ML16049A259
ML16049A259 | |
Person / Time | |
---|---|
Site: | Peach Bottom |
Issue date: | 02/11/2016 |
From: | David Helker Exelon Generation Co |
To: | Office of Nuclear Reactor Regulation |
References | |
EP-AA-1007, Addendum 3, Rev. 3 | |
Download: ML16049A259 (165) | |
Text
ATTACHMENT 3 EP-AA-1007, Addendum 3, Revision 3, "Emergency Action Levels for Peach Bottom Atomic Power Station" Emergency Plan Addendum Revision (Exelon Confidential/Proprietary Information - Withhold Under 10 CFR 2.390)
Exelon Confidential/Proprietary EP-AA-1007 Addendum 3 Revision 3 Generation0
- EMERGENCY ACTION LEVELS FOR PEACH BOTTOM ATOMIC POWER STATION
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear REVISION HISTORY REVISION REVISION DATE 0 December 2014 1 October 2015 2 December 2015 3 January 2016
- January 2016 EP-AA-1007 Addendum 3(Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear Section 1: Classification of Emergencies 1.1 General Section D of the Exelon Nuclear Standardized Emergency Plan divides the types of emergencies into four EMERGENCY CLASSIFICATION LEVELS (ECLs). The first four are the UNUSUAL EVENT (UE), ALERT, SITE AREA EMERGENCY (SAE), and GENERAL EMERGENCY (GE). These ECLs are entered by satisfying the Initiating Condition (IC) through meeting an Emergency Action Level (EAL) of the IC provided in this section of the Annex. The ECLs are escalated from least severe to most severe according to relative threat to the health and safety of the public and emergency workers. Depending on the severity of an event, prior to returning to a standard day-to-day organization, a state or phase called RECOVERY may be entered to provide dedicated resources and organization in support of restoration and communication activities following the termination of the emergency.
UNUSUAL EVENT (UE): Events are in progress or have occured which indicate a potential degradation of the level of safety of the plant or indicate a security threat to facility protection has been initiated. No releases of radioactive material requiring offsite response or monitoring are expected unless further degradation of safety systems occurs.
ALERT: Events are in progress or have occurred which involve an actual or potential substantial degradation of the level of safety of the plant or a security
- event that involves probable life threatening risk to site personnel or damage to site equipment because of HOSTILE ACTION. Any releases are expected to be limited to small fractions of the EPA Protective Action Guideline exposure levels.
SITE AREA EMERGENCY (SAE): Events are in progress or have occurred which involve an actual or likely major failures of plant functions needed for protection of the public or HOSTILE ACTION that results in intentional damage or malicious acts; 1) toward site personnel or equipment that could lead to the likely failure of or; 2) that prevent effective access to equipment needed for the protection of the public. Any releases are not expected to result in exposure levels which exceed EPA Protective Action Guideline exposure levels beyond the site boundary.
GENERAL EMERGENCY (GE): Events are in progress or have occurred which involve actual or IMMINENT substantial core degradation or melting with potential for loss of containment integrity or HOSTILE ACTION that results in an actual loss of physical control of the facility. Releases can b_e reasonably expected to exceed EPA Protective Action Guideline exposure levels offsite for more than the immediate site area.
RECOVERY: Recovery can be considered as a phase of the emergency and is entered by meeting emergency termination criteria provided in EP-AA-111 Emergency Classification and Protective Action Recommendations .
- January 2016 PBAPS 1-1 EP-AA-1007 Addendum 3(Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear EMERGENCY CLASSIFICATION LEVEL (ECL): One of a set of names or titles established by the US Nuclear Regulatory Commission (NRC) for grouping off-
- normal events or conditions according to (1) potential or actual effects or consequences, and (2) resulting onsite and offsite response actions. The emergency classification levels, in ascending order of severity, are:
. UNUSUAL EVENT (UE)
ALERT
- SITE AREA EMERGENCY (SAE)
- GENERAL EMERGENCY (GE)
INITIATING CONDITION (IC): An event or condition that aligns with the definition of one of the four EMERGENCY CLASSIFICATION LEVELS by virtue of the potential or actual effects or consequences.
EMERGENCY ACTION LEVEL (EAL): A pre-determined, site-specific, observable threshold for an INITIATING CONDITION that, when met or exceeded, places the plant in a given EMERGENCY CLASSIFICATION LEVEL.
An emergency is classified by assessing plant conditions and comparing abnormal conditions to ICs and EALs, based on the designated Operational Condition (MODE). Modes 1 through 5 are defined in the Technical Specifications (T.S.), for Units 2 and 3, based on Reactor Mode Switch Position and specific plant conditions. "Defueled" Mode was established for classification purposes to reflect conditions where all fuel has been removed from the Reactor Pressure Vessel.
MODE TITLE 1 Power Operation 2 Start-up 3 Hot Shutdown 4 Cold Shutdown 5 Refueling D Defueled Hot Matrix - applies in modes (1 ), (2), and (3)
Cold Matrix - applies in modes (4), (5), and (D)
Individuals responsible for the classification of events will refer to the Initiating Condition and EALs on the matrix of the appropriate station Standardized Emergency Plan Annex (this document). This matrix will contain ICs, EALs, Mode Applicability Designators, appropriate EAL numbering system, and additional guidance necessary to classify events. It may be provided as a user aid .
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear The matrix is set up in six Recognition Categories. The first is designated as "R" and relates to Abnormal Radiological Conditions I Abnormal Radiological Effluent
- Releases. The second is designated as "F" and relates to Fission Product Barrier Degradation. The third is designated as "M" and relates to hot condition System Malfunctions. The fourth is designated as "C" and relates to Cold Shutdown I Refueling System Malfunctions. The fifth is designated as "H" and relates to Hazards and Other Conditions. The sixth is designated "E-H" and relates to ISFSI Malfunctions.
The matrix is designed to provide an evaluation of the Initiating Conditions from the worst conditions (General Emergencies) on the left to the relatively less severe conditions on the right (Unusual Events). Evaluating conditions from left to right will reduce the possibility that an event will be under classified. All Recognition Categories should be reviewed for applicability prior to classification.
The Initiating Conditions are coded with a two letter and one number code. The first letter is the Recognition Category designator, the second letter is the Classification Level, "U" for (NOTIFICATION OF) UNHSUAL EVENT, "A" for ALERT, "S" for SITE AREA EMERGENCY and "G" for GENERAL EMERGENCY.
The EAL number is a sequential number for that Recognition Category series. All ICs that are describing the severity of a common condition (series) will have the same number.
The EAL number may then be used to reference a corresponding page(s), which provides the basis information pertaining to the IC:
EAL Mode Applicability Basis Classification is not to be made without referencing, comparing and satisfying the specified Emergency Action Levels.
A list of definitions is provided as part of this document for terms having specific meaning to the EALs. Site specific definitions are provided for terms with the intent to be used for a particular IC/EAL and may not be applicable to other uses of that term at other sites, the Emergency Plan or procedures.
References are also included to documents that were used to develop the EALs ..
References to the Emergency Director means the person in Command and Control as defined in the Emergency Plan. Classification of emergencies is a non-delegable responsibility of Command and Control for the onsite facilities with responsibility assigned to the Shift Emergency Director (Control Room Shift Manager) or the Station Emergency Director (Technical Support Center).
Classification of emergencies remains the responsibility of the applicable onsite facility even after Command and Control is transferred to the Corporate Emergency Director (Emergency Operations Facility) .
January 2016 PBAPS .1-3 EP-AA-1007 Addendum 3(Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex
- Exelon Nuclear Although the majority of the EALs provide very specific thresholds, the Emergency Director must remain alert to events or conditions that lead to the conclusion that
- exceeding the EAL is IMMINENT. If, in the judgment of the Emergency Director, an IMMINENT situation is at hand, the classification should be made as if the EAL has been exceeded. While this is particularly prudent at the higher ECL (as the early classification may provide for more effective implementation of protective measures), it is nonetheless applicable to all ECLs.
1.2 Classification, Instrumentation and Transient Events Classifications are based on evaluation of each Unit. All classifications are to be based upon valid indications, reports or conditions. Indications, reports or conditions are considered valid when they are verified by (1) an instrument channel check, or (2) indications on related or redundant indications, or (3) by direct observation by plant personnel, such that doubt related to the indication's operability, the condition's existence, or the report's accuracy is removed. Implicit in this is the need for timely assessment.
Indications used for monitoring and evaluation of plant conditions include the normally used instrumentation, backup or redundant instrumentation, and the use of other parameters that provide information that supports determination if an EAL threshold has been reached. When an EAL refers to a specific instrument or indication that is determined to be inaccurate or unavailable, then alternate indications shall be used to monitor the specified condition .
During an event that results in changing parameters trending towards an EAL classification, and instrumentation that was available to monitor this parameter becomes unavailable or the parameter goes off scale, the parameter should be assumed to have been exceeded consistent with the trend and the classification made if there are no other direct or indirect means available to determine if the EAL has not been exceeded.
The assessment of some EALs is based on the results of analyses that are necessary to ascertain whether a specific EAL has been exceeded (e.g., dose assessments, chemistry sampling, RCS leak rate calculation, etc.); the EAL and/or the associated basis discussion will identify the necessary analysis. In these cases, the 15-minute declaration period starts with the availability of the analysis results that show the EAL to be exceeded (i.e., this is the time that the EAL information is first available).
Planned evolutions involve preplanning to address the limitations imposed by the condition, the performance of required surveillance testing, and the implementation of specific controls prior to knowingly entering the condition in accordance with the specific requirements of the site's Technical Specifications. Activities which cause the site to operate beyond that allowed by the site's Technical Specifications, planned or unplanned, may result in an EAL being met or exceeded. Planned
- evolutions to test, manipulate, repair, perform maintenance or modifications to systems and equipment that result in an EAL being met or exceeded are not subject to classification and activation requirements as long as the evolution proceeds as planned and is within the operational limitations imposed by the January 2016 PBAPS 1-4 EP-AA-1007 Addendum 3(Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear specific operating license. However, these conditions may be subject to the reporting requirements of 10 CFR 50.72.
When two or more EALs are determined, declaration will be made on the highest classification level for the Unit. When both units are affected, the highest classification for the Station will be used for notification purposes and both Units' ECLs will be noted.
Concerning ECL Downgrading, Exelon Nuclear policy is that ECLs shall not be downgraded to a lower classification. Once declared, the event shall remain in effect until no Classification is warranted or until such time as conditions warrant classification to Recovery.
There may be cases in which a plant condition that exceeded an EAL was not recognized at the time of occurrence but is identified well after the condition has occurred (e.g., as a result of routine log or record review), and the condition no longer exists. In these cases, an emergency should not be declared. Reporting requirements of 10 CFR 50.72 are applicable, the guidance of NUREG-1022, Event Reporting Guidelines 10 CFR 50. 72 and 50. 73 and the Reportability Reference Manual, should be applied.
1.3 Mode Applicability The plant-operating mode that existed at the time that the event occurred, prior to any protective system or operator action initiated in response to the condition, is compared to the mode applicability of the EALs. If an event occurs, and a lower or higher plant-operating mode is reached before the emergency classification can be made, the declaration shall be based on the mode that existed at the time the event occurred.
For events that occur in Cold Shutdown or Refueling, escalation is via EALs that have Cold Shutdown or Refueling for mode applicability, even if Hot Shutdown (or a higher mode) is entered during any subsequent heat-up. In particular, the Fission Product Barrier Matrix EALs are applicable only to events that initiate in Hot Shutdown or higher.
If there is a change in Mode following an event declaration, any subsequent events involving EALs outside of the current declaration escalation path will be evaluated on the Mode of the plant at the time the subsequent events occur.
1.4 Emergency Director Judgment Emergency Director (ED) Judgment EALs are provided in the Hazards and Other Condition Affecting Plant Safety section and on the Fission Product Barrier (FPB)
Matrix. Both of the ED Judgment EALs have specific criteria for when they should be applied.
The Hazards Section ED Judgment EALs are intended to address unanticipated conditions which are not addressed explicitly by other EALs but warrant
\
declaration of an emergency because conditions exist which are believed by the ED to fall under specific emergency classifications (UE, Alert, SAE or GE).
- January 2016 PBAPS 1-5 EP-AA-1007 Addendum 3(Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear The FPB Matrix ED Judgment EALs are intended to include unanticipated conditions, which are not addressed explicitly by any of the other FPB threshold
- 1.5 values, but warrant determination because conditions exist that fall under the broader definition for a significant Loss or Potential Loss of the barrier (equal to or greater than the defined FPB threshold values).
Fission Product Barrier (FPB) Threshold A fission product barrier threshold is a pre-determined, site-specific, observable threshold indicating the loss or potential loss of a fission product barrier.
FPB thresholds represent threats to the defense in depth design concept that precludes the release of radioactive fission products to the environment. This concept relies on multiple physical barriers, any one of which, if maintained intact, precludes the release of significant amounts of radioactive fission products to the environment. The primary FPBs are:
- Fuel Clad (FC)
- Containment (CT)
Upon determination that one or more FPB thresholds have been exceeded, the combination of barrier loss and/or potential loss thresholds is compared to the FPB IC/EAL criteria to determine the appropriate ECL.
- In some accident sequences, the ICs and EALs presented in the Abnormal Radiation Levels/ Radiological Effluent (R) Recognition Category will be exceeded at the same time, or shortly after, the loss of one or more fission product barriers.
This redundancy is intentional as the former ICs address radioactivity releases that result in certain offsite doses from whatever cause, including events that might not be fully encompassed by fission product barriers (e.g., spent fuel pool accidents, design containment leakage following a LOCA, etc.).
1.6 Fission Product Barrier Restoration Fission Product Barriers are not treated the same as EAL threshold values.
Conditions warranting declaration of the loss or potential loss of a FPB may occur resulting in a specific classification. The condition that caused the loss or potential loss declaration could be rectified as the result of Operator action, automatic actions, or designed plant response. Barriers will be considered re-established when there are direct verifiable indications (containment penetration or open valve has been isolated, coolant sample results, etc) that the barrier has been restored and is capable of mitigating future events.
The reestablishment of a FPB does not alter or lower the existing classification.
Termination and entry into RECOVERY phase is still required for exiting the present classification. However the reestablishment of the barrier should be considered in determining future classifications should plant conditions or events change.
January 2016 PBAPS 1-6 EP-AA-1007 Addendum 3(Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear 1.7 Definitions
- CONFINEMENT BOUNDARY: The irradiated fuel dry storage cask barrier(s) between areas containing radioactive substances and the environment.
CONTAINMENT CLOSURE: The procedurally defined conditions or actions taken to secure containment (primary or secondary) and its associated structures, systems, and components as a functional barrier to fission product release under shutdown conditions.
EXPLOSION: A rapid, violent and catastrophic failure of a piece of equipment due to combustion, chemical reaction or overpressurization. A release of steam (from high energy lines or components) or an electrical component failure (caused by short circuits, grounding, arcing, etc.) should not automatically be considered an explosion. Such events may require a post-event inspection to determine if the attributes of an explosion are present.
FIRE: Combustion characterized by heat and light. Sources of smoke such as slipping drive belts or overheated electrical equipment do not constitute fire.
Observation of flame is preferred but is NOT required if large quantities of smoke and heat are observed.
FISSION PRODUCT BARRIER (FPB) THRESHOLD: A pre-determined, site-specific, observable threshold indicating the loss or potential loss of a fission product barrier.
- HOSTAGE: A person(s) held as leverage against the station to ensure that demands will be met by the station.
HOSTILE ACTION: An act toward a Nuclear Power Plant (NPP) or its personnel that includes the use of violent force to destroy equipment, take HOSTAGES, and/or intimidate the licensee to achieve an end. This includes attack by air, land, or water using guns, explosives, PROJECTILEs, vehicles, or other devices used to deliver destructive force. Other acts that satisfy the overall intent may be included.
HOSTILE ACTION should not be construed to include acts of civil disobedience or felonious acts that are not part of a concerted attack on the NPP. Non-terrorism-based EALs should be used to address such activities (i.e., this may include violent acts between individuals in the owner controlled area).
HOSTILE FORCE: Any individuals who are engaged in a determined assault, overtly or by stealth and deception, equipped with suitable weapons capable of killing, maiming, or causing destruction.
IMMINENT: The trajectory of events or conditions is such that an EAL will be met within a relatively short period of time regardless of mitigation or corrective actions.
INDEPENDENT SPENT FUEL STORAGE INSTALLATION (ISFSI): A complex that is designed and constructed for the interim storage of spent nuclear fuel and other radioactive materials associated with spent fuel storage .
- NORMAL LEVELS: As applied to radiological IC/EALs, the highest reading in the past twenty-four hours excluding the current peak value.
January 2016 PBAPS 1-7 EP-AA-1007 Addendum 3(Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Ex:elon Nuclear OWNER CONTROLLED AREA (OCA): The property associated with the station and owned by the company. Access is normally limited to persons entering for
- official business .
PROJECTILE: An object directed toward a Nuclear Power Plant (NPP) that could cause concern for its continued operability, reliability, or personnel safety.
PROTECTED AREA: An area that normally encompasses all controlled areas within the security protected area fence.
REFUELING PATHWAY: all the cavities, tubes, canals and pools through which irradiated fuel may be moved or stored, but not including the reactor vessel below the flange.
SAFETY SYSTEM: A system required for safe plant operation, cooling down the plant and/or placing it in the cold shutdown condition, including the ECCS. These are typically systems classified as safety-related.
SECURITY CONDITION: Any Security Event as listed in the approved security contingency plan that constitµtes a threat/compromise to site security, threat/risk to site personnel, or a potential degradation to the level of safety of the plant. A SECURITY CONDITION does not involve a HOSTILE ACTION.
UNISOLABLE: An open or breached system line that cannot be isolated, remotely or locally .
- UNPLANNED: A parameter change or an event that is not 1) the result of an intended evolution or 2) an expected plant response to a transient. The cause of the parameter change or event may be known or unknown.
VISIBLE DAMAGE: Damage to a component or structure that is readily observable without measurements, testing, or analysis. The visual impact of the damage is sufficient to cause concern regarding the operability or reliability of the affected component or structure .
- January 2016 PBAPS 1-8 EP-AA-1007 Addendum 3(Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear Emergency Action Level Technical Basis Page Index Gei1leral Site Area Alert Unusual Event
- EAL RG1 RG2 FG1 Pg.
2-25 2-35 2-46 EAL RS1 RS2 FS1 Pg.
2-27 2-36 2-47 EAL RA1 RA2 RA3 Pg.
2-29 2-37 2-42 2-48 EAL RU1 RU2 RU3 Pg.
2-32 2-40 2-45 FA1 Fuel Clad RCS Containment FC1 2-49 FC2 2-50 RC2 2-54 CT2 2-61 RC3 2-56 CT3 2-62 RC4 2-57 FC5 2-52 RC5 2-59 CT5 2-64 CT6 2-65 FC7 2-53 RC? 2-60 CT? 2-68 MG1 2-69 MS1 2-71 MA1 2-73 MU1 2-75 MG2 2-76 MS2 2-78 MS3 2-79 MA3 2-81 MU3 2-83 MA4 2-86 MU4 2-88 MA5 2-90 MU6 2-92 MU? 2-94 CA1 2-96 CU1 2-98 CA2 2-100 CU3 2-103 CU4 2-105 CA5 2-107 CU5 2-109 CG6 2-111 CS6 2-115 CA6 2-118 CU6 2-120 HG1 2-123 HS1 2-125 HA1 2-127 HU1 2-130 HS2 2-132 HA2 2-134 HU3 2-135 HU4 2-139 HA5 2-141 HU6 2-144 HG? 2-147 HS? 2-148 HA? 2-149 HU? 2-150 E-HU1 2-151
Peach Bottom Atomic Power Station Annex TABLE PBAPS 2 1 E f L I EAL Mt.
HOT MATRIX Exelon Confidential/Proprietary HOT MATRIX
- Exelon Nuclear GENERAL EMERGENCY SITE AREA EMERGENCY ALERT Abnormal Rad Levels I Radiological Effluents RG1 Release of gaseous radioactivity IIJ[g]@][1]ffi][g RS1 Release of gaseous radioactivity ij][g]@]l1Jffil[g RA1 Release of gaseous or liquid IIJ[g]@][1]ffi][g RU1 Any release of gaseous or liquid ij](g]@][1]ffi][g resulting in offsite dose greater than 1,000 mRem TEDE resulting in offsite dose greater than 100 mRem TEDE radioactivity resulting in offsite dose greater than radioactivity to the environment greater than or 5,000 mRem thyroid CDE. or 500 mRem thyroid CDE.
Emergency Action Level !EAL!:
Emergency Action Level (EAL): Emergency Action Level !EAL!: Emergency Action Level !EAL!:
Notes:
Notes: Notes: Notes:
- The Emergency Director should declare the event promptly
- The Emergency Director should declare the event promptly
- The Emergency Director should declare the event
- The Emergency Director should declare the event upon determining that the applicable time has been upon determining that the applicable time has been promptly upon determining that the applicable time has promptly upon determining that the applicable time has exceeded, or will likely be exceeded.
exceeded, or will likely be exceeded. been exceeded, or will likely be exceeded. been exceeded, or will likely be exceeded.
- If an ongoing release is detected and the release start time
- If an ongoing release is detected and the release start time
- If an ongoing release is detected and the release start
- If an ongoing release is detected and the release start is unknown, assume that the release duration has is unknown, assume that the release duration has time is unknown, assume that the release duration has time is unknown, assume that the release duration has exceeded 15 minutes.
exceeded 15 minutes. exceeded 15 minutes. exceeded 60 minutes.
- Classification based on effluent monitor readings assumes
- Classification based on effluent monitor readings assumes
- Classification based on effluent monitor readings assumes
- Classification based on effluent monitor readings assumes that a release path to the environment is established. If the that a release path to the environment is established. If the that a release path to the environment is established. If that a release path to the environment is established. If effluent flow past an effluent monitor is known to have effluent flow past an effluent monitor is known to have the effluent flow past an effluent monitor is known to have the effluent flow past an effluent monitor is known to have stopped due to actions to isolate the release path, then the stopped due to actions to isolate the release path, then the stopped due to actions to isolate the release path, then stopped due to actions to isolate the release path, then effluent monitor reading is no longer valid for classification effluent monitor reading is no longer valid for classification the effluent monitor reading is no longer valid for the effluent monitor reading is no longer valid for
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c: purposes.
purposes.
classification purposes. classification purposes.
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- The pre-calculated effluent monitor values presented in
- The pre-calculated effluent monitor values presented in
- The pre-calculated effluent monitor values presented in
assessments until dose assessment results are available.
assessments until dose assessment results are available.
- 1. Reading on ANY of the following effluent monitors > 2 w times alarm setpoint established by a current radioactive
'iii 1. 1. Readings on ANY Table R1 Effluent Monitor release discharge permit for~ 60 minutes.
u Readings on ANY Table R1 Effluent Monitor 1. Readings on ANY Table R1 Effluent Monitor> Table R1 value
> Table R1value for?. 15 minutes.
- Radwaste Discharge Effluent Monitor (Rl-0-17-350)
"Ci > Table R1 value for> 15 minutes. for> 15 minutes.
- 2. Dose assessment using actual meteorology indicates doses at 0 2. Dose assessment Using actual meteorology indicates doses at or beyond the site boundary of EITHER: 2. Dose assessment using actual meteorology indicates doses at
- Discharge Permit specified monitor
=sns or beyond the site boundary of EITHER:
- a. > 1000 mRem TEOE
- 2. Readings on ANY Table R1 Effluent Monitor> Table R1 value
- b. > 500 mRem COE Thyroid for?, 60 minutes:
- 3. Field survey results at or beyond the site boundary indicate
- 3. Field survey results at or beyond the site boundary indicate EITHER'. 3. Analysis of a liquid effluent sample indicates a concentration 3. Confirmed sample analyses for gaseous or liquid releases EITHER: or release rate that would result in doses greater than indicate concentrations or release rates
- a. Gamma (closed window) dose rates
- a. Gamma (closed window) dose rates EITHER of the following at or beyond the site boundary > 2 times ODCM Limit with a release duration of
>100 mRem are expected to continue for
>1000 mRem are expected to continue for a. 10 mRem TEDE for60 minutes of exposure ?. 60 minutes.
?. 60 minutes.
> 60 minutes. OR OR OR b. Analyses offield survey samples indicate b. 50 mRem CDE Thyroid for 60 minutes of
- b. Analyses of field survey samples indicate exposure
> 500 mRem COE Thyroid for 60 minutes of
> 5000 mRem COE Thyroid for 60 minutes of 4. Field survey results at or beyond the site boundary indicate inhalation.
inhalation. EITHER:
- a. Gamma (closed window) dose rates
> 1o mR/hr are expected to continue for
.::, 60 minutes.
- b. Analyses of field survey samples indicate
> 50 mRem COE Thyroid for 60 minutes of inhalation.
Modes: 1 - Power Operation 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refuellng D-Defueled Table R1 Effluent Monitor Thresholds Site Area Emergency Alert Release Path Unusual Event Release Path General Emergency Main Stack (Rl-0-17-0508 Common) 5.57 E+09 uCi/sec 5.57 E+08 uCi/sec 5.57 E+07 uCi/sec Main Stack (Rl-0-17-050A/8 Common) 6.36 E+05 uCi/sec Vent Stack (Rl-29798 Unit 2 or RI- 1.60 E+08 uCi/sec 1.60 E+07 uCi/sec 1.60 E+06 uCi/sec Vent Stack (Rl-2979A/8 Unit 2 or Rl- 1.82 E+04 39798 Unit 3 3979A/8 Unit 3 uCi/sec January 2016 HOT MATRIX PBAPS 2-1 HOT MATRIX EP-AA-1007 Addendum 3 (Rev 3)
Peach Bottom Atomic Power Station Annex TABLE PBAPS 2-1 Erner enc action Level EAL Matrix HOT MATRIX Exelon Confidential/Proprietary HOT MATRIX
- Exelon Nuclear Abnormal Rad Levels I Radiological Effluents RG2 Spent fuel pool level cannot be ITI~@l@l@l[g RS2 Spent fuel pool level at ITI~@l@l@l[g RA2 Significant lowering of water ITI~@l@.1((]19 RU2 Unplanned loss of water level restored to at least 1.00 ft as indicated on Ll(2)3- 1.00 ft as indicated on Ll(2)3-19-001A(B). level above, or damage to, irradiated fuel. above irradiated fuel .
19-001A(B) for 60 minutes or longer.
Emergency Action Level IEALI: Emergency Action Level !EAL):
Emergency Action Levels !EAL): Emergency Action Level !EAL):
Note: The Emergency Director should declare the Lowering of spent fuel pool level to 1.00 ft as indicated on 1. Uncovery of irradiated fuel in the REFUELING 1. UNPLANNED water level drop in the reactor General Emergency promptly upon determining Ll-(2)3-19-001A(B) (equivalent to approximately 211' 6" PATHWAY. Refueling Cavity, Spent Fuel Pool or Fuel Transfer that the applicable time has been exceeded. or will elevation). OR Canal as indicated by:
likely be exceeded. 2. Damage to irradiated fuel resulting in a release of radioactivity from the fuel as indicated by ANY
- Refueling Cavity water level < 458 inches Spent fuel pool level cannot be restored to at least 1.00 ft Table R2 Radiation Monitor reading on Shutdown/Refuel Range indicator Ll-
>1000 mRem/hr 2(3)-2-3-86 or PR/FR-2(3)-06-097.
as indicated on Ll-(2)3-19-001A(B) (equivalent to approximately 211' 6" elevation) for 60 minutes or longer. OR OR
- 3. Lowering of spent fuel pool level to 10.00 ft as
- Spent Fuel Pool level < 232 feet 3 inches indicated on Ll-(2)3-19-001A(B) (equivalent to plant elevation.
approximately 220' 6" elevation). OR
- Indication or report of a drop in water level in the REFUELING PATHWAY.
AND
- 2. UNPLANNED Area Radiation Monitor reading rise on ANY radiation monitor in Table R2.
RA3 Radiation levels that impede ITI~@l@.1((]19 RU3 Reactor coolant activity greater !TI~~
Table R2 access to equipment necessary for normal plant than Technical Specification allowable limits.
Refuel Floor ARM's operations, cooldown or shutdown.
Table R3 Areas Requiring Continuous Occupancy Emergency Action Level !EAL):
Emergency Action Level IEALI:
Steam Separator Pool, 234 ELEV, 3.7 (7.9) Note: If the equipment in the listed room or area was
- Main Control Room already inoperable, or out of service, before the 1 Air Ejector discharge radiation monitor RIS-2(3) Refuel Slot, 234 ELEV, 3.8 (7.10) event occurred, then no emergency classification is 150 NB HI-HI alarm.
- Central Alarm Station - (by survey) warranted OR Fuel Pool, 234 ELEV, 3.9 (7.11)
- 1. Dose rate > 15 mR/hr in ANY of the areas 2. Specific coolant activity > 4.0 uCl/gm Dose Refueling Bridge, 234 ELEV, 3.10 (7.12) contained in Table R3. equivalent 1-131.
- 2. An UNPLANNED event results in radiation levels that prohibit or significantly impede access to any Table R4 of the areas contained in Table R4.
Areas with Entry Related Mode Applicability Entry Related Area of concern Mode Aoolicabilitv Reactor Building Modes 3, 4 135' all areas and 5 Modes: 1 - Power Operation 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refuehng D-Defueled January 2016 HOT MATRIX PBAPS 2-2 HOT MATRIX EP-M-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary HOT MATRIX Exelon Nuclear ANY Loss or ANY Potential Loss of either Fuel Clad or RCS.
FC - Fuel Clad CT - Containment Loss Potential Loss Loss Loss Potential Loss Coolant activity > 300 uCi/gm
- 1. RCS Activity None None None None None Dose E uivalent 1-131 2 RPV level cannot be restored 1. RPV level cannot be restored and
- 1. Plant conditions indicate that *
- 2. RPVWater and maintained > - 172 inches. maintained > -172 inches. Plant conditions indicate that Primary Primary Containment None None Level OR OR Containment Flooding is required.
Flooding is required.
- 3. Drywell pressure ~ 56 psig
- 3. Primary 1. Drywell pressure> 2.0 psig. concentration > 6%.
primary containment pressure Containment AND rise. AND None None None Pressure/ 2. Drywell pressure rise due to RCS b. Drywell or Torus oxygen Conditions leakage. OR concentration > 5%.
- 2. Drywell pressure response not OR consistent with LOCA conditions. 5. Heat Capacity Limit (T-102 Curve T/T-1 or T/T-2 exceeded.
- 3. UNISOLABLE primary system leakage that results in EITHER of
- 1. UNISOLABLE Main Steam Line the following::
(MSL), HPCI, Feedwater, RWCU a. Secondary Containment area
- 4. RCS Leak or RCIC line break. temperatures> T-103 Alarm None None None None Rate OR Setpoint OR 2 Emergency RPV Depressurization
- b. Secondary Containment area is required.
radiation level > T-103 Alarm Set oint.
- 5. Primary Drywell radiation monitor reading Drywell Radiation monitor reading Drywell radiation monitor reading Containment None None None
> 9.55E+02 R/hr. > 100 R/hr. > 2.20 E+03 R/hr.
Radiation
- 1. UNISOLABLE direct downstream pathway to the environment exists after primary containment isolation signal.
- 2. Intentional Primary Containment venting/purging per EOP's or SAMPs due to accident
- 6. Primary conditions.
Containment None None None None OR None Isolation
- 3. UNISOLABLE primary system Failure leakage that results in EITHER:
- Secondary Containment area temperatures > T-103 Action Level.
- Secondary Containment area radiation levels > T-103 Action Level.
- 1. Any condition in the opinion of the 2. Any condition in the opinion of the 1. Any condition in the opinion of the 2. Any condition in the opinion of the 1. Any condition in the opinion of the 2. Any condition in the opinion of the
- 7. ED Judgment Emergency Director that indicates Emergency Director that indicates Emergency Director that indicates Loss Emergency Director that indicates Emergency Director that indicates Loss Emergency Director that indicates Potenti Loss of the Fuel Clad Barrier. Potential Loss of the Fuel Clad Barrier. of the RCS Barrier. Potential Loss of the RCS Barrier. of the Containment Barrier. Loss of the Containment Barrier.
Modes: 1 - Power Operation 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5 - Refueling D-Defueled January 2016 HOT MATRIX PBAPS 2-3 HOT MATRIX EP-AA-1007 Addendum 3 (Rev 3)
Peach Bottom Atomic Power Station Annex GENERAL EMERGENCY HOT MATRIX SITE AREA EMERGENCY Exelon Confidential/Proprietary ALERT HOT MATRIX Exelon Nuclear System Malfunction MG1 Prolonged loss of all offsite IIJ~~ MS1 Loss of all Off-site and On-Site IIJ~~ MA1 Loss of all but one AC power MU1 Loss of all offsite AC power and all onsite AC power to emergency buses. AC power to emergency buses for 15 minutes or source to emergency buses for 15 minutes or capability to emergency buses for 15 minutes or longer. longer. longer.
Emergency Action Level !EAL):
Emergency Action Level !EAL): Emergency Action Level !EAL): Emergency Action Level !EAL):
Note: The Emergency Director should declare the event Note: The Emergency Director should declare the event Note: The Emergency Director should declare the event Note: The Emergency Director should declare the event promptly upon determining that the applicable time has promptly upon determining that the applicable time promptly upon determining that the applicable time promptly upon determining that the applicable time been exceeded, or will likely be exceeded. has been exceeded, or will likely be exceeded. has been exceeded, or will likely be exceeded.
has been exceeded, or will likely be exceeded.
- 11. 1 Loss of ALL offsite AC power to unit 4 KV Safeguards 1. AC power capability to unit 4KV Safeguards Buses
(.) Buses. reduced to only one of the following power sources for=:, Loss of ALL offsite AC power capability to unit 4KV c( 1. Loss of ALL offsite AC Power to unit 4KV Safeguards AND Buses. 15 minutes. Safeguards Buses for =:15 minutes.
'O 2. Failure of E1, E2, E3, and E4 Emergency Diesel
- 2 Emergency Auxiliary Transformer (OAX04) en AND Generators to supply power to unit 4KV Safeguards Buses .
.3 AND
- 2. Failure of E1, E2, E3, and E4 Emergency Diesel Generators to supply power to unit 4KV Safeguards 3 Emergency Auxiliary Transformer (OBX04)
E1 Diesel Generator
- 3. EITHER of the following: Buses.
- E2 Diesel Generator
- a. Restoration of at least one unit 4KV safeguards Bus AND in< 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> is fill! likely.
- E3 Diesel Generator
- 3. Failure to restore power to at least one unit 4KV OR Safeguards bus in< 15 minutes from the time of loss of
- E4 Diesel Generator both offsite and onsite AC power.
- b. RPV water level cannot be restored and AND maintained > -195 inches. 2. ANY additional single power source failure will result in a loss of ALL AC power to SAFETY SYSTEMS.
MG2 Loss of all AC and Vital DC power sources MS2 Loss of all Vital DC power for for 15 minutes or longer. 15 minutes or longer.
Emergency Action Level (EAL):
Emergency Action Level !EAL):
Note: The Emergency Director should declare the event Note: The Emergency Director should declare the event
... promptly upon determining that the applicable time has besn exceeded, or will likely be exceeded. promptly upon determining that the applicable time 0
~ 1. Loss of ALL offsite AC power to unit 4KV. safeguards has been exceeded, or will likely be exceeded.
- 11. Buses.
Voltage is <107.5 voe on 125 VDC battery buses
(.)
c AND 2(3)00021, 2(3)00022, 2(3)00023, and 2(3)00024 for
..... 2. Failure of E1, E2, E3, and E4 Emergency Diesel =:15 minutes .
0 en Generators to supply power to unit 4KV Safeguards en Buses.
0
_J AND
- 3. Voltage is< 107.5 VDe on unit 125 VDC battery buses 2(3)00021, 2(3)00022, 2(3)00023, and 2(3)00024.
AND
=: 15 minutes.
Modes: 1 - Power Operation 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refueltng D-Defueled January 2016 HOT MATRIX PBAPS 2-4 HOT MATRIX EP-AA-1007 Addendum 3 (Rev 3)
Peach Bottom Atomic Power Station Annex 21E G~NERALEMERGENCY HOT MATRIX M
SITE AREA EMERGENCY Exelon Confidential/Proprietary ALERT HOT MATRIX UNUSUAL Exelon Nuclear Evi:rw~f'. ,.'t$;* ~r-
'hi*~~~ ~. h~., -~4 System Malfunction MS3 Inability to shutdown the reactor causing !TI~ MA3 Automatic or manual trip fails !TI~ MU3 Automatic or manual trip fails !TI~
a challenge to core cooling or RCS heat removal. to shutdown the reactor, and subsequent to shutdown the reactor.
manual actions taken at the reactor control Emergencl£ Action Level (EAL):
consoles are not successful in shutting down the Emergencl£ Action Level !EAL): Note: A manual action is any operator action, or set of reactor.
- 1. Automatic scram did not shutdown the reactor as actions, which causes the control rods to be rapidly Emergencl£ Action Level (EAL): inserted into the core, and does not include manually indicated by Reactor Power> 4%.
Note: A manual action is any operator action, or set of driving in control rods or implementation of boron AND injection strategies.
actions, which causes the control rods to be rapidly
- 2. ALL manual I ARI actions to shutdown the reactor have inserted into the core, and does not include manually 1. a. Automatic scram did not shutdown the reactor been unsuccessful as indicated by Reactor Power > 4%. driving in control rods or implementation of boron as indicated by Reactor Power > 4%.
I!! injection strategies .
..2 AND AND
'iii 1. Automatic or manual scram did not shutdown the u..
(/)
CL a::
- 3. EITHER of the following conditions exist:
RPV water level cannot be restored and maintained
> -195 inches reactor as indicated by Reactor Power> 4%.
AND
- b. Subsequent manual I ARI action taken at the OR Reactor Console is successful in shutting down the reactor.
- 2. Manual I ARI actions taken at the Reactor Console are
. OR Heat Capacity Limit (T-102 Curve TfT-1 or TfT-2) exceeded.
not successful in shutting down the reactor as indicated by Reactor Power > 4%.
- 2. a. Manual scram did not shutdown the reactor as indicated by Reactor Power > 4%.
AND
- b. EITHER of the following:
- 1. Subsequent manual I ARI action taken at the Reactor Console is successful in shutting down the reactor.
MA4 UNPLANNED loss of Control Room !TI~~ MU4 UNPLANNED loss of Control Room !TI~~
indications for 15 minutes or longer with a significant indications for 15 minutes or longer.
Ill transient in progress.
c:
0 Emergencl£ Action Level (EAL): Emergencl£ Action Level !EAL):
Table M2 Significant Transients
~ Table M1 Control Room Parameters u
'6
.5 .. Reactor Power Automatic or Manual Runback >25% thermal reactor power Note: The Emergency Director should declare the event promptly upon determining that the applicable time Note: The Emergency Director should declare the event promptly upon determining that the applicable time E
0 .. RPV Water Level RPV Pressure Electrical Load Rejection >25% full electrical load Reactor Scram has been exceeded, or will likely be exceeded. has been exceeded, or will likely be exceeded.
0 a::
Primary Containment Pressure ECCS Actuation
- 1. An UNPLANNED event results in the inability to monitor ANY Table M1 parameters from within the Control An UNPLANNED event results in the inability to monitor ANY Table M1 parameters from within the Control Room
-e 0
c:
0 Torus Level Torus Temperature Thermal Power oscillations > 10% Room for:::, 15 minutes.
AND
- 2. Any Table M2 transient in progress.
for:::, 15 minutes.
Modes: 1 - Power Oper~tion 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refuehng D-Defueled January 2016 HOT MATRIX PBAPS 2-5 HOT MATRIX EP-AA-1007 Addendum 3 (Rev 3)
Peach Bottom Atomic Power Station Annex GENERAL EMERGENCY HOT MATRIX Exelon Confidential/Proprietary HOT MATRIX Exelon Nuclear System Malfunction MAS Hazardous event affecting a BJ~~
SAFETY SYSTEM required for the current operating mode.
EmergencJl Action Level {EAL}:
Note: If it is determined that the conditions of MA5 are not met then assess the event via HU3, HU4, or HU6.
- 1. The occurrence of ANY of the following hazardous events:
Seismic event (earthquake)
.. Internal or external flooding event High winds or tornado strike
...E Q) FIRE
!/) EXPLOSION
>. Other events with similar hazard characteristics
"'.S!.a- AND as determined by the Shift Manager 111 2. EITHER of the following:
"'J!l (J
- a. Event damage has caused indications of degraded performance in at least one train of a SAFETY SYSTEM required by Technical
~111 Specifications for the current operating mode.
'E b. The event has caused VISIBLE DAMAGE to a 111 N SAFETY SYSTEM component or structure 111 J: required by Technical Specifications for the current operating mode.
MUS RCS leakage for 15 minutes BJ~~
or longer.
EmergencJl Action Level {EAL}:
Note: The Emergency Director should declare the event
~ promptly upon determining that the applicable time 111 has been exceeded, or will likely be exceeded.
Q)
_J
"'a:
(..)
- 1. RCS unidentified or pressure boundary leakage in the Drywell > 10 gpm for:: 15 minutes OR
- 2. RCS identified leakage in the Drywell >25 gpm tor
- 15 minutes OR
- 3. Leakage from the RCS to a location outside the Drywell >25 gpm for;:: 15 minutes Modes: 1 - Power Operatron 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refuehng 0-Defueled January 2016 HOT MATRIX PBAPS2-6 HOT MATRIX EP-AA-1007 Addendum 3 (Rev 3)
Peach Bottom Atomic Power Station Annex HOT MATRIX Exelon Confidential/Proprietary HOT MATRIX l
Exelon Nuclear
- ~rlllfJ~~~:*~~ . ,,.~ '#
GENERAL EMERGENCY SITE AREA EMERGENCY ALERT UN~SUAL EY~.t:,
System Malfunction Table M3 Communications Caoabilitv MU7 Loss of all On-site or Off-site ITJ~~
communication capabilities.
Svstem On site Offsite NRC rn c: Station Radio x Emergenc:I:'. Action Level {EAL}:
0 Svstem 1. Loss of ALL Table M3 Onsite communications 111
(,)
Plant Public x capability affecting the ability to perform routine
- c: Address (PA) operations.
- J E
OMNI Svstem x x OR E Station Phones x x x 2. Loss of ALL Table M3 Offsite communication 0
0 Satellite Phones x x capability affecting the ability to perform offsite notifications.
NARS x OR HPN x x 3. Loss of ALL Table M3 NRC communication ENS x x capability affecting the ability to perform NRG notifications.
Modes: 1 - Power Operation 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refuehng D-Defueled January 2016 HOT MATRIX PBAPS 2-7 HOT MATRIX EP-AA-1007 Addendum 3 (Rev 3)
Peach Bottom Atomic Power Station Annex GENERAL EMERGENCY HOT MATRIX SITE AREA EMERGENCY Exelon Confidential/Proprietary ALERT HOT MATRIX Exelon Nuclear Hazards and Other conditions Affecting Plant Safety HA1 HOSTILE ACTION within the \!J~l3ll4ll5 llo HU1 Confirmed SECURITY CONDITION \!J~l3114115 llD HG1 HOSTILE ACTION resulting in loss II]~@j@J((j[g HS1 HOSTILE ACTION within the OWNER CONTROLLED AREA or airborne attack or threat.
of physical control of the facility PROTECTED AREA threat within 30 minutes.
Emergency Action Level !EAL!: Emergency Action Level !EAL): Emergency Action Level IEALI:
Emergency Action Level !EAL}:
- 1. A notification from the Security Force that a HOSTILE 1. A validated notification from NRC of an aircraft 1. Notification of a credible security threat directed at the A notification from the Security Force that a HOSTILE site as determined per SY-AA-101-132, Security ACTION is occurring or has occurred within the attack threat< 30 minutes from the site.
ACTION is occurring or has occurred within the Assessment and Response to Unusual Activities.
PROTECTED AREA.
- 2. Notification by the Security Force that a HOSTILE 2. A validated notification from the NRC providing
- 2. a. ANY Table H1 safety function cannot be information of an aircraft threat.
ACTION is occurring or has occurred within the controlled or maintained. OWNER CONTROLED AREA. OR OR 3. Notification by the Security Force of a SECURITY
- b. Damage to spent fuel has occurred or is CONDITION that does not involve a HOSTILE IMMINENT ACTION. -
HS2 Inability to control a key safety IIJ~@]@]((][g HA2 Control Room evacuation resulting IIJ~@]@]((][g function from outside the Control Room in transfer of plant control to alternate locations Table H1 Safety Functions Emergency Action Level !EAL!: Emergency Action Level !EAL!:
- Reactivity Control Note: The Emergency Director should declare the event An event has resulted in plant control being transferred from gc (ability to shutdown the reactor and keep it shutdown) promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
the Control Room to alternate locations per:
- SE-1, Plant Shutdown from the Remote 0
- RPV Water Level (ability to cool the core) 1. An event has resulted in plant control being transferred Shutdown Panel
(.)
from the Control Room to alternate locations per: OR ccu
- RCS Heat Removal (ability to maintain a heatsink)
- SE-1, Plant Shutdown from the Remote
- SE-10, Plant Shutdown from the Alternative ii: Shutdown Panel Shutdown Panels 0..
J!!rn
~
AND
- 2. Control of ANY Table H1 key safety function is not reestablished in < 15 minutes.
Modes: 1 - Power Operation 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5- Refueling D-Defueled January 2016 HOT MATRIX PBAPS 2-8 HOT MATRIX EP-AA-1007 Addendum 3 (Rev 3)
PeachBottomAtomicPowerStationAnnex GENERAL EMERGENCY Exelon Confidential/Proprietary HOTMAT~R~l~X'--~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~H~O~T...__.M~A~T~R~l~X,__~~---'E~x~e~l~o,...n~N~u~c~le~a,...r SITE AREA EMERGENCY ALERT Hazards and Other conditions Affecting Plant Safety HU3 FIRE potentially degrading the level l1 ll2ll3ll4ll5l[!::j of safety of the plant.
Emergency Action Level (EAL):
Note: The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
Escalation of the emergency classification level would be via IC CKl. or MAS
- 1. A FIRE in ANY Table H2 area is not extinguished in
- 15-minutes of ANY of the following FIRE detection
. Table H2 Vital Areas Reactor Building indications:
- Report from the field (i.e., visual observation)
~
.. (when inerted the Drywell is exempt)
Control Room Receipt of multiple (more than 1) fire alarms or indications Field verification of a single fire alarm u:::
.. Diesel Generator Building Emergency Pump Structure 2.
- a. Receipt of a single fire alarm in ANY Table H2 area
.. Inner Screen Structure Emergency Cooling Tower (i.e., no other indications of a FIRE).
AND
. Emergency Switchgear/Battery Rooms Cable Spread Room
- b. The existence of a FIRE is not verified in < 30 minutes of alarm receipt. -
- 3. A FIRE within the plant PROTECTED AREA or ISFSI PROTECTED AREA not extinguished in :S GO-minutes of the initial report, alarm or indication.
- 4. A FIRE within the plant PROTECTED AREA or ISFSI PROTECTED AREA that requires firefighting support by an offsite fire response agency to extinguish.
Modes: 1 - Power Operation 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refuehng D- Defueled January 2016 HOT MATRIX PBAPS 2-9 HOT MATRIX EP-AA-1007 Addendum 3 (Rev 3)
Peach Bottom Atomic Power Station Annex HOT MATRIX
- I Exelon Confidential/Proprietary HOT MATRIX I
Exelon Nuclear
~ "~~ ....
GENERAL EMERGENCY SITE AREA EMERGENCY ALERT UNUSUAL EVE i **- *.:~~*
_,, - ~~~#~l~;'" "~
Hazards and Other conditions Affecting Plant Safety HU4 Seismic event greater than OBE levels DJ~~@]ffil(g Emergencll Action Level {EAL}:
Note: Escalation of the emergency classification level would be via IC CA2 or MAS For emergency classification if EAL 2.b is not able lo be confirmed, then the occurrence of a seismic event is confirmed in manner deemed appropriate by the Shift Manager or Emergency Director in !:: 15 mins of the event.
- 1. Seismic event> Operating Basis Earthquake (QBE) as indicated by the Alarm on Panel 316 A-5."0PERATING BASIS EARTHQUAKE EXCEEDED" Q) OR
""<ti
- I C"
- 2. When Seismic Monitoring Equipment is not available:
.c a. Control Room personnel feel an actual or potential t::: seismic event.
<ti w AND
- b. ANY one of the following confirmed in !:: 15 mins of the event:
- The earthquake resulted in Modified Mercalli Intensity (MMI) ~VI and occurred!:: 3.5 miles of the plant.
- The earthquake was magnitude ~ 6.0
- The earthquake was magnitude ~ 5.0 and occurred
!:: 125 miles of the plant.
Modes: 1 - Power Operation 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refuehng D
- Defueled January 2016 HOT MATRIX PBAPS 2-10 HOT MATRIX EP-AA-1007 Addendum 3 (Rev 3)
Peach Bottom Atomic Power Station Annex Exelon Confidential/Proprietary HOTMAT~R~l~X~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~H~O~T~M~A=T~R~IX~~~~E=x=e~lo=n~N~uc=l~ea=r
- EVE~~:~'** - ~*
~
GENERAL EMERGENCY SITE AREA EMERGENCY ALERT UNUSUAL
- -~-t" ***!J!t'J ~ ...
Hazards and Other conditions Affecting Plant Safety Table H3 HAS Gaseous release impeding [)~@]@][§ access to equipment necessary for normal plant Areas with Entry Related Mode Applicability operations, cooldown or shutdown.
Entry Related Mode Area of concern Applicability Emergency Action Level !EAL):
Reactor Building Modes 3, 4 and 5 Note: If the equipment in the listed room or area was 135' all areas tn Control Room Modes 1, 2, 3, 4, and 5 already inoperable, or out of service, before the ns event occurred, then no emergency classification c:> is warranted.
u
'j(
0 1. Release of a toxic, corrosive, asphyxiant or I- flammable gas in ANY Table H3 area.
AND
- 2. Entry into the room or area is prohibited or impeded HUS Hazardous Event L!J@@J~~l9 EmergencJl Action Level (EALl:
Nole: EAL #4 does not apply to routine traffic impediments such as fog, snow, ice, or vehicle breakdowns or accidents.
Escalation of the emergency classification level c:
- 1. Tornado strike within the PROTECTED AREA.
w> OR
- 2. Internal room or area flooding of a magnitude sufficient to tn
- J require manual or automatic electrical isolation of a 0
'O ns N
SAFETY SYSTEM component required by Technical Specifications for the current operating mode.
OR ns 3. Movement of personnel within the PROTECTED AREA is
- I:
impeded due to an offsite event involving hazardous materials (e.g., an offsite chemical spill or toxic gas release).
- 4. A hazardous event that results in on-site conditions sufficient to prohibit the plant staff from accessing the site via personal vehicles.
- 5. Abnormal River level, as indicated by EITHER:
> 112 fl. (high level)
Modes: 1 - Power Operation 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refuehng D-Defueled
. OR
< 98.5 fl. (low level)
January 2016 HOT MATRIX PBAPS 2-11 HOT MATRIX EP-AA-1007 Addendum 3 (Rev 3)
LE P Peach Bottom Atomic Power Station Annex GENERAL EMERGENCY HOT MATRIX SITE AREA EMERGENCY Exelon Confidential/Proprietary ALERT HOT MATRIX Exelon Nuclear Hazards and Other conditions Affecting Plant Safety HG7 Other conditions exist which in the ff]~@l@]@l[g HS7 Other conditions exist which in the ff]~@l@]@l[g HA7 Other conditions exist which in the ff]~@l@]@l[g HU7 Other conditions exist which in the ff]~@l@]@l[g judgment of the Emergency Director warrant judgment of the Emergency Director warrant judgment of the Emergency Director warrant judgment of the Emergency Director warrant declaration of a GENERAL EMERGENCY. declaration of a SITE AREA EMERGENCY. declaration of an ALERT. declaration of an UNUSUAL EVENT.
Emergency Action Level (EAL): Emergency Action Level (EAL): Emergency Action Level !EAL): Emergency Action Level (EAL!:
Other conditions exist which in the judgment of the Other conditions exist which in the judgment of the Other conditions exist which, in the judgment of the Other conditions exist which in the judgment of the Emergency Emergency Director indicate that events are in progress or Emergency Director indicate that events are in progress or Emergency Director, indicate that events are in progress or Director indicate that events are in progress or have occurred have occurred which involve actual or IMMINENT substantial have occurred which involve actual or likely major failures of have occurred which involve an actual or potential which indicate a potential degradation of the level of safety of core degradation or melting with potential for loss of plant functions needed for protection of the public or HOSTILE substantial degradation of the level of safety of the plant or a the plant or indicate a security threat to facility protection has containment integrity or HOSTILE ACTION that results in an ACTION that results in intentional damage or malicious acts, security event that involves probable life threatening risk to been initiated. No releases of radioactive material requiring actual loss of physical control of the facility. Releases can be (1) toward site personnel or equipment that could lead to the site personnel or damage to site equipment because of offsite response or monitoring are expected unless further reasonably expected to exceed EPA Protective Action likely failure of or, (2) that prevent effective access to HOSTILE ACTION. Any releases are expected to be limited degradation of safety systems occurs.
Guideline exposure levels offsite for more than the immediate equipment needed for the protection of the public. Any to small fractions of the EPA Protective Action Guideline site area. releases are not expected to result in exposure levels which exposure levels.
...c: exceed EPA Protective Action Guideline exposure levels beyond the site boundary .
GI E
Cl
'C
- i
~
c
~
c:
w Modes: 1 - Power Operation 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refuehng D-Defueled January 2016 HOT MATRIX PBAPS 2-12 HOT MATRIX EP-AA-1007 Addendum 3 (Rev 3)
Peach Bottom Atomic Power Station Annex GENERAL EMERGENCY SITE AREA EMERGENCY Exelon Confidential/Proprietary I
ALERT UNUSUA~~VB~~~,~~~~
' '-*-ti'"- '\.L *\*\ )'"~
ISFSI Malfunction E-HU1 Damage to a loaded cask ITI~~@lffil[9 CONFINEMENT BOUNDARY.
Emergencit: Action Level {EAL):
Damage to a loaded cask CONFINEMENT BOUNDARY as indicated by an on-contact radiation reading:
> 350 mr/hr gamma and 30 mr/hr neutron on the top (protective cover)
OR ii5 LI.. > 250 mr/hr gamma and 60 mr/hr neutron on the
!Q sides of the radial neutron shield
. OR
> 1100 mr/hr gamma and 250 mr/hr neutron on the side surfaces of the cask above the radial neutron shield
. OR
> 800 mr/hr gamma and 600 mr/hr neutron on the side surfaces of the cask below the radial neutron shield.
Modes: 1 - Power Operatron 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refuelrng D-Defueled January 2016 HOT MATRIX PBAPS 2-13 HOT MATRIX EP-AA-1007 Addendum 3 (Rev 3)
Peach Bottom Atomic Power Station Annex TABLE PBAPS 2-1 Emergency action Level (EAL) Matrix GENERAL EMERGENCY COLD MATRIX Exelon Confidential/Proprietary COLD MATRIX
- Exelon Nuclear SITE AREA EMERGENCY ALERT Abnormal Rad Levels I Radiological Effluents RG1 Release of gaseous radioactivity IIJ~@]@]@J[g RS1 Release of gaseous radioactivity IIJ~@]@l@l[g RA1 Release of gaseous or liquid IIJ~@l@l@l[g RU1 Any release of gaseous or liquid IIJ~@l@l@l[g resulting in offsite dose greater than 1,000 mRem TEDE resulting in offsite dose greater than 100 mRem TEDE radioactivity resulting in offsite dose greater than radioactivity to the environment greater than or 5,000 mRem thyroid CDE. or 500 mRem thyroid CDE. 10 mrem TEDE or 50 mrem thyroid CDE. 2 times the ODCM for 60 minutes or longer.
Emergency Action Level !EAU: Emergency Action Level !EAL): Emergency Action Level !EAL): Emergency Action Level (EAL!:
Notes: Notes: Notes: Notes:
- The Emergency Director should declare the event promptly
- The Emergency Director should declare the event promptly
- The Emergency Director should declare the event
- The Emergency Director should declare the event upon determining that the applicable time has been upon determining that the applicable time has been promptly upon determining that the applicable time has promptly upon determining that 60 minutes has been exceeded, or will likely be exceeded. ' exceeded, or will likely be exceeded. been exceeded, or will likely be exceeded. exceeded, or will likely be exceeded.
- If an ongoing release is detected and the release start time
- If an ongoing i'elease is detected and the release start time
- If an ongoing release is detected and the release start
- If an ongoing release is detected and the release start is unknown, assume that the release duration has is unknown, assume that the release duration has time is unknown, assume that the release duration has time is unknown, assume that the release duration has exceeded 15 minutes. exceeded 15 minutes. exceeded 15 minutes. exceeded 60 minutes.
- Classification based on effluent monitor readings assumes
- Classification based on effluent monitor readings assumes
- Classification based on effluent monitor readings assumes
- Classification based on effluent monitor readings assumes that a release path to the environment is established. If the that a release path to the environment is established. If the that a release path to the environment is established. If that a release path to the environment is established. If effluent flow past an effluent monitor is known to have effluent flow past an effluent monitor is known to have the effluent flow past an effluent monitor is known to have the effluent flow past an effluent monitor is known to have stopped due to actions to isolate the release path, then the stopped due to actions to isolate the release path, then the stopped due to actions to isolate the release path, then stopped due to actions to isolate the release path, then effluent monitor reading is no longer valid for classification effluent monitor reading is no longer valid for classification the effluent monitor reading is no longer valid for the effluent monitor reading is no longer valid for J!l purposes. purposes. classification purposes. classification purposes.
c:
Q)
- The pre-calculated effluent monitor values presented in
- The pre-calculated effluent monitor values presented in
- The pre-calculated effluent monitor values presented in
- I EAL #1 should be used for emergency classification EAL #1 should be used for emergency classification EAL #1 should be used for emergency classification 1. Reading on ANY of the following effluent monitors > 2 E assessments until dose assessment results are available. assessments until dose assessment results are available. assessments until dose assessment results are available. times alarm setpoint ,established by a current radioactive w release discharge permit for 2: 60 minutes.
(ij 1. Readings on ANY Table R1 Effluent Monitor 1. Readings on ANY Table R1 Effluent Monitor 1. Readings on ANY Table R1 Effluent Monitor > Table R1 CJ
- Radwaste Discharge Effluent Monitor (Rl-0-17-350)
> Table R1 value for> 15 minutes. >Table R1value for> 15 minutes. value for> 15 minutes.
- 2. Dose assessment Using actual meteorology indicates doses at 2. Dose assessment using actual meteorology indicates doses at 2. Dose assessment using actual meteorology indicates doses
- Discharge Permit specified monitor 0 or beyond the site boundary of EITHER: or beyond the site boundary of EITHER: at or beyond the site boundary of EITHER: OR
'5 9. > 1000 mRem TEDE a. > 100 mRem TEDE a. > 10 mRem TEOE Ill 2. Readings on ANY Table R1 Effluent Monitor> Table R1 value It: OR OR OR for;: 60 minutes:
- 3. Field survey results at or beyond the site boundary indicate 3. Field survey results at or beyond the site boundary indicate 3. Analysis of a liquid effluent sample indicates a 3. Confirmed sample analyses for gaseous or liquid releases EITHER: EITHER: concentration or release rate that would result in doses indicate concentrations or release rates ct. Gamma (closed window) dose rates a. Gamma (closed window) dose rates greater than EITHER of the following at or beyond the > 2 times OOCM Limit with a release duration of
>1000 mRem are expected to continue for >100 mRem are expected to continue for site boundary ::, 60 minutes.
- b. Analyses of field survey samples indicate b. Analyses of field survey samples indicate b. 50 mRem CDE Thyroid for 60 minutes of
> 5000 mRem COE Thyroid for 60 minutes of > 500 mRem COE Thyroid for 60 minutes of exposure inhalation. inhalation. 4. Field survey results at or beyond the site boundary indicate EITHER:
- a. Gamma (closed window) dose rates
> 10 mR/hr are expected to continue for
- 60 minutes.
- b. Analyses of field survey samples indicate
> 50 mRem CDE Thyroid for 60 minutes of inhalation.
Modes: 1 - Power Operation 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refuellng D-Defueled Table R1 Effluent Monitor Thresholds Site Area Emergency Alert Release Path Unusual Event Release Path General Emergency Main Stack (Rl-0-17-0508 Common) 5.57 E+09 uCi/sec 5.57 E+08 uCi/sec 5.57 E+07 uCi/sec Main Stack (Rl-0-17-050N8 Common) 6.36 E+05 uCi/sec Vent Stack (Rl-29798 Unit 2 or Rl- 1.60 E+08 uCi/sec 1.60 E+07 uCi/sec 1.60 E+06 uCi/sec Vent Stack (Rl-2979N8 Unit 2 or Rl- 1.82 E+04 uCi/sec 39798 Unit 3 3979N8 Unit 3 January 2016 COLD MATRIX PBAPS 2-14 COLD MATRIX EP-AA-1007 Addendum 3(Rev 3)
Peach Bottom Atomic Power Station Annex TABLE PBAPS 2-1 Emergency action Level (EAL) Matrix COLD MATRIX Exelon Confidential/Proprietary COLD MATRIX
- Exelon Nuclear
. ~~ - -..,,~.::if~
GENERAL EMERGENCY SITE AREA EMERGENCY ALERT UNUSUAL EVENT~:.~l-<< -~,.~
.!'.. - - ":? ~-"'
Abnormal Rad Levels I Radiological Effluents RG2 Spent fuel pool level cannot be ID~@l@][fil[9 RS2 Spent fuel pool level at ID~@l@l[fil[9 RA2 Significant lowering of water ID~ @l@I @J 19 RU2 Unplanned loss of water level ID~ @l@I @J 19 restored to at least 1.00 ft as indicated on Ll(2)3 1.00 ft as indicated on Ll(2)3-19-001A(B). level above, or damage to, irradiated fuel. above irradiated fuel.
001A(B) for 60 minutes or longer.
Emergency Action Level (EAL): Emergency Action Level (EAL):
Emergency Action Levels {EAL}: Emergency Action Level {EAL):
Note: The Emergency Director should declare the General Lowering of spent fuel pool level to 1.00 ft as indicated on 1. Uncovery of irradiated fuel*in the REFUELING 1. UNPLANNED water level drop in the reactor Emergency promptly upon determining that the Ll-(2)3-19-001A(B) (equivalent to approximately 211' 6" PATHWAY. Refueling Cavity, Spent Fuel Pool or Fuel Transfer applicable time has been exceeded, or will likely be exceeded.
Spent fuel pool level cannot be restored to at least 1.00 ft elevation).
2.
OR Damage to irradiated fuel resulting in a release of radioactivity from the fuel as indicated by ANY Table R2 Radiation Monitor reading Canal as indicated by:
Refueling Cavity water level < 458 inches on Shutdown/Refuel Range indicator Ll-2(3)-
2-3-86 or PR/FR-2(3)-06-097.
as indicated on Ll-(2)3-19-001A(B) (equivalent to >1000 mRem/hr approximately 211' 6" elevation) for 60 minutes or longer.
3.
OR Lowering of spent fuel pool level to 10.00 ft as indicated on Ll-(2)3-19-001A(B) (equivalent to
. OR Spent Fuel Pool level < 232 feet 3 inches plant elevation.
approximately 220' 6" elevation).
J!l c:
. OR Indication or report of a drop in water level in the REFUELING PATHWAY.
Cll
- I AND iE 2. UNPLANNED Area Radiation Monitor reading w
rise on ANY radiation monitor in Table R2.
iii u
'61 RA3 Radiation levels that impede ID~ @l@I @J 19 0 Table R3 access to equipment necessary for normal plant 0 Table R2 Areas Requiring Continuous Occupancy
'5 I'll a::
Refuel Floor ARM's
. Main Control Room operations, cooldown or shutdown.
Emergency Action Level {EAL}:
Steam Separator Pool, 234 ELEV, 3. 7 (7.9)
Refuel Slot, 234 ELEV, 3.8 (7.10)
. Central Alarm Station - (by survey)
Note: If the equipment in the listed room or area was already inoperable, or out of service, before the event occurred, then no emergency classification is
. Fuel Pool, 234 ELEV, 3.9 (7 .11) warranted
. Refueling Bridge, 234 ELEV, 3.10 (7.12)
Table R4
- 1. Dose rate > 15 mR/hr in ANY of the areas contained in Table R3.
- 2. An UNPLANNED event results in radiation levels Areas with Entry Related Mode Applicability that prohibit or significantly impede access to any of Entry Related the areas contained in Table R4.
Area of concern Mode Aoolicabllitv Reactor Buildina Modes3, 4 135' all areas and 5 Modes: 1 - Power Operation 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refuehng D-Defueled January 2016 COLD MATRIX PBAPS2-15 COLD MATRIX EP-AA-1007 Addendum 3(Rev 3)
Peach Bottom Atomic Power Station Annex COLD MATRIX TABLE PBAPS 2-1 Emergency action Level (EAL) Matrix Exelon Confidential/Proprietary COLD MATRIX
- Exelon Nuclear GENERAL EMERGENCY SITE AREA EMERGENCY ALERT UNUSUAL EVEN!:a'<i~ '-' ~*:j'~
--t;;;, ...a.M.W ~- .,#* . _.
Cold Shutdown I Refueling System Malfunctions CA1 Loss of all offsite and onsite AC power @l[fili9 CU1 Loss of all but one AC power source @l[fili9 to emergency buses for 15 minutes or longer.
to emergency buses for 15 minutes or longer.
Emergencli': Action Level (EALI:
EmergenCJi': Action Level (EAL!:
Note: The Emergency Director should declare the event
.... Note: The Emergency Director should declare the event promptly upon determining that the applicable time has
~0 promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
been exceeded, or wl!l likely be exceeded.
(..) 1. Loss of ALL offsite AC power to unit 4KV reduced to only one of the following power sources for
< Safeguards Buses.
0 en AND ..
- _ 15 minutes .
2 Emergency Auxiliary Transformer (OAX04) en 2. Failure of E1, E2, E3, and E4 Emergency Diesel 3 Emergency Auxiliary Transformer (OBX04) 0
..J Generators to supply power to unit 4KV Safeguards E 1 Diesel Generator Buses. E2 Diesel Generator 3.
AND Failure to restore power to at least one unit 4KV Safeguards bus in
. AND E3 Diesel Generator E4 Diesel Generator
< 15 minutes from the time of loss of both offsite 2. ANY additional single power source failure will result and onsite AC power. in a loss of ALL AC power to SAFETY SYSTEMS.
CA2 Hazardous event affecting @lrn SAFETY SYSTEM required for the current operating mode.
Emergencli': Action Level (EAL!:
Note: If it is determined that the conditions of CA2 are not met then assess the event via HU3, HU4, or HUB.
- 1. The occurrence of ANY of the following hazardous E
events:
.. Seismic event (earthquake)
.2!
en
- .. Internal or external flooding event High winds or tornado strike U)
~
J!!ca
.. FIRE EXPLOSION Other events with similar hazard U) characteristics as determined by the Shift Manager AND
- 2. EITHER of the following:
- a. Event damage has caused indications of degraded performance in at least one train of a SAFETY SYSTEM required by Technical Specifications for the current operating mode.
- b. The event has caused VISIBLE DAMAGE to a SAFETY SYSTEM component or structure required by Technical Specifications for the current operating mode.
Modes: 1 - Power Operation 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refuehng D-Defueled January 2016 COLD MATRIX PBAPS 2-16 COLD MATRIX EP-AA-1007 Addendum 3(Rev 3)
Peach Bottom Atomic Power Station Annex COLD MATRIX TABLE PBAPS 2-1 Emergency action Level (EAL) Matrix GENERAL EMERGENCY SITE AREA EMERGENCY Exelon Confidential/Proprietary ALERT COLD MATRIX
- Exelon Nuclear Cold Shutdown I Refueling System Malfunctions CU3 Loss of Vital DC power for 15 minutes ~~
or longer.
~
Q.
Emergency Action Level !EAL):
Note: The Emergency Director should declare the event
(.)
c promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
Voltage is< 107.5 voe on required 125 voe battery buses 2(3)0D021, 2(3)0D022 , 2(3)0D023 , and 2(3)00024 for> 15 minutes. -
CU4 Loss of all onsite or offsite communication Table C1 Communications Capability capabilities.
Svstem On site Offsite NRC Emergency Action Level (EAL):
Ill c:
Station Radio x Svstem 1. Loss of ALL Table C1 Onsite communications 0
- capability affecting the ability to perform routine ca Plant Public x operations.
() Address IPA\
- c::::J OMNI Svstem x x OR E Station Phones x x x 2. Loss of ALL Table C1 Offsite communication E capability affecting the ability to perform offsite 0
(.)
Satellite Phones x x notifications.
NARS x OR HPN x x ENS x x 3. Loss of ALL Table C1 NRC communication capability affecting the ability to perform NRG notifications.
CA5 Inability to maintain plant in cold CU5 UNPLANNED rise in RCS temperature.
Table C2 RCS Heat-uo Duration Thresholds shutdown RCS Containment Closure Heat-up Emergency Action Levels !EAL):
Emergency Action Levels !EAL):
Status Status Duration Intact Not Aoolicable 60 minutes* Note: The Emergency Director should declare the event Note: The Emergency Director should declare the event promptly upon determining that the applicable time promptly upon determining that the applicable time has been exceeded, or will likely be exceeded. has been exceeded, or will likely be exceeded.
Established 20 minutes*
A momentary UNPLANNED excursion above the A momentary UNPLANNED excursion above the Not Intact Technical Specification cold shutdown temperature Technical Specification cold shutdown temperature limit when heat removal function is available does not limit when heat removal function is available does not Not Established 0 minutes warrant classification. warrant classification.
- If an RCS heat removal system is in operation within >Table C2 duration. OR this time frame and RCS temperature is being OR 2. Loss of the following for:::, 15 minutes.
reduced, then EAL #1 is not applicable.
- 2. UNPLANNED RCS pressure rise> 10 psig as a
- ALL RCS temperature indications result of temperature rise (This EAL threshold does not apply during water- solid plant conditions.) AND
- ALL RPV level indications Modes. 1 Power Operation 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refuehng D-Defueled January 2016 COLD MATRIX PBAPS 2-17 COLD MATRIX EP-AA-1007 Addendum 3(Rev 3)
Peach Bottom Atomic Power Station Annex TABLE PBAPS 2-1 Emergency action Level (EAL) Matrix GENERAL EMERGENCY COLD MATRIX SITE AREA EMERGENCY Exelon Confidential/Proprietary ALERT COLD MATRIX UNUSUAL
- Exelon Nuclear EVENT~~.;:,!.;,~*
.. ~7~~r~. . . . .: ....~.*~¥ Cold Shutdown I Refueling System Malfunctions CG6 Loss of RPV inventory affecting fuel clad CS6 Loss of RPV inventor y affecting core decay ~rn CA6 Loss of RPV inventory CU6 UNPLANNED loss of reactor RPV integrity with containment challenged. heat removal capabilities. inventory for 1S minutes or longer.
Emergency Action Level !EAL!: Emergency Action Level !EAL): Emergency Action Level !EAL!:
Emergency Action Level !EAL!:
Note: The Emergency Director should declare the event Note: The Emergency Director should declare the event Note: The Emergency Director should declare the event .
Note: The Emergency Director should declare the event promptly upon determining that the applicable time promptly upon determining that the applicable time promptly upon determining that the applicable time promptly upon determining that the applicable time has has been exceeded, or will likely be exceeded. has been exceeded, or will likely be exceeded. has been exceeded, or will likely be exceeded.
been exceeded, or will likely be exceeded.
i!'
.sc: 1 a. RPV water level< -172 inches (TAF) for::, 30 minutes.
- 1. With CONTAINMENT CLOSURE not established, RPV water level < -160 inches -
- 1. Loss of RPV inventory as indicated by level
< - 48 inches.
- 1. UNPLANNED loss of reactor coolant results in the inability GI to restore and maintain RPV water level to above the
> AND
- OR OR procedurally established lower limit for:::, 15 minutes.
.E b. ANY Containment Challenge Indication (Table C4)
OR 2. With CONTAINMENT CLOSURE established, RPV 2. a. RPV water level cannot be monitored for OR GI en water level< -172 inches (TAF) :::, 15 minutes.
ca 2. a. RPV water level cannot be monitored for 2. a. RPV water level £l!!!fil!! be monitored
.:.: :::, 30 minutes. OR AND ca AND GI AND b. Loss of RPV inventory per Table C3
..J 3. a. RPV water level cannot be monitored for
!/)
0 0::
- b. Core uncovery is indicated by ANY of the following:
Table C3 indications of a sufficient magnitude to indicate core uncovery.
- , 30 minutes AND indications
- b. Loss of RPV inventory per Table C3 indications.
. OR ANY Table CS Refuel Floor Area Radiation Monitor >3 R/hr b.Core uncovery is indicated by ANY of the following:
- Table C3 indications of a sufficient AND magnitude to indicate core uncovery.
- 3. ANY Containment Challenge Indication (Table C4) OR
- ANY Table CS Refuel Floor Area Radiation Monitor >3 R/hr Table C3 Indications of RCS Leakage Table C4 Containment Challenge Indications Table C5 Refuel Floor ARM's
- UNPLANNED floor or equipment sump level rise*
- Primary Containment Hydrogen Concentration ::,
6% and Oxygen ::, 5%
- Steam Separator Pool, 234 ELEV, 3.7 (7.9)
- UNPLANNED Torus level rise*
- UNPLANNED vessel make up rate rise
- UNPLANNED rise in containment pressure
- Refuel Slot, 234 ELEV, 3.8 (7.10)
- Observation of leakane or inventorv loss
- CONTAINMENT CLOSURE not established*
- Fuel Pool, 234 ELEV. 3.9 (7.11)
- Rise in level is attributed to a loss of RPV inventory
- ANY Secondary Containment radiation monitor >
T -103 Action Level
- Refueling Bridge, 234 ELEV, 3.10 (7.12)
- if CONTAINMENT CLOSURE is re-established prior to exceeding the 30-minute core uncovery time limit, then escalation to a General Emergency is !!Q! required.
Modes: 1 - Power Operation 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refuehng D-Defueled January 2016 COLD MATRIX PBAPS 2-18 COLD MATRIX EP-AA-1007 Addendum 3(Rev 3)
Peach Bottom Atomic Power Station Annex TABLE PBAPS 2-1 Emergency action Level (EAL) Matrix COLD MATRIX Exelon Confidential/Proprietary COLD MATRIX
- Exelon Nuclear GENERAL EMERGENCY SITE AREA EMERGENCY ALERT UNUSUAL EVENT_,"'itf'.t:.'
p"': ~I"~
~"~ *
- Ji .... r~
Hazards and Other conditions Affecting Plant Safety HA1 HOSTILE ACTION within the 11112113114115110 HU1 Confirmed SECURITY CONDITION 11112113114115 lfB HG1 HOSTILE ACTION resulting in loss IIJ~~@l[filill HS1 HOSTILE ACTION within the II]~~@] [fil ill OWNER CONTROLLED AREA or airborne attack or threat.
of physical control of the facility PROTECTED AREA threat within 30 minutes.
c:
0 u
EmergencJ! Action Level (EAL):
- 1. A notification from the Security Force that a HOSTILE ACTION is occurring or has occurred within the Emergencll Action Level (EAL}:
A notification from the Security Force that a HOSTILE EmergencJ! Action Level (EAL):
- 1. A validated notification from NRC of an aircraft attack threat < 30 minutes from the site.
EmergencJ! Action Level (EAL}:
- 1. Notification of a credible security threat directed at the site as determined per SY-AA-101-132, Security ct ACTION is occurring or has occurred within the Assessment and Response to Unusual Activities.
PROTECTED AREA.
~ PROTECTED AREA. OR OR AND IJj 2. A validated notification from the NRC providing
- 2. Notification by the Security Force that a HOSTILE 0 2. a. ANY Table H1 safety function cannot be
- i:: ACTION is occurring or has occurred within the information of an aircraft threat.
controlled or maintained. OWNER CONTROLED AREA. OR OR 3. Notification by the Security Force of a SECURITY
- b. Damage to spent fuel has occurred or is CONDITION that does not involve a HOSTILE IMMINENT ACTION.
HS2 Inability to control a key safety II]~~@] [fil ill HA2 Control Room evacuation resulting IIJ~~@l[filill function from outside the Control Room in transfer of plant control to alternate locations Table H1 Safety Functions
. Reactivity Control (ability to shutdown the reactor and keep it shutdown)
EmergencJ! Action Level (EAL!:
Note: The Emergency Director should declare the event promptly upon determining that the applicable time has EmergencJ! Action Level (EAL):
A Control Room evacuation has resulted in plant control being transferred from the Control Room to alternate
. RPV Water Level (ability to cool the core) been exceeded, or will likely be exceeded.
locations per:
A Control Room evacuation has resulted in plant control ec: RCS Heat Removal (ability to maintain a heatsink) 1.
being transferred from the Control Room to alternate SE-1, Plant.Shutdown from the Remote Shutdown Panel - Procedure locations per:
. OR 0
0 c:
cu ii:
SE-1, Plant Shutdown from the Remote Shutdown Panel - Procedure OR SE-10, Plant Shutdown from the Alternative Shutdown Panels - Procedure 0
.l!!Ill AND SE-10, Plant Shutdown from the Alternative Shutdown Panels - Procedure c:
- 2. Control of ANY Table H1 key safety function is not
~
I- reestablished in < 15 minutes.
Modes. 1 - Power Operation 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5 - Refueling D-Defueled January 2016 COLD MATRIX PBAPS2-19 COLD MATRIX EP-AA-1007 Addendum 3(Rev 3)
Peach Bottom Atomic Power Station Annex COLD MATRIX TABLE PBAPS 2-1 Emergency action Level (EAL) Matrix Exelon Confidential/Proprietary COLD MATRIX
- Exelon Nuclear Hazards and Other conditions Affecting Plant Safety HU3 FIRE potentially degrading the level 11J~l3ll4ll5ll O of safety of the plant.
Emergency Action Level !EAL!:
Note: The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
Escalation of the emergency classification level would be via IC CA2 or MA5 Table H2 Vital Areas 1. A FIRE in ANY Table H2 area is not extinguished in
~ 15-minutes of ANY of the following FIRE detection
- Reactor Building (when inerted the Drywell is exempt) indications:
- Report from the field (i.e., visual observation)
- Control Room
- Receipt of multiple (more than 1) fire alarms or
- Diesel Generator Building indications
- Emergency Pump Structure
- Field verification of a single fire alarm
- Inner Screen Structure OR
- 2. a. Receipt of a single fire alarm in AMY Table H2 area
- Emergency Cooling Tower (i.e., no other indications of a FIRE).
- Emergency Switchgear/Battery Rooms AND
- Cable Spread Room b. The existence of a FIRE is not verified in < 30 minutes of alarm receipt. - -
- 3. A FIRE within the plant PROTECTED AREA or ISFSI PROTECTED AREA not extinguished in~ 60-minutes of the initial report, alarm or indication.
- 4. A FIRE within the plant PROTECTED AREA or ISFSI PROTECTED AREA that requires firefighting support by an offsite fire response agency to extinguish.
Modes: 1 - Power Operation 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refuelrng D-Defueled January 2016 COLD MATRIX PBAPS 2-20 COLD MATRIX EP-AA-1007 Addendum 3(Rev 3)
Peach Bottom Atomic Power Station Annex COLD MATRIX TABLE PBAPS 2-1 Emergency action Level (EAL) Matrix Exelon Confidential/Proprietary COLD MATRIX
- Exelon Nuclear GENERAL EMERGENCY SITE AREA EMERGENCY ALERT UNUSUAL EVEN..,~ .. ~~. '*
r . . ~~ ~:-_;r;r Hazards and Other conditions Affecting Plant Safety HU4 Seismic event greater than OBE levels [I]~~@][fil[g EmergencJl Action Level {EAL):
Note: Escalation of the emergency classification level would be via IC CA2 or MA5 For emergency classification if EAL 2.b is not able to be confirmed, then the occurrence of a seismic event is confirmed in manner deemed appropriate by the Shift Manager or Emergency Director in 5 15 mins of the event.
- 1. Seismic event > Operating Basis Earthquake (OBE) as indicated by the Alarm on Panel 316 A-5."0PERATING BASIS EARTHQUAKE EXCEEDED" cu
.io:
OR ra 2. When Seismic Monitoring Equipment is not available:
- I c-
.c a. Control Room personnel feel an actual or potential t:: seismic event.
ra w AND
- b. ANY one of the following confirmed in 5 15 mins of the event:
- The earthquake resulted in Modified Mercalli Intensity (MM!)!:!: VI and occurred 5 3.5 miles of the plant.
- The earthquake was magnitude!:!: 6.0
- The earthquake was magnitude !:!: 5.0 and occurred 5 125 miles of the plant.
Modes: 1 - Power Operatron 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refuellng D-Defueled January 2016 COLD MATRIX PBAPS 2-21 COLD MATRIX EP-AA-1007 Addendum 3(Rev 3)
Peach Bottom Atomic Power Station Annex COLD MATRIX TABLE PBAPS 2-1 Emergency action Level (EAL) Matrix GENERAL EMERGENCY SITE AREA EMERGENCY Exelon Confidential/Proprietary ALERT COLD MATRIX UNUSUALEVENT~
- Exelon Nuclear
- -~~~*
-. ~l[- ,.- .
Hazards and Other conditions Affecting Plant Safety HAS Gaseous release impeding [j]~§@J[§ Table H3 access to equipment necessary for normal plant Areas with Entry Related Mode Applicability operations, cooldown or shutdown.
Entry Related Mode Area of concern Applicability EmergencJl Action Level (EAL}:
Ill Reactor Buildin" Modes 3, 4 and 5 Note: If the equipment in the listed room or area was 135' all areas C>
u Control Room Modes 1, 2, 3, 4, and 5 already inoperable, or out of service, before the event occurred, then no emergency classification
';(
0 is warranted.
I-
- 1. Release of a toxic, corrosive, asphyxiant or flammable gas in ANY Table H3 area.
AND
- 2. Entry into the room or area is prohibited or impeded HU6 Hazardous Event 111121131141~19 EmergencJl Action Level (EAL):
Note: EAL #4 does not apply to routine traffic impediments such as fog, snow, ice, or vehicle breakdowns or accidents.
Escalation of the emergency classification level would be via IC CAZ or MAS w
c:
Cl)
- 1. Tornado strike within the PROTECTED AREA.
- 2. Internal room or area flooding of a magnitude sufficient to require manual or automatic electrical isolation of a SAFETY SYSTEM component required by Technical Ill
- I Specifications for the current operating mode.
"C 0
- 3. Movement of personnel within the PROTECTED AREA is N
- c"'
impeded due to an offsite event involving hazardous materials (e.g., an offsite chemical spill or toxic gas release).
- 4. A hazardous event that results in on-site conditions sufficient to prohibit the plant staff from accessing the site via personal vehicles.
- 5. Abnormal River level, as indicated by EITHER:
> 112 ft. (high level)
. OR
< 98.5 ft. (low level)
Modes: 1 - Power Operation 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refuehng D-Detueled January 2016 COLD MATRIX PBAPS2-22 COLD MATRIX EP-AA-1007 Addendum 3(Rev 3)
Peach Bottom Atomic Power Station Annex TABLE PBAPS 2-1 Emergency action Level (EAL) Matrix GENERAL EMERGENCY COLD MATRIX SITE AREA EMERGENCY Exelon Confidential/Proprietary ALERT COLD MATRIX
- Exelon Nuclear Hazards and Other conditions Affecting Plant Safety HG7 Other conditions exist which in the IIJ[fil@l@I@][§ HS7 Other conditions exist which in the IIJ[fil@]@l@l[§ HA7 Other conditions exist which in the IIJ[fil@]@l@l[§ HU7 Other conditions exist which in the IIJ[fil@l@l@l[§ judgment of the Emergency Director warrant judgment of the Emergency Director warrant judgment of the Emergency Director warrant judgment of the Emergency Director warrant declaration of a GENERAL EMERGENCY. declaration-of a SITE AREA EMERGENCY. declaration of ari ALERT. declaration of an UNUSUAL EVENT.
Emergency Action Level !EAL!: Emergency Action Level !EAL): Emergency Action Level !EAL!: Emergency Action Level !EAL!:
Other conditions exist which in the judgment of the Other conditions exist which in the judgment of the Other conditions exist which, in the judgment of the Other conditions exist which in the judgment of the Emergency Emergency Director indicate that events are in progress or Emergency Director indicate that events are in progress or* Emergency Director, indicate that events are in progress or Director indicate that events are in progress or have occurred have occurred which involve actual or IMMINENT substantial have occurred which involve actual or likely major failures of have occurred which involve an actual or potential which indicate a potential degradation of the level of safety of core degradation or melting with potential for loss of plant functions needed for protection of the public or HOSTILE substantial degradation of the level of safety of the plant or a the plant or indicate a security threat to facility protection has containment integrity or HOSTILE ACTION that results in an ACTION that results in intentional damage or malicious acts, security event that involves probable life threatening risk to been initiated. No releases of radioactive material requiring actual loss of physical control of the facility. Releases can be (1) toward site personnel or equipment that could lead to the site personnel or damage to site equipment because of offsite response or monitoring are expected unless further reasonably expected to exceed EPA Protective Action likely failure of or, (2) that prevent effective access to HOSTILE ACTION. Any releases are expected to be limited degradation of safety systems occurs.
Guideline exposure levels offsite for more than the immediate equipment needed for the protection of the public. Any to small fractions of the EPA Protective Action Guideline site area. releases are not expected to result in exposure levels which exposure levels.
exceed EPA Protective Action Guideline exposure levels cGI beyond the site boundary.
E O'I
't:J
- I
~
- c
~
c:
GI e
GI E
w Modes: 1 - Power Operation 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5 - Refueling D-Defueled January 2016 COLD MATRIX PBAPS 2-23 COLD MATRIX EP-AA-1007 Addendum 3(Rev 3)
Peach Bottom Atomic Power Station Annex COLD MATRIX TABLE PBAPS 2-1 Emergency action Level (EAL) Matrix Exelon Confidential/Proprietary COLD MATRIX
- Exelon Nuclear GENERAL EMERGENCY SITE AREA EMERGENCY ALERT UNUSUAL EVE
- Ii '"~-~~---
~ .. !:.0'1i
- a.... ,...
...: ~!-?~ ~l.
ISFSI Malfunction E-HU1 Damage to a loaded cask [j]~[fil@]@][9 CONFINEMENT BOUNDARY.
Emergenc~ Action Level {EAL}:
Damage to a loaded cask CONFINEMENT BOUNDARY as indicated by an on-contact radiation reading:
> 350 mr/hr gamma and 30 mr/hr neutron on the top (protective cover)
!!?
. > 250 mr/hr gamma and 60 mr/hr neutron on the sides of the radial neutron shield
. OR
> 1100 mr/hr gamma and 250 mr/hr neutron on the side surfaces of the cask above the radial neutron shield OR
. > 800 mr/hr gamma and 600 mr/hr neutron on the side surfaces of the cask below the radial neutron shield.
Modes: 1 - Power Operation 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refuehng D- Defueled January 2016 COLD MATRIX PBAPS 2-24 COLD MATRIX EP-AA-1007 Addendum 3(Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY ABNORMAL RAD LEVELS I RADIOLOGICAL EFFLUENTS
- Initiating Condition.: ,
Release of gaseous radioactivity resulting in offsite dose greater than 1000 mRem TEDE or 5000 mRem thyroid COE.
RG1
()perating MC!d,e Applicability:
1, 2, 3, 4, 5, D Emergency,Action .Level (EAL):
Notes:
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- If an ongoing release is detected and the release start time is unknown, assume that the release duration has exceeded 15 minutes.
- Classification based on effluent monitor readings assumes that a release path to the environment is established. If the effluent flow past an effluent monitor is known to have stopped due to actions to isolate the release path, then the effluent monitor reading is no longer valid for classification purposes.
- The pre-calculated effluent monitor values presented in EAL #1 should be used for emergency classification assessments until the results from a dose assessment using actual meteorology are available.
- 4. Readings on ANY Table R1 Effluent Monitor> Table R1 value for~ 15 minutes.
- 5. Dose assessment using actual meteorology indicates doses at or beyond the site boundary of EITHER:
- a. > 1000 mRem TEOE OR
- 3. Field survey results at or beyond the site boundary indicate EITHER:.
- a. Gamma (closed window) dose rates >1000 mR/hr are expected to continue for
> 60 minutes.
- b. Analyses of field survey samples indicate > 5000 mRem COE Thyroid for 60 minutes of inhalation .
January 2016 PBAPS 2-25 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY ABNORMAL RAD LEVELS I RADIOLOGICAL EFFLUENTS
- Table R1 - Effluent Monitor Thresholds Release Path RG1 {cont)
General Emergency Main Stack (Rl-0-17-050B Commqn) 5.57 E+09 uCi/sec Vent Stack (Rl-2979B Unit 2 or Rl-3979B Unit 3) 1.60 E+08 uCi/sec easis:
This IC addresses a release of gaseous radioactivity that results in projected or actual offsite doses greater than or equal to the EPA Protective Action Guides (PAGs). It includes both monitored and un-monitored releases. Releases of this magnitude will require implementation of protective actions for the public.
Radiological effluent EALs are also included to provide a basis for classifying events and conditions that cannot be readily or appropriately classified on the basis of plant conditions alone. The inclusion of both plant condition and radiological effluent EALs more fully addresses the spectrum of possible accident events and conditions.
The TEOE dose is set at the EPA PAG of 1000 mRem while the 5000 mRem thyroid COE was established in consideration of the 1:5 ratio of the EPA PAG for TEOE and thyroid COE.
\
~~~si~,.,RefeJei1G~<~ >*~
- 1.
2.
3.
NEI 99-01 Rev 6, AG1 Peach Bottom OOCM EP-EAL-0607 Revision 1, Criteria for Choosing Radiological Gaseous Effluent EAL Threshold Values Peach Bottom Atomic Power Station
- 4. EP-AA-112-500, Emergency Environmental Monitoring January 2016 PBAPS 2-26 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY ABNORMAL RAD LEVELS I RAmOLOGICAL EFFLUENTS
- Initiating ~on~ition.:..
Release of gaseous radioactivity resulting in offsite dose greater than 100 mRem TEDE or 500 mRem thyroid COE.
RS1
- Operati11g l\Jlod~ Appli~ability: .
1,2,3,4,5,D
- Eniergeflcy*~~ction .~ever (EAL):
Notes:
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- If an ongoing release is detected and the release start time is unknown, assume that the release duration has exceeded 15 minutes.
- Classification based on effluent monitor readings assumes that a release path to the environment is established. If the effluent flow past an effluent monitor is known to have stopped due to actions to isolate the release path, then the effluent monitor reading is no longer valid for classification purposes.
- The pre-calculated effluent monitor values presented in EAL #1 should be used for emergency classification assessments until the results from a dose assessment using actual meteorology are available.
- 1. Readings on ANY Table R1 Effluent Monitor> Table R1 value for~ 15 minutes.
- 2. Dose assessment using actual meteorology indicates doses at or beyond the site boundary of EITHER:
- a. > 100 mRem TEOE OR
- 3. Field survey results at or beyond the site boundary indicate EITHER:
- a. Gamma (closed window) dose rates >100 mR/hr are expected to continue for
~ 60 minutes.
- b. Analyses of field survey samples indicate > 500 mRem COE Thyroid for 60 minutes of inhalation .
January 2016 PBAPS 2-27 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY ABNORMAL RAD LEVELS I RADIOLOGICAL EFFLUENTS
- E;inergencyA~tion J.E)vel (EAL).(c~nt):
Table R1 - Effluent Monitor Thresholds Release Path RS1 (cont)
Site Area Emergency Main Stack (Rl-0-17-0508 Common) 5.57 E+08 uCi/sec Vent Stack (Rl-2979B Unit 2 or Rl-3979B Unit 3) 1.60 E+07 uCi/sec This IC addresses a release of gaseous radioactivity that results in projected or actual offsite doses greater than or equal to 10% of the EPA Protective Action Guides (PAGs ). It includes both monitored and un-monitored releases. Releases of this magnitude are associated with the failure of plant systems needed for the protection of the public.
Radiological effluent EALs are also included to provide a basis for classifying events and conditions that cannot be readily or appropriately classified on the basis of plant conditions alone. The inclusion of both plant condition and radiological effluent EALs more fully addresses the spectrum of possible accident events and conditions.
The TEOE dose is set at 10% of the EPA PAG of 1000 mRem while the 500 mRem thyroid COE was established in consideration of the 1:5 ratio of the EPA PAG for TEOE and thyroid COE .
- Escalation of the.emergency classification level would be via IC RG1.
il:iCi!lii~J~~te.f~rice(§l: ,
1.
2.
NEI 99-01 Rev 6, AS1 Peach Bottom OOCM
- 3. EP-EAL-0607 Revision 1, Criteria for Choosing Radiological Gaseous Effluent EAL Threshold Values Peach Bottom Atomic Power Station
- 4. EP-AA-112-500, Emergency Environmental Monitoring January 2016 PBAPS 2-28 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY ABNORMAL RAD LEVELS I RADIOLOGICAL EFFLUENTS
- Initiating Condition:
Release of gaseous or liquid radioactivity resulting in offsite dose greater than 10 mRem TEDE or 50 mRem thyroid COE.
RA1 Operating Mode Applicability:
1, 2, 3, 4, 5, D Emergency Action Level (EAL):
Notes:
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- If an ongoing release is detected and the release start time is unknown, assume that the release duration has exceeded 15 minutes.
- Classification based on effluent monitor readings assumes that a release path to the environment is established. If the effluent flow past an effluent monitor is known to have stopped due to actions to isolate the release path, then the effluent monitor reading is no longer valid for classification purposes.
- The pre-calculated effluent monitor values presented in EAL #1 should be used for emergency classification assessments until the results from a dose assessment using actual meteorology are available.
- 1. Readings on ANY Table R1 Effluent Monitor> Table R1 value for~ 15 minutes.
- 2. Dose assessment using actual meteorology indicates doses at or beyond the site boundary of EITHER:
- 3. Analysis of a liquid effluent sample indicates a concentration or release rate that would result in doses greater than EITHER of the following at or beyond the site boundary
- b. 50 mRem COE Thyroid for 60 minutes of exposure
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY ABNORMAL RAD LEVELS I RADIOLOGICAL EFFLUENTS
- Em~rgency Action Level (EAL)Jcont):
- 4. Field survey results at or beyond the site boundary indicate EITHER:
a.
RA1 (cont)
Gamma (closed window) dose rates > 10 mR/tir are expected to continue for~ 60 minutes.
- b. Analyses of field survey samples indicate > 50 mRem COE Thyroid for 60 minutes of inhalation.
Table R1 - Effluent Monitor Thresholds Release Path Alert Main Stack (Rl-0-17-0508 Common) 5.57 E+07 uCi/sec Vent Stack (Rl-29798 Unit 2 or Rl-39798 Unit 3) 1.60 E+06 uCi/sec
- easis:
- This IC addresses a release of gaseous or liquid radioactivity that results in projected or actual offsite doses greater than or equal to 1% of the EPA Protective Action Guides (PAGs). It includes both monitored and un-monitored releases. Releases of this magnitude represent an actual or potential substantial degradation of the level of safety of the plant as indicated by a radiological release that significantly exceeds regulatory limits (e.g., a significant uncontrolled release).
Radiological effluent EALs are also included to provide a basis for classifying events and conditions that cannot be readily or appropriately classified on the basis of plant conditions alone. The inclusion of both plant condition and radiological effluent EALs more fully addresses the spectrum of possible accident events and conditions.
The TEOE dose is set at 1% of the EPA PAG of 1000 mRem while the 50 mRem thyroid COE was established in consideration of the 1:5 ratio of the EPA PAG for TEOE and thyroid COE.
Escalation of the emergency classification level would be via IC RU1 January 2016 P8APS 2-30 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY ABNORMAL RAD LEVELS I RADIOLOGICAL EFFLUENTS
- i~~;;'is ~ef~r~n~~(~l=
1.
2.
NEI 99-01 Rev 6, AA1 Peach Bottom ODCM RA1 {cont)
- 3. EP-EAL-0607 Revision 1, Criteria for Choosing Radiological Gaseous Effluent EAL Threshold Values Peach Bottom Atomic Power Station
- 4. EP-EAL-0614Revision 0 Peach Bottom Criteria for Choosing Radiological Liquid Effluent EAL Threshold Values January 2016 PBAPS 2-31 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY ABNORMAL RAD LEVELS I RADIOLOGICAL EFFLUENTS
- lr:-iJtiati11g Condition~,
Release of gaseous or liquid radioactivity greater than 2 times the ODCM limits for 60 minutes or longer.
RU1 Operat,in,g Mode. J!\ppli~at>ilfty: ..
1,2,3,4,5, D Emergency A~tion Level (EAi;):
Notes:
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- If an ongoing release is detected and the release start time is unknown, assume that the release duration has exceeded 60 minutes.
- Classification based on effluent monitor readings assumes that a release path to the environment is established. If the effluent flow past an effluent monitor is known to have stopped due to actions to isolate the release path, then the effluent monitor reading is no longer valid for classification purposes.
- 2. Reading on ANY of the following effluent monitors > 2 times alarm setpoint established by a current radioactive release discharge permit for
~ 60 minutes.
- Radwaste Discharge Effluent Monitor (Rl-0-17-350)
- Discharge Permit specified monitor OR
- 4. Readings on ANY Table R1 Effluent Monitor> Table R1 value for~ 60 minutes:
- 3. Confirmed sample analyses for gaseous or liquid releases indicate concentrations or release rates > 2 times ODCM Limit with a release duration of~ 60 minutes .
January 2016 PBAPS 2-32 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY ABNORMAL RAD LEVELS I RADIOLOGICAL EFFLUENTS
- :l::l!lerg~ncy Ac~i()n Level (EAL) (cont):.
Table R1 - Effluent Monitor Thresholds Release Path RU1 (cont)
Unusual Event Main Stack 6.36 E+05 uCi/sec (Rl-0-17-0508 Common) 6.36 E+05 uCi/sec Main Stack (Rl-0-17-050A Common) 1.82 E+04 uCi/sec Vent Stack (Rl-29798 Unit 2 or Rl-39798 Unit 3) 1.82 E+04 uCi/sec Vent Stack (Rl-2979A Unit 2 or Rl-3979A Unit 3)
Basis:*
This IC addresses a potential decrease in the level of safety of the plant as indicated by a low-level radiological release that exceeds regulatory commitments for an extended period of time (e.g., an uncontrolled release). It includes any gaseous or liquid radiological release, monitored or un-monitored, including those for which a radioactivity discharge permit is normally prepared.
Nuclear power plants incorporate design features intended to control the release of radioactive effluents to the environment. Further, there are administrative controls established to prevent unintentional releases, and to control and monitor intentional releases. The occurrence of an extended, uncontrolled radioactive release to the environment is indicative of degradation in these features and/or controls.
Radiological effluent EALs are also included to provide a basis for classifying events and conditions that cannot be readily or appropriately classified on the basis of plant conditions alone. The inclusion of both plant condition and radiological effluent EALs more fully addresses the spectrum of possible accident events and conditions.
Releases should not be prorated or averaged. For example, a release exceeding 4 times release limits for 30 minutes does not meet the EAL.
EAL #1 Basis This EAL addresses radioactivity releases that cause effluent radiation monitor readings to exceed 2 times the limit established by a radioactivity discharge permit. This EAL will typically be associated with planned batch releases from non-continuous release pathways (e.g., radwaste, waste gas) .
January 2016 P8APS 2-33 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY ABNORMAL RAD LEVELS I RADIOLOGICAL EFFLUENTS
- i8asis (cc?rjt): -
RU1 (cont)
The effluent monitors listed are those normally used for planned discharges. If a discharge is performed using a different flowpath or effluent monitor other than those listed (e.g., a portable or temporary effluent monitor), then the declaration criteria will be based on the monitor specified in the Discharge Permit.
EAL#2 Basis This EAL addresses normally occurring continuous radioactivity releases from monitored gaseous effluent pathways.
EAL #3 Basis This EAL addresses uncontrolled gaseous or liquid releases that are detected by sample analyses or environmental surveys, particularly on unmonitored pathways (e.g., spills of radioactive liquids into storm drains, heat exchanger leakage in river water systems, etc.).
Escalation of the emergency classification level would be via IC RA 1.
r~~sJs -~~f~r~~nce(s);
- 1. NEI 99-01 Rev 6, AU1
- 2. Peach Bottom ODCM
- 3. EP-EAL-0607 Revision 1, Criteria for Choosing Radiological Gaseous Effluent EAL Threshold Values Peach Bottom Atomic Power Station January 2016 - PBAPS 2-34 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY ABNORMAL RAD LEVELS I RADIOLOGICAL EFFLUENTS
- :inifi~!il'.ls:.c.<>rj~i!ion. =...
Spent fuel pool level cannot be restored to at least 1.00 ft as indicated on Ll(2)3-19-001A(B) for 60 minutes or longer.
Oper~ting Mocte. Applicability: .
- RG2 1,2,3,4,5,D
.Em~rg~pciActi~.l]~i..~v,e~ (EAL);:
Note: The Emergency Director should declare the General Emergency promptly, upon determining that the applicable time has been exceeded, or will likely be exceeded.
,,I Spent fuel pool level cannot be restored to at least 1.00 ft as indicated on Ll(2)3-19-001A(B) (equivalent to approximately 211' 6" elevation)for 60 minutes or longer.
~Basis:
This IC addresses a significant loss of spent fuel pool inventory control and makeup capability leading to a prolonged uncovery of spent fuel. This condition will lead to fuel damage and a radiological release to the environment.
It is recognized th~t this IC would likely not be met until well after another General Emergency IC was met; however, it is included to provide classification diversity.
- l~a~J~ f!~f~ren~~(~)L ~ .... *
- 1. NEI 99-01 Rev 6, AG2
- 2. PSTG APPENDIX B - T-103 Rev. 12, Exelon Nuclear PEACH BOTTOM UNITS 2 AND 3, SECONDARY CONTAINMENT CONTROL GUIDELINE
)
January 2016 PBAPS 2-35 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY ABNORMAL RAD LEVELS I RADIOLOGICAL EFFLUENTS
- (
- lnit~at!,11g c~n<!i~io11
- ,
Spent fuel pool level at 1.00 ft as indicated on Ll(2)3-19-001A(B)
,pperafing Mode ApplicC'lbility:
RS2 1,2,3,4,5,D
'EmeJgency ~~!ion Level, (~!\~):
Lowering of spent fuel pool level to1.00 ft as indicated on Ll(2)3-19-001A(B) (equivalent to approximately 211' 6" elevation)
Basis:
This IC addresses a significant loss of spent fuel pool inventory control and makeup capability leading to IMMINENT fuel damage. This condition entails major failures of plant functions needed for protection of the public and thus warrant a Site Area Emergency declaration.
It is recognized that this IC would likely not be met until well after another Site Area Emergency IC was met; however, it is included to provide classification diversity.
Escalation of the emergency classification level would be via IC RG1 or RG2.
- '~~si~J~~fer~nce(~):' _ ~,
1.
2.
NEI 99-01 Rev 6, AS2 PSTG APPENDIX B -T-103 Rev. 12, Exelon Nuclear PEACH BOTTOM UNITS 2 AND 3, SECONDARY CONTAINMENT CONTROL GUIDELINE January 2016 PBAPS 2-36 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic 'Power Station Annex Exelon Nuclear RECOGNITION CATEGORY ABNORMAL RAD LEVELS I RADIOLOGICAL EFFLUENTS
- Initiating ~c;ni~i~ion:
Significant lowering of water level above, or damage to, irradiated fuel.
Operating M~d~\,Appli~abil~~y:
RA2 1, 2, 3, 4, 5, D Emerg~n~y Act,to.1 L~eve((~AL):
- 1. Uncovery of irradiated fuel in the REFUELING PATHWAY.
- 2. Damage to irradiated fuel resulting in a release of radioactivity from the fuel as indicated by ANY Table R2 Radiation Monitor reading >1000 mRem/hr.
- 3. Lowering of spent fuel pool level to 10.00 ft as indicated on LI (2)3 001 A(B) (equivalent to approximately 220' 6" elevation)
Table R2 Refuel Floor ARM's
- Steam Separator Pool, 234 ELEV, 3.7 (7.9)
- Refuel Slot, 234 ELEV, 3.8 (7.10)
- Fuel Pool, 234 ELEV, 3.9 (7.11)
- Refueling Bridge, 234 ELEV, 3.10 (7.12)
REFUELING PATHWAY: all the cavities, tubes, canals and pools through which irradiated fuel may be moved or stored, but not including the reactor vessel below the flange.
IMMINENT: The trajectory of events or conditions is such that an EAL will be met within a relatively short period of time regardless of mitigation or corrective actions.
CONFINEMENT BOUNDARY: The irradiated fuel dry storage cask barrier(s) between areas containing radioactive substances and the environment.
This IC addresses events that have caused IMMINENT or actual damage to an irradiated fuel assembly. These events present radiological safety challenges to plant personnel and are precursors to a release of radioactivity to the environment. As such, they represent an actual or potential substantial degradation of the level of safety of the plant.
January 2016 PBAPS 2-37 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY ABNORMAL RAD LEVELS I RADIOLOGICAL EFFLUENTS
- '.i:J~-~is __{~Q!lJ): _ _ __,__
RA2 (cont)
This IC applies to irradiated fuel that is licensed for dry storage up to the point that the loaded storage cask is sealed. Once sealed, damage to a loaded cask causing loss of the CONFINEMENT BOUNDARY is classified in accordance with IC E-HU1.
EAL #1 Basis This EAL escalates from RU2 in that the loss of level, in the affected portion of the REFUELIN\G PATHWAY, is of sufficient magnitude to have resulted in uncovery of irradiated fuel. Indications of irradiated fuel uncovery may include direct or indirect visual observation (e.g., reports from personnel or camera images), as well as significant changes in water and radiation levels, or other plant parameters. If available, video cameras may allow remote observation. Computational aids may also be used (e.g., a boil-off curve). Classification of an event using this EAL should be based on the totality of available indications, reports and observations.
While an area radiation monitor could detect a rise in a dose rate due to a lowering of water level in some portion of the REFUELING PATHWAY, the reading may not be a reliable indication of whether or not the fuel is actually uncovered. To the degree possible, readings should be considered in combination with other available indications of inventory loss.
A drop in water level above irradiated fuel within the reactor vessel may be classified in accordance Recognition Category C during the Cold Shutdown and Refueling modes.
EAL#2 Basis This EAL addresses a release of radioactive material caused by mechanical damage to irradiated fuel. Damaging events may include the dropping, bumping or binding of an assembly, or dropping a heavy load onto an assembly. A rise in readings on radiation monitors should be considered in conjunction with in-plant reports or observations of a potential fuel damaging event (e.g., a fuel handling accident).
EAL #3 Basis:
Spent fuel pool water level at this value is within the lower end of the level range necessary to prevent significant dose consequences from direct gamma radiation to personnel performing operations in the vicinity of the spent fuel pool. This condition reflects a significant loss of spent fuel pool water inventory and thus it is also a precursor to a loss of the ability to adequately cool the irradiated fuel assembles stored in the pool.
Escalation of the emergency would be based on either Recognition Category R or C ICs .
January 2016 PBAPS 2-38 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY ABNORMAL RAD LEVELS I RADIOLOGICAL EFFLUENTS
- f~~~J§J~efex~r:-~~,(~):,:, ___ . -*--~-- ...
1.
2.
NEI 99-01 Rev 6, AA2 ON-124, Fuel Floor and Fuel Handling Problems RA2 (cont)
- 3. P-S-43, Radiation Monitoring System
- 4. ARC 003-00C214 B-4, Refueling Floor Area Hi Radiation
- 5. ARC 20C075 C-1, Fuel Storage Pool Hi Radiation
- 6. Peach Bottom ECR titled "Fukushima Modification - U3 Spent Fuel Pool Level Instruments", Doc- 13-00508, Sheet A1893550,*Dated 3/26/15, Rev 00, Attachment 1 Section 3.19 January 2016 PBAPS 2-39 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY ABNORMAL RAD LEVELS I RADIOLOGICAL EFFLUENTS
- :Initiating Co_ndition: __ _
UNPLANNED loss of water level above irradiated fuel.
Op~rating Mode j:\ppiicabmfy~
RU2 1,2,3,4,5,D
- Emerge~cy Actic;>n_.Level .(EAL): .
- 1. a. UNPLANNED water level drop in the REFUELING PATHWAY as indicated by ANY of the following:
- Refueling Cavity water level < 458 inches on Shutdown/Refuel Range indicator Ll-2(3)-2-3-86 or PR/FR-2(3)-06-097.
- Spent Fuel Pool level < 232 feet 3 inches plant elevation.
- Indication or report of a drop in water level in the REFUELING PATHWAY.
AND
- b. UNPLANNED Area Radiation Monitor reading rise on one or more radiation monitors in Table R2 .
Table R2 Refuel Floor ARM's
- Steam Separator Pool, 234 ELEV, 3.7 (7.9)
- Refuel Slot, 234 ELEV, 3.8 (7.10)
- Fuel Pool, 234 ELEV, 3.9 (7.11)
- Refueling Bridge, 234 ELEV, 3.10 (7 .12)
January 2016 PBAPS 2-40 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY ABNORMAL RAD LEVELS I RADIOLOGICAL EFFLUENTS
- !~~sis:
UNPLANNED: A parameter change or an event that is not 1) the result of an intended RU2 (cont) evolution or 2) an expected plant response to a transient. The cause of the parameter change or event may be known or unknown.
REFUELING PATHWAY: all the cavities, tubes, canals and pools through which irradiated fuel may be moved or stored, but not including the reactor vessel below the flange.
This IC addresses a loss in water level above irradiated fuel sufficient to cause elevated radiation levels. This condition could be a precursor to a more serious event and is also indicative of a minor loss in the ability to control radiation levels within the plant. It is therefore a potential degradation in the level of safety of the plant.
A water level loss will be primarily determined by indications from available level instrumentation. Other sources of level indications may include reports from plant personnel (e.g., from a refueling crew) or video camera observations (if available) or from any other temporarily installed monitoring instrumentation. A significant drop in the water level may also cause a rise in the radiation levels of adjacent areas that can be detected by monitors in those locations.
The effects of planned evolutions should be considered. For example, a refueling bridge
- area radiation monitor reading may rise due to planned evolutions such as lifting of the reactor vessel head or movement of a fuel assembly. Note that this EAL is applicable only in cases where the elevated reading is due to an UNPLANNED loss of water level.
A drop in water level above irradiated fuel within the reactor vessel may be classified in accordance Recognition Category C during the Cold Shutdown and Refueling modes.
Escalation of the emergency classification level would be via IC RA2.
i~asis_ ~efer~n-~e(s): _____ _
- 1. NEI 99-01 Rev 6, AU2
- 2. Technical Specifications 3.9.6, Reactor Pressure Vessel (RPV) Water Level
- 3. ON-124, Fuel Floor and Fuel Handling Problems
- 4. P-S-43, Radiation Monitoring System
- 5. ARC 003-00C214 8-4, Refueling Floor Area Hi Radiation
- 6. ARC 20C075 C-1, Fuel Storage Pool Hi Radiation
- 7. GP-6, Refueling Operations January 2016 PBAPS 2-41 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY ABNORMAL RAD LEVELS I RADIOLOGICAL EFFLUENTS
- ;lr,1itiatit:1gConditjon:.*
Radiation levels that impede access to equipment necessary for normal plant operations, cooldown or shutdown.
RA3
~()p~raJ:!ng M_o~e~~PJ>!iCii_bi_lity:
1, 2, 3, 4,,5, D
- i;rriergency Ac!iolJ L:eyel (';At--):
Note:
- If the equipment in the room or area listed in Table R4 was already inoperable, or out of service, before the event occurred, then no emergency classification is warranted.
- Dose rate > 15 mR/hr in ANY of the following Table R3 areas:
Table R3 Areas Requiring Continuous Occupancy
- Main Control Room
- Central Alarm Statio~ - (by survey)
- UNPLANNED event results in radiation levels that prohibit or significantly impede access to ANY of the following Table R4 plant rooms or areas:
Table R4 Areas with Ent Related Mode Applicabili Entry Related Mode Area of concern Applicabilit Reactor Buildin Modes 3, 4, and 5 135' all areas January 2016 PBAPS 2-42 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY ABNORMAL RAD LEVELS I RADIOLOGICAL EFFLUENTS
- Basis:
- - - ~ - -
RA3 (cont)
UNPLANNED: A parameter change or an event that is not 1) the result of an intended evolution or 2) an expected plant response to a transient. The cause of the parameter change or event may be known or unknown.
This IC addresses elevated radiation levels in certain plant rooms/areas sufficient to preclude or impede personnel from performing actions necessary to transition the plant from normal plant operation to cooldown and shutdown as specified in normal plant procedures.
As such, it represents an actual or potential substantial degradation of the level of safety of the plant. The Emergency Director should consider the cause of the rised radiation levels and determine if another IC IT)ay be applicable.
Assuming all plant equipment is operating as designed, normal operation is capable from the Main Control Room (MCR). The plant is -also able to transition into a hot shutdown condition from the MCR, therefore Table R4 is a list of plant rooms or areas with entry-related mode applicability that contain equipment which require a manual/local action necessary to transition the plant from normal plant operation to cooldown and shutdown as specified in normal operating procedures (establish shutdown cooling), where if this action is not completed the plant would not be able to attain and maintain cold shutdown.
This Table does not include rooms or areas for which entry is required solely to perform
- actions of an administrative or record keeping nature (e.g., normal rounds or* routine inspections).
Rooms and areas listed in EAL #1 do not need to be included in EAL #2, including the Control Room.
For EAL #2, an Alert declaration is warranted if entry into the affected room/area is, or may be, procedurally required during the plant operating mode in effect and the elevated radiation levels preclude the ability to place shutdown cooling in service. The emergency classification is not contingent upon whether entry is actually necessary at the time of the increased radiation levels. Access should be considered as impeded if extraordinary measures are necessary to facilitate entry of personnel into the affected room/area (e.g.,
installing temporary shielding beyond that required by procedures, requiring use of non-routine protective equipment, requesting an extension in dose limits beyond normal administrative limits).
An emergency declaration is not warranted if any of the following conditions apply.
- The plant is in an operating mode different than the mode specified for the affected room/area (i.e., entry is not required during the operating mode in effect at the time of the elevated radiation levels). For example, the plant is in Mode 1 when the radiation rise occurs, and the procedures used for normal operation, cooldown and shutdown do not require entry into the affected room until Mode 4 .
January 2016 PBAPS 2-43 EP-M-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY ABNORMAL RAD LEVELS I RADIOLOGICAL EFFLUENTS
- '.B~~i~ (~o!!tl: .. ~
The increased radiation levels are a result of a planned activity that includes compensatory measures which address the temporary inaccessibility of a room or area (e.g., radiography, spent filter or resin transfer, etc.).
RA3 (cont)
- The action for which room/area entry is required is of an administrative or record keeping nature (e.g., normal rounds or routine inspections).
- The access control measures are of a conservative or precautionary nature, and would not actually prevent or impede a required action.
- Escalation of the emergency classification level would be via Recognition Category R, C or F ICs.
Basis Reference("s):*
~- 0 ~ * .___.,;;;_,',~ "* ::-"' .-~~,, __,:o,__-_, <-. ,,, __ ,,. ""'""' ,, '
- 1. NEI 99-01 Rev 6, AA3
- 2. FSAR Section describing Class I structures
- 3. Appendix R Analysis defining Safe Shutdown Area
- 4. P-S-43, Radiation Monitoring System
- 5. T-300, Fire Guides
- 6. SO 10.1.8-2(3), "Residual Heat Removal System Shutdown Cooling Mode Manual Start" January 2016 PBAPS 2-44 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY ABNORMAL RAD LEVELS I RADIOLOGICAL EFFLUENTS
- Jnitiati~g Condition:*
Reactor coolant activity greater than Technical Specification allowable limits.
Operatir:ig Moc!.e A,pplica,l,:>ility:
RU3 1, 2, 3
,f;mergency.Action L~velJEAL):
- 1. Air Ejector discharge radiation monitor RIS-2(3)-17-150 A/B Hi-Hi alarm.
- 2. Specific coolant activity> 4.0 uCi/gm Dose equivalent 1-131.
!Basis:
This IC addresses a reactor coolant activity value that exceeds an allowable limit specified in Technical Specifications. This condition is a precursor to a more significant event and represents a potential degradation of the level of safety of the plant.
Conditions that cause the specified monitor to alarm that are not related to fuel clad degradation should not result in the declaration of an Unusual Event.
This EAL addresses site-specific radiation monitor readings that provide indication of a degradation of fuel clad integrity .
Escalation of the emergency classification level would be via ICs FA1 or the Recognition Category R ICs.
- a~~is ~~ferenc~(sl;.
- 1. NEI 99-01 Rev 6, SU3
- 2. Technical Specifications 3.4.6, RCS Specific Activity
- 3. Technical Specifications 3.7.5, Main Condenser Offgas
- 4. DBD P-S-30, Offgas System
- 5. ARC 218 20C210 E-1, Air Ejector Discharge Radiation High-High January 2016 PBAPS 2-45 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION FG1
!Initiating Coridition: .
Loss of ANY Two Barriers AND Loss or Potential Loss of the third barrier.
Operating Mode Applicability.:
1, 2, 3 Emergency Action Level (EAL):.
Refer to Fission Product Barrier Loss and Potential Loss threshold values to determine barrier status.
- Basis:
Fuel Cladding, RCS and Containment comprise the fission product barriers.
At the General Emergency classification level each barrier is weighted equally.
lB(lsis ~eferer'lce.(s):
- 1. NEI 99-01 Rev 6, Table 9-F-2
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION FS1
- Loss or Potential Loss of ANY two barriers.
- Operci!gng M~de_Applicability:
1, 2, 3
- E~-ergEH!gy _A9ti~n Levei (E~L):* **
Refer to Fission Product Barrier Loss and Potential Loss threshold values to determine barrier status.
Basis:
Fuel Cladding, RCS and Containment comprise the fission product barriers.
At the Site Area Emergency classification level, each barrier is weighted equally.
- .B.C!~J~ ~efere'J.~~(5-):_ ..*. _* __ ---*----
- 1. NEI 99-01 Rev 6, Table 9-F-2
- January 2016 PBAPS 2-47 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex
- Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION FA1
!nitia~ing ~orid.ition:. 2~* * ...*
ANY Loss or ANY Potential Loss of either Fuel Clad or RCS.
9t?~rating:~ivlo_de Al?~u~~llmw: ,
1, 2, 3
- ~IIIJ~rgency *Ac~iQn *~e"~I JEAL):* ..
Refer to Fission Product Barrier Loss and Potential Loss threshold values to determine barrier status.
~~~is:
Fuel Cladding, RCS and Containment comprise the fission product barriers.
At the Alert classification level, Fuel Cladding and RCS barriers are weighted more heavily than the Containment barrier. Unlike the Containment barrier, loss or potential loss of either the Fuel Cladding or RCS barrier may result in the relocation of radioactive materials or degradation of core cooling capability. Note that the loss or potential loss of Containment barrier in combination with loss or potential loss of either Fuel Cladding or RCS barrier results in declaration of a Site Area Emergency under EAL FS1.
ll:i~~is R.~t~(~nc~(~i= *
- 1. NEI 99-01 Rev 6, Table 9-F-2
- January 2016 PBAPS 2-48 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION FC1 Initiating Condition:
RCS Activity Operating Mode Applicability:
1, 2, 3 Fission Product Barrier (FPB) Threshold:
LOSS Coolant activity> 300 uCi/gm Dose Equivalent 1-131.
Basis:
This threshold indicates that RCS radioactivity concentration is greater than 300 µCi/gm dose equivalent 1-131. Reactor coolant activity above this level is greater than that expected for iodine spikes and corresponds to an approximate range of 2% to 5% fuel clad damage. Since this condition indicates that a significant amount of fuel clad damage has occurred, it represents a loss of the Fuel Clad Barrier.
It is recognized that sample collection and analysis of reactor coolant with highly elevated activity levels could require several hours to complete. Nonetheless, a sample-related threshold is included as a backup to other indications.
There is no Potential Loss threshold associated with RCS Activity.
- Basis Reference(s):
- 1. NEI 99-01 Rev 6, Table 9-F-2
- January 2016 PBAPS 2-49 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION FC2
~lnitia!i!!g ~c:>!'.lslitlon: " , .
RPV Water Level
'<)p~f!r~ti.r'.Jg Mc:>~e :AP~lic;~bffinr:
1, 2, 3 Fissi~n~ Prosl"~cf B.C!r!if!r (f PB) Threshold:
LOSS
- 1. Plant conditions indicate Primary Containment flooding is required.
POTENTIAL LOSS
- 3. RPV water level cannot be determined.
rea~'i'~:'
Loss Threshold #1 Basis The Loss threshold represents the EOP requirement for primary containment flooding.
This is identified in the BWROG EOPs/SAMPs when the phrase, "Primary Containment Flooding Is Required," appears. Since a site-specific RPV water level is not specified
- here, the Loss threshold phrase, "Primary containment flooding required," also accommodates the EOP need to flood the primary containment when RPV water level cannot be determined and core damage due to inadequate core cooling is believed to be occurring.
Potential Loss Threshold #2 and #3 Basis This water level corresponds to the top of the active fuel and is used in the EOPs to indicate a challenge to core cooling.
The RPV water level threshold is the same as RCS Barrier RC2 Loss threshold. Thus, this threshold indicates a Potential Loss of the Fuel Clad barrier and a Loss of the RCS barrier that appropriately escalates the emergency classification level to a Site Area Emergency.
This threshold is considered to be exceeded when, as specified in the site-specific EOPs, RPV water level cannot be restored and maintained above the specified level following depressurization of the RPV (either manually, automatically or by failure of the RCS barrier) or when procedural guidance or a lack of low pressure RPV injection sources preclude Emergency RPV depressurization. EOPs allow the operator a wide choice of RPV injection sources to consider when restoring RPV water level to within prescribed limits. EOPs also specify depressurization of the RPV in order to facilitate
- January 2016 PBAPS 2-50 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION
_FC2 (cont}
- (3-a~~~L(~ont): _ _____: :_ -
RPV water level control with low-pressure injection sources. In some events, elevated RPV pressure may prevent restoration of RPV water level until pressure drops below the shutoff heads of available injection sources. Therefore, this Fuel Clad barrier Potential Loss is met only after either: 1) the RPV has been depressurized, or required emergency RPV depressurization has been attempted, giving the operator an opportunity to assess the capability of low-pressure injection sources to restore RPV water level or 2) no low pressure RPV injection systems are available, precluding RPV depressurization in an attempt to minimize loss of RPV inventory.
The term "cannot be restored and maintained above" means the value of RPV water level is not able to be brought above the specified limit (top of active fuel). The determination requires an evaluation of system performance and availability in relation to the RPV water level value and trend. A threshold prescribing declaration when a threshold value cannot be restored and maintained above a specified limit does not require immediate action simply because the current value is below the top of active fuel, but does not permit extended operation below the limit; the threshold must be considered reached as soon as it is apparent that the top of active fuel cannot be attained Entry into the "Steam Cooling" leg of the EOPs would be an example of an inability to "restore and maintain" level above TAF resulting in this threshold being met.
- In high-power ATWS/failure to scram events, EOPs may direct the operator to deliberately lower RPV water level in order to reduce reactor power. Although such action is a challenge to core cooling and the Fuel Clad barrier, the immediate need to reduce reactor power is the higher priority. For such events, ICs MA3 or MS3 will dictate the need for emergency classification.
Since the loss of ability to determine if adequate core cooling is being provided presents a significant challenge to the fuel clad barrier, a potential loss of the fuel clad barrier is specified.
!_13.~~*~ Ref~-r~ij£e(s1;
- 1. NEI 99-01 Rev 6, Table 9-F-2
- 2. T-BAS INTRO, INTRODUCTION TO TRIPS AND SAMPS - BASES
- 3. T-101, RPV Control Bases
- 4. T-111, Level Restoration
- January 2016 PBAPS 2-51 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION FC5 Initiating Condition:
Primary Containment Radiation Operating Mode Applicability:
1, 2, 3 Fission Product Barrier (FPB) Threshold:
LOSS Drywell radiation monitor reading > 9.55 E+02 R/hr.
'.Basis:
The radiation monitor reading corresponds to an instantaneous release of all reactor coolant mass into the primary containment, assuming that reactor coolant activity equals 300 µCi/gm dose equivalent 1-131. Reactor coolant activity above this level is greater than that expected for iodine spikes and corresponds to an approximate range of 2% to 5% fuel clad damage. Since this condition indicates that a significant amount of fuel clad damage has occurred, it represents a loss of the Fuel Clad Barrier.
The radiation monitor reading in this threshold is higher than that specified for RCS Barrier RC5 Loss Threshold since it indicates a loss of both the Fuel Clad Barrier and the RCS Barrier. Note that a combination of the two monitor readings appropriately escalates the emergency classification level to a Site Area Emergency .
- There is no Fuel Clad Barrier Potential Loss threshold associated with Primary Containment Radiation.
Basis Reference(s):
- 1. NEI 99-01 Rev 6, Table 9-F-2
- 2. Core. Damage Assessment Methodology
- 3. ARC-005-00C226D-B-5, Unit 3 Containment Radiation Monitor Hi-Rad
- 4. DBD P-S-43, Radiation Monitoring System January 2016 PBAPS 2-52 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION
- ;Initiating Condition:
. .,. . ' - -~
Emergency Director Judgment.
_Operat_in_g*_ Mode Applicability:
FC7 1, 2, 3 F_ission _P~odu~t Barrier. (FPB) Threshol_d:
LOSS
- 1. Any condition in the opinion of the Emergency Director that indicates Loss of the Fuel Clad Barrier.
POTENTIAL LOSS
- 2. Any condition in the opinion of the Emergency Director that indicates Potential Loss of the Fuel Clad Barrier.
'Basis:
Loss Threshold #1 Basis This threshold addresses any other factors that are to be used by the Emergency Director in determining whether the Fuel Clad Barrier is lost.
Potential Loss Threshold #2 Basis This threshold addresses any other factors that may be used by the Emergency Director
- in determining whether the Fuel Clad Barrier is potentially lost. The Emergency Director should also consider whether or not to declare the barrier potentially lost in the event that barrier status cannot be monitored.
t~a~is.. ~~ferenc;~.(~):
- 1. NEI 99-01 Rev 6, Table 9-F-2
- January 2016 PBAPS 2-53 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY flSSION PRODUCT BARRIER DEGRADATION RC2 lnitiating..Co"!d_itiOn: _
RPV Water Level Op~rati~g IV!~de Appli~ibility:
- 1, 2, 3 Fissi~n Pro~µc:t Barrier(F~.B) Threshold:
- LOSS
- 1. RPV water level cannot be restored and maintained > -172 inches {TAF).
- 2. RPV water level cannot be determined.
r8asis't. ".. . .. " " "~~" ..
This water level corresponds to the Top of Active Fuel (TAF) and is used in the EOPs to indicate challenge to core cooling.
The RPV water level threshold is the same as. Fuel Clad Barrier FC2 Potential Loss threshold. Thus, this threshold indicates a Loss of the RCS barrier and Potential Loss of the Fuel Clad barrier and that appropriately escalates the emergency classification level to a Site Area Emergency.
This threshold is considered to be exceeded when, as specified in the site-specific EOPs, RPV water level cannot be restored and maintained above the specified level following depressurization of the RPV (either manually, automatically or by failure of the RCS barrier) or when procedural guidance or a lack of low pressure RPV injection sources preclude Emergency RPV depressurization EOPs allow the operator a wide choice of RPV injection sources to consider when restoring RPV water level to within prescribed limits. EOPs also specify depressurization of the RPV in order to facilitate RPV water level control with low-pressure injection sources. In some events, elevated RPV pressure may prevent restoration of RPV water level until pressure drops below the shutoff heads of available injection sources. Therefore, this RCS barrier Loss is met only after either: 1) the RPV has been depressurized, or required emergency RPV depressurization has been attempted, giving the operator an opportunity to assess the capability of low-pressure injection sources to restore RPV water level or 2) no low pressure RPV injection systems are available, precluding RPV depressurization in an attempt to minimize loss of RPV inventory.
- January 2016 PBAPS 2-54 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION RC2 (cont)
- Basis (con~)
- __
The term, "cannot be restored and maintained above," means the value of RPV water level is not able to be brought above the specified limit (top of active fuel). The determination requires an evaluation of system performance and availability in relation to the RPV water level value and trend. A threshold prescribing declaration when a threshold value cannot be restored and maintained above a specified limit does not require immediate action simply because the current value is below the top of active fuel, but does not permit extended operation beyond the limit; the threshold must be considered reached as soon as it is apparent that the top of active fuel cannot be attained.
Entry into the "Steam Cooling" leg of the EOP's would be an example of an inability to "restore and maintain" level above TAF resulting in this threshold being met.
In high-power ATWS/failure to scram events, EOPs may direct the operator to deliberately lower RPV water level in order to reduce reactor power. Although such action is a challenge to core cooling and the Fuel Clad barrier, the immediate need to reduce reactor power is the higher priority. For such events, ICs MA3 or MS3 will dictate the need for emergency classification.
There is no RCS Potential Loss threshold associated with RPV Water Level.
~~sf~Refere,flce,(s): ....
- 1. NEI 99-01 Rev 6, Table 9-F-2
- 2. T-BAS INTRO, INTRODUCTION TO TRIPS AND SAMPS - BASES
- 3. T-101, RPV Control Bases
- 4. T-111, Level Restoration
- January 2016 PBAPS 2-55 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION RC3 i~niticiti_11g_9_(:,ndition: ..
Primary Containment Pressure Operating Mode ~plicability_:,
1, 2, 3 fissi~n P..~oduc::t B~r~ierJFPB) Threshold:_ .
LOSS
- 1. Drywell pressure >2.0 psig.
AND
- 2. Drywell pressure rise is due to RCS leakage 1
Basis:
The > 2.0 psig primary containment pressure is the Drywell high pressure setpoint which indicates a LOCA by automatically initiating ECCS.
The second threshold condition focuses the fission product barrier loss threshold on a failure of the RCS instead of the non-LOCA malfunctions that may adversely affect primary containment pressure. Pressures of this magnitude can be caused by non-LOCA events such as a loss of Drywell cooling or inability to control primary containment vent/purge.
There is no Potential Loss threshold associated with Primary Containment Pressure .
1
~~~is)~efe~e.n4,~(s); , *
- 1. NEI 99-01 Rev 6, Table 9-F-2
- 2. T-102, Primary Containment Control-Bases
- 3. T-101, RPV Control
- January 2016 PBAPS 2-56 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY F~SSION PRODUCT BARRIER DEGRADATION RC4 lnitiatirig Condition:
RCS Leak Rate Operating Nto~e Applicability:
1, 2, 3 Fiss)o".1 Produ~tB~rrier (FPB) tiireshol~:
- LOSS
- 2. Emergency RPV Depressurization is required.
POTENTIAL LOSS
- 3. UNISOLABLE primary system leakage that results in EITHER of the following:
- a. Secondary Containment area temperature > T-103 Alarm Setpoint.
- b. Secondary Containment radiation level > T-103 Alarm Setpoint.
UNISOLABLE: An open or breached system line that cannot be isolated, remotely or locally.
Failure to isolate the leak, within 15 minutes or if known that the leak cannot be isolated
- within 15 minutes, from the start of the leak requires immediate classification .
Classification of a system break over system* leakage is based on information available to the Control Room from the event. Indications that should be considered are:
- Reports describing magnitude of steam or water release.
- Use of system high flow alarms I indications, if available,
- Significant changes in makeup requirements,
- Abnormal reactor water level changes in response to the event.
The use of the above indications provides the Control Room the bases to determine that the on going event is more significant than the indications that would be expected from system leakage and therefore should be considered a system break.
Loss Threshold #1 Basis Large high-energy lines that rupture outside primary containment can discharge significant amounts of inventory and jeopardize the _pressure-retaining capability of the RCS until they are isolated. If it is determined that the ruptured line cannot be promptly isolated, the RCS barrier Loss threshold is met.
- January 2016 PBAPS 2-57 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION RC4 (cont)
B~sis (c'ont):
Loss Threshold #2 Basis Emergency RPV Depressurization in accordance with the EOPs is indicative of a loss of the RCS barrier. If Emergency RPV Depressurization is performed, the plant operators are directed to open safety relief valves (SRVs) and keep them open. Even though the RCS is being vented into the torus, a Loss of the RCS barrier exists due to the diminished effectiveness of the RCS to retain fission products within its boundary.
Potential Loss Threshold #3 Basis Potential loss of RCS based on primary system leakage outside the primary containment is determined from EOP temperature or radiation Max Normal Operating values in areas such as main steam line tunnel, RCIC, HPCI, etc., which indicate a direct path from the RCS to areas outside primary containment.
A Max Normal Operating value is the highest value of the identified parameter expected to occur during normal plant operating conditions with all directly associated support and control systems functioning properly.
The indicators reaching the threshold barriers and confirmed to be caused by RCS leakage from a primary system warrant an Alert classification. A primary system is defined to be the pipes, valves, and other equipment which connect directly to the RPV such that a reduction in RPV pressure will effect a decrease in the steam or water being discharged through an unisolated break in the system.
In general, multiple indications should be used to determine if a primary system is discharging outside Primary Containment. For example, a high area radiation condition does not necessarily indicate that a primary system is discharging into the Reactor Building since this may be caused by radiation shine from nearby steam lines or the movement of radioactive materials. Conversely, a high area radiation condition in conjunction with other indications (e.g. room flooding, high area temperatures, reports of steam in the Reactor Building, an unexpected rise in Feedwater flowrate, or unexpected Main Turbine Control Valve closure) may indicate that a primary system is discharging into the Reactor Building.
An UNISOLABLE leak which is indicated by Max Normal Operating values escalates to a Site Area Emergency when combined with Containment Barrier CT6 Loss Threshold
- 1 (after a containment isolation) and a General Emergency when the Fuel Clad Barrier criteria is also exceeded.
l~~si~.R~ferE!nC:!!(s); .
- 1. NEI 99-01 Rev 6, Table 9-F-2
- 2. T-103, Secondary Containment Control
- January 2016 PBAPS 2-58 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION RCS Initiating Conditfon;
- oo* 'o<- ***'- *** --*
Primary Containment radiation Operati11g Mode Ap~lica~ili~y:
1, 2, 3 Fissicm Product ~~rri~r (FPl;S)Threshold:
LOSS Drywell radiation monitor reading > 1OOR/hr.
1Basis: **
The radiation monitor reading corresponds to an instantaneous release of all reactor coolant mass into the primary containment, assuming that reactor coolant activity equals Technical Specification allowable limits. This value is lower than that specified for Fuel Clad Barrier FC5 Loss Threshold since it indicates a Joss of the RCS Barrier only.
There is no RCS Potential Loss threshold associated with Primary Containment Radiation.
'~*~~is J~~f_ereri~E!(~); ,, ~- *- * *
- 1. NEI 99-01 Rev 6, Table 9-F-2
- 2. EP-EAL-0611, Criteria for Choosing Containment Radiation Monitor Reading Indicative of Loss of RCS Barrier
- January 2016 PBAPS 2-59 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION RC7 Initiating Condition: ..
Emergency Director Judgment.
- Operating Mode Applicability
1, 2, 3 Fission Product Barrier (FPB) Threshold:
LOSS
- 1. Any condition in the opinion of the Emergency Director that indicates Loss of the RCS Barrier.
POTENTIAL LOSS
- 2. Any condition in the opinion of the Emergency Director that indicates Potential Loss of the RCS Barrier.
Basis:
Loss Threshold #1 Basis ,_
This threshold addresses any other factors that are to be used by the Emergency Director in determining whether the RCS Barrier is lost.
Potential Loss Threshold #2 Basis This threshold addresses any other factors that may be used by the Emergency Director
- in determining whether the RCS Barrier is potentially lost. The Emergency Director should also consider whether or not to declare the barrier potentially lost in the event that barrier status cannot be monitored.
iBasis ~~f~rence(~}:*~..*
- 1. NEI 99-01 Rev 6, Table 9-F-2
- January 2016 PBAPS 2-60 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION CT2 lr1itiating*<;onditL~n_:
RPV Water Level
,qpef~ting Mode Applicabmty_:
1, 2, 3
.Fis!;i()n -Product Bc:urie~_ (FPB) Threshold:
POTENTIAL LOSS Plant conditions indicate Primary Containment flooding is required.
- easis:
The Potential Loss threshold is identical to the Fuel Clad Barrier FC2 Loss threshold RPV Water Level. The Potential Loss requirement for Primary Containment Flooding indicates adequate core cooling cannot be restored and maintained and that core damage is possible. BWR EOPs/SAMPs specify the conditions that require primary containment flooding. When primary containment flooding is required, the EOPs are exited and SAMPs are entered. Entry into SAMPs is a logical escalation in response to the inability to restore and maintain adequate core cooling.
PRA studies indicate that the condition of this Potential Loss threshold could be a core melt sequence which, if not corrected, could lead to RPV failure and increased potential for primary containment failure. In conjunction with the RPV water level Loss thresholds
- in the Fuel Clad and RCS barrier columns, this threshold results in the declaration of a General Emergency.
!Ba~is ~ete'r~_r19e(s):. _'
- 1. NEI 99-01 Rev 6, Table 9-F-2
- 2. T-111, Level Restoration (LR)- Bases
- 3. T-116, RPV Flooding - Bases
- 4. T-117, Level/Power Control - Bases
- 5. TRIP/SAMP Curves, Tables, And Limits - Bases
- 6. T-BAS (INTRO), Introduction To Trips And Samps - Bases
- January 2016 PBAPS 2-61 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION CT3 Initiating
. . Condition:
Primary Containment Conditions Ope.rating_ Mode Applicability:
1, 2, 3 Fission Product B~rrier (FPBl l!ire-shol&
LOSS
- 1. UNPLANNED rapid drop in Drywell pressure following primary containment pressure rise.
- 2. Drywell pressure response not consistent with LOCA conditions.
POTENTIAL LOSS
- 3. Drywell pressure > 56 psig and rising.
- 4. a. Drywell or Torus Hydrogen concentration > 6%.
AND
- b. Drywell or Torus Oxygen concentration > 5%.
- 5. Heat Capacity Limit (T-102 Curve T/T-1 or T/T-2) exceeded.
- Basis:
- UNPLANNED: A parameter change or an event that is not 1) the result of an intended evolution or 2) an expected plant response to a transient. The cause of the parameter change or event may be known or unknown.
Loss Threshold #1 and #2 Basis Rapid UNPLANNED loss of primary containment pressure (i.e., not attributable to Drywell spray or condensation effects) following an initial pressure rise indicates a loss of primary containment integrity. Primary containment pressure should rise as a result of mass and energy release into the primary containment from a LOCA. Thus, primary containment pressure not increasing under these conditions indicates a loss of primary containment integrity.
These thresholds rely on operator recognition of an unexpected response for the condition and therefore a specific value is not assigned. The unexpected (UNPLANNED) response is important because it is the indicator for a containment bypass condition. A pressure suppression bypass path would not be an indication of a containment breach .
- January 2016 PBAPS 2-62 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION CT3 (cont)
BC:tsis (con~):
Potential Loss Threshold #3 Basis The threshold pressure is the primary containment internal design pressure. Structural acceptance testing demonstrates the capability of the primary containment to resist pressures greater than the internal design pressure. A pressure of this magnitude is greater than those expected to result from any design basis accident and, thus, represent a Potential Loss of the Containment barrier.
Potential Loss Threshold #4 Basis If hydrogen concentration reaches or exceeds the lower flammability limit, as defined in plant EOPs, in an oxygen rich environment, a potentially explosive mixture exists. If the combustible mixture ignites inside the primary containment, loss of the Containment barrier could occur.
Potential Loss Threshold #5 Basis The HCTL is a function of RPV pressure, torus temperature and torus water level. It is utilized to preclude failure of the containment and equipment in the containment necessary for the safe shutdown of the plant and therefore, the inability to maintain plant parameters below the limit constitutes a potential loss of containment.
- Ba.~is Refereri_ce(s>;
- 1.
2.
3.
4.
NEI 99-01 Rev 6, Table 9-F-2 T-BAS INTRO, INTRODUCTION TO TRIPS AND SAMPS - BASES UFSAR Section 5.2.4, Primary Containment Safety Evaluation T-102 Primary Containment Control-Bases
- 5. DBD P-T-12, Design Basis Accidents, Transients and Events
- 6. DBD P-T-02, Containment, Section 3.2.14
- January 2016 PBAPS 2-63 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Propriet~ry Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION CT5
- l11itiatin_g Conditi~n:
Primary Containment Radiation
,Operating Mode Applicability:'
- 1, 2, 3 fission produ~t Barri~r~ (FPB)_ihreshold:
POTENTIAL LOSS Drywell radiation monitor reading > 2.20 E+03 R/hr.
- Basis:
There is no Loss threshold associated with Primary Containment Radiation.
The radiation monitor reading corresponds to an instantaneous release of all reactor coolant mass into the primary containment, assuming that 20% of the fuel cladding has failed. This level of fuel clad failure is well above that used to determine the analogous Fuel Clad Barrier Loss and RCS Barrier Loss thresholds.
NUREG-1228, Source Estimations During Incident Response to Severe Nuclear Power Plant Accidents, indicates the fuel clad failure must be greater than approximately 20%
in order for there to be a major release of radioactivity requiring offsite protective actions. For this condition to exist there must already have been a loss of the RCS
- Barrier and the Fuel Clad Barrier. It is therefore prudent to treat this condition as a potential loss of containment which would then escalate the emergency classification level to a General Emergency.
~~e1si~ R~Jeren~~(!;): .. * .*....
- 1. NEI 99-01 Rev 6, Table 9-F-2
- 2. Core Damage Assessment Methodology
- 3. ARC-005-00C226D-B-5 Unit 3 Containment Radiation Monitor Hi-Rad
- 4. DBD P-S-43, Radiation Monitoring System
- January 2016 PBAPS 2-64 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION CT6 lr1itic:lting_ Con~_it~~n: _
Primary Containment Isolation Failure
- Operating Mode Applicability
1, 2, 3
.Fission __Pr9dl.Jct _Barrier (FPBf Threshol~:
LOSS
- 1. UNISOLABLE direct downstream pathway to the environment exists after primary containment isolation signal.
- 2. Intentional Primary Containment venting/purging per EOPs or SAMPs due to accident conditions.
- 3. UNISOLABLE primary system leakage that results in EITHER of the following:
- a. Secondary Containment area temperature > T-103 Action Level.
- b. Secondary Containment area radiation level > T-103 Action Level.
- 1 Basis:
UNISOLABLE: An open or breached system line that cannot be isolated, remotely or locally.
Failure to isolate the leak, within 15 minutes or if known that the leak cannot be isolated within 15 minutes, from the start of the leak requires immediate classification.
These thresholds address incomplete containment isolation that allows an UNISOLABLE direct release to the environment.
Loss Threshold #1 Basis The use of the modifier "direct" in defining the release path discriminates against release paths through interfacing liquid systems or minor release pathways, such as instrument lines, not protected by the Primary Containment Isolation System (PCIS).
Leakage into a closed system is to be considered only if the closed system is breached and thereby creates a significant pathway to the environment. Examples include unisolable Main Steamline, HPCI or RCIC steamline breaks, unisolable RWCU system breaks, and unisolable containment atmosphere vent paths.
Examples of "downstream pathway to the environment" could be through the Turbine/Condenser, or direct release to the Turbine or Reactor Building.
The existence of a filter is not considered in the threshold assessment. Filters do not remove fission product noble gases. In addition, a filter could become ineffective due to January 2016 PBAPS 2-65 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION CT6 {cont)
.Basis (~on~): __ _
iodine and/or particulate loading beyond design limits (i.e., retention ability has been exceeded) or water saturation from steam/high humidity in the release stream.
Following the leakage of RCS mass into primary containment and a rise in primary containment pressure, there may be minor radiological releases associated with allowable primary containment leakage through various penetrations or system components. Minor releases may also occur if a primary containment isolation valve(s) fails to close but the primary containment atmosphere escapes to an enclosed system.
These releases do not constitute a loss or potential loss of primary containment but should be evaluated using the Recognition Category R ICs.
Loss Threshold #2 Basis EOPs may direct primary containment isolation valve logic(s) to be intentionally bypassed, even if offsite radioactivity release rate limits will be exceeded. Under these conditions with a valid primary containment isolation signal, the containment should also be considered lost if primary containment venting is actually performed.
, Intentional venting of primary containment for primary containment pressure or combustible gas control to the secondary containment and/or the environment is a Loss of the Containment. Venting for primary containment pressure control when not in an accident situation (e.g., to control pressure below the Drywell high pressure scram setpoint) does not meet the threshold condition .
Loss Threshold #3 Basis The Max Safe Operating Temperature and the Max Safe Operating Radiation Level are each the highest value of these parameters at which neither: (1) equipment necessary for the safe shutdown of the plant will fail, nor (2) personnel access necessary for the safe shutdown of the plant will be precluded. EOPs utilize these temperatures and radiation levels to establish conditions under which RPV depressurization is required.
The temperatures and radiation levels should be confirmed to be caused by RCS leakage from a primary system. A primary system is defined to be the pipes, valves, and other equipment which connect directly to the RPV such that a reduction in RPV pressure will effect a decrease in the steam or water being discharged through an unisolated break in the system.
In general, multiple indications should be used to determine if a primary system is discharging outside Primary Containment. For example, a high area radiation condition does not necessarily indicate that a primary system is discharging into the Reactor Building since this may be caused by radiation shine from nearby steam lines or the movement of radioactive materials. Conversely, a high area radiation condition in conjunction with other indications (e.g. room flooding, high area temperatures, reports of steam in the Reactor Building, an unexpected rise in Feedwater flowrate, or unexpected Main Turbine Control Valve closure) may indicate that a primary system is discharging into the Reactor Building .
January 2016 PBAPS 2-66 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION CT6 (cont) e_asis (cont): -~- .. . ......
In combination with RCS Barrier RC4 Potential Loss Threshold #3 this threshold would result in a Site Area Emergency.
There is no Potential Loss threshold associated with Primary Containment Isolation Failure.
_B~sis ReJ43renc~(s):
- 1. NEI 99-01 Rev 6, Table 9-F-2
- 2. T-103 Secondary Containment Control
- 3. T-102 Primary Containment Control
- 4. T-200-3 Primary Containment Venting
- January 2016 PBAPS 2-67 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION CT7
,lnitiat~ng Condition:_
Emergency Director Judgment.
Operati11g Mode__ARplicability:_
1, 2, 3
- Fissi~n Produc~ ~arrier (FPB) Threshold:
LOSS
- 1. Any condition in the opinion of the Emergency Director that indicates Loss of the Containment Barrier.
POTENTIAL LOSS
- 2. Any condition in the opinion of the Emergency Director that indicates Potential Loss of the Containment Barrier.
Basis:
Loss Threshold #1 Basis This threshold addresses any other factors that are to be used by the Emergency Director in determining whether the Containment Barrier is lost.
Potential Loss Threshold #2 Basis This threshold addresses any other factors that may be used by the Emergency Director in determining whether the Containment Barrier is potentially lost. The Emergency Director should also consider whether or not to declare the barrier potentially lost in the event that barrier status cannot be monitored.
- ~~~is R~f~r~~ce._(~); -**.
- 1. NEI 99-01 Rev 6, Table 9-F-2 January 2016 PBAPS 2-68 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MG1 Jni~iating-Co11diti~r_:1:_
Prolonged loss of all Off-site and all On-Site AC power to emergency buses.
Operatil)g~_Mo~_e *AppJi~abi[~ty:.
1, 2, 3
'Emergency ~cti~_r_:1 t~vel *(EA~):
Note:
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
1 Loss of ALL offsite AC power to unit 4 KV Safeguards Buses.
AND
- 2. Failure of E1, E2, E3, and E4 Emergency Diesel Generators to supply power to unit 4KV Safeguards Buses.
AND
- 3. EITHER of the following:
- a. Restoration of at least one unit 4KV safeguards Bus in< 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> is not likely .
- 10~sis:
- b. RPV water level cannot be restored and maintained > -195 inches.
SAFETY SYSTEM: A system required for safe plant operation, cooling down the plant and/or placing it in the cold shutdown condition, including the ECCS. These are typically systems classified as safety-related.
This IC addresses a prolonged loss of all power sources to AC emergency buses. A loss of all AC power compromises the performance of all SAFETY SYSTEMS requiring electric power including those necessary for emergency core cooling, containment heat removal/pressure control, spent fuel heat removal and the ultimate heat sink. A prolonged loss of these buses will lead to a loss of one or more fission product barriers.
In addition, fission product barrier monitoring capabilities may be degraded under these conditions.
The EAL should require declaration of a General Emergency prior to meeting the thresholds for IC FG1. This will allow additional time for implementation of offsite protective actions.
Escalation of the emergency classification from Site Area Emergency will occur if it is projected that power cannot be restored to at least one AC emergency bus by the end of the analyzed station blackout coping period. Beyond this time, plant responses and
- January 2016 PBAPS 2-69 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MG1 (cont)
Basis (cont):
event trajectory are subject to greater uncertainty, and there is an increased likelihood of challenges to multiple fission product barriers.
The estimate for restoring at least one emergency bus should be based on a realistic appraisal of the situation. Mitigation actions with a low probability of success should not be used as a basis for delaying a classification upgrade. The goal is to maximize the time available to prepare for, and implement, protective actions for the public.
The EAL will also require a General Emergency declaration if the loss of AC power results in parameters that indicate an inability to adequately remove decay heat from the core.
i;:l~sis F{~~erence(s):
- 1. NEI 99-01 Rev 6, SG1
- 2. UFSAR Section 8.4, Auxiliary Power Systems
- 3. UFSAR Figure 8.3.1, Transmission System
- 5. T-101 RPV Control
- 6. SE-11, LOSS OF OFF-SITE POWER - BASES
- January 2016 PBAPS 2-70 EP-AA-1007 Addendum 3 .(Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MS1
- Initiating Condition:_
Loss of all offsite and all onsite AC power to emergency buses for 15 minutes or longer.
'Operating Mode AJ>plicabjlity:
1, 2, 3 Emergency Action Level (EAL):
Note:
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
AND
- 2. Failure of E1, E2, E3, and E4 Emergency Diesel Generators to supply power to unit 4KV Safeguards Buses.
AND
- 3. Failure to restore power to at least one unit 4KV Safeguards bus in < 15 minutes from the time of loss of both offsite and onsite AC power.
- Basis:
SAFETY SYSTEM: A system required for safe plant operation, cooling down the plant and/or placing it in the cold shutdown condition, including the EGGS. These are typically systems classified as safety-related.
This IC addresses a total loss of AC power that compromises the performance of all SAFETY SYSTEMS requiring electric power including those necessary for emergency core cooling, containment heat removal/pressure control, spent fuel heat removal and the ultimate heat sink. In addition, fission product barrier monitoring capabilities may be degraded under these conditions. This IC represents a condition that involves actual or likely major failures of plant functions needed for the protection of the public.
Fifteen minutes was selected as a threshold to exclude transient or momentary power losses.
Escalation of the emergency classification level would be via ICs RG1, FG1, MG1, or MG2 .
- January 2016 PBAPS 2-71 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS rJIS 1 (cont)
Basis Reference(s):,
- 1. NEI 99-01 Rev 6, SS1
- 2. UFSAR Section 8.4, Auxiliary Power Systems
- 3. UFSAR Figure 8.3.1, Transmission System
- 5. SE-11 LOSS OF OFF-SITE POWER - BASES
- January 2016 PBAPS 2-72 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MA1 t1riitI~tingC.o~~~~i9n:
Loss of all but one AC power source to emergency buses for 15 minutes or longer.
[qp~~!lti~_g M.C)de. Afipl)cat.>11!!}1; 1, 2, 3
'.Eme~ge.ll<?Y. AC,tion Level JE~q:
Note:
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- 1. AC power capability to unit 4KV Safeguards Buses reduced to only one of the following power sources for?_ 15 minutes.
- 2 Emergency Auxiliary Transformer (OAX04)
- 3 Emergency Auxiliary Transformer (OBX04) (
- E 1 Diesel Generator
- E2 Diesel Generator
- E3 Diesel Generator
- E4 Diesel Generator AND
- 2. ANY additional single power source failure will result in a loss of ALL AC power to SAFETY SYSTEMS.
Basis:
SAFETY SYSTEM: A system required for safe plant operation, cooling down the plant and/or placing it in the cold shutdown condition, including the ECCS. These are typically systems classified as safety-related.
This IC describes a significant degradation of offsite and onsite AC power sources such that any additional single failure would result in a loss of all AC power to SAFETY SYSTEMS. In this condition, the sole AC power source may be powering one, or more than one, train of safety-related equipment. This IC provides an escalation path from IC MU1.
An "AC power source" is a source recognized in AOPs and EOPs, and capable of supplying required power to an emergency bus. Some examples of this condition are presented below.
- A loss of all offsite power with a concurrent failure of all but one emergency power source (e.g., an onsite diesel generator) .
- January 2016 PBAPS 2-73 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MA1 {cont)
.. i
- Ba~i!; (cont):_~--
- A loss of all offsite power and loss of all emergency power sources (e.g., onsite diesel generators) with a single train of emergency buses being back-fed from the unit main generator.
- A loss of emergency power sources (e.g., onsite diesel generators) with a single train of emergency buses being back-fed from an offsite power source.
Fifteen minutes was selected as a threshold to exclude transient or momentary losses of power.
Escalation of the emergency classification level would be via IC MS 1.
,Ba~is Referel'_lce(~):
- 1. NEI 99-01 Rev 6, SA1
- 2. UFSAR Section 8.4, Auxiliary Power Systems
- 3. UFSAR Figure 8.3.1, Transmission System
- 5. DBD p:.T-13, Station Blackout
- 6. SE-11 LOSS OF OFF-SITE POWER - BASES
- January 2016 PBAPS 2-74 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MU1 Initiating C~ndJ~!on: _
Loss of all offsite AC power capability to emergency buses for 15 minutes or longer.
,Operatin,g Mode AJ?plical;>iJify_:
1, 2, 3 Eme-rgency Act!on Level (EAL):
Note:
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
Loss of ALL offsite AC power capability to unit 4KV Safeguards Buses for ~15 minutes.
Basis:
This IC addresses a prolonged loss of offsite power. The loss of offsite power sources renders the plant more vulnerable to a complete loss of power to AC emergency buses.
This condition represents a potential reduction in the level of safety of the plant.
For emergency classification purposes, "capability" means that an offsite AC power source(s) is available to the emergency buses, whether or not the buses are powered
- from it.
Fifteen minutes was selected as a threshold to exclude transient or momentary losses of offsite power.
Escalation of the emergency classification level would be via IC MA 1.
Basi~ R~fer~rice(s): ~ _~- ___ _
- 1. NEI 99-01 Rev 6, SU1
- 2. UFSAR Section 8.4, Auxiliary Power Systems
- 3. UFSAR Figure 8.3.1, Transmission System
- 5. DBD P-T-13, Station Blackout
- 6. SE-11 LOSS OF OFF-SITE POWER - BASES
- January 2016 PBAPS 2-75 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MG2
- initiating ~oncl~~ion:.
Loss of all AC and Vital DC power sources for 15 minutes or longer.
- qp~rati~~fl\(l()c:l,~~~ppllc(l.qilitY:.
1, 2, 3
- Eme~gen~y Acti9n Le~el.(EAL):
Note:
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
AND
- 2. Failure of E1, E2, E3, and E4 Emergency Diesel Generators to supply power to unit 4KV Safeguards Buses.
AND
- 3. Voltage is< 107.5 VDC on unit 125 VDC battery buses 2(3)00021, 2(3)00022, 2(3)00023, and 2(3)00024.
- AND
Sash;':*:
SAFETY SYSTEM: A system required for safe plant operation, cooling down the plant and/or placing it in the cold shutdown condition, including the ECCS. These are typically systems classified as safety-related.
This IC addresses a concurrent and prolonged loss of both AC and Vital DC power. A loss of all AC power compromises the performance of all SAFETY SYSTEMS requiring electric power including those necessary for emergency core cooling, containment heat removal/pressure control, spent fuel heat removal and the ultimate heat sink. A loss of Vital DC power compromises the ability to monitor and control SAFETY SYSTEMS. A sustained loss of both AC and DC power will lead to multiple challenges to fission product barriers.
Fifteen minutes was selected as a threshold to exclude transient or momentary power losses. The 15-minute emergency declaration clock begins at the point when all EAL conditions are met.
- January 2016 PBAPS 2-76 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MG2 (cont)
- easis _R~ferenc_e(s)_
- _
- 1. NEI 99-01 Rev 6, SG8
- 2. UFSAR Section 8.4, Auxiliary Power Systems
- 3. UFSAR Figure 8.3.1, Transmission System
- 5. DBD P-S-01A, 125/250 Vdc Station Batteries Including 125 Vdc Batteries &
Chargers, Table T3.2-1, MCCs, and DC Distribution
- 8. SE-11 LOSS OF OFF-SITE POWER- BASES
- January 2016 PBAPS 2-77 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MS2
- Jnitiating Condition:-
Loss of all vital DC power for 15 minutes or longer.
- 6perati,ng Mode Applicability: _
1, 2, 3 Emergency Action Level (EAL):
Note: -
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
Voltage is <107.5 VDC on 125 VDC battery buses 2(3)00021, 2(3)0D022, 2(3)00023, and 2(3)0D024 for ?:15 minutes.
Basis:
SAFETY SYSTEM: A system required for safe plant operation, cooling down the plant and/or placing it in the cold shutdown condition, including the ECCS. These are typically systems classified as safety-related.
This IC addresses a loss of Vital DC power which compromises the ability to monitor and control SAFETY SYSTEMS. In modes above Cold Shutdown, this condition
- involves a major failure of plant functions needed for the protection of the public.
Fifteen minutes was selected as a threshold to exclude transient or momentary power losses.
Escalation of the emergency classification level would be via ICs RG1, FG1 or MG2.
)~asis _f{eferenc~(sj:
- 2. DBD P-S-01A, 125/250 Vdc Station Batteries Including 125 Vdc Batteries &
Chargers, Table T3.2-1, MCCs, and DC Distribution
- January 2016 PBAPS 2-78 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MS3 lrliti.ating Con~ition~
Inability to shutdown the reactor causing a challenge to RPV water level or RCS heat removal.
Opera.tirJg M~~de Appli_cabiiity; **
1, 2
.Emergency Ar;:tion Level (EAL):
- 1. Automatic scram did not shutdown the reactor as indicated by Reactor Power > 4%.
AND
- 2. ALL manual I ARI actions to shutdown the reactor have been unsuccessful as indicated by Reactor Power > 4%.
AND
- 3. EITHER of the following conditions exist:
- Heat Capacity Limit (T-102 Curve T/T-1 or T/T-2) exceeded.
Basis: l - ~-
This IC addresses a failure of the RPS to initiate or complete an automatic or manual reactor scram that results in a reactor shutdown, all subsequent operator manual actions, both inside and outside the Control Room including driving in control rods and boron injection, are unsuccessful, and continued power generation is challenging the capability to adequ.ately remove heat from the core and/or the RCS. This condition will lead to fuel damage if additional mitigation actions are unsuccessful and thus warrants the declaration of a Site Area Emergency.
In some instances, the emergency classification resulting from this IC/EAL may be higher than that resulting from an assessment of the plant responses and symptoms against the Recognition Category F ICs/EALs. This is appropriate in that the Recognition Category F ICs/EALs do not address the additional threat posed by a failure to shutdown the reactor. The inclusion of this IC and EAL ensures the timely declaration of a Site Area Emergency in response to prolonged failure to shutdown the reactor.
A reactor shutdown is determined in accordance with applicable Emergency Operating Procedure criteria.
Escalation of the emergency classification level would be via IC RG1 or FG1 .
- January 2016 PBAPS 2-79 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MS3 (cont)
Basis Reference(s):
- 1. NEI 99-01 Rev 6, SS5
- 2. T-117, Level/Power Control
- 3. T-101, RPV Control
- 4. T-102, Primary Containment Control
- January 2016 PBAPS 2-80 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MA3 Automatic or manual scram fails to shutdown the reactor, and subsequent manual actions taken at the reactor control consoles are not successful in shutting down the reactor.
lQl>~r~tJn~ilVle>~-~ APs>iicaJ~Hity: _ -
1, 2 En.:!~rgency ~c_ti_on Le"_eljt:;AL):
Note:
- A manual action is any operator action, or set of actions, which causes the control rods to be rapidly inserted into the core, and does not include manually driving in control rods or implementation of boron injection strategies.
- 1. Automatic or manual scram did not shutdown the reactor as indicated by Reactor Power> 4%.
AND
- 2. Manual I ARI actions taken at the Reactor Console are not successful in shutting down the reactor as indicated by Reactor Power > 4% .
- ~Basis:
This IC addresses a failure of the RPS to initiate or complete an automatic or manual reactor scram that results in a reactor shutdown, and subsequent operator manual actions taken at the reactor consoles to shutdown the reactor are also unsuccessful.
This condition represents an actual or potential substantial degradation of the level of safety of the plant. An emergency declaration is required even if the reactor is subsequently shutdown by an action taken away from the reactor consoles since this event entails a significant failure of the RPS.
A manual action at the reactor consoles is any operator action, or set of actions, which causes the control rods to be rapidly inserted into the core (e.g., initiating a manual reactor scram. This action does not include manually driving in control rods or implementation of boron injection strategies. If this action(s) is unsuccessful, operators would immediately pursue additional manual actions at locations away from the reactor consoles (e.g., locally opening breakers). Actions taken at back-panels or other locations within the Control Room, or any location outside the Control Room, are not considered to be "at the reactor consoles". -
Taking the Reactor Mode Switch to Shutdown is considered to be a manual scram action .
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MA3 {cont)
- :Basis (cont):
- ~ ~ .
The plant response to the failure of an automatic or manual reactor scram will vary based upon several factors including the reactor power level prior to the event, availability of the condenser, performance of mitigation equipment and actions, other concurrent plant conditions, etc. If the failure to shutdown the reactor is prolonged enough to cause a challenge to the RPV water level or RCS heat removal safety functions, the emergency classification level will escalate to a Site Area Emergency via IC MS3. Depending upon plant responses and symptoms, escalation is also possible via IC FS1. Absent the plant conditions needed to meet either IC MS3 or FS1, an Alert declaration is appropriate for this event.
It is recognized that plant responses or symptoms may also require an Alert declaration in accordance with the Recognition Category F ICs; however, this IC and EAL are included to ensure a timely emergency declaration.
- A reactor shutdown is determined in accordance with applicable Emergency Operating Procedure criteria.
,Ba~J:s Refer~_11ce(s)_: _
- 1. NEI 99-01 Rev 6, SA5
- 2. T-117, Level/Power Control
- 3. T-101, RPVControl
- January 2016 PBAPS 2-82 EP-APy-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MU3
- Automatic or manual scram fails to shutdown the reactor.
Qpf!r~tifi9~MP~E!'-~PP!ic~~iliJ~~:.
1, 2
~mergeric:Y Actie>>'1 L~vel (EAL):_
Note:
- A manual action is any operator action, or set of actions, which causes the control rods to be rapidly inserted into the core, and does not include manually driving in control rods or implementation of boron injection strategies.
- 1. a. Automatic scram did not shutdown the reactor as indicated by Reactor Power> 4%.
AND
- b. Subsequent manual I ARI action taken at the Reactor Console is successful in shutting down the reactor.
- 2. a. Manual scram did not shutdown the reactor as indicated by Reactor Power
>4%.
AND
- b. EITHER of the following:
- 1. Subsequent manual I ARI action taken at the Reactor Console is successful in shutting down the reactor.
'.B~§i§,~00 . ~
This IC addresses a failure of the RPS to initiate or complete an automatic or manual reactor scram that results in a reactor shutdown, and either a subsequent operator manual action taken at the reactor consoles or an automatic scram is successful in shutting down the reactor. This event is a precursor to a more significant condition and thus represents a potential degradation of the level of safety of the plant.
- January 2016 PBAPS 2-83 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MU3 (cont)
- Basis (c<?nt)
- .
EAL #1 Basis Following the failure on an automatic reactor scram, operators will promptly initiate manual actions at the reactor consoles to shutdown the reactor (e.g., initiate a manual reactor scram). If these manual actions are successful in shutting down the reactor, core heat generation will quickly fall to a level within the capabilities of the plant's decay heat removal systems.
EAL#2 Basis If an initial manual reactor trip is unsuccessful, operators will promptly take manual action at another location(s) on the reactor consoles to shutdown the reactor (e.g.,
initiate a manual reactor scram/ARI using a different switch). Depending upon several factors, the initial or subsequent effort to manually scram the reactor, or a concurrent plant condition, may lead to the generation of an automatic reactor scram signal. If a subsequent manual or automatic scram/ARI is successful in shutting down the reactor, core heat generation will quickly fall to a level within the capabilities of the plant's decay heat removal systems.
A manual action at the reactor consoles is any operator action, or set of actions, which
. causes the control rods to be rapidly inserted into the core (e.g., initiating a manual reactor scram). This action does not include manually driving in control rods or implementation of boron injection strategies. Actions taken at back-panels or other locations within the Control Room, or any location outside the Control Room, 'are not considered to be "at the reactor consoles".
Taking the Reactor Mode Switch to Shutdown is considered to be a manual scram action.
The plant response to the failure of an automatic or manual reactor scram will vary based upon several factors including the reactor power level prior to the event, availability of the condenser, performance of mitigation equipment and actions, other concurrent plant conditions, etc. If subsequent operator manual actions taken at the reactor consoles are also unsuccessful in shutting down the reactor, then the emergency classification level wilr escalate to an Alert via IC MA3. Depending upon the plant response, escalation is also possible via IC FA 1. Absent the plant .conditions needed to meet either IC MA3 or FA1, an Unusual Event declaration is appropriate for this event.
A reactor shutdown is determined in accordance with applicable Emergency Operating Procedure criteria .
- January 2016 PBAPS 2-84 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MU3 (cont)
Should a reactor scram signal be generated as a result of plant work (e.g., RPS setpoint testing), the following classification guidance should be applied.
- If the signal generated as a result of plant work causes a plant transient that creates a real condition that should have included an automatic reactor scram and the RPS fails to automatically shutdown the reactor, then this IC and the EALs are applicable, and should be evaluated.
- If the signal generated as a result of plant work does not cause a plant transient but should have generated an RPS scram signal and the scram failure is determined through other means (e.g., assessment of test results), then this IC and the EALs are not applicable and no classification is warranted .
- ~"~~is ~~fc;)~e_n_c
- e(!?):
- 1. NEI 99-01 Rev 6, SU5
- 2. T-117, Level/Power Control
- January 2016 PBAPS 2-85 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MA4 UNPLANNED loss of Control Room indications for 15 minutes or longer with a significant transient in progress.
- Qp~rati~g Mode ~p-~lic~b_Uity: _
- 1, 2, 3
- El'l}ergericy ActiC?n L~vel (EAi
- -):
Note:
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- 1. UNPLANNED event results in the inability to monitor ANY Table M1 parameters from within the Control Room for ~15 minutes.
Table M1 - Control Room Parameters
- Reactor Power
- 2. ANY Table M2 transient in progress.
Table M2 - Significant Transients
- Automatic or Manual Runback >25% thermal reactor power
- Electrical Load Rejection >25% full electrical load
- Reactor Scram
- ECCS Actuation
- Thermal Power oscillations > 10%
- January 2016 PBAPS 2-86 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary
- Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MA4 {cont)
[~a~is: . *-*** . .:-. .. .. . . . ....
UNPLANNED: A parameter change or an event that is not 1) the result of an intended evolution or 2) an expected plant response to a transient. The cause of the parameter change or event may be known or unknown.
SAFETY SYSTEM: A system required for safe plant operation, cooling down the plant and/or placing it in the cold shutdown condition, including the ECCS. These are typically systems classified as safety-related.
This IC addresses the difficulty associated with monitoring rapidly changing plant conditions during a transient without the ability to obtain SAFETY SYSTEM parameters from within the Control Room. During this condition, the margin to a potential fission product barrier challenge is reduced. It thus represents a potential substantial degradation in the level of safety of the plant..
As used in this EAL, an "inability to monitor" means that values for one or more of the listed parameters cannot be determined from within the Control Room. This situation would require a loss of all of the Control Room sources for the given parameter(s). For example, the reactor power level cannot be determined from any analog, computer point, digital and recorder source within the Control Room.
An event involving a loss of plant indications, annunciators and/or display systems is evaluated in accordance with 10 CFR 50.72 (and associated guidance in NUREG-1022)
- to determine if an NRC event report is required. The event would be reported if it significantly impaired the capability to perform emergency assessments. In particular, emergency assessments necessary to implement abnormal operating procedures, emergency operating procedures, and emergency plan implementing procedures addressing emergency classification, accident assessment, or protective action decision-making.
This EAL is focused on a selected subset of plant parameters associated with the key safety functions of reactivity control, RPV water level and RCS heat removal. The loss of the ability to determine one or more of these parameters from within the Control Room is considered to be more significant than simply a reportable condition. In addition, if all indication sources for one or more of the listed parameters are lost, then
'the ability to determine the values of other SAFETY SYSTEM parameters may be impacted as well. For example, if the value for RPV water level cannot be determined from the indications and recorders on a main control board, the SPDS or the plant computer, the availability of other parameter values may be compromised as well.
Fifteen minutes was selected as a threshold to exclude transient or momentary losses of indication.
Escalation of the emergency classification level would be via ICs FS1 or IC RS1.
LB~~i~J~!f![e~~c~(~):*~ .
- 1. NEI 99-01 Rev 6, SA2 January 2016 PBAPS 2-87 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MU4 Jnitiating Condition:
UNPLANNED loss of Control Room indications for 15 minutes or longer.
- qp_erating M~de Applic_at;:>iiity:_ _____ _
1, 2, 3
- E_mergem
- y Action Level (f:Aq: __
Note:
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
UNPLANNED event results in the inability to monitor ANY Table M1 parameters from within the Control Room for~ 15 minutes.
Table M1 - Control Room Parameters
- Reactor Power
- RPV Water Level
- RPV Pressure
- Drywell Pressure
- Torus Level
- Torus Temperature UNPLANNED: A parameter change or an event that is not 1) the result of an intended evolution or 2) an expected plant response to a transient. The cause of the parameter change or event may be known or unknown.
SAFETY SYSTEM: A system required for safe plant operation, cooling down the plant and/or placing it in the cold shutdown condition, including the ECCS. These are typically systems classified as safety-related.
This IC addresses the difficulty associated with monitoring normal plant conditions without the ability to obtain SAFETY SYSTEM parameters from within the Control Room. This condition is a precursor to a more significant event and represents a potential degradation in the level of safety of the plant.
As used in this EAL, an "inability to monitor" means that values for one or more of the listed parameters cannot be determined from within the Control Room. This situation would require a loss of all of the Control Room sources for the given parameter(s). For example, the reactor power level cannot be determined from any analog, digital and recorder source within the Control Room .
January 2016 PBAPS 2-88 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MU4(cont)
'Basis- -(cont):
~- ' "' ~
An event involving a loss of plant indications, annunciators and/or display systems is evaluated in accordance with 10 CFR 50.72 (and associated guidance in NUREG-1022) to determine' if an NRC event report is required. The event would be reported if it significantly impaired the capability to perform emergency assessments. In particular, emergency assessments necessary to implement abnormal operating procedures, emergency operating procedures, and emergency plan implementing procedures addressing emergency classification, accident assessment, or protective action decision-making.
This EAL is focused on a selected subset of plant parameters associated with the key safety functions of reactivity control, core cooling and RCS heat removal. The loss of the ability to determine one or more of these parameters from within the Control Room is considered to be more significant than simply a reportable condition. In addition, if all indication sources for one or more of the listed parameters are lost, then the ability to determine the values of other SAFETY SYSTEM parameters may be impacted as well.
For example, if the value for reactor vessel level cannot be determined from the indications and recorders on a main control board, the SPDS or the plant computer, the availability of other parameter values may be compromised as well.
Fifteen minutes was selected as a threshold to exclude transient or momentary losses of indication .
- Escalation of the emergency classification level would be via IC MA4.
tEi~~§r~-:R~re.~~fic:~(s).:-
- 1. NEI 99-01 Rev 6, SU2
- 'C- ** ** ***
- January 2016 PBAPS 2-89 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MAS Initiating Condition:
Hazardous event affecting a SAFETY SYSTEM required for the current operating mode.
- operating Mode Applicability:
1, 2, 3 Emergency Action level (EAL):
Note:
- If it is determined that the conditions of MA5 are not met then assess the event via HU3, HU4, or HU6.
- 1. The occurrence of ANY of the following hazardous events:
- Seismic event (earthquake)
- Internal or external flooding event
- High winds or tornado strike
- FIRE
- EXPLOSION
- Other events with similar hazard characteristics as determined by the Shift Manager
- AND
- 2. EITHER of the following:
- a. Event damage has caused indications of degraded performance in at least one train of a SAFETY SYSTEM required by Technical Specifications for the current operating mode.
- b. The event has caused VISIBLE DAMAGE to a SAFETY SYSTEM component or structure required by Technical Specifications for the current operating mode.
Basis:
FIRE: Combustion characterized by heat and light. Sources of smoke such as slipping drive belts or overheated electrical equipment do not constitute Fl RES. Observation of flame is preferred but is NOT required if large quantities of smoke and heat are observed.
EXPLOSION: A rapid, violent and catastrophic failure of a piece of equipment due to combustion, chemical reaction or overpressurization. A release of steam (from high energy lines or components) or an electrical component failure (caused by short circuits, grounding, arcing, etc.) should not automatically be considered an explosion. Such events may require a post-event inspection to determine if the attributes of an explosion are present.
January 2016 PBAPS 2-90 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MA5 (cont)
- Basis (~o_nt):
SAFETY SYSTEM: A system required for safe plant operation, cooling down the plant and/or placing it in the cold shutdown condition, including the ECCS. These are typically systems classified as safety-related.
VISIBLE DAMAGE: Damage to a component or structure that is readily observable without measurements, testing, or analysis. The visual impact of the damage is sufficient to cause concern regarding the operability or reliability of the affected component or structure.
This IC addresses a hazardous event that causes damage to a SAFETY SYSTEM, or a structure containing SAFETY SYSTEM components, required for the current operating mode, "required", i.e. required to be operable by Technical Specifications for the current operating mode. This condition significantly reduces the margin to a loss or potential loss of a fission product barrier, and therefore represents an actual or potential substantial degradation of the level of safety of the plant. Manual or automatic electrical isolation of safety equipment due to flooding, in and of itself, does not constitute degraded performance and is classified under HU6.
EAL #2.a Basis This EAL addresses damage to a SAFETY SYSTEM train that is required to be operable by Technical Specifications for the current operating mode, and is in operation since indications for it will be readily available. The indications of degraded performance should be significant enough to cause concern regarding the operability or reliability of the SAFETY SYSTEM train.
EAL #2.b Basis This EAL addresses damage to a SAFETY SYSTEM component that is required to be operable by Technical Specifications for the current operating mode, and is not in operation or readily apparent through indications alone, as well as damage to a structure containing SAFETY SYSTEM components. Operators will make this determination based on the totality of available event and damage report information. This is intended to be a brief assessment not requiring lengthy analysis or quantification of the damage.
Escalation of the emergency classification level would be via IC FS1 or RS1.
If the EAL conditions of MA5 are not met then assess the event via HU3, HU4, or HU6.
- ~asi~ _Refertmc~(~l~- __
- 1. NEI 99-01, Rev 6 SA9
- 2. SE-5, Earthquake - Bases
- 3. SE-4, Flood - Bases
- 4. DBD P-T-09, Internal Hazards
- January 2016 PBAPS 2-91 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MU6 llni~i.ati!l9.;~on~J~ion~.
RCS leakage for 15 minutes or longer.
- PPe:t~ting M:g~E).1'RRJ i~f¥~i~ itY,:
1, 2, 3
~Erne~gE)ncy. Action ~eve.I (E.t\~}:
- Note:
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- 1. RCS unidentified or pressure boundary leakage in the Drywell > 10 gpm for
~ 15 minutes.
- 2. RCS identified leakage in the Drywell >25 gpm for~ 15 minutes.
- 3. Leakage from the RCS to a location outside the Drywell >25 gpm for~ 15 minutes.
~$asis: 1,;
- UNISOLABLE: An open or breached system line that cannot be isolated, remotely or locally.
Failure to isolate the leak, within 15 minutes or if known that the leak cannot be isolated within 15 minutes, from the start of the leak requires immediate classification.
This IC addresses RCS leakage which may be a precursor to a more significant event.
In this case, RCS leakage has been detected and operators, following applicable procedures; have been unable to promptly isolate the leak. This condition is cqnsidered to be a potential degradation of the level of safety of the plant.
EAL #1 and EAL #2 Basis These EALs are focused on a loss of mass from the RCS due to "unidentified leakage",
"pressure boundary leakage" or "identified leakage" (as these leakage types are defined in the plant Technical Specifications).
EAL#3 Basis This EAL addresses a RCS mass loss caused by an UNISOLABLE leak through an interfacing system.
These EALs thus apply to leakage into the containment, a secondary-side system or a location outside of containment.
The leak rate values for each EAL were selected because they are usually observable
- with normal Control Room indications. Lesser values typically require time-consuming January 2016 PBAPS 2-92 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MU6 (cont) l:3c:1sis (c:o_nt):. . _
calculations to determine (e.g., a mass balance calculation). EAL #1 uses a lower value that reflects the greater significance of unidentified or pressure boundary leakage.
The release of mass from the RCS due to the as-designed/expected operation of any relief valve does not warrant an emergency classification.
A stuck-open Safety Relief Valve (SRV) or SRV leakage is not considered either identified or unidentified leakage by Technical Specifications and, therefore, is not applicable to this EAL.
The 15-minute threshold duration allows sufficient time for prompt operator actions to isolate the leakage, if possible.
Escalation of the emergency classification level would be via ICs of Recognition Category R or F.
- ~asis R~fe-rence.(s):
- 1. NEI 99-01 Rev 6, SU4
- 3. UFSAR 4.10.3, Nuclear System Leakage Detection and Leakage Rate Limits
- 4. UFSAR 5.2.5, Primary Containment- Inspection and Testing
- 5.
6.
7.
ST-0-020-560-2/3, Reactor Coolant Leakage Test DBD P-S-34 Radwaste System, 3.3.1.3.1 Drywell Floor Drain Sump Operation DBD P-S-34 Radwaste System, 3.3.1.3.2 Drywell Equipment Drain Sump Operation
- January 2016 PBAPS 2-93 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS f~U7 Initiating Co11dition:
Loss of all On-site or Off-site communications capabilities.
'Operating M.Q,Cie Applfo~1>ility_:
1, 2, 3 Emergen~y A~tion_ Lev~JEAL): .
- 1. Loss of ALL Table M3 Onsite communications capability affecting the ability to perform routine operations. ,
- 2. Loss of ALL Table M3 Offsite communication capability affecting the ability to perform offsite notifications.
- 3. Loss of ALL Table M3 NRC communication capability affecting the ability to perform NRC notifications.
Table M3 - Communications Capability System On site Offsite NRC Station Radio System x Plant Public Address (PA) x OMNI System ( x x Station Phones x x x Satellite Phones x x NARS x HPN x x ENS x x
- Basis:
This IC addresses a significant loss of on-site, offsite, or NRC communications capabilities. While not a direct challenge to plant or personnel safety, this event warrants prompt notifications to Offsite Response Organizations (OROs) and the NRC.
This IC should be assessed only when extraordinary means are being utilized to make communications possible (e.g., use of non-plant, privately owned equipment, relaying of on-site information via individuals or multiple radio transmission points, individuals being sent to offsite locations, etc.). *
- January 2016 PBAPS 2-94 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MU7 (cont)
- Ba!!isJcqn._t)_~ C--*-
EAL #1 Basis Addresses a total loss of the communications methods used in support of routine plant operations.
EAL #2 Basis Addresses a total loss of the communications methods used to notify all OROs of an emergency declaration. The OROs referred to here are listed in procedure EP-MA-114-1OO-F-01, State/Local Event Notification Form.
EAL #3 Basis Addresses a total loss of the communications methods used to notify the NRC of an emergency declaration.
1!=1,etsJ~~ ~~te.r~n.~~(~>~:
- 1. NEI 99-01 Rev 6, SU6
- 2. UFSAR Section 10.21, Communication Systems
- 3. EP-MA-124-1001 Facility Inventories and Equipment Tests
- 4. NE-CG-400-19 Lighting and Communication Drawings
- January 2016 PBAPS 2-95 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY COLD SHUTDOWN I REFUELING SYSTEM MALFUNCTIONS CA1
'Initiating Condition:
Loss of all offsite and all onsite AC power to emergency buses for 15 minutes or longer.
- operating f\llo~e Applic:al>!"ity_: _ .. . ..
4,5,D E_mergel'ICY Act!on Level (E_AL):
Note:
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
AND
- 5. Failure of E1, E2, E3, and E4 Emergency Diesel Generators to supply power to unit 4KV Safeguards Buses.
AND
- 6. Failure to restore power to at least one unit 4KV Safeguards bus in
< 15 minutes from the time of loss of both offsite and onsite AC power.
- Basis:
SAFETY SYSTEM: A system required for safe plant operation, cooling down the plant and/or placing it in the cold shutdown condition, including the ECCS. These are typically systems classified as safety-related This IC addresses a total loss of AC power that compromises the performance of all SAFETY SYSTEMS requiring electric power including those necessary for emergency core cooling, containment heat removal/pressure control, spent fuel heat removal and the ultimate heat sink.
When in the cold shutdown, refueling, or defueled mode, this condition is not classified as a Site Area Emergency because of the increased time available to restore an emergency bus to service. Additional time is available due to the reduced core decay heat load, and the lower temperatures and pressures in various plant systems. Thus, when in these modes, this condition represents an actual or potential substantial degradation of the level of safety of the plant.
Fifteen minutes was selected as a threshold to exclude transient or momentary power losses.
Escalation of the emergency classification level would be via IC CS6 or RS1 .
- January 2016 PBAPS 2-96 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY COLD SHUTDOWN I REFUELING SYSTEM MALFUNCTIONS CA1 (cont)
'Basis-Referen-ce(s):
- 1. NEI 99-01 Rev 6, CA2
- 2. UFSAR Section 8.4, Auxiliary Power Systems
- 3. UFSAR Figure 8.3.1, Transmission System
- 6. DBD P-T-13, Station Blackout
- 7. SE-11 LOSS OF OFF-SITE POWER - BASES
- January 2016 PBAPS 2-97 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY COLD SHUTDOWN I REFUELING SYSTEM MALFUNCTIONS CU1
!Jn_iti~~ing,f~()l"!ditio11:_* ~ ...
Loss of all but one AC power source to emergency buses for 15 minutes or longer.
....o~.P eratrn
-~. **- .9s.MotliA
~ **~* ' 1icabiHt":
. . .PP~-~s ..... Y.......
4,5,D i;~n]~rn~'1cy ~~~iq~ Leve., (EAL);
Note:
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- 3. AC power capability to unit 4KV Safeguards Buses reduced to only one of the following power sources for~ 15 minutes.
- 2 Emergency Auxiliary Transformer (OAX04)
- 3 Emergency Auxiliary Transformer (OBX04)
- E 1 Diesel Generator
- E2 Diesel Generator
- E3 Diesel Generator
- E4 Diesel Generator AND
- 4. ANY additional single power source failure will result in a loss of ALL AC power to SAFETY SYSTEMS.
CEj~sf~-:~
- SAFETY SYSTEM: A system required for safe plant operation, cooling down the plant and/or placing it in the cold shutdown condition, including the ECCS. These are typically systems classified as safety-related.
This IC c;iescribes a significant degradation of offsite and onsite AC power sources such that any* additional single failure would result in a loss of all AC power to SAFETY SYSTEMS. In this condition, the sole AC power source may be powering one, or more than one, train of safety-related equipment.
When in the cold shutdown, refueling, or defueled mode, this condition is not classified as an Alert because of the increased time available to restore another power source to service. Additional time is available due to the reduced core decay heat load, and the lower temperatures and pressures in various plant systems. Thus, when in these modes, this condition is considered to be a potential degradation of the level of safety of the plant.
January 2016 PBAPS 2-98 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY COLD SHUTDOWN I REFUELING SYSTEM MALFUNCTIONS CU1 _(cont)
'Initiating Condition_:
An "AC power source" is a source recognized in AOPs and EOPs, and capable of supplying required power to an emergency bus. Some examples of this condition are presented below.
- A loss of all offsite power with a concurrent failure of all but one emergency power source (e.g., an onsite diesel generator).
- A loss of all offsite power and loss of all emergency power sources (e.g., onsite diesel generators) with a single train of emergency buses being back-fed from the unit main generator. .
- A loss of emergency power sources (e.g., onsite diesel generators) with a single train of emergency buses being back-fed from an offsite power source.
Fifteen minutes was selected as a threshold to exclude transient or momentary losses of power.
The subsequent loss of the remaining single power source would escalate the event to an Alert in accordance with IC CA 1.
- :~a~isJ~~ferenc:_e(~)_: _
- 1. NEI 99-01 Rev 6 CU2
- 2. UFSAR Section 8.4, Auxiliary Power Systems
- 3. UFSAR Figure 8.3.1, Transmission System
- 6. DBD P-T-13, Station Blackout
- 7. SE-11 LOSS OF OFF-SITE POWER - BASES
- January 2016 PBAPS 2-99 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY COLD SHUTDOWN I REFUELING SYSTEM MALFUNCTIONS CA2 lni~iatin,Q:~ondi~!~.ni, Hazardous event affecting SAFETY SYSTEM required for the current operating mode.
Qpera!ing~~(),Ctf!~~Prilj~~bility:. . . ..
4,5 Emergf!n<:Y0A~ti~'1 ~_evE!I (EAL): .
Note:
- If it is determined that the conditions of CA2 are not met then assess the event via HU3, HU4, or HU6.
- 1. The occurrence of ANY of the following hazardous events:
- Seismic event (earthquake)
- Internal or external flooding event
- High winds or tornado strike
- FIRE
- EXPLOSION
- Other events with similar hazard characteristics as determined by the Shift Manager
- 2.
AND EITHER of the following:
- a. Event damage has caused indications of degraded performance in at least one train of a SAFETY SYSTEM required by Technical Specifications for the current operating mode.
- b. The event has caused VISIBLE DAMAGE to a SAFETY SYSTEM component or structure required by Technical Specifications for the current operating mode.
FIRE: Combustion characterized by heat and light. Sources of smoke such as slipping drive belts or overheated electrical equipment do not constitute FIRES. Observation of flame is preferred but is NOT required if large quantities of smoke and heat are observed .
- January 2016 PBAPS 2-100 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY COLD SHUTDOWN I REFUELING SYSTEM MALFUNCTiONS CA2 (con~)
EXPLOSION: A rapid, violent and catastrophic failure of a piece of equipment due to combustion, chemical reaction or overpressurization. A release of steam (from high energy lines or components) or an electrical component failure (caused by short circuits, grounding, arcing, etc.) should not automatically be considered an explosion. Such events may require a post-event inspection to determine if the attributes of an explosion are present.
- SAFETY SYSTEM: A system required for safe plant operation, cooling down the plant and/or placing it in the cold shutdown condition, including the ECCS. These are typically systems classified as safety-related.
VISIBLE DAMAGE: Damage to a component or structure that is readily observable without measurements, testing, or analysis. The visual impact of the damage is sufficient to cause concern regarding the operability or reliability of the affected component or structure.
This IC addresses a hazardous event that causes damage to a SAFETY SYSTEM, or a structure containing SAFETY SYSTEM components, required for the current operating mode, "required", i.e. required to be operable by Technical Specifications for the current operating mode. This condition significantly reduces the margin to a loss or potential loss of a fission product barrier, and therefore represents an actual or potential substantial degradation of the level of safety of the plant. Manual or automatic electrical isolation of safety equipment due to flooding, in and of itself, does not constitute degraded performance and is classified under HU6.
EAL #2.a Basis Addresses damage to a SAFETY SYSTEM train that is required to be operable by Technical Specifications for the current operating mode, and is in operation since indications for it will be readily available. The indications of degraded performance should be significant enough to cause concern regarding the operability or reliability of the SAFETY SYSTEM train.
EAL #2.b Basis Addresses damage to a SAFETY SYSTEM component that is required to be operable by Technical Specifications for the current operating 'mode, and is not in operation or readily apparent through indications alone, or to a structure containing SAFETY SYSTEM components. Operators will make this determination based on the totality of available event and damage report information. This is intended to be a brief assessment not requiring lengthy analysis or quantification of the damage.
Escalation of the emergency classification level would be via IC CS6 or RS1.
If the EAL conditions of CA2 are not met then assess the event via HU3, HU4, or HU6 .
January 2016 PBAPS 2-101 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY COLD SHUTDOWN I REFUELING SYSTEM MALFUNCTIONS CA2 (cont)
- _e_a~is R~ference(s}:
- 1. NEI 99-01 Rev 6, CA6
- January 2016 PBAPS 2-102 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY COLD SHUTDOWN I REFUELING SYSTEM MALFUNCTIONS CU3
- lnitie1ting (
- ondition: .
Loss of Vital DC power for 15 minutes or longer.
'Ope_ratirig Mo_de Appl_ic~bility:
4,5 Enierg~ncy Action 1:--evei (EAL):
Note:
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
Voltage is< 107.5 VDC on re~uired 125 VDC battery buses 2(3)00021, 2(3)00022, 2(3)00023, and 2(3)00024 for~ 15 minutes.
,13asis:
SAFETY SYSTEM: A system required for safe plant operation, cooling down the plant and/or placing it in the cold shutdown condition, including the ECCS. These are typically systems classified as safety-related.
This IC addresses a loss of Vital DC power which compromises the ability to monitor and control operable SAFETY SYSTEMS when the plant is in the cold shutdown or refueling mode. In these modes, the core decay heat load has been significantly reduced, and coolant system temperatures and pressures are lower; these conditions rise the time available to restore a vital DC bus to service. Thus, this condition is considered to be a potential degradation of the level of safety of the plant.
As used in this EAL, "required" means the Vital DC buses necessary to support operation of the in-service, or operable, train or trains of SAFETY SYSTEM equipment.
For example, if Train A is out-of-service (inoperable) for scheduled outage maintenance work and Train Bis in-service (operable), then a loss of Vital DC power affecting Train B would require the declaration of an Unusual Event. A loss of Vital DC power to Train A would not warrant an emergency classification.
Fifteen minutes was selected as a threshold to exclude transient or momentary power losses.
Depending upon the event, escalation of the emergency classification level would be via IC CA6 or CA5, or an IC in Recognition Category R.
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY COLD SHUTDOWN I REFUELING SYSTEM MALFUNCTIONS
.CU3 (cont)
.Ba~!~ Re'fetjr1_c:e(~){ ** *
- 1. NEI 99-01 Rev 6, CU4
- 2. DBD P-S-01A, 125/250 Vdc Station Batteries lnclu.ding 125 Vdc Batteries &
Chargers, Table T3.2-1, MCCs, and DC Distribution
(
I
- January 2016 PBAPS 2-104 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY COLD SHUTDOWN I REFUELING SYSTEM MALFUNCTIONS CU4 lniti~ting Co.ndition:
Loss of all onsite or offsite communications capabilities.
- 9R!r~ti6g MocJ~t~J>pfi,~itb~l~ty:
- 4,5,D
~Ernergency Ac~fgn':Leve.1 'CE.AL):
- 4. Loss of ALL Table C1 Onsite communications capability affecting the ability to perform routine operations.
- 5. Loss of ALL Table C1 Offsite communication capability affecting the ability to perform offsite notifications.
- 6. Loss of ALL Table C1 NRC communication capability affecting the ability to perform NRC notifications.
Table C1 - Communications Capability System On site Offsite NRC Station Radio System x
- Plant Public Address (PA)
OMNI System Station Phones Satellite Phones x
x x
x x
x x
x NARS x HPN x x ENS x x Basis:
This IC addresses a significant loss of on-site, *offsite, or NRC communications capabilities. While not a direct challenge to plant or personnel safety, this event warrants prompt notifications to Offsite Response Organizations (OROs) and the NRC.
This IC should be assessed only when extraordinary means are being utilized to make communications possible (e.g., use of non-plant, privately owned equipment, relaying of on-site information via individuals or multiple radio transmission points, individuals being sent to offsite locations, etc.).
EAL #1 Basis Addresses a total loss of the communications methods used in support of routine plant operations .
- January 2016 PBAPS 2-105 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY COLD SHUTDOWN I REFUELING SYSTEM MALFUNCTIONS CU4 (cont)
Basis (cont):
EAL#2 Basis Addresses a total loss of the communications methods used to notify all OROs of an emergency declaration. The OROs referred to here are listed in procedure EP-MA-114-1OO-F-01, State/Local Event Notification Form.
EAL#3 Basis Addresses a total loss of the communications methods used to notify the NRG of an emergency declaration.
- Basis Reff!rencE!(s)
- ~~
- 1. NEI 99-01 Rev 6, CU5
- 2. UFSAR Section 10.21, Communication Systems
- 3. EP-MA-124-1001 Facility Inventories and Equipment Tests
- 4. NE-CG-400-19 Lighting and Communication Drawings
- January 2016 PBAPS 2-106 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY COLD SHUTDOWN I REFUELING SYSTEM MALFUNCTIONS CA5
- 1'1itiatin_g Conditi()n:
Inability to maintain the plant in cold shutdown.
,Ope~ating Mocie 'ApplicabilJ~y~
- 4,5
,Em~.r9~1'.1CY ~ction Level (EAL):
Note:
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- A momentary UNPLANNED excursion above the Technical Specification cold shutdown temperature limit when heat removal function is available does not warrant classification.
- 3. UNPLANNED rise in RCS temperature> 212°F for> Table C2 duration.
Table C2 - RCS Heat-up Duration Thresholds RCS Containment Closure Heat-up Status Status Duration
- Intact Not Intact Not Applicable Established Not Established 60 minutes*
20 minutes*
0 minutes
- If an RCS heat removal system is in operation within this time frame and RCS temperature is being reduced, then EAL #1 is not applicable.
- 2. UNPLANNED RPV pressure rise > 10 psig as a result of temperature rise.
Basis:
UNPLANNED: A parameter change or an event that is not 1) the result of an intended evolution or 2) an expected plant response to a transient. The cause of the parameter change or event may be known or unknown.
CONTAINMENT CLOSURE: The procedurally defined conditions or actions taken to secure containment (primary or secondary) and its associated structures, systems, and components as a functional barrier to fission product release under shutdown conditions .
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY COLD SHUTDOWN I REFUELING SYSTEM MALFUNCTIONS CA5 {cont)
- Basis (g_ont): _ ..
RCS is intact when the RCS pressure boundary is in its normal condition for the Cold Shutdown mode of operation (e.g. no freeze seals, or steam line nozzle plugs, etc.).
This IC addresses conditions involving a loss of decay heat removal capability or an addition of heat to the RCS in excess of that which can currently be removed. Either condition represents an actual or potential substantial degradation of the level of safety of the plant.
A momentary UNPLANNED excursion above the Technical Specification cold shutdown temperature limit when the heat removal function is available does not warrant a classification.
The RCS Heat-up Duration Thresholds table addresses a rise in RCS temperature when CONTAINMENT CLOSURE is established but the RCS is not intact. The 20-minute criterion was included to allow time for operator action to address the temperature rise.
The RCS Heat-up Duration Thresholds table also addresses a rise in RCS temperature with the RCS intact. The status of CONTAINMENT CLOSURE is not crucial in this condition since the intact RCS is providing a high pressure barrier to a fission product release. The 60-minute time frame should allow sufficient time to address the temperature rise without a substantial degradation in plant safety .
- Finally, in the case where there is a rise in RCS temperature, the RCS is not intact, and CONTAINMENT CLOSURE is not established, no heat-up duration is allowed (i.e., 0 minutes). This is because 1) the evaporated reactor coolant may be released directly into the Containment atmosphere and subsequently to the environment, and 2) there is reduced reactor coolant inventory above the top of irradiated fuel.
EAL#2 Basis Provides a pressure-based indication of RCS heat-up.
Escalation of the emergency classification level would be via IC CS6 or RS1.
!Basis Refe.re_nce(sl~
- 1. NEI 99-01 Rev 6, CA3
- 4. DBD P-$-16, REACTOR INSTRUMENTATION SYSTEM
- 5. DBD P-S-19, RECIRCULATION SYSTEM
- 6. SE-11, ATTACHMENT C - INSTRUMENT LIST
- January 2016 PBAPS 2-108 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY COLD SHUTDOWN I REFUELING SYSTEM MALFUNCTIONS CU5 Initiating Conditiol'l:.
UNPLANNED rise in RCS temperature
- operating .Mo~e '.(\pplic~b~lity: ..
- 4,5
'i:merg~n,cy Action* -~eve I (EAL);.
Note:
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- A momentary UNPLANNED excursion above the Technical Specification cold shutdown temperature limit when heat removal function is available does not warrant classification.
- 3. UNPLANNED rise in RCS temperature> 212°F.
- 4. Loss of the following for~ 15 minutes.
- ALL RCS temperature indications
- 'Basis:
' ~ \
AND ALL RPV water level indications UNPLANNED: A parameter change or an event that is not 1) the result of an intended evolution or 2) an expected plant response to a transient. The cause of the parameter change or event may be known or unknown.
CONTAINMENT CLOSURE: The procedurally defined conditions or actions taken to secure containment (primary or secondary) and its associated structures, systems, and components as a functional barrier to fission product release under shutdown conditions.
RCS is intact when the RCS pressure boundary is in its normal condition for the Cold Shutdown mode of operation (e.g. no freeze seals, or steam line nozzle plugs, etc.).
This IC addresses an UNPLANNED rise in RCS temperature above the Technical Specification cold shutdown temperature limit, or the inability to determine RCS temperature and level, represents a potential degradation of the level of safety of the plant. If the RCS is not intact and CONTAINMENT CLOSURE is not established during this event, the Emergency Director should also refer to IC CA5.
A momentary UNPLANNED excursion above the Technical Specification cold shutdown temperature limit when the heat removal function is available does not warrant a classification.
January 2016 PBAPS 2-109 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY COLD SHUTDOWN I REFUELING SYSTEM MALFUNCTIONS CU5 (cont)
B_asis (c_C>nt):
EAL #1 involves a loss of decay heat removal capability, or an addition of heat to the RCS in excess of that which can currently be removed, such that reactor coolant temperature cannot be maintained below the cold shutdown temperature limit specified in Technical Specifications. During this condition, there is no immediate threat of fuel damage because the core decay heat load has been reduced since the cessation of power operation.
During an outage, the level in the reactor vessel will normally be maintained above the reactor vessel flange. Refueling evolutions that lower water level below the reactor vessel flange are carefully planned and controlled. A loss of forced decay heat removal at reduced inventory may result in a rapid rise in reactor coolant temperature depending on the time after shutdown.
EAL #2 reflects a condition where there has been a significant loss of instrumentation capability necessary to monitor RCS conditions and operators would be unable to monitor key parameters necessary to assure core decay heat removal. During this condition, there is no immediate threat of fuel damage because the core decay heat load has been reduced since the cessation of power operation.
Fifteen minutes was selected as a threshold to exclude transient or momentary losses of indication .
- Escalation to Alert would be via IC CA6 based on an inventory loss or IC CA5 based on exceeding plant configuration-specific time criteria.
- ~~sis ~efere.ri~~(s): _
- 1. NEI 99-01 Rev 6, CU3
- 2. T-102, Primary Containment Control - Bases
- 3. T-103, Secondary Containment Control - Bases
- 4. PBAPS 2/3 TRIP/SAMP CURVES, TABLES, & LIMITS - BASES
- 5. DBD P-S-16, REACTOR INSTRUMENTATION SYSTEM
- 6. DBD P-S-19, RECIRCULATION SYSTEM
- January 2016 PBAPS 2-110 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY COLD SHUTDOWN I REFUEUNG SYSTEM MALFUNCTIONS CG6
.Initiating Con~ition:
Loss of RPV inventory affecting fuel clad integrity with containment challenged.
Oper~ting M~de Applic8-bili~y: ,
4,5
- Em~rgency Action ~eve"I (EA,L)
- "
Note:
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
AND
- b. ANY Containment Challenge Indication (Table C4)
- 2. a. RPV water level cannot be monitored for!: 30 minutes.
AND
- b. Core uncovery is indicated by ANY of the following:
- Table C3 indications of a sufficient magnitude to indicate core uncovery.
- ANY Table C5 Refuel Floor Area Radiation Monitor >3 R/hr.
AND
- c. ANY Containment Challenge Indication (Table C4)
Table C3 Indications of RCS Leakage
- UNPLANNED floor or equipment sump level rise*
- UNPLANNED Torus level rise*
- UNPLANNED vessel make up rate rise
- Observation of leakage or inventory loss
- Rise in level is attributed to a loss of RPV inventory .
- January 2016 PBAPS 2-111 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY COLD SHUTDOWN I REFUELING SYSTEM MALFUNCTIONS CG6 (cont)
.Emergency Action Level (EAL} (cont):
Table C4 - Containment Challenge Indications
- Primary Containment Hydrogen Concentration > 6% and Oxygen > 5%
- UNPLANNED rise in containment pressure
- CONTAINMENT CLOSURE not established*
- Any Secondary Containment radiation monitor > T-103 Action Level
- if CONTAINMENT CLOSURE is re-established prior to exceeding the 30-minute core uncoverv time limit, then escalation to a General EmerQencv is not required.
- Steam Separator Pool, 234 ELEV, 3.7 (7.9)
- Refuel Slot, 234 ELEV, 3.8 (7.10)
- Fuel Pool, 234 ELEV, 3.9 (7.11)
- Refueling Bridge, 234 ELEV, 3.10 (7.12)
Basis:
UNPLANNED: A parameter change or an event that is not 1) the result of an intended evolution or 2) an expected plant response to a transient. The cause of the parameter change or event may be known or unknown.
IMMINENT: The trajectory of events or conditions is such that an EAL will be met within a relatively short period of time regardless of mitigation or corrective actions.
CONTAINMENT CLOSURE: The procedurally defined conditions or actions taken to secure containment (primary or secondary) and its associated structures, systems, and components as a functional barrier to fission product release under shutdown conditions .
- January 2016 PBAPS 2-112 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY COLD SHUTDOWN I REFUELING SYSTEM MALFUNCTIONS CG6 (cont)
- Basis (c::ont): , _
This IC addresses the inability to restore and maintain reactor vessel level above the top of active fuel with containment challenged. This condition represents actual or IMMINENT substantial core degradation or melting with potential for loss of containment integrity. Releases can be reasonably expected to exceed EPA Protective Action Guidelines (PAG) exposure levels offsite for more than the immediate site area.
Following an extended loss of core decay heat removal and inventory makeup, decay heat will cause reactor coolant boiling and a further reduction in reactor vessel level. If RCS/reactor vessel level cannot be restored, fuel damage is probable.
With CONTAINMENT CLOSURE not established, there is a high potential for a direct and unmonitored release of radioactivity to the environment. If CONTAINMENT CLOSURE is re-established prior to exceeding the 30-minute time limit, then declaration of a General Emergency is not required.
The existence of an explosive mixture means, at a minimum, that the containment atmospheric hydrogen concentration is sufficient to support a hydrogen burn (i.e., at the lower deflagration limit). A hydrogen burn will raise containment pressure and could result in collateral equipment damage leading to a loss of containment integrity. It therefore represents a challenge to Containment integrity.
In the early stages of a core uncovery event, it is unlikely that hydrogen buildup due to a core uncovery could result in an explosive gas mixture in containment. If all installed hydrogen gas monitors are out-of-service during an event leading to fuel cladding damage, it may not be possible to obtain a containment hydrogen gas concentration reading as ambient conditions within the containment will preclude personnel access.
During periods when installed containment hydrogen gas monitors are out-of-service, operators may use the other listed indications to assess whether or not containment is challenged.
EAL#1 Basis The 30-minute criterion is tied to a readily recognizable event start time (i.e., the total loss of ability to monitor level), and allows sufficient time to monitor, assess and correlate reactor and plant conditions to determine if core uncovery has actually occurred (i.e., to account for various accident progression and instrumentation uncertainties). It also allows sufficient time for performance of actions to terminate leakage, recover inventory control/makeup equipment and/or restore level monitoring.
The inability to monitor RPV water level may be caused by instrumentation and/or power failures, or water level dropping below the range of available instrumentation. If water level cannot be monitored, operators may determine that an inventory loss is occurring by observing changes in sump and/or tank levels. Sump and/or tank level changes must be evaluated against other potential sources of water flow to ensure they are indicative of leakage from the RPV.
- January 2016 PBAPS 2-113 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY COLD SHUTDOWN I REFUELING SYSTEM MALFUNCTIONS CG6 (cont)
- Ba~Js (con~);" __
These EALs address concerns raised by Generic Letter 88-17, Loss of Decay Heat Removal; SECY 91-283, Evaluation of Shutdown and Low Power Risk Issues; NUREG-1449, Shutdown and Low-Power Operation at Commercial Nuclear Power Plants in the United States; and NUMARC 91-06, Guidelines for Industry Actions to Assess Shutdown Management.
if~~J~',-R~feren§~(!; )~
- 1. NEI 99-01 Rev 6, CG1
- 2. T-101, RPV Control
- 3. T-102 Primary Containment Control
- 4. T-103 Secondary Containment Control
- 7. UFSAR Table 5.2-1, Primary Containment
- 8. EP-EAL-0501, Estimation of Radiation Monitor Readings Indicating Core Uncovery During Refuel
- January 2016 PBAPS 2-114 EP-AA-1007 Addendum 3 (Rev 3)
Exelon Confidential/Proprietary Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY COLD SHUTDOWN I REFUELING SYSTEM MALFUNCTIONS CS6
)nJtiat{ng_ Condition:._
Loss of RPV inventory affecting core decay heat removal capability.
~
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- 4. With CONTAINMENT CLOSURE not established, RPV water level< -160 inches.
- 5. With CONTAINMENT CLOSURE established, RPV water level< - 172 inches
- 6. a. RPV water level cannot be monitored for~ 30 minutes AND
- b. Core uncovery is indicated by ANY of the following:
- Table C3 indications of a sufficient magnitude to indicate core uncovery.
- ANY Table C5 Refuel Floor Area Radiation Monitor >3 R/hr.
- UNPLANNED floor or equipment sump level rise*
- UNPLANNED Torus level rise*
- UNPLANNED vessel make up rate rise
- Observation of leakage or inventory loss
- Rise in level is attributed to a loss of RPV inventory .
- January 2016 PBAPS 2-115 EP-AA-1007 Addendum 3 (Rev 3)
- Steam Separator Pool, 234 ELEV, 3.7 (7.9)
- Refuel Slot, 234 ELEV, 3.8 (7.10)
- Fuel Pool, 234 ELEV, 3.9 (7.11)
- Refueling Bridge, 234 ELEV, 3.10 (7.12)
- January 2016 PBAPS 2-116 EP-AA-1007 Addendum 3 (Rev 3)
- .Ba!;iS ~~fe~enc;:e(~):
- 7. UFSAR Table 5.2-1, Primary Containment
- 8. EP-EAL-0501, Estimation of Radiation Monitor Readings Indicating Core Uncovery During Refuel
- 9. DBD P-T-02~ Containment, Section 3.2.14
- 10. DBD P-S-20, Neutron Monitoring System
- January 2016 PBAPS 2-117 EP-AA-1007 Addendum 3 (Rev 3)
- lniticlting qo_11ciition: __
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded. *
- 3. a. Loss of RPV inventory as indicated by level < - 48 inches.
- 4. a. RPV water level cannot be monitored for~ 15 minutes.
- b. Loss of RPV inventory per Table C3 indications.
- Observation of leakage or inventory loss
- Rise in level is attributed to a loss of RPV inventory.
- January 2016 PBAPS 2-118 EP-AA-1007 Addendum 3 (Rev 3)
- ~Basis (c:;ont):_
- 1. NEI 99-01 Rev 6, CA1
- 3. UFSAR 5.2.5, Primary Containment
- 4. ST-0-020-560-2/3 REACTOR COOLANT LEAKAGE TEST
- 5. OT-101 HIGH DRYWELL PRESSURE - PROCEDURE
- 6. ARC 227-A4 Drywell Hi Pressure Sealed-In
- 7. ARC 210-A4 Drywell Hi-Lo Pressure
- 9. DBD P-S-34 RADWASTE SYSTEM, 3.3.1.3.2 Drywell Equipment Drain Sump Operation 1O. T-102, Primary Containment Control
- January 2016 PBAPS 2-119 EP-AA-1007 Addendum 3 (Rev 3)
- Emergency Action Level (EAL):
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- 1. UNPLANNED loss of reactor coolant results in the inability to restore and maintain RPV water level to above the procedurally established lower limit for~ 15 minutes.
- 2. a. RPV water level cannot be monitored AND
- b. Loss of RPV inventory per Table C3 indications .
- UNPLANNED Torus level rise*
- UNPLANNED vessel make up rate rise
- Observation of leakage or inventory loss
- Rise in level is attributed to a loss of RPV inventory .
- January 2016 PBAPS 2-120 EP-AA-1007 Addendum 3 (Rev 3)
- January 2016 PBAPS 2-121 EP-AA-1007 Addendum 3 (Rev 3)
- 1. NEI 99-01, Rev. 6 CU1
- 3. UFSAR 5.2.5, Primary Containment
- 4. ST-0-020-560-2/3 REACTOR COOLANT LEAKAGE TEST
- 5. OT-101 HIGH DRYWELL PRESSURE- PROCEDURE
- 6. ARC 227-A4 Drywell Hi Pressure Sealed-In
- 7. ARC 210-A4 Drywell Hi-Lo Pressure
- 10. T-102, Primary Containment Control
- January 2016 PBAPS 2-122 EP-AA-1007 Addendum 3 (Rev 3)
- 1 1nitiating Condition: __
- m;ril_ergency_ A~tion t_evef(EA[):
- 1. A notification from the Security Force that a HOSTILE ACTION is occurring or has occurred within the PROTECTED AREA.
- 2. a. ANY Table H1 safety function cannot be controlled or maintained.
- b. Damage to spent fuel has occurred or is IMMINENT Table H1 - Safety Functions
- Reactivity Control (ability to shutdown the reactor and keep it shutdown)
- RPV Water Level (ability to cool the core)
- RCS Heat Removal (ability to maintain a heatsink)
- easis:
- :.BC1sis (cont):
- 1) damage to a spent fuel pool cooling system (e.g., pumps, heat exchangers, controls, etc.) or, 2) loss of spent fuel pool integrity such that sufficient water level cannot be maintained.
- 1. NEI 99-01, Rev. 6 HG1
- 2. Station Security Plan - Appendix C
- 3. SE-23 Response to Security Threats
- January 2016 . PBAPS 2-124 EP-AA-1007 Addendum 3 (Rev 3)
- *initiating Con~ition: _
- Basis:
- January 2016 PBAPS 2-125 EP-AA-1007 Addendum 3 (Rev 3)
- Basis (cont):
- acts of civil disobedience, or otherwise are not a HOSTILE ACTION perpetrated by a HOSTILE FORCE. Examples include the crash of a small aircraft, shots from hunters, physical disputes between employees, etc. Reporting of these types of events is adequately addressed by other EALs, or the requirements of 10 CFR § 73.71 or 10 CFR
- Basis Ref~te_n_ce(s): _
- 1. NEI 99-01 Rev 6, HS1
- 2. Station Security Plan - Appendix C
- 3. SE-23 Response to Security Threats
- January 2016 PBAPS 2-126 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Condition:
- 2. A validated notification from NRC of an aircraft attack threat < 30 minutes from the site.
- 2. Notification by the Security Force that a HOSTILE ACTION is occurring or has occurred within the OWNER CONTROLED AREA Basis:
- impact.
- *Basis (cont):
- Addresses the threat from the impact of an aircraft on the plant, and the anticipated arrival time is within 30 minutes. The intent of this EAL is to ensure that threat-related notifications are made in a timely manner so that plant personnel and OROs are in a heightened state of readiness. This EAL is met when the threat-related information has been validated in accordance with SE-23, Response to Security Threats.
- January 2016 PBAPS 2-128 EP-AA-1007 Addendum 3 (Rev 3)
- Basis Reference(s):
- 3. SE-23 Response to Security Threats
- January 2016 PBAPS 2-129 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Condition:
- 4. Notification of a credible security threat directed at the site as determined per SY-AA-101-132, Security Assessment and Response to Unusual Activities.
- 5. A validated notification from the NRG providing information of an aircraft threat.
- 6. Notification by the Security Force of a SECURITY CONDITION that does not involve a HOSTILE ACTION.
- Basis (cont):
- References Security Force because these are the individuals trained to confirm that a security event is occurring or has occurred. Training on security event confirmation and classification is controlled due to the nature of Safeguards and 10 CFR § 2.39 information.
- Bash;_ R~feTence(s):
- 1. NEI 9.9-01 Rev 6, HU1
- 2. Station Security Plan - Appendix C
- 3. SE-23 Response to Security Threats
- 4. SY-AA-101-132, Security Assessment and Response to Unusual Activities
- January 2016 PBAPS 2-131 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Condition:
- E_merge~cy Actio11 Level _(EAL):
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- 1. A Control Room evacuation has resulted in plant control being transferred from the Control Room to alternate locations per:
- SE-1, Plant Shutdown from the Remote Shutdown Panel - Procedure OR
- SE-10, Plant Shutdown from the Alternative Shutdown Panels - Procedure AND
- 2. Control of ANY Table H1 key safety function is n.Q1; reestablished in< 15 minutes.
- Table H1 - Safety Functions
- Reactivity Control (ability to shutdown the reactor and keep it shutdown)
- RPV Water Level (ability to cool the core)
- RCS Heat Removal (ability to maintain a heatsink)
- a. Control of the plant is no longer maintained in the Main Control Room OR
- b. The last Operator has left the Main Control Room.
- January 2016 PBAPS 2-132 EP-AA-1007 Addendum 3 (Rev 3)
- 'Ba~is (co~t):
- 1. NEI 99-01, Rev 6 HS6
- 2. SE-1, Plant Shutdown from the Remote Shutdown Panel - Procedure
- 3. SE-10, Plant Shutdown from the Alternative Shutdown Panels - Procedure
- January 2016 PBAPS 2-133 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Condition:
- SE-1, Plant Shutdown from the Remote Shutdown Panel - Procedure OR
- SE-10, Plant Shutdown from the Alternative Shutdown Panels - Procedure Basis:
- Room, in addition to responding to the event that required the evacuation of the Control Room, will present challenges to plant operators and other on-shift personnel.
- 1. NEI 99-01, Rev 6 HA6
- 2. SE-1, Plant Shutdown from the Remote Shutdown Panel - Procedure
- 3. SE-10, Plant Shutdown from the Alternative Shutdown Panels - Procedure
- January 2016 PBAPS 2-134 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Condition:
- Emergency Acticm Level (EAL)
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- Escalation of the emergency classification level would be via IC CA2 or MA5
- 1. A FIRE in ANY Table H2 area is not extinguished in< 15-minutes of ANY of the following FIRE detection indications:
- Report from the field (i.e., visual observation)
- Receipt of multiple (more than 1) fire alarms or indications
- Field verification of a single fire alarm Table H2 - Vital Areas Reactor Building (when inerted the Drywell is exempt)
- Emergency Cooling Tower
- Emergency Switchgear/Battery Rooms
- Cable Spread Room OR
- 2. a. Receipt of a single fire alarm in ANY Table H2 area (i.e. no other indications of a FIRE).
- b. The existence of a FIRE is not verified in < 30 minutes of alarm receipt.
- '.Basis:
- January 2016 PBAPS 2-136 EP-AA-1007 Addendum 3 (Rev 3)
- *~asis (cont}:
- January 2016 PBAPS 2-137 EP-AA-1007 Addendum 3 (Rev 3)
- *Bji~is. (~o_nt):
- 1. NEI 99-01, Rev 6 HU4
- 2. T-300 Bases, Fire Guides
- 3. ON-114, Actual Fire Reported in the Power Block, Diesel Generator Building, Emergency Pump, Inner Screen or Emergency Cooling Tower Structures
- January 2016 PBAPS 2-138 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Condition:
- Emergency-Action Lev_ef (EAL):
- Escalation of the emergency classification level would be via IC CA2 or MA5
- For emergency classification if EAL 2.b is not able to be confirmed, then the occurrence of a seismic event is confirmed in manner deemed appropriate by the Shift Manager or Emergency Director in .:5. 15 mins of the event.
- 1. Seismic event> Operating Basis Earthquake (OBE) as indicated by the Alarm on Panel 316 A-5."0PERATING BASIS EARTHQUAKE EXCEEDED" OR
- 2. When Seismic Monitoring Equipment is not available:
- a. Control Room personnel feel an actual or potential seismic event.
- AND
- b. ANY one of the following confirmed in .:5. 15 mins of the event:
- The earthquake resulted in Modified Mercalli Intensity (MMI) ~VI and occurred
- The earthquake was magnitude ~ 6.0
- The earthquake was magnitude~ 5.0 and occurred .:5. 125 miles of the plant.
- necessary for continued operation without undue risk to the health and safety of the
- HU4 (cont)
- .Basis Refere11c:e(s):.
- 1. NEI 99-01, Rev 6 HU2
- 2. SE-5, Earthquake - Bases
- 3. US NRC Reg. Guide 1.166, Pre-Earthquake Planning and Immediate Nuclear Power Plant Operator Earthquake Actions .
- January 2016 PBAPS 2-140 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Condition:
- If the equipment in the listed room or area was already inoperable, or out of service, before the event occurred, then no emergency classification is warranted.
- 1. Release of a toxic, corrosive, asphyxiant or flammable gas in a Table H3 area.
- 2.
- January 2016 PBAPS 2-141 EP-AA-1007 Addendum 3 (Rev 3)
- Basis (cont):
- judgment may be based on a variety of factors including an existing job hazard analysis, report of ill effects on personnel, advice from a subject matter expert or operating experience with the same or similar hazards. Access should be considered as impeded if extraordinary measures are necessary to facilitate entry of personnel into the affected room/area (e.g., requiring use of protective equipment, such as SCBAs, that is not routinely employed).
- The plant is in an operating mode different than the mode specified for the affected room/area (i.e., entry is not required during the operating mode in effect at the time of the gaseous release). For example, the plant is in Mode 1 when the gaseous release occurs, and the procedures used for normal operation, cooldown and shutdown do not require entry into the affected room until Mode 4.
- The gas release is a planned activity that includes compensatory measures which address the temporary inaccessibility of a room or area (e.g., fire suppression system testing). '
- The action for which room/area entry is required is of an administrative or record keeping nature (e.g., normal rounds or routine inspe~tions).
- The access control measures are of a conservative or precautionary nature, and would not actually prevent or impede a required action.
- Basis (cont):
- 3. In the future should the areas of concern in Table H-3 be revised then the Operating Mode Applicability of this EAL should be reevaluated.
- 1. NEI 99-01, Rev 6 HA5
- 2. T-300 Bases
- 4. 29CFR1910.134(b) and 29CFR1910.134(d)(2)(iii)
- 5.
- January 2016 PBAPS 2-143 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Conditi_on: .
- EAL #4 does not apply to routine traffic impediments such as fog, snow, ice, or vehicle breakdowns or accidents.
- Escalation of the emergency classification level would be via IC CA2 or MA5
- 1. Tornado strike within the PROTECTED AREA.
- 2. Internal room or area flooding of a magnitude sufficient to require manual or automatic electrical isolation of a SAFETY SYSTEM component required by Technical Specifications for the current operating mode.
- 3. Movement of personnel within the PROTECTED AREA is impeded due to an offsite event involving hazardous materials (e.g., an offsite chemical spill or toxic gas release).
- 4. A hazardous event that results in on-site conditions sufficient to prohibit the plant staff from accessing the site via personal vehicles.
- 5. Abnormal River level, as indicated by EITHER:
- > 112 ft. (high level)
- < 98.5 ft. (low level)
- typically systems classified as safety-related.
- ;Basi~ (cont):
- and significant enough to prohibit the plant staff from accessing the site using personal vehicles.. Examples of such an event include site flooding caused by a hurricane, heavy rains, up-river water releases, dam failure, etc., or an on-site train derailment blocking the access road.
- January 2016 PBAPS 2-145 EP-AA-1007 Addendum 3 (Rev 3)
- .Basis (co11~):
- 1. NEI 99-01, Rev 6 HU3
- 2. SE-4, Flood - Bases
- 3. DBD P-T-09, Internal Hazards
- 4. UFSAR Section 2.4.3.5.5, Emergency Shutdown due to High or Low Water Level in Conowingo Pond
- January 2016 PBAPS 2-146 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Condition:
- HG7 1,2,3,4,5,D
- 1. NEI 99-01, Rev 6 HG?
- January 2016 PBAPS 2-147 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Condition: _
- Op_~ra_ting Mode App-lif::ab!l_ify: __
- easls:
- PROJECTILEs, vehicles, or other devices used to deliver destructive force. Other acts that satisfy the overall intent may be included. HOSTILE ACTION should not be construed to include acts of civil disobedience or felonious acts that are not part of a concerted attack on the NPP. Non-terrorism-based EALs should be used to address such activities (i.e., this may include violent acts between individuals in the owner controlled area).
- 1. NEI 99-01, Rev 6 HS7
- January 2016 PBAPS 2-148 EP-AA-1007 Addendum 3 (Rev 3)
- .Initiating Condition:
- construed to include acts of civil disobedience or felonious acts that are not part of a concerted attack on the NPP. Non-terrorism-based EALs should be used to address such activities (i.e., this may include violent acts between individuals in the owner controlled area).
- Basis Referenc~(s):
- 1. NEI 99-01, Rev 6 HA?
- January 2016 PBAPS 2-149 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Condition:
- f:mergef1~Y Action Level (EAL):
- January 2016 PBAPS 2-150 EP-AA-1007 Addendum 3 (Rev 3)
- !1nitia~i!1g Gondition Damage to a loaded cask CONFINEMENT BOUNDARY.
- Ope.rating !VI~~-~ Ap~lic;:ability:
- > 350 mr/hr gamma and 30 mr/hr neutron on the top (protective cover).
- > 250 mr/hr gamma and 60 mr/hr neutron on the sides of the radial neutron shield.
- > 1100 mr/hr gamma and 250 mr/hr neutron on the side surfaces of the cask above the radial neutron shield.
- * > 800 mr/hr gamma and 600 mr/hr neutron on the side surfaces of the cask
- January 2016 PBAPS 2-151 EP-AA-1007 Addendum 3 (Rev 3)
- :~asis (cont):
- Basi!?J~ef~re_n~~(s): _
- 1. NEI 99-01, Rev 6 E-HU1
- 2. Certificate of Compliance No. 1027, TN-68 Technical Specifications Amendment No.1 Section 5.2.3
- January 2016 PBAPS 2-152 EP-AA-1007 Addendum 3 (Rev 3)
- EMERGENCY ACTION LEVELS FOR PEACH BOTTOM ATOMIC POWER STATION
- January 2016 EP-AA-1007 Addendum 3(Rev 3)
- event that involves probable life threatening risk to site personnel or damage to site equipment because of HOSTILE ACTION. Any releases are expected to be limited to small fractions of the EPA Protective Action Guideline exposure levels.
- January 2016 PBAPS 1-1 EP-AA-1007 Addendum 3(Rev 3)
- normal events or conditions according to (1) potential or actual effects or consequences, and (2) resulting onsite and offsite response actions. The emergency classification levels, in ascending order of severity, are:
- SITE AREA EMERGENCY (SAE)
- GENERAL EMERGENCY (GE)
- Releases. The second is designated as "F" and relates to Fission Product Barrier Degradation. The third is designated as "M" and relates to hot condition System Malfunctions. The fourth is designated as "C" and relates to Cold Shutdown I Refueling System Malfunctions. The fifth is designated as "H" and relates to Hazards and Other Conditions. The sixth is designated "E-H" and relates to ISFSI Malfunctions.
- Exelon Nuclear Although the majority of the EALs provide very specific thresholds, the Emergency Director must remain alert to events or conditions that lead to the conclusion that
- exceeding the EAL is IMMINENT. If, in the judgment of the Emergency Director, an IMMINENT situation is at hand, the classification should be made as if the EAL has been exceeded. While this is particularly prudent at the higher ECL (as the early classification may provide for more effective implementation of protective measures), it is nonetheless applicable to all ECLs.
- evolutions to test, manipulate, repair, perform maintenance or modifications to systems and equipment that result in an EAL being met or exceeded are not subject to classification and activation requirements as long as the evolution proceeds as planned and is within the operational limitations imposed by the January 2016 PBAPS 1-4 EP-AA-1007 Addendum 3(Rev 3)
- January 2016 PBAPS 1-5 EP-AA-1007 Addendum 3(Rev 3)
- 1.5 values, but warrant determination because conditions exist that fall under the broader definition for a significant Loss or Potential Loss of the barrier (equal to or greater than the defined FPB threshold values).
- Fuel Clad (FC)
- Containment (CT)
- In some accident sequences, the ICs and EALs presented in the Abnormal Radiation Levels/ Radiological Effluent (R) Recognition Category will be exceeded at the same time, or shortly after, the loss of one or more fission product barriers.
- CONFINEMENT BOUNDARY: The irradiated fuel dry storage cask barrier(s) between areas containing radioactive substances and the environment.
- HOSTAGE: A person(s) held as leverage against the station to ensure that demands will be met by the station.
- NORMAL LEVELS: As applied to radiological IC/EALs, the highest reading in the past twenty-four hours excluding the current peak value.
- official business .
- UNPLANNED: A parameter change or an event that is not 1) the result of an intended evolution or 2) an expected plant response to a transient. The cause of the parameter change or event may be known or unknown.
- January 2016 PBAPS 1-8 EP-AA-1007 Addendum 3(Rev 3)
- EAL RG1 RG2 FG1 Pg.
- Exelon Nuclear GENERAL EMERGENCY SITE AREA EMERGENCY ALERT Abnormal Rad Levels I Radiological Effluents RG1 Release of gaseous radioactivity IIJ[g]@][1]ffi][g RS1 Release of gaseous radioactivity ij][g]@]l1Jffil[g RA1 Release of gaseous or liquid IIJ[g]@][1]ffi][g RU1 Any release of gaseous or liquid ij](g]@][1]ffi][g resulting in offsite dose greater than 1,000 mRem TEDE resulting in offsite dose greater than 100 mRem TEDE radioactivity resulting in offsite dose greater than radioactivity to the environment greater than or 5,000 mRem thyroid CDE. or 500 mRem thyroid CDE.
- The Emergency Director should declare the event promptly
- The Emergency Director should declare the event promptly
- The Emergency Director should declare the event
- The Emergency Director should declare the event upon determining that the applicable time has been upon determining that the applicable time has been promptly upon determining that the applicable time has promptly upon determining that the applicable time has exceeded, or will likely be exceeded.
- If an ongoing release is detected and the release start time
- If an ongoing release is detected and the release start time
- If an ongoing release is detected and the release start
- If an ongoing release is detected and the release start is unknown, assume that the release duration has is unknown, assume that the release duration has time is unknown, assume that the release duration has time is unknown, assume that the release duration has exceeded 15 minutes.
- Classification based on effluent monitor readings assumes
- Classification based on effluent monitor readings assumes
- Classification based on effluent monitor readings assumes
- Classification based on effluent monitor readings assumes that a release path to the environment is established. If the that a release path to the environment is established. If the that a release path to the environment is established. If that a release path to the environment is established. If effluent flow past an effluent monitor is known to have effluent flow past an effluent monitor is known to have the effluent flow past an effluent monitor is known to have the effluent flow past an effluent monitor is known to have stopped due to actions to isolate the release path, then the stopped due to actions to isolate the release path, then the stopped due to actions to isolate the release path, then stopped due to actions to isolate the release path, then effluent monitor reading is no longer valid for classification effluent monitor reading is no longer valid for classification the effluent monitor reading is no longer valid for the effluent monitor reading is no longer valid for
- The pre-calculated effluent monitor values presented in
- The pre-calculated effluent monitor values presented in
- The pre-calculated effluent monitor values presented in
- 1. Reading on ANY of the following effluent monitors > 2 w times alarm setpoint established by a current radioactive
- Radwaste Discharge Effluent Monitor (Rl-0-17-350)
- 2. Dose assessment using actual meteorology indicates doses at 0 2. Dose assessment Using actual meteorology indicates doses at or beyond the site boundary of EITHER: 2. Dose assessment using actual meteorology indicates doses at
- Discharge Permit specified monitor
- a. > 1000 mRem TEOE
- 2. Readings on ANY Table R1 Effluent Monitor> Table R1 value
- b. > 500 mRem COE Thyroid for?, 60 minutes:
- 3. Field survey results at or beyond the site boundary indicate
- 3. Field survey results at or beyond the site boundary indicate EITHER'. 3. Analysis of a liquid effluent sample indicates a concentration 3. Confirmed sample analyses for gaseous or liquid releases EITHER: or release rate that would result in doses greater than indicate concentrations or release rates
- a. Gamma (closed window) dose rates
- a. Gamma (closed window) dose rates EITHER of the following at or beyond the site boundary > 2 times ODCM Limit with a release duration of
- b. Analyses of field survey samples indicate exposure
- a. Gamma (closed window) dose rates
- b. Analyses of field survey samples indicate
- Exelon Nuclear Abnormal Rad Levels I Radiological Effluents RG2 Spent fuel pool level cannot be ITI~@l@l@l[g RS2 Spent fuel pool level at ITI~@l@l@l[g RA2 Significant lowering of water ITI~@l@.1((]19 RU2 Unplanned loss of water level restored to at least 1.00 ft as indicated on Ll(2)3- 1.00 ft as indicated on Ll(2)3-19-001A(B). level above, or damage to, irradiated fuel. above irradiated fuel .
- Refueling Cavity water level < 458 inches Spent fuel pool level cannot be restored to at least 1.00 ft Table R2 Radiation Monitor reading on Shutdown/Refuel Range indicator Ll-
- 3. Lowering of spent fuel pool level to 10.00 ft as
- Spent Fuel Pool level < 232 feet 3 inches indicated on Ll-(2)3-19-001A(B) (equivalent to plant elevation.
- Indication or report of a drop in water level in the REFUELING PATHWAY.
- 2. UNPLANNED Area Radiation Monitor reading rise on ANY radiation monitor in Table R2.
- Main Control Room already inoperable, or out of service, before the 1 Air Ejector discharge radiation monitor RIS-2(3) Refuel Slot, 234 ELEV, 3.8 (7.10) event occurred, then no emergency classification is 150 NB HI-HI alarm.
- Central Alarm Station - (by survey) warranted OR Fuel Pool, 234 ELEV, 3.9 (7.11)
- 1. Dose rate > 15 mR/hr in ANY of the areas 2. Specific coolant activity > 4.0 uCl/gm Dose Refueling Bridge, 234 ELEV, 3.10 (7.12) contained in Table R3. equivalent 1-131.
- 2. An UNPLANNED event results in radiation levels that prohibit or significantly impede access to any Table R4 of the areas contained in Table R4.
- 1. RCS Activity None None None None None Dose E uivalent 1-131 2 RPV level cannot be restored 1. RPV level cannot be restored and
- 1. Plant conditions indicate that *
- 2. RPVWater and maintained > - 172 inches. maintained > -172 inches. Plant conditions indicate that Primary Primary Containment None None Level OR OR Containment Flooding is required.
- 3. Drywell pressure ~ 56 psig
- 3. Primary 1. Drywell pressure> 2.0 psig. concentration > 6%.
- 2. Drywell pressure response not OR consistent with LOCA conditions. 5. Heat Capacity Limit (T-102 Curve T/T-1 or T/T-2 exceeded.
- 3. UNISOLABLE primary system leakage that results in EITHER of
- 1. UNISOLABLE Main Steam Line the following::
- 4. RCS Leak or RCIC line break. temperatures> T-103 Alarm None None None None Rate OR Setpoint OR 2 Emergency RPV Depressurization
- b. Secondary Containment area is required.
- 5. Primary Drywell radiation monitor reading Drywell Radiation monitor reading Drywell radiation monitor reading Containment None None None
- 1. UNISOLABLE direct downstream pathway to the environment exists after primary containment isolation signal.
- 2. Intentional Primary Containment venting/purging per EOP's or SAMPs due to accident
- 6. Primary conditions.
- 3. UNISOLABLE primary system Failure leakage that results in EITHER:
- Secondary Containment area temperatures > T-103 Action Level.
- Secondary Containment area radiation levels > T-103 Action Level.
- 1. Any condition in the opinion of the 2. Any condition in the opinion of the 1. Any condition in the opinion of the 2. Any condition in the opinion of the 1. Any condition in the opinion of the 2. Any condition in the opinion of the
- 7. ED Judgment Emergency Director that indicates Emergency Director that indicates Emergency Director that indicates Loss Emergency Director that indicates Emergency Director that indicates Loss Emergency Director that indicates Potenti Loss of the Fuel Clad Barrier. Potential Loss of the Fuel Clad Barrier. of the RCS Barrier. Potential Loss of the RCS Barrier. of the Containment Barrier. Loss of the Containment Barrier.
- 11. 1 Loss of ALL offsite AC power to unit 4 KV Safeguards 1. AC power capability to unit 4KV Safeguards Buses
- 2 Emergency Auxiliary Transformer (OAX04) en AND Generators to supply power to unit 4KV Safeguards Buses .
- 2. Failure of E1, E2, E3, and E4 Emergency Diesel Generators to supply power to unit 4KV Safeguards 3 Emergency Auxiliary Transformer (OBX04)
- 3. EITHER of the following: Buses.
- E2 Diesel Generator
- a. Restoration of at least one unit 4KV safeguards Bus AND in< 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> is fill! likely.
- E3 Diesel Generator
- 3. Failure to restore power to at least one unit 4KV OR Safeguards bus in< 15 minutes from the time of loss of
- E4 Diesel Generator both offsite and onsite AC power.
- b. RPV water level cannot be restored and AND maintained > -195 inches. 2. ANY additional single power source failure will result in a loss of ALL AC power to SAFETY SYSTEMS.
- 11. Buses.
- 3. Voltage is< 107.5 VDe on unit 125 VDC battery buses 2(3)00021, 2(3)00022, 2(3)00023, and 2(3)00024.
- 1. Automatic scram did not shutdown the reactor as actions, which causes the control rods to be rapidly Emergencl£ Action Level (EAL): inserted into the core, and does not include manually indicated by Reactor Power> 4%.
- 2. ALL manual I ARI actions to shutdown the reactor have inserted into the core, and does not include manually 1. a. Automatic scram did not shutdown the reactor been unsuccessful as indicated by Reactor Power > 4%. driving in control rods or implementation of boron as indicated by Reactor Power > 4%.
- 3. EITHER of the following conditions exist:
- b. Subsequent manual I ARI action taken at the OR Reactor Console is successful in shutting down the reactor.
- 2. Manual I ARI actions taken at the Reactor Console are
- 2. a. Manual scram did not shutdown the reactor as indicated by Reactor Power > 4%.
- b. EITHER of the following:
- 1. Subsequent manual I ARI action taken at the Reactor Console is successful in shutting down the reactor.
- 1. An UNPLANNED event results in the inability to monitor ANY Table M1 parameters from within the Control An UNPLANNED event results in the inability to monitor ANY Table M1 parameters from within the Control Room
- 2. Any Table M2 transient in progress.
- 1. The occurrence of ANY of the following hazardous events:
- a. Event damage has caused indications of degraded performance in at least one train of a SAFETY SYSTEM required by Technical
- 1. RCS unidentified or pressure boundary leakage in the Drywell > 10 gpm for:: 15 minutes OR
- 2. RCS identified leakage in the Drywell >25 gpm tor
- 15 minutes OR
- 3. Leakage from the RCS to a location outside the Drywell >25 gpm for;:: 15 minutes Modes: 1 - Power Operatron 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refuehng 0-Defueled January 2016 HOT MATRIX PBAPS2-6 HOT MATRIX EP-AA-1007 Addendum 3 (Rev 3)
- c: Address (PA) operations.
- J E
- 1. A notification from the Security Force that a HOSTILE 1. A validated notification from NRC of an aircraft 1. Notification of a credible security threat directed at the A notification from the Security Force that a HOSTILE site as determined per SY-AA-101-132, Security ACTION is occurring or has occurred within the attack threat< 30 minutes from the site.
- 2. Notification by the Security Force that a HOSTILE 2. A validated notification from the NRC providing
- 2. a. ANY Table H1 safety function cannot be information of an aircraft threat.
- b. Damage to spent fuel has occurred or is CONDITION that does not involve a HOSTILE IMMINENT ACTION. -
- Reactivity Control Note: The Emergency Director should declare the event An event has resulted in plant control being transferred from gc (ability to shutdown the reactor and keep it shutdown) promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- SE-1, Plant Shutdown from the Remote 0
- RPV Water Level (ability to cool the core) 1. An event has resulted in plant control being transferred Shutdown Panel
- RCS Heat Removal (ability to maintain a heatsink)
- SE-1, Plant Shutdown from the Remote
- SE-10, Plant Shutdown from the Alternative ii: Shutdown Panel Shutdown Panels 0..
- 2. Control of ANY Table H1 key safety function is not reestablished in < 15 minutes.
- 1. A FIRE in ANY Table H2 area is not extinguished in
- 15-minutes of ANY of the following FIRE detection
- Report from the field (i.e., visual observation)
- a. Receipt of a single fire alarm in ANY Table H2 area
- b. The existence of a FIRE is not verified in < 30 minutes of alarm receipt. -
- 3. A FIRE within the plant PROTECTED AREA or ISFSI PROTECTED AREA not extinguished in :S GO-minutes of the initial report, alarm or indication.
- 4. A FIRE within the plant PROTECTED AREA or ISFSI PROTECTED AREA that requires firefighting support by an offsite fire response agency to extinguish.
- I Exelon Confidential/Proprietary HOT MATRIX I
- 1. Seismic event> Operating Basis Earthquake (QBE) as indicated by the Alarm on Panel 316 A-5."0PERATING BASIS EARTHQUAKE EXCEEDED" Q) OR
- I C"
- 2. When Seismic Monitoring Equipment is not available:
- b. ANY one of the following confirmed in !:: 15 mins of the event:
- The earthquake resulted in Modified Mercalli Intensity (MMI) ~VI and occurred!:: 3.5 miles of the plant.
- The earthquake was magnitude ~ 6.0
- The earthquake was magnitude ~ 5.0 and occurred
- Defueled January 2016 HOT MATRIX PBAPS 2-10 HOT MATRIX EP-AA-1007 Addendum 3 (Rev 3)
- EVE~~:~'** - ~*
- -~-t" ***!J!t'J ~ ...
- 2. Entry into the room or area is prohibited or impeded HUS Hazardous Event L!J@@J~~l9 EmergencJl Action Level (EALl:
- 1. Tornado strike within the PROTECTED AREA.
- 2. Internal room or area flooding of a magnitude sufficient to tn
- J require manual or automatic electrical isolation of a 0
- I:
- 4. A hazardous event that results in on-site conditions sufficient to prohibit the plant staff from accessing the site via personal vehicles.
- 5. Abnormal River level, as indicated by EITHER:
- i
- Exelon Nuclear SITE AREA EMERGENCY ALERT Abnormal Rad Levels I Radiological Effluents RG1 Release of gaseous radioactivity IIJ~@]@]@J[g RS1 Release of gaseous radioactivity IIJ~@]@l@l[g RA1 Release of gaseous or liquid IIJ~@l@l@l[g RU1 Any release of gaseous or liquid IIJ~@l@l@l[g resulting in offsite dose greater than 1,000 mRem TEDE resulting in offsite dose greater than 100 mRem TEDE radioactivity resulting in offsite dose greater than radioactivity to the environment greater than or 5,000 mRem thyroid CDE. or 500 mRem thyroid CDE. 10 mrem TEDE or 50 mrem thyroid CDE. 2 times the ODCM for 60 minutes or longer.
- The Emergency Director should declare the event promptly
- The Emergency Director should declare the event promptly
- The Emergency Director should declare the event
- The Emergency Director should declare the event upon determining that the applicable time has been upon determining that the applicable time has been promptly upon determining that the applicable time has promptly upon determining that 60 minutes has been exceeded, or will likely be exceeded. ' exceeded, or will likely be exceeded. been exceeded, or will likely be exceeded. exceeded, or will likely be exceeded.
- If an ongoing release is detected and the release start time
- If an ongoing i'elease is detected and the release start time
- If an ongoing release is detected and the release start
- If an ongoing release is detected and the release start is unknown, assume that the release duration has is unknown, assume that the release duration has time is unknown, assume that the release duration has time is unknown, assume that the release duration has exceeded 15 minutes. exceeded 15 minutes. exceeded 15 minutes. exceeded 60 minutes.
- Classification based on effluent monitor readings assumes
- Classification based on effluent monitor readings assumes
- Classification based on effluent monitor readings assumes
- Classification based on effluent monitor readings assumes that a release path to the environment is established. If the that a release path to the environment is established. If the that a release path to the environment is established. If that a release path to the environment is established. If effluent flow past an effluent monitor is known to have effluent flow past an effluent monitor is known to have the effluent flow past an effluent monitor is known to have the effluent flow past an effluent monitor is known to have stopped due to actions to isolate the release path, then the stopped due to actions to isolate the release path, then the stopped due to actions to isolate the release path, then stopped due to actions to isolate the release path, then effluent monitor reading is no longer valid for classification effluent monitor reading is no longer valid for classification the effluent monitor reading is no longer valid for the effluent monitor reading is no longer valid for J!l purposes. purposes. classification purposes. classification purposes.
- The pre-calculated effluent monitor values presented in
- The pre-calculated effluent monitor values presented in
- The pre-calculated effluent monitor values presented in
- I EAL #1 should be used for emergency classification EAL #1 should be used for emergency classification EAL #1 should be used for emergency classification 1. Reading on ANY of the following effluent monitors > 2 E assessments until dose assessment results are available. assessments until dose assessment results are available. assessments until dose assessment results are available. times alarm setpoint ,established by a current radioactive w release discharge permit for 2: 60 minutes.
- Radwaste Discharge Effluent Monitor (Rl-0-17-350)
- 2. Dose assessment Using actual meteorology indicates doses at 2. Dose assessment using actual meteorology indicates doses at 2. Dose assessment using actual meteorology indicates doses
- Discharge Permit specified monitor 0 or beyond the site boundary of EITHER: or beyond the site boundary of EITHER: at or beyond the site boundary of EITHER: OR
- 3. Field survey results at or beyond the site boundary indicate 3. Field survey results at or beyond the site boundary indicate 3. Analysis of a liquid effluent sample indicates a 3. Confirmed sample analyses for gaseous or liquid releases EITHER: EITHER: concentration or release rate that would result in doses indicate concentrations or release rates ct. Gamma (closed window) dose rates a. Gamma (closed window) dose rates greater than EITHER of the following at or beyond the > 2 times OOCM Limit with a release duration of
- b. Analyses of field survey samples indicate b. Analyses of field survey samples indicate b. 50 mRem CDE Thyroid for 60 minutes of
- a. Gamma (closed window) dose rates
- 60 minutes.
- b. Analyses of field survey samples indicate
- Exelon Nuclear
- I AND iE 2. UNPLANNED Area Radiation Monitor reading w
- 1. Dose rate > 15 mR/hr in ANY of the areas contained in Table R3.
- 2. An UNPLANNED event results in radiation levels Areas with Entry Related Mode Applicability that prohibit or significantly impede access to any of Entry Related the areas contained in Table R4.
- Exelon Nuclear GENERAL EMERGENCY SITE AREA EMERGENCY ALERT UNUSUAL EVEN!:a'<i~ '-' ~*:j'~
- _ 15 minutes .
- 1. The occurrence of ANY of the following hazardous E
- 2. EITHER of the following:
- a. Event damage has caused indications of degraded performance in at least one train of a SAFETY SYSTEM required by Technical Specifications for the current operating mode.
- b. The event has caused VISIBLE DAMAGE to a SAFETY SYSTEM component or structure required by Technical Specifications for the current operating mode.
- Exelon Nuclear Cold Shutdown I Refueling System Malfunctions CU3 Loss of Vital DC power for 15 minutes ~~
- capability affecting the ability to perform routine ca Plant Public x operations.
- c::::J OMNI Svstem x x OR E Station Phones x x x 2. Loss of ALL Table C1 Offsite communication E capability affecting the ability to perform offsite 0
- If an RCS heat removal system is in operation within >Table C2 duration. OR this time frame and RCS temperature is being OR 2. Loss of the following for:::, 15 minutes.
- 2. UNPLANNED RCS pressure rise> 10 psig as a
- ALL RCS temperature indications result of temperature rise (This EAL threshold does not apply during water- solid plant conditions.) AND
- ALL RPV level indications Modes. 1 Power Operation 2-Startup 3 - Hot Shutdown 4 - Cold Shutdown 5-Refuehng D-Defueled January 2016 COLD MATRIX PBAPS 2-17 COLD MATRIX EP-AA-1007 Addendum 3(Rev 3)
- Exelon Nuclear EVENT~~.;:,!.;,~*
- 1. With CONTAINMENT CLOSURE not established, RPV water level < -160 inches -
- 1. Loss of RPV inventory as indicated by level
- 1. UNPLANNED loss of reactor coolant results in the inability GI to restore and maintain RPV water level to above the
- b. Core uncovery is indicated by ANY of the following:
- , 30 minutes AND indications
- b. Loss of RPV inventory per Table C3 indications.
- Table C3 indications of a sufficient AND magnitude to indicate core uncovery.
- 3. ANY Containment Challenge Indication (Table C4) OR
- ANY Table CS Refuel Floor Area Radiation Monitor >3 R/hr Table C3 Indications of RCS Leakage Table C4 Containment Challenge Indications Table C5 Refuel Floor ARM's
- UNPLANNED floor or equipment sump level rise*
- Primary Containment Hydrogen Concentration ::,
- Steam Separator Pool, 234 ELEV, 3.7 (7.9)
- UNPLANNED Torus level rise*
- UNPLANNED vessel make up rate rise
- UNPLANNED rise in containment pressure
- Refuel Slot, 234 ELEV, 3.8 (7.10)
- Observation of leakane or inventorv loss
- CONTAINMENT CLOSURE not established*
- Fuel Pool, 234 ELEV. 3.9 (7.11)
- Rise in level is attributed to a loss of RPV inventory
- ANY Secondary Containment radiation monitor >
- Refueling Bridge, 234 ELEV, 3.10 (7.12)
- if CONTAINMENT CLOSURE is re-established prior to exceeding the 30-minute core uncovery time limit, then escalation to a General Emergency is !!Q! required.
- Exelon Nuclear GENERAL EMERGENCY SITE AREA EMERGENCY ALERT UNUSUAL EVENT_,"'itf'.t:.'
- Ji .... r~
- 1. A notification from the Security Force that a HOSTILE ACTION is occurring or has occurred within the Emergencll Action Level (EAL}:
- 1. A validated notification from NRC of an aircraft attack threat < 30 minutes from the site.
- 1. Notification of a credible security threat directed at the site as determined per SY-AA-101-132, Security ct ACTION is occurring or has occurred within the Assessment and Response to Unusual Activities.
- 2. Notification by the Security Force that a HOSTILE 0 2. a. ANY Table H1 safety function cannot be
- i:: ACTION is occurring or has occurred within the information of an aircraft threat.
- b. Damage to spent fuel has occurred or is CONDITION that does not involve a HOSTILE IMMINENT ACTION.
- 2. Control of ANY Table H1 key safety function is not
- Exelon Nuclear Hazards and Other conditions Affecting Plant Safety HU3 FIRE potentially degrading the level 11J~l3ll4ll5ll O of safety of the plant.
- Reactor Building (when inerted the Drywell is exempt) indications:
- Report from the field (i.e., visual observation)
- Control Room
- Receipt of multiple (more than 1) fire alarms or
- Diesel Generator Building indications
- Emergency Pump Structure
- Field verification of a single fire alarm
- Inner Screen Structure OR
- 2. a. Receipt of a single fire alarm in AMY Table H2 area
- Emergency Cooling Tower (i.e., no other indications of a FIRE).
- Emergency Switchgear/Battery Rooms AND
- Cable Spread Room b. The existence of a FIRE is not verified in < 30 minutes of alarm receipt. - -
- 3. A FIRE within the plant PROTECTED AREA or ISFSI PROTECTED AREA not extinguished in~ 60-minutes of the initial report, alarm or indication.
- 4. A FIRE within the plant PROTECTED AREA or ISFSI PROTECTED AREA that requires firefighting support by an offsite fire response agency to extinguish.
- Exelon Nuclear GENERAL EMERGENCY SITE AREA EMERGENCY ALERT UNUSUAL EVEN..,~ .. ~~. '*
- 1. Seismic event > Operating Basis Earthquake (OBE) as indicated by the Alarm on Panel 316 A-5."0PERATING BASIS EARTHQUAKE EXCEEDED" cu
- I c-
- b. ANY one of the following confirmed in 5 15 mins of the event:
- The earthquake resulted in Modified Mercalli Intensity (MM!)!:!: VI and occurred 5 3.5 miles of the plant.
- The earthquake was magnitude!:!: 6.0
- The earthquake was magnitude !:!: 5.0 and occurred 5 125 miles of the plant.
- Exelon Nuclear
- -~~~*
- 1. Release of a toxic, corrosive, asphyxiant or flammable gas in ANY Table H3 area.
- 2. Entry into the room or area is prohibited or impeded HU6 Hazardous Event 111121131141~19 EmergencJl Action Level (EAL):
- 1. Tornado strike within the PROTECTED AREA.
- 2. Internal room or area flooding of a magnitude sufficient to require manual or automatic electrical isolation of a SAFETY SYSTEM component required by Technical Ill
- I Specifications for the current operating mode.
- 3. Movement of personnel within the PROTECTED AREA is N
- c"'
- 4. A hazardous event that results in on-site conditions sufficient to prohibit the plant staff from accessing the site via personal vehicles.
- 5. Abnormal River level, as indicated by EITHER:
- Exelon Nuclear Hazards and Other conditions Affecting Plant Safety HG7 Other conditions exist which in the IIJ[fil@l@I@][§ HS7 Other conditions exist which in the IIJ[fil@]@l@l[§ HA7 Other conditions exist which in the IIJ[fil@]@l@l[§ HU7 Other conditions exist which in the IIJ[fil@l@l@l[§ judgment of the Emergency Director warrant judgment of the Emergency Director warrant judgment of the Emergency Director warrant judgment of the Emergency Director warrant declaration of a GENERAL EMERGENCY. declaration-of a SITE AREA EMERGENCY. declaration of ari ALERT. declaration of an UNUSUAL EVENT.
- I
- c
- Exelon Nuclear GENERAL EMERGENCY SITE AREA EMERGENCY ALERT UNUSUAL EVE
- Ii '"~-~~---
- a.... ,...
- Initiating Condition.: ,
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- If an ongoing release is detected and the release start time is unknown, assume that the release duration has exceeded 15 minutes.
- Classification based on effluent monitor readings assumes that a release path to the environment is established. If the effluent flow past an effluent monitor is known to have stopped due to actions to isolate the release path, then the effluent monitor reading is no longer valid for classification purposes.
- The pre-calculated effluent monitor values presented in EAL #1 should be used for emergency classification assessments until the results from a dose assessment using actual meteorology are available.
- 4. Readings on ANY Table R1 Effluent Monitor> Table R1 value for~ 15 minutes.
- 5. Dose assessment using actual meteorology indicates doses at or beyond the site boundary of EITHER:
- a. > 1000 mRem TEOE OR
- 3. Field survey results at or beyond the site boundary indicate EITHER:.
- a. Gamma (closed window) dose rates >1000 mR/hr are expected to continue for
- b. Analyses of field survey samples indicate > 5000 mRem COE Thyroid for 60 minutes of inhalation .
- Table R1 - Effluent Monitor Thresholds Release Path RG1 {cont)
- 1.
- 4. EP-AA-112-500, Emergency Environmental Monitoring January 2016 PBAPS 2-26 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating ~on~ition.:..
- Operati11g l\Jlod~ Appli~ability: .
- Eniergeflcy*~~ction .~ever (EAL):
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- If an ongoing release is detected and the release start time is unknown, assume that the release duration has exceeded 15 minutes.
- Classification based on effluent monitor readings assumes that a release path to the environment is established. If the effluent flow past an effluent monitor is known to have stopped due to actions to isolate the release path, then the effluent monitor reading is no longer valid for classification purposes.
- The pre-calculated effluent monitor values presented in EAL #1 should be used for emergency classification assessments until the results from a dose assessment using actual meteorology are available.
- 1. Readings on ANY Table R1 Effluent Monitor> Table R1 value for~ 15 minutes.
- 2. Dose assessment using actual meteorology indicates doses at or beyond the site boundary of EITHER:
- a. > 100 mRem TEOE OR
- 3. Field survey results at or beyond the site boundary indicate EITHER:
- a. Gamma (closed window) dose rates >100 mR/hr are expected to continue for
- b. Analyses of field survey samples indicate > 500 mRem COE Thyroid for 60 minutes of inhalation .
- E;inergencyA~tion J.E)vel (EAL).(c~nt):
- Escalation of the.emergency classification level would be via IC RG1.
- 3. EP-EAL-0607 Revision 1, Criteria for Choosing Radiological Gaseous Effluent EAL Threshold Values Peach Bottom Atomic Power Station
- 4. EP-AA-112-500, Emergency Environmental Monitoring January 2016 PBAPS 2-28 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Condition:
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- If an ongoing release is detected and the release start time is unknown, assume that the release duration has exceeded 15 minutes.
- Classification based on effluent monitor readings assumes that a release path to the environment is established. If the effluent flow past an effluent monitor is known to have stopped due to actions to isolate the release path, then the effluent monitor reading is no longer valid for classification purposes.
- The pre-calculated effluent monitor values presented in EAL #1 should be used for emergency classification assessments until the results from a dose assessment using actual meteorology are available.
- 1. Readings on ANY Table R1 Effluent Monitor> Table R1 value for~ 15 minutes.
- 2. Dose assessment using actual meteorology indicates doses at or beyond the site boundary of EITHER:
- 3. Analysis of a liquid effluent sample indicates a concentration or release rate that would result in doses greater than EITHER of the following at or beyond the site boundary
- b. 50 mRem COE Thyroid for 60 minutes of exposure
- Em~rgency Action Level (EAL)Jcont):
- 4. Field survey results at or beyond the site boundary indicate EITHER:
- b. Analyses of field survey samples indicate > 50 mRem COE Thyroid for 60 minutes of inhalation.
- easis:
- This IC addresses a release of gaseous or liquid radioactivity that results in projected or actual offsite doses greater than or equal to 1% of the EPA Protective Action Guides (PAGs). It includes both monitored and un-monitored releases. Releases of this magnitude represent an actual or potential substantial degradation of the level of safety of the plant as indicated by a radiological release that significantly exceeds regulatory limits (e.g., a significant uncontrolled release).
- i~~;;'is ~ef~r~n~~(~l=
- 3. EP-EAL-0607 Revision 1, Criteria for Choosing Radiological Gaseous Effluent EAL Threshold Values Peach Bottom Atomic Power Station
- 4. EP-EAL-0614Revision 0 Peach Bottom Criteria for Choosing Radiological Liquid Effluent EAL Threshold Values January 2016 PBAPS 2-31 EP-AA-1007 Addendum 3 (Rev 3)
- lr:-iJtiati11g Condition~,
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- If an ongoing release is detected and the release start time is unknown, assume that the release duration has exceeded 60 minutes.
- Classification based on effluent monitor readings assumes that a release path to the environment is established. If the effluent flow past an effluent monitor is known to have stopped due to actions to isolate the release path, then the effluent monitor reading is no longer valid for classification purposes.
- 2. Reading on ANY of the following effluent monitors > 2 times alarm setpoint established by a current radioactive release discharge permit for
- Radwaste Discharge Effluent Monitor (Rl-0-17-350)
- Discharge Permit specified monitor OR
- 4. Readings on ANY Table R1 Effluent Monitor> Table R1 value for~ 60 minutes:
- 3. Confirmed sample analyses for gaseous or liquid releases indicate concentrations or release rates > 2 times ODCM Limit with a release duration of~ 60 minutes .
- :l::l!lerg~ncy Ac~i()n Level (EAL) (cont):.
- i8asis (cc?rjt): -
- 1. NEI 99-01 Rev 6, AU1
- 2. Peach Bottom ODCM
- 3. EP-EAL-0607 Revision 1, Criteria for Choosing Radiological Gaseous Effluent EAL Threshold Values Peach Bottom Atomic Power Station January 2016 - PBAPS 2-34 EP-AA-1007 Addendum 3 (Rev 3)
- :inifi~!il'.ls:.c.<>rj~i!ion. =...
- RG2 1,2,3,4,5,D
- l~a~J~ f!~f~ren~~(~)L ~ .... *
- 1. NEI 99-01 Rev 6, AG2
- 2. PSTG APPENDIX B - T-103 Rev. 12, Exelon Nuclear PEACH BOTTOM UNITS 2 AND 3, SECONDARY CONTAINMENT CONTROL GUIDELINE
- (
- lnit~at!,11g c~n<!i~io11
- ,
- '~~si~J~~fer~nce(~):' _ ~,
- Initiating ~c;ni~i~ion:
- 1. Uncovery of irradiated fuel in the REFUELING PATHWAY.
- 2. Damage to irradiated fuel resulting in a release of radioactivity from the fuel as indicated by ANY Table R2 Radiation Monitor reading >1000 mRem/hr.
- 3. Lowering of spent fuel pool level to 10.00 ft as indicated on LI (2)3 001 A(B) (equivalent to approximately 220' 6" elevation)
- Steam Separator Pool, 234 ELEV, 3.7 (7.9)
- Refuel Slot, 234 ELEV, 3.8 (7.10)
- Fuel Pool, 234 ELEV, 3.9 (7.11)
- Refueling Bridge, 234 ELEV, 3.10 (7.12)
- '.i:J~-~is __{~Q!lJ): _ _ __,__
- f~~~J§J~efex~r:-~~,(~):,:, ___ . -*--~-- ...
- 3. P-S-43, Radiation Monitoring System
- 4. ARC 003-00C214 B-4, Refueling Floor Area Hi Radiation
- 5. ARC 20C075 C-1, Fuel Storage Pool Hi Radiation
- 6. Peach Bottom ECR titled "Fukushima Modification - U3 Spent Fuel Pool Level Instruments", Doc- 13-00508, Sheet A1893550,*Dated 3/26/15, Rev 00, Attachment 1 Section 3.19 January 2016 PBAPS 2-39 EP-AA-1007 Addendum 3 (Rev 3)
- :Initiating Co_ndition: __ _
- Emerge~cy Actic;>n_.Level .(EAL): .
- 1. a. UNPLANNED water level drop in the REFUELING PATHWAY as indicated by ANY of the following:
- Refueling Cavity water level < 458 inches on Shutdown/Refuel Range indicator Ll-2(3)-2-3-86 or PR/FR-2(3)-06-097.
- Spent Fuel Pool level < 232 feet 3 inches plant elevation.
- Indication or report of a drop in water level in the REFUELING PATHWAY.
- b. UNPLANNED Area Radiation Monitor reading rise on one or more radiation monitors in Table R2 .
- Steam Separator Pool, 234 ELEV, 3.7 (7.9)
- Refuel Slot, 234 ELEV, 3.8 (7.10)
- Fuel Pool, 234 ELEV, 3.9 (7.11)
- Refueling Bridge, 234 ELEV, 3.10 (7 .12)
- !~~sis:
- area radiation monitor reading may rise due to planned evolutions such as lifting of the reactor vessel head or movement of a fuel assembly. Note that this EAL is applicable only in cases where the elevated reading is due to an UNPLANNED loss of water level.
- 1. NEI 99-01 Rev 6, AU2
- 2. Technical Specifications 3.9.6, Reactor Pressure Vessel (RPV) Water Level
- 3. ON-124, Fuel Floor and Fuel Handling Problems
- 4. P-S-43, Radiation Monitoring System
- 5. ARC 003-00C214 8-4, Refueling Floor Area Hi Radiation
- 6. ARC 20C075 C-1, Fuel Storage Pool Hi Radiation
- 7. GP-6, Refueling Operations January 2016 PBAPS 2-41 EP-AA-1007 Addendum 3 (Rev 3)
- ;lr,1itiatit:1gConditjon:.*
- i;rriergency Ac!iolJ L:eyel (';At--):
- If the equipment in the room or area listed in Table R4 was already inoperable, or out of service, before the event occurred, then no emergency classification is warranted.
- Dose rate > 15 mR/hr in ANY of the following Table R3 areas:
- Main Control Room
- Central Alarm Statio~ - (by survey)
- UNPLANNED event results in radiation levels that prohibit or significantly impede access to ANY of the following Table R4 plant rooms or areas:
- Basis:
- actions of an administrative or record keeping nature (e.g., normal rounds or* routine inspections).
- The plant is in an operating mode different than the mode specified for the affected room/area (i.e., entry is not required during the operating mode in effect at the time of the elevated radiation levels). For example, the plant is in Mode 1 when the radiation rise occurs, and the procedures used for normal operation, cooldown and shutdown do not require entry into the affected room until Mode 4 .
- '.B~~i~ (~o!!tl: .. ~
- The action for which room/area entry is required is of an administrative or record keeping nature (e.g., normal rounds or routine inspections).
- The access control measures are of a conservative or precautionary nature, and would not actually prevent or impede a required action.
- Escalation of the emergency classification level would be via Recognition Category R, C or F ICs.
- 1. NEI 99-01 Rev 6, AA3
- 2. FSAR Section describing Class I structures
- 3. Appendix R Analysis defining Safe Shutdown Area
- 4. P-S-43, Radiation Monitoring System
- 5. T-300, Fire Guides
- 6. SO 10.1.8-2(3), "Residual Heat Removal System Shutdown Cooling Mode Manual Start" January 2016 PBAPS 2-44 EP-AA-1007 Addendum 3 (Rev 3)
- Jnitiati~g Condition:*
- 1. Air Ejector discharge radiation monitor RIS-2(3)-17-150 A/B Hi-Hi alarm.
- 2. Specific coolant activity> 4.0 uCi/gm Dose equivalent 1-131.
- a~~is ~~ferenc~(sl;.
- 1. NEI 99-01 Rev 6, SU3
- 2. Technical Specifications 3.4.6, RCS Specific Activity
- 3. Technical Specifications 3.7.5, Main Condenser Offgas
- 4. DBD P-S-30, Offgas System
- 5. ARC 218 20C210 E-1, Air Ejector Discharge Radiation High-High January 2016 PBAPS 2-45 EP-AA-1007 Addendum 3 (Rev 3)
- Basis:
- 1. NEI 99-01 Rev 6, Table 9-F-2
- Loss or Potential Loss of ANY two barriers.
- Operci!gng M~de_Applicability:
- E~-ergEH!gy _A9ti~n Levei (E~L):* **
- .B.C!~J~ ~efere'J.~~(5-):_ ..*. _* __ ---*----
- 1. NEI 99-01 Rev 6, Table 9-F-2
- January 2016 PBAPS 2-47 EP-AA-1007 Addendum 3 (Rev 3)
- Exelon Nuclear RECOGNITION CATEGORY FISSION PRODUCT BARRIER DEGRADATION FA1
- ~IIIJ~rgency *Ac~iQn *~e"~I JEAL):* ..
- 1. NEI 99-01 Rev 6, Table 9-F-2
- January 2016 PBAPS 2-48 EP-AA-1007 Addendum 3 (Rev 3)
- Basis Reference(s):
- 1. NEI 99-01 Rev 6, Table 9-F-2
- January 2016 PBAPS 2-49 EP-AA-1007 Addendum 3 (Rev 3)
- 1. Plant conditions indicate Primary Containment flooding is required.
- 3. RPV water level cannot be determined.
- here, the Loss threshold phrase, "Primary containment flooding required," also accommodates the EOP need to flood the primary containment when RPV water level cannot be determined and core damage due to inadequate core cooling is believed to be occurring.
- January 2016 PBAPS 2-50 EP-AA-1007 Addendum 3 (Rev 3)
- (3-a~~~L(~ont): _ _____: :_ -
- In high-power ATWS/failure to scram events, EOPs may direct the operator to deliberately lower RPV water level in order to reduce reactor power. Although such action is a challenge to core cooling and the Fuel Clad barrier, the immediate need to reduce reactor power is the higher priority. For such events, ICs MA3 or MS3 will dictate the need for emergency classification.
- 1. NEI 99-01 Rev 6, Table 9-F-2
- 2. T-BAS INTRO, INTRODUCTION TO TRIPS AND SAMPS - BASES
- 3. T-101, RPV Control Bases
- 4. T-111, Level Restoration
- January 2016 PBAPS 2-51 EP-AA-1007 Addendum 3 (Rev 3)
- There is no Fuel Clad Barrier Potential Loss threshold associated with Primary Containment Radiation.
- 1. NEI 99-01 Rev 6, Table 9-F-2
- 2. Core. Damage Assessment Methodology
- 3. ARC-005-00C226D-B-5, Unit 3 Containment Radiation Monitor Hi-Rad
- 4. DBD P-S-43, Radiation Monitoring System January 2016 PBAPS 2-52 EP-AA-1007 Addendum 3 (Rev 3)
- ;Initiating Condition:
- 1. Any condition in the opinion of the Emergency Director that indicates Loss of the Fuel Clad Barrier.
- 2. Any condition in the opinion of the Emergency Director that indicates Potential Loss of the Fuel Clad Barrier.
- in determining whether the Fuel Clad Barrier is potentially lost. The Emergency Director should also consider whether or not to declare the barrier potentially lost in the event that barrier status cannot be monitored.
- 1. NEI 99-01 Rev 6, Table 9-F-2
- January 2016 PBAPS 2-53 EP-AA-1007 Addendum 3 (Rev 3)
- 1, 2, 3 Fissi~n Pro~µc:t Barrier(F~.B) Threshold:
- LOSS
- 1. RPV water level cannot be restored and maintained > -172 inches {TAF).
- 2. RPV water level cannot be determined.
- January 2016 PBAPS 2-54 EP-AA-1007 Addendum 3 (Rev 3)
- Basis (con~)
- __
- 1. NEI 99-01 Rev 6, Table 9-F-2
- 2. T-BAS INTRO, INTRODUCTION TO TRIPS AND SAMPS - BASES
- 3. T-101, RPV Control Bases
- 4. T-111, Level Restoration
- January 2016 PBAPS 2-55 EP-AA-1007 Addendum 3 (Rev 3)
- 1. Drywell pressure >2.0 psig.
- 2. Drywell pressure rise is due to RCS leakage 1
- 1. NEI 99-01 Rev 6, Table 9-F-2
- 2. T-102, Primary Containment Control-Bases
- 3. T-101, RPV Control
- January 2016 PBAPS 2-56 EP-AA-1007 Addendum 3 (Rev 3)
- LOSS
- 2. Emergency RPV Depressurization is required.
- 3. UNISOLABLE primary system leakage that results in EITHER of the following:
- a. Secondary Containment area temperature > T-103 Alarm Setpoint.
- b. Secondary Containment radiation level > T-103 Alarm Setpoint.
- within 15 minutes, from the start of the leak requires immediate classification .
- Reports describing magnitude of steam or water release.
- Use of system high flow alarms I indications, if available,
- Significant changes in makeup requirements,
- Abnormal reactor water level changes in response to the event.
- January 2016 PBAPS 2-57 EP-AA-1007 Addendum 3 (Rev 3)
- 1 (after a containment isolation) and a General Emergency when the Fuel Clad Barrier criteria is also exceeded.
- 1. NEI 99-01 Rev 6, Table 9-F-2
- 2. T-103, Secondary Containment Control
- January 2016 PBAPS 2-58 EP-AA-1007 Addendum 3 (Rev 3)
- 1. NEI 99-01 Rev 6, Table 9-F-2
- 2. EP-EAL-0611, Criteria for Choosing Containment Radiation Monitor Reading Indicative of Loss of RCS Barrier
- January 2016 PBAPS 2-59 EP-AA-1007 Addendum 3 (Rev 3)
- Operating Mode Applicability
- 1. Any condition in the opinion of the Emergency Director that indicates Loss of the RCS Barrier.
- 2. Any condition in the opinion of the Emergency Director that indicates Potential Loss of the RCS Barrier.
- in determining whether the RCS Barrier is potentially lost. The Emergency Director should also consider whether or not to declare the barrier potentially lost in the event that barrier status cannot be monitored.
- 1. NEI 99-01 Rev 6, Table 9-F-2
- January 2016 PBAPS 2-60 EP-AA-1007 Addendum 3 (Rev 3)
- easis:
- in the Fuel Clad and RCS barrier columns, this threshold results in the declaration of a General Emergency.
- 1. NEI 99-01 Rev 6, Table 9-F-2
- 2. T-111, Level Restoration (LR)- Bases
- 3. T-116, RPV Flooding - Bases
- 4. T-117, Level/Power Control - Bases
- 5. TRIP/SAMP Curves, Tables, And Limits - Bases
- 6. T-BAS (INTRO), Introduction To Trips And Samps - Bases
- January 2016 PBAPS 2-61 EP-AA-1007 Addendum 3 (Rev 3)
- 1. UNPLANNED rapid drop in Drywell pressure following primary containment pressure rise.
- 2. Drywell pressure response not consistent with LOCA conditions.
- 3. Drywell pressure > 56 psig and rising.
- 4. a. Drywell or Torus Hydrogen concentration > 6%.
- b. Drywell or Torus Oxygen concentration > 5%.
- 5. Heat Capacity Limit (T-102 Curve T/T-1 or T/T-2) exceeded.
- Basis:
- UNPLANNED: A parameter change or an event that is not 1) the result of an intended evolution or 2) an expected plant response to a transient. The cause of the parameter change or event may be known or unknown.
- January 2016 PBAPS 2-62 EP-AA-1007 Addendum 3 (Rev 3)
- Ba.~is Refereri_ce(s>;
- 1.
- 5. DBD P-T-12, Design Basis Accidents, Transients and Events
- 6. DBD P-T-02, Containment, Section 3.2.14
- January 2016 PBAPS 2-63 EP-AA-1007 Addendum 3 (Rev 3)
- l11itiatin_g Conditi~n:
- 1, 2, 3 fission produ~t Barri~r~ (FPB)_ihreshold:
- Basis:
- Barrier and the Fuel Clad Barrier. It is therefore prudent to treat this condition as a potential loss of containment which would then escalate the emergency classification level to a General Emergency.
- 1. NEI 99-01 Rev 6, Table 9-F-2
- 2. Core Damage Assessment Methodology
- 3. ARC-005-00C226D-B-5 Unit 3 Containment Radiation Monitor Hi-Rad
- 4. DBD P-S-43, Radiation Monitoring System
- January 2016 PBAPS 2-64 EP-AA-1007 Addendum 3 (Rev 3)
- Operating Mode Applicability
- 1. UNISOLABLE direct downstream pathway to the environment exists after primary containment isolation signal.
- 2. Intentional Primary Containment venting/purging per EOPs or SAMPs due to accident conditions.
- 3. UNISOLABLE primary system leakage that results in EITHER of the following:
- a. Secondary Containment area temperature > T-103 Action Level.
- b. Secondary Containment area radiation level > T-103 Action Level.
- 1 Basis:
- 1. NEI 99-01 Rev 6, Table 9-F-2
- 2. T-103 Secondary Containment Control
- 3. T-102 Primary Containment Control
- 4. T-200-3 Primary Containment Venting
- January 2016 PBAPS 2-67 EP-AA-1007 Addendum 3 (Rev 3)
- Fissi~n Produc~ ~arrier (FPB) Threshold:
- 1. Any condition in the opinion of the Emergency Director that indicates Loss of the Containment Barrier.
- 2. Any condition in the opinion of the Emergency Director that indicates Potential Loss of the Containment Barrier.
- ~~~is R~f~r~~ce._(~); -**.
- 1. NEI 99-01 Rev 6, Table 9-F-2 January 2016 PBAPS 2-68 EP-AA-1007 Addendum 3 (Rev 3)
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- 2. Failure of E1, E2, E3, and E4 Emergency Diesel Generators to supply power to unit 4KV Safeguards Buses.
- 3. EITHER of the following:
- a. Restoration of at least one unit 4KV safeguards Bus in< 2 hours2.314815e-5 days <br />5.555556e-4 hours <br />3.306878e-6 weeks <br />7.61e-7 months <br /> is not likely .
- 10~sis:
- b. RPV water level cannot be restored and maintained > -195 inches.
- January 2016 PBAPS 2-69 EP-AA-1007 Addendum 3 (Rev 3)
- 1. NEI 99-01 Rev 6, SG1
- 2. UFSAR Section 8.4, Auxiliary Power Systems
- 3. UFSAR Figure 8.3.1, Transmission System
- 5. T-101 RPV Control
- 6. SE-11, LOSS OF OFF-SITE POWER - BASES
- January 2016 PBAPS 2-70 EP-AA-1007 Addendum 3 .(Rev 3)
- Initiating Condition:_
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- 2. Failure of E1, E2, E3, and E4 Emergency Diesel Generators to supply power to unit 4KV Safeguards Buses.
- 3. Failure to restore power to at least one unit 4KV Safeguards bus in < 15 minutes from the time of loss of both offsite and onsite AC power.
- Basis:
- January 2016 PBAPS 2-71 EP-AA-1007 Addendum 3 (Rev 3)
- 1. NEI 99-01 Rev 6, SS1
- 2. UFSAR Section 8.4, Auxiliary Power Systems
- 3. UFSAR Figure 8.3.1, Transmission System
- 5. SE-11 LOSS OF OFF-SITE POWER - BASES
- January 2016 PBAPS 2-72 EP-AA-1007 Addendum 3 (Rev 3)
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- 1. AC power capability to unit 4KV Safeguards Buses reduced to only one of the following power sources for?_ 15 minutes.
- 2 Emergency Auxiliary Transformer (OAX04)
- 3 Emergency Auxiliary Transformer (OBX04) (
- E 1 Diesel Generator
- E2 Diesel Generator
- E3 Diesel Generator
- E4 Diesel Generator AND
- 2. ANY additional single power source failure will result in a loss of ALL AC power to SAFETY SYSTEMS.
- A loss of all offsite power with a concurrent failure of all but one emergency power source (e.g., an onsite diesel generator) .
- January 2016 PBAPS 2-73 EP-AA-1007 Addendum 3 (Rev 3)
- Ba~i!; (cont):_~--
- A loss of all offsite power and loss of all emergency power sources (e.g., onsite diesel generators) with a single train of emergency buses being back-fed from the unit main generator.
- A loss of emergency power sources (e.g., onsite diesel generators) with a single train of emergency buses being back-fed from an offsite power source.
- 1. NEI 99-01 Rev 6, SA1
- 2. UFSAR Section 8.4, Auxiliary Power Systems
- 3. UFSAR Figure 8.3.1, Transmission System
- 5. DBD p:.T-13, Station Blackout
- 6. SE-11 LOSS OF OFF-SITE POWER - BASES
- January 2016 PBAPS 2-74 EP-AA-1007 Addendum 3 (Rev 3)
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- from it.
- 1. NEI 99-01 Rev 6, SU1
- 2. UFSAR Section 8.4, Auxiliary Power Systems
- 3. UFSAR Figure 8.3.1, Transmission System
- 5. DBD P-T-13, Station Blackout
- 6. SE-11 LOSS OF OFF-SITE POWER - BASES
- January 2016 PBAPS 2-75 EP-AA-1007 Addendum 3 (Rev 3)
- initiating ~oncl~~ion:.
- qp~rati~~fl\(l()c:l,~~~ppllc(l.qilitY:.
- Eme~gen~y Acti9n Le~el.(EAL):
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- 2. Failure of E1, E2, E3, and E4 Emergency Diesel Generators to supply power to unit 4KV Safeguards Buses.
- 3. Voltage is< 107.5 VDC on unit 125 VDC battery buses 2(3)00021, 2(3)00022, 2(3)00023, and 2(3)00024.
- AND
- January 2016 PBAPS 2-76 EP-AA-1007 Addendum 3 (Rev 3)
- easis _R~ferenc_e(s)_
- _
- 1. NEI 99-01 Rev 6, SG8
- 2. UFSAR Section 8.4, Auxiliary Power Systems
- 3. UFSAR Figure 8.3.1, Transmission System
- 5. DBD P-S-01A, 125/250 Vdc Station Batteries Including 125 Vdc Batteries &
- 8. SE-11 LOSS OF OFF-SITE POWER- BASES
- January 2016 PBAPS 2-77 EP-AA-1007 Addendum 3 (Rev 3)
- Jnitiating Condition:-
- 6perati,ng Mode Applicability: _
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- involves a major failure of plant functions needed for the protection of the public.
- 2. DBD P-S-01A, 125/250 Vdc Station Batteries Including 125 Vdc Batteries &
- January 2016 PBAPS 2-78 EP-AA-1007 Addendum 3 (Rev 3)
- 1. Automatic scram did not shutdown the reactor as indicated by Reactor Power > 4%.
- 2. ALL manual I ARI actions to shutdown the reactor have been unsuccessful as indicated by Reactor Power > 4%.
- 3. EITHER of the following conditions exist:
- Heat Capacity Limit (T-102 Curve T/T-1 or T/T-2) exceeded.
- January 2016 PBAPS 2-79 EP-AA-1007 Addendum 3 (Rev 3)
- 1. NEI 99-01 Rev 6, SS5
- 2. T-117, Level/Power Control
- 3. T-101, RPV Control
- 4. T-102, Primary Containment Control
- January 2016 PBAPS 2-80 EP-AA-1007 Addendum 3 (Rev 3)
- A manual action is any operator action, or set of actions, which causes the control rods to be rapidly inserted into the core, and does not include manually driving in control rods or implementation of boron injection strategies.
- 1. Automatic or manual scram did not shutdown the reactor as indicated by Reactor Power> 4%.
- 2. Manual I ARI actions taken at the Reactor Console are not successful in shutting down the reactor as indicated by Reactor Power > 4% .
- ~Basis:
- :Basis (cont):
- ~ ~ .
- A reactor shutdown is determined in accordance with applicable Emergency Operating Procedure criteria.
- 1. NEI 99-01 Rev 6, SA5
- 2. T-117, Level/Power Control
- 3. T-101, RPVControl
- January 2016 PBAPS 2-82 EP-APy-1007 Addendum 3 (Rev 3)
- Automatic or manual scram fails to shutdown the reactor.
- A manual action is any operator action, or set of actions, which causes the control rods to be rapidly inserted into the core, and does not include manually driving in control rods or implementation of boron injection strategies.
- 1. a. Automatic scram did not shutdown the reactor as indicated by Reactor Power> 4%.
- b. Subsequent manual I ARI action taken at the Reactor Console is successful in shutting down the reactor.
- 2. a. Manual scram did not shutdown the reactor as indicated by Reactor Power
- b. EITHER of the following:
- 1. Subsequent manual I ARI action taken at the Reactor Console is successful in shutting down the reactor.
- January 2016 PBAPS 2-83 EP-AA-1007 Addendum 3 (Rev 3)
- Basis (c<?nt)
- .
- January 2016 PBAPS 2-84 EP-AA-1007 Addendum 3 (Rev 3)
- If the signal generated as a result of plant work causes a plant transient that creates a real condition that should have included an automatic reactor scram and the RPS fails to automatically shutdown the reactor, then this IC and the EALs are applicable, and should be evaluated.
- If the signal generated as a result of plant work does not cause a plant transient but should have generated an RPS scram signal and the scram failure is determined through other means (e.g., assessment of test results), then this IC and the EALs are not applicable and no classification is warranted .
- ~"~~is ~~fc;)~e_n_c
- e(!?):
- 1. NEI 99-01 Rev 6, SU5
- 2. T-117, Level/Power Control
- January 2016 PBAPS 2-85 EP-AA-1007 Addendum 3 (Rev 3)
- Qp~rati~g Mode ~p-~lic~b_Uity: _
- 1, 2, 3
- El'l}ergericy ActiC?n L~vel (EAi
- -):
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- 1. UNPLANNED event results in the inability to monitor ANY Table M1 parameters from within the Control Room for ~15 minutes.
- Reactor Power
- 2. ANY Table M2 transient in progress.
- Automatic or Manual Runback >25% thermal reactor power
- Electrical Load Rejection >25% full electrical load
- Reactor Scram
- ECCS Actuation
- Thermal Power oscillations > 10%
- January 2016 PBAPS 2-86 EP-AA-1007 Addendum 3 (Rev 3)
- Peach Bottom Atomic Power Station Annex Exelon Nuclear RECOGNITION CATEGORY SYSTEM MALFUNCTIONS MA4 {cont)
- to determine if an NRC event report is required. The event would be reported if it significantly impaired the capability to perform emergency assessments. In particular, emergency assessments necessary to implement abnormal operating procedures, emergency operating procedures, and emergency plan implementing procedures addressing emergency classification, accident assessment, or protective action decision-making.
- 1. NEI 99-01 Rev 6, SA2 January 2016 PBAPS 2-87 EP-AA-1007 Addendum 3 (Rev 3)
- qp_erating M~de Applic_at;:>iiity:_ _____ _
- E_mergem
- y Action Level (f:Aq: __
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- Reactor Power
- RPV Water Level
- RPV Pressure
- Drywell Pressure
- Torus Level
- Torus Temperature UNPLANNED: A parameter change or an event that is not 1) the result of an intended evolution or 2) an expected plant response to a transient. The cause of the parameter change or event may be known or unknown.
- Escalation of the emergency classification level would be via IC MA4.
- 1. NEI 99-01 Rev 6, SU2
- 'C- ** ** ***
- January 2016 PBAPS 2-89 EP-AA-1007 Addendum 3 (Rev 3)
- operating Mode Applicability:
- If it is determined that the conditions of MA5 are not met then assess the event via HU3, HU4, or HU6.
- 1. The occurrence of ANY of the following hazardous events:
- Seismic event (earthquake)
- Internal or external flooding event
- High winds or tornado strike
- FIRE
- EXPLOSION
- Other events with similar hazard characteristics as determined by the Shift Manager
- AND
- 2. EITHER of the following:
- a. Event damage has caused indications of degraded performance in at least one train of a SAFETY SYSTEM required by Technical Specifications for the current operating mode.
- b. The event has caused VISIBLE DAMAGE to a SAFETY SYSTEM component or structure required by Technical Specifications for the current operating mode.
- Basis (~o_nt):
- ~asi~ _Refertmc~(~l~- __
- 1. NEI 99-01, Rev 6 SA9
- 2. SE-5, Earthquake - Bases
- 3. SE-4, Flood - Bases
- 4. DBD P-T-09, Internal Hazards
- January 2016 PBAPS 2-91 EP-AA-1007 Addendum 3 (Rev 3)
- PPe:t~ting M:g~E).1'RRJ i~f¥~i~ itY,:
- Note:
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- 1. RCS unidentified or pressure boundary leakage in the Drywell > 10 gpm for
- 2. RCS identified leakage in the Drywell >25 gpm for~ 15 minutes.
- 3. Leakage from the RCS to a location outside the Drywell >25 gpm for~ 15 minutes.
- UNISOLABLE: An open or breached system line that cannot be isolated, remotely or locally.
- with normal Control Room indications. Lesser values typically require time-consuming January 2016 PBAPS 2-92 EP-AA-1007 Addendum 3 (Rev 3)
- ~asis R~fe-rence.(s):
- 1. NEI 99-01 Rev 6, SU4
- 3. UFSAR 4.10.3, Nuclear System Leakage Detection and Leakage Rate Limits
- 4. UFSAR 5.2.5, Primary Containment- Inspection and Testing
- 5.
- January 2016 PBAPS 2-93 EP-AA-1007 Addendum 3 (Rev 3)
- 1. Loss of ALL Table M3 Onsite communications capability affecting the ability to perform routine operations. ,
- 2. Loss of ALL Table M3 Offsite communication capability affecting the ability to perform offsite notifications.
- 3. Loss of ALL Table M3 NRC communication capability affecting the ability to perform NRC notifications.
- Basis:
- January 2016 PBAPS 2-94 EP-AA-1007 Addendum 3 (Rev 3)
- Ba!!isJcqn._t)_~ C--*-
- 1. NEI 99-01 Rev 6, SU6
- 2. UFSAR Section 10.21, Communication Systems
- 3. EP-MA-124-1001 Facility Inventories and Equipment Tests
- 4. NE-CG-400-19 Lighting and Communication Drawings
- January 2016 PBAPS 2-95 EP-AA-1007 Addendum 3 (Rev 3)
- operating f\llo~e Applic:al>!"ity_: _ .. . ..
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- 5. Failure of E1, E2, E3, and E4 Emergency Diesel Generators to supply power to unit 4KV Safeguards Buses.
- 6. Failure to restore power to at least one unit 4KV Safeguards bus in
- Basis:
- January 2016 PBAPS 2-96 EP-AA-1007 Addendum 3 (Rev 3)
- 1. NEI 99-01 Rev 6, CA2
- 2. UFSAR Section 8.4, Auxiliary Power Systems
- 3. UFSAR Figure 8.3.1, Transmission System
- 6. DBD P-T-13, Station Blackout
- 7. SE-11 LOSS OF OFF-SITE POWER - BASES
- January 2016 PBAPS 2-97 EP-AA-1007 Addendum 3 (Rev 3)
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- 3. AC power capability to unit 4KV Safeguards Buses reduced to only one of the following power sources for~ 15 minutes.
- 2 Emergency Auxiliary Transformer (OAX04)
- 3 Emergency Auxiliary Transformer (OBX04)
- E 1 Diesel Generator
- E2 Diesel Generator
- E3 Diesel Generator
- E4 Diesel Generator AND
- 4. ANY additional single power source failure will result in a loss of ALL AC power to SAFETY SYSTEMS.
- SAFETY SYSTEM: A system required for safe plant operation, cooling down the plant and/or placing it in the cold shutdown condition, including the ECCS. These are typically systems classified as safety-related.
- A loss of all offsite power with a concurrent failure of all but one emergency power source (e.g., an onsite diesel generator).
- A loss of all offsite power and loss of all emergency power sources (e.g., onsite diesel generators) with a single train of emergency buses being back-fed from the unit main generator. .
- A loss of emergency power sources (e.g., onsite diesel generators) with a single train of emergency buses being back-fed from an offsite power source.
- :~a~isJ~~ferenc:_e(~)_: _
- 1. NEI 99-01 Rev 6 CU2
- 2. UFSAR Section 8.4, Auxiliary Power Systems
- 3. UFSAR Figure 8.3.1, Transmission System
- 6. DBD P-T-13, Station Blackout
- 7. SE-11 LOSS OF OFF-SITE POWER - BASES
- January 2016 PBAPS 2-99 EP-AA-1007 Addendum 3 (Rev 3)
- If it is determined that the conditions of CA2 are not met then assess the event via HU3, HU4, or HU6.
- 1. The occurrence of ANY of the following hazardous events:
- Seismic event (earthquake)
- Internal or external flooding event
- High winds or tornado strike
- FIRE
- EXPLOSION
- Other events with similar hazard characteristics as determined by the Shift Manager
- 2.
- a. Event damage has caused indications of degraded performance in at least one train of a SAFETY SYSTEM required by Technical Specifications for the current operating mode.
- b. The event has caused VISIBLE DAMAGE to a SAFETY SYSTEM component or structure required by Technical Specifications for the current operating mode.
- January 2016 PBAPS 2-100 EP-AA-1007 Addendum 3 (Rev 3)
- SAFETY SYSTEM: A system required for safe plant operation, cooling down the plant and/or placing it in the cold shutdown condition, including the ECCS. These are typically systems classified as safety-related.
- _e_a~is R~ference(s}:
- 1. NEI 99-01 Rev 6, CA6
- January 2016 PBAPS 2-102 EP-AA-1007 Addendum 3 (Rev 3)
- lnitie1ting (
- ondition: .
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- 1. NEI 99-01 Rev 6, CU4
- 2. DBD P-S-01A, 125/250 Vdc Station Batteries lnclu.ding 125 Vdc Batteries &
- January 2016 PBAPS 2-104 EP-AA-1007 Addendum 3 (Rev 3)
- 9R!r~ti6g MocJ~t~J>pfi,~itb~l~ty:
- 4,5,D
- 4. Loss of ALL Table C1 Onsite communications capability affecting the ability to perform routine operations.
- 5. Loss of ALL Table C1 Offsite communication capability affecting the ability to perform offsite notifications.
- 6. Loss of ALL Table C1 NRC communication capability affecting the ability to perform NRC notifications.
- Plant Public Address (PA)
- January 2016 PBAPS 2-105 EP-AA-1007 Addendum 3 (Rev 3)
- Basis Reff!rencE!(s)
- ~~
- 1. NEI 99-01 Rev 6, CU5
- 2. UFSAR Section 10.21, Communication Systems
- 3. EP-MA-124-1001 Facility Inventories and Equipment Tests
- 4. NE-CG-400-19 Lighting and Communication Drawings
- January 2016 PBAPS 2-106 EP-AA-1007 Addendum 3 (Rev 3)
- 1'1itiatin_g Conditi()n:
- 4,5
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- A momentary UNPLANNED excursion above the Technical Specification cold shutdown temperature limit when heat removal function is available does not warrant classification.
- 3. UNPLANNED rise in RCS temperature> 212°F for> Table C2 duration.
- Intact Not Intact Not Applicable Established Not Established 60 minutes*
- If an RCS heat removal system is in operation within this time frame and RCS temperature is being reduced, then EAL #1 is not applicable.
- 2. UNPLANNED RPV pressure rise > 10 psig as a result of temperature rise.
- Basis (g_ont): _ ..
- Finally, in the case where there is a rise in RCS temperature, the RCS is not intact, and CONTAINMENT CLOSURE is not established, no heat-up duration is allowed (i.e., 0 minutes). This is because 1) the evaporated reactor coolant may be released directly into the Containment atmosphere and subsequently to the environment, and 2) there is reduced reactor coolant inventory above the top of irradiated fuel.
- 1. NEI 99-01 Rev 6, CA3
- 4. DBD P-$-16, REACTOR INSTRUMENTATION SYSTEM
- 5. DBD P-S-19, RECIRCULATION SYSTEM
- 6. SE-11, ATTACHMENT C - INSTRUMENT LIST
- January 2016 PBAPS 2-108 EP-AA-1007 Addendum 3 (Rev 3)
- operating .Mo~e '.(\pplic~b~lity: ..
- 4,5
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- A momentary UNPLANNED excursion above the Technical Specification cold shutdown temperature limit when heat removal function is available does not warrant classification.
- 3. UNPLANNED rise in RCS temperature> 212°F.
- 4. Loss of the following for~ 15 minutes.
- ALL RCS temperature indications
- 'Basis:
- Escalation to Alert would be via IC CA6 based on an inventory loss or IC CA5 based on exceeding plant configuration-specific time criteria.
- ~~sis ~efere.ri~~(s): _
- 1. NEI 99-01 Rev 6, CU3
- 2. T-102, Primary Containment Control - Bases
- 3. T-103, Secondary Containment Control - Bases
- 4. PBAPS 2/3 TRIP/SAMP CURVES, TABLES, & LIMITS - BASES
- 5. DBD P-S-16, REACTOR INSTRUMENTATION SYSTEM
- 6. DBD P-S-19, RECIRCULATION SYSTEM
- January 2016 PBAPS 2-110 EP-AA-1007 Addendum 3 (Rev 3)
- Em~rgency Action ~eve"I (EA,L)
- "
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- b. ANY Containment Challenge Indication (Table C4)
- 2. a. RPV water level cannot be monitored for!: 30 minutes.
- b. Core uncovery is indicated by ANY of the following:
- Table C3 indications of a sufficient magnitude to indicate core uncovery.
- ANY Table C5 Refuel Floor Area Radiation Monitor >3 R/hr.
- c. ANY Containment Challenge Indication (Table C4)
- UNPLANNED floor or equipment sump level rise*
- UNPLANNED Torus level rise*
- UNPLANNED vessel make up rate rise
- Observation of leakage or inventory loss
- Rise in level is attributed to a loss of RPV inventory .
- January 2016 PBAPS 2-111 EP-AA-1007 Addendum 3 (Rev 3)
- Primary Containment Hydrogen Concentration > 6% and Oxygen > 5%
- UNPLANNED rise in containment pressure
- CONTAINMENT CLOSURE not established*
- Any Secondary Containment radiation monitor > T-103 Action Level
- if CONTAINMENT CLOSURE is re-established prior to exceeding the 30-minute core uncoverv time limit, then escalation to a General EmerQencv is not required.
- Steam Separator Pool, 234 ELEV, 3.7 (7.9)
- Refuel Slot, 234 ELEV, 3.8 (7.10)
- Fuel Pool, 234 ELEV, 3.9 (7.11)
- Refueling Bridge, 234 ELEV, 3.10 (7.12)
- January 2016 PBAPS 2-112 EP-AA-1007 Addendum 3 (Rev 3)
- Basis (c::ont): , _
- January 2016 PBAPS 2-113 EP-AA-1007 Addendum 3 (Rev 3)
- Ba~Js (con~);" __
- 1. NEI 99-01 Rev 6, CG1
- 2. T-101, RPV Control
- 3. T-102 Primary Containment Control
- 4. T-103 Secondary Containment Control
- 7. UFSAR Table 5.2-1, Primary Containment
- 8. EP-EAL-0501, Estimation of Radiation Monitor Readings Indicating Core Uncovery During Refuel
- January 2016 PBAPS 2-114 EP-AA-1007 Addendum 3 (Rev 3)
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- 4. With CONTAINMENT CLOSURE not established, RPV water level< -160 inches.
- 5. With CONTAINMENT CLOSURE established, RPV water level< - 172 inches
- 6. a. RPV water level cannot be monitored for~ 30 minutes AND
- b. Core uncovery is indicated by ANY of the following:
- Table C3 indications of a sufficient magnitude to indicate core uncovery.
- ANY Table C5 Refuel Floor Area Radiation Monitor >3 R/hr.
- UNPLANNED floor or equipment sump level rise*
- UNPLANNED Torus level rise*
- UNPLANNED vessel make up rate rise
- Observation of leakage or inventory loss
- Rise in level is attributed to a loss of RPV inventory .
- January 2016 PBAPS 2-115 EP-AA-1007 Addendum 3 (Rev 3)
- Steam Separator Pool, 234 ELEV, 3.7 (7.9)
- Refuel Slot, 234 ELEV, 3.8 (7.10)
- Fuel Pool, 234 ELEV, 3.9 (7.11)
- Refueling Bridge, 234 ELEV, 3.10 (7.12)
- January 2016 PBAPS 2-116 EP-AA-1007 Addendum 3 (Rev 3)
- .Ba!;iS ~~fe~enc;:e(~):
- 7. UFSAR Table 5.2-1, Primary Containment
- 8. EP-EAL-0501, Estimation of Radiation Monitor Readings Indicating Core Uncovery During Refuel
- 9. DBD P-T-02~ Containment, Section 3.2.14
- 10. DBD P-S-20, Neutron Monitoring System
- January 2016 PBAPS 2-117 EP-AA-1007 Addendum 3 (Rev 3)
- lniticlting qo_11ciition: __
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded. *
- 3. a. Loss of RPV inventory as indicated by level < - 48 inches.
- 4. a. RPV water level cannot be monitored for~ 15 minutes.
- b. Loss of RPV inventory per Table C3 indications.
- Observation of leakage or inventory loss
- Rise in level is attributed to a loss of RPV inventory.
- January 2016 PBAPS 2-118 EP-AA-1007 Addendum 3 (Rev 3)
- ~Basis (c:;ont):_
- 1. NEI 99-01 Rev 6, CA1
- 3. UFSAR 5.2.5, Primary Containment
- 4. ST-0-020-560-2/3 REACTOR COOLANT LEAKAGE TEST
- 5. OT-101 HIGH DRYWELL PRESSURE - PROCEDURE
- 6. ARC 227-A4 Drywell Hi Pressure Sealed-In
- 7. ARC 210-A4 Drywell Hi-Lo Pressure
- 9. DBD P-S-34 RADWASTE SYSTEM, 3.3.1.3.2 Drywell Equipment Drain Sump Operation 1O. T-102, Primary Containment Control
- January 2016 PBAPS 2-119 EP-AA-1007 Addendum 3 (Rev 3)
- Emergency Action Level (EAL):
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- 1. UNPLANNED loss of reactor coolant results in the inability to restore and maintain RPV water level to above the procedurally established lower limit for~ 15 minutes.
- 2. a. RPV water level cannot be monitored AND
- b. Loss of RPV inventory per Table C3 indications .
- UNPLANNED Torus level rise*
- UNPLANNED vessel make up rate rise
- Observation of leakage or inventory loss
- Rise in level is attributed to a loss of RPV inventory .
- January 2016 PBAPS 2-120 EP-AA-1007 Addendum 3 (Rev 3)
- January 2016 PBAPS 2-121 EP-AA-1007 Addendum 3 (Rev 3)
- 1. NEI 99-01, Rev. 6 CU1
- 3. UFSAR 5.2.5, Primary Containment
- 4. ST-0-020-560-2/3 REACTOR COOLANT LEAKAGE TEST
- 5. OT-101 HIGH DRYWELL PRESSURE- PROCEDURE
- 6. ARC 227-A4 Drywell Hi Pressure Sealed-In
- 7. ARC 210-A4 Drywell Hi-Lo Pressure
- 10. T-102, Primary Containment Control
- January 2016 PBAPS 2-122 EP-AA-1007 Addendum 3 (Rev 3)
- 1 1nitiating Condition: __
- m;ril_ergency_ A~tion t_evef(EA[):
- 1. A notification from the Security Force that a HOSTILE ACTION is occurring or has occurred within the PROTECTED AREA.
- 2. a. ANY Table H1 safety function cannot be controlled or maintained.
- b. Damage to spent fuel has occurred or is IMMINENT Table H1 - Safety Functions
- Reactivity Control (ability to shutdown the reactor and keep it shutdown)
- RPV Water Level (ability to cool the core)
- RCS Heat Removal (ability to maintain a heatsink)
- easis:
- :.BC1sis (cont):
- 1) damage to a spent fuel pool cooling system (e.g., pumps, heat exchangers, controls, etc.) or, 2) loss of spent fuel pool integrity such that sufficient water level cannot be maintained.
- 1. NEI 99-01, Rev. 6 HG1
- 2. Station Security Plan - Appendix C
- 3. SE-23 Response to Security Threats
- January 2016 . PBAPS 2-124 EP-AA-1007 Addendum 3 (Rev 3)
- *initiating Con~ition: _
- Basis:
- January 2016 PBAPS 2-125 EP-AA-1007 Addendum 3 (Rev 3)
- Basis (cont):
- acts of civil disobedience, or otherwise are not a HOSTILE ACTION perpetrated by a HOSTILE FORCE. Examples include the crash of a small aircraft, shots from hunters, physical disputes between employees, etc. Reporting of these types of events is adequately addressed by other EALs, or the requirements of 10 CFR § 73.71 or 10 CFR
- Basis Ref~te_n_ce(s): _
- 1. NEI 99-01 Rev 6, HS1
- 2. Station Security Plan - Appendix C
- 3. SE-23 Response to Security Threats
- January 2016 PBAPS 2-126 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Condition:
- 2. A validated notification from NRC of an aircraft attack threat < 30 minutes from the site.
- 2. Notification by the Security Force that a HOSTILE ACTION is occurring or has occurred within the OWNER CONTROLED AREA Basis:
- impact.
- *Basis (cont):
- Addresses the threat from the impact of an aircraft on the plant, and the anticipated arrival time is within 30 minutes. The intent of this EAL is to ensure that threat-related notifications are made in a timely manner so that plant personnel and OROs are in a heightened state of readiness. This EAL is met when the threat-related information has been validated in accordance with SE-23, Response to Security Threats.
- January 2016 PBAPS 2-128 EP-AA-1007 Addendum 3 (Rev 3)
- Basis Reference(s):
- 3. SE-23 Response to Security Threats
- January 2016 PBAPS 2-129 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Condition:
- 4. Notification of a credible security threat directed at the site as determined per SY-AA-101-132, Security Assessment and Response to Unusual Activities.
- 5. A validated notification from the NRG providing information of an aircraft threat.
- 6. Notification by the Security Force of a SECURITY CONDITION that does not involve a HOSTILE ACTION.
- Basis (cont):
- References Security Force because these are the individuals trained to confirm that a security event is occurring or has occurred. Training on security event confirmation and classification is controlled due to the nature of Safeguards and 10 CFR § 2.39 information.
- Bash;_ R~feTence(s):
- 1. NEI 9.9-01 Rev 6, HU1
- 2. Station Security Plan - Appendix C
- 3. SE-23 Response to Security Threats
- 4. SY-AA-101-132, Security Assessment and Response to Unusual Activities
- January 2016 PBAPS 2-131 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Condition:
- E_merge~cy Actio11 Level _(EAL):
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- 1. A Control Room evacuation has resulted in plant control being transferred from the Control Room to alternate locations per:
- SE-1, Plant Shutdown from the Remote Shutdown Panel - Procedure OR
- SE-10, Plant Shutdown from the Alternative Shutdown Panels - Procedure AND
- 2. Control of ANY Table H1 key safety function is n.Q1; reestablished in< 15 minutes.
- Table H1 - Safety Functions
- Reactivity Control (ability to shutdown the reactor and keep it shutdown)
- RPV Water Level (ability to cool the core)
- RCS Heat Removal (ability to maintain a heatsink)
- a. Control of the plant is no longer maintained in the Main Control Room OR
- b. The last Operator has left the Main Control Room.
- January 2016 PBAPS 2-132 EP-AA-1007 Addendum 3 (Rev 3)
- 'Ba~is (co~t):
- 1. NEI 99-01, Rev 6 HS6
- 2. SE-1, Plant Shutdown from the Remote Shutdown Panel - Procedure
- 3. SE-10, Plant Shutdown from the Alternative Shutdown Panels - Procedure
- January 2016 PBAPS 2-133 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Condition:
- SE-1, Plant Shutdown from the Remote Shutdown Panel - Procedure OR
- SE-10, Plant Shutdown from the Alternative Shutdown Panels - Procedure Basis:
- Room, in addition to responding to the event that required the evacuation of the Control Room, will present challenges to plant operators and other on-shift personnel.
- 1. NEI 99-01, Rev 6 HA6
- 2. SE-1, Plant Shutdown from the Remote Shutdown Panel - Procedure
- 3. SE-10, Plant Shutdown from the Alternative Shutdown Panels - Procedure
- January 2016 PBAPS 2-134 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Condition:
- Emergency Acticm Level (EAL)
- The Emergency Director should declare the event promptly upon determining that the applicable time has been exceeded, or will likely be exceeded.
- Escalation of the emergency classification level would be via IC CA2 or MA5
- 1. A FIRE in ANY Table H2 area is not extinguished in< 15-minutes of ANY of the following FIRE detection indications:
- Report from the field (i.e., visual observation)
- Receipt of multiple (more than 1) fire alarms or indications
- Field verification of a single fire alarm Table H2 - Vital Areas Reactor Building (when inerted the Drywell is exempt)
- Emergency Cooling Tower
- Emergency Switchgear/Battery Rooms
- Cable Spread Room OR
- 2. a. Receipt of a single fire alarm in ANY Table H2 area (i.e. no other indications of a FIRE).
- b. The existence of a FIRE is not verified in < 30 minutes of alarm receipt.
- '.Basis:
- January 2016 PBAPS 2-136 EP-AA-1007 Addendum 3 (Rev 3)
- *~asis (cont}:
- January 2016 PBAPS 2-137 EP-AA-1007 Addendum 3 (Rev 3)
- *Bji~is. (~o_nt):
- 1. NEI 99-01, Rev 6 HU4
- 2. T-300 Bases, Fire Guides
- 3. ON-114, Actual Fire Reported in the Power Block, Diesel Generator Building, Emergency Pump, Inner Screen or Emergency Cooling Tower Structures
- January 2016 PBAPS 2-138 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Condition:
- Emergency-Action Lev_ef (EAL):
- Escalation of the emergency classification level would be via IC CA2 or MA5
- For emergency classification if EAL 2.b is not able to be confirmed, then the occurrence of a seismic event is confirmed in manner deemed appropriate by the Shift Manager or Emergency Director in .:5. 15 mins of the event.
- 1. Seismic event> Operating Basis Earthquake (OBE) as indicated by the Alarm on Panel 316 A-5."0PERATING BASIS EARTHQUAKE EXCEEDED" OR
- 2. When Seismic Monitoring Equipment is not available:
- a. Control Room personnel feel an actual or potential seismic event.
- AND
- b. ANY one of the following confirmed in .:5. 15 mins of the event:
- The earthquake resulted in Modified Mercalli Intensity (MMI) ~VI and occurred
- The earthquake was magnitude ~ 6.0
- The earthquake was magnitude~ 5.0 and occurred .:5. 125 miles of the plant.
- necessary for continued operation without undue risk to the health and safety of the
- HU4 (cont)
- .Basis Refere11c:e(s):.
- 1. NEI 99-01, Rev 6 HU2
- 2. SE-5, Earthquake - Bases
- 3. US NRC Reg. Guide 1.166, Pre-Earthquake Planning and Immediate Nuclear Power Plant Operator Earthquake Actions .
- January 2016 PBAPS 2-140 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Condition:
- If the equipment in the listed room or area was already inoperable, or out of service, before the event occurred, then no emergency classification is warranted.
- 1. Release of a toxic, corrosive, asphyxiant or flammable gas in a Table H3 area.
- 2.
- January 2016 PBAPS 2-141 EP-AA-1007 Addendum 3 (Rev 3)
- Basis (cont):
- judgment may be based on a variety of factors including an existing job hazard analysis, report of ill effects on personnel, advice from a subject matter expert or operating experience with the same or similar hazards. Access should be considered as impeded if extraordinary measures are necessary to facilitate entry of personnel into the affected room/area (e.g., requiring use of protective equipment, such as SCBAs, that is not routinely employed).
- The plant is in an operating mode different than the mode specified for the affected room/area (i.e., entry is not required during the operating mode in effect at the time of the gaseous release). For example, the plant is in Mode 1 when the gaseous release occurs, and the procedures used for normal operation, cooldown and shutdown do not require entry into the affected room until Mode 4.
- The gas release is a planned activity that includes compensatory measures which address the temporary inaccessibility of a room or area (e.g., fire suppression system testing). '
- The action for which room/area entry is required is of an administrative or record keeping nature (e.g., normal rounds or routine inspe~tions).
- The access control measures are of a conservative or precautionary nature, and would not actually prevent or impede a required action.
- Basis (cont):
- 3. In the future should the areas of concern in Table H-3 be revised then the Operating Mode Applicability of this EAL should be reevaluated.
- 1. NEI 99-01, Rev 6 HA5
- 2. T-300 Bases
- 4. 29CFR1910.134(b) and 29CFR1910.134(d)(2)(iii)
- 5.
- January 2016 PBAPS 2-143 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Conditi_on: .
- EAL #4 does not apply to routine traffic impediments such as fog, snow, ice, or vehicle breakdowns or accidents.
- Escalation of the emergency classification level would be via IC CA2 or MA5
- 1. Tornado strike within the PROTECTED AREA.
- 2. Internal room or area flooding of a magnitude sufficient to require manual or automatic electrical isolation of a SAFETY SYSTEM component required by Technical Specifications for the current operating mode.
- 3. Movement of personnel within the PROTECTED AREA is impeded due to an offsite event involving hazardous materials (e.g., an offsite chemical spill or toxic gas release).
- 4. A hazardous event that results in on-site conditions sufficient to prohibit the plant staff from accessing the site via personal vehicles.
- 5. Abnormal River level, as indicated by EITHER:
- > 112 ft. (high level)
- < 98.5 ft. (low level)
- typically systems classified as safety-related.
- ;Basi~ (cont):
- and significant enough to prohibit the plant staff from accessing the site using personal vehicles.. Examples of such an event include site flooding caused by a hurricane, heavy rains, up-river water releases, dam failure, etc., or an on-site train derailment blocking the access road.
- January 2016 PBAPS 2-145 EP-AA-1007 Addendum 3 (Rev 3)
- .Basis (co11~):
- 1. NEI 99-01, Rev 6 HU3
- 2. SE-4, Flood - Bases
- 3. DBD P-T-09, Internal Hazards
- 4. UFSAR Section 2.4.3.5.5, Emergency Shutdown due to High or Low Water Level in Conowingo Pond
- January 2016 PBAPS 2-146 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Condition:
- HG7 1,2,3,4,5,D
- 1. NEI 99-01, Rev 6 HG?
- January 2016 PBAPS 2-147 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Condition: _
- Op_~ra_ting Mode App-lif::ab!l_ify: __
- easls:
- PROJECTILEs, vehicles, or other devices used to deliver destructive force. Other acts that satisfy the overall intent may be included. HOSTILE ACTION should not be construed to include acts of civil disobedience or felonious acts that are not part of a concerted attack on the NPP. Non-terrorism-based EALs should be used to address such activities (i.e., this may include violent acts between individuals in the owner controlled area).
- 1. NEI 99-01, Rev 6 HS7
- January 2016 PBAPS 2-148 EP-AA-1007 Addendum 3 (Rev 3)
- .Initiating Condition:
- construed to include acts of civil disobedience or felonious acts that are not part of a concerted attack on the NPP. Non-terrorism-based EALs should be used to address such activities (i.e., this may include violent acts between individuals in the owner controlled area).
- Basis Referenc~(s):
- 1. NEI 99-01, Rev 6 HA?
- January 2016 PBAPS 2-149 EP-AA-1007 Addendum 3 (Rev 3)
- Initiating Condition:
- f:mergef1~Y Action Level (EAL):
- January 2016 PBAPS 2-150 EP-AA-1007 Addendum 3 (Rev 3)
- !1nitia~i!1g Gondition Damage to a loaded cask CONFINEMENT BOUNDARY.
- Ope.rating !VI~~-~ Ap~lic;:ability:
- > 350 mr/hr gamma and 30 mr/hr neutron on the top (protective cover).
- > 250 mr/hr gamma and 60 mr/hr neutron on the sides of the radial neutron shield.
- > 1100 mr/hr gamma and 250 mr/hr neutron on the side surfaces of the cask above the radial neutron shield.
- * > 800 mr/hr gamma and 600 mr/hr neutron on the side surfaces of the cask
- January 2016 PBAPS 2-151 EP-AA-1007 Addendum 3 (Rev 3)
- :~asis (cont):
- Basi!?J~ef~re_n~~(s): _
- 1. NEI 99-01, Rev 6 E-HU1
- 2. Certificate of Compliance No. 1027, TN-68 Technical Specifications Amendment No.1 Section 5.2.3
- January 2016 PBAPS 2-152 EP-AA-1007 Addendum 3 (Rev 3)