-6. Shortly after assuming the watch, an RCS narrow range pressure instrument fails HI and SASS fails to block the signal. The applicant will respond IAW the alarm response procedure to place equipment in the proper alignment/position. Bank JPM TQ-TM-104-220-J001. To be performed by: RO, SROI.

Failure to properly perform the task will result in unnecessarily creating saturated conditions in the RCS.

d. Respond to an RCP Seal problem IAW AOP-040. Shortly after assuming the watch, an RCP # I Seal problem will develop, requiring entry into AOP-040, RCP # I SEAL FAILURE. The alternate path is a requirement to initiate a reactor trip, stop the affected pump and close the return isolation valve. This JPM is identified as NEW because the JPM was removed from the facility bank prior to 2005 and was not based on AOP-040.

To be performed by: RO, SROI, SROU. Failure to properly perform the task could result in a LOCA caused by catastrophic seal failure.

e. Cross-connect Secondary River (SR) Water to Nuclear River (NR) Water IAW EP 1202-
38. The only available NR Pump will trip shortly after the applicant assumes the watch with the unit shutdown. SR is then cross-connected to NR IAW EP 1202-38, NUCLEAR SERVICES RIVER WATER FAILURE. Bank JPM 11.2.05.150. To be performed by:

RO Only. Failure to properly perform the task will result in loss of cooling water to emergency safeguards equipment.

f. Return RB Emergency Cooling to standby IAW OP-TM-534-901, RB EMERGENCY COOLING OPERATIONS, following a manual actuation. The applicant assumes the watch with RB Emergency Cooling in service due to a small steam leak that has been isolated and is directed to restore it to ES Standby alignment. Randomly selected repeat from the 2003 NRC Exam (B.1.f). To be performed by: RO, SROI. Failure to properly perform the task could result in inadequate flow to Reactor Building coolers and possible operation outside of accident analysis assumptions.

Energize a Vital AC Bus during a loss of off-site power using the SBO Diesel IAW AOP-020. The applicant assumes the watch after a loss of off-site power and AOP-020, LOSS OF STATION POWER, just entered. The alternate path is to energize ID or 1E Vital Bus IAW OP-TM-864-901, SBO DIESEL GENERATOR (EG-Y-4) OPERATIONS.

Randomly selected repeat from the 2005 NRC Exam (JPM F). The JPM will be modified in that it will begin in AOP-020 vice OP-TM-864-901 and a different bus will be re-energized. To be performed by: RO, SROI. Failure to properly perform the task will result in loss of DC power to the respective bus or a station blackout if power is lost to the available bus.

h. Respond to an alarm for RMS Channel RM-A1, Control Room Monitor, IAW MAP C, C-1-1. Shortly after the applicant assumes the watch, alarm C-1-1 (HI ALARM) will actuate. The alternate path is to align components IAW OP-TM-826-901, CONTROL BUILDING VENTILATION SYSTEM RADIOLOGICAL RESPONSE OPERATIONS. The task is similar to Bank JPM TQ-TM-104-826-J001 but will be modified to start from an alarm condition; with failed interlock actuations. To be performed by: RO, SROI. Failure to properly perform the task will result in possible radiation intrusion into the control room environment.

NUREG-1021, Revision 9

ES-301 Control Room/ln-Plant Systems Outline Form ES-301-2

i. Reset the steam-driven EFW Pump overspeed trip IAW OP-TM-EOP-010, Guide 16.1, EFW FAILURE. Randomly selected repeat from the 2003 NRC Exam (B.2.c). To be performed by: RO, SROI. Failure to properly perform the task will result in loss of all feedwater flow when the operating pump fails.
j. Initiate emergency boration IAW EOP-020, COOLDOWN FROM OUTSIDE OF CONTROL ROOM, Step 3.1.19. Perform the steps necessary to initiate boration from outside the control room. Modify Bank JPM TQ-TM-105-211-JOOI to have the applicant perform all sub-steps rather than opening just one manual valve (MU-V-51). To be performed by: RO, SROI, SROU. Failure to properly perform the task will result in inadequate SDM during the cooldown.
k. Manually operate RR-V-6, Reactor Building Emergency Cooler Pressure Control Valve, IAW OP-I 104-38. Applicant is directed to raise Reactor Building Emergency Cooling coil pressure with a LOCA in progress. Bank JPM TQ-TM-105-534-JOOI . To be performed by: RO, SROI, SROU. Failure to properly perform the task could result in an uncontrolled leakage path from the Reactor Building atmosphere to the cooling system to the local environment.

NUREG-1021, Revision 9

Appendix D Scenario Outline Form ES-D-1 1 Facility: Three Mile Island Scenario No.: 1 OpTestNo.: NRC Examiners: Operators:

Initial Conditions: 100% power, MOC.

0 EF-P-2B is 00s for bearing replacement.

0 DR-P-1A is running for effluent flow 1 Turnover: Maintain 100% power operations.

Critical Tasks: Initiate HPI Cooling (CT-14)

Initiate HPI (CT-2)

L ~ ~

Event Malf. Event Event No. Type* Description RW04A I CRS Decay Heat River Water Pump DR-P-1A trips (TS)

CRS NLO Reports an excessive oil leak from Emergency Feedwater Pump EF-P-1 (TS).

3 +M Turbine Header Pressure instrument fails high slowly I ARO 4 CC04A C CRS Intermediate Closed Cooling Water Pump IC-P-1A trips and IC-P-I B fails to auto start I CUR0 5 MS19A N CRS Steam Leak in the Turbine Building N ARO R URO 6 FW-15A M CRS Feedwater Pump 1A trip FW-15B M URO Feedwater Pump 1B trip TC076 M ARO Turbine stop valve fails open 7 FW17 C CRS Emergency Feedwater Pump EF-P-1 trips on start FW18A C ARO Emergency Feedwater Pump EF-P-2A does not start. (CT-14) 8 MU086 C CRS High Pressure Injection Valve (HPI) MU-V-16B fails to open C URO B ESAS Manual Actuation Failure (CT-2)

Scenario Event Description NRC Scenario 1 Three Mile Island NRC Scenario #I The crew will take the watch with reactor power at 100% and ICs in Full Automatic. Emergency Feedwater (EFW) Pump EF-P2B is 00s for a bearing replacement. Decay Heat River Water Pump DR-P-1A is running in preparation for a liquid release.

When the crew has accepted the watch the Lead Examiner can cue the initiation of the trip of Decay Heat River Water Pump DR-P-1A. The Crew should respond in accordance with MAP Alarm B-1-5, 480V ES Motor Trip and 8-24, 480V ES Motor Overload. The CRS should review Tech Spec 3.3.1.4.d and declare a 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> timeclock based on Tech Spec 3.3.2. When the Tech Spec call has been made the scenario can continue.

After the TS call is made the Lead Examiner can cue the initiation of the NLO report of a large oil leak from EF-P-1 bearing with an empty bearing oil indicator. The CRS should review Tech Spec 3.4.1.1.a.4 initiate immediate action to restore at least two EFW pumps, and Note 1 and recognize all reactor operating mode changes are suspended until a second EFW Pump is operable. The CRS may initiate action to prevent EF-P-1 from starting by manually closing MS-V-I 3A and MS-V-13B. EF-P-1 will not be returned to operable status during this scenario. The scenario can continue when the Tech Spec timeclock is suspended.

After the Tech Spec call is made and on cue from the Lead Evaluator, the Turbine Header Pressure instrument failure can be initiated. The crew should diagnose the failing pressure and take hand control of the turbine and the SG/Rx Master Integrated Control System station. The CRS should implement OP-TM-301-471, Manual Control of the Main Turbine and OP-TM-621-471, ICs Manual Control. The backup pressure instrument may be selected in accordance with OP-TM-621-451, Selecting Alternate Instrument Inputs to ICs. The backup instrument does not have to be selected for the scenario to continue.

After the plant has been stabilized the Lead Examiner can cue the trip of Intermediate Closed Cooling Water Pump IC-P-1A. The crew should diagnose the loss of IC-P-1A and the failure of IC-P-1B to auto start using MAP alarms AA-1-6,480V BOP Motor Trip, C-1-2, IC CRD Flow Lo and C-2-2, IC System Flow Lo. The CRS should implement 1202-17, Loss of Intermediate Closed Cooling Water and the URO should manually start IC-P-1B. Letdown flow may be isolated by CRD high temperature closing MU-V-1A and MU-V-1B. If this occurs the CRS should initiate OP-TM-211-950, Restoration of Letdown Flow. Letdown flow does not have to be re-established to continue.

After IC-P-1B has been started the Lead Evaluator can cue initiation of the steam leak in the Turbine Building. The crew should diagnose the steam leak in the Turbine Building and the CRS should implement 1203-24, Steam Leak. An NLO will provide a report of severity enough to begin a plant shutdown. The CRS should order a plant shutdown in accordance with 1102-4, Power Operations.

At the cue of the Lead Examiner or after the first Feedwater Pump (FW-P-1A or FW-P-1B) is secured initiate the trip of the remaining pump to trip the reactor. If the crew trips the reactor due to the steam leak the trip of both Feedwater Pumps will be initiated at e40 % power. One turbine stop valve will fail to close and the contingency steps of OP-TM-EOP-001, Reactor Trip will have to be taken for the turbine. The steam leak will be isolated when the turbine trips. The CRS will initiate OP-TM-EOP-001, Reactor Trip.

000603 Scenario Event Description NRC Scenario 1 Three Mile Island NRC Scenario #I Continued Following the loss of both Feedwater Pumps, EF-P-I will trip (if not previously isolated by the CRS) and EF-P-2A fails to start. The crew should diagnose the lack of heat transfer and respond in accordance with OP-TM-EOP-004, Lack of Primary to Secondary Heat Transfer.

Without primary to secondary heat transfer PORVlHPl cooling is the only method to maintain adequate core cooling which makes this a critical task. PORVIHPI Cooling will be initiated in accordance with OP-TM-EOP-009, HPI Cooling (CT-14). The ARO will initiate OP-TM-EOP-010, Guide 16, EFW Failure for the Emergency Feedwater Pump failures.

When HPI is manually initiated HPI Valve MU-V-16B will fail to open and the B Train HPI manual ESAS actuation does not actuate. This will result in inadequate HPI since there will not be one full train of HPI in operation. Without adequate HPI the mitigation strategy is changed for the event, which makes obtaining adequate HPI a critical task. The B Train components will have to be started at the component level in accordance with OP-TM-211-901, Emergency Injection (HPI/LPI) (CT-2).

The CRS will subsequently transition to OP-TM-EOP-006, LOCA Cooldown from EOP-009.

The Lead Evaluator can terminate the scenario when all high level activities have been completed and the evaluators agree the crew can be properly evaluated.

OOOGQ3 Scenario Event Description NRC Scenario 1 Description Procedure Support Initial Set-up. EF-P-26 00s for bearing replacement 3R-P-1A Running in preparation for a liquid release DR-P-1A Trips TS 3.3.1.4.d and 3.3.2, ECCS Systems MAP Alarm 8-1-5, 480V ES Motor Trip MAP Alarm 8-2-5, 480V ES ES Motor Overload EF-P-1 Bearing Oil Leak TS 3.4.1.1.a.4, Decay Heat Removal Capability Turbine Header Pressure 3P-TM-MAP-H0302, Sass Mismatch instrument fails high 3P-TM-MAP-H0203, Mn Turb Hdr Press Hi/Lo 3P-TM-301-471, Manual Control of the Main Turbine 3P-TM-621-471, ICs Manual Control 3P-TM-621-451, Selecting Alternate Instrument Inputs to ICs Intermediate Closed Cooling 1202-17, Loss of Intermediate Cooling System Water Pump IC-P-1A trips 4A-1-6, 480V BOP Motor Trip and IC-P-1B fails to auto start OP-TM-MAP-CO102, IC CRD Flow LO OP-TM-MAP-C0202, IC System Flow Lo 1203-24 Steam Leak Steam Leak in the Turbine 1102-4 Power Operations Building Feedwater Pump 1A (or 1B) OP-TM-EOP-001, Reactor Trip trip Turbine stop valve fails to close Emergency Feedwater Pump OP-TM-EOP-010, Guide 16, EFW Failure EF-P-1 trips on start OP-TM-EOP-004, Lack of Primary to Secondary Emergency Feedwater Pump Heat Transfer EF-P-2A does not start.

OP-TM-EOP-009, HPI Cooling High Pressure Injection OP-TM-211-901, Emergency Injection (HPIILPI).

Valve (HPI) MU-V-16B fails to open B ESAS Manual Actuation Failure 080683 Scenario Event Description NRC Scenario 1 Initialization IC-16 100% HFP, ICs Full AUTO Console Left EF-P-28 Tagged 00s Scenario Support EF-P-2B PTL EF-P-2B PTUEF-P-2B BKR OPEN Remote Function Value: OUT Scenario Support FWRl3 When: Immediately Main Console Robust Barriers applied IAW Scenario Support Risk Document Console Center DR-P-1A Running Scenario Support DR-P-1A NAS Malfunction RW04A Value: Insert DR-P-1A Trips When: Event 1 Malfunction MSOl B Value: Insert Sev. 100% Turbine Header Pressure When: Event 3 RAMP 300 sec instrument fails high SPIOA-PT2 I/O Override IC-P-1B Value: Insert OFF IC-P-1B Fails to Auto Start NAT When: Immediately Malfunction CC04A Value: Insert IC-P-1A trip When: Event 4 Malfunction MS19B Value: Insert Sev. 10% Steam Leak in the Turbine When: Event 5 RAMP 300 sec Building Malfunction FW15A Value: Insert Feedwater Pump 1A trip When: Event 6 ratpwc40 Malfunction FWI 58 Value: Insert Feedwater Pump 1B trip When: Event 6 ratpwc40 Malfunction TC07B Value: Insert Turbine Stop Valve B Fails When: Immediately Open Malfunction FW17 Value: Insert Emergency Feedwater Pump When: Event 7 fwnefp1>0.1 EF-P-1 trip Malfunction FW18A Value: Insert Emergency Feedwater Pump 01A6S28- When: Event 8 ratpw40 EF-P-2A trip ZDIEFP2A(5) ON MU08B Value: Insert High Pressure Injection Valve When: Event 9 (HPI) MU-V-16B fails as is muvmuvl6b>0.1 03A4S02-ZDIPBIRBB Value: Insert OFF B ESAS 4 psig Manual When: Immediately Actuation Failure 03A4SOI-ZDIPBl RCB Value: Insert OFF B ESAS 4 psig 1600 psig When: Immediately Actuation Failure Appendix D Scenario Outline Form ES-D-1 Facility: Three Mile Island Scenario No.: 2 OpTestNo.: NRC Examiners: Operators:

/

Initial Conditions: 0 Reactor Startup is in Progress 0 NI-3 is 00s due to a detector failure Turnover: Take the Reactor Critical Critical Tasks: 0 Initiate HPI (CT-2) 0 Trip all RCPs (CT-1)

I 0 Reduce Steaming/lsolate Affected SGs (CT-22)

I 0 Limit Uncontrolled Radiation Release (CT-21)

Event Event TY Pe* Description CRS Reactor Buildina Hi Ranae Radiation Monitor Failure (TS)

N CRS Reactor Startup R URO N ARO CRS Intermediate Range Instrument NI-4 Fails Low (TS)

M CRS Turbine Bypass Valve MS-V3D Fails Open M URO M ARO CRS OTSG Tube Leak in OTSG A C CRS OTSG Tube Rupture in A OTSG requiring HPI initiation C URO C ARO C CRS High Capacity Makeup Flow Valve MU-V-217 Breaker Trips C URO C CRS Decay Heat Closed Cooling Water Pump Trips on ESAS Actuation C URO C CRS OTSG Tube Rupture in A OTSG resulting in loss of subcooling C URO margin (CT-1, CT-22)

C ARO C CRS Both Trains of HPI Fail to Actuate at 1600 psig (CT-2)

C URO C CRS Emergency Feedwater Pump Steam Supply Valve MS-V-13A Fails Open. (CT-21)

C ARO

  • (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor Scenario Event Description NRC Scenario 2 Three Mile Island NRC Scenario #2 The crew will take the watch with reactor startup in progress pulling toward criticality. NI-3 is 00s due to a detector failure. The crew will continue the reactor startup.

As soon as the crew accepts the watch the lead Examiner can cue the failure of RB Hi Range monitor RM-G-22. MAP Alarm C-1-1, Radiation Level High will be received and the crew should diagnose the failure of the instrument. The CRS should review TS 3.5.5.2and declare a 7 day timeclock based on the failure. As soon as the TS call is made the crew can be directed to continue the startup.

When the crew has progressed in the startup to satisfy the reactivity manipulation the Lead Examiner can cue the initiation of the Intermediate Range NI-4 detector failure. The CRS should terminate the startup and review TS 3.5.1.1 and Table 3.5-1 and declare a one hour timeclock based on zero Intermediate Range Instruments operable.

After the CRS has made the Tech Spec call the Lead Examiner can cue the initiation of the Turbine Bypass Valve MS-V-3D failure. This will cause an RCS Cooldown and cause the reactor to go critical if it was not already critical. The crew should trip the reactor and enter OP-TM-EOP-001, Reactor Trip at this point. The reactor must be tripped prior to going below 525°F.

After the plant has been stabilized the Lead Examiner can cue the initiation of the OTSG A tube leak. The crew should diagnose the tube leak at approximately 12 gpm and the CRS should review TS 3.1.6.3 and declare a 36 hour4.166667e-4 days <br />0.01 hours <br />5.952381e-5 weeks <br />1.3698e-5 months <br /> timeclock to reach cold shutdown. The CRS should go to OP-TM-EOP-005, OTSG Tube Leakage to mitigate the event.

After the Tech Spec call has been made the Lead Examiner can cue the OTSG Tube Rupture.

The crew should diagnose the leak size increase and continue in EOP-005. The High Capacity Makeup Valve breaker will trip when it is opened and the URO will have to use Makeup Valve MU-V-16B to augment makeup flow. The leak will require initiation of HPI using OP-TM-EOP-010 Guide 9, RCS Inventory Control (CT-2). This is a critical task because the leak size is greater than normal makeup capability which would cause Pressurizer level to lower and eventually empty since HPI will not automatically actuate at 1600 psig.

Decay Heat Closed Cooling Water Pump DC-P-1B will trip when ESAS is actuated and the CRO will have to implement OP-TM-211-901, Emergency Injection (HPVLPI) Contingency Actions to transfer Makeup Pump MU-P-1C cooling to Nuclear Services Closed Cooling Water (NSCCW). This will required securing MU-P-1C.

After MU-P-IC cooling has been transferred to NSCCW the Lead Examiner can cue the increase. The leak size will result in a loss of subcooled margin. HPI will not automatically actuate at 1600 psig RCS pressure and will have to be manually actuated in accordance with OP-TM-642-901, 1600 PSlG ESAS Actuation. The CRS should initiate OP-TM-EOP-002, Loss of 25°F Subcooled Margin. All four Reactor Coolant Pumps will be tripped within one minute of the loss of subcooled margin (CT-I) resulting in Emergency Feedwater actuation. This is a critical task since failure to trip the RCPs could result in the core not being adequately covered and raise the potential for fuel clad failure.

The CRS will transition back to EOP-005 and when EF-P-1 is secured the crew should diagnose the Steam Supply Valve MS-V-13A failure to close and close it manually to stop the OOOG83 Scenario Event Description NRC Scenario 2 Three Mile Island NRC Scenario #2 Continued unmonitored release (CT-21). This is a critical task in that failure to isolate EF-P-1 would result in an uncontrolled radiation release from a non-essential load.

The A OTSG will subsequently be isolated in accordance with EOP-005 (CT-22). This OTSG is not required for cooldown and overfill can not be prevented by steaming, requiring the OTSG to be isolated reducing the radiological consequences of the event.

The Lead Evaluator can terminate the scenario when all high level activities have been completed and the evaluators agree the crew can be properly evaluated.

OOOG103 Scenario Event Description NRC Scenario 2 Description Procedure Support Initial Set-up. Reactor Startup in progress Intermediate Range NI-3 is 00s Reactor Building Hi Range Tech Spec 3.5.5.2 Accident Monitoring Radiation Monitor Failure Instrumentation (TS)

Reactor Startup OP 1103-8, Approach to Criticality Intermediate Range TS 3.5.1.1, Operational Safety Instrumentation Instrument NI-4 Fails Low Table 3.5-1 (TS)

Turbine Bypass Valve MS-V- TM-EOP-001, Reactor Trip 3D Fails Open OTSG Tube Leak in OTSG A OP-TM-EOP-005, OTSG Tube Leakage

~

OTSG Tube Rupture in A OP-TM-EOP-005, OTSG Tube Leakage OTSG requiring HPI initiation OP-TM-EOP-010, Guide 9 RCS Inventory Control High Capacity Makeup Flow OP-TM-EOP-010, Guide 9 RCS Inventory Control Valve MU-V-217 Breaker Trips Decay Heat Closed Cooling OP-TM-211-901, Emergency Injection (HPIILPI)

Water Pump Trips on ESAS OP-TM-543-440, Swapping MU-P-1C Cooling to NS Actuation OTSG Tube Rupture in A OP-TM-EOP-002, Loss of 25°F Subcooled Margin OTSG Loss of Subcooled OP-TM-EOP-005, OTSG Tube Leakage Margin Both Trains of HPI Fail to OP-TM-211-901, Emergency Injection (HPVLPI)

Actuate at 1600 psig OP-TM-642-901, 1600 PSlG ESAS Actuation Emergency Feedwater Pump OP-TM-EOP-005, OTSG Tube Leakage Steam Supply Valve MS-V-13A Fails Open Scenario Event Description NRC Scenario 2 Initialization IC-.. Reactor Startup in Progress Remote Function Value: OUT Scenario Support When: Immediately RPS Cabinet C Turn NI-3 Detector Power Supply Scenario Support OFF Place EDT on Switch RPS Cabinet C Turn NI-3 Aux Power Supply OFF Scenario Support Place EDT on Switch Console Center Place EDT on NI-3 indication Scenario Support NI-3 Malfunction RM0322 Value: Insert RM-G-22 Fails High When: Event 1 Malfunction NI11B Value: Insert NI-4 Power Supply Fails OFF When: Event 3 Malfunction MSO9D Value: Insert Sev. 100% MS-V-3D Fails Open When: Event 4 Malfunction THI 5A Value: Insert Sev. 0.05% OTSG A Tube Leak When: Event 5 RAMP 100 sec Malfunction TH16A Value: Insert 2.3% OTSG A Tube Rupture When: Event 6 RAMP 300 sec Malfunction MU09 Value: Insert High Capacity Makeup Valve When: Immediately Fails as is Malfunction ESOIA Value: Insert ESAS Failure to Actuate at When: ImmediateIy HPI Setpoint (1600 PSIG)

Train A Malfunction ESOI B Value: Insert ESAS Failure to Actuate at When: Immediately HPI Setpoint (1600 PSIG)

Train B Malfunction CC02B Value: Insert Decay Closed Cooling Water When: Event 8 rrvdrvl b>0.1 Pump 1B Trip Malfunction THI 7A Value: Insert 20% OTSG A Tube Rupture When: Event 9 RAMP 10 sec Malfunction FW45A Value: Insert MS-V-13A Fails as is (open)

When: Event 11 fwvmsvl3a=-0.9 om03 Appendix D Scenario Outline Form ES-D-1 Facility: Three Mile Island Scenario No.: 3 OpTestNo.: NRC Examiners: Operators:

Initial Conditions: 85% power, MOC 0 Power Escalation Following a trip and maintenance outage MU-P-1B 00s Turnover: Raise Power to 100%.

Critical Tasks: 0 Trip all RCPs (CT-1) 0 Establish FW Flow and Feed SGs (CT-10) p Event Malf.

No.

Event Type*

Event Description

~~ ~~

1 I CCRS Power Operated Reref Valve (PORV) Block Valve RC-V-2 Breaker Trips (TS) 2 3

RD0216 I CCRS CURO T H 1 3 D ] NCRS Stuck Rod in Group 7 (TS)

Reactor Coolant Pump RC-P-1D High Vibration I RURO I N URO 4 C CRS Feedwater Flow Fails to re-ratio after securing RC-P-1D C ARO C URO 5 THO6 M CRS An RCS leak occurs requiring a Reactor Trip M URO M ARO 6

7 RWOIOB I CCRS CURO Reactor Building Emergency Cooling Pump RR-P-1B does not start on ESAS actuation RC-P-1A does not trip when control switch is rotated to the stop position (CT-1) 8 Emergency Feedwater Valves to the A OTSG EF-V30A and EF-V-30D do not control in automatic due to a level setpoint failure (CT-10)

  • (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor Scenario Event Description NRC Scenario 3 Three Mile island NRC Scenario #3 The crew will take the watch with reactor power at 85% and ICs in Full Automatic. The plant is in a power escalation following an automatic trip several days ago and a subsequent maintenance period.

When the crew has accepted the watch the Lead Examiner can cue the initiation of the Report from the NLO that he was in the area of I C ES Valves MCC and heard a breaker trip. It was the Power Operated Relief Valve (PORV) Block Valve breaker. The CRS should review TS 3.1.12.4 for PORV Block Valve Operability and declare a 1 hour1.157407e-5 days <br />2.777778e-4 hours <br />1.653439e-6 weeks <br />3.805e-7 months <br /> timeclock is in effect to close the PORV.

The PORV Block Valve breaker will not be returned to service and the scenario can continue when the TS call is made.

After the TS call is made the crew will continue the power escalation. As rods are withdrawn a stuck rod occurs in Group 7 requiring the initiation of procedure OP-TM-AOP-062, Inoperable Rod. The CRS should review TS 4.7.1.2 and 3.5.2.2 and declare the rod inoperable. Tech Spec actions for the inoperable rod are included in AOP-062. Within one hour the other rods in the group must be trimmed so the inoperable rod remains within the group average. The rod will not be returned to operable status during the scenario.

After the Tech Spec call is made and AOP-062 has been implemented to the examiners satisfaction, the Lead Evaluator can cue the initiation of the RC-P-1D high vibration malfunction.

The crew should diagnose increasing vibration on RC-P-1D and initiate action to reduce power to ~ 7 5 % to secure RC-P-1D in accordance with Computer Alarm Response L3125, RC-P-1D High Vibration.

When RC-P-1D is secured feedwater flow will not re-ratio and the crew will have to take hand control of the Feedwater Loop masters in accordance with OP-TM-621-471, ICs Manual Control to manually re-ratio feedwater flow. The ICs does not have to be returned to auto to continue.

When the plant has been stabilized with feedwater flow re-ratioed, the Lead Examiner can cue initiation of the RCS leak. The crew should diagnose the leak based on RB pressure rise and RCS inventory change. Reactor Building pressure will rise rapidly and RCS pressure will lower.

The reactor should be tripped by the crew and the CRS should initiate OP-TM-EOP-001, Reactor Trip. Reactor Building Emergency Cooling Pump RR-P-1B will not start automatically on the ESAS signal and must be started manually per OS-24, Conduct of Operations during Abnormal and Emergency Conditions.

When subcooling margin is lost RC-P-1A control switch will not trip the breaker and the URO will have to open the breakers for the 1A 7KV bus to trip the pump (CT-1). If the pump is not tripped within one minute the crew will have to keep RC-P-1A running in accordance with OP-TM-EOP-010, Rule 1 Loss of Subcooling Margin. This is a critical task since failure to trip the RCPs could result in the core not being adequately covered and raise the potential for fuel clad failure. The CRS will initiate OP-TM-EOP-002, Loss of Subcooled Margin.

When Emergency Feedwater is actuated EF-V-30A and EF-V-30D will not operate in automatic and will have to be taken to hand to feed the A OTSG (CT-10). This is a critical task in that failure to take manual control would result in the A OTSG going dry and becoming unavailable to maintain or initiate primary to secondary heat transfer.

Scenario Event Description NRC Scenario 3 Three Mile island NRC Scenario #3 Continued The Lead Evaluator can terminate the scenario when all high level activities have been completed and the evaluators agree the crew can be properly evaluated.

806)003 Scenario Event Description NRC Scenario 3 Description Procedure Support Initial Set-up. 3P 1102-2 Plant Startup Power Operated Relief Valve TS 3.1.12.4, PORV Block Valve Operability (PORV) Block Valve RC-V-2 Breaker Trips (TS).

Stuck Rod in Group 7 (TS) TS 4.7.1.2, Rod Misalignment TS 3.5.2.2 Operation With Inoperable Rods OP-TM-AOP-062 Inoperable Rod Reactor Coolant Pump RC-P- Computer Alarm L3125, RC-P-I D High Vibration I D High Vibration OP 1102-4, Power Operation Feedwater Flow Fails to re- OP-TM-MAP-H0204, Reactor Inlet ATc HI ratio after securing RC-P-1D OP-TM-621-471, ICs Manual Control RCS Leak in the RB OP-TM-EOP-001, Reactor Trip OP-TM-EOP-010, Rule 1, Loss of Subcooling Margin OP-TM-EOP-002, Loss of Subcooled Margin OP-TM-EOP-006, LOCA Cooldown Reactor Building Emergency OP-TM-534-901, RB Emergency Cooling Operations Cooling Pump RR-P-1B does OS-24, Conduct of Operations During Abnormal and not start on ESAS actuation Emergency Events RC-P-1A does not trip when OS-24, Conduct of Operations During Abnormal and control switch is rotated to Emergency Events the stop position OP-TM-EOP-010, Rule 1, Loss of Subcooling Margin Emergency Feedwater OP-TM-EOP-010, Guide 16, EFW Failure Valves to the A OTSG EF-V-30A and EF-VSOD do not control in automatic

~

Scenario Event Description NRC Scenario 3 Initialization IC-I6 85% Power, ICs Full AUTO Scenario Support Remote Function Value: Insert OUT RC-V-2 Breaker trips RCRl9 When: Event 1 Malfunction RD0216 Value: Insert Stuck rod in Group 7 When: Immediately Malfunction THI 3D Value: Insert Sev. 50% RC-P-1D High Vibration When: Event 2 RAMP 300 sec Monitor ICK314B Value: Insert 10.0 FW Flow Fails to Re-ratio (normal value 0.0101) When: Immediately Malfunction THO6 Value: Insert Sev. 0.5% RCS Leak at RCP Discharge When: Event 5 RAMP 100 sec Malfunction RW1OB Value: Insert RR-P-1B fails to start on When: Immediately ESAS signal I/O Override 02A3S11- Value: ON RC-P-1A Breaker Fails to Trip ZDlCSRCPlA(4) NAS When: Immediately 110 Override 02A3S11- Value: OFF RC-P-?A Breaker Fails to Trip ZDlCSRCPlA(2) STP When: ImmediateIy I/O Override 02A3S11- Value: OFF RC-P-1A Breaker Fails to Trip ZDICSRCPIA(1) PTL When: Immediately Remote Function Value: Insert Sev. 0% OTSG Operate Level Setpoint ICR02 When: Immediately for EFW Control A IMQ3 Appendix D Scenario Outline Form ES-D-1 Facility: Three Mile Island Scenario No.: 4 OpTestNo.: NRC Examiners: Operators:

II Initial Conditions:

0 0

100% power, MOC.

NS-P-1A 00s for Maintenance NS-P-1B running on the 1P 480V bus 1 Turnover: Maintain 100% power operations.

Critical Tasks: 0 Control RCS Inventory (CT-30) 0 Establish and Maintain Reactor Shutdown Requirements (CT-23)

Isolate Overcooling SGs (CT-17)

Event Malf Event Event No. No. Type* Description 1 ED03D C CRS Aux Transformer B Fault Pressure (TS)

C URO C ARO 2 ES07A C CRS Inadvertent ESAS Actuation Train A C URO 3 MU23A C CRS Makeup Pump MU-P-1A Fails to Start on ESAS Actuation (TS)

C URO 4 FW35 N CRS Main Condenser Vacuum Leak R URO N ARO 5 MS04A M CRS Main Steam Safety Valve fails to reseat. (MS-V-17A) and a steam MS03A leak in the Intermediate Building lCRl3 M URO SG A Lo Press Isolation Setpoint is at zero psig FWI 1A M ARO Startup Feedwater Valve FW-V-16A Fails at 100% Open (CT-17 and CT-30) 6 RD02010 C CRS Two Control rods fail to fully insert (CT-23)

RD02056 C URO

  • (N)ormal, (R)eactivity, (I)nstrument, (C)omponent, (M)ajor 080G03 Scenario Event Description NRC Scenario 4 Three Mile Island Audit Scenario #4 The crew will take the watch with reactor power at 100% and ICs in Full Automatic. NS-P-1A is 00s for maintenance and will be out for two days. NS-P-1B is running on the 1P 480 Volt ES Bus and is selected for ES.

After the crew has accepted the watch and on cue from the Lead Examiner the Auxiliary Transformer B trip can be initiated. The I C 4160V bus will fast transfer to the A Auxiliary Transformer and the A Diesel Generator will start and load the 1D 4160 V ES bus. The crew should respond in accordance with the electrical MAP alarm responses (B-1-1, B-1-5, AA-1-8),

OP-TM-AOP-013, Loss of 1D 4160V Bus, and EP 1203-20 Nuclear Services Closed Cooling Water Failure to restart NS-P-1B on the A Diesel. The CRS should review TS 3.7.2.b and declare a 30 day timeclock due only one Auxiliary Transformer being operable and the diesel generator is already loaded on the bus.

After the plant has been stabilized and the Tech Spec call is made the Lead Evaluator can cue the initiation of the Inadvertent ESAS Actuation. The crew should diagnose the ESAS Train A actuation as inadvertent and use terminate HPI flow in accordance with OP 1105-3, Safeguards Actuation System. The Crew should also diagnose the failure of Makeup Pump MU-P-1A to start and the CRS should review TS 3.3.1. I .b and TS 3.3.2 and declare a 72 hour8.333333e-4 days <br />0.02 hours <br />1.190476e-4 weeks <br />2.7396e-5 months <br /> timeclock.

MU-P-1A will not be returned to service during this scenario. (Note: the CRS may also review the RCS Leakage Tech Spec 3.1.6.8 due to Reactor Building Radiation Monitor RM-A-2 being out of service)

The crew will have to insert control rods to compensate for the boron addition and stabilize reactor power. The crew will also have to re-establish normal letdown and makeup.

After the plant has been stabilized with rods inserted to compensate for the negative reactivity due to the boron injection and letdown and makeup have been restored the Lead Examiner can cue the initiation of the Main Condenser Vacuum Leak. The crew should diagnose the vacuum leak and insert rods to maintain power less than 100% as plant efficiency is lost. The CRS should initiate MAP Alarm Responses OP-TM-MAP-MO206, Aux Cond Hotwell Level Hi and OP-TM-MAP-NOIOG, Mn Cond VACUUM LO. The crew may elect to manually trip the reactor and turbine as vacuum degrades to the turbine trip setpoint. The CRS should initiate OP-TM-EOP-001, Reactor Trip. If the reactor is not tripped before, the turbine will trip if reactor power is reduced below 95%.

When the reactor trips a Main Steam Safety Valve will stick open on the A OTSG and a large steam leak will occur in the Intermediate Building from the A OTSG. The crew should subsequently diagnose the leak as being from the A OTSG and isolate the OTSG in accordance with OP-TM-EOP-010, Rule 3, Excessive Heat Transfer. In addition, the crew should diagnose the failure of the A OTSG Isolation to occur at 600 psig and FW-V-16A failed 100% open causing an overfeed. The CRS will transition to OP-TM-EOP-003, Excessive Primary to Secondary Heat Transfer. The ARO will have to close FW-V-92A to isolate Feedwater flow to the A OTSG due to FW-V-16A being failed open (CT-17). This is a critical task in that continued feeding of an OTSG with a steam break will continue to overcool the RCS, which could result in emptying the Pressurizer and causing a loss of subcooling margin. This would significantly change the mitigation strategy of the event.

When the OTSG is isolated and empty the URO will have to terminate HPI using Rule 2, HPVLPI THROTTLING CRITERIA and OP-TM-211-901, Attachment 7.3, THROTTLING HPI

8808303 Scenario Event Description NRC Scenario 4 Three Mile Island NRC Scenario #I4Continued (CT-30). This is a critical task in that failure to throttle/terminate HPI flow will result in a rapid rise in Pressurizer level and pressure eventually challenging the PORV setpoint.

The crew should diagnose the failure of two control rods to fully insert and will have to Emergency Borate in accordance with OP-TM-EOP-010, Rule 5, Emergency Boration. The URO will have to initiate letdown if >50gpm of injection is not achieved CT-23). This is a critical task in that adequate shutdown margin may not exist due to the two stuck rods and the RCS cooldown caused by the steam leak.

The Lead Evaluator can terminate the scenario when all high level activities have been completed and the evaluators agree the crew can be properly evaluated.

0006i03 Scenario Event Description NRC Scenario 4 Description Procedure Support Initial Set-up. 100% Power MOC, NS-P-1A OOS, NS-P-1B Running on the I P 480V Bus and selected for ES Auxiliary Transformer B MAP Alarm B-1-5, 480 Volt ES Motor Trip Fault Pressure Trip OP-TM-AOP-013, LOSSOf 1D 4160V BUS TS 3.7.2.b Inadvertent ESAS Actuation OP 1105-3, Safeguards Actuation System Train A OP-TM-211-950, Restoration of Letdown Flow Makeup Pump MU-P-1A Fails TS 3.3.1. I .b and TS 3.3.2, ECCS Equipment to Start on ESAS Actuation OP-TM-EOP-001, Reactor Trip Main Condenser Vacuum OP-TM-MAP-M0206, Aux Cond Hotwell Level Hi Leak OP-TM-MAP-NOIO6, Mn Cond VACUUM LO Main Steam Safety Valve OP-TM-EOP-003, Excessive Primary to Secondary fails to reseat. (MS-V-17A) Heat Transfer and Steam Leak in the Intermediate Building OP-TM-EOP-010, Rule 3, Excessive Heat Transfer SG A Lo Press Isolation Setpoint is at zero psig Startup Feedwater Valve FW-V-16A Fails at 100% Open (CT-17 and CT-30)

Two Control rods fail to fully OP-TM-EOP-010, Rule 5, Emergency Boration insert

\ b 000G03 Scenario Event Description NRC Scenario 4 Initialization IC-I 6 100% HFP, ICs Full AUTO Console Center NS-P-1B Running Scenario Support NS-P-1B NAS NS-P-1B-1P Bkr CLOSED Remote Function Value: 1P Scenario Support CCRl9 When: Immediately Console Right NS-P-1B-1S PTL Scenario Support NS-P-1B PTL NS-P-1B-I S Bkr OPEN Remote Function Value: NS-PI B Scenario Support CCR21 When: Immediately Console Center NS-P-1A Tagged 00s Scenario Support NS-P-1A PTL NS-P-1A Bkr OPEN Remote Function Value: OUT Scenario Support CCRl8 When: Immediately Main Console Robust Barriers applied IAW Risk Main Console Document Malfunction ED03D Value: Insert Auxiliary Transformer B Fault When: Event 1 Pressure Trip Malfunction ES07A Value: Insert Inadvertent ESAS Actuation When: Event 2 (1600 psig) Train A Malfunction MU23A Value: Insert MU-P-1A ES Start Failure When: Immediately Malfunction FW35 Value: Severity 15% Vacuum Leak RAMP 300 Sec When: Event 4 Malfunction TCOl Value: Insert Turbine Trip When: Event 5 ratpw<95%

Malfunction MS04A Value: Insert Sev. 100% Main Steam Safety Valve When: Event 6 ratpwc5% Leaks/Fails to Reseat (MS-V-17A)

Malfunction MS03A Value: Insert Sev. 100% Main Steam Leak Outside the When: Event 6 ratpw<5% RB Malfunction RD0223 Value: Insert Stuck Rod When: Immediately Malfunction RD0239 Value: Insert Stuck Rod When: ImmediateIy Malfunction FW1? A Value: Insert Startup Feedwater Valve Fails When: Immediately as is (FW-V-16A)

Remote Function Value: Insert SG A Lo Press Isolation lCRl3 When: Immediately setpoint 000G03 ES-301 Transient and Event Checklist Form ES-301-5 Facility: TMI Date of Exam: April 2007 ODeratina Test No.: NRC A E Scenarios P v P E 1 2 T M L N 0 I I T T N CREW CREW C POSITION POSITION POSITION POSITION A I A T L M N Y U T P M(*)

R I U 1 1 1 0 SR016 1 1 1 1 R02 2

SROll Instructions:

1. Circle the applicant level and enter the operating test number and Form ES-D-1 event numbers for each event type; TS are not applicable for RO applicants. ROs must service in both the at-the-controls (ATC) and balance-of-plant (BOP)positions; instant SROs must do one scenario, including at least two instrument or component (IC) malfunctions and one major transient, in the ATC position.
2. Reactivity manipulations may be conducted under normal or controlled abnormal conditions (refer to Section D.5.d) but must be significant per Section C.2.a of Appendix D. (*) Reactivity and normal evolutions may be replaced with additional instrument or component malfunctions on a 1-for-I basis.
3. Whenever practical, both instrument and component malfunctions should be included; only those that require verifiable actions that provide insight to the applicants competence count toward the minimum requirements specified for the applicants license level in the right-hand columns.
4. SRO Instant and Upgrade candidates TOTALS reflect the ATC and SRO positions only.

NUREG 1021 Revision 9

080003 ES-301 Transient and Event Checklist Form ES-301-5 Facility:

- TMI Date of Exam: ADril2007 ODeratina Test No.: NRC E Scenarios v

E 1 2 3 4 T M N 0 I T T N CREW CREW CREW CREW POSITION POSITION POSITION POSITION A I T L M Y U P

E RX SR015 NOR IIC MAJ TS Rx RO1 NOR IIC MAJ TS RX NOR SROU IIC MAJ TS Instructions:

1. Circle the applicant level and enter the operating test number and Form ES-D-1 event numbers for each event type; TS are not applicable for RO applicants. ROs must service in both the at-the-controls (ATC) and balance-of-plant (BOP) positions; Instant SROs must do one scenario, including at least two instrument or component (I/C) malfunctions and one major transient, in the ATC position.
2. Reactivity manipulations may be conducted under normal or controlled abnormal conditions (refer to Section D.5.d) but must be significant per Section C.2.a of Appendix D. (*) Reactivity and normal evolutions may be replaced with additional instrument or component malfunctions on a 1-for-? basis.
3. Whenever practical, both instrument and component malfunctions should be included; only those that require verifiable actions that provide insight to the applicants competence count toward the minimum requirements specified for the applicants license level in the right-hand columns.
4. SRO Instant and Upgrade candidates TOTALSreflect the ATC and SRO positions only.

NUREG 1021 Revision 9

ES-301 Transient and Event Checklist Form ES-301-5

=acility: TMI Date of Exam: April 2007 Operating Test No.: NRC Scenarios Rx SR017 NOR I/C MAJ TS RX R03 NOR MAJ TS RX NOR SR012 I/C MAJ Instructions:

1. Circle the applicant level and enter the operating test number and Form ES-D-1 event numbers for each event type; TS are not applicable for RO applicants. ROs must service in both the at-the-controls (ATC) and balance-of-plant (BOP) positions; Instant SROs must do one scenario, including at least two instrument or component ( K ) malfunctions and one major transient, in the ATC position.
2. Reactivity manipulations may be conducted under normal or controlledabnormal conditions (refer to Section D.5.d) but must be significant per Section C.2.a of Appendix D. (*) Reactivity and normal evolutions may be replaced with additional instrument or component malfunctions on a 1-for-I basis.
3. Whenever practical, both instrument and component malfunctions should be included; only those that require verifiable actions that provide insight to the applicants competence count toward the minimum requirements specified for the applicants license level in the right-hand columns.
4. SRO Instant and Upgrade candidates TOTALs reflect the ATC and SRO positions only.

NUREG 1021 Revision 9

WbUUJ ES-301 Transient and Event Checklist Form ES-301-5

-acility:

P A

- E TMI Date of Exam: April 2007 Scenarios Operating Test No.: NRC P v P E L N I T C POSITION POSITION POSITION POSITION A T N Y T P E S R

- 0 RX SR018 NOR

- 1 I/C 10 MAJ

- 2 TS 2 RX 1 SR014 NOR 3 1 I/C 6 MAJ 5 2 TS RX NOR SR013 I/C 9 MAJ

- 2 TS Instructions:

- 2

1. Circle the applicant level and enter the operating test number and Form ES-D-1 event numbers for each event type; TS are not applicable for RO applicants. ROs must service in both the at-the-controls (ATC) and balance-of-plant (BOP) positions; Instant SROs must do one scenario, including at least two instrument or component (VC) malfunctions and one major transient, in the ATC position.
2. Reactivity manipulations may be conducted under normal or controlled abnormal conditions (refer to Section D.5.d) but must be significant per Section C.2.a of Appendix D. (*) Reactivity and normal evolutions may be replaced with additional instrument or component malfunctions on a 1-for-I basis.
3. Whenever practical, both instrument and component malfunctions should be included; only those that require verifiable actions that provide insight to the applicants competence count toward the minimum requirements specified for the applicants license level in the right-hand columns.
4. SRO Instant and Upgrade candidates TOTALs reflect the ATC and SRO positions only.

NUREG 1021 Revision 9