{{#Wiki_filter:0 0<aw ZO DUI , ao OQ DA RO'4 Ul>OO 00'Os UQP O EAIL Uo c~ede Pit'exeat Plant Specific EAL Guideline (PEG)Nine Mile Point Unit 2 6/1 0/94 Operations Support Services, Inc.233 Water Street 2nd Floor Plymouth, MA 02360

ICg: AU1 Op.Mode Applicability EU1.1 Plant Specific EA~uideline (A,H,S)Nine Mh.wint Unit 2 Any unplanned release of gaseous or Ilquld radloactlvlty to the environment that exceeds two times the radlologlcal Technical Speclflcatlons for 60 minutes or longer.51(PwrOps)

Q6(Defuel) 5AII AU1.2<valid reading on one or more of the folhwing monitors that exceeds the"value shown iRRREK isis;2aha5hmn".

~~hrm Confirmed sample analyses for gaseous or liquid releases indicates concentrations or release rates with a release duration of 60 minutes or longer in excess of Vote: If the monitor readingsm~

sustained for longer than 60 minutes and the required assessments cannot be completed within this period, then the declaration must be made based on the valid reading.Bases  

Plant Specific EA~uideline (A,H,S)Nine Mii.~oint Unit 2 Re term Unplanned", as used in this context, indudes any release for which a radioactive discharge permit was not prepared, or a release that exceeds the conditions (e.g., minimum dilution hw, maximum discharge fhw, alarm setpoints, etc.)on the applicable permit.Valid means that a radiation monitor reading has been confirmed by the operators to be correct.Jnplanned releases in excess of two times the site technical specifications that continue for 60 minutes or bnger represent an uncontrolled situation and hence, a potential degradation in the evel of safety.The final integrated dose (which is very hw in the Unusual Event emergency class)is not the primary concern here;it is the degradation in plant control implied by the fact that he release was not isolated within 60 minutes.Therefore, it is not intended that the release be averaged over 60 minutes.For example, a release of 4 times T/S for 30 minutes does not exceed'his initiating condition.

Further, the Emergency Director should not wait until 60 minutes has elapsed, but should declare the event as soon as it is determined that the release duration has or sill likely exceed 60 minutes.Monitor indications

~should'alculated on the basis of the methodohgy of the site Offsite Dose Calculation Manual (ODCM compliance with 10CFR20 a~10CFR50 Appendix I requirements.

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ICN'U 2 Plant Specific EA~uideline (A,H,S)Nine Ml>.ntUnit2 Unexpected Increase In plant radlatlon or airborne concentration.

Op.Mode Applicability iU2.1 01(PwrOps) 02(HSB)03(HSD)04(CSD)05(Refuel) 06(Defuel)

~All AU2-4~~tgjagtt direct area radiation monitor readinge>399fjam fhR alarm aQiat Qf afhaahhhhrmltinufrummmzunfrull&arm~

'ava@0 Bases

Plant Specific EP'uideline (A,H,S)Nine Mh oint Unit 2 Valid means that a radiation monitor reading has been confirmed by the operators to be correct.Oil of the above events tend to have long lead times relative to potential for radiohgical release outside the site boundary, thus impact to public health and safety is very low.In light of Reactor Cavity Seal failure, incidents at two different PWRs and loss of water in the Spent Fuel Pit/Fuel Transfer Canal at a BWR all occurring since 1984, explicit coverage of these types of events via EALs&#xb9;1 and&#xb9;2 is appropriate given their potential for increased doses to plant staff.Classification as an Unusual Event is warranted as a precursor to a more serious event.hhR2rftauirmritmlzatlgnuf aahhuiif the fuftl htt:aammuztrttrfttI.

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EALL~applies to plants with licensed dry storage of older irradiated spent fuel to address degradation of this spent fuel.EAL&#xb9;4~addresses unplanned increases in in-plant radiation levels that represent a degradation in the control of radioactive material, and represent a potential degradation in the level of safety of the plant.~tittnrtf~~fjgtign htrfth ingr~ing tn p~~tht~~gg~~htttn~hgttttf Qggg~thftmr~m rnltrft~jfftrtgig~

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ICN: AA1 Op.Mode Appllcablllty LA1.1 Plant Specific EP'ideline (A,H,S)Nine Mlt.nt Unit 2 Any unplanned release of gaseous or Ilquld radloactlvlty to the environment that exceeds 200 times radlologlcal Technical Speclficatlc for 15 minutes or longer.Q1 (Pwr Ops)Q 2 (HSB)Q3 (HSD)Q4 (CSD)Q5 (Refuel)Q 6 (Defuel)g AII AA1.2 5 valid reading on one or more of the following ggg+lft monitors that exceeds the"value riterion and indicates the need to assess the release with Confirmed sample analyses for gaseous or liquid releases indicates concentrations or release rates in excess of dote: If the monitor readings~~

sustained for hnger than 15 minutes and the required assessments cannot be completed within this period, then the declaration must be made>ased on the valid reading.iA1.3 AA1.4 Bases

Plant Specific EP'ideline (A,H,S)Nine Mh nt Unit 2 Valid means that a radiation monitor reading has been confirmed by the operators to be correct.This event escalates from the Unusual Event by escalating the magnitude of the release by a factor of 100.Prorating the 500 mR/yr criterion for both time (8766 hr/yr and the 200 multiplier, the associated site boundary dose rate would be 10 mR/hr.The required release duration was reduced to 15 minutes in recognition of the increased severity.Monitor indications shouklhe~calculated on the basis of the methodology of who~~Annual average meteorology 4touldka~used wher+4iowed.  

ICff: AA2 Plant Specific EP uideline (A,H,S)Nine Mii..nt Unit 2 Major damage to Irradiated fuel or loss of water level that has or will result In the uncovering of Irradiated fuel outside the reactor vess Op.Mode Applicability iA2.1 Qt (PwrOps)Q2(HSB)Q3(HSD)Q4(CSD)Q5(Refuel)

~All AA2.2 ltttmlttggI gr report of~~observation of irradiated fuel uncovered.

WA2.3 8.0 QQZ 8.0 B9Z Bases

Plant Specific EP'ideline (A,H,S)Nine Mii.0 nt Vnit 2 This IC applies to spent fuel requiring water coverage and is not intended to address spent fuel which is licensed for dry storage, which is discussed in NUMARC IC AU2, Unexpected increase in Plant Radiation or Airborne Concentration.

NUREG-0818,'Emergency Action Levels for Light Water Reactors," forms the basis for these EALs.'hmham EALs~j18ftfi by the specific area where irradiated fuel is located such as reactor cavity, reactor vessel, or spent fuel pooL There is time available to take corrective actions, and there is little potential for substantial fuel damage.In addition, NUREG/CR-4982,"Severe Accident in Spent Fuel Pools in Support of Generic Safety Issue 82," July 1987, indicates that even if corrective actions are not taken, no prompt fatalities are predicted, and that risk of injury is low.In addition, NRC Information Notice No.9048,"KR-85 Hazards from Decayed Fuel" presents the following it its discussion: "In the event of a serious accident involving decayed spent fuel, protective actions would be needed for personnel on site, while offsite doses (assuming an exclusion area radius of one mile from the plant site)would be well behw the Environmental Protection Agency's Protective Action Guides.Accordingly, it is important to be able to properly survey and monitor for Kr-85 in the event of an accident with decayed spent fuel.Licensees may wish to reevaluate whether Emergency Action Levels specified in the emergency plan and procedures governing decayed fuel handling activities appropriately focus on concern for onsite workers and Kr-85 releases in areas where decayed spent fuel accidents could occur, for example, the spent fuel pool working floor.Furthermore, licensees may wish to determine if emergency plans and corresponding implementing procedures address the means for limiting radiohgical exposures of onsite personnel who are in other areas of the plant.Among other things, moving onsite personnel away from the plume and shutting of building air intakes downwind from the source may be appropriate." Thus, an Alert Classification for this event is appropriate.

Escalation, if appropriate, would occur via Abnormal Rad IeveURadiological Effluent or Emergency Director judgement.  

ICy: AA3 Op.Mode Appllcablllty iA3.1 Plant Specific E~uideline (A,H,S)Nine Mt..'Oint Unit 2 Release of radioactive material or Increases In radlatlon levels wlthln the faclllty that Impedes operation of systems required to malnta safe operations or to establish or malntaln cold shutdown.Q1(PwrOps)

QAII AA3.2 lalid radiation monitor reading greater than 15 mR/hr in fbi;vali+st~pecitic) radiation monitor readings greater than (site-specific)

QE!Z~in areas requiring infrequent access to maintain plant safety functions.

Plant Specific E/" uideline (A,H,S)Nine Nit.nt Vnlt2 Valid means that a radiation monitor reading has been confirmed by the operators to be correct.Qaly~gngQd fLBQ LQQdjngQ~QQQQJdQI'Qd ia ihQ Rhl fa aYai{}fiaQQQQQmL ftQ1QIQQIIGK IlQQiara&mduahmgamaIQzQigffhmuummLQIjiQIhalmhthat hrjQfjy.Q jMII'.This IG addresses increased radiation levels that impede necessary access to operating stations, or other areas containing equipment that must be operated manually, in order to maintain safe operation or perform a safe shutdown.It is this impaired ability to operate the plant that results in the actual or potential substantial degradation of the level of safety of the plant.The cause and/or magnitude of the increase in radiation levels is not a concern of this IC.The Emergency Director must consider the source or cause of the increased radiation levels and determine if any other IG may be involved.For example, a dose rate of 15 mR/hr in the control room may be a problem in itself.However, the increase may also be indicative of high dose rates in the containment due to a LOCA.In this latter case, an SAE or GE may be indicated by the fission product barrier matrix ICs.These EALs could result in declaration of an Alert at oaawait NMP-2due to a radioactivity release or radiation shine resulting from a major accident at the-This is appropriate if the increase impairs operations at the operating unit.This IG is not meant to apply to increases in the containment chmo radiation monitors as these are events which are addressed in the fission product barrier matrix ICs.Nor is it intended to apply to anticipated temporary increases due to planned events (e.g., incore detector movement, radwaste container movement, deplete resin transfers, etc.)'NMP-2 abnormal operating procedures, emergency operating procedures, the 10GFR50 Appendix R analysis, identifying areas containing safe shutdown equipment.

Areas requiring continuous occupancy gQQJ~include the control room an~oraoca central~QQ~~security alarm station.The value of 15 mR/hr is derived from the GDC 19 value of 5 rem in 30 days with adjustment for expected occupancy times.Although Section III.D.3 of NUREG4737,"Clarification of TMI Action Plan Requirements", provides that the 15 mR/hr value can be averaged over the 30 days, the value is used here without averaging, as a 30 day duration implies an event potentially more significant than an Alert.ased on QbrtgrmQi radiation levels which result in exposure control measures intended to maintain doses within normal occupational exposure guidelines and limits (i.e., 10CFR20), and in doing so, will impede necessary access.10  

ION: AS1 Op.Mode Appllcablllty

'LS1.1 Plant Specific E~uideline (A,H,S)Nine Nit.0 nt Unit 2 Boundary dose resulting from an actual or lmmlnent release of gaseous radloactlvlty exceeds 100 mR Whole Body or 500 mR Child Thyroid for the actual or proJected duration of the release.01(PwrOps) 02(HSB)03(HSD)04(CSD)05(Refuel)

~All<valid reading on one or more of the following monitors that exceeds or is expected to exceed he above criterion and idicates the need to assess the release with (SPDS only)dote: lf the monitor reading(s) is sustained for longer than 15 minutes and the required assessments cannot be completed within this period, then the declaration must be made)ased on the valid reading.WS1.3/alid dose assessment capability indicates dose consequences greater than 100 mR J92f.vholo4ody or 500 mRcM4QDE thyroid.AS1.4 Field survey results indicate site boundary dose rates exceeding 100 mR/hr~expected to continue for more than one hour;or analyses of field survey samples indicate 4@dQQQ thyroid dose commitment of 500 mR for one hour of inhalation.

Plant Specific E'ideline (A,H,S)Nine Mli.nt Unit 2 Valid means that a radiation monitor reading has been confirmed by the operators to be correct.The 100 mR If'ntegrated dose in this initiating condition is based on the proposed 10CFR20 annual average population exposure.This value also provides a desirable gradient (one order of magnitude) between the Alert, Site Area Emergency, and General Emergency classes.It is deemed that exposures less than this limit are not consistent with the Site Area Emergency class description.

The 500 mR integrated4@444yroid

~fbggjff dose was established in consideration of the 1$ratio of the EPA Protective Action Guidelines for~whotakody and gZ thyroid.a site boundaty dose of 100 mR/hour eholahody TEDE or 500 mR/hour QQ~IILgjtichilcL4hyceid, whichever is more limiting (depends on source term assumptions).

based on The FSAR source terms applicable to each monitored pathway should be used in conjunction with annual average meteorology in determining indications for the monitors on that pathway.12  

ICy AG1 Op.Mode Appllcablllty KG1.1 Plant Specific EA uideline (A,H,S)Nine Mlle..tt Unit 2 Boundary dose resulting from an actual or Imminent release of gaseous radloactlvlty exceeds 1000 mR Whole Body or 5000 mR Child Thyroid for the actual or projected duration of the release.Q1(PwrOps)

Q6(Defuel) gAII AQ4'4't valid reading on one or more of the following monitors that exceeds or is expected to exceed he above criterion and 2@m2mf~~+(SPDS only)gj~(SPDS only)Vote: If the monitor reading(s) is sustained for longer than 15 minutes and the required assessments cannot be completed within this period, then the declaration must be made iased on the valid reading.AG1.3 Valid dose assessment capability indicates dose consequences greater than 1000 mR~~halo4~or 5000 mR QDEcM4 thyroid.AG1.4 Field survey results indicate site boundary dose rates exceeding 1000 mR/hr IEQf.expected to continue for more than one hour;or analyses of field survey samples indicate cbildgZ thyroid dose commitment of 5000 mR for one hour of inhalation.

Plant Specific EAI+uideline (A,H,S)Nine Mile Pc iiit Unit 2 Valid means that a radiation monitor reading has been confirmed by the operators to be correct.The 1000 mR~mhotahody and the 5000 mR QQf chiM thyroid integrated dose are based on the EPA protective action guidance which indicates that public protective actions are indicated if the dose exceeds 1 rem 3EfKwhoh4odyor 5 rem QZcNd thyroid.This is consistent with the emergency class description for a General Emergency.

This level constitutes the upper level of the desirable gradient for the Site Area Emergency.

Actual meteorology is specifically identified in the initiating condition since it gives the most accurate dose assessment.

Actual meteorology (including forecasts) should be used whenever possible.d based on site boundary doses for either whoiahc4y TEDE orMkLthyroicl

~yfgig whichever is more limiting (depends on source term assumptions(s).

The FSAR source terms applicable to each monitored pathway should be used in conjunction with annual average meteorology in determining indications for the monitors on that pathway.14  

ICg: HU1 Plant Specific EA uideline (A,H,S)Nine Mile..c Unit 2 Natural and destructive phenomena affectin the protected area.Op.Mode Appllcablllty lU1.1 Q1(PwrOps) 02(HSB)Q3(HSD)Q4(CSD)Q5(Refuel)

Q6(Defuel) gAII HU1.2 Report by plant personnel of tornado striking within protected area.tU1.3'assessment by the control room that an event UihaMtta has occurred.HU1.4 Vehicle crash into area boundary.plant structures or systems within protected HU1.5 Report by plant personnel of an unanticipated explosion within protected area boundary resulting in visible damage to permanent structure or equipment.

HU1.6 Report of turbine failure resulting in casing penetration or damage to turbine or generator seals.HU1.7 15

Plant Specific EA uideline (A,H,S)Nine Mlle c...it Unit 2 Bases , The protected area boundary is~ical'hat part within the security isolation zone and is defined in the site security plan.F~EAL&#xb9;~1 , NMP-2 seismic instrumentation actuates at 0.01 g.Damage may be caused to some portions of the site, but should not affect ability of safety functions to operate.Method of detection caaho hbased on instrumentation, validated by a reliable sourc As defined in the EPRI-sponsored"Guidelines for Nuclear Plant Response to an Earthquake, dated October 1989, a"felt earthquake" is: "An earthquake of sufficient intensity such that: (a)the inventory ground motion is felt at the nuclear plant site and recognized as an earthquake based on a consensus of control room operators on duty at the time, and (b)for plants with operable seismic instrumentation, the seismic switches of the plant are activated.

For most plants with seismic instrumentation, the seismic switches are set at an acceleration of about 0.01 g." EAL&#xb9;EJ12 is based on the assumption that a tornado striking (touching down)within the protected boundary may have potentially damaged plant structures containing functions or systems required for safe shutdown of the plant.If such damage is confirmed visually or by other in-plant indications, the event may be escalated to Alert.EAL&#xb9;Jjgf 3 allows for the control room to determine that an event has occurred and take appropriate action based on personal assessment as opposed to verification (i.e., an earthquake is felt but does not register on any plant-specific instrumentation, etc.).lull."'"""""*'''''I"'.',''.""''i'f'tructures containing functions and systems required for safe shutdown of the plant.If the crash is confirmed to affect a plant vital area, the event may be escalated to Alert.For EAL&#xb9;~5, only those explosions of sufficient force to damage permanent structures or equipment within the protected area should be considered.

As used here, an explosion is a rapid, violent, unconfined combustion, or a catastrophic failure of pressurized equipment, that potentially imparts significant energy to near by structures and materials.

No attempt is made in this EAL to assess the actual magnitude of the damage.The occurrence of the explosion with reports of evidence of damage (e.g., deformation, scorching) is sufficient for declaration.

The Emergency Director also needs to consider any security aspects of the explosion, if applicable.

EAL&#xb9;~6 is intended to address main turbine rotating component failures of sufficient magnitude to cause observable damage to the turbine casing or to the seals of the turbine generator.

Of major concern is the potential for leakage of combustible fluids (lubricating oils)and gases (hydrogen cooling)to the plant environs.Actual fires and flammable gas build up are appropriately classified via HU2 and HU3.This EAL is consistent with the definition of an Unusual Event while maintaining the anticipatory nature desired and recognizing the risk to non-safety related equipment.

Escalation of the emergency dassification is based on potential damage done by missiles generated by the failure or by the radiological releases These latter events would be dassified by the radiological ICs or fission product barrier ICs.EAL&#xb9;~7 covers events.e precursors of more serious 16

IQy: HU2 Plant Specific EAluideline (A,H,S)Nine Mile Pt...it Unit 2 Fire wlthln protected area boundary not extinguished within 15 minutes of detection.

Op.Mode Applicability lU2.1 Q1(PwrOps)

RAII fire in buildings or areas contiguous to any of the followin~~cif+

areas not extinguished within 15 minutes of control room notification 4acm: Bases 17 l 0 Plant Specific EA uideline (A,H,S)NineMile i.itUnlt2 nie purpose of this IC is to address the magnitude and extent of fires that may be potentially significant precursors to damage to safety systems.This exdudes such items as fires within administration buildings, waste-basket fires, and other small fires of no safety consequence.

This IC applies to buildings and areas that are contiguous or immediately adjacent to plant vital areas.Escalation to a higher emergency class is by IC HA2,"Fire Affecting the Operability of Plant Safety Systems Required for the Current Operating Mode".18  

Icy: HU3 Plant Specific EAIuideline (A,H,S)Nine Mlle P~..it Unit 2 Release of toxic or flammable gases deemed detrimental to safe operation of the plant.Op.Mode Applicability

<U3.1 Q1(pwrOps)

Q2(HSB)Q3(HSD)Q4(GSD)Q5 (Refuel)Q6(Defuel)

%All HU3.2 disport or detection of toxic or flammable gases that could enter trea boundary in amounts thatch ggghf affect~operation of the plant.within the site Report by local, county or state officials personnel based on offsite event.for potential evacuation of site Bases 19

Plant Specific EAIuideline (A,H,S)Nine Mile Pt..it Unit 2 This IG is based on releases in concentrations within the site boundaty that will affect the health of plant personnel or affecting the safe operation of the plant with the plant being within the evacuation area of an offsite event (i.e., tanker truck accident releasing toxic gases, etc.).The evacuation area ls as determined from the DOT Evacuation Tables for Selected Hazardous Materials, in the DOT Emergency Response Guide for Hazardous Materials.

icy: HU4 Plant Specific EAIuideline (A,H,S)Nine Mile P~..it Unit 2 Confirmed security event which Indicates a potential degradatlon ln the level of safety of the plant.Q1(Pwrops)

AAII lU4.1 HU4.2 lomb device discovered within plant protected area andltttt outside the fgjjttittjttg plant vital~rea~Other security events as determined from~~pecitio)

Plant Specific EA uideline (A,H,S)Nine Mlle.,t Unit 2 this EAL is based o.Security events which do not represent at least a potential degradation in the level of safety of the plant, are reported under 10CFR73.71 or in some cases under 10CFR50.72.

The plant protected area boundary istypically that part within the security soiation zone and is defined in the (site-specific) security plan.22  

ICN: HU5 Plant Specific EAuideline (A,H,S)Nine Mlle Pt..t Unit 2 Other condltlons exlstlng which In the judgement of the Emergency Director warrant declaration of an Unusual Event.Op.Mode Applicability fU5.1 Q1(PwrOps)

~All)ther conditions exist which in the judgement of the Emergency Director indicate a potential legradation of the level of safety of the plant.Bases 23

Plant Specific EA uideline (A,H,S)Nine Mlle t..t Unit 2%is EAL is intended to address unanticipated conditions not addressed explicitly elsewhere but that warrant declaration of an emergency because conditions exist which are believed by the"mergency Director to fall under the Unusual Event emergency class.From a broad perspective, one area that may warrant Emergency Director judgement is related to likely or actual breakdown of site specific event mitigating actions.Examples to consider'nclude inadequate emergency response procedures, transient response either unexpected or not understood, failure or unavailability of emergency systems during an accident in excess of that assumed in accident analysis, or insufficient availability of equipment and/or support personnel.

It is also intended that the Emergency Directors judgement not be limited by any list of events as defined here or as augmented by the site.This list is provided solely as examples for consideration and it is recognized that actual events may not always follow a pre-conceived description.

!CD: HA1 Plant Specific EAIuideline (A,H,S)Nine Mile Pc..t Unit 2 Natural and destructive phenomena affecting the plant vital area.Op.Mode Appllcablllty 3A1.1 Q1(PwrOps)

Q6(Defuel) gAII HA1.2 indicates seismic event greater than~~Tornado or4igh~i~winds greater than (sit~ci~QQ mph strike within the protected area boundary.3A1.3 HA1.4 he folhwing plant structures:

HA1.5 Vehicle crash affecting plant vital areas.HA1.?HA1.6 25

Bases Plant Specific EA uideline (A,H,S)Nine Mile c..r Unit 2 Each of these EALs is intended to address events that may have resulted in a plant vital area being subjected to forces beyond design limits, and thus damage may be assumed to have occurred to plant safety systems.The initial report should not be interpreted as mandating a lengthy damage assessment prior to dassification.

No attempt is made in this EAL to assess the actual magnitude of the damage.Escalation to a higher emergency dass, if appropriate, will be based on System Malfunction, Fission Product Barrier Degradation, Abnormal Rad Releases/Radiohgical Effluent, or Emergency Director Judgement ICs.EAL&#xb9;~1 should be based o+sit~pociflc)

FSAR design basis of MZ~.Seismic events of this magnitude can cause damage to safety functions.

EAL&#xb9;~2 should be based o+alt~cific)

FSAR design basis of 9Q mph.Wind hads of this magnitude can cause damage to safety functions.

EAL&#xb9;~3 should specify~~pociflc) structures containing systems and functions required for~~gggzgfigft EAL&#xb9;55i 4 EAL&#xb9;~5 is intended to address such items as plane or helicopter crash, or on some sites, train crash, oc barge crash into a plant vital area.tlal."~-~-'''i-"">>"'"i include all areas containing safety-related equipment, their controls, and their power supplies.This EAL is, therefore, consistent with the definition of an ALERT in that if missiles have damaged or penetrated areas containing safety-related equipment the potential exists for substantial degradation of the level of safety of the plant.EAL gM~covers These EALs can also be g precursors of more serious events.In particular, sites subject to severe weather as defined in the NUMARC station blackout initiatives, should include an EAL based on activation of the severe weather mitigation procedures (e.g., precautionary shutdowns, diesel testing, staff call-outs, etc.).26  

fog: HA2 Plant Specific EA uideline (A,H,S)Nine Mile t..it Unit 2 Fire or explosion affectin the operablllty of plant safety systems required to establish or malntaln safe shutdown.Q1(PwrOps)

Q6(Defuel) gAII SA2.1 rhe folhwing conditions exist: i.Fire or exphsion in any of th areas: AND a.Affected system parameter indications show degraded performance or plant personnel.eport visible damage to permanent structures or equipment within the structures or equipment within the specified area.Bases 27

Plant Specific EA uideline (A,H,S)Nine Mile...(Unit 2''III~I'""""''"'i'''.t'~''i~EM"'"'onsulted for equipment and plant areas required for the applicable mode.This will make it easier to determine Ni the fire or explosion is potentially affecting one or more redundant trains of:afety systems.Escalation to a higher emergency class, if appropriate, will be based on System Malfunction, Fission Product Barrier Degradation, Abnormal Rad Releases/Radiological

=ffluent, or Emergency Director Judgement ICs.With regard to explosions, only those exphsions of sufficient force to damage permanent structures or equipment required for safe operation within the identified plant areas should be considered.

As used here, an explosion is a rapid, violent, unconfined combustion, or a catastrophic failure of pressurized equipment, that potentially imparts significant energy to nearby-tructures and materials.

The inclusion of a"report of visible damage" should not be interpreted as mandating a lengthy damage assessment prior to dassification.

No attempt is made in this EAL to assess the actual magnitude of the damage.The occurrence of the explosion with reports of evidence of declaration of an Alert and the activation of the TSC will provide the Emergency Director with the resources needed to perform these damage assessments.

The Emergency Director also needs to consider any security aspects of the explosions, if applicable.

ICy: HA3 3p.Mode Applicability IA3.1 Plant Specific EAIuideline (A,H,S)Nine I@lie Pt..it Unit 2 Release of toxic or flammable gases wlthln a faclllty structure which Jeopardizes operation of systems required to malntaln safe operat or to establish or malntaln cold shutdown.Gi(pwrops)

QAII HA3.2 leport or detection of toxic gases within a lltfLfgllttttf jttft facility structure in concentrations sat will be life threatening to plant personnel:

Report or detection of flammable gases within a~ttilmiftg structure in concentrations that will~the safe operation of the plant: Bases 29

Plant Specific EA uideline (A,H,S)Nine Mile t..it Unit 2 This IC h based on gases that have entered a plant structure&fectlng the safe operation of the plant.This IC applies to buildings and areas contiguous to plant vital areas or other significant buildings or areas (i.e., Service Water Pump house).The intent of this IC is not to include buildings[i.e., warehouses) or other areas that are not contiguous or immediately adjacent to plant vital areas.It is appropriate that increased monitoring be done to ascertain whether consequential damage has occurred.Escalation to a higher emergency class, if appropriate, will be based on System Malfunction, Fission Product Barrier Degradation, Abnormal Rad Releases/Radiological Effluent, or Emergency Director Judgement ICs.30  

ICy HA4 Plant Specific EAluideline (A,H,S)Nine Mile Pc..'Unit 2 Security event ln a plant protected area.Op.Mode Appllcablllty lA4.1 Q1(Pwrops)

~All HA4,2 ntrusion into plant protected area by akosga4orco yn a~gZyl.Other security events as determined from~~cific)

Rgffffl~Safeguards Contingency Plan.Bases 31

Plant Specific EAuideline (A,H,S)Nine Mlle P~.it Unit 2 This dass of security events represents an escalated threat to plant safety above that contained in the Unusual Event.For the purposes of this IG, this event to a Site Area Emergency.

ICy: HA5 4~Plant Specific EA uideline (A,H,S)Nine Mile Pi.it Unit 2 Control room evacuation has been lnltlated.

Op.Mode Appllcablllty 3A5.1 Q1(pwrOps)

~All=ntry into~for control room evacuation.

Plant Specific EAIO:uideline (A,H,S)Nine Mlle Pi..it Unit 2 With the control room evacuated, additional support, monitoring and direction through the Technical Support Center and/or other Emergency Operations Center is necessary.

Inability to establish plant control from outside the control room will escalate this event to a Site Area Emergency.

ICg: HA6 Plant Specific EAIuideline (A,H,S)Nine Mile Pi.it Unit 2 Other conditions exlstlng which In the Judgement of the Emergency Director warrant declaration of an Alert.Op.Mode Appllcablllty)A6.1 Q1(PwrOps)

~All 7ther conditions existing which in the judgement of the Emergency Director indicate that plant efety systems may be degraded and that increased monitoring of plant functions is varranted.

Plant Specific EAiO'Uideline (A,H,S)Nine Mile Pi..it Unit 2 This EAL is intended to address unanticipated conditions not addressed explicitly elsewhere but that warrant declaration of an emergency because conditions exist which are believed by the Emergency Director to fall under the Alert emergency class.36  

lCN: HS1 Plant Specific EAluideline (A,H,S)Nine Mile Pi.it Unit 2 Security event In a plant vital area.Op.Mode Appllcablllty)S1.1 Q1(PwrOps)

QAII HS1.2 ntrusion into~gjj~jpg plant vital arear'y akosti korea~~gg Other security events as determined from~~ecitic)

Gguirjl~Safeguards Contingency Plan Bases 37

Plant Specific EAIO'Uideline (A,H,S)Nine Mlle Pi.it Unit 2 This class of security events represents an escalated threat to plant safety above that contained in the Alert IG in that akostilaforce m ad~g, has progressed from the protected area to the vital area.38  

fC&#xb9;: HS2 Plant Specific EA uideline (A,H,S)NlneMlle~..<Unlt2 PW4 a a el a aRN Op.Mode Applicability)S2.1 Q1(PwrOps)

%All ihe following conditions exist: t.Control room evacuation has been initiated.

ROC 04UCIR si~cifio)~minutes.cannot be established per~acpecTiic)-

Plant Specific EA uideline (A,H,S)Nine Mile oint Unit 2 Expeditious transfer of safety systems has not occurred but fission product barrier damage may not yet be Indicated.~it~cifg time for transfer ia based on analysis or assessments as to how quicMy control must be reestablished without core uncovering and/or core damage.This time shoukl not exceed 15 minutes.In cokl shutdown and refueling modes, operator concern is directed toward maintaining core cooling such as is discussed in Generic Letter 88-17,'Loss of Decay Heat Removal.In power operation, hot standby, and hot shutdown modes, operator concern is primarily directed toward maintaining critical safety functions and thereby assuring fission product barrier integrity.

Escalation of this event, if appropriate, would be by Fission Product Barrier Degradation, Abnormal Rad Releases/Radiological Effluent, or Emergency Director Judgement ICs.5dhraartagt tn arntmfiannf tha tuhlia anti aafa aslant anaratiana.~

aztrnLmtiathm arimarilxrtnihaabilitlr h rnairttainiharaaahzin a mahd.auuhtian.

IharahrL itia artnrunriata trt~tha Gannet E6Lartihaiitftmuhasizaathanaaffhr amaulinunhanmatrglling thauiant frgmnirhhhtha QantrulHaun.

ICg HS3 Plant Specific EA uideline (A,H,S)Nine Mile.rtt Unit 2 Other condltlons which ln the judgement of the Emergency Director warrant declaration of Site Area Emergency.

Op.Mode Appltcablllty RS3.1 Q1(PwrOps)

~All 3ther conditions which in the judgement of the Emergency Director warrant declaration of Site brea Emergency.

Plant Specific EA uideline (A,H,S)Nine Mile..tt Unit 2 This EAL is intended to address unanticipated conditions not addressed explicitly elsewhere but that warrant declaration of an emergency because conditions exist which are believed by the=mergency Director to fall under the emergency class description for Site Area Emergency.

ICy: HG1 Plant Specific EA uideline (A,H,S)Nine Mlle~.hatt Unit 2 Security event resulting ln loss of ablllty to reach and maintain cold shutdown.Q1(PwrOps)

Q6(Defuel) gAll Appllcablllty 4G1.1 HG1.2 oss of~~ysical control c4Qgm the control room due to security event.uuaf almhal patrol af fhaaunuh~hhmn muahililx dm h.mmuily.mumt.Bases 43

Plant Specific EA uideline (A,H,S)Nine Mile..it Unit 2 This IC encompasses conditions under which a hostile force has taken physical control of vital area required to reach and maintain safe shutdown.Ihft~gftrahtrfrhrhr~gl gbQy>ahuhlmaihftrmhr xdmaiahmammliaa ItmrftfmfhhEhLhmhmnmttdififtrliumhmtahaartf uhnt aziul fatmhdhlhfrmalrrtl catmmf ftmuhCrtddfttframmh.

fCy.HG2 Plant Specific EA uideline (A,H,S)Nine Mlle..it Unit 2 Other conditions existing which ln the Judgement of the Emergency Director warrant declaration of General Emergency.

~All 3G2.1 7ther conditions existing which in the judgement of the Emergency Director indicate: (t)tctual or imminent substantial core degradation with potential for loss of containment, or (2)etential for uncontrolled radio nuclide releases.These releases can reasonably be expected o exceed EPA PAG plume exposure levels outside the site boundary.Bases 45

Plant Specific EA uideline (A,H,S)Nine Mile..t Unit 2 this EAL is intended to address unanticipated conditions not addressed explicitly elsewhere but that warrant declaration of an emergency because conditions exist which are believed by the Emergency Director to fall under the General Emergency dass.46  

fC&#xb9;: SU~Plant Specific EAf+uideline (A,H,S)Nine Mile Pt...it Unit 2 Loss of all offslte power to essential busses for greater than 15 minutes.Op.Mode Applicability 3U'f.1 Q1(PwrOps)

%All rhe folhwing conditions exist: s.Loss of power t~i~pocTiic) lreater than 15 minutes.AND for x At least~~pocTiic) tttftt emergency generators are supplying power to emergency buses;Bases 47

Plant Specific EA uideline (A,H,S)NlneMile t.tUnit2 Prolonged hss of AG power reduces required redundancy and potentially degrades the level of safety of the plant by rendering the plant more vulnerable to a complete hss of AC power (station blackout).

Fifteen minutes was selected as a threshold to exdude transient or momentary power losses.48  

iC&#xb9;: SU2 Plant Specific EA uideline (A,H,S)Nine Mile..it Unit 2 Inablllty to reach required shutdown wlthln Technical Speclflcatlon Llmlts.Op.Mode Appllcablllty S U2.1 S1(PwrOps)

QAII Plant is not brought to required operating mode withiQei~ocific)

Technical Specifications LCO Action Statement Time.Bases 49

Plant Specific EA uideline (A,H,S)Nine Mile i.it Unit 2 Limiting Conditions of Operation (LCOs)require the plant to be brought to a required shutdown mode when the Technical Specification required configuration cannot be restored.Depending on the circumstances, this may or may not be an emergency or precursor to a more severe condition.

In any case, the initiation of plant shutdown required by the site Technical Specification requires a one hour report under 10CFR50.72 (b)nonwmergency events.The plant is within its safety envehpe when being shut down within the allowable action statement time in the Technical Specifications.

An immediate Notification of an Unusual Event is required when the plant is not brought to the required operating mode within the allowable action statement time in the Technical Specifications.

Declaration of an Unusual Event is based on the time at which the LCO-specified action statement time period elapses under the site Technical Specifications and , is not related to how long a condition may have existed.Other required Technical Specification shutdowns that involve precursors to more serious events are addressed by other System , malfunction Hazards, or Fission Product Barrier Degradation ICs.50  

ICg: SU3 Plant Specific EA uideline (A,H,S)NineMlle t...tUnlt2 Unplanned loss of most or all safety system annunclatlon or lndlcatlon In the control room for greater than 15 minutes.8 1 (Pwr Ops)~2 (HSB)~3 (HSD)Q 4 (CSD)0 5 (Refuel)0 6 (Defuel)0 All IU3.1 he folhwing conditions exist: u Loss of annunciatore AND for greater than 15 minutes.AND.In the opinion of the Shift Supervisor, the loss of the annunciators or indicators requires ncreased surveillance to safely operate the un.AND L Annunciator or indicator loss does not result from planned action.Bases 51

Plant Specific EA uideline (A,H,S)Nine Mile..it Unit 2 This IC and its associated EAL are intended to recognize the dNiculty associated with monitoring changing plant conditions without the use of a major portion of the annunciation or indication equipment.

Recognition of the availability of computer based indication equipment is considered (SPDS, plant computer, etc.).'Unplanned'oss of annunciators or indicator excludes scheduled maintenance and testing activities.

in this context includes computer based information such as SPDS.This should Include all computer systems available for this use depending on specific plant design and subsequent retrofits.

h~l Ib'Skl Mhmfha gfaahhrthamf fthm,ihhr lm.'t is not intended that plant personnel perform a detailed count of instrumentation lost but fha use gf thw4~judgement hg fha 5455gggudm m fha threshold for determining the severity of the plant conditions.

This judgement is supported by the specific opinion of the Shift Supervisor that additional operating personnel will be required to provide increased monitoring of system operation to safely operate the unit~.It is further recognized that most plant designs provide redundant safety system indication powered from separate uninterruptable power supplies.While failure of a large portion of annunciators is more likely than a failure of a large portion of indications, the concern is included in this EAL due to difficulty associated with assessment of plant conditions.

The loss of specific, or several, safety system indicators should remain a function of that specific system or component operability status.This will be addressed by their specific Technical Specification.

The initiation of a Technical Specification imposed plant shutdown related to the instrument hss will be reported via 10CFR50.72.

If the shutdown is not in compliance with the Technical Specification action, the Unusual Event is based on SU2, Inability to Reach Required Shutdown Within Technical Specification Limits." (Site-speci~

~cator for this EAL must include those identified in the Abnormal Operating procedures, in the Emergency Operating Procedures, and in other EALs (e.9., area, process, and/or effluent rad monitors, etc.).(Sitaepecfflc)

Annunciators oc4adicaW for this EAL must include those identified in the Abnormal Operating procedures, in the Emergency Operating Procedures, and in other EALs (e.g., area, process, and/or effluent rad monitors, etc.).Fifteen minutes was selected as a threshold to exclude transient or momentary power losses.Due to the limited number of safety systems in operation during cold shutdown, refueling, and defueled modes, no IC is indicated during these modes of operation.

This Unusual Event will be escalated to an Alert if a transient is in progress during the loss of annunciation or indication.

ICttf: SU4 Fuel clad degradatlon.

Plant Specific EA uideline (A,H,S)Nine Mile..t Unit 2 Op.Mode Applicability 3U4.1 Q1(PwrOps)

~All SU4.2 coolant sample activity Bases 53

Plant Specific EA uideline (A,H,S)Nine Mile..i Unit 2 This IC is included as an Unusual Event because it is considered to be a potential degradation in the level of safety of the plant and a potential precursor of more serious problems.EAL&#xb9;~1 addresses g~pecIIQ~radiation monitor reading , that provide indication of fuel clad integrity.

~EAL&#xb9;Qfl4g addresses coolant samples exceeding coolant technical specifications for Iodine spike.Escaiatiori of this IC to the Alert level is via the fission product barrier degradation monitoring ICs.54  

ICg SU5 RCS leakage.Plant Specific EA uideline (A,H,S)Nine Mile t...it Unit 2 Op.Mode Applicability SU5.1~1(PwrOps)52(HSB)~3(HSD)D4(CSD)05(Refuel)

QAII Either of the following conditions exist: a.Unidentified togpm OR~~gghmlg~leakage greater than b.identified cgggfgZ~gy2gm g~leakage greater than 25 gpm.Bases 55 0

Plant Specific EA Uideline (A,H,S)Nine Mlle a...it Vnit2 This IC is included as an Unusual Event because it may be a precursor of more serious conditions and, as a result, is considered to be a potential degradation of the level of safety of the plant.The 10 gpm value for the unidentified and pressure boundary leakage was selected as it is observable with normal control room indications.

Lesser values must generally be determined through time~nsuming surveillance test (e.g., mass balances).

The EAL for identified leakage is set at a higher value due to the lesser significance of identified leakage in comparison to unidentified or pressure boundary leakage.In either case, escalation of this IC to the Alert level is via Fission Product Barrier Degradation ICs or IC SA3,"Inability to Maintain Plant in Cold Shutdown.'nly operating modes in which there is fuel in the reactor coolant system and the system Is pressurized are specified.

iC&#xb9;: SU6 Plant Specific EA uideline (A,H,S)Nine Mlle.it Unit 2 Unplanned loss of all onslte or offslte communications capabllltles.

Op.Mode Appllcablllty 3U6.1 Q1(PwrOps)

%All=ither of the following conditions exist: Urdu'''l'b"'l''ability to perform routine operations:

3R>.Loss of all~hLlttlitt)ftlttg offsite communications capability:

Plant Specific EA uideline (A,H,S)Nine Mile..t Unit2 the purpose of this IC and its associated EALs is to recognize a hss of communications capability that either defeats the plant operations staff ability to perform routine tasks necessary.

for slant operations or the ability to communicate problems with offsite authorities.

The hss of offsite communications ability is expected to be significantly more comprehensive than the condition addressed.

by 10CFR50.72.

Z i"'-'"-'"-'"'-l--'--'t'.',""'--""'-".'W'"''adios/walkie talkies).Xl and dedicated EPP phone systems.This EAL is intended to be used only when extraordinary means are being utilized to make communications possible (relaying of information from radio transmissions, individuals being sent to offsite locations, etc.).58  

ICy: SU7 Op.Mode Applfcablllty 3U7.1 Plant Specific EA uideline (A,H,S)Nine Mile..it Unit 2 Unplanned loss of required DC power during cold shutdown or refueling mode for greater than 15 minutes.Q1(PwrOps)

Q2(HSB)Q3(HSD)g4(CSD)~5(Refuel)Q6(Defuel)

QAII@hot~of the following conditions exist:>us voltage indications AND'BKxh i.Failure to restore power to at least one acquired DC bus within 15 minutes from the time of Oss.Bases 59

Plant Specific EA iideline (A,H,S)Nine Mile i..Unit 2 The purpose of this IC and its associated EALs is to recognize a hss of DC power compromising the ability to monitor and control the removal of decay heat during cokl shutdown or refueling operations.

This EAL is intended to be anticipatory in as much as the operating crew may not have necessary indication and control of equipment needed to respond to the loss.Unplanned is Included in this IC and EAL to preclude the declaration of an emergency as a result of planned maintenance activities.

Routinely plants will perform maintenance on a train related basis during shutdown periods.It is intended that the loss of the operating (operable) train is to be considered.

If this hss results in the inability to maintain cold shutdown, the escalation to an Alert will be per SA3"Inability to Maintain Plant in Cold Shutdown." Pi~pec~~bus voltage shoul4bo h based on the minimum bus voltage necessary for the operation of safety related equipment.

This voltage value should incorporate a margin of at least 15 minutes of operation before the onset of inability to operate those loads.This voltage is usually near the minimum voltage selected when battery sizing is performed.

Typically the value for the entire battery set is approximately 105 volts per cell.For a 56 string battery set the minimum voltage is typically 1.81 volts per cell.60  

ICy.SA1 Op.Mode Appllcablllty 3A1.1 Plant Specific EA uideline (A,H,S)Nine Mile~;.it Unit 2 Loss of all offslte power and loss of all onslte AC power to essential busses during cold shutdown or refueling mode.l Q1(PwrOps)

Q2(HSB)Q3(HSD)~4(CSD)~5(Refuel)56(Defuel)

QAII All of the following conditions exist:~.Loss of power tQcitezpocific) transformers AND x Failure of~te.specific)

AND" Failure to restore power to Meastene.anorgcncykuc within 15 minutes from the time of loss of both offsite and onsite AC power.Bases 61

Plant Specific EA uideline (A,H,S)Nine Mile~..it Unit 2 Loss of all AG power compromises all plant safety systems requiring electric power i When in cold shutdown, refueling, or defueled mode the event can be class Tiied as an Alert, because of the significantly reduced decay heat, lower temperature and pressure, increasing the time to restore one of the emergency busses, relative to that specified for the Site Area Emergency EAL.Escalating to the Site Area Emergency, if appropriate, is by Abnormal Rad Levels/Radiological Effluent, or Emergency Director Judgement ICs.Fifteen minutes was selected as a threshold to exclude transient or momentary power losses.62  

lCN: SA2 Op.Mode Appllcablllty lA2.1 Plant Specific EAIuideline (A,H,S)Nine Mile Pt.t Unit 2 Y"" P a Reactor Protection system setpolnt has been exceeded aad~manual scram~1(PwrOps)~2(HSB)Q3(HSD)Q4(CSD)Q5(Refuel)

Plant Specific EA>>ideline (A,H,S)Nine Mile i...Unit 2 This condition indicates failure of the automatic anrf rnanttat protection system to scram the reactor tuiha atrtant zdgghurttultrrfaa iha raauturitalnurnada attb~tjua[.

This condition is more than a potential degradation of a safety system in that a front line automatic protection system did not function in response to a plant transient and thus the plant safety has been compromised, and design limits of the fuel may have been exceeded.An Alert is indicated because conditions exist that lead to potential loss of fuel clad or RCS.A manual scram is any set of actions uttahhtttun:~

mudamitah ur hBO.EbiaEanrfiamrltinuEBLh~rahtanmauifiualitr roufifiarf tunIuiaautriatttitr tfttIinathauuitrlitIundmuiihtttfhxtbauanariuhamtaaaauuiitttf tuhuilinumahr raautuia.Iba failmuf atrtuinatiu 5fiatiunufaiaautuimamfulhntttfhx2ruumhi~initiatiunautiunauhhhuanharauJdlxtalranat tharaauhzmntruluunauiarfuaanut uuaaa uutantialiuuufaithtr fttal ulatfur fKR hunIfarbq.

fhuatraafaituiatummauufitiunain BEEhara fafinaif nuthx tbamatttnuaufuriTiualihrhufhxthaatraiiabiamaruinufmhuiitiuality.tbauttna1luuuilIi~amuRiauuira alamTiiuatiunufanhhd furmnditiunainmhhhthaqautur la in faut ahuttfumaaamultuf tbaaurammmL Jfiatbauuntintrarfuritiua!Itx trntfaruunditIunamuirinua iaautur auiainnhhb uumta 1ha uutantial tbiaat tuBSQur fuel ularf intagrity.

ltia ahuirnuurtant tu nuta that tba failtria uf tbaraautui urutautiunairabun iuinitiata an autumatiuaurarnrfuaa nut infar auttral ui uutantlal laituraauf uthtr mstttrnanuriait.in anrfufitattlf.auDtutrraur iufiaaiun rrutftrutharriar dauralfatiun.

Iha HER aanraa nuuthttr aafatx funutlun btrt tu initaiia raautur mrama.Iharttfurrt.unua tha r mbzhaahtanzzaaattlkmammttrL faihiaaintbaBERmhmuanftatranuuiantaafttthiinuaut.

Ifintrnttdiatamanualautiunatumamtba iaautur arazzmfulfulluninurauuunitiunufan atrturnatiumamfailtra.thtrahnutbittat tuaitbttiulantaafatxurMhnurudtrut Jnttturity.

ttiatatftutbaautuntatiuauramfahrh Ihhrftt~uniauunmatantmithtbaubilumtMuf maitinu a~trratam uunaartratbrauiaamfiuatiuna

{Hah;an't faiturauf anatituinatiu azam signal tuinitiataamuuauftd auram nuuld haimmttdiatabr fullunatfhxanuuaratur initiatatf rnaiml mam.Ibarttfura 1ha Ehl.zurdinu iniha IB abail unlxmakarttfaranua iuiha faiturauf irnrnttdiatamanual aurainal 64

ling SA3 Plant Specific EA Uideline (A,H,S)Nine Mile..it Unit 2 lnablllty to maintain plant ln cold shutdown.Op.Mode Appllcablllty SA3.1 Q1(Pwrops)

QAII The following conditions exist: OR Bases 65

Plant Specific EA~sideline (A,H,S)Nine Mlle i..Unit 2 This EAL addresses complete loss of functions required for core cooling during refueling and cold shutdown modes.Escalation to Site Area Emergency or General Emergency woukl be via Abnormal Rad Levels/Radiohgical Effluent or Emergency Director Judgement ICs."Uncontrolled" means that system temperature increase is not the result of planned actions by the plant staff.The EAL guidance related to uncontrolled temperature rise is necessary to preserve the anticipatory philosophy of NUREG-0654 for events starting from temperatures much hwer than the cold shutdown temperature limit.Escalation to the Site Area Emergency is by IC SSS,"Loss of Water Level in the Reactor Vessel that has or will Uncover Fuel in the Reactor Vessel," or by Abnormal Rad Levels/Radiological Effluent ICs.66  

ICy: SA4 Op.Mode Appllcablllty iA4.1 Plant Specific EAle'uideline (A,H,S)Nine Mlle Pi.t Unit 2 Unplanned loss of most or all safety system annunclatlon or Indlcatlon In control room with.either (1)a slgnlf leant transient In progress (2)compensatory non-alarming Indicators are unavailable.

~1(PwrOps)~2(HSB)S3(HSD)Q4(CSD)Q5(Refuel)

QAII rhe following conditions exist: t.Loss of annunciatore AND for greater than 15 minutes.).ln the opinion of the Shift Supervisor, the loss of the annunciators or indicators requires ncreased surveillance to safely operate the unit(e).AND Annunciator or indicator loss does not result from planned action.AND 3.Either of the following:

~A significant plant transient is in progress OR~C are unavailable.

Plant Specific EAIOluideline (A,H,S)Nine Mile Pi.t Unit 2 This IC and its associated EAL are intended to recognize the dNiculty associated with monitoring changing plant conditions without the use of a major portion of the annunciation or Indication equipment during a transient.

Recognition of the availability of computer based indication equipment is considered (SPDS, plant computer, etc.).Planned loss of annunciators or indicators included scheduled maintenance and testing activities.

It is not intended that plant personnel perform a detailed count of the instrumentation lost but the use gf 4~~~judgement threshold for determining the severity of the plant conditions.

This judgement is supported by the specific opinion o f the Shift Supervisor that additional operating personnel will be required to provide increased monitoring of system operation to safely operate the unit(s).It is further recognized that most plant designs provide redundant safety system indication powered from separate uninterruptable power supplies.While failure of a large portion of annunciators is more likely than a failure of a large portion of indications, the concern is included in this EAL due to difficulty associated with assessment of plant conditions.

The loss of specific, or several, safety system indicators should remain a function of that specific system or component operability status.This will be addressed by the specific Technical Specification.

The initiation of a Technical Specification imposed plant shutdown related to the instrument hss will be reported via 10CFR50.72.

If the shutdown is not in compliance with the Technical Specification action, the Unusual Event is based on SU2"Inability to Reach Required Shutdown Within Technical Specification Limits." (SI!e-specific)

Qnnunciators cu-hdicatore for this EAL must include those identified in the Abnormal Operating Procedures, in the Emergency Operating Procedures, and in other EALs (e.g., area, process, and/or effluent rad monitors, etc.)."Significant Transient" includes response to automatic or manually initiated functions such as scrams, runbacks involving greater than 25%thermal power change, ECCS injections, or thermal power oscillations of 10%or greater."Compensatory non-alarming indications" in this context Indudes computer based information such as SPDS.This should include all computer systems available for this use depending on specific plant design and subsequent retrofits.

If both a major portion of the annunciation system and all computer monitoring are unavailable to the extent that the additional operating personnel are required to monitor Indications, the Alert is required.Due to the limited number of safety systems in operation during cold shutdown, refueling and defueled modes.No IC is indicated during these modes of operation.

This Alert will be escalated to a Site Area Emergency if the operating crew cannot monitor the transient in progress.68  

fc&#xb9;: SA5 Op.Mode Appllcablllty 3A5.1 Plant Specific EA uideline (A,H,S)Nine Mile.it Unit 2 AC power capablllty to essential busses reduced to a single power source for greater than 15 minutes such that any additional single failure would result ln station blackout.51(PwrOps) 52(HSB)53(HSD)Q4(CSD)Q5(Refuel)

QAII fhe following conditions exist (a and b): a.Loss of power t+si~pecific) greater than 15 minutes.AND transformers for x Onsite power capability has been degraded to gaiy.one ggitfLlgll~ittg~iaef) emergency Bases 69

Plant Specific EA uideline (A,H,S)Nine Mlle..Unit 2 This IC and the associated EALs are intended to provide an escalation from IC SU1"Loss of All Offsite Power to Essential Busses for Greater than 15 Minutes." The condition indicated by this IC is the degradation of the offsite power with a concurrent failure of one emergency generator to supply power to its emergency busses.Another related condition could be the loss of all offsite power and hss of onsite emergency dieseis with only one train of emergency busses being badded from the unit main generator, or the loss of onsite emergency diesels with only one train of emergency busses being backfed from offsite power.The subsequent hss of this single power source would escalate the event to a Site Area Emergency in accordance with IC SS1"Loss of All Offsite and Loss of All Onsite AC Power to Essential Busses." Example EAL&#xb9;QE5.1b should be expanded to identify the control room indication of the status gf offsite-specific power sources and distribution busses that, if unavailable, establish a single failure vulnerability.

ICy: SS1 Plant Specific EA uideline (A,H,S)Nine Mile i'nit 2 Loss of all offslte power and loss of all onslte AC power to essential busses.Op.Mode Applicability SS1.1 51(PwrOps) 52(HSB)83(HSD)Q4(CSD)Q5(Refuel)

QAII Loss of all offsite and onsite AG power as indicated by: a.Loss of power to~~ecifie)AND transformers.

>.Failure of~~pecific)

AND=.Failure to restore power to Meastoao-~rgoacy4ve within~~ueific)

~minutes from the time of hss of both offsite and onsite 4,C power.Bases  

Plant Specific EA uideline (A,H,S)Nine Mile.t Unit 2 Loss of all AC power compromises all plant safety systems requiring electric power i Prolonged loss of all AC.power will cause core uncovering and loss of containment integrity, thus this event can escalate to a General Emergency.

Th+sitaspecifg time duration should be selected to exclude transient or momentary power hsses, but should not exceed 15 minutes.Escalation to General Emergency is via Fisson Product Barrier Degradation or IC SG1,'Prolonged Loss of All Offsite Power and Prolonged Loss of All Onsite AC Power." 72  

lC&#xb9;: SS2 Op.Mode Appllcablllty 3S2.1 Plant Specific EA Uideline (A,H,S)NlneMile i.tUnlt2 Failure of Reactor Protection system Instrumentatlon to complete or Initiate an automatic reactor scram once a Reactor Protection sysl setpolnt has been exceeded and manual scram was not successful n n in r ir~1(PwrOps)~2(HSB)Q3(HSD)Q4(CSD)Q5(Refuel)

Plant Specific EA uideline (A,H,S)Nine Mile.<Unit 2 Under these conditions, the reactor is producing more heat than the maximum decay heat load for which the safety systems are designed.A Site Area Emergency is indicated because conditions exist that lead to imminent loss or potential hss of both fuel clad and RCS.Although this IC may be viewed as redundant to the Fission Product Barrier Degradation IC, its inclusion is necessary to better assure timely recognition and emergency response.Escalation of this event to a General Emergency would be via Fission Product Barrier Degradation or Emergency Director Judgement ICs.74  

iC&#xb9;: SS3 Plant Specific EA uideline (A,H,S)Nine Mile.t Unit 2 Loss of all vltaf DC power.Op.Mode Applicability 3S3.1 51(PwrOps) 52(HSB)g3(HSD)Q4(CSD)Q5(Refuel)

QAII r, bus voltage indications for greater than 15 minutes.Bases 75

Plant Specific EA uideline (A,H,S)Nine Mile.t Unit 2 Loss of all DC power compromises ability to monitor and control plant safety functions.

Prohnged hss of all DC power will cause core uncovering and loss of containment integrity when there is significant decay heat and sensible heat in the reactor system.Escalation to a General Emergency would occur by Abnormal Rad Levels/Radiological Effluent, Fission Product Barrier Degradation, or Emergency Director Judgement ICs.Fifteen minutes was selected as a threshold to exdude transient or momentary power losses.76  

ICy: SS4 Plant Specific EA Uideline (A,H,S)Nine Mile.t Unit 2 Complete loss of function needed to achieve or malntaln hot shutdown.Op.Mode Applicability 3S4.1 51(PwrOps)

Plant Specific EA uideline (A,H,S)Nine Mile.t Unit 2 This EAL addresses complete loss of functions, including ultimate heat sink and reactivity control, required for hot shutdown with the reactor at pressure and temperature.

Under these conditions, there is an actual major failure of a system intended for protection of the public.Thus, declaration of a Site Area Emergency is warranted.

Escalation to a General Emergency would occur by Abnormal Rad Levels/Radiohgical Effluent, Fission Product Barrier Degradation, or Emergency Director Judgement ICs.78  

ling: SS5 Plant Specific EA uideline (A,H,S)Nine Mile.t Unit 2 Loss of RPV water level that has or will uncover fuel In the RPV.51(PwrOps) 52(HSB)~3(HSD)S4(CSD)S5(Refuel)

QAII 3S5.1 SS5.2 Bases 79

Plant Specific EA uideline (A,H,S)Nine Mile i.t Unit 2 Under the conditions specified by this IC, severe core damage can occur and reactor coolant system pressure boundary integrity may not be assured.'III I h Ih'll d l~d5'hhl azmmiraii~tnia mtnarallxagnaldaradilm her httuadanr rtf fba rangaiamhhhhzalizmf dafiagratignamaxrtmr.

Raartfhttihibahai ahdand BGRharrlaramttaihatramurrad.

ifbmdmgan auzaniraiiunalncraaaainmaiuziitIn mdhiha uraaant:artf ntmanitt ghhal daflagraihn huraia{Lh)Pkhttiruganand a Pl mtfgtuQ.mmiiau rtf ilmrttniainmani irraammibnr ref ihaaffaiia radhat;iharaiaaaa rafa frttttidharattttiradhx EZaanddat:laraihnof a Qamal Emargantnt rartttlrad Thus, declaration of a Site Area Emergency is warranted under the conditions specified by the IC.Escalation to a General Emergency is via radiological effluence IC AG1 harrhrlaaa.

ICO: SS6 Plant Specific EA Uideline (A,H,S)Nine Mile..it Unit 2 lnablllty to monitor a slgnlf leant transient tn progress.Op.Mode Appllcablllty SS6.1~1(PwrOps)~2(HSB)53(HSD)Q4(CSD)Q5(Refuel)

QAII Wl of the following conditions exist: s.Loss of~e-spociTIe) annunciators AND:.Indications needed to inonitor~~cific) are unavailable.

AND f.Transient in ro ress.Bases 81

Plant Specific EA uideline (A,H,S)Nine Mile,t Unit 2 This IC and its associate EAL are intended to recognize the inability of the control room staff to monitor the plant response to a transient.

A Site Area Emergency is considered to exist if the control room staff cannot monitor safety functions needed for protection of the public.(Q~oci~Annunciators for this EAL should be limited to include those identified in the Abnormal Operating Procedures, In the Emergency Operating Procedures, and in other EALs (e.g., rad monitors, etc.).Compensatory non-alarming indications" in this context indudes computer based information such as SPDS.This should include all computer systems available for this use depending on specific plant design and subsequent retrofits.

'Significant Transient includes response to automatic or manually initiated functions such as scrams, runbacks involving greater than 25%thermal power change, ECCS injections, or thermal power oscillations of 10%or greater.@to.spec~Indications needed to monitor safety functions necessary for protection of the public must include control room indications, computer generated indications and dedicated annunciation capability.

The specific indications should be those used to determine such functions as the ability to shut down the reactor, maintain the core cooled and in a eoolable geometry, to remove heat from the core, to maintain the reactor coolant system intact, and to maintain containment intact.Planned" actions are excluded from the is EAL since the loss of instrumentation of this magnitude is of such significance during a transient that the cause of the loss is not an ameliorating factor.82  

iC&#xb9;: SG1 Plant Specific EA uideline (A,H,S)Nine Mile..it Unit 2 Prolonged loss of all offslte power and prolonged loss of all onslte AC power.Op.Mode Applicability SG1.1 R1(Pwrops)

QAII prolonged loss of all offsite and onsite AG power as indicated by: a.Loss of power to specific)AND transformers.

x Failure of~~pecific)

:.At least one of the folhwing conditions exist:~Restoration of ggmttLta at least one emergency bus within~~pocTiic) 2 hours is not likely OR~(Bases 83

Plant Specific EA uideline (A,H,S)Nine Mile..it Unit 2 Loss of all AC power compromises all plant safety systems requiring electric power i.Prolonged loss of all AC power will lead to hss of fuel clad, RCS, and containment.

Thgai~peciflc) hours to restore AC power can be based on site blackout coping analysis performed in conformance with 10CFR50.63 and Regulatory Guide 1.155,"Station Blackout, as available, with appropriate allowance for offsite emergency response.Although this IC may be viewed as redundant to the Fission Product Barrier Degradation IC, its inclusion is necessary to better assure timely recognition and emergency response.This IC is specified to assure that in the unlikely event of prolonged station blackout, timely recognition of the seriousness of the event occurs and that declaration of a General Emergency occurs as early as is appropriate, based on a reasonable assessment of the event trajectory.

The likelihood of restoring at least one emergency bus should be based on a realistic appraisal of the situation since a delay in an upgrade decision based on only a chance of mitigating the event could result in a hss of valuable time in preparing and implementing public protective actions.In addition, under these conditions, fission product barrier monitoring capability may be degraded.Although it may be difficult to predict when power can be restored, it is necessary to give the Emergency Director a reasonable idea of how quickly (s)he may need to declare a General Emergency based on two major considerations:

1.Are there any present indications that core cooling is already degraded to the point that Loss or Potential Loss of fission product barriers is imminent'?(Refer to Tables 3 and 4 for more information.)

2.If there are no present indications of such core cooling degradation, how likely is it that power can be restored in time to assure that a loss of two barriers with a potential loss of the third barrier can be prevented?

Thus, indication of continuing cora cooling degradation must be based on fission product barrier monitoring with particular emphasis on Emergency Director judgement as it relates to imminent loss or potential loss of fission product barriers and degraded ability to monitor fission product barriers.84  

ICe: SG2 Op.Mode Appllcablllty 3G2.1 Plant Specific EA uideline (A,H,S)Nine Mlle..it Unit 2 Failure of the Reactor Protection system to complete an automatic scram and manual scram was not successful and there ls Indlcatlott an extreme challenge to the ablllty to cool the core.g1(PwrOps) 52(HSB)Q3(HSD)Q4(CSD)Q5(Refuel)

QAII AND>Either of the following:

a.(S b.(s'R Bases 85

Plant Specific EA uideline (A,H,S)Nine Mile~..it Unit 2 Automatic and manual scram are not considered successful if action away from the reactor control console is required to scram the reactor.Under the conditions of this IC and its associated EALs, the efforts to bring the reactor subcritical have been unsuccessful and, as a result, the reactor is producing more heat than the maximum decay heat had for which the safety systems were designed.Although there are capabilities away from the reactor control console, such as'tandby liquid control in BWRs, the continuing temperate rise indicates that these capabilities are not effective.

This situation could be precursor for a core melt sequence.reactor vessel water level is below 2/3 coverage of active fuel For BWRs, the extreme challenge to the ability to cool the core is intended to mean that the Another consideration is the inability to initially remove heat during the early stages of this sequence.BWRs,~~peels considerations include inability to remove heat via the main condenser, or via the suppression pool oc4oruc (e.g., due to high pool water temperature).

In the event either of these challenges exist at a time that the reactor has not been brought below the power associated with the safety system design (typically 3 to 5%power)a core melt sequence exists.In this situation, core degradation can occur rapidly For this reason, the General Emergency declaration is intended to be anticipatory of the fission product barrier matrix declaration to permit maximum offsite intervention time.86  

Plant Specific EAl sideline (FPB)Nine Mile Point Unit 2 BWR FPB tC&#xb9;'C1 Barrier: Fuel Claddin

 

 

Plant Specific EAI jideline (FPB)Nine Mile Point Unit 2 BWR FPB IC&#xb9;'C2 Barrier: Fuel Claddin Descript toll: Reactor Vessel Water Level Type: Loss/Pot.Loss FC2.1 Level less than-bio JEBB Bases: The"Loss" EA+si~poci~

value corresponds to the level which is used in EOPs to indicate challenge of core cooling.o~tiuo-fuel.

This is the minimum value to assure core cooling without further degradation of the dad.The"Potential Loss" EAL is the same as teh RCS barrier"Loss" EAL 4 below and corresponds to the~~pecifg water level at the top of the active fuel.Thus, this EAL indicates a"Loss" of RCS barrier and a"Potential Loss" of the Fuel.Clad Barrier.This EAL appropriately escalates the emergency class to a Site Area Emergency.

Plant Specific EAl sideline (FPB)Nine Mile Point Unit 2 BWR FPB IC&#xb9;: FC3 Barrier: Fuel Claddin Descrfptloit:

Drywell Radiation Monitoring Type: Loss Drywell radiation monitor reading greater tha+sitaepecific)

+R/hr.Bases:~is a value which indicates the release of reactor coolant, with elevated activity indicative of fuel damage, into the drywelL The reading should be calculated assuming the instantaneous release and dispersal of the reactor coolant noble gas and iodine inventory associated with a concentration of 300 pCi/gm dose equivalent 1-131 into the drywall atmosphere.

Reactor coolant concentrations of this magnitude are several times larger than the maximum concentrations (including iodine spRing)allowed within technical specifications and are there fore indicative of fuel damage (approximately 2'/a-5%dad failure depending on core inventory and RCS volume).This value is higher than that specified for RCS barrier loss EAL&#xb9;3.Thus, this EAL indicates a loss of both fuel dad barrier and RCS barrier.Caution: it is important to recognize that in the event the radiation monitor is sensitive to shine from the reactor vessel or piping spurious readings will be present and another indicator of fuel clad damage is necessary.

There is no"Potential Loss EAL associated with this item.89  

 

 

== Description:==

Emergency Director Judgement Type: LossIPot.Loss FC5.1 Any condition in the judgement of the Emergency Director that indicates loss or potential loss of the fuel cladding barrier.Bases: This EAL addresses any other factors that are to be used by the Emergency Director in determining whether the fuel clad barrier is lost or potentially lost.In addition, the inability to monitor the barrier should also be incorporated in this EAL as a factor in Emergency Director judgement that the barrier may be considered lost or potentially lost.(See also IC SG1,"Prolonged Loss of All Oifsite Power and Prolonged Loss of All Onsite AC Power", for additional information.)

Plant Specific EA sideline (FPB)Nine Mile Point Unit 2 BWR FPB IC&#xb9;: RCS1

 

== Description:==

 

RCS Leak Rate Barrfer: RCS Type: Loss RCS1.1 Q~pec~Indicationg of main steam line break: Bases: The'Loss" EAL is based on design basis accident analyses which show that even if MSIV closure occurs within design limits, dose consequences offsite from a"puff release would be in excess of 10 millirem.Thus, this EAL is included for consistency with the Alert emergency classlcation.

Plant Specific EAI sideline (FPB)Nine Mile Point Unit 2 BWR FPB IC&#xb9;: RCS1

 

== Description:==

 

RCS Leak Rate Barrier: RCS Type: Potential Loss RCS1.2 RCS leakage greater than 50 gpm inside the drywell RCS1.3 Bases: The potential loss of RCS based on leakage is set at a level indicative of a small breach of the RCS but which is well within the makeup capability of normal and emergency high pressure systems.Core uncovery is not a significant concern for a 50 gpm leak, however, break propagation leading to significantly larger loss of inventory is possible.Many BWRs may be unable to measure an RCS leak of this size because the leak would likely increase drywell pressure above the drywell isolation setpoint.'The system normally used to monitor leakage is typically isolated as part of the drywell isolation and is therefore unavailable.

If primary system leak rate information is unavailable, other indicators of RCS leakage should be used.Potential loss of RCS based on primary system leakage outside the drywall is determined from site-specific hfgzimllm3gh Qptttatittg Lgygh 4acaa in the areas of the main steam line tunnel, rnaia4urbiao-etc., which indicate a direct path from the RCS to areas outside primary containment.

Plant Specific EAI jideline (FPB)Nine Mile Point Unit 2 BWR FPB IC&#xb9;: RCS2

 

== Description:==

 

Drywell Pressure Barrier: RCS Type: Loss RCS2.1 EQIBREKQiginlmltt pressure~psig Bases: The+~ciTQ drywall pressure is based on the drywell high pressure alarm setpoint'higher value may be used if supporting documentation is provided which indicates the chosen value is less than the pressure which would be reached for a 50 gpm reactor coolant system leak.There is no'Potential Loss" EAL corresponding to this item.94  

 

 

 

Reactor Vessel Water Level Type: Loss RCS4.1 Level less than'BfD Bases: This"Loss" EAL is the same as"Potential Loss" fuel clad barrier EAL&#xb9;2.Th+sit~cif+

water level corresponds to the level which is used in EOPs to indicate challenge of core cooling.Depending on the plant this may be top of active fuel or 2/3 coverage of active fuel.This EAL appropriately escalates the emergency dass to a Site Area Emergency.

Thus, this EAL indicates a loss of the RCS barrier and a potential toss of the fuel clad barrier.96

Plant Specific EAI'sideline (FPB)Hine Mile Point Unit 2 BWR FPB IC&#xb9;: RCS5 Barrier: RCS Descrlptloll:

Other (site-specific) indications Type: Loss RCS5.1 Bases: This EAL is to cover other~~cif+

indications that may indicate loss or potential loss of the RCS barrier.97

Plant Specific EAI sideline (FPB)Nine Mile Point Unit 2 BWR FPB IC&#xb9;: RCS5 Barrier: RCS

== Description:==

 

Plant Specific EAI>ideline (FPEI)Njne Mlle pojnt Unit 2 BWR FPB ICC: RCSS Barrier: RC8

 

== Description:==

 

Emergency Director Judgment Type: Loss/Pot.Loss RCS6.1 Any condition in the judgment of the Emergency Director that indicates loss or potential loss of the RCS barrier Bases: This EAL addresses any other factors that are to be used by the Emergency Director in determining whether the RCS barrier is lost or potentially tost.In addition, the inability to monitor the barrier should also be incorporated in the EAL as a factor in Emergency Director judgement that the barrier may be considered hst or potentially lost.(See also IC SG1,"Prolonged Loss of Offsite Power and Prolonged Loss of All Onsite AC Power,, for additional information.)

Plant Specific EAI ideline (FPB)Nine Mlle Point Unit 2 BWR FPB ICO: PC1 Oescrlptlon:

Drywell Pressure Barrier: Prima Containment Type: Loss PC1.1 PC1.2 Bases: 100  

 

 

Drywall Pressure Barrier: Prima Containment Type: Potential Loss PC1.3 PC1.4 Exphsive mixture of'xists.Bases: of an explosive mixture means a hydrogen and oxygen concentration of at least the lower deflagration limitcuaco exists.Existence 101  

Plant Specific EAl sideline (FPB)Nine Mile PoInt Unit 2 BWR FPB 1C&#xb9;: PC2 Bar f fat';Prima Containment Type: Loss Descriptloll:

Containment Isolation Valve Status after Containment Isolation Signal PC2.1 bhin2aamlina BQIQ2thtmiim PC2.2 Intentional venting per EOPs: PC2.3~~~hfttm~g~~g~ittiiTtgrtot

~Jggggtt~uatfttr~ggrttfitj~, In addition, the presence of area radiation or temperature alarms indicating unisolable primary system leakage outside the drywell are covered.Also, an intentional venting of primary containment per EOPs to the secondary containment and/or the environment to considered a loss of containment.

There is no'Potential Loss" EAL associated with this item.hurimarymhunhdht;htrrtittututhhh arimarxmafaiuamrtt mirtithttr; Bmtgr BuildIrtahrmImnuttraturmabm thtir mazimum~fmttmtirtg lmh QB Huger Buiirhrtahum Bafiatignlmhahm thttirmaximum~urtttmtint lych Bases: This EAL is intended to cover containment isolation failures allowing a direct flow path to the environment such as failure of both MSIVs to close with open valves downstream to the turbine or to the condenser.

Plant Specific EAI sideline (FPB)Nine Mile Point Unit 2 BWR FPB 1C&#xb9;: PC3 Barrier: Prima Containment

Significant Radioactivity Inventory in Containment Type: Potential Loss PC3.1 Containment radiation monitor reading greater th Bases: RIKEt"''"""'""'"'"'"'''"'""""" i""'"'""''"'" of radioactivity requiring offsite protective actions from core damage is not possible unless a major failure into the reactor coolant.Regardless of whether containment is challenged, this amount of activity in containment, if released, could have such sever consequences that it is prudent to treat this as a potential loss of containment, such that a General Emergency declaration is warranted..

NUREG-1228,"Source Estimations During Incident Response to Severe Nuclear Power Plant Accidents, indicates that such conditions do not exist when the amount of clad damage is less than 20%.a radiation monitor reading corresponding to 20%fuel clad damagshe~specified here.There is no'Loss EAL associated with this item.103  

Plant Specific EAI'sideline (FPB)Nine Mile Point Unit 2 BWR FPB)C&#xb9;: PC4 Barrier: Prima Containment

Reactor Vessel Water Level Type: Potential Loss PC4.1 Bases: The conditions in this potential hss EAL represent imminent melt sequences which, if not corrected, could lead to vessel failure and increased potential for containment failure.In conjunction with the level EALs in the fuel and RCS barrier columns, this EAL will result ln the declaration of a General Emergency-loss of two barriers and the potential loss of a third.If the emergency operating procedures have been ineffective in restoring reactor vessel level fggJ there is not a"success" path.~'n Severe accident analysis (e.g., NUREG-1150) have concluded that function restoration procedures can arrest core degradation with the reactor vessel in a significant fraction of the core damage scenarios, and the likelihood of containment failure is very small in these events.Given this, it is appropriate to provide a reasonable period to allow emergency operation procedures to arrest the core melt sequence.Whether or not the procedures will be effective should be apparent within the time provided.The Emergency Director should make the declaration as soon as it is determined that the procedures have been, or will be ineffective.

There is no"loss" EAL associated with this item.104  

Plant Specific EAI sideline (FPB)Nine Mile Point Unit 2 BWR FPB IC&#xb9;: PC5 Barrier: Prima Containment Descrlptlort:

Other (site-specific) indicathns Type: Loss PC5.1 Bases: This EAL is to cover other~~ocific) indications that may indicate toss or potential hss of the containment barrier.105  

Plant Specific EAI iideline (FPB)Nine Mile Point Vnlt 2 BWR FPB IC&#xb9;: PC5 Bayriey: Prima Containment

Other (site-specific) indications Type: Potential Loss PC5.2 Bases: This EAL is to cover other~~pec~

indications that may indicate loss or potential hss of the containment barrier.106  

Plant Specific EAI jideline (FPB)Nine Mile Point Unit 2 BWR FPB IC&#xb9;: PC6 Barrier: Prima Containment

Emergency Director Judgment Type: Loss/Pot.Loss PC6.1 Any condition in the judgment of the Emergency Director that indicates loss or potential loss of the containment barrier LmaafamtaiamftatindiaatnramaxiadttdL'aamhtttat gt:unttltnftgtmf LQQhmmum Haahf uafatglaimddamaaahljtattina jaitialirzreminmataiamttaturmum Bases: This EAL addresses any other factors that are to be used by the Emergency Director in determining whether the containment barrier is lost or potentially lost.In addition, the inability to monitor the barrier should also be incorporated in this EAL as a factor in Emergency Director judgement that the barrier may be considered lost or potentially lost.(See also IG SG1,'Prohnged Loss of All Offsite Power and Prolonged Loss of All Onsite AG Power", for additional information.)

OSSI 92-402A-2-NMP2 NMP2 Fission Product Barrier EAL Evaluation, Rev.0 Fission Product Barrier Evaluation Revision 0 N'ra Mohawk Power Co Nine Mile Point Unit 2 Operations Support Services, Inc.233 water Street 2nd Floor Plymouth, MA 02360

OSSI 92-402A-2-NMP2 NMP2 Fission Product Barrier EAL Evaluation, Rev.0 Evaluation of NMP-2 Fission Product Barrier Emer enc Action Levels The Fission Product Barrier (FPB)degradation category for a BWR plant is illustrated in the following table which is designated"Table 3" in NESP-007, Revision 2.The Initiating Condition (IC)for each of the four emergency classifications (Unusual Event, Alert, Site Area Emergency, and General Emergency) are designated FUl, FAl, FSl, and FGl, respectively.

Each IC is defined by one or more EALs or combination of EALs which are indicative of a loss or potential loss of one or more of the three fission product barriers.The three fission product barriers are:~Fuel Clad (FC)~Reactor Coolant System (RCS)~Primary Containment (PC)NESP-007, Revision 2, prescribes example EALs for each of the three fission product barriers.An EAL is defined by one or more plant conditions.

For mcaznple, there are five FC barrier example$W,Ls, six RCS barrier acample EALs, and six PC acample EALs.Each EAL may consist of one or more conditions representing a loss of the barrier and a potential loss of the barrier.Some EALs may have only loss conditions, others only potential loss conditions, some have both loss and potential loss conditions.

Each EAL is given a sequential number in Table 3.In the foQowing list under the column labeled"NESP-007", NUMARC KALa with a defined condition (i.e., labeled as needing"site-specific" input in Table 3)are identified with a"yes", and those without a defined condition (i.e.labeled"not applicable" in Table 3)are identified with a"no".Similarly, EAL conditions applicable to NMP-2 are identified with a yes/no under the column labeled"NMP-2".  

OSSI 92-402A-2-NMP2 NMP2 Fission Product Barrier EAL Evaluation, Rev.0~Brrf r EAL&#xb9;NUMARC Loss~P NMP-2 mPi Lum FC RCS PC la lb 2 3 4 5 6 la lb 2a 2b 2c 3 5 6 Yes No Yes Yes Yes No Yes Yes Yes Yes Yes Yes No Yes Yes No Yes No Yes No Yes Yes Yes Yes Yes Yes Yes Yes Yes No Yes No Yes No No Yes No Yes Yes Yes Yes Yes Yes(FC1.1)

Yes(RCS1, 1)No Yes(RCS2.1)

No Yes(RCS6.1)

No No Yes(PC2.1)

No No No Yes(PC6.1)

No Yes(FC2.1)

No No Yes(FC5.1)

No No No No Yes(RCS6.1)