NRC 2016-0034, Point Beach Nuclear Plant, Units 1 and 2, Periodic Update of the Final Safety Analysis Report (Fsar), Appendix I
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Appendix I Table of ContentsFSAR UFSAR 2010Page TOC - I-i of ii APPENDIX I TABLE OF CONTENTSAPPENDIX I 10CFR50, APPENDIX I EVALUATION OF RADIOACTIVE RELEASES FROMPOINT BEACH NUCLEAR PLANT - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.1-1I.1INTRODUCTION - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.1-1I.1.1 LIQUIDRADIOACTIVEWASTESYSTEM - - - - - - - - - - - - - - - - - - - - - - - - I.1-1I.1.2 GASEOUSRADIOACTIVEWASTESYSTEM - - - - - - - - - - - - - - - - - - - - - - - I.1-1I.1.3 SECONDARYSYSTEMWASTES - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.1-1 I.1.4 CHEMICALANDVOLUMECONTROLSYSTEM - - - - - - - - - - - - - - - - - - - - - I.1-2 I.1.5 PLANTVENTILATIONANDFILTRATIONSYSTEMS - - - - - - - - - - - - - - - - - - I.1-2I.1.6 PREVIOUSRADIOACTIVEWASTESYSTEMMODIFICATIONS - - - - - - - - - - - - - I.1-2I.1.7 SUBSEQUENT CHANGES TO THE WASTEWATER EFFLUENT SYSTEM - - - - - - - - I.1-3I.1.8 SUBSEQUENT CHANGES TO THE LIQUID RADIOACTIVE WASTE SYSTEM - - - - - - I.1-3I.2INFORMATION IN RESPONSE TO APPENDIX D OF DRAFT REGULATORY GUIDE 1.BB I.2-1I.2.1 General- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.2-1I.2.2 PrimarySystem - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.2-2I.2.3 SecondarySystem- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.2-2I.2.4 LiquidWasteProcessingSystems - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.2-3I.2.5 GaseousWasteProcessingSystem - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.2-4I.2.6 VentilationandExhaustSystems- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.2-6I.2.7 References - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.2-8I.3CALCULATED SOURCE TERMS AND RELEASES OF GASEOUS AND LIQUIDEFFLUENTS - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.3-1I.3.1 ORIGINAL APPENDIX I EVALUATION- - - - - - - - - - - - - - - - - - - - - - - - - - I.3-1I.3.2 IMPACT OF UPRATED POWER OPERATIONS - - - - - - - - - - - - - - - - - - - - - - I.3-1 I.3.3 REFERENCE - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.3-2I.4METEOROLOGY - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.4-1I.4.1 METEOROLOGICALPROGRAMATPOINTBEACHNUCLEARPLANT - - - - - - - - - I.4-1 I.
4.2 DESCRIPTION
OFX/QANDD/QMODELINGPROCEDURES - - - - - - - - - - - - - - I.4-4I.4.3 CALCULATEDX/QANDD/QVALUESFORPOINTBEACHNUCLEARPLANT - - - - - I.4-9I.
4.4 REFERENCES
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5.1 DESCRIPTION
OFDISCHARGE- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.5-1 Appendix I Table of ContentsFSAR UFSAR 2010Page TOC - I-ii of ii I.5.2 HYDROLOGICALMODEL - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.5-1I.5.3 INPUTDATA - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.5-3I.
5.4 REFERENCES
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.5-3I.6SUPPLEMENTAL INFORMATION - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.6-1I.6.1ENCLOSURE1 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.6-1I.6.2ENCLOSURE2 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.6-1I.7COMPARISONS OF REPORTED AND CALCULATED RELEASES OF RADIOACTIVITY - I.7-1I.7.1 GASEOUSRELEASES- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.7-1I.7.2 LIQUIDRELEASES - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.7-2I.8CALCULATIONS OF DOSES TO MAN - - - - - - - - - - - - - - - - - - - - - - - - - - - I.8-1I.8.1 DOSEMODELS-OFFSITEINDIVIDUALS - - - - - - - - - - - - - - - - - - - - - - - - I.8-1I.8.2 DOSEMODELS-ONSITEINDIVIDUALS - - - - - - - - - - - - - - - - - - - - - - - - - I.8-4 I.8.3 CALCULATEDDOSES - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.8-5I.
8.4 REFERENCES
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SUMMARY
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.9-1I.9.1 GASEOUSRELEASES- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.9-1I.9.2 LIQUIDRELEASES - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.9-1I.9.3 IMPACT OF UPRATED POWER OPERATIONS - - - - - - - - - - - - - - - - - - - - - - I.9-2 I.9.4 REFERENCE- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - I.9-2 IntroductionFSAR Appendix I.1UFSAR 2010Page I.1-1 of 3 I.1 10 CFR 50, APPENDIX I EVALUATION OF RADIOACTIVE RELEASES FROM POINT BEACH NUCLEAR PLANTI.1INTRODUCTIONAppendix I to 10 CFR Part 50 of the Nuclear Regulatory Commission (NRC) regulations, published in May, 1975, sets forth numerical guidelines for design objectives and limiting conditions for operation to maintain releases of radioactive materials from light water reactors "as low as is reasonably achievable." Section V.B of Appendix I requires the holders of permits or licenses for operation of light water reactors to submit information necessary to evaluate the means employed to meet the objectives of Appendix I. This appendix contains information for the evaluation in response to guidelines provided by the Commission in February, 1976.Radioactive waste system and related systems are described in the FSAR, Section 9.0 andSection 11.0. In the initial plant design provisions were made for processing of all radioactive liquid and gaseous wastes prior to release via monitored pathways to the environment. Brief descriptions of the various systems and operation are as follows.I.1.1LIQUID RADIOACTIVE WASTE SYSTEM (See Note 1)All liquid radioactive wastes from controlled areas of the plant are collected in the liquid radioactive waste system waste holdup tank. These wastes are then processed by evaporation, as a minimum, and are released to the circulating water discharge on a batch basis. Each batch is analyzed prior to release. Filtration and demineralization equipment is available for further processing prior to release. Liquids are normally not recycled from this system.I.1.2GASEOUS RADIOACTIVE WASTE SYSTEM (See Note 1)Initial plant design incorporated a compressed gas decay tank system supplying cover gas for tanks containing un-degassed reactor coolant. Cover gas (primarily nitrogen) displaced by filling tanks and gas from chemical and volume control system gas strippers is compressed and stored in gas decay tanks. This gas is reused as cover gas when tanks are drained by processing or transfer of liquids. Periodically, gas must be released. The release is on a batch basis following a minimum decay time specified by Technical Specifications. Each batch is analyzed prior to release.I.1.3SECONDARY SYSTEM WASTES (See Note 1)Turbine building drains from both Units 1 and 2 are collected and routed to the effluent sump. Potable Water System Reverse Osmosis unit concentrate discharge and filter backwash are drained into the plant effluent sump. The façade sumps are normally pumped to the effluent sump. Sanitary wastes from the plant are routed to the plant sewage treatment system, which also discharges to the effluent sump. The effluent sump is pumped to the retention pond. The retention pond overflow effluent is normally released to a pathway subject to monitoring via radiation monitor RE-230 to the circulating water system. Capability for further processing of these wastes is not provided.Initial plant design incorporated a flash tank for pressure reduction and cooling of the steam generator blowdown for each unit. The vent from each flash tank is routed to a plant ventilation exhaust. Liquid from the flash tank is routed to the circulating water discharge. Provisions are IntroductionFSAR Appendix I.1UFSAR 2010Page I.1-2 of 3also included for routing this liquid to the boric acid evaporators in the chemical and volume control system during periods of operation with significant primary-to-secondary leakage. Processed liquids are normally not recycled from this system.I.1.4CHEMICAL AND VOLUME CONTROL SYSTEM (See Note 1)The chemical and volume control system (CVCS) holdup tanks are shared between Units 1 and 2 and collect reactor coolant letdown for boron control and miscellaneous other reactor coolant drains. These liquids are then processed by ion exchange, gas stripping, filtration, and evaporation in the boron recovery portion of the CVCS. Boric acid evaporator condensate is collected and monitored on a batch basis prior to recycle to the reactor makeup water storage tank or release to the circulating water discharge. Concentrated boric acid is sent to the boric acid storage tanks or is solidified in cement and shipped offsite for burial. Evaporator condensate from this system is recycled as far as practicable for use as reactor makeup water.I.1.5PLANT VENTILATION AND FILTRATION SYSTEM (See Note 1)Ventilation air from buildings normally containing radioactive materials and equipment is exhausted through HEPA and/or carbon adsorber equipment depending on the potential for significant releases. Turbine building ventilation is exhausted through roof exhausters with no treatment.Containment ventilation systems include HEPA and carbon adsorber equipment in internal recirculation systems and purge systems.I.1.6PREVIOUS RADIOACTIVE WASTE SYSTEM MODIFICATIONS (See Note 1)In 1971, Licensees completed conceptual designs of additional equipment to augment the initial plant systems and allow further reduction of radioactive releases from Point Beach Nuclear Plant. This additional equipment included treatment of air ejector offgas, larger evaporation equipment, gas stripping and decay processes, and cryogenic adsorption equipment for removal of long-lived noble gases from waste gas prior to release.The additional evaporation equipment is used to process radioactive liquid waste and can be used to process steam generator blowdown from either unit. The capability for recycle of processed blowdown is also incorporated in these modifications. In addition, steam generator blowdown tank vent condensers are used to minimize potential gaseous releases.Air ejector offgas from Units 1 and 2 passes through a delay duct for decay of short-lived isotopes and can be processed by a carbon adsorber prior to release.Gas stripper equipment is used to maintain reactor coolant gas concentra tions at low levels by stripping the letdown from each unit. Stripped gas from the gas strippers is sent to charcoal decay tanks shared by Units 1 and 2. Effluent from the charcoal decay tanks is normally recycled to Unit 1 and Unit 2 volume control tanks in the CVCS to minimize gaseous releases. If stripped gas is released, it can be processed for krypton removal in the cryogenic adsorption equipment prior to release. The adsorbed krypton is then stored in a gas decay tank.
IntroductionFSAR Appendix I.1UFSAR 2010Page I.1-3 of 3I.1.7SUBSEQUENT CHANGES TO THE WASTEWATER EFFLUENT SYSTEMIn 2002, conveyor type filters replaced the Retention Pond. The wastewater stream from the plant Effluent Sump was rerouted to two conveyors capable of processing 300 gpm each through a roll of paper media. This paper media retains all solids that previously settled in the Retention Pond, which is then processed as waste after examination. The Facade Sump drains are routed to a 30-gpm conveyor, and the filter media is checked for contamination prior to disposal. In both cases, potential contamination from these streams is removed and disposed of separately, and the remaining filtered water is monitored in the same manner that was previously employed for the Retention Pond discharge. The Retention Pond was subsequently capped and abandoned.I.1.8SUBSEQUENT CHANGES TO THE LIQUID RADIOACTIVE WASTE SYSTEMA filtration/demineralization system has been added to the liquid radioactive waste system, and serves as the primary means of processing liquid radioactive waste. Wastes are processed and released to the circulating water discharge on a batch basis. Each batch is analyzed prior to release. If necessary, the processed liquid can be returned for reprocessing. The estimated liquid releases, based on use of the filtration/demineralization system, are listed in Table11.1-3
.Note 1.Description reflects plant design information when the Appendix I evaluation wasperformed. See other FSAR sections as applicable for current system descriptions.
Information In Response to Appendix D of Draft Regulatory Guide 1.BBFSAR Appendix I.2UFSAR 2009Page I.2-1 of 8 I.2INFORMATION IN RESPONSE TO APPENDIX D OF DRAFT REGULATORY GUIDE 1.BBThe information in this section was provided in response to Draft Regulatory Guide1.BB (Reference 1) and referenced the FSAR where appropriate. In many instances, plant operating data were used, rather than design data in the FSAR, because these data were representative of expected plant operation. Adjustments in the assumptions contained in Reference 1 also were included where appropriate to account for shared systems and structures at Point Beach Nuclear Plant.The information and data provided in this response are part of the evaluation demonstrating compliance with 10 CFR 50, Appendix I governing design (dose) objectives for radioactive effluents. Updates or changes to individual parameters are not to be made in the remaining sections (i.e., 2.0 - 9.0) unless a complete re-evaluation is to be performed. However, design or procedural changes that impact the calculation results or conclusion of this evaluation are to be updated in the appropriate sections of the evaluation. PBNP effluents are controlled, quantified, and evaluated pursuant to the programs required by the PBNP Offsite Dose Calculation Manual.
I.2.1GENERALa.Maximum core thermal power is 1518.5 MWt as stated in the FSAR, Table 3.2-1 , and Operating Licenses DPR-24 and DPR-27.b.1)The total calculated mass of uranium and plutonium in an equilibrium core is as follows:These values are based on an average burnup of 9300 MWD/MTU and operation at approximately 80 percent capacity factor.2)Reload fuel is enriched to 3.1 weight percent uranium U 2353)There is no fissile plutonium in reload fuels at the present time.c.1)The assumed plant capacity factor is 80 percent.2)The assumed fuel defect level is 0.12 percent. The fuel cladding is Zircaloy.Beginning OfLifeMiddleOfLife EndOfLifeUranium (as
U), lbs.105,409104,816104,093Plutonium (as Pu), lbs.425 583711 Information In Response to Appendix D of Draft Regulatory Guide 1.BBFSAR Appendix I.2UFSAR 2009Page I.2-2 of 8 3)Concentrations of fission, corrosion, and activation products in the primary and secondary coolant are given in Table I.3-2 and Table I.3-3, respectively, and are based on calculational methods recommended by Reference 1
.d.The quantity of tritium released in liquid and gaseous effluents is 610 and 610curies per year, respectively, as calculated according to Reference 1 assumptions. Tritium quantities released in liquid and gaseous effluents based on plant operating data are 859 and110 curies per year, respectively.
I.2.2PRIMARY SYSTEMa.The total calculated mass of primary coolant in the system (excluding the pressurizer and purification system) is 247,600 pounds per unit at full power. This value is based on volumes given in the FSAR, Table 4.1-1 and Table 4.1-3, with operation at Tavg of 570 F and a pressure of 2250 psig.b.The average primary coolant letdown rate to the purification system is 40gallons per minute (19,800 pounds per hour) for each unit, based on information in the FSAR,Table 9.3-2
.c.The average flow rate through the cation demineralizers in the purification system is zero. Although initial design and operation included a cation demineralizer in series with a mixed bed demineralizer present plant operation normally utilizes only a single mixed bed demineralizer. Lithium control is accomplished with a mixed bed in H 3 BO 3 form. This change was made necessary by the limited availability of lithium-7 hydroxide and lithium-7 form demineralizer resins. d.The average flow rate to the CVCS holdup tanks is approximately 1.1 gallons per minute (564 pounds per hour) for each unit, based on plant operating data for 1974 and 1975.
I.2.3SECONDARY SYSTEMa.Each unit has two U-tube recirculating type steam generators. The carryover assumed in the evaluation is 0.20 percent for each steam generator based on plant measurements.b.The steam flow is 6.62 x 10 6 pounds per hour (3.31 x 10 6 pounds per hour per steam generator) based on the FSAR, Table 4.1-4
.c.The mass of steam in each steam generator at full power is 5,230 pounds, based on the FSAR, Table 4.1-4, and steam conditions of 521F and 821 psia.d.The mass of liquid in each steam generator at full power is 80,240 pounds based on the FSAR, Table 4.1-4, and saturated conditions at 821 psia.e.The total mass of coolant in the secondary system at full power is 197,600pounds (excluding the steam generators and the condenser hotwells) based on calculations from plant measurements.
Information In Response to Appendix D of Draft Regulatory Guide 1.BBFSAR Appendix I.2UFSAR 2009Page I.2-3 of 8 f.The primary to secondary leak rate assumed in the evaluation is 100 pounds per day for each unit.g.Each steam generator is provided with a blowdown connection located above the tubesheet. The blowdown is presently routed to a blowdown flash tank in each unit through throttling valves. The discharge from the flash tank is pumped through a filter to the plant circulating water discharge. Each blowdown flash tank is provided with a vent condenser cooled by service water. Modifications to the present system were made to allow heat recovery and processing of blowdown by ion exchange if required prior to release. During operation with significant primary to secondary leakage, the steam generator blowdown can be processed at a reduced rate by the blowdown evaporator shared by Units 1 and 2. Blowdown can be processed at normal rates in the existing waste condensate demineralizers. Provisions are also included to allow processing in either of the boric acid evaporators in the CVCS. The steam generator blowdown system is further discussed in the FSAR, Section 10.1 and Section 11.1
.Steam generator blowdown rates are normally on the order of 25 gallons perminute (12,500 pounds per hour) per steam generator. This is the average value used in the evaluation.h.Point Beach Nuclear Plant does not have provisions for condensate polishingdemineralizers.
I.2.4LIQUID WASTE PROCESSING SYSTEMSa.Information on sources of radioactive liquid wastes, flow rates, and expected radioactivity concentrations is provided in Table I.2-1. These values are based on recommendations of Reference 1, where appropriate, and on plant operating data. All liquid waste sources are calculated assuming plant operation for 365 days per year except for steam generator blowdown which is adjusted for an 80 percent capacity factor.Since Point Beach Nuclear Plant is a two-unit plant with many shared systems and structures, it is not appropriate in all cases to double the values for a single unit as recommended by Reference 1. In addition, because of the sharing, releases cannot be directly attributed to either Unit 1 or Unit 2 in most cases. Therefore, the information presented in Table I.2-1 represents the total for Point Beach Nuclear Plant.Values provided in Reference 1, Table B-17, are used and are doubled for the two-unit plant except for the following items:1)Laboratory drains are not doubled since there is a single laboratory for twounits with drains directed to the liquid waste system.2)Detergent wastes are not doubled since there is a single laundry for two units.
Information In Response to Appendix D of Draft Regulatory Guide 1.BBFSAR Appendix I.2UFSAR 2009Page I.2-4 of 8 3)In addition to turbine building floor drains, additional secondary system waste is generated by continuous chemical analyzers in the secondary system. These have been added in addition to the turbine building floor drains value in Reference 1
.4)Point Beach Nuclear Plant does not regenerate demineralizers in primary systems and no allowance is made for these wastes.5)Evaporator condensate from the boric acid evaporators is recycled as reactor makeup water if the purity is within chemical specifications for makeup, however, releases from this source occur frequently. Table I.2-1 includes this source as a separate category.Comparison of plant released for 1974 and 1975 with values derived from Table I.2-1 indicates good agreement. Table I.2-1 is therefore used in the evaluation of releases.Capacities of tanks and processing equipment used in calculating holdup times and decon-tamination factors for each processing step are provided in Table I.2-2 and Figure I.2-1 , respectively.Calculated liquid source terms by isotope and waste category are provided in Table I.7-3.
Calculated holdup times for each waste category are provided in Table I.2-3. Observed operational liquid releases are provided in Table I.7-6.b.Piping and instrument diagrams for radioactive waste systems and related systems are shown in the FSAR, Figure 9.3-1 through Figure 9.3-5 , Figure 10.1-1 , Figure 11.1-1 through Figure 11.1-3 , and Figure 11.2-1 through Figure 11.2-4. Process flow diagrams for the liquid waste system and the CVCS are presented in Figure I.2-1 and Figure I.2-2 , respectively.
I.2.5GASEOUS WASTE PROCESSING SYSTEMa.The volume of gas stripped from the primary coolant is approximately 78,000cubic feet per year for each unit based upon a primary coolant hydrogen concentration of 35cc per kilogram at standard conditions, a normal letdown flow of 40 gallons per minute, and two cold shutdowns per year for each unit.b.During normal operation, the primary coolant letdown flow for purification is continuously stripped, with stripped gas being routed to the gaseous radioactive waste processing system. The purified hydrogen from the charcoal decay tanks in the gaseous radioactive waste system is recycled to the volume control tanks as described in the FSAR, Section 11.2
.Prior to a refueling shutdown or a cold shutdown requiring opening of the primary system, the primary system is stripped of dissolved gases. Under these conditions, the purified gas is routed to the volume control tank of the other unit.The gaseous radioactive waste system incorporates a closed cover gas system with pressurized storage tanks which are used to store gas displaced during filling of the tanks in the CVCS and from operation of the gas strippers in the boron recovery portion of the Information In Response to Appendix D of Draft Regulatory Guide 1.BBFSAR Appendix I.2UFSAR 2009Page I.2-5 of 8 CVCS. When tanks are emptied by processing, the stored gas is then recycled to fill the tank space. Periodically, gas inventory requires release of a portion of the stored gas. Present operation of the system utilizes four gas decay tanks in the cover gas system. The fourth tank can be used for storage of krypton from the cryogenic absorption equipment.Each of the four usable gas decay tanks in the cover gas system has a volume of 525cubic feet and a maximum operating pressure of 105 psig at ambient temperature. The total volume released from the tank at maximum pressure is approximately 3750cubic feet at standard conditions. Plant radioactive release records indicate average release rates ranging from 2 to 15 cfm during batch releases.c.During normal operation, cover gas is routed between the CVCS holdup tanks and the gas decay tanks with small quantities of gas being produced from the gas strippers in the CVCS. The major source of gas is that produced by filling a CVCS holdup tank with letdown from the primary system during plant startup, load-follow operation, or boron dilution near the end of core life and from draining of the fuel transfer canal in the spent fuel pool. Normally, one gas decay tank is held in reserve to accommodate filling of one holdup tank. Releases are made as required to allow one gas decay tank to be held in reserve.Minimum holdup time prior to release of a gas decay tank is 7 days as specified in Technical Specifications. Actual holdup times are significantly longer, based on plant experience on the order of one release per month.Fill times for gas decay tanks are not predictable due to the variety of operating conditions which result in filling a tank and to the reuse of gas as cover gas. During letdown to the hold up tanks, the fill time is controlled by the maximum letdown rate of 80 gallons per minute. Under these conditions, the fill time is approximately 6hours. During fuel transfer canal draining, the fill time is controlled by gas compressor capacity of 40 cubic feet per minute. Under these conditions, the fill time is approximately 1.5 hours5.787037e-5 days <br />0.00139 hours <br />8.267196e-6 weeks <br />1.9025e-6 months <br />.Further discussion of the gaseous radioactive waste system is provided in the FSAR,Section 11.2
.d.HEPA filters are not provided downstream of the gas decay tanks.
e.Stripped gas from the continuously operating letdown gas strippers (one per unit) is routed to 3 charcoal decay tanks connected in series. These 3 tanks, common to both units, each contain approximately 1000 pounds of charcoal. Total volume of each tank is 46 cubic feet and normal operating pressure is 75 psig at ambient temperature. The dynamic absorption coefficients (K) for krypton and xenon are 77.7 and 1,386cm 3/gm, respectively, at an operating pressure of 75 psig at 77F. The dew point is 40F. From Section 2.5.a, the operational flow rate is calculated at 0.37cubic feet per minute at standard conditions for both units.Stripped gas, mainly hydrogen, is normally routed from the charcoal decay tanks back to the reactor coolant system. Optional routing is to the cryogenic system for krypton Information In Response to Appendix D of Draft Regulatory Guide 1.BBFSAR Appendix I.2UFSAR 2009Page I.2-6 of 8 removal or to the gas decay tanks in the cover gas system. An additional route to the auxiliary building vent exists but is not normally used.f.Piping and instrumentation diagrams for the gaseous radioactive waste system are given in the FSAR, Figure 11.2-1 , Figure 11.2-2 , and Figure 11.2-3. A process flow diagram is presented in Figure I.2-3
.I.2.6VENTILATION AND EXHAUST SYSTEMSa.Areas of Point Beach Nuclear Plant which normally contain radioactive materials and which are provided with measures to reduce airborne radioactivity releases are shown in the FSAR, Figure 11.4-1 through Figure 11.4-8. Within these areas, the ventilation systems are designed so that flow is from areas of low potential for radioactive contamination to areas of higher potential. Piping and instrumentation diagrams for these ventilation systems are shown in Figure I.2-4 and Figure I.2-5. Areas of the plant which could contain low levels of radioactive contaminants with primary-to-secondary leakage, such as the turbine building, are not provided with HEPA or carbon adsorber equipment since releases from the areas are insignificant. A process flow diagram for all major ventilation systems is presented in Figure I.2-3. Ventilation and exhaust systems are as follows:1)ContainmentVentilation Each containment is provided with a containment purge system, an internal cleanup system, and a purge vent which exhausts above the containment facade. Purge exhaust (12,500 cubic feet per minute) is through roughing filters, HEPA filters, and carbon adsorbers. The internal cleanup system (5,000 cubic feet per minute) is provided with roughing filters, HEPA filters and carbon adsorbers. The cleanup system is not necessarily operated prior to each purge and therefore no credit is taken in the evaluation of releases via containment ventilation.Pressure buildup in the containment as a result of instrument air leakage is vented continuously at a rate of approximately 10 cubic feet per minute via the containment air monitor. This effluent is routed to the containment purge filters prior to release via the purge vent.The gas stripper building ventilation is routed to the Unit 2 purge vent at flow rates varying from 400 to 12,000 cubic feet per minute, depending on building air temperature. Operational measurements indicate that only about 2 percent of the total plant noble gas release is via this pathway. Capability exists for routing this ventilation air through the Unit 2 containment purge filtration equipment.2)AuxiliaryBuildingVentilation The auxiliary building ventilation includes ventilation air from service building controlled areas and is exhausted through the auxiliary building and the drumming area vents located above the Unit 1 containment facade.
Information In Response to Appendix D of Draft Regulatory Guide 1.BBFSAR Appendix I.2UFSAR 2009Page I.2-7 of 8 The drumming area vent receives ventilation air from the drumming station in the auxiliary building, general areas of the auxiliary building above el evation 46' and spent fuel pool areas. Roughing and HEPA filters are provided for this exhaust.The auxiliary building vent exhausts air from the service building, chemistry laboratory, general areas of the auxiliary building and cubicles containing radioactive equipment. The chemistry laboratory exhausts to the auxiliary building vent through roughing filters, HEPA filters and carbon adsorbers. Service building ventilation and general areas and cubicles of the auxiliary building containing equipment with low potential for iodine releases are exhausted through roughing and HEPA filters. Areas of the auxiliary building with high potential for iodine releases are routed through roughing and HEPA filters to the auxiliary building vent with an optional route through carbon adsorbers and HEPA filters.3)TurbineBuildingVentilation Units 1 and 2 share a combined turbine building. Outside air is provided at all levels of the building and is exhausted through 19 turbine building roof exhausters evenly spaced along the length of the turbine building roof.4)CondenserAirEjectors Unit 1 and Unit 2 air ejectors discharge to a delay duct in the turbine building which provides a nominal one hour holdup prior to release via the auxiliary building vent. An optional route is through a carbon adsorber prior to the delay duct.5)RadioactiveWasteGases Releases of cover gas from gas decay tanks are directly to the auxiliary building vent at a controlled rate.Stripped gas from the Unit 1 and Unit 2 gas strippers is normally routed through the charcoal decay tanks and back to the CVCS volume control tank for each unit. This gas may also be released directly to the auxiliary building vent. An optional route is to pass the charcoal decay tank effluent through cryogenic adsorption equipment prior to release. No credit for the cryogenic system is taken in calculating radioactive releases.b.Decontamination factors of 10 for iodines through carbon adsorbers and 100 for particulates through HEPA filters are assumed for the evaluation, consistent with recommendations in Reference 1. All carbon adsorbers at Point Beach Nuclear Plant have a bed depth of 2 inches and a maximum face velocity of 40 feet per minute. Periodic testing of filtration equipment indicates decontamination factors at least equal to the above values. Credit is taken only for those filters which are normally in service.c.Calculated gaseous release rates for Point Beach Nuclear Plant are provided inTable I.7 -1 and are based on methods recommended by Reference 1. Observed opera-tional gaseous releases for 1974 and 1975 are presented in Table I.7-4 and Table I.7-5
.d.Release point descriptions are provided in Table I.2-4. The release vents are the highest points of the plant. Where a range is given, the lower flow is assumed for the evaluation.
Information In Response to Appendix D of Draft Regulatory Guide 1.BBFSAR Appendix I.2UFSAR 2009Page I.2-8 of 8 Each containment has a net free volume of 1,065,000 cubic feet. The containments are continuously vented to the containment purge filters via the containment monitoring system at a rate of approximately 10 cubic feet per minute.Periodic venting of containment through the purge outlet valves with the unit at power was allowed during early plant operation. This practice is no longer allowed by plant Technical Specifications. However, for the purposes of the evaluation and based on plant operation during 1974 and 1975, an average of 10 purges per year per unit is assumed during power operation and four purges per year per unit are assumed during shutdown. The average purge time is assumed to be 7 hours8.101852e-5 days <br />0.00194 hours <br />1.157407e-5 weeks <br />2.6635e-6 months <br /> at a flow of 12,500cubic feet per minute.Since the containment cleanup system is not necessarily operated prior to each purge, no credit is taken for the system in evaluating releases from Point Beach Nuclear Plant.
I.2.7REFERENCE 1.Draft Regulatory Guide 1.BB, "Calculation of Releases of Radioactive Materials in Liquid and Gaseous Effluents From Pressurized Water Reactors (PWR's)," Sept.1975.
Calculated Source Terms and Release of Gaseous and Liquid EffluentsFSAR Appendix I.3UFSAR 2010Page I.3-1 of 1 I.3CALCULATED SOURCE TERMS AND RELEASES OF GASEOUS AND LIQUID EFFLUENTSI.3.1ORIGINAL APPENDIX I EVALUATIONThe source terms (primary coolant and secondary side liquid and steam radioactivities) and the resulting radioactive releases (liquid and gaseous) are calculated using the basic assumptions and approaches recommended by NRC Draft Regulatory Guide 1.BB
.The procedures used in this evaluation provide essentially the same mathematical treatments as the PWR-GALE code used by the NRC staff. Values of plant parameters are based onPoint Beach Nuclear Plant design and operating data.The plant design and operating data, draft regulatory guide reference plant parameters, and applicable ranges are shown in Table I.3-1. Since the power level of 1518.5 MWt is outside the range given in Table I.3-1, the NRC references of plant coolant activities shown in Table B of Draft Regulatory Guide 1.BB have been adjusted. Table I.3-2 lists the resultant primary and secondary coolant radioactivity concentrations using these adjustment factors. Table I.3-3 lists the total primary and secondary liquid activities calculated in a similar manner.I.3.2IMPACT OF UPRATED POWER OPERATIONSThe impact of a 17.6% power uprate (1811 MWT, including a 0.6% instrument uncertainty) on the annual liquid and gaseous releases were estimated in Reference 1, using methodology and assumptions from NUREG-0017. The evaluation indicated an approximate 17.6% increase in the liquid effluent release concentrations compared to pre-uprate operations, as this activity is based on RCS activity possessing long half-lives (which increases in proportion to the power uprate percentage) and on waste volumes (which are essentially independent of power level within the applicability range on NUREG-0017). Tritium releases in liquid effluents increased proportionately to the power uprate.Similarly for the gaseous releases, the impact of uprated power on Kr-85 and tritium is limited to the increase in power level, 17.6%, taking into consideration a 0.6% uncertainty in the power level. Isotopes with shorter half-lives have increases slightly greater than the uprate percentage, estimated at 18.1 %. The other component of gaseous releases (i.e., iodines and particulates via the building ventilation systems), although increased, have a negligible impact on dose to the public. This is because the iodines and particulates category includes tritium, which is the controlling dose contributor.I.3.3REFERENCE 1.Shaw Calculation 129187-M-0104, "Impact of EPU on Normal Operation Gaseous and Liquid Radioactive Effluent Releases," dated March 26, 2009.
10 CFR 50 Appendix I AnalysisFSAR Appendix I.4UFSAR 2009Page I.4-1 of 9I.4.METEOROLOGYI.4.1METEOROLOGICAL PROGRAM AT POINT BEACH NUCLEAR PLANTThe meteorological monitoring program at Point Beach Nuclear Plant was conducted in accordance with requirements in existence at the plant licensing stage. The data used in this evaluation was obtained during the 4/19/67 through 4/18/69 period. The meteorological tower is located approximately 2,000 feet south of the nearest reactor containment. Wind speed and wind direction at the 150-foot level (approximate height of the containments) were monitored by Belfort Type M wind instruments. The wind data were recorded on the Belfort recorder located in a shelter adjacent to the base of the tower and were reduced by visual (equal area) methods.Atmospheric stability classes were determined by calculating hourly values of wind range, defined as the difference in azimuth between the maximum and minimum wind direction values during each hour. Hourly wind range values were then divided by a factor of 6, and a versus Pasquill Stability Class relationship, now referenced in Regulatory Guide 1.23 (Reference 1), was applied to establish the stability class. Hourly average values of wind speed, wind direction, and atmospheric stability class were used to compute hourly X/Q and D/Q values.Wind direction was recorded to the nearest degree. Wind speed was measured to the nearest mile per hour, while calms were determined by a calculational or computer threshold wind speed of0.7 miles per hour and assigned to the last valid wind direction.In order to calculate plume rise, ambient dry-bulb temperature is required. Since this parameter was not monitored at the site, monthly normals (1931-1960) at Kewaunee, Wisconsin (12 miles north) were used for each hour of the month considered.a.PointBeachMeteorologicalDataTable I.4-32 presents joint frequency distributions of wind speed and wind direction for each specific stability class, and all combined stability classes for the 4/19/67-4/18/69 onsite data period. Table I.4-33 presents similar distributions for each monthly period. A wind rose summary of Point Beach meteorology is presented in Table I.4-1.b.OnsiteDataRepresentativenessData obtained during the meteorological monitoring program at Point Beach Nuclear Plant is compared to that obtained from a program conducted at Haven, Wisconsin (approximately 30 miles south on the shore of Lake Michigan), during 1973 and 1974 as summarized in Table I.4-28. The latter program was designed in accordance with the guidance in Regulatory Guide 1.23. Table I.4-22
, Table I.4-23 , and Table I.4-24 provide a comparison of Haven and Point Beach data with that obtained at Milwaukee, Wisconsin, for concurrent and long-term periods.National Weather Service data for General Mitchell Field, Milwaukee, Wisconsin, is presented in Table I.4-29 through Table I.4-31. The similarities between Point Beach and Haven are as expected since both sites are similar in surrounding terrain and both are located on the shore of Lake Michigan.
10 CFR 50 Appendix I AnalysisFSAR Appendix I.4UFSAR 2009Page I.4-2 of 9The following comparisons can be made from Table I.4-22 , Table I.4-23 , and Table I.4-24
- Comparison A - Point Beach (1967-1969) to Haven (1973-1974)
Comparison B - Milwaukee (1967-1969) to Milwaukee (1973-1974)
Comparison C - Milwaukee (1967-1969) to Milwaukee (1956-1975)
Comparison A shows the similarities between Point Beach data and Haven data. Comparison B shows the overall similarity of the meteorological conditions that occurred during the 4/19/67-1/18/69 period with those conditions occurring during the 6/1/73-5/31/74 period. Comparison C shows the long-term data repres entativeness with climatology, using the 1/1/56-12/31/75 Milwaukee data base. For the 1/1/65-12/31/75 period, only 3-hour observations were recorded by the National Weather Service, however, this has no significant bearing on the comparisons, since a large data sample is used.Table I.4-22 shows stability class frequencies for the three sites and five data periods. Comparison A shows excellent similarity. The large preponderance of E, F, and G stabilities directly reflects the lake breeze phenomenon of undercutting cold air replacing warmer surface air, thus causing shallow pseudo-inversions. This is not present in the Milwaukee data, since the STAR (Reference 2
) methodology is based on gross parameterization of incoming solar radiation and wind speed. "A" stabilities at this latitude are rare, since a solar angle of at least 60 degrees is required. Also, E, F and G stabilities can only occur at night. Thus, Milwaukee data cannot reflect the effect of the daytime lake breeze on the stability classifications. Comparison B shows good similarity in the overall meteorology for both the Point Beach and Haven data periods. Similarly, Comparison C indicates that both the 4/19/67-4/18/69, and the 6/1/73-5/31/74 periods are representative of the long-term climatology.Table I.4-23 shows the frequency distribution of wind direction by quadrant (and offshore/onshore breakdown) for the three sites and five data periods. Comparison A shows small anomalies in the ESE-S and WNW-N sectors, while Comparison B shows minor differences in the NNE-E sectors. These anomalies reflect small synoptic-scale meteorological differences. For example, during the 4/19/67-4/18/69 period, Milwaukee had 22.0 percent WNW-N winds, while Haven had 27.2 percent. Those figures reflect the larger frequency of northerly component winds with an increase in latitude north from Milwaukee. Comparison C shows long-term representativeness of both the Point Beach and Haven data periods.Table I.4-24 shows the average wind speed for each quadrant for the three sites and five data bases. Comparison A shows Point Beach somewhat windier than Haven, even though Comparison B indicates 6/1/73-5/31/74 to be the windier period. This is the result of the decreased friction of the earth's surface at the 150-foot Point Beach measurement, as opposed to the 10-meter Haven level, and the 20-foot Milwaukee level. Wind speed differences of this order can be found in year to year climatological variances. Comparison C shows overall similarity of both the Point Beach and Haven data periods with long-term climatology. Table I.4-22 , Table I.4-23 , and Table I.4-24 show general representativeness of the Point Beach data to long-term climatology data from Milwaukee. Table I.4-28
10 CFR 50 Appendix I AnalysisFSAR Appendix I.4UFSAR 2009Page I.4-3 of 9 through Table I.4-32 present wind speed - wind direction point frequency distributions of the data used in the representativeness analysis.It is concluded that the 4/19/67-4/18/69 Point Beach data are representative of the actual meteorology occurring at Point Beach, and also of the long-term climatology of the area. Since the present program produces representative meteorological data there is no basis for upgrading the program in accordance with Reference 1
.c.Wet DepositionTable I.4-25 and Table I.4-27 present precipitation-wind frequency distributions and intensity frequency distributions for National Weather Service Stations in the vicinity of Point Beach.The onsite data period is represented by Green Bay (Austin Straubel Field), while the long-term climatology precipitation wind rose is represented by Milwaukee data. Table I.4-27 shows that 90 percent of all precipitation falls at a rate of 0.09 inch/hour or less, and shows the lack of a well-defined rainy period within the growing and grazing season. Table I.4-25 shows the precipitation to be generally well distributed with wind direction and wind speed. Table I.4-26 shows that precipitation levels within a 50-mile vicinity of the site do not vary significantly. It is unlikely that significant wet deposition occurs near the Point Beach site. Thus, the D/Q analysis reflects dry deposition only.d.Airflow Trajectory Regimes of Importance and Topography in the Vicinity of Point BeachThe Point Beach Nuclear Plant is situated near the shoreline of Lake Michigan in a relatively flat region of Wisconsin. Within a ten-mile radius of the plant, the scattered hills and knolls do not exceed 800 feet mean sea level (MSL) in any downwind sector. Plant grade is 606 feet MSL and major plant release points are at approximately 774 feet MSL. Based on the low relief of the surrounding terrain, airflow trajectory reversals caused by topographic obstacles are unlikely and, if they occur, are relatively insignificant. General topography within a 10-mile radius is shown in Figure I.4-1. Maximum topographic elevation vs. distance by sector is illustrated in Figure I.4-2
.Thunderstorm activity, squall lines and frontal passages are relatively infrequent in the vicinity of Point Beach, therefore, air flow reversals caused by their presence are minimal. These meteorological phenomena are generally short-lived and transitional and probably affect the overall local airflow less than one percent of the year. Based on the low frequency and short duration of these phenomena, as compared to an 8760-hour year, the overall effect on airflow reversals due to the phenomena are also relatively insignificant.During the mid-spring to late-summer months (April through September), the lake is generally colder than the land. When the synoptic-scale meteorological conditions are weak and not very well established, a shallow flow from lake to land develops during the late morning to late afternoon hours. This airflow reversal phenomenon is called the "lake breeze." The lake breeze, when wellestablished, can penetrate as much as 25 miles inland. Conservatively assuming the lake breeze prevails six hours (1100LST - 1700LST) each day 10 CFR 50 Appendix I AnalysisFSAR Appendix I.4UFSAR 2009Page I.4-4 of 9during the early spring through late summer (April through September) period, approximately 10 percent of the annual period would be subject to these conditions.In order to conservatively account for airflow trajectory reversals with the Gaussian single-line trajectory model, the terrain correction factor, shown in Figure 2 of Regulatory Guide 1.111 (Reference 3) was applied to all X/Q and D/Q calculations. This factor assumes that the same air is advected four times over the same receptor location at distances of1200 meters or less from the plant and approaches unity at greater distances. The terrain correction factor was conservatively applied to all occurrences, onshore or offshore winds, summer or winter, and day or night conditions. The application of Figure 2 terrain correction factors more than adequately compensates for the level of air trajectory reversals that would be experienced at PBNP.I.
4.2DESCRIPTION
OF X/Q AND D/Q MODELING PROCEDURESIn general, the methodology recommended by Reference 3 was used in the calculation of annual average and growing and grazing season average X/Q and D/Q values for the Point Beach site. Since there are a variety of release modes for the major release points, X/Q and D/Q must be evaluated for each operating condition. Six categories of release modes are defined and evaluated as follows:ReleaseModeIAThis mode is the continuous exhaust of plant ventilation air through the auxiliary building vent. Since the exit velocity is high, this release is considered to be an elevated release subject to the constraints discussed in this section.ReleaseModeIBThis mode is the periodic release of gas decay tank contents through the a uxiliary building vent. The X/Q and D/Q values are evaluated for the gas decay tank release intervals and frequencies.ReleaseModeIIAThis mode is the continuous release of 10 cubic feet per minute through each containment purge vent. Since exit velocities are negligible, the releases are considered ground level.ReleaseModelIIBThis mode is the periodic purge of containment through the containment purge vent. The exit velocities are high and the release is elevated. The X/Q and D/Q values are evaluated for the purge intervals and frequencies.ReleaseModeIICThis mode is the continuous release of gas stripper building ventilation through the Unit 2 containment purge vent. Exit velocities are variable and depend on building temperature; hence, the release is considered to be ground level.
10 CFR 50 Appendix I AnalysisFSAR Appendix I.4UFSAR 2009Page I.4-5 of 9ReleaseModeIIIThis mode is the continuous release of turbine building ventilation through the roof exhausters. The release is considered to be ground level.A separate release mode was not defined for the drumming area vent, since the treatment assumed (HEPA) and the exit velocities and locations are essentially the same as that for the auxiliary building vent.
a./Q ModelThe straight-line Gaussian diffusion model is used for X/Q calculations. Airflow reversals that are primarily caused by lake-breeze activity in the spring and summer months are conservatively accounted for by applying the correction factor ((x)) presented in Figure 2 of Regulatory Guide 1.111. The following equation is utilized for annual average and grazing season average /Q calculations:(1)The entrainment coefficient (E T)is a function of the ratio of exit velocity (U e) to wind speed (u) for conditionally elevated release points. For stacks that are at least twice the height of a nearby structure, E T = 0. For vent released occurring below the level of a nearby structure, 100 percent downwash is conservatively assumed (E T= 1). For vent releases occurring between 1 and 2 times the height of a nearby structure, a "conditionally elevated" release is assumed, and the entrainment coefficient is defined as follows:
E T = 0.0 when U e/û > 5.0 E T = 0.30-0.06 (U e/û ) when 1.5 < U e/û 5.0(2)E T = 2.58-1.58 (U e/û ) when 1.0 < U e/û 1.5 E T = 1.0 when U e/û 1.0The effective release height (h e) is defined as:
h e(x) = h r + h(x) - [h t (x) + h a](3)where h is the plume rise.To calculate plume rise, let S = (4)
X Q----xk 1 2.032 N------------- xx-----------
-k E t u z 2 xch b 2---------------------------------------------
1 2---1 E T1 2---exphex z-------------2 U z x-------------------------------------------------------------
-j 1n 1g T---z 10 CFR 50 Appendix I AnalysisFSAR Appendix I.4UFSAR 2009Page I.4-6 of 9Then for A-D stabilities when x < 10 hr and for E-G stabilities when x < 2.4eq û/S1/2 , plume rise is given by:
(5)For A-D stabilities, when x 10 h r , plume rise is given by:
(6)For E-G stabilities when x 2.4 û/S1/2, plume rise is given by:
(7)The topographic height (h t(x)) is the actual height of the surface at the receptor point above plant grade. The aerodynamic downwash height correction (h a) is defined by:
(8)For cases where entrainment occurs, credit is taken for vertical plume expansion in the wake behind the release point building.b.D/Q ModelDeposition is calculated as follows:
(9)Figure 7 of Reference 3 is used to determine ground release (entrained) relative deposition values, while Figures 8 through 10 of this Regulatory Guide are used to determine [d i(x)]j values as a function of release height. Inspection of rainfall rate distributions at Austin Straubel Field in Green Bay, Wisconsin, for the 4/19/67-4/18/69 data period indicates that 90 percent of the hours with precipitation had totals of 0.09 inches or less. Therefore, it is unlikely that significant wet deposition occurs at the Point Beach site.Dry deposition is calculated for elemental radioiodines and particulates only. The deposition rate for noble gases, tritium, carbon-14, and non-elemental radioiodines is too slow to allow accumulation at the distances considered in this evaluation. Although deposition and plume depletion occur simultaneously, the X/Q values are not reduced in order to remain conservative.hx1.6 u-------g Q H Cp p T----------------
-13/x23hx1.6 u-------g Q H Cp p T----------------
-13/10 h r23 hx2.9 g Q H Cp p TuS-----------------------
13/h a31.5 U e udD Q----xk 1 xx-----------
-k 2 N 16----------
-1n 1 Q----Gk E t 1 n t----1 E tii 13n i 1 Q----ikj 1n 1 10 CFR 50 Appendix I AnalysisFSAR Appendix I.4UFSAR 2009Page I.4-7 of 9c.Methodology Employed For Intermittent ReleasesThe methodology employed in the calculation of intermittent release /Q's and D/Q's is as follows and reflects current Site Analysis Branch practices:1.One-hour sector-averaged /Q values are calculated without terrain correction factors.2.The 15% one-hour value is plotted at 1-hr. on log-log coordinates while the annual average value is plotted. At 8760 hours0.101 days <br />2.433 hours <br />0.0145 weeks <br />0.00333 months <br />; a straight line is drawn, connecting the two
points.3.Log-log interpolation based on total ground intermittent release hours versus annual hours yields /Q multiplier.4.The multiplier is applied to annual average /Q and D/Q values to obtain intermittent /Q and D/Q values.d.List of Symbols1.Indices and Subscriptsi = index for elevated release stability group j = index for number of hours k = index for a particular receptor distance l = index for a particular 22.5x sector G = ground level b = building r = release b = building r = release e = effective, exit t = terrain a = aerodynamic downwash H = heat flux P = pressure 10 CFR 50 Appendix I AnalysisFSAR Appendix I.4UFSAR 2009Page I.4-8 of 92.Parameters/Q= relative concentrationD/Q= relative deposition rate x = downwind (receptor) distance (x)= terrain correction factorN = total number of valid data hours
û= average wind speed
h b = building height h e(x)= effective release height z(x)= vertical diffusion coefficient U e = exit velocity h r = release heighth(x)= plume rise h t = topographic impaction height h a = aerodynamic downwash correction height adjustmentg = gravitational acceleration Q H = heat fluxCp = specific heat at constant pressure = density of ambient airT = ambient temperature
T s = stack temperatureS = stability parameter d/dt= lapse rate of potential temperatured = inner stack diameter
= relative depositionn = number of valid data hours within a given sector 10 CFR 50 Appendix I AnalysisFSAR Appendix I.4UFSAR 2009Page I.4-9 of 9I.4.3CALCULATED /Q AND D/Q VALUE FOR POINT BEACH NUCLEAR PLANTTable I.4-2 presents the highest offsite sector D/Q and /Q values at the site boundary, nearest milk cow, milk goat, meat animal, resident, and vegetable garden. The annual period is represented by the 4/19/67-4/18/69 data period, while the grazing and/or growing season is approximated by the combination of the 4/19/67-10/18/67 and 4/19/68-10/18/68 periods. Table I.4-4 through Table I.4-13 list the /Q values for each of the above key receptors, the shoreline receptors (if any), the population distances to 50 miles, and selected distances out to three miles, since two of the six release modes are conditionally elevated. Table I.4-14 through Table I.4-21 presents D/Q values for the same receptors and locations. Because the three former onsite residences have either been demolished or abandoned, the annual and grazing season X/Q andD/Q values at these locations (WNW sector at 1250 meters, NNW sector at 1880 and 1980 meters) provided in Table I.4-3 are historical.I.
4.4REFERENCES
1.Regulatory Guide 1.23, "Onsite Meteorological Programs," February 1972.
2.STAR is a computer program used by the National Climatic Center, Asheville, N.C., to determine the probability of simultaneous occurrences of a specified wind speed, direction and stability class. STAR uses hourly records of this data over a long period of time to establish a climatological frequency matrix of wind speed, direction and stability class for a given site.
3.Regulatory Guide 1.111, "Methods of Estimating Atmospheric Transport and Dispersion of Gaseous Effluents in Routine Releases from Light-Water-Cooled Reactors," March 1976.
10 CFR 50 Appendix I AnalysisFSAR Appendix I.5UFSAR 2009Page I.5-1 of 3I.5HYDROLOGYI.
5.1DESCRIPTION
OF DISCHARGEThe two Point Beach discharge flumes are each designed to accommodate discharge flows of 390,000 gpm. There is one flume for each unit. They are of similar design, one being the mirror image of the other.Each flume is constructed of two rows of interlocked sheet pile sections. The shoreline (west) ends of the flumes are attached to the east pumphouse wall, perpendicular to the shoreline. Unit 1 flume extends into Lake Michigan in a SSE direction at an angle of 60 degrees to the shoreline. Unit 2 flume extends at the same angle in a NNE direction. Each flume is 35 feet wide at the lake end, 17 feet wide at the pumphouse and is 228 feet long. The floor of each flume consists of tremie concrete approximately two feet thick. The bottom depth below mean water level varies between 19 feet and 17 feet-9 inches. The mesh size of the grate is 3-1/2 inches by 1-3/16 inches. The flumes are protected along their sides from wave and ice action by steel spreaders between the piling and rubble stone placed along the outside of each piling row.The Unit 1 flume has a 35 foot by 19 foot platform on the lake end which had been open to the public for fishing.I.5.2HYDROLOGY MODELThe mathematical model used to calculate the lake dilution factor for Point Beach Nuclear Plant is based on methods suggested by Draft Regulatory Guide 1.EE (Reference 1). The plane source solution of the model can be obtained by integration of a point source solution over the source dimensions. For a steady point source discharge into a large lake of constant depth (d), a known steady longshore current (u), and straight shoreline the solution of the transport equation is:
(1), Where: x W 2 u y z---------------------
-f z zz s d(,)f y yy s(,)f z zz s d(,)2mdz s z2 2 z 2--------------------------------------
-exp 2mdz sz2 2 z 2---------------------------------------
-expmf y yy s(,)y s y2 2 y 2---------------------
-exp y s y2 2 y 2--------------------
-exp y 2 K y X u------------- z 2 K z X u------------
-
10 CFR 50 Appendix I AnalysisFSAR Appendix I.5UFSAR 2009Page I.5-2 of 3 x is the non-decaying concentration K y , K z are the lateral and vertical turbulent diffusion coefficientsW is source strengthd is depth of the lake at the discharge point X is distance in horizontal direction h is the vertical depth of the discharge plumeIn deriving Equation (1), it is assumed that:
(1) the discharge is located at the point (0, Y s , Z s), i.e., at the origin of the x-axis and a distance Y s from the shoreline and Z s beneath the water surface; and,(2) the longitudinal diffusion and time dependence in the dissolved constituent transport equation are negligible.The solution of a plane source can be obtained by integration of Equation (1) over the source dimensions. It is assumed that the plane source has a width of b (in the Y-axis) and a depth of h (in the Z-axis). Integrating f ( s , z, z s, d) from z s to z s + h with respect to z s gives:Where:Integrating f( y,y,y s) from y s to y s + b with respect to y s gives: (3)Where:Therefore:
f z s z s h s zz s d(,)dz s z 2---Amerf2mdz sz2 z-------------------------------------erf 2mdz s hz2 z------------------------------------------
-erf 2mdz sz2 z-------------------------------------
erf 2mdz sh2 z---------------------------------------
--f y yy s(,)y s d y s y s b B yBerf y s y2 y-------------------erf y s by2 y----------------------------
-erf y s y2 y-----------------
-erf y s by2 y-------------------------
-x W 2 u y z---------------------
-f z s z s h z zz s d(,)z s df y s y s b y yy s(,)y s d 10 CFR 50 Appendix I AnalysisFSAR Appendix I.5UFSAR 2009Page I.5-3 of 3 (4)Where W is source strength per unit area.The dilution factor, DF, is given by: DF = W/(xQ)(5), where Q is the volumetric discharge rate of the effluent.I.5.3INPUT DATABased on a paper by Paddock et. al. (Reference 2) the width of the plane source is estimated to be 1000 feet and the plane source is discharging 1000 feet offshore into a 0.4 feet per second current. The lateral and vertical mixing coefficients are 900 cm 2/sec (0.97 ft 2/sec) and 2 cm 2/sec (0.0022 ft 2/sec), respectively. (Reference 3) From Equations (4) and (5), the centerline dilution factor 12 miles downstream at the Two Rivers, Wisconsin potable water intake is approximately 10 for a discharge rate of 644 cubic feet per second.Field observations of flow patterns at Point Beach show the presence of reversing currents.
(Reference 3 , Reference 4) As indicated in Reference 1, when the directional distribution of currents is approximately bimodal, long-term dilution factors would be about twice those calculated from Equation (4). It is also noted that the dilution calculated by the above model is for a far field. Additional dilution arising from initial mixing in the near field (an additional dilution factor of 5) is also applied. The total dilution factor at the nearest water intake at Two Rivers, Wisconsin, is then calculated to be 100.I.
5.4REFERENCES
1.Draft Regulatory Guide 1.EE (Working Paper), Methods for Estimating Aquatic Dispersion of Liquid Effluents from Routine Reactor Releases for the purpose of Implementing Appendix I, February, 1976.2.Paddock, R. A., Policastro, A. J., Dunn, W. E., and Kyser, J. M., "Application of Prominent Near-Field Models for Heated Surface Discharge to Prototype Field Data on Lake Michigan," Energy and Envir. Systems Div., Argonne National Laboratory, paper pre-sented at U.S. - Japan Seminar on Engineering and Environmental Aspects of Waste Heat Disposal, April 15-19, 1974, Tokyo, Japan.3.Point Beach Nuclear Plant, "Non-Radiological Environmental Surveillance Program," Wisconsin Electric Power Company and Wisconsin Michigan Power Company, Annual Report No. 1, September 1972 through November 1973.4.Point Beach Nuclear Plant, "Non-Radiological Environmental Surveillance Program," Wisconsin Electric Power Company and Wisconsin Michigan Power Company, Annual Report Nos. 2 and 3, November 1973 through October 1975.
W 4 u------A m B
10 CFR 50 Appendix I AnalysisFSAR Appendix I.6UFSAR 1997Page I.6-1 of 2I.6SUPPLEMENTAL INFORMATIONBy Enclosures 1 and 2 to a letter dated February 17, 1976, the Nuclear Regulatory Commission requests that certain specific information be provided as part of the Appendix I evaluation. Requested information not provided elsewhere in the evaluation is presented in this section.I.6.1ENCLOSURE 1"Guidance to Holders of Permits to Construct or Licenses to Operate Light-Water-Cooled Reactors for Which Application was Filed Prior to January 2, 1971, to Meet the Requirements of Appendix I to 10 CFR Part50
."a.Radioactive source terms used in the evaluation are consistent with the parameters and methodology set forth in Regulatory Guide 1.BB to the extent practicable. Any deviations from the Reg. Guide are noted. Descriptions of the applicable plant parameters and source term are provided in Section I.2 and Section I.3, respectively.b.Meteorological and Hydrological parameters used in the calculation of doses are consistent with Regulatory Guides 1.DD and 1.EE to the extent practicable. Meteorology and hydrology are discussed in further detail in Section I.4. and Section I.5, respectively.c.Dose calculations are consistent with Regulatory Guide 1.109 to the extent practicable. Any deviations from Regulatory Guide 1.109 are noted in the detailed discussion presented in Section 8.0
.d.Operational liquid effluent release data is presented on an annual basis for 1974 and 1975 in Table I.7-6. All liquid discharges are released through the discharge flumes via the circulat-ing water system. Operational gaseous effluent release data is presented on an annual basis for 1974 and 1975 in Table I.7-4. Operational gaseous effluent release data is presented on a monthly basis for 1974 and 1975 by release point in Table I.7-5. A brief description of operating condition of each unit is noted for each month.e.Information requested in Enclosure 2 is provided in Section 6.2
.f.Proposed Technical Specifications reflecting the requirements of Appendix I to10 CFR Part 50 have been provided under separate cover.I.6.2ENCLOSURE 2"Additional Information Needed from Holders of Permits or Licenses to Construct or Operate Light-Water-Cooled Reactors for Which Application was Filed Prior to January 2, 1971."a.The information requested in Appendix D of Regulatory Guide 1.BB is provided asSection I.2.b.Distances to the nearest site boundary are provided in Table I.6-1. Distances to the nearest residence and nearest vegetable garden are presented in Table I.6-2. Distances to the nearest milk cow, milk goat, and meat animal are given in Table I.6-3
.In deriving these distances, it is assumed that every residence (farm or non-farm) has the 10 CFR 50 Appendix I AnalysisFSAR Appendix I.6UFSAR 1997Page I.6-2 of 2potential for having a vegetable garden. Since the land use in the vicinity of Point Beach Nuclear Plant is predominantly agricultural, the distance to the nearest milk or meat producing animal is assumed to be the distance to the nearest practicing farm having dwelling and a barn. However, it is assumed that land surrounding the site, owned by the Licensee and leased to local farmers, is unlikely to be used for pasture. Consistent with these assumptions, Figure I.6-1 shows the locations of all farms and non-farm residences out to a distance of 3 miles for each radial sector.c.Based on considerations in Draft Regulatory Guide 1.DD, estimates of relative concentration (X/Q) and deposition (D/Q) appropriate for locations determined in item 2, above, are presented in Table I.4-4 through Table I.4-21
.d.A complete description of the meteorological program, data, models, and parameters is presented in Section 4.0
.e.Regulatory Guide 1.23 did not exist during the design and licensing stages of Point Beach Nuclear Plant. The meteorological program and data are discussed in detail in Section I.4.1.f.Meteorological data for the Point Beach site, discussion of representativeness, and description of meteorological monitoring instrumentation is presented in Section I.4.. Since the present program produces representative meteorological data as discussed inSection I.4.1., there is no basis for upgrading the program in accordance with Regulatory Guide 1.23
.g.The lake breeze phenomenon is the only airflow trajectory regime of importance in the vicinity of Point Beach Nuclear Plant. A detailed discussion is presented in Section I.4.1
.h.A map showing detailed topographic features within a 10-mile radius of the plant is given in Figure I.4-1. Plots of maximum topographic elevation versus distance for each sector are given in Figure I.4-2
.i.Intermittent gaseous releases at Point Beach Nuclear Plant occur from containment purges and gas decay tank releases. A summary of containment purge experience fromJanuary 1, 1974, to February 29, 1976, is presented in Table I.6-4. Gas decay tank releases are summarized in Table I.6-5
.
10 CFR 50 Appendix I AnalysisFSAR Appendix I.7UFSAR 1997Page I.7-1 of 2 I.7COMPARISONS OF REPORTED AND CALCULATED RELEASES OF RADIOACTIVITYI.7.1GASEOUS RELEASESCalculated annual gaseous releases are provided in Table I.7 -1 and are based on the methods and assumptions in Draft Regulatory Guide 1.BB. Reported Point Beach Nuclear Plant gaseous releases are provided for 1974 and 1975 by month in Table I.7-5 and by year in Table I.7-4
.a.Noble Gases The calculated annual release of noble gases for the two-unit plant is 690 Curies per year. Comparing this value to the reported annual average releases of 27,000 Curies per year indicates disagreement by a factor of approximately 40. This disagreement is believed to be caused by a combination of radiation monitoring system background interference and assumptions in the model recommended by Draft Regulatory Guide 1.BB for calculation of releases.The major release point for reported noble gas releases at Point Beach Nuclear Plant is the auxiliary building vent. This release point is monitored by a scintillation detector in the vent stack. The recorded output of this monitor is used to calculate total noble gas releases for the vent. The detector is shielded so small increases in ambient external background radiation levels will not increase the reported noble gas releases. Internal stack contamination or large increases in background radiation may increase the reported amount. Plant practice has been to account for these background changes where the duration and effects can be quantified, however, this cannot be done in all instances. As a result, reported releases of noble gases are conservatively high. Also, as a backup, a SPING pallet continuously draws samples off the vent stack.The model recommended by Draft Regulatory Guide 1.BB accounts for noble gas releases from system leakage only via the leakage of undegassed liquids. Plant experience indicates that small leaks can occur from systems containing radioactive gases, such as the cover gas system. The radioactivity of these gases may be several orders of magnitude higher on a per volume basis than the noble gas radioactivity of undegassed liquids; hence a very small gaseous leak can result in significant noble gas releases. Since the model does not consider this potential the releases predicted by the model may not be compared to our experiences. A "gaseous leak" term for the model would be difficult to quantify since in most cases the volumetric leak rates of gaseous systems are so small that measurement is impracticable. Nevertheless, some allowance should be made for gaseous leaks to avoid setting design or operating objectives based on a release model which may not include all normal operating occurrences.The reported releases are conservatively high because of the inclusion of a portion of radiation monitor background in determining noble gas releases while the calculated releases based on the model may be low because of the inability of the model to account for small gaseous leaks. Further refinements in both areas should result in calculated releases approaching actual plant releases.Reference to Table I.8-5 indicates that the dose based on calculated noble gas releases is approximately 0.03 millirems per year to the total body of an offsite individual. Adjusting this to the reported releases would result in a calculated dose on the order of 1 millirem per year. Both calculated doses are well within the design objective of 5 millirem per year.
10 CFR 50 Appendix I AnalysisFSAR Appendix I.7UFSAR 1997Page I.7-2 of 2 b.IodinesThe calculated annual release of radioactive iodine for the plant is 0.3 Curies per year. This value compares favorably with reported iodine releases of 0.14 Curies per year on an annual average basis. The disagreement by a factor of 2 is not significant and may be the result of the lower fuel defect level during actual operation.c.Particulates The calculated annual release of particulate material for the plant is approximately 0.007 Curies per year while the reported releases for the plant are approximately 0.03 Curies per year on an annual average basis. The disagreement by a factor of approximately 4 arises primarily from higher than normal Cesium-138 during one month in the 1974 - 1975 period. Cesium-138 is a short-lived isotope not predicted by the model in Draft Regulatory Guide 1.BB. Cesium-138 is of negligible dose significance and the factor of 4 disagreement is not significant.d.Tritium Calculated tritium releases based on Draft Regulatory Guide 1.BB are 610 Curies per year via gaseous pathways compared to reported releases of 110 Curies per year on an annual average basis. The disagreement by a factor of 6 is due to the assumption in Draft Regulatory Guide 1.BB that half the tritium produced is released in gaseous effluents. The difference is not significant since the dose significance of tritium is small.I.7.2LIQUID RELEASESa.Gross Radioactivity (excluding tritium)
Calculated annual liquid releases are provided in Table I.7-2 and Table I.7-3. Reported Point Beach Nuclear Plant releases for 1974 and 1975 are provided in Table I.7-6
.The calculated releases from Point Beach Nuclear Plant, excluding tritium and dissolved noble gases, are 3.2 Curies per year for the two unit plant, while the reported annual average is approximately 1 Curie per year for 1974 and 1975. The disagreement by approximately a factor of 3 is the result of the higher fuel defect assumptions and the 0.3 Curies for anticipated operational occurrences in the model recommended by Draft Regulatory Guide 1.BB
.
10 CFR 50 Appendix I AnalysisFSAR Appendix I.8UFSAR 2008Page I.8-1 of 5I.8CALCULATIONS OF DOSES TO MANI.8.1DOSE MODELS - OFFSITE INDIVIDUALSDoses are calculated using the dose models contained in Regulatory Guide1.109 (Reference 1) in the evaluation of potential doses to individuals in the vicinity of Point Beach Nuclear Plant. Pathways not considered in Reference 1 or methods differing from Reference 1 are described in the dose models and assumptions presented below.Included in this evaluation are dose assessments of three pathway categories: 1) pathways associated with releases of liquid effluents to Lake Michigan, 2) the direct exposure from releases of noble gases to the atmosphere, and 3) pathways associated with radioiodines, particulates, carbon-14, and tritium releases to the atmosphere.1.LiquidEffluentsA condenser circulating water flow rate of 644 cubic feet per second (290,000gallons per minute) for the release streams is used in the calculation of all doses due to liquid effluents and is based on plant operating records for 1974 and 1975. All usage factors are taken from Table A-2 of Reference 1 unless otherwise noted.1.Swimming and Boating For boating and swimming, the COHORT-II Monte Carlo Radiation Transport Code (Reference 2) has been used to calculate dose rates to boaters and swimmers. The gamma energy spectrum is based on the eighteen-group of the DLC-23/CASK library
(Reference 3). The source radioactivity used for boating and swimming is the radioactivity in the discharge diluted by a factor of 5 to account for near-field dilution in the mixing zone.The boating model assumes a disc source 50 feet in diameter with a thickness of 3 feet. Dose rates are calculated at points 1, 2, and 3 feet above the water to approximate the location of boaters. Attenuation by the boat is neglected.The calculated dose rate is nearly constant at the three receptor points considered, indicating that the source model is essentially semi-infinite in this analysis. These dose rate levels are approximately half the submerged dose rates calculated for swimmers.Usage factors for boating of 52 hours6.018519e-4 days <br />0.0144 hours <br />8.597884e-5 weeks <br />1.9786e-5 months <br /> per year for teen and adult age groups and 29 hours3.356481e-4 days <br />0.00806 hours <br />4.794974e-5 weeks <br />1.10345e-5 months <br /> per year for child are used as suggested by Reference 1
.The Monte Carlo program is used to calculate the dose rate for swimming. A cylindrical source 10 feet in diameter is enclosed in an annular mass of water 20feet in diameter. The source region was limited to the 10 feet diameter cylinder. The 20feet diameter outer cylinder is added to include backscattering into the source region in the Monte Carlo analysis. A receptor point 2 feet below the surface is used. The calculated submerged dose rate is approximately twice the dose rate above the surface of the water.
10 CFR 50 Appendix I AnalysisFSAR Appendix I.8UFSAR 2008Page I.8-2 of 5The swimming pathway is not considered in Reference 1. A usage factor of 100hours per year is used for the adult and teen age groups. A usage factor of 56 hours6.481481e-4 days <br />0.0156 hours <br />9.259259e-5 weeks <br />2.1308e-5 months <br /> per year is used for the child age group.2.Ingestion of Potable Water The Green Bay, Wisconsin, potable water intake is located in Lake Michigan approximately 13 miles north of the Point Beach site and the Two Rivers, Wisconsin, potable water intake is located approximately 12 miles south of the site. As part of intensive non-radiological environmental surveillance programs(4) the lake current characteristics have been determined in the vicinity of the site. These studies indicate highly variable lake current direction; therefore, dilution factors at both intakes were evaluated and found to be approximately equal. Since the Two Rivers, Wisconsin, intake is nearest the site, this intake is considered in the evaluation; however, calculated ingestion doses would also be applicable to any individual using Green Bay, Wisconsin, potable water.The calculational methods for determining lake dilution factors are described in Section 5. A far-field dilution factor of 10 is calculated at the Two Rivers intake. Using a near-field dilution factor of 5 and a factor of 2 to account for variable current direction, the total dilution factor at the Two Rivers intake is 100. In addition to this dilution, a decay time of 44 hours5.092593e-4 days <br />0.0122 hours <br />7.275132e-5 weeks <br />1.6742e-5 months <br /> is assumed (based on lake current measurements) and an additional 12 hours1.388889e-4 days <br />0.00333 hours <br />1.984127e-5 weeks <br />4.566e-6 months <br /> decay is assumed during transport of water through the purification plant. No credit is taken for removal of radioactivity by water treatment processes.Ingestion of potable water is assumed to be 730 liters per year for adults and 510liters per year for all other age groups.3.Ingestion of Fish For the maximum individual case, fish are assumed to be caught at the edge of the initial mixing zone. The appropriate mixing zone dilution factor is 5, as suggested byReference 1. A holdup time of 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> between catching and eating fish is assumed. The consumption of fish is assumed to be 21, 16, and 6.9 kilograms per year for an adult, teen and child, respectively.4.Shoreline Recreation A point 1500 meters south is the closest point to the site at which this pathway exists. A decay time of 3.4 hours4.62963e-5 days <br />0.00111 hours <br />6.613757e-6 weeks <br />1.522e-6 months <br /> is assumed and a total dilution factor of 878 at the shoreline is calculated in accordance with the models presented in Section 5. Usage factors of 12, 67, and 14 hours1.62037e-4 days <br />0.00389 hours <br />2.314815e-5 weeks <br />5.327e-6 months <br /> per year are used for an adult, teen, and child, respectively. The shore width factor is assumed to be 0.5.Ingestion of Invertebrates Doses for ingestion of invertebrates are not calculated for Point Beach Nuclear Plant. There is no known fishery in the area for invertebrates.
10 CFR 50 Appendix I AnalysisFSAR Appendix I.8UFSAR 2008Page I.8-3 of 56.Ingestion of Leafy VegetablesFor the maximum individual case, leafy vegetables are assumed to be irrigated from the potable water supply of the City of Two Rivers. The dilution factor is 100 and the consumption is 64, 42 and 26 kilograms per year for the adult, teen, and child, respectively. A holdup time of 24 hours2.777778e-4 days <br />0.00667 hours <br />3.968254e-5 weeks <br />9.132e-6 months <br /> is assumed between harvesting and eating leafy vegetables.7.Ingestion of Stored Vegetables For the maximum individual case, non-leafy stored vegetables are assumed to be irrigated from the Two Rivers potable water supply with a dilution factor of 100. The consumption is assumed to be 520, 630, and 520 kilograms per year for the adult, teen, and child, respectively. A holdup time of 60 days is assumed between harvesting and consumption.8.Ingestion of Cow's Milk For the maximum individual case, cow's milk is assumed to be produced at a farm which gets drinking and irrigation water from the potable water supply of the City of Two Rivers. A dilution factor of 100 is assumed. Consumption of cow's milk is assumed to be 310, 400, 330, and 330 liters per year for the adult, teen, child, and infant, respectively. A hold up time of 2 days is used between production and consumption.9)Ingestion of MeatMeat for the maximum individual is assumed to be produced from an animal at a farm which gets drinking and irrigation water from the potable water supply of Two Rivers. A dilution factor of 100 is assumed. The consumption is 110, 65, and 41 kilograms per year for the adult, teen, and child, respectively. A holdup time of 20 days is used between slaughter and consumption.b.GaseousEffluentsAll dose pathways from gaseous releases are calculated using the methods and parameters described in Reference 1. The following pathways are considered:1.Noble Gas Releases The maximum individual is assumed to be at the nearest residence in the south-southwest direction at a distance of 1460 meters for total body and beta skin doses. For gamma and beta air doses, the maximum individual is assumed to be at the site boundary in the south direction at a distance of 1270 meters. Annual average X/Q values are used.2.Inhalation The maximum individual is assumed to be at the nearest residence at a distance of 1460meters in the south-southwest direction. Annual average X/Q values are applied for this location. Breathing rates of 7300, 5100, 2700, and 1900 m 3/yr are assumed for the adult, teen, child, and infant, respectively.
10 CFR 50 Appendix I AnalysisFSAR Appendix I.8UFSAR 2008Page I.8-4 of 53.Ingestion of Leafy VegetablesFor doses from ingestion of leafy vegetables, a garden is assumed to be at the nearest residence in the south-southwest direction at a distance of 1460 meters. Growing seasonX/Q's and deposition rates are applied based on a growing season of 6 months. Concentrations of tritium and carbon-14 in the vegetables are calculated using X/Q values as recommended in Reference 1. The consumption is assumed to be the same as for the liquid pathway.4.Ingestion of Stored Vegetables Stored vegetables are grown at the same location as leafy vegetables and use the same X/Q's and deposition rates. Consumption of stored vegetables is assumed to be the same as for the liquid pathway.5.Ingestion of Cow's Milk A cow is assumed to be at the site boundary in the SSE direction at a distance of 1300meters. A six month grazing season is assumed. Growing season X/Q's and deposition rates are applied. Concentrations of tritium and carbon-14 in the vegetation which the animal consumes are calculated using X/Q values as recommended inReference 1. The consumption of cow's milk is assumed to be the same as for the liquid pathway.6.Ingestion of Goat's Milk A milk goat is assumed to be at the same location as the milk cow. The X/Q's and deposition rates for the cow's milk pathway are used for this pathway. Consumption of goat's milk is assumed to be 310, 400, 330, and 330 liters per year for the adult, teen, child, and infant, respectively.7.Ingestion of Meat A meat animal is assumed to be at the same location as the milk cow. The X/Q's and deposition rates for the cow's milk pathway are used for this pathway. A six month grazing season is assumed. Consumption of meat is assumed to be the same as for the liquid pathways.8.Standing on Contaminated Ground The maximum individual is assumed to be in the south-southwest direction at a distance of 1460 meters. Annual deposition rates are applied for this location, and an occupancy and shielding factor of 0.7 is assumed.I.8.2DOSE MODELS - ONSITE INDIVIDUALSNote: The following is historical because there are no longer any occupied residences within the site boundary.
10 CFR 50 Appendix I AnalysisFSAR Appendix I.8UFSAR 2008Page I.8-5 of 5Three occupied residences exist within the Point Beach Nuclear Plant site boundary which are owned by the Licensees and which are occupied only by families of plant employees. Since some (but not all) pathways exist for potential exposure of these individuals to releases from the plant, hypothetical doses have been calculated for onsite individuals in all age groups at the maximum location. No calculations are performed for ingestion of fresh or stored vegetables (liquid release pathway only), ingestion of cow or goat milk, and ingestion of meat since these pathways either cannot exist or are known not to exist for these individuals.For the remainder of the potential pathways, the calculated doses are for individuals in the WNW sector at a distance of 1250 meters from the plant. Calculated doses for recreational activities such as fishing, swimming, and boating are identical to those for offsite individuals. Dose models for appropriate pathways are identical to those for offsite individuals except as modified by distance from release points.I.8.3CALCULATED DOSESCalculated doses to offsite individuals are provided in Table I.8-1 through Table I.8-4 for radioiodine and particulates in gaseous effluents. Calculated doses to offsite individuals from liquid effluents are provided in Table I.8-6 through Table I.8-9. Calculated doses to offsite and onsite individuals from noble gas releases are provided in Table I.8-5
.Calculated doses to onsite individuals for radioiodine and particulates in gaseous releases are provided in Table I.8-10 through Table I.8-13. Calculated doses to onsite individuals from liquid effluents can be obtained from Table I.8-6 through Table I.8-9 by summing the fish ingestion, swimming, boating and shoreline pathways.The replacement of the Retention Pond by the conveyor-type filtration units does not have an adverse effect upon the calculated doses. Only the path has changed, with the function of the Retention Pond as a settling basin replaced by active filtration through the new equipment.I.
8.4REFERENCES
1.Regulatory Guide 1.109, "Calculation of Annual Doses to Man From Routine Releases of Reactor Effluents For The Purpose of Evaluating Compliance With 10 CFR Part 50, Appendix I," March, 1976, U. S. Nuclear Regulatory Commission, Washington, D.C.2.L. Soffer and L. Clemons, Jr., "COHORT-II-A Monte Carlo General Purpose Shielding Computer Code," CCC-198, Union Carbide Corporation, April, 1971.3.G. W. Morrison, E. A. Straker, and R. H. Obegaarden, "A Coupled Neutron and Gamma-Ray Multigroup Cross Section Library For Use In Shielding Calculations," Trans. American Nuclear Society, 15, 535, 1972.4.Point Beach Nuclear Plant "Non-Radiological Environmental Surveillance Program," Wisconsin Electric Power Company and Wisconsin Michigan Power Company, Annual Reports 1, 2 and 3 covering the period from November, 1972 through October, 1975.
SummaryFSAR Appendix I.9UFSAR 2010Page I.9-1 of 3 I.9
SUMMARY
Calculations of radioactive releases and potential doses to individuals have been performed in accordance with models in Nuclear Regulatory Commission Regulatory Guides. The potential doses are calculated for each pathway through which exposure might be realized for various individuals. These pathways are then combined, as appropriate, to estimate the potential dose to a hypothetical individual exposed to all pathways. A comparison of calculated doses with the design objectives is given in Table I.9-1 for offsite individuals and for onsite individuals. All calculated doses are within the design objectives and are as low as reasonably achievable.I.9.1GASEOUS RELEASESCalculated gamma and beta air doses at the site boundary are 0.06 and 0.07 millirads per year, respectively, and are a small fraction of the design objectives of 10 and 20 millirads per year for gamma and beta dose rates.Calculated total body and skin doses to an offsite individual are 0.03 and 0.06 millirems per year, respectively. These doses are a small fraction of the design objectives of 5 and 15millirems per year to the total body and skin, respectively. Corresponding calculated doses to an onsite resident are 0.02 millirems per year total body, and 0.04 millirems per year to the skin. These calculated doses are also well within the design objectives.The maximum calculated dose to any organ of an offsite individual from all pathways for radioiodine and particulates is 15 millirem per year to the thyroid and is equal to the design objective of 15 millirem per year. The maximum hypothetical individual for this case is an offsite infant residing at a distance of 1,460 meters in the south-southwest sector and ingesting 330 liters per year of goat's milk in addition to being exposed to radioactivity in air and on the ground. The calculated dose for the same infant ingesting an equivalent volume of cow's milk is 12 millirems per year. In either case, the design objective is met.The calculated dose to any organ of an onsite resident is 0.82 millirems per year to the childthyroid. This calculated dose is well within the design objective of 15 millirems per year. Since all conservatively calculated doses from gaseous releases are within the design objectives it is concluded that gaseous waste processing systems and ventilation system filtration equipment at Point Beach Nuclear Plant will continue to maintain releases as low as reasonably achievable and further augmentation is not required.I.9.2LIQUID RELEASESa.Calculated DosesThe highest calculated total body dose is 0.19 millirem per year for a hypothetical adult. Essentially all of this dose is calculated to be from eating fish living at the edge of the initial mixing zone in the surface plume near the plant. The calculated doses are well within the design objective of 5 millirem per year.The highest calculated dose to any organ from liquid pathways is 0.26 millirem per year to the liver of an offsite teenage individual. The major portion of this dose is calculated to be from the same fish pathway as for the adult. This calculated dose is well within the design objective of 5 millirems per year.
SummaryFSAR Appendix I.9UFSAR 2010Page I.9-2 of 3 b.Calculated ReleasesActual plant liquid releases for 1974 and 1975 average approximately 1 Curie per year and calculated releases are 3.2 Curies per year. These releases are well within the design objective of 5 Curies per year per reactor (10 Curies per year for the plant).Because the doses and Curie releases via liquid pathways are much less than the design objectives there is no need to further augment liquid waste systems to continue to maintain releases as low as is reasonably achievable.I.9.3IMPACT OF UPRATED POWER OPERATIONSScaling techniques, based on NUREG-0017, Revision 1 methodology, were used to assess the impact of core power uprate on radioactive gaseous and liquid effluents at PBNP.As described in Reference 1, the conservatively performed power uprate analysis used the plant core power operating history during the years 2002 to 2006, the reported liquid effluent and dose data during that period, NUREG-0017 equations and assumptions, and conservative methodology, to estimate the impact of operation at the analyzed uprate core power level of 1811 MWt on radio-active gaseous and liquid effluents, and normal operation off-site doses.The licensed reactor core power level prior to 2003 was 1518.5 MWt. The core power was increased to 1540 MWt at the end of 2002. For the uprate condition, the system parameters used in the power uprate analysis reflected the flow rates and coolant masses at an analyzed core power level of 1811 MWt. For the pre-uprate condition, the evaluation used offsite doses based on an average 5 year set of organ and whole body doses calculated using data presented in the PBNP Annual Radioactive Effluent Release Reports for the years 2002 through 2006, taking into consideration the associated average annual core power level, extrapolated to 100 percent avail-ability at the licensed power level.Using the methodology and equations found in NUREG-0017, Revision 1, and based on acomparison of the change in power level and in plant coolant system parameters (e.g., reactor coolant mass, steam generator liquid mass, steam flow rate, reactor coolant letdown flow rate, flow rate to the cation demineralizer, letdown flow rate for boron control, steam generatorblowdown flow rate, steam generator moisture carryover, etc.) for both pre-uprate and uprateconditions, the maximum potential percentage increase in coolant activity levels due to the uprate for each chemical group identified in NUREG-0017 was estimated.To estimate an upper bound impact on off-site doses, the highest factor found for any chemical group pertinent to the release pathway was applied to the average doses previously determined as representative of operation at pre-uprate conditions. This approach was utilized to estimate the maximum potential increase in effluent doses due to the uprate, and demonstrate that theestimated off-site doses following the uprate, although increased, will continue to remain below the regulatory limits set by 10 CFR 50, Appendix I. Reference 1 shows that based on operating history, the maximum estimated dose due to gaseous liquid radwaste effluents following power uprate will continue to remain significantly below the annual design objectives for gaseous and liquid radwaste effluents set by 10 CFR 50 Appendix I.It is noted that actual gaseous and liquid effluent isotopic release and dose information areprovided in the PBNP Annual Radioactive Effluent Release Reports.
SummaryFSAR Appendix I.9UFSAR 2010Page I.9-3 of 3 I.9.4REFERENCE 1.Shaw Calculation 129187-M-0104, "Impact of EPU on Normal Operation Gaseous and Liquid Radioactive Effluent Releases," dated March 26, 2009.
FSAR Appendix I Tables and FiguresUFSAR 2010Page 1 of 248 Table I.2-1 SOURCES AND EXPECTED RADIOACTIVITY OF LIQUID WASTES AT POINT BEACH NUCLEAR PLANT(1)Assumes 365 days per year for both Unit 1 and Unit 2 except for steam generator blowdown which is adjusted for 80 percent capacity factor.(2)All fractions for primary system waste are related to degassed primary coolant concentrations and are prior to processing in radioactive liquid waste systems and related systems.SOURCERATE(gal/day)TOTAL (1)(gal/yr)EXPECTED FRACTION (2) OF PRIMARY COOLANT RADIOACTIVITYEXPECTED FRACTION TO BE RELEASEDPrimary System WasteContainment Sumps 80 29,2001.01.0Auxiliary Building Drains 400 146,0000.11.0 Laboratory Drains 400 146,0000.0021.0 Sampling Drains 70 25,5501.01.0 Detergent Wastes 450 164,250< 0.0001 Ci/yr1.0 Miscellaneous1,400 511,0000.011.0 Anticipated Occurrences - 4,0000.30 Ci/yr1.0Total2,8001,026,000Secondary System WasteTurbine Building Floor Drains 14,400 5,250,000Steam Condensate1.0Secondary System Sampling 5,000 1,820,000Steam Condensate1.0 Steam Generator Blowdown144,00042,050,0000.1 x Steam Generator Blowdown1.0Total163,40049,120,000OtherLetdown to CVCS Holdup Tanks3,2901,200,0001.00.53 FSAR Appendix I Tables and FiguresUFSAR 2010Page 2 of 248 Table I.2-2 CAPACITIES USED IN CALCULATING HOLDUP TIMES FOR RADIOACTIVE LIQUIDS(1)Based on sharing of three tanks by Units 1 and 2.WASTE SOURCECOMPONENTTOTAL PROCESS RATE OR VOLUMERATE OR VOLUME USEDPrimary System WasteWaste Holdup Tank21,000 gal.8,400 gal.Waste Evaporator 35 gal./min. 35 gal./min.Waste Condensate Tanks10,000 gal. each8,000 gal.
Waste Condensate Pumps 75 gal./min. each 150 gal./min.OtherLetdown to CVCSHoldup Tanks58,000 gal. each 69,600 (1)Holdup TanksBoric Acid Evaporator 12.5 gal./min. 12.5 gal./min.Monitor Tanks10,000 gal. each 8,000 gal.Monitor Tank Pumps 60 gal./min. each 120 gal./min.
FSAR Appendix I Tables and FiguresUFSAR 2010Page 3 of 248 Table I.2-3 CALCULATED HOLDUP TIMES FOR COLLECTION, PROCESSING AND RELEASE(1)Calculated holdup times are based on methods recommended by Draft Regulatory Guide 1.BB.(2)Based on sharing of three holdup tanks by Units 1 and 2.SOURCECALCULATED HOLDUP TIME (1) (Days)Primary SystemContainment Sumps3.2Auxiliary Building Drains3.2 Laboratory Drains3.2Sampling Drains3.2Detergent Wastes3.2 Miscellaneous3.2Anticipated Operational OccurrencesNot ApplicableSecondary SystemTurbine Building Floor Drains30Secondary System Sampling30Steam Generator BlowdownNegligibleOtherLetdown to CVCS Holdup Tanks 46.2 (2)
FSAR Appendix I Tables and FiguresUFSAR 2010Page 4 of 248 Table I.2-4 POINT BEACH NUCLEAR PLANT RELEASE POINT DESCRIPTIONSSheet 1 of 3Outside Design Temperature: -15°F (Winter) and 95°F (Summer)1.UNIT 1 PURGE VENTDiameter= 36Flow= 12,500 to 25,000 cfm for purging and 10 cfm for continuous venting.Exit Velocity= 20.1 to 40.2 miles per hour for purging.Elevation= 1680Height= 1420above finished grade 260Location= NE corner of Unit 1 facadeFacade Elevation= 1616Design Temperatures:Operating= 105°F (Winter) and 105°F (Summer)Shutdown= 50°F (Winter) and 105°F (Summer)Adjacent Structures:N - Aux. Bldg. (el. 1119and Unit 2 facade (el. 1616 E - Service Bldg. and Turbine Bldg. (el. 1119 S - None W - None2.UNIT 2 PURGE VENTDiameter= 36Flow= 12,500 to 25,000 cfm for purging, 400 to 12,000 cfm for gas stripper bldg. ventilation, and 10 cfm for continuous venting.Exit Velocity= 20.1 to 40.2 miles per hour for purging and 0.6 to 19.3 miles per hour for gas stripper bldg. ventilation.Elevation= 1680Height= 1420above finished grade 260Location= SE corner of Unit 2 facadeFacade Elevation= 1616Design Temperatures:Operating= 105°F (Winter) and 105°F (Summer)Shutdown= 50°F (Winter) and 105°F (Summer)Adjacent Structures:N - NoneE - Service Bldg. and Turbine Bldg. (el. 1119 S - Aux. Bldg. (el. 1119and Unit 1 facade (el. 1616W - None FSAR Appendix I Tables and FiguresUFSAR 2010Page 5 of 248 Table I.2-4 POINT BEACH NUCLEAR PLANT RELEASE POINT DESCRIPTIONSSheet 2 of 33.DRUMMING AREA VENTDiameter= 46Flow= 43,100 cfm Exit Velocity= 42.4 miles per hour Elevation= 1680Height= 1420above finished grade 260Location= NW corner of Unit 1 facade Facade Elevation= 1616Design Temperatures:= 65°F (Winter) and 85°F (Summer)Adjacent Structures:N - Aux. Bldg. (el. 1119and Unit 2 facade (el. 1616E - Service Bldg. and Turbine Bldg. (el. 1119S - None W - None4.AUXILIARY BUILDING VENTDiameter= 54Flow= 61,400 cfm Exit Velocity= 43.9 miles per hourElevation= 1680Height= 1420above finished grade of 260Location= SE corner of Unit 1 facadeFacade Elevation= 1616Design Temperatures:= 65°F (Winter) and 85°F (Summer)
Adjacent Structures:N - Aux. Bldg. (el. 1119and Unit 2 facade (el. 1616E - Service Bldg. and Turbine Bldg. (el. 1119S - NoneW - None FSAR Appendix I Tables and FiguresUFSAR 2010Page 6 of 248 Table I.2-4 POINT BEACH NUCLEAR PLANT RELEASE POINT DESCRIPTIONSSheet 3 of 35.TURBINE BUILDING ROOF EXHAUSTERS (19)Diameter= NAno credit taken for elevatedFlow= 47,000 cfm each --release; ground releaseExit Velocity= NAassumed Elevation= Approximately 110(elevation of turbine building roof)Height= Approximately 84above finished grade of 260Location= Evenly spaced along a north-south line atop the turbine building Design Temperatures:= 65°F (Winter) and 115°F (Summer)Adjacent Structures:N - None E - NoneS - NoneW - Facade Structures (el. 1616 FSAR Appendix I Tables and FiguresUFSAR 2010Page 7 of 248 Table I.3-1 COMPARISONS WITH PARAMETERS USED TO DESCRIBE THE REFERENCE PRESSURIZED WATER REACTOR WITH U-TUBE STEAM GENERATORSPARAMETERSYMBOLUNITSNOMINAL VALUERANGE MAXIMUM MINIMUMPBNP VALUEThermal PowerPMWt3400380030001518.5Steam Flow RateFSlbs/hr1.5(7)1.7(7)1.3(7)6.62(6)
Weight of water in reactor coolant systemSPlbs5.5(5)6.0(5)5.0(5)2.75(5)Weight of water in all steam generatorsWSlbs4.5(5)5.0(5)4.0(5)1.60(5)Reactor coolant letdown flow (purification)FD -lbs/hr3.7(4)4.2(4)3.2(4)1.98(4)Reactor coolant letdown flow (yearly average for boron control)FBlbs/hr5001000250564Steam Generator blowdown flow (total)FBDlbs/hrVolatile75,000100,00050,00025,000Fraction of radioactivity in blowdown stream which is not returned to the secondary coolant systemNBD-1.01.00.91.0Flow through thepurification system cation demineralizerFAlbs/hr370075000.00.0Ratio of condensate demin eralizer flow rate to the total steam flow rateNC-Volatile0.650.750.550.0Ratio of the total amount of noble gases routed to gaseous radwaste from the purification system to the total amount of noble gases routed from the primary coolant system to thepurification system (not including the boronrecovery system)Y-0.00.010.00.0 Kr-85 1.0 All Others FSAR Appendix I Tables and FiguresUFSAR 2010Page 8 of 248 Table I.3-2 POINT BEACH NUCLEAR PLANT CALCULATED SOURCE TERM CONCENTRATIONS (Ci/gm)Sheet 1 of 3IsotopeReactor Coolant (Ci/gm)Steam Generator Liquid (Ci/gm)Steam Generator Steam (Ci/gm)NOBLE GASESKr-83m1.7E-020.01.1E-08Kr-85m7.2E-020.04.6E-08Kr-855.9E-020.03.8E-08 Kr-875.2E-020.03.1E-08 Kr-881.5E-010.09.3E-08 Kr-894.9E-030.03.1E-09Xe-131m4.3E-030.02.7E-09 Xe-133m3.2E-020.02.0E-08Xe-1331.3E+000.08.2E-07Xe-135m1.3E-020.07.9E-09Xe-1351.7E-010.01.1E-07 Xe-1378.9E-030.05.6E-09 Xe-1384.3E-020.02.6E-08 HALOGENSBr-834.6E-032.2E-072.2E-09Br-842.6E-032.5E-083.5E-10 Br-853.0E-045.6E-105.6E-12I-1301.9E-031.9E-071.9E-09 I-1312.3E-012.7E-052.7E-07 I-1329.6E-025.8E-065.8E-08 I-1333.3E-013.8E-053.8E-07 I-1344.6E-021.0E-061.0E-08 I-1351.8E-011.4E-051.4E-07 FSAR Appendix I Tables and FiguresUFSAR 2010Page 9 of 248 Table I.3-2 POINT BEACH NUCLEAR PLANT CALCULATED SOURCE TERM CONCENTRATIONS (Ci/gm)Sheet 2 of 3CS, RBRb-867.6E-051.2E-081.2E-11Rb-882.0E-011.7E-061.7E-09 Cs-1342.2E-023.2E-063.2E-09 Cs-1361.2E-021.8E-061.8E-09 Cs-1371.6E-022.6E-062.6E-09WATER ACTIVATION PRODUCTSN-164.0E+012.8E-062.8E-06TRITIUMH-31.0E+001.0E-031.0E-03OTHER NUCLIDESCr-511.6E-032.5E-072.5E-10Mn-542.6E-045.6E-085.6E-11 Fe-551.3E-032.3E-072.3E-10 Fe-598.3E-041.7E-071.7E-10 Co-581.3E-022.3E-062.3E-09 Co-601.7E-032.5E-072.5E-10 Sr-892.9E-045.7E-085.7E-12 Sr-908.3E-061.1E-091.1E-12 Sr-915.9E-041.5E-081.5E-11 Y-901.4E-051.1E-091.1E-12 Y-91m3.7E-048.5E-098.5E-12 Y-911.7E-032.5E-072.5E-10 Y-931.2E-015.9E-095.9E-12 Zr-955.0E-051.1E-081.1E-11 Nb-954.1E-051.1E-081.1E-11 Mo-993.8E-012.0E-052.0E-08 FSAR Appendix I Tables and FiguresUFSAR 2010Page 10 of 248 Table I.3-2 POINT BEACH NUCLEAR PLANT CALCULATED SOURCE TERM CONCENTRATIONS (Ci/gm)Sheet 3 of 3Tc-99m3.5E-011.8E-051.8E-08Ru-1033.7E-055.7E-095.7E-12 Ru-1068.3E-061.1E-091.1E-12 Rh-103m4.4E-055.7E-095.7E-12 Rh-1069.9E-061.1E-091.1E-09 Te-125m2.4E-051.7E-091.7E-12 Te-127m2.3E-042.8E-082.8E-11 Te-1277.7E-048.8E-088.8E-11 Te-129m1.2E-031.7E-071.7E-10 Te-1291.6E-031.7E-071.7E-10 Te-131m2.2E-032.9E-072.9E-10 Te-1311.1E-035.6E-085.6E-11 Te-1322.3E-022.9E-062.9E-09 Ba-137m1.6E-022.5E-062.5E-09 Ba-1401.8E-042.8E-082.8E-11 La-1401.3E-042.0E-082.0E-11 Ce-1415.8E-051.1E-081.1E-11 Ce-1433.5E-052.9E-092.9E-12 Ce-1442.7E-055.6E-095.6E-12 Pr-1434.2E-055.7E-095.7E-12 Pr-1443.3E-055.6E-095.6E-12 Np-2391.0E-031.7E-071.7E-10 FSAR Appendix I Tables and FiguresUFSAR 2010Page 11 of 248 Table I.3-3 POINT BEACH NUCLEAR PLANT CALCULATED SOURCE TERM ACTIVITIES (Ci)Sheet 1 of 3IsotopeReactorCoolant (Ci)Steam Generators Liquid (Ci)NOBLE GASESKr-83m1.9E+000.0Kr-85m8.1E+000.0Kr-856.7E+000.0Kr-875.8E+000.0 Kr-881.7E+010.0Kr-895.5E-010.0Xe-131m4.8E-010.0 Xe-133m3.6E+000.0Xe-1331.5E+020.0Xe-135m1.4E+000.0 Xe-1351.9E+010.0Xe-1371.0E+000.0Xe-1384.8E+000.0 HALOGENSBr-835.2E-011.6E-05Br-842.9E-012.5E-06 Br-853.3E-024.1E-08I-1302.1E-011.4E-05I-1312.5E+012.0E-03 I-1321.1E+014.3E-04I-1333.8E+012.8E-03I-1345.2E+007.5E-05 I-1352.0E+011.0E-03 CS, RBRb-868.6E-038.9E-07Rb-882.2E+011.3E-04Cs-1342.5E+002.3E-04 FSAR Appendix I Tables and FiguresUFSAR 2010Page 12 of 248 Table I.3-3 POINT BEACH NUCLEAR PLANT CALCULATED SOURCE TERM ACTIVITIES (Ci)Sheet 2 of 3IsotopeReactorCoolant (Ci)Steam Generators Liquid (Ci)
CS, RBCs-1361.3E+001.3E-04Cs-1371.8E+001.9E-04WATER ACTIVATION PRODUCTSN-164.5E+032.0E-04TRITIUMH-31.1E-027.3E-02OTHER NUCLIDESCr-511.8E-011.9E-05Mn-542.9E-024.1E-06 Fe-551.5E-011.6E-05Fe-599.3E-021.2E-05Co-581.5E+001.6E-04 Co-601.9E-011.9E-05Sr-893.3E-024.1E-06Sr-909.3E-048.2E-08 Sr-916.6E-021.1E-06Y-901.6E-038.3E-08Y-91m4.2E-026.2E-07 Y-911.9E-011.9E-05Y-931.3E-024.3E-07Zr-955.6E-038.2E-07 Nb-954.7E-038.2E-07Mo-994.3E+011.5E-03Tc-99m4.0E+011.3E-03 Ru-1034.2E-034.1E-07 FSAR Appendix I Tables and FiguresUFSAR 2010Page 13 of 248 Table I.3-3 POINT BEACH NUCLEAR PLANT CALCULATED SOURCE TERM ACTIVITIES (Ci)Sheet 3 of 3IsotopeReactorCoolant (Ci)Steam Generators Liquid (Ci)OTHER NUCLIDESRu-1069.3E-048.2E-08Rh-103m5.0E-034.2E-07 Rh-1061.1E-038.1E-08Te-125m2.7E-031.2E-07Te-127m2.6E-022.1E-06 Te-1278.7E-026.4E-06Te-129m1.3E-011.2E-05Te-1291.8E-011.3E-05 Te-131m2.4E-012.1E-05Te-1311.2E-014.1E-06Te-1322.6E+002.1E-04 Ba-137m1.8E+001.8E-04Ba-1402.1E-022.1E-06La-1401.4E-021.5E-06 Ce-1416.5E-038.2E-07Ce-1433.9E-032.1E-07Ce-1443.1E-034.1E-07 Pr-1434.7E-034.1E-07Pr-1443.7E-034.1E-07Np-2391.1E-011.3E-05 FSAR Appendix I Tables and FiguresUFSAR 2010Page 14 of 248 Table I.4-1 POINT BEACH NUCLEAR PLANT ON-SITE WIND ROSE FOR 4/19/67 TO 4/18/69 (FREQUENCY PERCENT)Total Observations = 14,647Percentage of Calms = 0.91WIND SPEED CLASSIFICATIONS (MPH)WINDS BLOWING FROM 1 - 3 4 - 7 8 - 12 13 - 18 19 - 24 25TOTALN0.561.422.933.161.110.669.84NNE0.310.851.891.770.940.726.49NE0.361.021.281.280.470.294.71 ENE0.400.660.510.440.270.122.40E0.620.790.440.330.130.162.46ESE0.520.660.440.170.200.052.05 SE0.511.020.810.610.310.273.52SSE0.370.831.370.820.570.254.21S0.481.252.632.131.040.538.06 SSW0.401.304.274.451.730.3912.54SW0.441.503.472.270.460.128.24WSW0.260.831.781.300.380.134.69 W0.421.142.232.400.910.607.70WNW0.321.132.883.521.370.439.65NW0.291.052.722.470.450.157.13 NNW0.190.762.121.600.590.145.40 FSAR Appendix I Tables and FiguresUFSAR 2010Page 15 of 248 Table I.4-2 POINT BEACH NUCLEAR PLANT
SUMMARY
OF ANNUAL AND GRAZING SEASON /Q's AND D/Q's FOR HIGHESTOFFSITE SECTORSNotes: A = Annual Average; GS = Grazing or Growing Season, /Q in sec/m 3; D/Q in m
-2Highest Sectors for Site Boundary & Animal LocationsHighest Sector for Nearest Resident & Vegetable Garden LocationRelease ModeS Sector (1,270m)SSE Sector (1,300m)SSW Sector (1,460m)LocationType/Q x 10 7 D/Q x 10 9/Qx 10 7D/Q x 10 9/Q x 10 7 D/Q x 10 9IAAuxiliary Building VentContinuousConditionally elevated A GS 4.01 2.75 13.3 6.78 A GS3.112.08 20.111.7 A GS 2.86 3.57 5.90 7.08IBAuxiliary Building VentIntermittent (during gas decay tank releasesConditionally elevated A GS 9.43 7.34 31.3 18.1 A GS 9.3 6 8.4 4 60.5 47.5 A GS 8.0 5 9.0 0 16.6 17.8IIAUnit 1 and Unit 2 Purge VentContinuous 10 cfm VentGround LevelA GS 60.7 51.9 47.9 34.1 A GS19.513.1 24.6 14.7 A GS 23.9 28.0 21.8 26.3IIBUnit 1 and 2 Purge VentIntermittent (purge)Conditionally elevated A GS 2 7.0 22.1 47.6 33.2 A GS16.712.4 50.0 37.9 A GS 1 9.1 2 0.7 2 9.1 30.1IICGas StripperBuilding (through Unit 2 Purge Vent)ContinuousGround LevelA GS 60.7 51.9 47.9 34.1 A GS19.513.1 24.6 14.7 A GS 23.9 28.0 21.8 26.3IIITurbine Building Roof ExhaustersContinuousGround LevelA GS 70.4 60.8 47.9 34.1 A GS21.014.1 24.6 14.7 A GS 26.6 31.4 21.8 26.3 FSAR Appendix I Tables and FiguresUFSAR 2010Page 16 of 248 Table I.4-3
- POINT BEACH NUCLEAR PLANT ANNUAL GROWING SEASON /Q's AND D/Q's FOR ONSITE RESIDENTSNotes: A = Annual Average; GS = Growing Season, /Q in sec/m 3; D/Q in m
-2* This table is historical because onsite residences have either been demolished or abandoned.Release ModeWNW Sector(1,250 meters)NNW Sector(1,880 meters)NNW Sector(1,980 meters)LocationType/Q x 10 7 D/Q x 10 9/Q x 10 7D/Q x 10 9/Q x 10 7 D/Q x 10 9IAAuxiliary Building VentContinuousConditionally elevated A GS 0.732 0.857 3.91 5.37 A GS 1.49 1.89 3.90 4.31 A GS 1.40 1.78 3.39 3.75IBAuxiliary Building VentIntermittent (during gas decay tank releasesConditionally elevated A GS 4.05 4.31 21.7 27.2 A GS 6.55 7.45 17.1 17.0 A GS 6.257.11 15.1 15.0IIAUnit 1 and Unit 2 Purge VentContinuous 10 cfm VentGround LevelA GS 28.6 36.311.0 14.1 A GS 9.59 13.1 7.28 9.18 A GS 8.5211.6 6.37 8.04IIBUnit 1 and 2 Purge VentIntermittent (purge)Conditionally elevated A GS11.9 12.8 23.9 28.8 A GS 9.82 10.7 15.7 15.6 A GS 9.19 10.1 14.0 14.0IICGas Stripper Building (through Unit 2 Purge Vent)ContinuousGround LevelA GS 28.6 36.311.0 14.1 A GS 9.59 13.1 7.28 9.18 A GS 8.5211.6 6.37 8.04IIITurbine Building Roof ExhaustersContinuousGround LevelA GS 32.4 40.911.0 14.1 A GS 10.6 14.6 7.28 9.18 A GS 9.38 12.9 6.37 8.07 FSAR Appendix I Tables and FiguresUFSAR 2010Page 17 of 248 Table I.4-4 POINT BEACH NUCLEAR PLANT AUXILIARY BUILDING VENT, CONTINUOUS ELEVATED RELEASE (IA)DATA PERIOD: 4/19/67 - 4/18/69/Q (Sec/M 3) at Various Receptor Distances (M)Downwind SectorShoreline BoundarySite BoundaryNearest ResidenceNearest Farm8051,7001,9802,4152,8003,2003,6004,0254,8305,6357,24512,07024,14040,23556,33072,425OrderE-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-08E-08E-08E-09E-09E-09SSE3.373.111.843.113.742.191.781.341.080.8960.7540.6400.4830.3802.531.160.4642.411.561.12SN/A4.011.674.015.902.882.472.021.741.521.351.191.010.8826.413.401.609.136.264.71 SSWN/A3.172.862.224.092.652.462.121.781.521.311.130.8690.6974.872.221.025.553.692.72SWN/A2.432.162.392.612.152.161.951.701.471.301.140.7910.5823.621.670.8184.352.862.09WSWN/A1.120.9221.121.140.9740.9800.9010.7460.7550.6930.6380.5040.4112.461.180.5893.192.121.56 WN/A0.8850.8440.8851.060.9070.9020.8410.8340.8150.7840.7400.5810.4732.641.490.7654.062.671.95WNWN/A0.6760.7750.7680.6910.7150.8840.7660.8050.8190.8300.8170.5850.4433.561.770.9224.983.302.43NWN/A1.030.8840.9151.781.151.050.9100.9060.8900.8760.8570.8300.7885.352.011.015.433.612.65NNW2.961.371.091.372.811.691.401.131.020.9610.9130.8610.7920.7254.822.160.8634.562.992.18N12.00.9380.836N/A4.972.942.411.841.491.231.040.9440.8280.7455.863.051.176.003.872.79 NNE55.4N/AN/AN/A7.613.783.122.432.011.691.451.260.9850.8025.722.931.307.214.873.62NE47.7N/AN/AN/A4.221.811.521.231.060.9240.8200.7320.6050.5133.902.221.096.404.453.38ENE23.3N/AN/AN/A2.581.271.060.8310.6960.5930.5150.4500.3600.2982.181.170.5473.112.131.60 E45.2N/AN/AN/A5.062.171.751.341.100.9210.7910.6850.5420.4463.251.750.8154.643.182.39ESE29.7N/AN/AN/A7.923.442.671.931.511.221.010.8480.6370.5023.441.670.7063.822.541.87SE11.0N/AN/AN/A6.222.682.071.481.160.9280.7660.6390.4770.3742.541.230.5142.781.851.37 FSAR Appendix I Tables and FiguresUFSAR 2010Page 18 of 248 Table I.4-5 POINT BEACH NUCLEAR PLANT GROWING/GRAZING SEASON /Q AUXILIARY BUILDING VENT,CONTINUOUS ELEVATED RELEASE (IA)DATA PERIOD: 4/19/67-10/18/67AND: 4/19/68-10/18/68/Q (Sec/M 3) at Various Receptor Distances (M)Downwind SectorShoreline BoundarySite BoundaryNearest ResidenceNearest Farm8051,7001,9802,4152,8003,2003,6004,0254,8305,6357,24512,07024,14040,23556,33072,425OrderE-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-08E-08E-08E-09E-09E-09SSE2.552.081.232.082.381.471.190.8930.7160.5910.4950.4190.3140.2461.620.7360.2961.551.010.731SN/A2.751.192.754.201.981.711.411.231.080.9680.8620.7500.6725.002.771.377.955.524.19SSWN/A3.903.572.834.753.353.142.712.281.941.681.441.110.8856.152.771.276.864.563.35 SWN/A3.292.963.263.172.932.962.692.352.041.801.581.100.8085.012.311.156.104.022.93WSWN/A1.291.221.291.111.201.271.211.021.060.9890.9220.7370.6043.621.750.8884.843.222.37WN/A0.9371.060.9370.8701.081.111.071.091.081.061.010.8030.6583.662.101.115.933.902.85WNWN/A0.8581.061.050.6860.9221.191.051.131.161.181.170.8340.6285.022.451.216.424.223.08NWN/A1.241.131.131.831.341.261.121.151.161.171.171.181.157.842.911.508.155.434.01 NNW3.571.741.431.743.382.121.781.451.341.281.241.191.121.046.963.131.256.604.333.16N13.61.211.09N/A6.103.723.062.341.911.581.341.221.080.9817.864.211.638.435.463.95NNE67.8N/AN/AN/A9.464.954.113.222.672.261.941.681.321.087.743.991.789.936.725.00 NE53.9N/AN/AN/A4.952.111.761.421.221.070.9460.8440.6980.5934.522.611.317.695.374.09ENE29.4N/AN/AN/A3.251.551.270.9880.8190.6920.5960.5180.4100.3372.451.300.6043.432.351.77E33.2N/AN/AN/A4.131.731.381.030.8340.6910.5860.5020.3900.3162.261.190.5563.192.191.66 ESE16.3N/AN/AN/A5.382.131.631.160.9140.7390.6160.5210.3980.3192.251.170.5353.022.071.55SE6.53N/AN/AN/A4.251.711.300.9280.7220.5790.4780.3990.2980.2341.590.7780.3351.841.240.924 FSAR Appendix I Tables and FiguresUFSAR 2010Page 19 of 248 Table I.4-6 POINT BEACH NUCLEAR PLANT ANNUAL AVERAGE /QAUXILIARY BUILDING VENT, INTERMITTENT ELEVATED RELEASE (IB)Data Period: 4/19/67-4/18/69/Q (sec/m 3) at Various Receptor Distances (m)Downwind SectorOrderShoreline Boundary E-07Site BoundaryE-07Nearest Residence E-07Nearest FarmE-07SSE9.839.366.619.36SN/A9.435.259.43SSWN/A8.418.057.58 SWN/A8.638.709.13 WSWN/A5.335.905.33 WN/A4.405.534.40 WNWN/A4.265.655.69 NWN/A5.405.145.10 NNW11.566.155.466.15 N30.073.613.53N/A NNE106.N/AN/AN/A NE129.N/AN/AN/A ENE85.8N/AN/AN/A E116.N/AN/AN/A ESE63.4N/AN/AN/A SE28.2N/AN/AN/A FSAR Appendix I Tables and FiguresUFSAR 2010Page 20 of 248 Table I.4-7 POINT BEACH NUCLEAR PLANT GROWING/GRAZING SEASON /Q AUXILIARY BUILDING VENT, INTERMITTENT ELEVATED RELEASE (IB)4/19/67-10/18/67 AND 4/19/68-10/18/68/Q at Various Receptor DistancesDownwind SectorOrderShoreline Boundary E-07Site BoundaryE-07Nearest Residence E-07Nearest FarmE-07SSE8.868.445.938.44SN/A7.344.647.34 SSWN/A9.219.008.77 SWN/A10.110.110.7 WSWN/A5.727.035.72 WN/A4.726.604.72 WNWN/A4.726.666.81 NWN/A5.925.995.69 NNW12.626.986.256.98 N31.74.144.08N/A NNE116N/AN/AN/A NE142N/AN/AN/A ENE96.0N/AN/AN/A E103N/AN/AN/A ESE48.3N/AN/AN/A SE22.5N/AN/AN/A FSAR Appendix I Tables and FiguresUFSAR 2010Page 21 of 248 Table I.4-8 POINT BEACH NUCLEAR PLANT ANNUAL AVERAGE /Q'S, UNIT 1 OR UNIT 2 CONTAINMENT PURGE VENT,CONTINUOUS GROUND LEVEL RELEASE (IIA) AND GAS STRIPPER BUILDING VIA UNIT 2 CONTAINMENT PURGE VENT, CONTINUOUS GROUND LEVEL RELEASE (IIC)DATA PERIOD: 4/19/67-10/18/67/Q (Sec/M 3) at Various Receptor Distances (M)Downwind SectorShoreline BoundarySite BoundaryNearest ResidenceNearest Farm8051,7001,9802,4152,8003,2003,6004,0254,8305,6357,24512,07024,14040,23556,33072,425OrderE-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-08E-08E-08E-09E-09E-09SSE22.919.57.4019.544.310.06.964.403.162.351.831.440.9850.7214.431.790.6333.101.951.37SN/A60.79.2260.7129.029.821.213.710.17.646.034.843.412.5616.37.102.8014.99.827.20SSWN/A32.323.99.8969.816.611.77.485.424.083.192.541.771.318.223.441.306.704.333.13SWN/A15.78.4511.751.712.08.455.413.922.952.311.841.280.9475.942.490.9414.853.142.27 WSWN/A17.55.0217.541.19.436.634.243.082.321.811.441.000.7454.681.970.7493.872.511.82WN/A20.55.9720.546.210.77.504.813.492.632.061.641.140.8465.312.240.8514.402.852.06WNWN/A14.97.216.5558.113.59.506.114.443.352.622.091.461.086.832.901.115.743.732.71NWN/A8.603.966.0157.313.09.195.934.323.272.572.051.441.076.792.911.125.903.872.82NNW49.78.234.428.2352.112.18.525.463.952.982.331.851.290.9566.012.530.9584.933.182.30 N367.02.651.80N/A77.717.612.37.835.654.243.302.621.811.338.293.441.276.414.102.94NNE1,190.0N/AN/AN/A117.027.019.112.38.926.735.284.212.942.1813.85.832.2311.67.555.49NE1,540.0N/AN/AN/A108.024.917.711.48.366.345.004.002.812.1013.45.792.2612.07.875.76 ENE796.0N/AN/AN/A57.613.19.275.974.353.292.582.061.441.076.772.891.115.813.802.77E1,150.N/AN/AN/A83.619.113.58.656.284.743.712.962.061.539.664.091.568.105.273.83ESE711.N/AN/AN/A77.717.212.07.645.524.143.232.561.771.318.173.421.276.484.183.01 SE298.N/AN/AN/A62.613.79.606.124.423.322.592.061.421.056.572.761.035.293.422.48 FSAR Appendix I Tables and FiguresUFSAR 2010Page 22 of 248 Table I.4-9 POINT BEACH NUCLEAR PLANT GROWING/GRAZING SEASON /Q'S, UNIT 1 OR UNIT 2 CONTAINMENT PURGE VENT, CONTINUOUS GROUND LEVEL RELEASE (IIA) AND GAS STRIPPER BUILDING VIA UNIT 2 CONTAINMENT PURGE VENT, CONTINUOUS GROUND LEVEL RELEASE (IIC)DATA PERIOD: 4/19/67-10/18/67 AND 4/19/68-10/18/68/Q (Sec/M 3) at Various Receptor Distances (M)Downwind SectorShoreline BoundarySite BoundaryNearest ResidenceNearest Farm8051,7001,9802,4152,8003,2003,6004,0254,8305,6357,24512,07024,14040,23556,33072,425OrderE-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-08E-08E-08E-09E-09E-09SSE15.413.14.9513.129.96.704.662.942.111.571.220.9590.6550.4792.941.190.4202.061.290.911SN/A51.97.9651.911225.418.111.88.686.615.234.212.982.2414.46.362.5413.69.076.69SSWN/A37.828.011.681.819.413.78.826.404.833.783.022.101.569.824.131.578.145.283.82SWN/A21.811.716.272.116.711.77.525.454.113.222.561.781.328.303.491.326.844.433.21WSWN/A26.47.5826.461.814.210.06.424.563.512.752.191.521.137.123.011.145.923.842.78WN/A30.18.7530.168.115.611.07.045.113.853.012.401.671.247.803.301.256.494.213.05 WNWN/A19.09.128.2873.3M12.17.725.594.213.292.621.821.358.473.571.346.894.453.21NWN/A12.35.718.6682.818.613.28.546.244.733.722.982.091.569.954.301.688.875.844.28NNW68.011.36.0611.371.4M11.67.485.434.093.202.551.781.328.333.531.356.994.543.30 N5133.682.50N/A10824.217.010.87.815.864.573.632.511.8511.64.821.799.095.844.20NNE1,630N/AN/AN/A16137.126.216.812.29.247.245.774.032.9918.98.003.0615.910.47.52NE1,850N/AN/AN/A12729.220.713.59.857.485.904.733.332.5015.96.932.7214.59.546.99 ENE894N/AN/AN/A64.314.510.36.624.823.652.862.291.601.197.543.231.246.544.293.13E822N/AN/AN/A58.813.29.285.984.353.292.582.061.441.076.772.891.115.813.802.77ESE620N/AN/AN/A64.214.19.946.394.643.502.752.191.531.147.183.071.186.164.042.95 SE206N/AN/AN/A41.89.116.384.082.952.221.741.380.9610.7134.481.910.7223.742.441.77 FSAR Appendix I Tables and FiguresUFSAR 2010Page 23 of 248 Table I.4-10 POINT BEACH NUCLEAR PLANT ANNUAL AVERAGE /Q'S, UNIT 1 OR UNIT 2 CONTAINMENT PURGE VENT, INTERMITTENT RELEASE (IIB)4/19/67-4/18/69/Q (Sec/M 3) at Various Receptor Distances (M)Downwind SectorShoreline BoundarySite BoundaryNearest ResidenceNearest Farm8052,4154,0255,6357,24512,07024,14040,23556,33072,425OrderE-07E-07E-07E-07E-07E-07E-07E-07E-08E-08E-08E-09E-09E-09SSE18.616.79.6016.711.82.200.8900.4923.161.370.5282.691.721.23SN/A27.08.9627.024.84.642.111.379.424.622.0411.37.625.67SSWN/A22.919.112.817.03.911.680.9516.312.741.166.134.022.93 SWN/A17.313.715.911.43.251.490.7444.572.000.8904.643.032.20WSWN/A13.58.9013.55.411.680.9110.5383.201.440.6623.512.311.68WN/A12.08.7412.04.541.661.080.6293.511.790.8294.322.812.04WNWN/A8.758.868.693.721.631.290.6635.002.321.085.673.712.70NWN/A9.417.247.847.931.911.290.9826.412.451.115.853.852.81 NNW27.99.047.109.049.611.971.190.8715.612.430.9374.863.152.28N1354.283.85N/A16.52.961.290.9156.873.331.256.344.062.92NNE461N/AN/AN/A28.64.631.941.127.603.611.538.295.534.08 NE533N/AN/AN/A17.52.991.380.8506.013.091.417.945.414.05ENE323N/AN/AN/A9.711.720.7650.4593.181.570.6903.812.571.91E494N/AN/AN/A18.32.871.230.7295.002.441.065.793.882.87 ESE283N/AN/AN/A21.03.101.210.6764.472.070.8464.482.952.15SE110N/AN/AN/A14.92.330.9150.5113.371.560.6343.372.221.63 FSAR Appendix I Tables and FiguresUFSAR 2010Page 24 of 248 Table I.4-11 POINT BEACH NUCLEAR PLANT GROWING/GRAZING SEASON /Q'S, UNIT 1 OR UNIT 2 CONTAINMENT PURGE VENT, INTERMITTENT RELEASE (IIB)4/19/67-10/18/67 AND 4/19/68-10/18/68/Q (Sec/M 3) at Various Receptor Distances (M)Downwind SectorShoreline BoundarySite BoundaryNearest ResidenceNearest Farm8052,4154,0255,6357,24512,07024,14040,23556,33072,425OrderE-07E-07E-07E-07E-07E-07E-07E-07E-08E-08E-08E-09E-09E-09SSE13.712.47.2312.46.581.290.5320.2981.930.8550.3361.731.110.794SN/A22.17.0722.117.63.061.471.017.193.701.719.686.634.98SSWN/A24.820.713.920.14.642.001.147.563.281.407.424.883.56 SWN/A19.415.417.914.14.282.021.016.182.721.246.494.243.08WSWN/A14.110.514.15.532.221.300.7814.632.110.9935.293.492.55WN/A11.59.6411.54.162.001.450.8704.792.531.216.344.143.01WNWN/A9.6310.09.834.252.071.660.8506.292.901.296.764.403.19NWN/A10.08.068.418.812.261.731.429.353.521.658.785.804.26 NNW30.09.937.999.9311.22.481.611.227.893.421.336.924.513.28N1404.784.46N/A18.73.591.611.189.174.621.748.945.764.15NNE473N/AN/AN/A33.85.792.501.4710.04.842.0711.37.545.57 NE562N/AN/AN/A19.53.171.490.9326.673.501.639.276.364.79ENE355N/AN/AN/A11.11.840.8110.4853.361.670.7344.082.762.06E422N/AN/AN/A13.21.910.7950.4643.181.570.6943.862.611.95 ESE202N/AN/AN/A11.91.760.7260.4262.921.460.6423.562.411.80SE76.6N/AN/AN/A8.621.330.5270.2971.980.9390.3962.161.441.07 FSAR Appendix I Tables and FiguresUFSAR 2010Page 25 of 248 Table I.4-12 POINT BEACH NUCLEAR PLANT ANNUAL AVERAGE /Q'S, TURBINE BUILDING ROOF EXHAUSTERS,CONTINUOUS GROUND LEVEL RELEASE (III)DATA PERIOD: 4/19/67-10/18/68/Q (Sec/M 3) at Various Receptor Distances (M)Downwind SectorShoreline BoundarySite BoundaryNearest ResidenceNearest Farm8051,7001,9802,4152,8003,2003,6004,0254,8305,6357,24512,07024,14040,23556,33072,425OrderE-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-08E-08E-08E-09E-09E-09SSE24.821.07.8321.049.710.77.364.613.292.441.891.491.010.7384.511.810.6393.131.961.38SN/A70.410.370.414734.724.315.611.38.476.635.293.692.7517.47.442.8915.310.17.39SSWN/A36.326.610.781.418.312.78.075.804.343.372.681.851.368.503.521.326.794.383.16 SWN/A17.59.2713.059.313.39.275.874.213.152.451.941.340.9906.172.560.9594.933.192.30WSWN/A19.75.4919.746.910.57.314.633.322.481.931.531.060.7824.882.030.7653.942.551.85WN/A23.16.5523.152.911.98.285.243.762.822.191.741.200.8875.542.310.8704.482.902.10WNWN/A16.87.947.1966.515.210.66.704.823.612.812.231.541.147.142.991.135.863.802.76NWN/A9.694.356.7064.314.910.46.614.773.582.792.221.541.147.173.031.166.063.962.89 NNW57.19.054.779.0560.013.59.385.934.263.192.481.971.361.006.252.610.9785.023.242.33N4272.791.88N/A87.419.313.38.416.024.493.482.751.891.398.583.531.296.524.172.99NNE1,230N/AN/AN/A13330.421.213.59.707.275.674.503.112.3014.46.032.2811.97.705.59 NE1,560N/AN/AN/A12228.820.112.99.296.985.464.353.032.2514.26.052.3312.38.075.90ENE813N/AN/AN/A64.714.910.46.634.773.582.792.221.541.147.133.011.145.963.892.83E1,180N/AN/AN/A94.421.515.09.506.845.123.993.172.191.6210.14.231.608.295.383.91 ESE773N/AN/AN/A86.119.013.28.305.954.433.442.721.871.388.523.531.306.634.273.08SE337N/AN/AN/A69.115.310.66.684.783.572.772.191.511.116.892.861.065.423.502.53 FSAR Appendix I Tables and FiguresUFSAR 2010Page 26 of 248 Table I.4-13 GROWING/GRAZING SEASON /Q'S, TURBINE BUILDING ROOF EXHAUSTERS, CONTINUOUS GROUND LEVEL RELEASE (III)DATA PERIOD: 4/19/67-10/18/67AND: 4/19/68-10/18/68/Q (Sec/M 3) at Various Receptor Distances (M)Downwind SectorShoreline BoundarySite BoundaryNearest ResidenceNearest Farm8051,7001,9802,4152,8003,2003,6004,0254,8305,6357,24512,07024,14040,23556,33072,425OrderE-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-07E-08E-08E-08E-09E-09E-09SSE16.614.15.2414.133.47.144.923.082.201.631.260.9900.6730.4913.001.200.4242.081.300.919SN/A60.89.0360.812530.221.213.69.877.455.844.673.262.4415.56.712.6414.19.356.88SSWN/A42.731.412.795.021.715.19.586.895.164.023.192.211.6310.24.241.608.285.363.88 SWN/A24.412.918.182.418.612.98.195.884.403.432.721.871.398.643.591.356.964.513.26WSWN/A29.78.3229.770.715.911.17.015.043.772.942.331.611.197.433.111.176.043.912.83WN/A33.99.6133.977.617.512.27.705.534.143.222.561.761.308.143.401.286.624.293.11WNWN/A21.19.938.9984.719.013.28.376.014.493.492.771.911.418.803.661.377.014.513.25NWN/A14.16.359.7592.321.615.19.626.955.224.083.252.261.6810.64.501.739.146.014.39 NNW78.212.56.5812.582.118.612.98.185.884.403.432.721.881.398.703.641.387.134.633.35N5933.882.62N/A12026.718.511.78.376.254.853.842.631.9412.04.961.839.265.944.27NNE1,690N/AN/AN/A18341.829.118.513.39.977.776.174.273.1619.88.273.1316.310.67.67 NE1,870N/AN/AN/A14434.023.815.211.08.296.495.183.602.6817.07.262.8214.99.807.17ENE914N/AN/AN/A71.716.611.67.385.323.993.122.481.721.277.973.371.286.724.403.21E846N/AN/AN/A65.415.010.56.654.793.592.802.231.541.147.153.021.145.973.902.84 ESE658N/AN/AN/A70.716.111.27.125.123.832.992.371.641.217.603.201.216.354.153.03SE228N/AN/AN/A46.210.37.144.513.232.421.881.491.030.7584.721.980.7443.852.501.81 FSAR Appendix I Tables and FiguresUFSAR 2010Page 27 of 248 Table I.4-14 POINT BEACH NUCLEAR PLANT ANNUAL AVERAGE D/Q'S, AUXILIARY BUILDING VENT, CONTINUOUS ELEVATED RELEASE (IA)DATA PERIOD: 4/19/67-10/18/68D/Q (Sec/M
-2) at Various Receptor Distances (m)Downwind SectorShoreline BoundarySite BoundaryNearest ResidenceNearest Farm8051,7001,9802,4152,8003,2003,6004,0254,8305,6357,24512,07024,14040,23556,33072,425OrderE-09E-09E-09E-09E-09E-09E-09E-09E-09E-09E-09E-10E-10E-10E-10E-10E-11E-11E-11E-12SSE24.020.16.9520.146.99.856.483.802.581.841.3710.46.784.812.891.123.611.450.7584.63SN/A13.31.4813.329.46.104.042.401.651.190.9057.135.124.193.482.129.363.801.8911.0SSWN/A8.075.902.1218.73.882.571.531.050.7600.5804.583.302.722.281.406.232.531.257.27 SWN/A4.732.293.3616.83.472.291.360.9309.6690.5073.962.782.211.741.004.331.760.8805.15WSWN/A3.640.8863.649.081.861.230.7270.4980.3580.2712.111.481.170.9100.5192.230.9130.4592.69WN/A4.151.024.159.942.031.340.7900.5400.3870.2932.281.581.240.9420.5252.230.9170.4632.73 WNWN/A1.920.8100.7228.271.711.130.6650.4540.3250.2461.911.331.050.8120.4601.970.8050.4042.38NWN/A1.710.6721.1113.52.801.851.090.7470.5360.4053.162.201.731.330.7533.211.310.6573.85NNW23.63.261.553.2624.65.153.391.991.360.9680.7255.573.732.761.860.8873.411.380.7004.16N1531.571.00N/A69.514.79.645.663.842.732.0315.510.17.154.291.675.372.141.126.80NNE219N/AN/AN/A63.613.48.825.203.542.531.9014.69.917.475.252.6510.54.242.1312.6 NE135N/AN/AN/A25.95.363.542.091.431.030.7846.164.393.572.921.767.743.161.679.19ENE100N/AN/AN/A24.85.193.422.011.370.9790.7355.663.822.872.000.9933.931.590.8064.78E208N/AN/AN/A43.69.035.963.512.401.711.289.896.644.953.381.646.372.591.327.83 ESE425N/AN/AN/A84.317.011.26.614.513.212.4018.312.08.545.142.006.672.791.509.35SE229N/AN/AN/A63.512.68.304.903.342.391.7913.78.946.363.821.484.962.121.167.29 FSAR Appendix I Tables and FiguresUFSAR 2010Page 28 of 248 Table I.4-15 POINT BEACH NUCLEAR PLANT GROWING/GRAZING SEASON D/Q'S, AUXILIARY BUILDING VENT, CONTINUOUS ELEVATED RELEASE (IA)DATA PERIOD: 4/19/67-10/18/67 AND 4/19/68-10/18/68D/Q (Sec/M
-2) at Various Receptor Distances (m)Downwind SectorShoreline BoundarySite BoundaryNearest ResidenceNearest Farm8051,7001,9802,4152,8003,2003,6004,0254,8305,6357,24512,07024,14040,23556,33072,425OrderE-09E-09E-09E-09E-09E-09E-09E-09E-09E-09E-09E-10E-10E-10E-10E-10E-11E-11E-11E-12SSE14.111.74.0611.727.75.763.792.221.511.070.8016.103.982.831.710.6682.190.8910.4702.88SN/A6.780.7666.7815.23.112.061.230.8490.6180.4763.812.872.492.281.516.952.841.418.16SSWN/A9.657.082.5322.24.653.081.821.250.9030.6885.433.923.232.731.697.503.041.518.74 SWN/A6.503.144.6123.04.763.141.861.270.9110.6895.373.762.972.311.315.632.291.156.73WSWN/A4.761.154.7611.82.441.610.9470.6450.4620.3492.711.891.481.130.6342.701.110.5563.27WN/A5.301.305.3012.72.591.711.000.6840.4900.3692.861.961.511.120.6002.511.030.5253.11WNWN/A2.651.110.99011.32.351.550.9110.6210.4440.3352.601.801.401.060.5862.481.010.5103.00NWN/A1.940.7621.2615.53.192.101.240.8470.6080.4603.592.522.011.580.9163.971.630.8174.80 NNW26.23.601.713.6027.35.693.752.211.501.070.8066.214.203.172.231.124.481.820.9235.47N194.1.901.22N/A84.417.711.76.844.653.302.4618.712.28.685.252.066.752.711.428.65NNE272.N/AN/AN/A80.416.911.16.564.473.202.4018.512.59.456.673.3813.55.442.7416.2 NE161.N/AN/AN/A29.86.114.042.391.741.180.8957.035.024.073.342.018.873.631.8110.6ENE122.N/AN/AN/A28.15.853.862.271.551.110.8306.394.313.242.251.124.421.800.9115.41E173.N/AN/AN/A32.66.684.412.601.771.270.9517.324.913.652.471.184.591.880.9675.79 ESE298.N/AN/AN/A48.79.576.333.742.561.831.3710.56.914.983.081.264.471.901.036.41SE151.N/AN/AN/A37.47.254.492.831.941.391.047.965.243.762.300.9233.251.410.7754.86 FSAR Appendix I Tables and FiguresUFSAR 2010Page 29 of 248 Table I.4-16 POINT BEACH NUCLEAR PLANT ANNUAL AVERAGE D/Q'S,AUXILIARY BUILDING VENT, INTERMITTENT ELEVATED RELEASE (IB) 4/19/67-10/18/68D/Q (m-2) at Various Receptor Distances (m)Downwind SectorOrderShoreline Boundary E-09Site BoundaryE-09Nearest Residence E-09Nearest FarmE-09SSEM60.525.060.5SN/A31.34.6531.3SSWN/A21.416.67.24 SWN/A16.89.2212.8 WSWN/A17.35.6717.3 WN/A20.66.6920.6 WNWN/A12.15.915.35 NWN/A8.963.916.19 NNW92.214.67.7714.6 N3836.054.23N/A NNE419N/AN/AN/A NE364N/AN/AN/A ENE368N/AN/AN/A E534N/AN/AN/A ESE907N/AN/AN/A SE588N/AN/AN/A FSAR Appendix I Tables and FiguresUFSAR 2010Page 30 of 248 Table I.4-17 POINT BEACH NUCLEAR PLANT GROWING/GRAZING SEASON D/Q'S, AUXILIARY BUILDING VENT, INTERMITTENT ELEVATED RELEASE (I B)4/19/67-10/18/67 AND 4/19/68-10/18/68D/Q (m-2) at Various Receptor Distances (m)Downwind SectorOrderShoreline Boundary E-09Site BoundaryE-09Nearest Residence E-09Nearest FarmE-09SSEM47.519.647.5SN/A18.12.9818.1SSWN/A22.217.87.84 SWN/A19.810.815.2 WSWN/A21.16.6221.1 WN/A26.78.1026.7 WNWN/A14.66.986.42 NWN/A9.264.046.34 NNW92.614.57.4714.5 N4526.514.57N/A NNE464N/AN/AN/A NE425N/AN/AN/A ENE398N/AN/AN/A E538N/AN/AN/A ESE882N/AN/AN/A SE521N/AN/AN/A FSAR Appendix I Tables and FiguresUFSAR 2010Page 31 of 248 Table I.4-18 POINT BEACH NUCLEAR PLANT ANNUAL AVERAGE D/Q'S, UNIT 1 OR UNIT 2 PURGE VENT, CONTINUOUS GROUND LEVEL RELEASE (IIA), GAS STRIPPER BUILDING VIA UNIT 2 PURGE VENT, CONTINUOUS GROUND LEVEL RELEASE (IIC), AND TURBINE BUILDING ROOF EXHAUSTERS, CONTINUOUS GROUND LEVEL RELEASE (III)DATA PERIOD: 4/19/67-10/18/68D/Q (Sec/M
-2) at Various Receptor Distances (m)Downwind SectorShoreline BoundarySite BoundaryNearest ResidenceNearest Farm8051,7001,9802,4152,8003,2003,6004,0254,8305,6357,24512,07024,14040,23556,33072,425OrderE-09E-09E-09E-09E-09E-09E-09E-09E-09E-09E-09E-10E-10E-10E-10E-10E-11E-11E-11E-12SSE29.324.68.7224.660.212.18.174.943.422.471.861.439.336.563.761.283.351.250.6503.96SN/A47.95.6347.911022.114.99.016.244.503.392.6017.012.06.862.346.122.291.197.24SSWN/A30.421.88.1872.714.69.865.964.132.982.241.7211.37.924.541.554.051.510.7854.78SWN/A14.17.1010.252.410.57.104.292.972.151.621.248.115.713.271.112.921.090.5663.45 WSWN/A10.72.6910.727.25.473.692.231.541.110.8390.6444.212.971.700.5791.510.5670.2941.79WN/A11.32.8911.327.65.553.742.261.571.130.8510.6534.273.011.720.5871.540.5750.2981.82WNWN/A5.432.392.1524.24.863.281.981.370.9910.7460.5733.752.641.510.5141.350.5040.2611.59NWN/A4.952.023.2839.57.935.353.232.241.621.220.9346.114.302.460.8392.200.8220.4262.60NNW44.76.133.036.1347.09.456.373.852.671.931.451.117.285.122.931.002.620.9790.5083.09 N4582.161.38N/A89.718.012.27.355.093.672.772.1213.99.785.601.914.991.870.9695.90NNE1,360N/AN/AN/A13928.018.911.47.905.704.293.2921.515.28.682.967.742.901.509.15NE1,160N/AN/AN/A91.818.512.47.525.213.762.832.1714.210.05.721.955.111.910.9916.04 ENE665N/AN/AN/A52.510.57.114.302.982.151.621.248.125.723.271.122.921.090.5663.45E1,090N/AN/AN/A86.317.411.77.074.903.532.662.0413.49.415.381.844.801.800.9325.68ESE973N/AN/AN/A10721.614.68.806.094.403.312.5416.611.76.702.285.982.241.167.07 SE385N/AN/AN/A79.516.010.86.524.513.262.451.8812.38.664.961.694.431.660.8595.23 FSAR Appendix I Tables and FiguresUFSAR 2010Page 32 of 248 Table I.4-19 POINT BEACH NUCLEAR PLANT GROWING/GRAZING SEASON D/Q'S, UNIT 1 OR UNIT 2 PURGE VENT, CONTINUOUS GROUND LEVEL RELEASE (IIA), GAS STRIPPER BUILDING VIA UNIT 2 PURGE VENT, CONTINUOUS GROUND LEVEL RELEASE (IIC), AND TURBINE BUILDING ROOF EXHAUSTERS, CONTINUOUS GROUND LEVEL RELEASE (III)DATA PERIOD: 4/19/67-10/18/67 AND 4/19/68-10/18/68D/Q (Sec/M
-2) at Various Receptor Distances (m)Downwind SectorShoreline BoundarySite BoundaryNearest ResidenceNearest Farm8051,7001,9802,4152,8003,2003,6004,0254,8305,6357,24512,07024,14040,23556,33072,425OrderE-09E-09E-09E-09E-09E-09E-09E-09E-09E-09E-09E-10E-10E-10E-10E-10E-11E-11E-11E-12SSE17.514.75.2214.736.07.254.892.952.051.481.118.535.583.932.250.7672.010.7510.3892.37SN/A34.14.0134.178.315.710.66.414.443.212.4118.512.18.534.881.664.361.630.8455.15SSWN/A36.626.39.8687.617.611.97.184.973.592.7020.713.69.555.471.864.881.820.9465.76SWN/A18.69.3213.468.813.89.325.643.902.822.1216.310.67.494.291.463.831.430.7434.53 WSWN/A13.13.3113.133.46.724.532.741.901.371.037.915.183.642.090.7111.860.6960.3612.20WN/A13.03.3313.031.86.394.312.601.801.300.9807.524.923.461.980.6761.770.6620.3432.09WNWN/A6.953.062.7531.06.224.202.541.761.270.9557.334.793.371.930.6581.720.6450.3342.04NWN/A6.052.464.0148.29.686.533.952.731.971.4911.47.455.253.001.022.681.000.5203.17NNW56.37.733.827.7359.311.98.044.863.362.431.8314.09.186.463.701.263.301.230.6403.90 N5672.671.71N/A11122.315.09.106.304.553.4226.317.212.16.922.366.182.311.207.30NNE1,740N/AN/AN/A17835.824.114.610.17.285.4942.127.519.411.13.789.903.701.9211.7NE1,330N/AN/AN/A10521.114.28.615.964.303.2424.916.311.56.562.245.852.191.136.91 ENE748N/AN/AN/A59.011.98.004.843.352.421.8214.09.145.433.681.263.281.230.6373.88E794N/AN/AN/A62.612.68.485.133.552.561.9314.89.696.823.901.333.481.300.6764.12ESE612N/AN/AN/A67.513.69.165.533.832.772.0816.010.57.364.211.443.761.410.7294.44 SE240N/AN/AN/A49.79.996.734.072.822.031.5311.87.695.413.101.062.761.030.5363.27 FSAR Appendix I Tables and FiguresUFSAR 2010Page 33 of 248 Table I.4-20 POINT BEACH NUCLEAR PLANT ANNUAL AVERAGE D/Q'S, UNIT 1 OR UNIT 2 CONTAINMENT PURGE VENT, INTERMITTENT RELEASE (IIB)4/19/67-4/18/69D/Q (Sec/M
- 2) at Various Receptor Distances (m)Downwind SectorShoreline BoundarySite BoundaryNearest ResidenceNearest Farm8052,4154,0255,6357,24512,07024,14040,23556,33072,425OrderE-09E-09E-09E-09E-09E-09E-10E-10E-10E-10E-11E-11E-11E-11SSEM50.021.050.049.44.0111.25.203.091.173.611.430.7450.454SN/A47.67.4347.656.24.5913.46.774.602.198.283.301.660.977SSWN/A39.329.112.940.63.339.674.813.181.465.332.111.060.626 SWN/A22.712.817.429.12.366.823.392.251.033.831.530.7730.458WSWN/A23.07.3323.015.21.233.531.751.160.5331.980.7970.4040.241WN/A23.97.1823.914.31.143.281.651.120.5352.060.8340.4250.253WNWN/A11.95.985.3911.80.9512.731.390.9560.4681.830.7390.3740.221NWN/A10.54.817.1521.41.734.992.491.660.7742.901.160.5890.350 NNW83.513.67.5313.630.12.446.963.372.140.9233.241.290.6590.394N5725.583.89N/A72.55.9016.67.704.601.755.452.151.110.677NNE1,128N/AN/AN/A86.17.0320.29.826.312.769.753.861.961.16 NE851N/AN/AN/A39.53.219.384.913.511.807.212.901.460.856ENE700N/AN/AN/A29.82.426.943.422.251.033.781.510.7690.457E1,221N/AN/AN/A55.74.5112.96.273.991.715.982.391.220.730 ESE1,228N/AN/AN/A89.17.1220.29.405.592.116.52.651.400.864SE600N/AN/AN/A66.75.2614.86.904.091.544.862.001.080.671 FSAR Appendix I Tables and FiguresUFSAR 2010Page 34 of 248 Table I.4-21 POINT BEACH NUCLEAR PLANT GROWING/GRAZING SEASON D/Q'S, UNIT 1 OR UNIT 2 CONTAINMENT PURGE VENT, INTERMITTENT ELEVATED RELEASE (IIB)4/19/67-10/18/68 AND 4/19/68-10/18/69D/Q (Sec/M
-2) at Various Receptor Distances (m)Downwind SectorShoreline BoundarySite BoundaryNearest ResidenceNearest Farm8052,4154,0255,6357,24512,07024,14040,23556,33072,425OrderE-09E-09E-09E-09E-09E-09E-10E-10E-10E-10E-11E-11E-11E-11SSEM37.915.937.928.92.336.513.021.810.6912.190.8770.4610.282SN/A33.25.0233.232.42.647.804.122.981.556.242.511.260.736SSWN/A40.430.113.245.73.7510.95.483.701.746.542.601.300.766 SWN/A25.114.019.236.52.968.534.272.871.355.082.041.030.611WSWN/A23.37.2123.316.51.333.801.931.320.6462.511.020.5150.305WN/A24.37.1324.315.21.213.441.751.220.6062.410.9850.5020.299WNWN/A14.26.956.3115.51.253.561.791.230.5952.310.9340.4730.281NWN/A10.14.586.8322.61.825.262.691.880.9353.691.490.7550.447 NNW86.513.67.4313.633.92.747.853.872.541.164.271.710.8710.519N6176.034.27N/A87.77.1119.99.275.572.156.812.701.410.856NNE1,088N/AN/AN/A1048.4724.211.97.773.4912.75.052.5515.2 NE814N/AN/AN/A41.63.369.875.263.872.058.423.411.7110.0ENE754N/AN/AN/A33.42.707.763.832.531.164.271.710.8700.518E986N/AN/AN/A39.13.148.994.382.811.234.401.770.9120.548 ESE940N/AN/AN/A51.54.0611.55.443.311.314.371.800.9580.590SE465N/AN/AN/A39.33.048.614.042.440.9493.171.340.7260.452 FSAR Appendix I Tables and FiguresUFSAR 2010Page 35 of 248 Table I.4-22 POINT BEACH NUCLEAR PLANT PERCENTAGE FREQUENCY DISTRIBUTION OF PASQUILL STABILITY CLASS FORPOINT BEACH, HAVEN, AND MILWAUKEE Notes:1.Stability Class determined by wind range.2.Stability Class determined by Regulatory Guide 1.23 T Classifications.3.Stability Class determined by the STAR Program of the National Weather Service.4.Observations recorded every third hour from 1/1/65 - 12/31/75.VALIDDATAPASQUILL STABILITY CLASS FREQUENCY PERCENTAGELOCATIONDATA HOURSPERIOD A B C D E F GPOINT BEACH (1)14,6474/19/67-4/18/690.871.379.3935.0234.5511.677.13HAVEN (2)7,9686/1/73 -5/31/741.911.502.3534.6337.8314.027.76MILWAUKEE (3)5,848 (4)4/19/67 -4/18/690.172.898.9669.908.816.244.04MILWAUKEE (3)2,920 (4)6/1/73 -5/31/740.001.107.2374.379.675.721.82MILWAUKEE (3)110,968 (4)1/1/56 -12/31/750.082.288.0968.7510.037.133.65 FSAR Appendix I Tables and FiguresUFSAR 2010Page 36 of 248 Table I.4-23 POINT BEACH NUCLEAR PLANT PERCENTAGE FREQUENCY DISTRIBUTION OF WIND DIRECTION FORPOINT BEACH, HAVEN, AND MILWAUKEE Notes:1.Monitored at the Point Beach Nuclear Plant.2.Monitored at the Haven Site, according to Regulatory Guide 1.23 recommendations.3.Observations taken at General Mitchell Field, a first-order National Weather Service Station.4.Observations recorded every third hour from 1/1/65 - 12/31/75.WIND FREQUENCY PERCENTAGE BY QUADRANTVALIDDATAONSHOREOFFSHORECALM ANDLOCATIONDATA HOURSPERIOD NNE - E ESE - SSSW - WWNW - NVARIABLEPOINT BEACH (1)14,6474/19/67-4/18/6916.0617.8433.1732.020.91HAVEN (2)7,9686/1/73 -5/31/7416.9721.9933.3627.180.50MILWAUKEE (3)5,848 (4)4/19/67 -4/18/6917.9321.8435.5122.002.72MILWAUKEE (3)2,920 (4)6/1/73 -5/31/7414.6923.0134.4525.861.99MILWAUKEE (3)110,968 (4)1/1/56 -12/31/7517.5422.1734.2324.121.94 FSAR Appendix I Tables and FiguresUFSAR 2010Page 37 of 248 Table I.4-24 POINT BEACH NUCLEAR PLANT WIND SPEED BY QUADRANT FOR POINT BEACH, HAVEN, AND MILWAUKEE Notes:1.Monitored at the Point Beach Nuclear Plant.2.Monitored at the Haven Site, according to Regulatory Guide 1.23 recommendations.3.Observations taken at General Mitchell Field, a first-order National Weather Service Station.4.Observations recorded every third hour from 1/1/65 - 12/31/75.AVERAGE WIND SPEED BY QUADRANT (MPH)VALIDDATAONSHOREOFFSHORELOCATIONDATA HOURSPERIOD NNE - E ESE - SSSW - WWNW - NPOINT BEACH (1)14,6474/19/67-4/18/6912.311.712.512.8HAVEN (2)7,9686/1/73 -5/31/7410.18.28.410.3MILWAUKEE (3)5,848 (4)4/19/67 -4/18/6910.69.911.112.0MILWAUKEE (3)2,920 (4)6/1/73 -5/31/7412.010.512.012.1MILWAUKEE (3)110,968 (4)1/1/56 -12/31/7512.010.411.812.8 FSAR Appendix I Tables and FiguresUFSAR 2010Page 38 of 248 Table I.4-25 POINT BEACH NUCLEAR PLANT WIND-PRECIPITATION (FREQUENCY PERCENT)
SUMMARY
FOR 1/1/56 - 12/31/75AT MILWAUKEETOTAL OBSERVATIONS = 110,960.PRECIPITATION OCCURING DURING CALM WIND CONDITIONS = 0.086.WINDS BLOWINGPRECIPITATION OCCURING DURING WIND SPEED CLASSIFICATIONS (MPH)FROM 1 - 3 4 12 13 - 18 19 - 24 25TOTALN.024.087.207.393.189.1991.020NNE.030.128.280.441.235.1171.231NE.026.085.169.259.102.075.716 ENE.023.041.133.180.101.035.513E.032.085.147.205.059.047.575ESE.030.091.209.229.056.021.635 SE.036.099.206.223.064.033.661SSE.043.128.268.220.054.011.724S.054.174.308.256.059.011.862 SSW.033.137.257.229.060.019.735SW.030.088.176.191.054.036.575WSW.030.096.169.200.068.041.605 W.038.147.225.264.091.040.805WNW.032.138.221.320.124.030.864NW.028.078.260.296.102.030.793 NNW.028.078.260.296.102.030.793 FSAR Appendix I Tables and FiguresUFSAR 2010Page 39 of 248 Table I.4-26 POINT BEACH NUCLEAR PLANT AVERAGE PRECIPITATION FOR WEATHER STATIONS IN THE VICINITYOF POINT BEACH NUCLEAR PLANTAnnual Average Precipitations:Manitowoc 30.24 inchesKewaunee 27.81 inches Brillion 27.53 inches Green Bay 25.83 inches Two Rivers 28.65 inchesSTATION DISTANCE FROM PERIODOF AVERAGE PRECIPITATION (INCHES)LOCATIONPBNP (MILES)RECORD JAN FEB MARAPRMAY JUN JUL AUGSEPOCTNOVDECManitowoc13 SSW1863 -19601.581.542.092.652.983.493.223.083.242.482.201.69Kewaunee12 N1913 - 19601.441.361.592.513.083.262.942.783.092.042.271.45Brillion27 WSW1924 - 19601.351.401.662.402.903.612.633.113.251.962.061.20Green Bay32 NW1931 - 19601.151.081.342.463.063.362.712.752.921.911.911.18Two Rivers9 SSW1951 -19600.991.291.793.013.122.664.293.042.492.581.971.42 FSAR Appendix I Tables and FiguresUFSAR 2010Page 40 of 248 Table I.4-27 POINT BEACH NUCLEAR PLANT MONTHLY PRECIPITATION TOTALS AND INTENSITY FREQUNCY DISTRIBUTIONS ATGREEN BAY, WISCONSIN APRIL 19, 1967 THROUGH APRIL 18, 1969DATATOTALPRECIPITATIONHOURLY PRECIPITATION INTENSITY FREQUENCYHOURS WITH PERIOD (INCHES)TRACE.01-.09.10-.19.20-.49.50-.991.00 +PRECIPITATION4/19-4/30, 19670.274610000056 5/1-5/31, 19672.4536378000816/1-6/30, 19678.474662124311287/1-7/31, 19671.962311501040 8/1-8/31, 19672.4332227200639/1-9/30, 19670.46212000004110/1-10/31, 19674.7163789200152 11/1-11/30, 19671.668642400013212/1-12/31, 19671.171053720001441/1-1/31, 19680.94151450000196 2/1-2/29, 19680.451263200001583/1-3/31, 19680.9749221100734/1-4/30, 19684.84696112500147 5/1-5/31, 19683.10804473001346/1-6/30, 19686.975168118101397/1-7/31, 19682.001816720043 8/1-8/31, 19682.6629163310529/1-9/30, 19683.31543735009910/1-10/31, 19681.013521300059 11/1-11/30, 19681.019750000014712/1-12/31, 19682.6916510800002731/1-1/31, 19692.60130861000217 2/1-2/28, 19690.0464 40000683/1-3/31, 19691.04844020001264/1-4/18, 19692.06 24 44 3 0 0 0 71Total59.271,6841,01310035612,839Percent of Total Hours9.605.770.5700.1990.0340.00616.18 FSAR Appendix I Tables and FiguresUFSAR 2010Page 41 of 248 Table I.4-28 HAVEN JOINT FREQUENCY DISTRIBUTION ANNUAL
SUMMARY
6/1/73 THROUGH 5/31/74HAVEN SITE WIND - STABILITY
SUMMARY
STABILITY CLASS - A - METER WINDS, PERIOD 6/1/73 TO 5/31/74 NUMBER OF HOURLYOBSERVATIONS Sheet 1 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTAL N1010002NNE001037020 NE004133020ENE0117009E03700010 ESE0360009SE011200013SSE0013004 S0030003SSW0102003SW0044008 WSW00562013W0115108WNW00545216 NW0143109NNW0032005TOTAL1116752192152Number of calm hours 0Number of variable directions0Total number of observations 152 FSAR Appendix I Tables and FiguresUFSAR 2010Page 42 of 248 Table I.4-28 (CONTINUED)HAVEN SITE WIND - STABILITY
SUMMARY
STABILITY CLASS - B - METER WINDS, PERIOD 6/1/73 TO 5/31/74, NUMBER OF HOURLYOBSERVATIONS Sheet 2 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0113207NNE0021306NE0135009 ENE1031106E0200002ESE0601007 SE1121005SSE0050005S0201003 SSW0120003SW01451011WSW01741013 W02841015WNW0007209NW0043007 NNW03440011TOTAL2214540110119 Number of calm hours 0Number of variable directions0 Total number of observations 119 FSAR Appendix I Tables and FiguresUFSAR 2010Page 43 of 248 Table I.4-28 (CONTINUED)HAVEN SITE WIND - STABILITY
SUMMARY
STABILITY CLASS - C - METER WINDS, PERIOD 6/1/73 TO 5/31/74, NUMBER OF HOURLYOBSERVATIONS Sheet 3 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0004105NNE01622011NE03673221 ENE03511010E0162009ESE0531009 SE0540009SSE0023005S1232008 SSW0022004SW00652013WSW12552015 W035112021WNW015126024NW02352012 NNW02450011TOTAL2306567212187 Number of calm hours 0Number of variable directions0 Total number of observations 187 FSAR Appendix I Tables and FiguresUFSAR 2010Page 44 of 248 Table I.4-28 (CONTINUED)HAVEN SITE WIND - STABILITY
SUMMARY
STABILITY CLASS - D - METER WINDS, PERIOD 6/1/73 TO 5/31/74, NUMBER OF HOURLYOBSERVATIONS Sheet 4 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN6284149146144NNE1165751223150NE3334862156167 ENE4363049175141E11284941150144ESE121583480122 SE239753230151SSE030861600132S728582410118 SSW251683140156SW437715660174WSW425555260142 W6218483230217WNW339152108294335NW43810382130240 NNW627998380223TOTAL644971134853184242756 Number of calm hours 2Number of variable directions2 Total number of observations 2760 FSAR Appendix I Tables and FiguresUFSAR 2010Page 45 of 248 Table I.4-28 (CONTINUED)HAVEN SITE WIND - STABILITY
SUMMARY
STABILITY CLASS - E - METER WINDS, PERIOD 6/1/73 TO 5/31/74, NUMBER OF HOURLYOBSERVATIONS Sheet 5 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN1553613711168NNE1052743822178NE6393081084 ENE17482291097E25442261098ESE9492030081 SE1154552500145SSE23801113940257S31124932030271 SSW29117722520245SW251431102950312WSW1667833740207 W1865834862222WNW13701505182294NW859893000186 NNW733833240159TOTAL263109711584374273004 Number of calm hours 1Number of variable directions10 Total number of observations 3015 FSAR Appendix I Tables and FiguresUFSAR 2010Page 46 of 248 Table I.4-28 (CONTINUED)HAVEN SITE WIND - STABILITY
SUMMARY
STABILITY CLASS - F -METER WINDS, PERIOD 6/1/73 TO 5/31/74, NUMBER OF HOURLYOBSERVATIONS Sheet 6 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN821500034NNE91817140058NE315700025 ENE56100012E413300020ESE211100014 SE3322610062SSE15453211094S285519400106 SSW279235300157SW217432000127WSW12572810098 W107037400121WNW9314420086NW5212740057 NNW12131000035TOTAL17357432434101106 Number of calm hours 7Number of variable directions4 Total number of observations 1117 FSAR Appendix I Tables and FiguresUFSAR 2010Page 47 of 248 Table I.4-28 (CONTINUED)HAVEN SITE WIND - STABILITY
SUMMARY
STABILITY CLASS - G - METER WINDS, PERIOD 6/1/73 TO 5/31/74, NUMBER OF HOURLYOBSERVATIONS Sheet 7 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN95300017NNE85400017NE92200013 ENE4400008E4300007ESE3402009 SE8161000034SSE11221700050S1212110026 SSW9261500050SW28382400090WSW32739000114 W22611510099WNW8131200033NW115200018 NNW411400019TOTAL182300118400604 Number of calm hours 5Number of variable directions9 Total number of observations 618 FSAR Appendix I Tables and FiguresUFSAR 2010Page 48 of 248 Table I.4-28 (CONTINUED)HAVEN SITE WIND - STABILITY
SUMMARY
STABILITY CLASS - ALL - METER WINDS, PERIOD 6/1/73 TO 5/31/74, NUMBER OF HOURLYOBSERVATIONS Sheet 8 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN3910811293187377NNE2892170109365440NE219310095228339 ENE31986267205283E44948749160290ESE1599884180251 SE251481845930419SSE491772546250547S792231775240535 SSW672881946360618SW7829325199140735WSW65225192105150602 W56223233156332703WNW33154368184508797NW28126232127160529 NNW2989207126120463TOTAL687253029111487278357928 Number of calm hours 15Number of variable directions25 Total number of observations 7968 FSAR Appendix I Tables and FiguresUFSAR 2010Page 49 of 248 Table I.4-29 MILWAUKEE JOINT FREQUENCY DISTRIBUTION ANNUAL
SUMMARY
6/1/73 THROUGH 5/31/74MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - A - ANNUAL 6/1/73 TO 5/31/74NUMBER OF HOURLY OBSERVATIONSSheet 1 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTAL N0000000NNE0000000 NE0000000ENE0000000E0000000 ESE0000000SE0000000SSE0000000 S0000000SSW0000000SW0000000 WSW0000000W0000000WNW0000000 NW0000000NNW0000000TOTAL0000000Number of calm hours 0Total number of observations 0 FSAR Appendix I Tables and FiguresUFSAR 2010Page 50 of 248 Table I.4-29 (CONTINUED)MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - B - ANNUAL 6/1/73 TO 5/31/74NUMBER OF HOURLY OBSERVATIONSSheet 2 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0100001NNE1110003NE0130004ENE0000000 E1030004ESE0110002SE1110003 SSE0000000S2010003SSW1110003 SW1010002WSW0120003W1110003 WNW0010001NW0210003NNW4000004TOTAL12101700039Number of calm hours 5Total number of observations 44 FSAR Appendix I Tables and FiguresUFSAR 2010Page 51 of 248 Table I.4-29 (CONTINUED)MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - C - ANNUAL 6/1/73 TO 5/31/74NUMBER OF HOURLY OBSERVATIONSSheet 3 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN01810010NNE00910010NE0230005ENE0130004 E03800011ESE00830011SE02630011 SSE0131005S111120015SSW05710013 SW131000014WSW361020021W171940031 WNW121000013NW031210016NNW0150006TOTAL7381321900196Number of calm hours 10Total number of observations 206 FSAR Appendix I Tables and FiguresUFSAR 2010Page 52 of 248 Table I.4-29 (CONTINUED)MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - D - ANNUAL 6/1/73 TO 5/31/74NUMBER OF HOURLY OBSERVATIONSSheet 4 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN2164171216157NNE115373783101NE1533316177ENE0521318166 E08374971102ESE1737445094SE214516960142 SSE21022342171S520676060158SSW08355384108 SW1104797266187WSW21446108284202W3176396190198 WNW2166896201203NW110646850148NNW3333405185TOTAL26178702984180292099Number of calm hours 12Total number of observations 2111 FSAR Appendix I Tables and FiguresUFSAR 2010Page 53 of 248 Table I.4-29 (CONTINUED)MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - E - ANNUAL 6/1/73 TO 5/31/74NUMBER OF HOURLY OBSERVATIONSSheet 5 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN05800013NNE07300010NE0330006ENE0310004 E0240006ESE0200002SE010500015 SSE012700019S0163400050SSW0131900032 SW073400041WSW072500032W083700045 WNW073300040NW031400017NNW0030003TOTAL0105230000335Number of calm hours 0Total number of observations 335 FSAR Appendix I Tables and FiguresUFSAR 2010Page 54 of 248 Table I.4-29 (CONTINUED)MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - F - ANNUAL 6/1/73 TO 5/31/74NUMBER OF HOURLY OBSERVATIONSSheet 6 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN1700008NNE1200003NE0400004ENE0200002 E1400005ESE2300005SE2400006 SSE114000015S133000034SSW1600007 SW110000011WSW012000012W125000026 WNW212000014NW0700007NNW2300005TOTAL161480000164Number of calm hours 10Total number of observations 174 FSAR Appendix I Tables and FiguresUFSAR 2010Page 55 of 248 Table I.4-29 (CONTINUED)MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - G - ANNUAL 6/1/73 TO 5/31/74NUMBER OF HOURLY OBSERVATIONSSheet 7 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN1000001NNE0000000NE1000001ENE0000000 E1000001ESE1000001SE2000002 SSE4000004S4000004SSW4000004 SW2000002WSW5000005W4000004 WNW0000000NW0000000NNW0000000TOTAL290000029Number of calm hours 21Total number of observations 50 FSAR Appendix I Tables and FiguresUFSAR 2010Page 56 of 248 Table I.4-29 (CONTINUED)MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - ALL - ANNUAL 6/1/73 TO 5/31/74NUMBER OF HOURLY OBSERVATIONSSheet 8 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN4305772216190NNE325503883127NE21542316197ENE01125318176 E317524971129ESE413464750115SE731637260179 SSE737323521114S13701136260264SSW633625484167 SW6309297266257WSW104083110284275W1058120100190307 WNW53711296201271NW125916950191NNW97414051103TOTAL9047910811003180292862Number of calm hours 58Total number of observations 2920 FSAR Appendix I Tables and FiguresUFSAR 2010Page 57 of 248 Table I.4-30 MILWAUKEE JOINT FREQUENCY DISTRIBUTION TWO-YEAR
SUMMARY
4/19/67 THROUGH 4/18/69MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - A - ANNUAL 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 1 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTAL N0000000NNE0000000 NE0100001ENE0200002E0100001 ESE0000000SE0000000SSE0000000 S0100001SSW0200002SW0000000 WSW0000000W0100001WNW0000000 NW0000000NNW0000000TOTAL0800008Number of calm hours 2Total number of observations 10 FSAR Appendix I Tables and FiguresUFSAR 2010Page 58 of 248 Table I.4-30 (CONTINUED)MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - B - ANNUAL 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 2 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN2000002NNE18500014NE551000020ENE1210004 E0172200039ESE32800013SE05800013 SSE1430008S2420008SSW45300012 SW0130004WSW0110002W49600019 WNW0120003NW0210003NNW0110002TOTAL236776000166Number of calm hours 3Total number of observations 169 FSAR Appendix I Tables and FiguresUFSAR 2010Page 59 of 248 Table I.4-30 (CONTINUED)MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - C - ANNUAL 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 3 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN1121005NNE1636110054NE022510028ENE011610018 E3112930046ESE132430031SE233170043 SSE811610026S103920024SSW582760046 SW141220019WSW221720023W8123660062 WNW151710024NW451740030NNW521500022TOTAL52693295100501Number of calm hours 23Total number of observations 524 FSAR Appendix I Tables and FiguresUFSAR 2010Page 60 of 248 Table I.4-30 (CONTINUED)MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - D - ANNUAL 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 4 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN5152872177144NNE1342130153407385NE526493620118ENE0921201051 E535596420165ESE51732210075SE533768150200 SSE1768135140131374S339798684219SSW752136193180406 SW23581110157250WSW685564204157W1483163275695609 WNW23162158243280NW32480151160274NNW63988147190299TOTAL9855612741771269384006Number of calm hours 23Total number of observations 4029 FSAR Appendix I Tables and FiguresUFSAR 2010Page 61 of 248 Table I.4-30 (CONTINUED)MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - E - ANNUAL 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 5 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0360009NNE062100027NE0260008ENE0040004 E0450009ESE0110002SE0240006 SSE0171700034S0124300055SSW0195900078 SW073100038WSW062100027W0158200097 WNW084200050NW082800036NNW053000035TOTAL0115400000515Number of calm hours 0Total number of observations 515 FSAR Appendix I Tables and FiguresUFSAR 2010Page 62 of 248 Table I.4-30 (CONTINUED)MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - F - ANNUAL 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 6 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN1600007NNE218000020NE2400006ENE1300004 E1700008ESE0100001SE310000013 SSE728000035S640000046SSW440000044 SW215000017WSW019000019W572000077 WNW120000021NW014000014NNW312000015TOTAL383090000347Number of calm hours 18Total number of observations 365 FSAR Appendix I Tables and FiguresUFSAR 2010Page 63 of 248 Table I.4-30 (CONTINUED)MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - G - ANNUAL 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 7 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN3000003NNE9000009NE1000001ENE1000001 E6000006ESE4000004SE3000003 SSE200000020S230000023SSW240000024 SW140000014WSW120000012W180000018 WNW3000003NW2000002NNW3000003TOTAL14600000146Number of calm hours 90Total number of observations 236 FSAR Appendix I Tables and FiguresUFSAR 2010Page 64 of 248 Table I.4-30 (CONTINUED)MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - ALL - ANNUAL 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 8 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN12253673177170NNE2680192164407509NE1340903720182ENE31742211084 E15751156720274ESE1324652400126SE13531198850278 SSE53118171141131497S44991338884376SSW44126225199180612 SW1962127112157342WSW20369466204240W49192287281695883 WNW765123159243381NW953126155160359NNW1759134147190376TOTAL357112420791822269385689Number of calm hours 159Total number of observations 5848 FSAR Appendix I Tables and FiguresUFSAR 2010Page 65 of 248 Table I.4-31 MILWAUKEE JOINT FREQUENCY DISTRIBUTION TEN YEAR
SUMMARY
1/1/56 THROUGH 12/31/75MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - A - ANNUAL 1/1/56 TO 12/31/75NUMBER OF HOURLY OBSERVATIONSSheet 1 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0100001NNE0300003NE19000010 ENE1500006E211000013ESE2700009 SE1400005SSE0100001S1100002 SSW1500006SW0400004WSW0500005 W1600007WNW1000001NW0100001 NNW0300003TOTAL1166000077 Number of calm hours 7Total number of observations 84 FSAR Appendix I Tables and FiguresUFSAR 2010Page 66 of 248 Table I.4-31 (CONTINUED)MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - B - ANNUAL 1/1/56 TO 12/31/75NUMBER OF HOURLY OBSERVATIONSSheet 2 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN22191300054NNE256192000178NE3875155000268ENE308988000207 E30118186000334ESE1970171000260SE256774000166 SSE33382300094S28362800092SSW296264000155 SW314454000129WSW235057000130W397561000175 WNW253245000102NW36281500079NNW1391200034TOTAL44687311380002457Number of calm hours 71Total number of observations 2528 FSAR Appendix I Tables and FiguresUFSAR 2010Page 67 of 248 Table I.4-31 (CONTINUED)MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - C - ANNUAL 1/1/56 TO 12/31/75NUMBER OF HOURLY OBSERVATIONSSheet 3 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN34421051200193NNE38764419500650NE41774825600656ENE33663252900453 E501144473200643ESE458063510400864SE736246010000695 SSE103591842800374S901082102900437SSW69943654900577 SW73913894900602WSW661164516400697W841354765700752 WNW521143884000594NW53721933100349NNW3746113600202TOTAL94113525664781008738Number of calm hours 238Total number of observations 8976 FSAR Appendix I Tables and FiguresUFSAR 2010Page 68 of 248 Table I.4-31 (CONTINUED)MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - D - ANNUAL 1/1/56 TO 12/31/75NUMBER OF HOURLY OBSERVATIONSSheet 4 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN8235593718467342664220NNE106601162228039804136525NE10347094412613381283244ENE54280665738257782072 E85350733734139742115ESE904409481136211362861SE11450714231899311634317 SSE12559514971381227353860S15868718362008416805185SSW94628202932607812357027 SW87452155727707372765879WSW92481146126257542895702W148723176030798322156757 WNW856581675363211072897446NW72392128623746421164882NNW6430296618595101323833TOTAL1559792121339334058976272575925Number of calm hours 360Total number of observations 76285 FSAR Appendix I Tables and FiguresUFSAR 2010Page 69 of 248 Table I.4-31 (CONTINUED)MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - E - ANNUAL 1/1/56 TO 12/31/75NUMBER OF HOURLY OBSERVATIONSSheet 5 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0129240000369NNE0209326000535NE099149000248ENE05567000122 E06653000119ESE09762000159SE018698000284 SSE0345340000685S05098090001318SSW033511160001451 SW02389380001176WSW02288140001042W02869830001269 WNW020110930001294NW0122548000670NNW082304000386TOTAL03187794000011127Number of calm hours 0Total number of observations 11127 FSAR Appendix I Tables and FiguresUFSAR 2010Page 70 of 248 Table I.4-31 (CONTINUED)MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - F - ANNUAL 1/1/56 TO 12/31/75NUMBER OF HOURLY OBSERVATIONSSheet 6 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN602160000276NNE632520000315NE471360000183ENE3365000098 E55840000139ESE591020000161SE901670000257 SSE1415210000662S1557680000923SSW1167860000902 SW965270000623WSW836000000683W9693100001027 WNW676970000764NW543040000358NNW461610000207TOTAL1261631700007578Number of calm hours 331Total number of observations 7909 FSAR Appendix I Tables and FiguresUFSAR 2010Page 71 of 248 Table I.4-31 (CONTINUED)MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - G - ANNUAL 1/1/56 TO 12/31/75NUMBER OF HOURLY OBSERVATIONSSheet 7 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN11500000115NNE12100000121NE730000073ENE520000052 E850000085ESE840000084SE17200000172 SSE28900000289S38400000384SSW32500000325 SW28500000285WSW29300000293W30400000304 WNW15500000155NW910000091NNW830000083TOTAL2911000002911Number of calm hours 1144Total number of observations 4055 FSAR Appendix I Tables and FiguresUFSAR 2010Page 72 of 248 Table I.4-31 (CONTINUED)MILWAUKEE WIND - STABILITY
SUMMARY
STABILITY CLASS - ALL - ANNUAL 1/1/56 TO 12/31/75NUMBER OF HOURLY OBSERVATIONSSheet 8 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN313762129518587342665228NNE3531202248128989804138327NE303866173013173381284682ENE2035601145767257783010 E3077431419766139743448ESE29979618161240211364398SE47599320551999311635896 SSE691155920441409227355965S816210928832037416808341SSW63419103574330978123510443 SW5721356293828197372768698WSW5571480278326897542898552W67221563280313683221510291 WNW385170232013672110728910356NW306919204224056421166430NNW243603139518655101324748TOTAL712919716360813418689762725108813Number of calm hours 2151Total number of observations 110964 FSAR Appendix I Tables and FiguresUFSAR 2010Page 73 of 248 Table I.4-32 POINT BEACH JOINT FREQUENCY DISTRIBUTION TWO-YEAR
SUMMARY
, 4/19/67 THROUGH 4/18/69POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - A - 150 FT WINDS, PERIOD 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 1 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN3210006NNE3000003NE4000004ENE1200003 E5100006ESE1100002SE6200008 SSE1120004S6000006SSW2231008 SW3400018WSW2412009W94200015 WNW33510012NW44600115NNW2400006TOTAL553420402115Number of calm hours 12Number of variable directions0Total number of observations 127 FSAR Appendix I Tables and FiguresUFSAR 2010Page 74 of 248 Table I.4-32 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - B - 150 FT WINDS, PERIOD 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 2 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN3200005NNE0000000NE4300007ENE5200007 E1400005ESE3100004SE3100004 SSE92300014S23610012SSW52500012 SW13420010WSW2511009W37410015 WNW4131660039NW2121571037NNW1331008TOTAL4863571910188Number of calm hours 12Number of variable directions0Total number of observations 200 FSAR Appendix I Tables and FiguresUFSAR 2010Page 75 of 248 Table I.4-32 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - C - 150 FT WINDS, PERIOD 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 3 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN57551023NNE34011110NE118220023ENE67100014 E139300126ESE97100017SE69300119 SSE59841128S91742123487SSW1142932352 SW8151371246WSW581441133W81631146277 WNW9241001768425418NW8451351584015401NNW61632205180TOTAL112215419406145571354Number of calm hours 23Number of variable directions0Total number of observations 1377 FSAR Appendix I Tables and FiguresUFSAR 2010Page 76 of 248 Table I.4-32 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - D - 150 FT WINDS, PERIOD 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 4 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN123065992111238NNE18334223145135NE1954352060134ENE222614100072 E26361230279ESE30231052171SE28312225103119 SSE154372555028263S228122626514274810SSW105720322914339681 SW19395879219225WSW143171804516257W1746791368560423 WNW116317826510837662NW1348175148206410NNW8601791777620520TOTAL284701144116197433115099Number of calm hours 31Number of variable directions0Total number of observations 5130 FSAR Appendix I Tables and FiguresUFSAR 2010Page 77 of 248 Table I.4-32 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - E - 150 FT WINDS, PERIOD 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 5 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN23812011958757644NNE16641691659295601NE10581091275039393ENE163642423014180 E284232321718169ESE20363519257142SE184347463336223 SSE11437049327212S1753883360197SSW195125436710615812 SW1870169157415460WSW4439673102228W11621081333926379 WNW928603861142NW72138245095NNW1120803260149TOTAL238751159815325853225026Number of calm hours 34Number of variable directions0Total number of observations 5060 FSAR Appendix I Tables and FiguresUFSAR 2010Page 78 of 248 Table I.4-32 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - F - 150 FT WINDS, PERIOD 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 6 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN12441071184827356NNE6184951245153NE314283311392ENE7131598355 E13168102352ESE11151612045SE33228172082 SSE9172691062S9211501046SSW1130833920165 SW9391516140264WSW51542170079W812523130106 WNW51543172082NW81117100046NNW07630016TOTAL119319686426110411701Number of calm hours 8Number of variable directions0Total number of observations 1709 FSAR Appendix I Tables and FiguresUFSAR 2010Page 79 of 248 Table I.4-32 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - G - 150 FT WINDS, PERIOD 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 7 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN2442504651168NNE0617197049NE2131462037ENE210242121 E57930024ESE214300019SE103118320061 SSE472030034S58810022SSW1035481300106 SW6491132600194WSW61636140072W620513600113 WNW61920130058NW01312150040NNW021010013TOTAL882924312021621031Number of calm hours 13Number of variable directions0Total number of observations 1044 FSAR Appendix I Tables and FiguresUFSAR 2010Page 80 of 248 Table I.4-32 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - ALL - 150 FT WINDS, PERIOD 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 8 of 8WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN82208429463162961440NNE46125277259138106951NE531501881886942690ENE599674654018352 E9111564481924361ESE76976525298300SE74149118904540516 SSE541222011208436617S70183385312152781180SSW58191625652253571836 SW6421850833267171207WSW381222611915619687W62167327351133881128 WNW47165422516200631413NW4215439836266221044NNW281123102348721792TOTAL944237546524208160073514514Number of calm hours 133Number of variable directions0Total number of observations 14647 FSAR Appendix I Tables and FiguresUFSAR 2010Page 81 of 248 Table I.4-33 POINT BEACH JOINT FREQUENCY DISTRIBUTION BY MONTH FOR THE PERIOD 4/19/67 THROUGH 4/18/69POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - A - 150 FT WINDS, (JAN) PERIOD 1/1/68 TO 1/31/69NUMBER OF HOURLY OBSERVATIONSSheet 1 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0000000NNE0000000NE0000000ENE0000000 E0000000ESE0000000SE0000000 SSE0000000S1000001SSW1000001 SW0000000WSW0000000W2010003 WNW0010001NW0000000NNW0000000TOTAL4020006Number of calm hours 1Number of variable directions0Total number of observations 7 FSAR Appendix I Tables and FiguresUFSAR 2010Page 82 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - B - 150 FT WINDS, (JAN) PERIOD 1/1/68 TO 1/31/69NUMBER OF HOURLY OBSERVATIONSSheet 2 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0000000NNE0000000NE0000000ENE0000000 E0000000ESE1000001SE0000000 SSE0000000S0000000SSW0000000 SW0000000WSW0000000W0000000 WNW1110003NW0000000NNW0000000TOTAL2110004Number of calm hours 0Number of variable directions0Total number of observations 4 FSAR Appendix I Tables and FiguresUFSAR 2010Page 83 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - C - 150 FT WINDS, (JAN) PERIOD 1/1/68 TO 1/31/69NUMBER OF HOURLY OBSERVATIONSSheet 3 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0000000NNE0000000NE0000000ENE0000000 E0000000ESE0000000SE0000000 SSE0030003S0000000SSW0000101 SW0100001WSW1000001W1010002 WNW2281311137NW16972126NNW0211206TOTAL511222116277Number of calm hours 0Number of variable directions0Total number of observations 77 FSAR Appendix I Tables and FiguresUFSAR 2010Page 84 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - D - 150 FT WINDS, (JAN) PERIOD 1/1/68 TO 1/31/69NUMBER OF HOURLY OBSERVATIONSSheet 4 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN261117027NNE2100148NE0003003ENE0014005 E1012004ESE0023005SE101125120 SSE03710181553S00262710669SSW012118729 SW11430110WSW35862024W058128336 WNW152238268100NW1731327179NNW11210187149TOTAL13461241929947521Number of calm hours 0Number of variable directions0Total number of observations 521 FSAR Appendix I Tables and FiguresUFSAR 2010Page 85 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - E - 150 FT WINDS, (JAN) PERIOD 1/1/68 TO 1/31/69NUMBER OF HOURLY OBSERVATIONSSheet 5 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN2141599655NNE023281530NE11186118ENE0011011123 E1115008ESE1142109SE034581333 SSE02546421S03233011SSW027218139 SW2414165041WSW01871017W3131518131173 WNW01555117NW11243011NNW36550019TOTAL1455921248753425Number of calm hours 0Number of variable directions0Total number of observations 425 FSAR Appendix I Tables and FiguresUFSAR 2010Page 86 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - F - 150 FT WINDS, (JAN) PERIOD 1/1/68 TO 1/31/69NUMBER OF HOURLY OBSERVATIONSSheet 6 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN05331012NNE13151011NE0003115ENE0004408 E1034008ESE0161008SE0031004 SSE2010003S1100002SSW0210003 SW00661013WSW0000000W01363013 WNW01532011NW0210003NNW0000000TOTAL5163336131104Number of calm hours 1Number of variable directions0Total number of observations 105 FSAR Appendix I Tables and FiguresUFSAR 2010Page 87 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - G - 150 FT WINDS, (JAN) PERIOD 1/1/68 TO 1/31/69NUMBER OF HOURLY OBSERVATIONSSheet 7 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN2411109NNE0001001NE0000000ENE0200002 E0030003ESE0010001SE0000000 SSE0000000S0000000SSW0001001 SW0021003WSW0100001W0031004 WNW0111003NW0300003NNW0000000TOTAL2111161031Number of calm hours 0Number of variable directions0Total number of observations 31 FSAR Appendix I Tables and FiguresUFSAR 2010Page 88 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - ALL - 150 FT WINDS, (JAN) PERIOD 1/1/68 TO 1/31/69NUMBER OF HOURLY OBSERVATIONSSheet 8 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN6292024186103NNE3648101950NE111147226ENE0221815138 E318110023ESE221361024SE13818131457 SSE251614241980S24283013683SSW15103317874 SW3626266168WSW4716133043W61931372414131 WNW41143604410172NW3194343122122NNW42016249174TOTAL451402853792161031168Number of calm hours 2Number of variable directions0Total number of observations 1170 FSAR Appendix I Tables and FiguresUFSAR 2010Page 89 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - A - 150 FT WINDS, (FEB) PERIOD 2/1/68 TO 2/28/69NUMBER OF HOURLY OBSERVATIONSSheet 9 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0000000NNE1000001NE0000000ENE0000000 E0000000ESE0000000SE0000000 SSE0000000S1000001SSW0000000 SW0000000WSW1000001W0000000 WNW0000000NW0000000NNW1000001TOTAL4000004Number of calm hours 0Number of variable directions0Total number of observations 4 FSAR Appendix I Tables and FiguresUFSAR 2010Page 90 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - B - 150 FT WINDS, (FEB) PERIOD 2/1/68 TO 2/28/69NUMBER OF HOURLY OBSERVATIONSSheet 10 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0000000NNE0000000NE0100001ENE2100003 E0000000ESE0000000SE0000000 SSE0000000S0000000SSW0000000 SW0000000WSW0000000W0000000 WNW1001002NW0100001NNW0000000TOTAL3301007Number of calm hours 2Number of variable directions0Total number of observations 9 FSAR Appendix I Tables and FiguresUFSAR 2010Page 91 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - C - 150 FT WINDS, (FEB) PERIOD 2/1/68 TO 2/28/69NUMBER OF HOURLY OBSERVATIONSSheet 11 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN1101104NNE0100001NE0000000ENE2010003 E0000000ESE0000000SE0000000 SSE0000000S0000000SSW0000000 SW0000000WSW0000000W2000103 WNW15123320172NW3514187249NNW0133108TOTAL9133055303140Number of calm hours 4Number of variable directions0Total number of observations 144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 92 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - D - 150 FT WINDS, (FEB) PERIOD 2/1/68 TO 2/28/69NUMBER OF HOURLY OBSERVATIONSSheet 12 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN2911151139NNE3102107NE0400004ENE0140005 E0001001ESE1101003SE0211004 SSE1130005S0224008SSW0000000 SW1121106WSW0211307W605136131 WNW4112441314115NW2826191359NNW2938402211122TOTAL22521171396620416Number of calm hours 3Number of variable directions0Total number of observations 419 FSAR Appendix I Tables and FiguresUFSAR 2010Page 93 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - E - 150 FT WINDS, (FEB) PERIOD 2/1/68 TO 2/28/69NUMBER OF HOURLY OBSERVATIONSSheet 13 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN7101433111085NNE343197137NE019152027ENE046100020 E118150025ESE10940014SE2230007 SSE0100001S1120004SSW2000136 SW23364018WSW02530010W279102131 WNW24760019NW33440014NNW021264024TOTAL2645941313115342Number of calm hours 6Number of variable directions0Total number of observations 348 FSAR Appendix I Tables and FiguresUFSAR 2010Page 94 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - F - 150 FT WINDS, (FEB) PERIOD 2/1/68 TO 2/28/69NUMBER OF HOURLY OBSERVATIONSSheet 14 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN346123533NNE2001003NE0022004ENE0022004 E1022005ESE0010001SE0024006 SSE0000000S0000000SSW0020002 SW2140007WSW1210004W32240011 WNW0021003NW1010002NNW0011002TOTAL13928293587Number of calm hours 3Number of variable directions0Total number of observations 90 FSAR Appendix I Tables and FiguresUFSAR 2010Page 95 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - G - 150 FT WINDS, (FEB) PERIOD 2/1/68 TO 2/28/69NUMBER OF HOURLY OBSERVATIONSSheet 15 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN2020004NNE0000000NE0010001ENE0000000 E0000000ESE0000000SE0000000 SSE0000000S0000000SSW2000002 SW24500011WSW1620009W3411009 WNW1112005NW0101002NNW0000000TOTAL11161240043Number of calm hours 4Number of variable directions0Total number of observations 47 FSAR Appendix I Tables and FiguresUFSAR 2010Page 96 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - ALL - 150 FT WINDS, (FEB) PERIOD 2/1/68 TO 2/28/69NUMBER OF HOURLY OBSERVATIONSSheet 16 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN152433611616165NNE963228149NE0612172037ENE4613120035 E2110180031ESE211050018SE24650017 SSE1230006S23440013SSW40201310 SW791475042WSW312943031W161317289285 WNW9214684515216NW918454285127NNW31254502711157TOTAL88138281359130431039Number of calm hours 22Number of variable directions0Total number of observations 1061 FSAR Appendix I Tables and FiguresUFSAR 2010Page 97 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - A - 150 FT WINDS, (MAR) PERIOD 3/1/68 TO 3/31/69NUMBER OF HOURLY OBSERVATIONSSheet 17 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0000000NNE0000000NE0000000ENE0000000 E0100001ESE0000000SE0000000 SSE0000000S0000000SSW1000001 SW0000000WSW0000000W0000000 WNW0100001NW1200003NNW0300003TOTAL2700009Number of calm hours 0Number of variable directions0Total number of observations 9 FSAR Appendix I Tables and FiguresUFSAR 2010Page 98 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - B - 150 FT WINDS, (MAR) PERIOD 3/1/68 TO 3/31/69NUMBER OF HOURLY OBSERVATIONSSheet 18 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0100001NNE0000000NE0000000ENE0000000 E0000000ESE0000000SE0000000 SSE0000000S0010001SSW1000001 SW0010001WSW0000000W0110002 WNW1421008NW0220004NNW0000000TOTAL28710018Number of calm hours 0Number of variable directions0Total number of observations 18 FSAR Appendix I Tables and FiguresUFSAR 2010Page 99 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - C - 150 FT WINDS, (MAR) PERIOD 3/1/68 TO 3/31/69NUMBER OF HOURLY OBSERVATIONSSheet 19 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN1101003NNE0000000NE0000000ENE0100001 E0110013ESE0000000SE1000001 SSE0000000S0000000SSW0020002 SW0120003WSW1021004W0121004 WNW008224034NW0211111025NNW1122017TOTAL4830385287Number of calm hours 0Number of variable directions0Total number of observations 87 FSAR Appendix I Tables and FiguresUFSAR 2010Page 100 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - D - 150 FT WINDS, (MAR) PERIOD 3/1/68 TO 3/31/69NUMBER OF HOURLY OBSERVATIONSSheet 20 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN15651119NNE1142008NE0140005ENE0000000 E0110002ESE0000101SE0110103 SSE0011002S023817232SSW004103118 SW02980019WSW10631011W018112022 WNW066244040NW1312121029NNW15122211152TOTAL52877106425263Number of calm hours 0Number of variable directions0Total number of observations 263 FSAR Appendix I Tables and FiguresUFSAR 2010Page 101 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - E - 150 FT WINDS, (MAR) PERIOD 3/1/68 TO 3/31/69NUMBER OF HOURLY OBSERVATIONSSheet 21 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN3122912121785NNE06101681454NE036125127ENE0110002 E0030003ESE1010103SE0000000 SSE0100001S0210104SSW017137129 SW038124027WSW04361014W1311199043 WNW01660013NW0215008NNW01731012TOTAL540941044933325Number of calm hours 0Number of variable directions0Total number of observations 325 FSAR Appendix I Tables and FiguresUFSAR 2010Page 102 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - F - 150 FT WINDS, (MAR) PERIOD 3/1/68 TO 3/31/69NUMBER OF HOURLY OBSERVATIONSSheet 22 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0313461642NNE1052008NE0011002ENE0000000 E0000000ESE0010001SE0101002 SSE0000000S0000000SSW0011103 SW0043007WSW0241007W0141006 WNW0031004NW0003003NNW0020002TOTAL17381871687Number of calm hours 0Number of variable directions0Total number of observations 87 FSAR Appendix I Tables and FiguresUFSAR 2010Page 103 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - G - 150 FT WINDS, (MAR) PERIOD 3/1/68 TO 3/31/69NUMBER OF HOURLY OBSERVATIONSSheet 23 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0220015NNE0000000NE0000000ENE0000000 E0000000ESE0000000SE0010001 SSE0000000S0000000SSW0000000 SW0010001WSW0101002W01970017 WNW0113005NW0104005NNW0111003TOTAL0715160139Number of calm hours 0Number of variable directions0Total number of observations 39 FSAR Appendix I Tables and FiguresUFSAR 2010Page 104 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - ALL - 150 FT WINDS, (MAR) PERIOD 3/1/68 TO 3/31/69NUMBER OF HOURLY OBSERVATIONSSheet 24 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN52450221935155NNE27192081470NE0411135134ENE0210003 E0350019ESE1020205SE1221107 SSE0111003S045818237SSW21142411254 SW0625234058WSW2715122038W18353911094 WNW113265780105NW21226352077NNW211242812279TOTAL1910526128310357828Number of calm hours 0Number of variable directions0Total number of observations 828 FSAR Appendix I Tables and FiguresUFSAR 2010Page 105 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - A - 150 FT WINDS, (APR) PERIOD 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 25 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0000000NNE0000000NE0000000ENE0100001 E1000001ESE0100001SE0100001 SSE0100001S1000001SSW0010001 SW0000000WSW0000000W1000001 WNW0000000NW0000000NNW0000000TOTAL3410008Number of calm hours 1Number of variable directions0Total number of observations 9 FSAR Appendix I Tables and FiguresUFSAR 2010Page 106 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - B - 150 FT WINDS, (APR) PERIOD 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 26 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0000000NNE0000000NE0000000ENE1000001 E1100002ESE0000000SE0000000 SSE1000001S0000000SSW0010001 SW0000000WSW0100001W0110002 WNW0000000NW0010001NNW1001002TOTAL43310011Number of calm hours 0Number of variable directions0Total number of observations 11 FSAR Appendix I Tables and FiguresUFSAR 2010Page 107 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - C - 150 FT WINDS, (APR) PERIOD 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 27 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN2010003NNE0000000NE1300004ENE0100001 E2400006ESE4300007SE0200013 SSE0111003S1130016SSW0120014 SW1110003WSW0200002W0241007 WNW014106021NW10632012NNW0032005TOTAL122225178387Number of calm hours 0Number of variable directions0Total number of observations 87 FSAR Appendix I Tables and FiguresUFSAR 2010Page 108 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - D - 150 FT WINDS, (APR) PERIOD 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 28 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0017008NNE14510011NE310430020ENE44310012 E26200010ESE55300013SE83401016 SSE26672225S0152023171792SSW012242823188 SW1100327WSW22231111W22418926 WNW012127628NW0104106NNW1040005TOTAL317284906338378Number of calm hours 3Number of variable directions0Total number of observations 381 FSAR Appendix I Tables and FiguresUFSAR 2010Page 109 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - E - 150 FT WINDS, (APR) PERIOD 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 29 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN051064126NNE4321341229103NE010192521167ENE1152009 E16210010ESE114110219SE18532322 SSE26600014S081450027SSW052249320108 SW27743023WSW11441011W039104228 WNW0101002NW0011002NNW0120003TOTAL13661311467048474Number of calm hours 1Number of variable directions0Total number of observations 475 FSAR Appendix I Tables and FiguresUFSAR 2010Page 110 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - F - 150 FT WINDS, (APR) PERIOD 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 30 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN02162011NNE012112016NE12160111ENE0001001 E1110137ESE1010002SE0210003 SSE0421007S0150006SSW151370026 SW131172024WSW0032005W0020002 WNW0010001NW1010002NNW0000000TOTAL621454174124Number of calm hours 0Number of variable directions0Total number of observations 124 FSAR Appendix I Tables and FiguresUFSAR 2010Page 111 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - G - 150 FT WINDS, (APR) PERIOD 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 31 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN1319272052NNE0000000NE0111003ENE0101002 E0000000ESE0110002SE0101002 SSE0000000S0010001SSW12900012 SW10740012WSW0020002W1200003 WNW0110002NW0000000NNW0010001TOTAL41242342094Number of calm hours 0Number of variable directions0Total number of observations 94 FSAR Appendix I Tables and FiguresUFSAR 2010Page 112 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - ALL - 150 FT WINDS, (APR) PERIOD 4/19/67 TO 4/18/69NUMBER OF HOURLY OBSERVATIONSSheet 32 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN310324681100NNE5828461429130NE5262535212105ENE68850027 E818511336ESE11119110244SE9171043447 SSE5181592251S22543281718133SSW2257284552240 SW61226158269WSW361192132W4102012121169 WNW0482313654NW21983023NNW211030016TOTAL73200331329150931176Number of calm hours 5Number of variable directions0Total number of observations 1181 FSAR Appendix I Tables and FiguresUFSAR 2010Page 113 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - A - 150 FT WINDS, (MAY) PERIOD 5/1/67 TO 5/31/68NUMBER OF HOURLY OBSERVATIONSSheet 33 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN1000001NNE0000000NE1000001ENE0100001 E0000000ESE0000000SE0000000 SSE0020002S1000001SSW0010001 SW0000000WSW1000001W1000001 WNW0030003NW0110002NNW0000000TOTAL52700014Number of calm hours 0Number of variable directions0Total number of observations 14 FSAR Appendix I Tables and FiguresUFSAR 2010Page 114 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - B - 150 FT WINDS, (MAY) PERIOD 5/1/67 TO 5/31/68NUMBER OF HOURLY OBSERVATIONSSheet 34 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN1000001NNE0000000NE1200003ENE0100001 E0300003ESE0100001SE0000000 SSE0020002S0001001SSW0000000 SW0001001WSW1000001W0010001 WNW1022005NW0031004NNW0010001TOTAL47950025Number of calm hours 0Number of variable directions0Total number of observations 25 FSAR Appendix I Tables and FiguresUFSAR 2010Page 115 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - C - 150 FT WINDS, (MAY) PERIOD 5/1/67 TO 5/31/68NUMBER OF HOURLY OBSERVATIONSSheet 35 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0010001NNE0100113NE3211007ENE1500006 E3010004ESE2110004SE1220005 SSE2010104S0001225SSW0041117 SW0102104WSW0012104W0005016 WNW027107733NW023143123NNW0211004TOTAL121823371713120Number of calm hours 0Number of variable directions0Total number of observations 120 FSAR Appendix I Tables and FiguresUFSAR 2010Page 116 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - D - 150 FT WINDS, (MAY) PERIOD 5/1/67 TO 5/31/68NUMBER OF HOURLY OBSERVATIONSSheet 36 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN2302007NNE582080041NE4221950050ENE67510019 E511100017ESE57210015SE215671031 SSE13958329S45919241576SSW1251012030 SW01235213WSW01092012W023125325 WNW00786425NW00840012NNW116114023TOTAL36881021056727425Number of calm hours 0Number of variable directions0Total number of observations 425 FSAR Appendix I Tables and FiguresUFSAR 2010Page 117 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - E - 150 FT WINDS, (MAY) PERIOD 5/1/67 TO 5/31/68NUMBER OF HOURLY OBSERVATIONSSheet 37 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN29880027NNE21860411812151NE0172741185108ENE591198143 E46516022ESE05737022SE041297133 SSE021375128S13520011SSW2292611151 SW11851117WSW03251011W03682120 WNW0123006NW0500005NNW1002003TOTAL18881751708423558Number of calm hours 0Number of variable directions0Total number of observations 558 FSAR Appendix I Tables and FiguresUFSAR 2010Page 118 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - F - 150 FT WINDS, (MAY) PERIOD 5/1/67 TO 5/31/68NUMBER OF HOURLY OBSERVATIONSSheet 38 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN1251009NNE02397122NE03145114ENE0110226 E1003004ESE0000101SE0051006 SSE0020002S0210003SSW03751016 SW01460011WSW0030003W01930013 WNW0160007NW0220004NNW0201003TOTAL2204933164124Number of calm hours 0Number of variable directions0Total number of observations 124 FSAR Appendix I Tables and FiguresUFSAR 2010Page 119 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - G - 150 FT WINDS, (MAY) PERIOD 5/1/67 TO 5/31/68NUMBER OF HOURLY OBSERVATIONSSheet 39 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN91212110044NNE0004004NE0301004ENE0100113 E0223007ESE1000001SE0010001 SSE0020002S0010001SSW0152008 SW01970017WSW0013004W0016007 WNW0300003NW0310004NNW0000000TOTAL1026353711110Number of calm hours 0Number of variable directions0Total number of observations 110 FSAR Appendix I Tables and FiguresUFSAR 2010Page 120 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - ALL - 150 FT WINDS, (MAY) PERIOD 5/1/67 TO 5/31/68NUMBER OF HOURLY OBSERVATIONSSheet 40 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN162626220090NNE72983622614221NE9494852236187ENE1225171011479 E1322976057ESE8141048044SE32126178176 SSE35311214469S6101623261798SSW383144252113 SW1523247363WSW247194036W1620347573 WNW172723131182NW01318193154NNW258154034TOTAL87249400387185681376Number of calm hours 0Number of variable directions0Total number of observations 1376 FSAR Appendix I Tables and FiguresUFSAR 2010Page 121 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - A - 150 FT WINDS, (JUN) PERIOD 6/1/67 TO 6/30/68NUMBER OF HOURLY OBSERVATIONSSheet 41 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0000000NNE1000001NE1000001ENE1000001 E1000001ESE0000000SE3000003 SSE0000000S1000001SSW0100001 SW0200002WSW0011002W2010003 WNW0001001NW2100014NNW0000000TOTAL124220121Number of calm hours 0Number of variable directions0Total number of observations 21 FSAR Appendix I Tables and FiguresUFSAR 2010Page 122 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - B - 150 FT WINDS, (JUN) PERIOD 6/1/67 TO 6/30/68NUMBER OF HOURLY OBSERVATIONSSheet 42 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0000000NNE0000000NE1000001ENE1000001 E0000000ESE0000000SE2000002 SSE1110003S1010002SSW1100002 SW0100001WSW1100002W0000000 WNW0151007NW0200002NNW0000000TOTAL87710023Number of calm hours 1Number of variable directions0Total number of observations 24 FSAR Appendix I Tables and FiguresUFSAR 2010Page 123 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - B - 150 FT WINDS, (JUN) PERIOD 6/1/67 TO 6/30/68NUMBER OF HOURLY OBSERVATIONSSheet 43 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN1100002NNE1100002NE3000003ENE2000002 E2110004ESE0100001SE3110005 SSE1410006S35230013SSW14410010 SW0211026WSW1110003W1122006 WNW13742118NW02531011NNW1001002TOTAL212725153394Number of calm hours 2Number of variable directions0Total number of observations 96 FSAR Appendix I Tables and FiguresUFSAR 2010Page 124 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - D - 150 FT WINDS, (JUN) PERIOD 6/1/67 TO 6/30/68NUMBER OF HOURLY OBSERVATIONSSheet 44 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0121004NNE33712016NE43221012 ENE3210006E0300003ESE3500008 SE1220005SSE35610015S51115165153 SSW12032257388SW19980128WSW12344317 W24464222WNW32280015NW0351009 NNW03838123TOTAL307898763111324 Number of calm hours 1Number of variable directions0 Total number of observations 325 FSAR Appendix I Tables and FiguresUFSAR 2010Page 125 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - E - 150 FT WINDS, (JUN) PERIOD 6/1/67 TO 6/30/68NUMBER OF HOURLY OBSERVATIONSSheet 45 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN12440011NNE19301491073NE151351732 ENE25201010E4210007ESE42310010 SE05810014SSE26620016S24730016 SSW2830443188SW2518181044WSW14843020 W1323009WNW2042008NW1120004 NNW10801010TOTAL27611461011918372 Number of calm hours 3Number of variable directions0 Total number of observations 375 FSAR Appendix I Tables and FiguresUFSAR 2010Page 126 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - F - 150 FT WINDS, (JUN) PERIOD 6/1/67 TO 6/30/68NUMBER OF HOURLY OBSERVATIONSSheet 46 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN16640017NNE1417127445NE016123022 ENE0120003E0100001ESE0130004 SE0330006SSE2330008S0010001 SSW13360013SW1417100032WSW0120003 W0111003WNW0100001NW0000000 NNW0000000TOTAL6306445104159 Number of calm hours 0Number of variable directions0 Total number of observations 159 FSAR Appendix I Tables and FiguresUFSAR 2010Page 127 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - G - 150 FT WINDS, (JUN) PERIOD 6/1/67 TO 6/30/68NUMBER OF HOURLY OBSERVATIONSSheet 47 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0520007NNE00566017NE03442013 ENE1000001E0010001ESE0500005 SE2320007SSE0120003S0020002 SSW1022005SW02450011WSW1020003 W0020002WNW0100001NW0000000 NNW0000000TOTAL52028178078 Number of calm hours 0Number of variable directions0 Total number of observations 78 FSAR Appendix I Tables and FiguresUFSAR 2010Page 128 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - ALL - 150 FT WINDS, (JUN) PERIOD 6/1/67 TO 6/30/68NUMBER OF HOURLY OBSERVATIONSSheet 48 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN3151490041NNE71759332414154NE101225237784 ENE108501024E77300017ESE714610028 SE11141610042SSE9201930051S122028225188 SSW7377178104207SW425494213124WSW591797350 W6912124245WNW6818162151NW391241130 NNW231649135TOTAL10922737025771371071 Number of calm hours 7Number of variable directions0 Total number of observations 1078 FSAR Appendix I Tables and FiguresUFSAR 2010Page 129 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - A - 150 FT WINDS, (JUL) PERIOD 7/1/67 TO 7/31/68NUMBER OF HOURLY OBSERVATIONSSheet 49 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0210003NNE0000000NE1000001 ENE0000000E2000002ESE0000000 SE1100002SSE1000001S0000000 SSW0000000SW2100014WSW0200002 W0100001WNW0100001NW0010001 NNW0000000TOTAL78200118 Number of calm hours 2Number of variable directions0 Total number of observations 20 FSAR Appendix I Tables and FiguresUFSAR 2010Page 130 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - B - 150 FT WINDS, (JUL) PERIOD 7/1/67 TO 7/31/68NUMBER OF HOURLY OBSERVATIONSSheet 50 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN1000001NNE0000000NE1000001 ENE0000000E0000000ESE1000001 SE0000000SSE3000003S0030003 SSW0010001SW0010001WSW0010001 W0100001WNW0010001NW0143008 NNW0000000TOTAL621130022 Number of calm hours 3Number of variable directions0 Total number of observations 25 FSAR Appendix I Tables and FiguresUFSAR 2010Page 131 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - C - 150 FT WINDS, (JUL) PERIOD 7/1/67 TO 7/31/68NUMBER OF HOURLY OBSERVATIONSSheet 51 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0010001NNE1100002NE1010002 ENE0000000E0100001ESE0000000 SE0100001SSE0211004S15710014 SSW06600012SW1530009WSW1141007 W0143109WNW001092021NW0115130029 NNW12720012TOTAL626593030124 Number of calm hours 8Number of variable directions0 Total number of observations 132 FSAR Appendix I Tables and FiguresUFSAR 2010Page 132 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - D - 150 FT WINDS, (JUL) PERIOD 7/1/67 TO 7/31/68NUMBER OF HOURLY OBSERVATIONSSheet 52 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN1130106NNE0600006NE28200012 ENE3300006E3310007ESE6100007 SE7200009SSE361200021S51323115259 SSW37404191101SW559121032WSW23941221 W138124230WNW021470124NW20800010 NNW1424120041TOTAL446715399218392 Number of calm hours 8Number of variable directions0 Total number of observations 400 FSAR Appendix I Tables and FiguresUFSAR 2010Page 133 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - E - 150 FT WINDS, (JUL) PERIOD 7/1/67 TO 7/31/68NUMBER OF HOURLY OBSERVATIONSSheet 53 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN28811020NNE3111460034NE411320020 ENE1400005E35200010ESE1500006 SE34210010SSE261020020S215640027 SSW511565930134SW3131980043WSW141180024 W05870020WNW21640013NW0351009 NNW02910012TOTAL3210815910440407 Number of calm hours 5Number of variable directions0 Total number of observations 412 FSAR Appendix I Tables and FiguresUFSAR 2010Page 134 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - F - 150 FT WINDS, (JUL) PERIOD 7/1/67 TO 7/31/68NUMBER OF HOURLY OBSERVATIONSSheet 54 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN341050022NNE15823019NE14911016 ENE43610014E1500006ESE1310005 SE17310012SSE1260009S2220006 SSW061780031SW0727120046WSW02640012 W0043007WNW1321007NW0211004 NNW0101002TOTAL16561024040218 Number of calm hours 1Number of variable directions0 Total number of observations 219 FSAR Appendix I Tables and FiguresUFSAR 2010Page 135 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - G - 150 FT WINDS, (JUL) PERIOD 7/1/67 TO 7/31/68NUMBER OF HOURLY OBSERVATIONSSheet 55 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN1510007NNE03941017NE06700013 ENE14231011E0220004ESE0410005 SE3101110025SSE13700011S3000003 SSW091450028SW042250031WSW0151007 W0251008WNW2501008NW0031004 NNW0100001TOTAL1159892220183 Number of calm hours 2Number of variable directions0 Total number of observations 185 FSAR Appendix I Tables and FiguresUFSAR 2010Page 136 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - ALL - 150 FT WINDS, (JUL) PERIOD 7/1/67 TO 7/31/68NUMBER OF HOURLY OBSERVATIONSSheet 56 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN8202462060NNE52631124078NE10292231065 ENE914841036E916500030ESE913200024 SE15251630059SSE11193630069S1335411652112 SSW839134113121307SW1135813711166WSW41336181274 W11329265276WNW51233222175NW2737190065 NNW21040160068TOTAL1223265752983491364 Number of calm hours 29Number of variable directions0 Total number of observations 1393 FSAR Appendix I Tables and FiguresUFSAR 2010Page 137 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - A - 150 FT WINDS, (AUG) PERIOD 8/1/67 TO 8/31/68NUMBER OF HOURLY OBSERVATIONSSheet 57 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN1000001NNE0000000NE0000000 ENE0000000E0000000ESE0000000 SE1000001SSE0000000S0000000 SSW0001001SW0100001WSW0101002 W1100002WNW1000001NW0000000 NNW0000000TOTAL4302009 Number of calm hours 3Number of variable directions0 Total number of observations 12 FSAR Appendix I Tables and FiguresUFSAR 2010Page 138 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - B - 150 FT WINDS, (AUG) PERIOD 8/1/67 TO 8/31/68NUMBER OF HOURLY OBSERVATIONSSheet 58 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0000000NNE0000000NE0000000 ENE0000000E0000000ESE0000000 SE0100001SSE2100003S0110002 SSW1020003SW1220005WSW0100001 W0011002WNW0220004NW0031004 NNW0210003TOTAL4101220028 Number of calm hours 2Number of variable directions0 Total number of observations 30 FSAR Appendix I Tables and FiguresUFSAR 2010Page 139 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - C - 150 FT WINDS, (AUG) PERIOD 8/1/67 TO 8/31/68NUMBER OF HOURLY OBSERVATIONSSheet 59 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0010001NNE0000000NE1201004 ENE0000000E0100001ESE1200003 SE1100002SSE0101002S131401120 SSW0120003SW0111003WSW0050016 W2240109WNW11981020NW01760014 NNW0013004TOTAL71644203292 Number of calm hours 2Number of variable directions0 Total number of observations 94 FSAR Appendix I Tables and FiguresUFSAR 2010Page 140 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - D - 150 FT WINDS, (AUG) PERIOD 8/1/67 TO 8/31/68NUMBER OF HOURLY OBSERVATIONSSheet 60 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN01661014NNE0320016NE1100002 ENE3400007E74200013ESE6000006 SE4210007SSE071070024S2733211064 SSW2427346073SW375121129WSW05131814353 W04532115WNW14610012NW23770019 NNW031341021TOTAL3159130113266365 Number of calm hours 2Number of variable directions0 Total number of observations 367 FSAR Appendix I Tables and FiguresUFSAR 2010Page 141 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - E - 150 FT WINDS, (AUG) PERIOD 8/1/67 TO 8/31/68NUMBER OF HOURLY OBSERVATIONSSheet 61 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN2534228071NNE2481419552NE162140032 ENE291210024E614700027ESE414000018 SE46500015SSE191180029S71800016 SSW31042340089SW11128141055WSW0317170037 W04750016WNW1220005NW0220105 NNW2241009TOTAL36102208120295500 Number of calm hours 2Number of variable directions0 Total number of observations 502 FSAR Appendix I Tables and FiguresUFSAR 2010Page 142 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - F - 150 FT WINDS, (AUG) PERIOD 8/1/67 TO 8/31/68NUMBER OF HOURLY OBSERVATIONSSheet 62 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN1525258064NNE02651014NE01831013 ENE33310010E2600008ESE54200011 SE17600014SSE2241009S4400008 SSW331750028SW2122560045WSW00840012 W0121004WNW1200003NW1141007 NNW0000000TOTAL255311052100250 Number of calm hours 0Number of variable directions0 Total number of observations 250 FSAR Appendix I Tables and FiguresUFSAR 2010Page 143 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - G - 150 FT WINDS, (AUG) PERIOD 8/1/67 TO 8/31/68NUMBER OF HOURLY OBSERVATIONSSheet 63 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN03741015NNE0322007NE1010002 ENE0000000E1200003ESE1200003 SE3310007SSE3132009S1101003 SSW3121120028SW1152410041WSW13660016 W13470015WNW1421008NW0001001 NNW0040004TOTAL1752652710162 Number of calm hours 3Number of variable directions0 Total number of observations 165 FSAR Appendix I Tables and FiguresUFSAR 2010Page 144 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - ALL - 150 FT WINDS, (AUG) PERIOD 8/1/67 TO 8/31/68NUMBER OF HOURLY OBSERVATIONSSheet 64 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN4147357180166NNE212182120679NE4103081053 ENE8161520041E1627900052ESE1722200041 SE14201300047SSE82128190076S1517562221113 SSW12301017660225SW849853421179WSW1134946144127 W41523173163WNW61521101053NW3723161050 NNW272381041TOTAL12429556933669131406 Number of calm hours 14Number of variable directions0 Total number of observations 1420 FSAR Appendix I Tables and FiguresUFSAR 2010Page 145 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - A - 150 FT WINDS, (SEP) PERIOD 9/1/67 TO 9/30/68NUMBER OF HOURLY OBSERVATIONSSheet 65 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0000000NNE1000001NE0000000 ENE0000000E0000000ESE0000000 SE0000000SSE0000000S1000001 SSW0010001SW0000000WSW0000000 W0100001WNW1100002NW0020002 NNW0100001TOTAL3330009 Number of calm hours 1Number of variable directions0 Total number of observations 10 FSAR Appendix I Tables and FiguresUFSAR 2010Page 146 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - B - 150 FT WINDS, (SEP) PERIOD 9/1/67 TO 9/30/68NUMBER OF HOURLY OBSERVATIONSSheet 66 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0100001NNE0000000NE1000001 ENE1000001E0000000ESE1000001 SE1000001SSE1000001S1200003 SSW1000001SW0001001WSW0001001 W0300003WNW0400004NW1220005 NNW0000000TOTAL812220024 Number of calm hours 2Number of variable directions0 Total number of observations 26 FSAR Appendix I Tables and FiguresUFSAR 2010Page 147 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - C - 150 FT WINDS, (SEP) PERIOD 9/1/67 TO 9/30/68NUMBER OF HOURLY OBSERVATIONSSheet 67 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0201003NNE0000000NE0100001 ENE1000001E4100005ESE2000002 SE0000000SSE0001001S221240020 SSW0021003SW3030006WSW0000000 W0440008WNW028174031NW171840030 NNW05500010TOTAL1324522840121 Number of calm hours 3Number of variable directions0 Total number of observations 124 FSAR Appendix I Tables and FiguresUFSAR 2010Page 148 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - D - 150 FT WINDS, (SEP) PERIOD 9/1/67 TO 9/30/68NUMBER OF HOURLY OBSERVATIONSSheet 68 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN104142021NNE323910027NE25244017 ENE2501008E57400016ESE3320008 SE2301006SSE26976030S3165649111136 SSW04401410169SW103123019WSW339103129 W12086118WNW06940019NW071500022 NNW069101026TOTAL2875165143564471 Number of calm hours 6Number of variable directions0 Total number of observations 477 FSAR Appendix I Tables and FiguresUFSAR 2010Page 149 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - E - 150 FT WINDS, (SEP) PERIOD 9/1/67 TO 9/30/68NUMBER OF HOURLY OBSERVATIONSSheet 69 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0014369261NNE02188322NE1100305 ENE4221009E57010013ESE58200015 SE710121021SSE45131410046S351361028 SSW5733130058SW492153042WSW061540025 W05670018WNW1430008NW0133007 NNW0143008TOTAL3973131103355386 Number of calm hours 9Number of variable directions0 Total number of observations 395 FSAR Appendix I Tables and FiguresUFSAR 2010Page 150 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - F - 150 FT WINDS, (SEP) PERIOD 9/1/67 TO 9/30/68NUMBER OF HOURLY OBSERVATIONSSheet 70 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN244191030NNE0020002NE1100002 ENE0400004E6100007ESE45101011 SE17482022SSE25431015S2510008 SSW55500015SW261940031WSW1143009 W12870018WNW05930017NW1113006 NNW0010001TOTAL2852635050198 Number of calm hours 2Number of variable directions0 Total number of observations 200 FSAR Appendix I Tables and FiguresUFSAR 2010Page 151 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - G - 150 FT WINDS, (SEP) PERIOD 9/1/67 TO 9/30/68NUMBER OF HOURLY OBSERVATIONSSheet 71 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN2300005NNE0000000NE1000001 ENE0200002E4110006ESE0200002 SE110100012SSE0220004S1410006 SSW29200013SW0111630030WSW041020016 W0517110033WNW10630010NW0003003 NNW0000000TOTAL1253562200143 Number of calm hours 2Number of variable directions0 Total number of observations 145 FSAR Appendix I Tables and FiguresUFSAR 2010Page 152 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - ALL - 150 FT WINDS, (SEP) PERIOD 9/1/67 TO 9/30/68NUMBER OF HOURLY OBSERVATIONSSheet 72 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN5102270122121NNE4461718352NE68247027 ENE813220025E2417510047ESE1518501039 SE12306113062SSE918282517097S13348359121202 SSW13258328101160SW1026622560129WSW41438203180 W22235336199WNW32235274091NW31841130075 NNW01319131046TOTAL13129247234810091352 Number of calm hours 25Number of variable directions0 Total number of observations 1377 FSAR Appendix I Tables and FiguresUFSAR 2010Page 153 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - A - 150 FT WINDS, (OCT) PERIOD 10/1/67 TO 10/31/68NUMBER OF HOURLY OBSERVATIONSSheet 73 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0000000NNE0000000NE0000000 ENE0000000E0000000ESE0000000 SE1000001SSE0000000S0000000 SSW0100001SW1000001WSW0000000 W0000000WNW0010001NW1020003 NNW1000001TOTAL4130008 Number of calm hours 0Number of variable directions0 Total number of observations 8 FSAR Appendix I Tables and FiguresUFSAR 2010Page 154 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - B - 150 FT WINDS, (OCT) PERIOD 10/1/67 TO 10/31/68NUMBER OF HOURLY OBSERVATIONSSheet 74 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0000000NNE0000000NE0000000 ENE0000000E0000000ESE0000000 SE0000000SSE1000001S0000000 SSW1010002SW0000000WSW0000000 W2000002WNW0031004NW1002104 NNW0110002TOTAL51531015 Number of calm hours 0Number of variable directions0 Total number of observations 15 FSAR Appendix I Tables and FiguresUFSAR 2010Page 155 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - C - 150 FT WINDS, (OCT) PERIOD 10/1/67 TO 10/31/68NUMBER OF HOURLY OBSERVATIONSSheet 75 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0010001NNE0000000NE0000000 ENE0000000E2000002ESE0000000 SE0000000SSE1000012S1033007 SSW0260008SW2122007WSW1100002 W03821115WNW21162013355NW0616132037 NNW1143009TOTAL10155643165145 Number of calm hours 2Number of variable directions0 Total number of observations 147 FSAR Appendix I Tables and FiguresUFSAR 2010Page 156 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - D - 150 FT WINDS, (OCT) PERIOD 10/1/67 TO 10/31/68NUMBER OF HOURLY OBSERVATIONSSheet 76 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN11542114NNE0100001NE1003105 ENE0003003E1000001ESE1000001 SE1024108SSE123913634S2727664222166 SSW2220404412120SW04674021WSW214147028 W171330201990WNW1835228377NW181580032 NNW01112126041TOTAL155214222214863642 Number of calm hours 1Number of variable directions0 Total number of observations 643 FSAR Appendix I Tables and FiguresUFSAR 2010Page 157 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - E - 150 FT WINDS, (OCT) PERIOD 10/1/67 TO 10/31/68NUMBER OF HOURLY OBSERVATIONSSheet 77 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0317187853NNE111860026NE129144030 ENE1113208E2000103ESE1002216 SE01085216SSE03377020S082381040 SSW012775262131SW0517130035WSW12450012 W0413132234WNW031520020NW101100012 NNW111240018TOTAL9351701785715464 Number of calm hours 2Number of variable directions0 Total number of observations 466 FSAR Appendix I Tables and FiguresUFSAR 2010Page 158 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - F - 150 FT WINDS, (OCT) PERIOD 10/1/67 TO 10/31/68NUMBER OF HOURLY OBSERVATIONSSheet 78 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0014114231NNE0023005NE0201003 ENE0110002E0200002ESE0100001 SE0410005SSE0111003S0220105 SSW101140016SW031220017WSW22620012 W001020012WNW0072009NW1120004 NNW0000000TOTAL419692852127 Number of calm hours 0Number of variable directions0 Total number of observations 127 FSAR Appendix I Tables and FiguresUFSAR 2010Page 159 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - G - 150 FT WINDS, (OCT) PERIOD 10/1/67 TO 10/31/68NUMBER OF HOURLY OBSERVATIONSSheet 79 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN3401008NNE0012003NE0000000 ENE0000000E0000000ESE0000000 SE1300004SSE0011002S0210003 SSW1240007SW151500021WSW0071008 W0250007WNW1250008NW0320005 NNW0000000TOTAL7234150076 Number of calm hours 2Number of variable directions0 Total number of observations 78 FSAR Appendix I Tables and FiguresUFSAR 2010Page 160 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS -ALL- 150 FT WINDS, (OCT) PERIOD 10/1/67 TO 10/31/68NUMBER OF HOURLY OBSERVATIONSSheet 80 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN4837341311107NNE1221110035NE249185038 ENE12262013E5200108ESE2102218 SE383126234SSE3681820762S31956774422221 SSW58691197014285SW418522440102WSW6621227062 W31649472322160WNW4148247216174NW51848233097 NNW31429196071TOTAL54146486479227851477 Number of calm hours 7Number of variable directions0 Total number of observations 1484 FSAR Appendix I Tables and FiguresUFSAR 2010Page 161 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - A - 150 FT WINDS, (NOV) PERIOD 11/1/67 TO 11/30/68NUMBER OF HOURLY OBSERVATIONSSheet 81 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN1000001NNE0000000NE1000001 ENE0000000E0000000ESE0000000 SE0000000SSE0000000S0000000 SSW0000000SW0000000WSW0100001 W2100003WNW0000000NW0000000 NNW0000000TOTAL4200006 Number of calm hours 4Number of variable directions0 Total number of observations 10 FSAR Appendix I Tables and FiguresUFSAR 2010Page 162 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - B - 150 FT WINDS, (NOV) PERIOD 11/1/67 TO 11/30/68NUMBER OF HOURLY OBSERVATIONSSheet 82 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN1000001NNE0000000NE0000000 ENE0000000E0000000ESE0000000 SE0000000SSE0000000S0000000 SSW0000000SW0000000WSW0100001 W1100002WNW0000000NW0300003 NNW0000000TOTAL2500007 Number of calm hours 2Number of variable directions0 Total number of observations 9 FSAR Appendix I Tables and FiguresUFSAR 2010Page 163 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - C - 150 FT WINDS, (NOV) PERIOD 11/1/67 TO 11/30/68NUMBER OF HOURLY OBSERVATIONSSheet 83 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0201003NNE1001002NE2000002 ENE0000000E0000000ESE0000000 SE0000000SSE0110002S0100001 SSW0000000SW1100002WSW0100001 W0110002WNW248195038NW28262713076 NNW2051109TOTAL10194149190138 Number of calm hours 2Number of variable directions0 Total number of observations 140 FSAR Appendix I Tables and FiguresUFSAR 2010Page 164 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - D - 150 FT WINDS, (NOV) PERIOD 11/1/67 TO 11/30/68NUMBER OF HOURLY OBSERVATIONSSheet 84 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0222311157NNE0010001NE2010003 ENE1000001E2100025ESE0110103 SE2030005SSE22670017S131091024 SSW02544116SW455101025WSW04864022 W4991414858WNW1163653156127NW2438235072 NNW11342710174TOTAL22501791845619510 Number of calm hours 7Number of variable directions0 Total number of observations 517 FSAR Appendix I Tables and FiguresUFSAR 2010Page 165 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - E - 150 FT WINDS, (NOV) PERIOD 11/1/67 TO 11/30/68NUMBER OF HOURLY OBSERVATIONSSheet 85 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN092945210104NNE01053211NE10119517 ENE00154313E10127920ESE1021206 SE10352011SSE0123006S12700010 SSW0416210142SW1521319067WSW0101060127 W31013255258WNW15851020NW01640011 NNW031430020TOTAL10511341626323443 Number of calm hours 6Number of variable directions0 Total number of observations 449 FSAR Appendix I Tables and FiguresUFSAR 2010Page 166 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - F - 150 FT WINDS, (NOV) PERIOD 11/1/67 TO 11/30/68NUMBER OF HOURLY OBSERVATIONSSheet 86 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN03142723370NNE0031307NE0000000 ENE0000000E0020002ESE0000000 SE0100001SSE0001001S0220004 SSW0143008SW012021024WSW1530009 W41320010WNW3032008NW1110003 NNW0310004TOTAL9185638273151 Number of calm hours 1Number of variable directions0 Total number of observations 152 FSAR Appendix I Tables and FiguresUFSAR 2010Page 167 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - G - 150 FT WINDS, (NOV) PERIOD 11/1/67 TO 11/30/68NUMBER OF HOURLY OBSERVATIONSSheet 87 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN2122108NNE0000000NE0000000 ENE0000000E0000000ESE0000000 SE0100001SSE0000000S0000000 SSW0001001SW17700015WSW3010004 W0102003WNW0001001NW0020002 NNW0000000TOTAL6101261035 Number of calm hours 0Number of variable directions0 Total number of observations 35 FSAR Appendix I Tables and FiguresUFSAR 2010Page 168 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS -ALL- 150 FT WINDS, (NOV) PERIOD 11/1/67 TO 11/30/68NUMBER OF HOURLY OBSERVATIONSSheet 88 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN41767106464244NNE11476221NE60219523 ENE10154314E313271127ESE1131309 SE32652018SSE249110026S281991039 SSW0725294267SW7195343110133WSW42222124165 W142426431910136WNW7255580216194NW5177354180167 NNW375431111107TOTAL63155422439166451290 Number of calm hours 22Number of variable directions0 Total number of observations 1312 FSAR Appendix I Tables and FiguresUFSAR 2010Page 169 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - A - 150 FT WINDS, (DEC) PERIOD 12/1/67 TO 12/31/68NUMBER OF HOURLY OBSERVATIONSSheet 89 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0000000NNE0000000NE0000000 ENE0000000E1000001ESE1000001 SE0000000SSE0000000S0000000 SSW0000000SW0000000WSW0000000 W0000000WNW1000001NW0000000 NNW0000000TOTAL3000003 Number of calm hours 0Number of variable directions0 Total number of observations 3 FSAR Appendix I Tables and FiguresUFSAR 2010Page 170 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - B - 150 FT WINDS, (DEC) PERIOD 12/1/67 TO 12/31/68NUMBER OF HOURLY OBSERVATIONSSheet 90 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0000000NNE0000000NE0000000 ENE0000000E0000000ESE0000000 SE0000000SSE0000000S0000000 SSW0100001SW0000000WSW0100001 W0000000WNW0100001NW0100001 NNW0000000TOTAL0400004 Number of calm hours 0Number of variable directions0 Total number of observations 4 FSAR Appendix I Tables and FiguresUFSAR 2010Page 171 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - C - 150 FT WINDS, (DEC) PERIOD 12/1/67 TO 12/31/68NUMBER OF HOURLY OBSERVATIONSSheet 91 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN0001001NNE0000000NE0000000 ENE0000000E0000000ESE0000000 SE0200002SSE1000001S0010001 SSW0010012SW0101002WSW0210003 W2110206WNW0331191238NW0553991169 NNW0201104TOTAL31612532124129 Number of calm hours 0Number of variable directions0 Total number of observations 129 FSAR Appendix I Tables and FiguresUFSAR 2010Page 172 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - D - 150 FT WINDS, (DEC) PERIOD 12/1/67 TO 12/31/68NUMBER OF HOURLY OBSERVATIONSSheet 92 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN21435722NNE0300003NE0010001 ENE0000000E0000000ESE0000011 SE0110125SSE0201328S002129831 SSW13412171249SW23432216WSW03823622 W07121461150WNW02154711580NW2410385261 NNW059186543TOTAL734701506863392 Number of calm hours 0Number of variable directions0 Total number of observations 392 FSAR Appendix I Tables and FiguresUFSAR 2010Page 173 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - E - 150 FT WINDS, (DEC) PERIOD 12/1/67 TO 12/31/68NUMBER OF HOURLY OBSERVATIONSSheet 93 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN4419151346NNE0310048NE01000910 ENE00014914E00273921ESE00352414 SE0041281741SSE01124210S0102003 SSW0051215537SW0452510448WSW03943120 W12982729WNW05240011NW1212107 NNW31340011TOTAL92764895784330 Number of calm hours 0Number of variable directions0 Total number of observations 330 FSAR Appendix I Tables and FiguresUFSAR 2010Page 174 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - F - 150 FT WINDS, (DEC) PERIOD 12/1/67 TO 12/31/68NUMBER OF HOURLY OBSERVATIONSSheet 94 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN16610115NNE0100001NE0000000 ENE0000213E0001102ESE0000000 SE0001001SSE0032005S0210003 SSW0220004SW1123007WSW0021003 W0241007WNW02540011NW2132008 NNW0110002TOTAL41829163272 Number of calm hours 0Number of variable directions0 Total number of observations 72 FSAR Appendix I Tables and FiguresUFSAR 2010Page 175 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS - G - 150 FT WINDS, (DEC) PERIOD 12/1/67 TO 12/31/68NUMBER OF HOURLY OBSERVATIONSSheet 95 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN2020004NNE0000000NE0000000 ENE0000000E0000000ESE0000000 SE0010001SSE0030003S0120003 SSW0010001SW0010001WSW0000000 W1040005WNW0031004NW02450011 NNW0040004TOTAL332560037 Number of calm hours 0Number of variable directions0 Total number of observations 37 FSAR Appendix I Tables and FiguresUFSAR 2010Page 176 of 248 Table I.4-33 (CONTINUED)POINT BEACH WIND - STABILITY
SUMMARY
STABILITY CLASS -ALL- 150 FT WINDS, (DEC) PERIOD 12/1/67 TO 12/31/68NUMBER OF HOURLY OBSERVATIONSSheet 96 of 96WIND SPEED (MPH)WINDS FROM1-34-78-1213-1819-2425+TOTALN911316102188NNE07100412NE01100911 ENE000161017E10284924ESE10352516 SE0361391950SSE13757427S046149841 SSW161324321894SW39123212674WSW092076749 W4123023101897WNW11328672017146NW51523861513157 NNW3917237564TOTAL29102200314149173967 Number of calm hours 0Number of variable directions0 Total number of observations 967 FSAR Appendix I Tables and FiguresUFSAR 2010Page 177 of 248 Table I.6-1 POINT BEACH NUCLEAR PLANT NEAREST SITE BOUNDARY (METERS)Note: The nearest shoreline access points for any individual are as follows, measured from the midpoint of a line connecting the containment centers:a) Onsite north - at Unit 2 discharge flume, 170 mb) Onsite south - at Unit 1 discharge flume, 170 mc) Offsite north - at site boundary, 2010 m d) Offsite south - at sire boundary, 1500 mN-Lake:nearest shoreline-300 m;nearest land-4000 m.NNE-Lake:nearest shoreline-200 m;nearest land->50 miles NE-Lake:nearest shoreline-170 m;nearest land->50 milesENE-Lake:nearest shoreline-170 m;nearest land->50 milesE-Lake:nearest shoreline-170 m;nearest land->50 miles ESE-Lake:nearest shoreline-210 m;nearest land->50 milesSE-Lake:nearest shoreline-310 m;nearest land->50 milesSSE-1300 m;nearest shoreline-1220 m S-1270 m-SSW-1290 m-SW-1520 m-WSW-1320 m-W-1300 m-WNW-1630 m-NW-2040 m-NNW-2010 m;nearest shoreline-830 m; FSAR Appendix I Tables and FiguresUFSAR 2010Page 178 of 248 Table I.6-2 POINT BEACH NUCLEAR PLANT DISTANCE TO NEAREST RESIDENCE AND NEAREST VEGETABLE GARDEN IN SEARCH SECTOR (1)Notes:1.It is assumed that every residence (farm or non-farm) has the potential for having a vegetable garden. Distances are scaled from topographic maps and buildings were located by visual automobile survey. Accuracy is estimated to be within 100 meters.2.There are 3 onsite residences leased to plant employees, one in the WNW sector and two in the NNW sector. Onsite residents are assumed to have vegetable gardens but do not have milk or meat producing animals. (These residences were later demolished or abandoned.)SectorDistance (meters)N4840 NNELakeNELakeENELake ELakeESELakeSELake SSE1930S2920SSW1460 SW1980WSW2240W2190 WNW1250 (onsite)
(2); 2240 (offsite)NW2920 NNW1980, (onsite)
(2); 2660 (offsite)
FSAR Appendix I Tables and FiguresUFSAR 2010Page 179 of 248 Table I.6-3 POINT BEACH NUCLEAR PLANT DISTANCE TO NEAREST MILK COW, MEAT ANIMAL AND MILK GOAT IN EACH SECTOR (1)Notes:1.Since the PBNP area land use is predominantly agricultural, the distance to the nearest milk cow, milk goat, and meat animal is assumed to be thedistance to the nearest practicing farm having a dwelling and a barn.However, it is assumed that land surrounding the site, owned by the Licensee and leased to local farmers, is unlikely to be used for pasture.SectorDistance (meters)Nnone NNELakeNELakeENELake ELakeESELakeSELake SSE1300 (site boundary)S1270 (site boundary)SSW2130 SW1720WSW1320 (site boundary)W1300 (site boundary)
WNW2340NW2400NNW2010 (site boundary)
FSAR Appendix I Tables and FiguresUFSAR 2010Page 180 of 248 Table I.6-4 POINT BEACH NUCLEAR PLANT CONTAINMENT PURGE
SUMMARY
(1)1/1/74 TO 2/29/76 Unit 1DateConditionStart TimeDuration3/5/74At Power09573 hrs.4/14/74Shutdown003516 days 5/1/74Shutdown(Continued)17 days1/13/75At Power16153 hrs.1/26/75Shutdown23105 days 2/28/75Shutdown165030 days4/2/75Shutdown18302 days5/21/75At Power11152 hrs.
6/6/75At Power03555 hrs.6/11/75At Power04155 hrs.6/12/75At Power040010 hrs.
6/28/75Shutdown06406 hrs.8/13/75At Power20454 hrs.9/26/75At Power04433 hrs.
9/17/75At Power23157 hrs.9/17/75At Power04273 hrs.11/20/75Shutdown124344 days 1/13/76At Power21353 hrs.2/19/76At Power104022 hrs.2/20/76At Power11507 hrs.
FSAR Appendix I Tables and FiguresUFSAR 2010Page 181 of 248 Table I.6-4 (CONTINUED)POINT BEACH NUCLEAR PLANT CONTAINMENT PURGE
SUMMARY
(1)1/1/74 TO 2/29/76 Note:1. Average purge duration at power (1/1/74 - 3/1/76) = 7 hours8.101852e-5 days <br />0.00194 hours <br />1.157407e-5 weeks <br />2.6635e-6 months <br /> Unit 210/22/74Shutdown093550 days2/21/75Shutdown00456 hrs.4/19/75Shutdown01104 hrs.5/10/75Shutdown03053 hrs.
7/20/75Shutdown021213 hrs.8/13/75Shutdown02574 days2/19/76At Power154522 hrs.
2/27/76Shutdown030723 days FSAR Appendix I Tables and FiguresUFSAR 2010Page 182 of 248 Table I.6-5 POINT BEACH NUCLEAR PLANT GAS DECAY TANK RELEASES (1974-1975)Notes:1.Principally Xe-133 and Kr-85 with minor amounts of Xe-131 and Xe-133m2.There were several start/stops during this period 3.Gas decay tank number Date GDT# (3)StartStopTime(min)Ci ft 3%Kr-85 (1)2/6/74D17361145108928.15354419.9%2/18/74B0900 0007 (2)74310.89362844.4%10/22/74C155922202614.23360798.6%1/26/75B0954141025624.52339325.2%2/8/75C1632045073811.19369638.1%3/29/75B144022154556.19337680.4%
4/18/75D07300815104218205033.28280789.6%5/12/75C115503552403.62300099.7%
5/29/75B133515059014.5020033.9%7/14/75C115021005505.13339364.1%8/11/75D1605143513502.54317896.7%
9/9/75C11021115120.15417397.0%11/5/75C162819001523.432357100.0%192020559585711/18/75B184506557302.79362597.8%
FSAR Appendix I Tables and FiguresUFSAR 2010Page 183 of 248 Table I.7 -1POINT BEACH NUCLEAR PLANT CALCULATED TOTAL ANNUAL GASEOUS RELEASES (Ci/yr)AUXILIARY BUILDING VENT
- UNIT 1 CONTAINMENT PURGE VENTUNIT 2 CONTAINMENT PURGE VENTTURBINE BUILDING ROOF EXHAUSTIsotopeAuxiliary BuildingVentilationGas DecayTank EffluentUnit 1 and Unit 2 Condenser AirEjectorsUnit 1Containment PurgeUnit 1Continuous Containment VentilationUnit 2Containment PurgeUnit 2Continuous Containment VentilationGas Stripper BuildingVentilationTurbineBuildingVentilationTotal Annual ReleasesAr-41---2.5E+01-2.5E+01---5.0E+01Kr-83m7.2E-01-3.2E-015.4E-028.2E-035.4E-028.2E-032.3E-021.23-041.2E+00Kr-85m3.0E+00-1.6E+004.1E-018.4E-024.1E-018.4E-021.1E-015.0E-045.7E+00 Kr-852.6E+007.2E+011.6E+001.7E+012.5E+001.7E+012.5E+002.3E+004.2E-041.2E+02 Kr-872.2E+00-8.0E-011.3E-011.7E-021.3E-011.7E-026.6E-023.4E-043.4E+00 Kr-886.4E+00-3.1E+006.3E-011.1E-016.3E-011.1E-012.2E-011.0E-031.1E+01 Kr-892.0E-01-2.5E-079.8E-046.8E-059.8E-046.8E-054.0E-033.4E-052.1E-01 Xe-131 m1.8E-01-1.1E-017.3E-011.3E-017.3E-011.3E-014.0E-023.0E-052.1E+00Xe-133 m1.4E+00-8.3E-011.6E+003.4E-011.6E+003.4E-011.2E-012.2E-046.2E+00Xe-1335.6E+013.1E+013.4E+011.4E+022.8E+011.4E+022.8E+019.2E+008.8E-034.7E+02 Xe-135 m5.6E-01-2.2E-021.0E-028.4E-041.0E-028.4E-041.2E-028.6E-056.2E-01Xe-1357.2E+00-4.3E+001.7E+004.0E-011.7E+004.0E-013.1E-011.2E-031.6E+01 Xe-1373.8E-01-4.7E-062.1E-031.5E-042.1E-031.5E-047.7E-036.0E-053.9E-01 Xe-1381.8E+00-6.1E-023.3E-022.7E-033.3E-022.7E-033.9E-022.8E-042.0E+00 I-1317.4E-02-4.6E-023.1E-035.7E-043.1E-035.7E-04-3.0E-031.3E-01 I-1331.0E-01-6.4E-024.9E-041.7E-046.9E-041.7E-04-4.2E-031.7E-01 Co-581.2E-03--7.5E-04-7.5E-04---2.7E-03 Co-605.4E-04--3.4E-04-3.4E-04---1.2E-03 FSAR Appendix I Tables and FiguresUFSAR 2010Page 184 of 248 Table I.7-1 (CONTINUED)POINT BEACH NUCLEAR PLANT CALCULATED TOTAL ANNUAL GASEOUS RELEASES (Ci/yr)<*>.Unit 1 and 2 Auxiliary Building Ventilation Releases Include Drumming Area Vent Releases Since Exit Velocities and Locations are Essentially Identical.AUXILIARY BUILDING VENT
- UNIT 1 CONTAINMENT PURGE VENTUNIT 2 CONTAINMENT PURGE VENTTURBINE BUILDING ROOF EXHAUSTIsotopeAuxiliary BuildingVentilationGas DecayTank EffluentUnit 1 and Unit 2 Condenser AirEjectorsUnit 1Containment PurgeUnit 1 Continuous Containment VentilationUnit 2Containment PurgeUnit 2 Continuous Containment VentilationGas Stripper BuildingVentilationTurbineBuildingVentilationTotal Annual ReleasesMn-543.6E-04--2.2E-04-2.2E-04---8.0E-04Fe-591.2E-04--7.5E-05-7.5E-05---2.7E-04 Sr-892.6E-05--1.7E-05-1.7E-05---6.0E-05 Sr-904.0E-06--3.0E-06-3.0E-06---1.0E-05 Cs-1343.6E-04--2.2E-04-2.2E-04---8.0E-04 Cs-1376.0E-04--3.8E-04-3.8E-04---1.4E-03 C-141.6E+01--------1.6E+01 H-37.7E+01
--2.65E+02-2.65E+02---6.1E+02 Total Noble Gases8.3E+011.0E+024.7E+011.9E+023.2E+011.9E+023.2E+011.2E+011.3E-026.9E+02Total Iodines1.7E-01-1.1E-013.8E-037.4E-043.8E-037.4E-04-7.2E-033.0E-01TotalParticulates2.3E-03--2.0E-03-2.0E-03---7.2E-03 FSAR Appendix I Tables and FiguresUFSAR 2010Page 185 of 248 Table I.7-2 POINT BEACH NUCLEAR PLANT TOTAL LIQUID RELEASESPER PALNT - CALCULATED(1)Sheet 1 of 3IsotopeRadioactivity (Ci/gm)AnnualRelease (Ci)H-32.7E-036.1E+02Kr-85 Kr-85m Kr-87 Xe-131m Xe-133 Xe-133m Xe-135 Xe-138 I-1306.6E-123.8E-03 I-1319.4E-105.4E-01 I-1322.0E-101.2E-01 I-1331.3E-097.6E-01 I-1343.5E-112.0E-02 I-1354.9E-102.8E-01 Na-24 Cr-518.7E-125.0E-03 Mn-542.0E-121.1E-03 Fe-558.0E-124.6E-03 Fe-595.9E-123.4E-03 Co-57 Co-588.0E-114.6E-02 Co-608.7E-125.0E-03 Br-837.7E-124.4E-03 Br-841.2E-127.0E-04 Br-852.0E-141.1E-05 Rb-864.2E-132.4E-04 Rb-885.9E-113.4E-02 FSAR Appendix I Tables and FiguresUFSAR 2010Page 186 of 248 Table I.7-2 (CONTINUED)POINT BEACH NUCLEAR PLANT TOTAL LIQUID RELEASESPER PALNT - CALCULATED(1)Sheet 2 of 3IsotopeRadioactivity (Ci/gm)AnnualRelease (Ci)Sr-892.0E-121.1E-03Sr-903.8E-142.2E-05 Sr-915.2E-133.0E-04 Y-903.8E-142.2E-05 Y-91m3.0E-131.7E-04 Y-918.7E-125.0E-03 Y-932.1E-131.2E-04 Zr-953.8E-132.2E-04 Nb-953.8E-132.2E-04 Mo-997.0E-104.0E-01 Tc-99m6.3E-103.6E-01 Ru-1032.0E-131.1E-04 Ru-1063.8E-142.2E-05 Rh-103m2.0E-131.1E-04 Rh-1063.8E-142.2E-05 Cd-109 Ag-110m Sb-124 Sb-125 Te-125m5.9E-143.4E-05 Te-127m9.8E-135.6E-04 Te-1273.1E-121.8E-03 Te-129m5.9E-123.4E-03 Te-1295.9E-123.4E-03 Te-131m1.0E-115.8E-03 Te-1312.0E-121.1E-03 Te-1321.0E-105.8E-02 Cs-1341.1E-106.4E-02 FSAR Appendix I Tables and FiguresUFSAR 2010Page 187 of 248 Table I.7-2 (CONTINUED)POINT BEACH NUCLEAR PLANT TOTAL LIQUID RELEASESPER PALNT - CALCULATED(1)1.Isotope Releases of less than 1.E-10 curies/year are set to 0.0.2.Anticipated operational occurrences 3.00E-01 curies are added to calculated releases and assumed to have the same isotopic distribution for dose calculations.Sheet 3 of 3IsotopeRadioactivity (Ci/gm)AnnualRelease (Ci)Cs-1366.3E-113.6E-02Cs-1379.1E-115.2E-02 Cs-138 Ba-137m8.7E-115.0E-02 Ba-1409.8E-135.6E-04 La-1407.0E-134.0E-04 Ce-1413.8E-132.2E-04 Ce-1431.0E-135.8E-05 Ce-1442.0E-131.1E-04 Pr-1432.0E-131.1E-04 Pr-1442.0E-131.1E-04 Bi-207 Th-232 Np-2395.9E-123.4E-03Total Calculated Release5.0E-092.9E+00 Anticipated Operational Occurrences5.2E-103.0E-01Total (Excluding Tritium)5.5E-093.2E+00 FSAR Appendix I Tables and FiguresUFSAR 2010Page 188 of 248 Table I.7-3 POINT BEACH NUCLEAR PLANT CALCULATED ANNUAL RELEASES BY SOURCE (Ci/yr)Sheet 1 of 3IsotopeSteamGenerator Blowdown, Ea. UnitLab. Drains Per PlantSamplingDrainsPer UnitLaundry and Shower Drains Per PlantContainment Sump Drains Ea. UnitAux. Bldg. Floor DrainsPer PlantMisc. Waste Per PlantTurb. Bldg. Floor Drains, Ea. UnitSecondary Side SamplingPer PlantReactor Coolant Letdown Each UnitReactor Coolant Leakage Each UnitBr-832.2E-034.5E-092.0E-070.02.3E-072.3E-077.8E-080.00.00.00.0Br-843.5E-046.1E-122.5E-100.02.9E-102.9E-101.0E-100.00.00.00.0 Br-855.6E-060.00.00.00.00.00.00.00.00.00.0 I-1301.9E-032.6E-081.2E-060.01.3E-061.3E-064.6E-070.00.01.0E-097.3E-10 I-1312.7E-011.5E-056.2E-043.5E-087.3E-047.2E-042.5E-042.0E-043.0E-052.6E-041.8E-04 I-1325.8E-021.3E-065.8E-050.06.6E-055.5E-052.3E-054.9E-087.5E-096.4E-074.5E-07 I-1333.8E-017.7E-063.5E-040.04.0E-044.0E-041.4E-041.4E-132.6E-142.5E-061.8E-06 I-1349.9E-031.8E-097.7E-080.08.8E-088.8E-083.0E-080.00.00.00.0 I-1351.4E-011.1E-064.7E-040.05.4E-055.4E-051.9E-050.00.05.4E-103.8E-10 Rb-861.2E-045.2E-092.3E-070.02.6E-072.6E-079.1E-083.8E-085.9E-099.9E-081.3E-08 Rb-881.7E-022.5E-121.1E-100.01.3E-101.3E-104.4E-110.00.00.00.0 Cs-1343.2E-021.6E-067.2E-058.7E-078.3E-058.3E-052.9E-053.0E-054.7E-066.4E-058.6E-06 Cs-1361.8E-028.3E-073.5E-050.04.0E-054.0E-051.4E-053.5E-065.4E-071.1E-051.6E-06 Cs-1372.6E-021.2E-065.3E-051.6E-066.1E-056.1E-052.1E-052.5E-053.9E-064.7E-056.5E-06 Cr-512.5E-031.1E-074.8E-060.05.5E-065.5E-061.9E-061.2E-061.8E-075.2E-073.7E-07 Mn-545.6E-041.9E-088.2E-076.8E-089.4E-079.4E-073.2E-075.1E-077.8E-081.5E-071.0E-07 Fe-552.3E-039.4E-084.2E-060.04.8E-064.8E-061.7E-062.3E-063.5E-077.6E-075.3E-07 Fe-591.7E-036.1E-082.6E-060.03.0E-063.0E-061.0E-061.1E-061.7E-073.3E-072.3E-07 Co-582.3E-029.4E-074.1E-052.6E-074.7E-054.7E-051.6E-051.7E-052.6E-065.8E-064.1E-06 Co-602.5E-031.3E-075.3E-066.0E-076.1E-066.1E-062.1E-062.5E-063.8E-079.9E-076.9E-07 Sr-895.7E-042.1E-089.1E-070.01.0E-061.0E-063.6E-073.7E-085.7E-091.2E-078.6E-08 FSAR Appendix I Tables and FiguresUFSAR 2010Page 189 of 248 Table I.7-3 (CONTINUED) POINT BEACH NUCLEAR PLANT CALCULATED ANNUAL RELEASES BY SOURCE (Ci/yr)Sheet 2 of 3IsotopeSteamGenerator Blowdown, Ea. UnitLab. Drains Per PlantSamplingDrainsPer UnitLaundry and Shower Drains Per PlantContainment Sump Drains Ea. UnitAux. Bldg. Floor DrainsPer PlantMisc. Waste Per PlantTurb. Bldg. Floor Drains, Ea. UnitSecondary Side SamplingPer PlantReactor Coolant Letdown Each UnitReactor Coolant Leakage Each UnitSr-901.1E-056.1E-102.6E-080.03.0E-083.0E-081.1E-081.1E-081.7E-094.8E-093.4E-09Sr-911.5E-046.1E-092.6E-070.03.0E-073.0E-071.0E-070.00.05.0E-123.5E-12 Y-901.1E-058.8E-103.8E-080.04.4E-084.4E-081.5E-091.1E-081.7E-095.0E-093.5E-09 Y-91m8.4E-054.0E-091.8E-070.02.0E-072.0E-077.0E-080.00.03.4E-122.4E-12 Y-912.5E-031.2E-075.3E-060.06.1E-066.1E-062.1E-061.8E-062.7E-077.6E-075.3E-07 Y-935.8E-051.3E-095.8E-080.06.6E-086.6E-082.3E-080.00.01.7E-121.2E-12 Zr-951.1E-043.6E-091.6E-079.3E-081.8E-071.8E-076.3E-087.8E-081.2E-082.3E-081.6E-08 Nb-951.1E-043.0E-091.3E-071.3E-071.5E-071.5E-075.5E-089.8E-081.5E-082.4E-081.7E-08 Mo-992.0E-011.9E-058.2E-040.09.4E-049.4E-043.2E-049.8E-081.5E-087.6E-065.3E-06 Tc-99m1.8E-011.8E-057.7E-040.08.8E-048.8E-043.0E-049.8E-081.5E-087.6E-065.3E-06 Ru-1035.7E-052.6E-091.2E-079.3E-091.3E-071.3E-074.6E-083.3E-085.1E-091.4E-089.8E-09 Ru-1061.1E-056.1E-102.6E-081.6E-073.0E-083.0E-081.0E-089.8E-091.5E-094.6E-093.2E-09 Rh-103m5.7E-052.6E-091.2E-078.7E-091.3E-071.3E-074.6E-083.2E-085.0E-091.4E-089.8E-09 Rh-1061.1E-056.1E-102.6E-081.6E-073.0E-083.0E-081.0E-089.8E-091.5E-094.6E-093.2E-09 Te-125m1.7E-051.7E-097.7E-080.08.8E-088.8E-083.0E-081.2E-081.8E-091.0E-087.3E-09 Te-127m2.8E-041.7E-087.2E-070.08.3E-078.3E-072.9E-072.3E-073.5E-081.2E-078.2E-08 Te-1278.7E-042.2E-089.6E-070.01.1E-061.1E-063.8E-072.3E-073.5E-081.1E-077.8E-08 Te-129m1.7E-038.3E-083.7E-060.04.2E-064.2E-061.5E-068.9E-071.4E-074.3E-073.0E-07 Te-1291.7E-035.4E-082.4E-060.02.7E-062.7E-069.3E-075.7E-078.7E-082.7E-071.9E-07 Te-131m2.9E-037.2E-083.1E-060.03.5E-063.5E-061.2E-061.7E-132.6E-146.4E-094.5E-09 Te-1315.6E-041.3E-085.8E-070.06.6E-076.6E-072.3E-073.0E-144.7E-151.2E-098.2E-10 FSAR Appendix I Tables and FiguresUFSAR 2010Page 190 of 248 Table I.7-3 (CONTINUED) POINT BEACH NUCLEAR PLANT CALCULATED ANNUAL RELEASES BY SOURCE (Ci/yr)Sheet 3 of 3IsotopeSteamGenerator Blowdown, Ea. UnitLab. Drains Per PlantSamplingDrainsPer UnitLaundry and Shower Drains Per PlantContainment Sump Drains Ea. UnitAux. Bldg. Floor DrainsPer PlantMisc. Waste Per PlantTurb. Bldg. Floor Drains, Ea. UnitSecondary Side SamplingPer PlantReactor Coolant Letdown Each UnitReactor Coolant Leakage Each UnitTe-1322.9E-021.2E-065.3E-050.06.1E-056.1E-052.1E-054.7E-087.2E-096.4E-074.5E-07Ba-137m2.5E-021.1E-064.8E-051.5E-065.5E-055.5E-051.9E-052.5E-053.8E-064.4E-056.1E-06 Ba-1402.8E-041.2E-085.3E-070.06.1E-076.1E-072.1E-075.4E-088.3E-093.3E-085.7E-08 La-1402.0E-041.1E-084.8E-070.05.4E-075.4E-071.9E-076.2E-089.5E-093.8E-082.7E-08 Ce-1411.1E-044.1E-091.8E-070.02.0E-072.0E-077.0E-085.7E-088.7E-092.0E-081.4E-08 Ce-1432.9E-051.2E-095.3E-080.06.1E-086.1E-082.1E-087.7E-151.2E-151.3E-109.4E-11 Ce-1445.6E-052.0E-098.6E-083.3E-079.9E-089.9E-083.4E-085.1E-087.8E-091.5E-081.0E-08 Pr-1435.7E-053.0E-091.3E-070.01.5E-071.5E-075.1E-081.3E-082.0E-098.7E-096.1E-09 Pr-1445.6E-052.0E-098.6E-083.3E-079.9E-089.9E-083.4E-085.1E-087.8E-091.5E-081.0E-08 Np-2391.7E-034.6E-082.0E-060.02.3E-062.3E-068.0E-072.5E-103.8E-111.5E-081.0E-08Total1.44E+006.99E-053.43E-036.15E-063.45E-033.45E-031.19E-033.13E-044.74E-054.56E-042.24E-04 FSAR Appendix I Tables and FiguresUFSAR 2010Page 191 of 248 Table I.7-4 POINT BEACH NUCLEAR PLANT AIRBORNE RELEASES (1974-1975) (Ci/yr)Sheet 1 of 2Isotope19741975Annual AverageH-34.28E+011.77E+021.10E+02Ar-413.20E+014.16E+022.24E+02 Kr-852.31E+014.48E+013.40E+01 Kr-85m3.74E+022.48E+031.43E+03 Kr-872.51E+021.79E+031.02E+03 Kr-885.42E+023.35E+031.95E+03 Xe-131m4.10E+028.56E-012.05E+02 Xe-1336.04E+031.99E+041.30E+04 Xe-133m1.33E+023.18E+022.26E+02 Xe-1351.30E+031.05E+045.90E+03 Xe-135m3.22E+022.68E+031.50E+03 Xe-1383.21E+022.97E+031.65E+03 I-1315.31E-022.35E-023.83E-02 I-1324.71E-081.52E-017.60E-02 I-1333.84E-021.04E-022.44E-02 I-134MDA8.76E-044.38E-04I-135MDA5.58E-042.79E-04F-186.68E-06MDA3.34E-06Na-243.16E-055.47E-061.85E-05 Mn-54MDA4.66E-052.33E-05Co-57MDA5.50E-072.75E-07Co-583.79E-031.13E-032.46E-03 Co-601.50E-032.81E-032.16E-03 Rb-889.15E-044.95E-032.93E-03 Zr-95MDA1.49E-107.50E-11Nb-953.19E-041.69E-042.44E-04 Mo-99MDA3.28E-031.64E-03Ru-103MDA2.73E-051.37E-05Cd-109MDA1.95E-089.75E-09Cs-134MDA4.08E-052.04E-05 FSAR Appendix I Tables and FiguresUFSAR 2010Page 192 of 248 Table I.7-4 (CONTINUED)POINT BEACH NUCLEAR PLANT AIRBORNE RELEASES (1974-1975) (Ci/yr)Sheet 2 of 2Isotope19741975Annual AverageCs-136MDA7.00E-063.50E-06Cs-1372.32E-041.38E-038.06E-04 Cs-1381.41E-043.55E-021.78E-02 Ce-141MDA1.29E-056.45E-06Ce-144MDA1.11E-045.55E-05
SUMMARY
OF AIRBORNE RELEASES:TritiumNoble GasesIodinesParticulate19744.28E+019.75E+039.15E-026.93E-03 19751.77E+024.43E+041.87E-014.95E-02 Average1.10E+022.70E+041.39E-012.82E-02 FSAR Appendix I Tables and FiguresUFSAR 2010Page 193 of 248 Table I.7-5 POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR JANUARY, 1974Unit 1 - 2 Maintenance Shutdowns; 0.3 Day Total OutageUnit 2 - No ShutdownsSheet 1 of 24IsotopeUnit 1 Air Ej.Unit 2 Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentH-38.14E-011.03E-021.20E-023.70E-01F-18 Ar-417.00E-011.10E-041.30E-03 Kr-855.80E-014.70E-027.00E-03 Kr-85m6.05E+011.25E-011.40E-02Kr-873.72E+012.40E-027.00E-03Kr-888.72E+011.13E-015.70E-02 Xe-131m Xe-1336.15E+024.61E+006.25E+006.60E+01 Xe-133m1.28E+018.30E-021.14E-01 Xe-1352.52E+029.33E-016.46E-01 Xe-135m3.95E+013.00E-031.00E-03 Xe-1385.70E+015.00E-031.00E-03 I-1311.40E-047.35E-10 I-132 I-1334.70E-04 I-134 I-135 Na-246.00E-09Mn-54 Co-57 Co-584.12E-04Co-601.90E-062.20E-084.58E-05 Rb-88 Zr-95 Nb-95 Mo-99 Ru-103 Ru-106 Cd-109 Cs-134 Cs-136 Cs-137 Cs-138 Ce-141 Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 194 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR FEBRUARY, 1974Unit 1 - 0.2 Day Shutdown for MaintenanceUnit 2 - No ShutdownsSheet 2 of 24IsotopeUnit 1 Air Ej.Unit 2 Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentH-37.35E-011.48E-021.06E-023.41E-01F-18 Ar-412.00E+004.80E-05 Kr-851.13E+016.10E-02 Kr-85m6.80E+011.31E-017.60E-04Kr-874.20E+012.60E-021.20E-04Kr-889.40E+011.14E-011.20E-03 Xe-131m1.37E+021.11E+007.70E-03 Xe-1338.21E+026.19E+006.40E-022.35E-01 Xe-133m1.40E+011.05E-011.40E-03 Xe-1352.82E+029.97E-018.20E-03 Xe-135m4.80E+019.00E-031.60E-05 Xe-1386.30E+019.00E-031.60E-05 I-1312.90E-04 I-132 I-1334.58E-03 I-134 I-135 Na-246.00E-06Mn-54 Co-57 Co-582.34E-04Co-605.61E-062.60E-05 Rb-88 Zr-95 Nb-95 Mo-99 Ru-103 Ru-106 Cd-109 Cs-134 Cs-136 Cs-137 Cs-138 Ce-141 Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 195 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR MARCH, 1974Unit 1 - No ShutdownsUnit 2 - No ShutdownsSheet 3 of 24IsotopeUnit 1 Air Ej.Unit 2 Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentH-31.65E+005.09E-021.31E-024.32E+001.21E-01F-18 Ar-411.21E+003.60E-034.80E-05 Kr-855.10E-011.20E-014.63E-04 Kr-85m4.55E+012.76E-018.68E-04 Kr-873.06E+015.55E-021.54E-04 Kr-886.60E+012.55E-017.17E-04 Xe-131m1.00E+022.59E+008.75E-03 Xe-1334.61E+021.05E+017.39E-02 Xe-133m8.40E+001.81E-011.25E-03 Xe-1352.13E+022.33E+001.03E-02 Xe-135m4.18E+019.80E-032.10E-05 Xe-1384.41E+011.84E-012.10E-05 I-1318.03E-041.82E-09 I-132 I-1333.56E-03 I-134 I-135 Na-248.00E-09Mn-54 Co-57 Co-588.51E-05Co-609.46E-06Rb-887.01E-049.88E-06 Zr-95 Nb-95 Mo-99 Ru-103 Ru-106 Cd-109 Cs-134 Cs-136 Cs-137 Cs-1381.05E-044.30E-06 Ce-141 Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 196 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR APRIL, 1974Unit 1 - Commence First 24 Days of Refueling OutageUnit 2 - No ShutdownsSheet 4 of 24IsotopeUnit 1 Air Ej.Unit 2 Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentH-31.65E+005.23E+001.50E-024.32E+002.11E-01F-18 Ar-416.20E-014.00E-041.00E-03 Kr-853.10E-011.40E-02 Kr-85m2.09E+012.30E-024.90E-02 Kr-871.60E+014.00E-036.00E-03 Kr-883.14E+012.10E-024.90E-02 Xe-131m4.86E+014.48E+014.47E-01 Xe-1333.38E+024.27E+024.75E+003.35E-01 Xe-133m6.20E+001.04E+017.20E-02 Xe-1351.13E+021.72E+006.51E-01 Xe-135m2.15E+011.00E-032.00E-03 Xe-1381.85E+012.00E-036.00E-03 I-1313.3E-021.50E-053.46E-091.59E-04 I-132 I-1335.56E-04 I-134 I-135 Na-249.70E-09Mn-54 Co-57 Co-581.58E-061.80E-03 Co-601.78E-071.20E-04 Rb-881.98E-04 Zr-95 Nb-95 Mo-99 Ru-103 Ru-106 Cd-109 Cs-134 Cs-136 Cs-137 Cs-1383.20E-05 Ce-141 Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 197 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR MAY, 1974Unit 1 - 26 Days of Refueling Outage; 5 Days Turbine Repair OutageUnit 2 - No ShutdownsSheet 5 of 24IsotopeUnit 1 Air Ej.Unit 2 Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentH-35.92E-013.13E+001.64E-022.34E+002.14E-01F-181.91E-09Ar-413.30E-011.00E-04 Kr-854.20E-014.40E-03 Kr-85m3.22E+008.00E-04 Kr-871.90E+001.00E-04 Kr-883.92E+006.00E-04 Xe-131m1.80E+011.16E-02 Xe-1337.62E+013.16E+017.80E-02 Xe-133m1.25E+001.20E-03 Xe-1351.67E+018.00E-03 Xe-135m2.67E+001.00E-04 Xe-1381.39E+001.00E-04 I-1316.17E-044.39E-061.34E-105.95E-04 I-132 I-133 I-134 I-135 Na-246.53E-09Mn-54 Co-57 Co-582.50E-061.04E-04 Co-602.70E-076.80E-05 Rb-881.98E-04 Zr-95 Nb-95 Mo-99 Ru-103 Ru-106 Cd-109 Cs-134 Cs-136 Cs-1372.32E-04 Cs-138 Ce-141 Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 198 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR JUNE, 1974Unit 1 - 7 Days Outage for Turbine Repair; 0.4 Day Outage for Turbine BalancingUnit 2 - No ShutdownsSheet 6 of 24IsotopeUnit 1 Air Ej.Unit 2 Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentH-32.71E+003.00E-032.30E-021.10E-012.35E-01F-181.39E-08Ar-414.21E+006.00E-03 Kr-851.10E-011.33E-02 Kr-85m1.51E+014.52E-027.00E-04 Kr-876.67E+005.30E-031.00E-04 Kr-881.90E+013.73E-026.00E-04 Xe-131m4.32E+013.51E-015.11E-02 Xe-1331.64E+021.77E+007.78E-02 Xe-133m4.21E+004.52E-021.40E-03 Xe-1357.09E+013.81E-017.30E-03 Xe-135m1.90E+013.00E-031.00E-04 Xe-1384.91E+001.00E-03 I-1312.24E-031.90E-089.50E-111.41E-04 I-132 I-1331.96E-02 I-134 I-135 Na-244.76E-08Mn-54 Co-57 Co-588.26E-047.10E-06 Co-601.71E-037.70E-069.90E-05 Rb-88 Zr-95 Nb-95 Mo-99 Ru-103 Ru-106 Cd-109 Cs-134 Cs-136 Cs-137 Cs-138 Ce-141 Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 199 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR JULY, 1974Unit 1 - No ShutdownsUnit 2 - 3.7 Day Outage for MaintenanceSheet 7 of 24IsotopeUnit 1 Air Ej.Unit 2 Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentH-31.99E+004.83E-031.93E-026.10E-029.40E-02F-181.76E-08Ar-411.70E+001.09E-014.00E-05 Kr-851.10E-016.80E-031.00E-04 Kr-85m9.09E+001.38E-011.10E-03 Kr-877.67E+002.73E-023.00E-04 Kr-881.08E+011.09E-019.00E-04 Xe-131m1.51E+019.84E-012.70E-03 Xe-1331.76E+021.11E+019.08E-021.89E-01 Xe-133m3.12E+001.78E-011.50E-03 Xe-1354.86E+011.34E+001.19E-02 Xe-135m7.67E+006.80E-036.00E-05 Xe-1384.26E+004.00E-034.00E-05 I-1316.22E-044.16E-091.21E-106.39E-05 I-132 I-1331.92E-03 I-134 I-135 Na-246.03E-08Mn-54 Co-57 Co-586.80E-046.24E-09 Co-606.80E-04 Rb-88 Zr-95 Nb-952.99E-04 Mo-99 Ru-103 Ru-106 Cd-109 Cs-134 Cs-136 Cs-137 Cs-138 Ce-141 Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 200 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR AUGUST, 1974Unit 1 - 0.7 Day Outage for Testing & MaintenanceUnit 2 - No ShutdownsSheet 8 of 24IsotopeUnit 1 Air Ej.Unit 2 Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentH-33.44E-015.46E-016.04E-031.25E-028.67E-021.36E-01F-185.68E-06Ar-411.66E-033.90E-015.20E-031.00E-04 Kr-85 Kr-85m1.82E-014.26E+001.87E-011.20E-03 Kr-871.77E-014.13E+005.37E-023.00E-04 Kr-882.43E-015.68E+001.61E-018.00E-04 Xe-131m Xe-1333.62E+008.46E+011.49E+011.48E-011.73E+00 Xe-133m6.08E-021.42E+002.30E-013.60E-03 Xe-1359.57E-012.23E+011.79E+001.47E-02 Xe-135m1.66E-013.88E+001.04E-021.00E-04 Xe-1381.11E-012.58E+006.90E-031.00E-04 I-1312.32E-047.73E-071.14E-082.80E-04 I-132 I-1338.84E-051.12E-04 I-134 I-135 Na-241.95E-05Mn-54 Co-57 Co-583.93E-054.45E-07 Co-603.93E-051.56E-04 Rb-88 Zr-95 Nb-951.73E-05 Mo-99 Ru-103 Ru-106 Cd-109 Cs-134 Cs-136 Cs-137 Cs-138 Ce-141 Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 201 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR SEPTEMBER, 1974Unit 1 - No ShutdownsUnit 2 - No ShutdownsSheet 9 of 24IsotopeUnit 1 Air Ej.Unit 2 Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentH-34.04E-015.28E-038.39E-023.66E-01F-189.58E-07Ar-415.50E-011.30E-031.00E-04 Kr-85 Kr-85m5.82E+003.43E-028.00E-04 Kr-873.64E+006.30E-032.00E-04 Kr-887.64E+002.86E-028.00E-04 Xe-131m Xe-1331.16E+022.77E+007.64E-02 Xe-133m4.36E+009.79E-021.20E-03 Xe-1353.64E+013.93E-018.50E-03 Xe-135m5.09E+001.70E-033.00E-05 Xe-1382.91E+001.00E-033.00E-05 I-1316.80E-054.20E-081.29E-094.91E-03 I-132 I-1335.45E-094.14E-10 I-134 I-135 Na-245.91E-06Mn-54 Co-57 Co-586.99E-061.48E-08 Co-606.99E-061.56E-05 Rb-885.38E-06Zr-95 Nb-953.07E-06 Mo-99 Ru-103 Ru-106 Cd-109 Cs-134 Cs-136 Cs-137 Cs-138 Ce-141 Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 202 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR OCTOBER, 1974Unit 1 - 2 Day Outage for Testing & MaintenanceUnit 2 - Refueling & Maintenance Outage; 15 DaysSheet 10 of 24IsotopeUnit 1 Air Ej.Unit 2 Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentH-35.06E-015.31E-031.64E-098.00E-02F-18 Ar-413.20E-031.53E+003.20E-033.70E-02 Kr-854.60E-042.18E-014.20E-03 Kr-85m2.90E-021.38E+016.48E-021.85E-01 Kr-871.86E-028.87E+001.21E-024.93E-02 Kr-883.90E-021.86E+015.59E-021.63E-01 Xe-131m Xe-1335.00E-012.36E+024.53E+002.01E+014.79E-02 Xe-133m7.87E-033.74E+006.48E-024.28E-01 Xe-1351.28E-016.10E+015.29E-011.93E+00 Xe-135m2.30E-021.09E+013.20E-039.21E-03 Xe-1381.80E-028.54E+002.60E-037.66E-03 I-1314.72E-032.16E-085.48E-071.58E-06 I-1323.83E-09I-1331.50E-032.72E-06 I-134 I-135 Na-24 Mn-54 Co-57 Co-583.19E-08 Co-605.94E-06Rb-881.98E-04 Zr-95 Nb-95 Mo-99 Ru-103 Ru-106 Cd-109 Cs-134 Cs-136 Cs-137 Cs-138 Ce-141 Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 203 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR NOVEMBER, 1974Unit 1 - 2.0 Day Outage for Chemistry Adjustment in Steam GeneratorUnit 2 - Refueling & Maintenance Outage; Entire MonthSheet 11 of 24IsotopeUnit 1 Air Ej.Unit 2 Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentH-32.44E-014.91E+005.21E-031.64E-091.97E+00F-18 Ar-412.90E-022.40E+008.90E-047.40E-02 Kr-85 Kr-85m3.74E-013.13E+012.83E-023.70E-01 Kr-872.93E-012.46E+016.50E-039.90E-02 Kr-884.87E-014.08E+012.37E-023.26E-01 Xe-131m Xe-1335.86E+004.91E+021.82E+004.02E+014.02E-01 Xe-133m3.82E-013.20E+011.08E-019.64E-01 Xe-1351.78E+001.49E+022.48E-013.86E+00 Xe-135m2.60E-012.18E+011.00E-031.80E-02 Xe-1382.20E-011.84E+011.00E-031.50E-02 I-1312.47E-041.07E-073.05E-05 I-1324.33E-08I-1331.94E-04 I-134 I-135 Na-24 Mn-54 Co-57 Co-581.50E-041.95E-088.56E-081.51E-05 Co-601.24E-07Rb-88 Zr-95 Nb-95 Mo-99 Ru-103 Ru-106 Cd-109 Cs-134 Cs-136 Cs-137 Cs-138 Ce-141 Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 204 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR DECEMBER, 1974Unit 1 - No ShutdownsUnit 2 - 21 Day Outage for Refueling & Maintenance; 2 Shutdowns for Testing & Turbine Balancing (0.3 Day Additional Outage)Sheet 12 of 24IsotopeUnit 1 Air Ej.Unit 2 Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentH-37.70E-015.31E-035.31E-049.77E-01F-18 Ar-413.90E-021.60E+011.50E-037.39E-02 Kr-857.24E-033.00E+003.89E-036.85E-02 Kr-85m2.34E-019.41E+015.16E-021.99E-01Kr-871.6E-016.55E+011.04E-024.97E-01Kr-883.84E-011.54E+025.41E-021.83E-01 Xe-131m Xe-1334.45E+001.79E+034.07E+002.05E+016.02E-01 Xe-133m6.08E-022.70E+015.50E-025.20E-01 Xe-1351.41E+005.68E+025.74E-012.07E+002.41E+00 Xe-135m2.46E-019.90E+013.26E-031.00E-02 Xe-1382.36E-019.50E+013.51E-038.57E-03 I-1311.82E-031.92E-073.90E-061.82E-03 I-132 I-1335.73E-031.01E-082.29E-063.20E-06 I-134 I-135 Na-24 Mn-54 Co-57 Co-581.27E-041.36E-063.36E-069.01E-05 Co-604.46E-068.32E-05Rb-88 Zr-95 Nb-95 Mo-99 Ru-103 Ru-106 Cd-109 Cs-134 Cs-136 Cs-137 Cs-138 Ce-141 Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 205 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR JANUARY, 1975Unit 1 - 18 Day Outage for Sludge Lancing & MaintenanceUnit 2 - No ShutdownsSheet 13 of 24IsotopeUnit 1 Air Ej.Unit 2 Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentH-31.37E-012.84E-032.14E-01F-18 Ar-419.25E-034.24E+019.16E-033.04E-02 Kr-858.93E-044.09E+005.19E-033.26E-02 Kr-85m4.73E-022.17E+025.13E-012.10E-02 Kr-873.82E-021.75E+021.29E-013.73E-03 Kr-887.45E-023.41E+025.50E-011.97E-02 Xe-131m Xe-1335.72E-012.62E+033.83E+012.06E+00 Xe-133m9.14E-034.19E+015.92E-035.11E-04 Xe-1352.73E-011.25E+035.75E+002.43E-01 Xe-135m5.21E-022.39E+022.25E+005.76E-02 Xe-1385.40E-022.47E+024.18E-021.21E-03 I-1316.91E-038.81E-062.16E-071.84E-04 I-1324.61E-051.80E-08 I-1331.56E-036.66E-091.65E-07 I-1343.57E-08I-1356.12E-08Na-24 Mn-541.66E-05Co-57 Co-581.70E-044.25E-071.66E-082.56E-06 Co-606.74E-073.12E-087.12E-06 Rb-88 Zr-95 Nb-953.30E-06Mo-99 Ru-1035.86E-06Ru-106 Cd-109 Cs-134 Cs-136 Cs-137 Cs-138 Ce-141 Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 206 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR FEBRUARY, 1975Unit 1 - 5 Day Shutdown for Steam Generator Tube Repair & CRD MaintenanceUnit 2 - 2 Shutdowns for Maintenance & Valve Lineup (Total 3.4 Day Outage)Sheet 14 of 24IsotopeUnit 1 Air Ej.Unit 2 Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentH-38.33E-031.06E-01F-18 Ar-412.04E-016.30E+013.70E-031.12E-01 Kr-85 Kr-85m1.16E+003.56E+029.03E-029.86E-02 Kr-877.64E-012.36E+022.18E-029.66E-02 Kr-881.53E+004.56E+026.68E-028.07E-02 Xe-131m Xe-1339.74E+003.01E+032.58E+001.29E+012.67E+01 Xe-133m1.80E-015.55E+016.60E-045.20E-03 Xe-1354.87E+001.50E+036.08E-018.04E-01 Xe-135m1.80E+003.33E+022.83E-013.01E-01 Xe-1381.53E+004.71E+027.27E-035.13E-03 I-1313.62E-033.58E-071.30E-051.47E-04 I-1322.47E-054.10E-06 I-1331.41E-032.59E-071.05E-05 I-1341.30E-10I-1351.19E-05Na-245.47E-06Mn-54 Co-57 Co-582.31E-089.02E-074.15E-06 Co-601.21E-061.15E-05Rb-88 Zr-95 Nb-955.35E-06Mo-991.75E-06Ru-1039.50E-06Ru-106 Cd-109 Cs-1341.30E-10Cs-136 Cs-1371.16E-06Cs-138 Ce-141 Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 207 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR MARCH, 1975Unit 1 - Outage for Steam Generator Tube Repair & Maintenance Continued ThroughEntire MonthUnit 2 - No ShutdownsSheet 15 of 24IsotopeUnit 1 Air Ej.Unit 2 Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentH-32.34E-017.62E-03F-18 Ar-414.93E+011.42E-02 Kr-85 Kr-85m2.18E+012.03E-02 Kr-871.16E+013.15E-03Kr-882.70E+011.62E-02Xe-131m Xe-1337.97E+022.39E+005.46E+01 Xe-133m7.68E+004.25E-04 Xe-1351.25E+021.91E-01 Xe-135m1.47E+025.10E-01 Xe-1381.71E+011.07E-03 I-1314.81E-031.51E-081.69E-03 I-1321.50E-01 I-1332.53E-041.18E-09 I-134 I-135 Na-24 Mn-54 Co-57 Co-581.43E-041.37E-05 Co-60 Rb-88 Zr-95 Nb-956.20E-097.16E-06 Mo-99 Ru-103 Ru-106 Cd-109 Cs-134 Cs-136 Cs-1372.32E-09 Cs-138 Ce-141 Ce-1441.74E-05 FSAR Appendix I Tables and FiguresUFSAR 2010Page 208 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR APRIL, 1975Unit 1 - 4 Day Outage for Steam Generator Tube Repair & CRD MaintenanceUnit 2 - 1.1 Day Outage for Chemistry AdjustmentSheet 16 of 24IsotopeUnit 1 Air Ej.Unit 2 Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentH-34.96E+01<MDA4.76E-012.53E-037.61E-036.41E-04F-18 Ar-411.38E-021.34E+014.43E-033.32E-03 Kr-85 Kr-85m2.19E-012.13E+023.32E-018.04E-03 Kr-871.58E-011.54E+027.00E-021.59E-03 Kr-882.90E-012.82E+022.84E-016.70E-03 Xe-131m Xe-1332.18E+002.13E+031.19E+011.48E+002.80E+00 Xe-133m5.16E-025.03E+014.47E-032.77E-04 Xe-1351.12E+001.09E+033.12E+008.83E-02 Xe-135m1.82E-011.77E+021.03E+002.29E-02 Xe-1382.36E-012.30E+022.43E-024.75E-04 I-1316.80E-041.43E-091.14E-066.48E-05 I-1326.41E-042.34E-07 I-1331.96E-052.79E-07 I-134 I-135 Na-24 Mn-54 Co-57 Co-583.82E-051.85E-07 Co-60 Rb-88 Zr-95 Nb-953.29E-05Mo-99 Ru-1031.19E-05Ru-106 Cd-109 Cs-134 Cs-136 Cs-1371.23E-05Cs-138 Ce-1411.15E-05Ce-1449.38E-05 FSAR Appendix I Tables and FiguresUFSAR 2010Page 209 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR MAY, 1975Unit 1 - No ShutdownUnit 2 - 2 Shutdowns for Maintenance; Total 3.4 Day OutageSheet 17 of 24IsotopeUnit 1 Air Ej.Unit 2 Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentH-3<MDA7.08E-012.38E-024.88E-021.38E-101.63E-01F-18 Ar-415.93E-038.44E+007.15E-033.35E-03 Kr-85 Kr-85m2.11E-013.01E+021.21E+002.01E-02 Kr-871.51E-012.15E+022.54E-012.87E-03 Kr-882.83E-014.02E+021.05E+001.33E-02 Xe-131m Xe-1332.77E+003.95E+036.25E+012.13E+00 Xe-133m3.66E-025.21E+011.24E-023.74E-04 Xe-1351.04E+001.48E+031.10E+011.71E-01 Xe-135m2.42E-013.44E+025.16E+007.60E-02 Xe-1382.05E-012.92E+027.77E-021.61E-03 I-1313.52E-041.33E-082.96E-06 I-132 I-1331.81E-041.61E-05 I-134 I-135 Na-24 Mn-543.62E-101.31E-05 Co-57 Co-585.07E-101.41E-05 Co-601.80E-042.95E-05 Rb-882.48E-06 Zr-95 Nb-956.92E-104.98E-06 Mo-99 Ru-1031.82E-07Ru-106 Cd-1092.72E-09Cs-134 Cs-136 Cs-137 Cs-1381.87E-04 Ce-141 Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 210 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR JUNE, 1975Unit 1 - 1.2 Day Outage for Personnel, Licensing & MaintenanceUnit 2 - 0.7 Day Outage for MaintenanceSheet 18 of 24IsotopeUnit 1 Air Ej.Unit 2 Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentH-34.14E-02<MDA7.32E-011.84E-023.17E-031.63E-091.43E-01F-18 Ar-412.03E-022.00E+011.16E-012.63E-03 Kr-85 Kr-85m3.10E-013.06E+026.94E+029.30E-03 Kr-872.68E-012.65E+021.77E+001.77E-03 Kr-884.48E-014.42E+026.44E+007.85E-03 Xe-131m Xe-1332.94E+002.90E+032.44E+021.19E+001.04E+03 Xe-133m4.55E-024.49E+015.76E-021.90E-041.38E+01 Xe-1351.39E+001.37E+035.66E+019.58E-027.44E+00 Xe-135m3.13E-013.09E+022.66E+012.10E-02 Xe-1384.85E-014.78E+027.41E-015.87E-04 I-1313.18E-043.72E-067.96E-06 I-132 I-1333.54E-042.31E-06 I-134 I-135 Na-248.52E-07Mn-54 Co-57 Co-587.20E-111.04E-06 Co-601.78E-053.94E-072.24E-06 Rb-883.94E-054.75E-03 Zr-951.49E-10Nb-952.25E-083.21E-07 Mo-99 Ru-103 Ru-106 Cd-109 Cs-134 Cs-136 Cs-137 Cs-1381.83E-04 Ce-141 Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 211 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR JULY, 1975Unit 1 - No ShutdownsUnit 2 - 1.8 Day Maintenance OutageSheet 19 of 24IsotopeCombined Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentGas. Str. Bldg.H-32.88E-051.01E+007.79E-031.30E-021.54E-011.75E+01F-18 Ar-411.49E-025.37E+014.01E-041.60E-036.26E-02 Kr-85 Kr-85m1.21E-013.33E+027.84E-037.16E-033.88E-01 Kr-876.10E-022.43E+021.71E-031.22E-032.83E-01 Kr-881.56E-014.67E+026.94E-035.81E-035.44E-01 Xe-131m Xe-1333.06E-017.95E+024.89E-015.05E+009.27E-01 Xe-133m5.56E-031.48E+012.13E-032.67E-021.73E-02 Xe-1354.49E-011.15E+035.45E-027.26E-021.56E+011.34E+00 Xe-135m1.17E-023.76E+024.67E-043.66E-044.38E-01 Xe-1381.49E-023.48E+026.43E-045.07E-044.06E-01 I-1312.15E-041.14E-102.20E-051.07E-05 I-132 I-1331.67E-049.07E-051.20E-05 I-134 I-135 Na-24 Mn-541.49E-058Co-57 Co-581.01E-05Co-602.57E-036.49E-073.28E-05 Rb-88 Zr-95 Nb-959.84E-051.20E-05 Mo-993.28E-03 Ru-103 Ru-106 Cd-109 Cs-134 Cs-136 Cs-1371.23E-031.25E-05 Cs-138 Ce-141 Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 212 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR AUGUST, 1975Unit 1 - No ShutdownsUnit 2 - 8.2 Days Shutdown for S. G. Tube Plugging & Minor Maint.Sheet 20 of 24IsotopeCombined Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentGas. Str. Bldg.H-31.05E-059.07E-013.12E-023.63E-034.18E-021.81E-01F-18 Ar-417.80E-031.97E+011.35E-021.33E-021.50E-01 Kr-85 Kr-85m8.52E-021.65E+023.21E-012.53E-021.25E+00 Kr-873.86E-021.20E+026.93E-024.94E-039.08E-01 Kr-881.05E-012.27E+022.90E-012.19E-021.72E+00 Xe-131m Xe-1332.84E-014.56E+022.12E+013.68E+003.46E+00 Xe-133m5.24E-038.51E+001.09E-016.01E-026.47E-02 Xe-1353.23E-015.67E+022.25E+001.73E-014.30E+00 Xe-135m4.36E-031.76E+021.74E-021.80E-031.34E+00 Xe-1387.89E-032.25E+022.24E-021.28E-031.71E+00 I-1316.48E-041.33E-067.18E-05 I-132 I-1336.77E-041.61E-06 I-134 I-135 Na-24 Mn-541.12E-06Co-57 Co-585.94E-081.23E-089.50E-086.38E-06 Co-601.75E-098.58E-101.12E-05 Rb-88 Zr-95 Nb-95 Mo-99 Ru-103 Ru-106 Cd-109 Cs-134 Cs-136 Cs-137 Cs-1381.29E-06 Ce-141 Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 213 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR SEPTEMBER, 1975Unit 1 - No ShutdownsUnit 2 - No ShutdownsSheet 21 of 24IsotopeCombined Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentGas. Str. Bldg.H-39.15E-012.34E-021.98E-031.60E-01F-18 Ar-412.42E-034.64E+012.95E-021.47E-022.08E-01 Kr-85 Kr-85m1.69E-022.46E+026.77E-011.28E-021.10E+00 Kr-877.99E-031.89E+021.50E-012.43E-038.46E-01 Kr-882.16E-023.52E+026.21E-011.09E-021.58E+00 Xe-131m Xe-1336.35E-027.64E+022.41E+011.83E+003.42E+00 Xe-133m1.46E-031.77E+011.93E-011.69E-027.92E-02 Xe-1357.19E-029.44E+024.41E+001.04E-014.23E+00 Xe-135m7.74E-042.59E+024.02E-026.16E-041.16E+00 Xe-1381.33E-033.10E+025.49E-027.32E-041.39E+00 I-1318.33E-045.15E-105.48E-05 I-132 I-1338.03E-048.56E-10 I-134 I-135 Na-24 Mn-54 Co-57 Co-586.97E-07 Co-605.29E-08 Rb-881.61E-04 Zr-95 Nb-951.21E-06Mo-99 Ru-103 Ru-106 Cd-1093.79E-09 Cs-1342.31E-06Cs-136 Cs-137 Cs-1382.12E-04 Ce-1411.10E-06Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 214 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR OCTOBER, 1975Unit 1 - No ShutdownsUnit 2 - 1.1 Day Maintenance OutageSheet 22 of 24IsotopeCombined Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentGas. Str. Bldg.H-32.28E-053.91E-011.74E-022.39E-033.21E-01F-18 Ar-413.29E-012.57E+012.18E-048.21E-039.26E-01 Kr-85 Kr-85m2.53E+001.04E+024.34E-037.95E-033.75E+00 Kr-871.19E+007.73E+019.39E-041.48E-032.78E+00 Kr-883.14E+001.44E+023.89E-036.77E-035.17E+00 Xe-131m Xe-1336.43E+002.04E+022.79E-011.43E+008.64E+00 Xe-133m1.44E-016.12E+002.21E-031.86E-022.20E-01 Xe-1359.34E+003.51E+023.17E-016.71E-021.26E+01 Xe-135m1.40E-011.09E+022.55E-043.92E-043.93E+00 Xe-1382.58E-011.43E+023.48E-044.91E-045.14E+00 I-1317.75E-041.83E-108.23E-106.70E-06 I-132 I-1338.06E-041.32E-09 I-134 I-135 Na-24 Mn-54 Co-57 Co-58 Co-604.25E-064.45E-10 Rb-88 Zr-95 Nb-952.89E-06Mo-99 Ru-103 Ru-106 Cd-1091.20E-08 Cs-1345.51E-07Cs-136 Cs-137 Cs-1388.84E-05 Ce-1412.62E-07Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 215 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR NOVEMBER, 1975*Unit 1 - Refueling Shutdown; 15 DaysUnit 2 - 1.1 Day Maintenance OutageSheet 23 of 24IsotopeCombined Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentGas. Str. Bldg.H-33.93E-056.26E-012.39E+006.20E-038.17E-021.07E+00F-18 Ar-414.33E-031.65E+017.86E-029.21E-041.75E+01 Kr-85 Kr-85m2.34E-025.98E+015.70E-019.39E-046.35E+01 Kr-878.11E-034.18E+014.11E-011.65E-044.43E+01 Kr-882.71E-028.15E+017.78E-017.92E-048.64E+01 Xe-131m Xe-1338.50E-021.65E+022.84E+001.68E-019.02E-011.75E+02 Xe-133m8.71E-041.72E+004.99E-032.30E-031.83E+00 Xe-1359.54E-022.11E+022.05E+007.54E-032.23E+02 Xe-135m2.07E-046.31E+015.82E-014.85E-056.70E+01 Xe-1385.30E-047.35E+017.51E-016.07E-057.80E+01 I-1312.31E-062.21E-052.65E-089.81E-05 I-1322.45E-05 I-1331.10E-031.66E-05 I-134 I-135 Na-24 Mn-54 Co-57 Co-581.45E-06Co-603.18E-065.61E-107.54E-06 Rb-88 Zr-95 Nb-95 Mo-99 Ru-103 Ru-106 Cd-1091.05E-09 Cs-134 Cs-136 Cs-137 Cs-1383.48E-02 Ce-141 Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 216 of 248 Table I.7-5 (CONTINUED)- POINT BEACH NUCLEAR PLANT OBSERVED MONTHLY GASEOUS RELEASES BY RELEASE POINTPBNP AIRBORNE RELEASE
SUMMARY
FOR DECEMBER, 1975Unit 1 - Refueling Outage; Entire MonthUnit 2 - No ShutdownsSheet 24 of 24IsotopeCombined Air Ej.Aux. Bldg. VentUnit 1 Contain.Unit 2 Contain.Turb. Bldg.Dr. Area VentGas. Str. Bldg.H-31.96E-037.76E+001.43E-023.12E-013.02E+00F-18 Ar-411.16E-043.70E+011.24E-033.12E-01 Kr-852.71E-054.27E+009.07E-023.59E-02 Kr-85m8.16E-051.72E+011.10E-031.45E-01 Kr-873.15E-051.37E+011.93E-041.15E-01 Kr-889.19E-052.29E+019.29E-041.93E-01 Xe-131m Xe-1331.59E-032.53E+022.07E-012.13E+00 Xe-133m2.63E-054.24E+002.68E-033.57E-02 Xe-1354.79E-048.67E+019.05E-037.31E-01 Xe-135m3.86E-078.55E+005.36E-057.20E-02 Xe-1383.19E-064.13E+019.16E-053.48E-01 I-1311.22E-031.85E-052.22E-091.34E-04 I-132 I-1332.96E-05 I-134 I-135 Na-24 Mn-545.08E-07Co-57 Co-581.81E-06Co-605.94E-062.91E-065.88E-104.06E-06 Rb-88 Zr-954.47E-07Nb-957.06E-074.56E-103.92E-06 Mo-99 Ru-1036.59E-071.33E-06 Ru-106 Cd-109 Cs-134 Cs-136 Cs-1374.56E-10 Cs-138 Ce-141 Ce-144 FSAR Appendix I Tables and FiguresUFSAR 2010Page 217 of 248 Table I.7-6 POINT BEACH NUCLEAR PLANT LIQUID RELEASES (1974-1975) (Ci/yr)Sheet 1 of 3Isotope19741975AnnualAverageH38.33E+028.85E+028.59E+02Kr-851.08E-035.40E-04Kr-85m3.72E-041.86E-04 Kr-876.00E-073.00E-07Xe-131m3.39E-041.69E-031.01E-03Xe-1332.01E-012.07E-012.04E-01 Xe-133m3.36E-041.34E-038.38E-04Xe-1358.98E-031.01E-015.50E-02Xe-1383.10E-041.55E-04 I-1311.82E-021.71E-019.46E-02I-1321.20E-031.29E-016.51E-02I-1332.87E-022.68E-011.48E-01 I-1341.36E-016.80E-02I-1356.98E-032.71E-011.39E-01Na-1244.80E-032.40E-03 Cr-517.89E-023.95E-02Mn-541.96E-051.47E-027.36E-03Fe-55 Fe-592.17E-031.09E-03Co-572.32E-046.99E-023.51E-02Co-581.02E-032.42E-011.22E-01 Co-602.12E-046.29E-023.16E-02Br-83Br-84 Br-85Rb-86Rb-88 Sr-891.17E-037.13E-049.42E-04Sr-901.46E-042.36E-031.25E-03Sr-91Y-90Y-91m Y-91Y-93Zr-957.95E-051.31E-016.55E-02 FSAR Appendix I Tables and FiguresUFSAR 2010Page 218 of 248 Table I.7-6 (CONTINUED)POINT BEACH NUCLEAR PLANT LIQUID RELEASES (1974-1975) (Ci/yr)Sheet 2 of 3Isotope19741975AnnualAverageNb-951.27E-041.87E-019.36E-02Mo-991.75E-058.75E-06Tc-99mRu-1035.40E-041.20E-016.03E-02 Ru-1065.79E-041.02E-025.39E-03Rh-103mRh-106 Cd-1092.08E-031.04E-03Ag-110m3.12E-041.56E-04Sb-1246.35E-053.18E-05 Sb-1252.47E-041.24E-04Te-125mTe-127m Te-127Te-129mTe-129 Te-131mTe-131Te-1322.43E-041.22E-04 Cs-1343.84E-021.79E-022.82E-02Cs-1367.99E-044.00E-04Cs-1379.82E-026.55E-028.19E-02 Cs-1381.02E-015.10E-02Ba-137mBa-1409.59E-024.80E-02 La-1404.11E-022.06E-02Ce-1414.88E-022.44E-02Ce-143Ce-1448.00E-061.09E-015.45E-02Pr-143 Pr-144Bi-2079.34E-054.67E-02Th-2329.72E-064.86E-02 Np-239 FSAR Appendix I Tables and FiguresUFSAR 2010Page 219 of 248 Table I.7-6 (CONTINUED)POINT BEACH NUCLEAR PLANT LIQUID RELEASES (1974-1975) (Ci/yr)Sheet 3 of 3Release Summary, Average Ci/yr:Total Tritium8.59E+02Total Noble Gases2.62E-01 Total Iodines5.65E-01Total Others7.56E-01Total Non-Tritium1.39E+00 FSAR Appendix I Tables and FiguresUFSAR 2010Page 220 of 248 Table I.7-7 POINT BEACH NUCLEAR PLANT PARAMETERS FOR RADIOACTIVE GASEOUS RELEASESSheet 1 of 2Unit 1 and 2 Containment Releases (applicable to each unit)Fraction/day of primary coolant noble gas activity released to containment0.01Fraction/day of primary coolant iodine activity released to the containment0.00001Iodine exhaust filter efficiency90%
Particulate exhaust filter efficiency99%
Purge exhaust ventilation rate (cfm)12,500 Purge exhaust ventilation time (hrs)7 Number of hot purges/year/unit1210 purges/year during operation2 purges/year during hot shutdownNumber of cold purges/year/unit2 Continuous ventilation exhaust10Containment free volume (ft 3)1.065x10 6Units 1 and 2 Auxiliary Building ReleasesAuxiliary building leakage of primary coolant (lb/day/unit)160Iodine partition factor for primary coolant leakage in the aux. bldg.0.0075 No charcoal filters Auxiliary building HEPA filter efficiency99%Units 1 and 2 Turbine Building ReleasesTurbine building leakage (lb/hr/unit)1700Iodine partition coefficient for all iodines1.0 No filters (charcoal or HEPA)Main Condenser Air EjectorFraction of the iodine inventory in the primary coolant which is volatile0.05Primary-to-secondary leak rate (lb/day/unit)100 Main condenser air ejector iodine partition factor0.15 Units 1 and 2 air ejector effluents enter a decay duct which provides a 1.0 hour0 days <br />0 hours <br />0 weeks <br />0 months <br /> delay before release to the environmentNo filters (charcoal or HEPA)
FSAR Appendix I Tables and FiguresUFSAR 2010Page 221 of 248 Table I.7-7 (CONTINUED)POINT BEACH NUCLEAR PLANT PARAMETERS FOR RADIOACTIVE GASEOUS RELEASESSheet 2 of 2Blowdown Flash TanksPBNP has blowdown flash tanks, however, liquid which flashes is all condensed; therefore, no iodines or noble gases are released through the plant vent from the blowdown flash tanksGas Decay Tank Effluents3750 ft 3/month of gas decay tank effluent is released for 2 units103 curies/yr are released from the gas decay tank in batched (70% Kr, 30% Xe-133)
Each release is intermittent and lasts for 250 minutes at a flow rate of 15 cfm No filters (charcoal/HEPA)Gas Stripper Building Releases2% of the noble gases in the Appendix I analysis will be assumed to come from the gas stripper buildingGas stripper building ventilation (cfm)400-12,000 No filters (charcoal or HEPA)
FSAR Appendix I Tables and FiguresUFSAR 2010Page 222 of 248 Table I.8-1 POINT BEACH NUCLEAR PLANT ANNUAL DOSES TO MAXIMUM OFFSITE INDIVIDUAL IN ADULT GROUP FROM RADIOIODINE AND PARTICULATES IN GASEOUS EFFLUENTSANNUAL DOSE (mrem/yr)Pathway and LocationTotal Body SkinBoneLiver Thyroid Kidney LungGI TractInhalation - SSW (1,460 m)3.2E-02-2.6E-033.3E-025.58E-023.2E-023.3E-023.2E-02Deposition on Ground - SSW (1,460 m)3.3E-023.8E-023.3E-023.3E-023.3E-023.3E-023.3E-023.3E-02Fresh Vegetables - SSW (1,460 m)1.9E-02-2.6E-022.1E-026.7E-012.1E-021.7E-021.7E-02Stored Vegetables - SSW (1,460 m)1.5E-01-2.0E-011.5E-011.7E-011.4E-011.4E-011.4E-01 Cow's milk - SSE (1,300 m)4.0E-02-4.9E-024.6E-021.7E+004.2E-023.2E-023.3E-02Goat's milk - SSE (1,300 m)6.9E-02-6.2E-028.0E-021.2E+006.3E-024.6E-024.5E-02Meat - SSE (1,300 m)1.6E-02-3.7E-021.6E-027.4E-021.5E-021.5E-021.6E-02TOTAL OF ABOVE PATHWAYS WITH INGESTION OF COW'S MILK2.9E-013.8E-023.5E-023.0E-012.7E+002.8E-012.7E-012.7E-01TOTAL OF ABOVE PATHWAYS WITH INGESTION OF GOAT'S MILK3.2E-013.8E-023.6E-013.3E-013.1E+003.0E-012.8E-012.8E-01 FSAR Appendix I Tables and FiguresUFSAR 2010Page 223 of 248 Table I.8-2 POINT BEACH NUCLEAR PLANT ANNUAL DOSES TO MAXIMUM OFFSITE INDIVIDUAL IN TEEN GROUP FROM RADIOIODINE AND PARTICULATES IN GASEOUS EFFLUENTSANNUAL DOSE (mrem/yr)Pathway and LocationTotal Body SkinBoneLiver Thyroid Kidney LungGI TractInhalation - SSW (1,460 m)1.8E-02-5.1E-041.9E-023.9E-022.3E-021.9E-021.8E-02Deposition on Ground - SSW (1,460 m)3.3E-023.8E-023.3E-023.3E-023.3E-023.3E-023.3E-023.3E-02Fresh Vegetables - SSW (1,460 m)1.2E-03-6.8E-031.4E-025.0E-011.4E-021.1E-021.1E-02Stored Vegetables - SSW (1,460 m)1.6E-01-8.3E-021.8E-012.0E-011.7E-011.6E-011.6E-01 Cow's milk - SSE (1,300 m)4.8E-02-3.1E-026.2E-022.5E+005.5E-023.8E-023.8E-02Goat's milk - SSE (1,300 m)7.6E-02-5.3E-021.1E-013.1E+008.2E-025.6E-025.2E-02Meat - SSE (1,300 m)9.6E-03-6.3E-031.0E-025.1E-029.0E-039.2E-039.7E-03TOTAL OF ABOVE PATHWAYS WITH INGESTION OF COW'S MILK2.8E-013.8E-021.6E-013.2E-013.3E+003.0E-012.7E-012.7E-01TOTAL OF ABOVE PATHWAYS WITH INGESTION OF GOAT'S MILK3.1E-013.8E-021.8E-013.7E-013.9E+003.3E-012.9E-012.8E-01 FSAR Appendix I Tables and FiguresUFSAR 2010Page 224 of 248 Table I.8-3 POINT BEACH NUCLEAR PLANT ANNUAL DOSES TO MAXIMUM OFFSITE INDIVIDUAL IN CHILD GROUP FROM RADIOIODINE AND PARTICULATES IN GASEOUS EFFLUENTSANNUAL DOSE (mrem/yr)Pathway and LocationTotal Body SkinBoneLiver Thyroid Kidney LungGI TractInhalation - SSW (1,460 m)1.9E-02-8.0E-041.9E-024.6E-021.2E-021.9E-021.9E-02Deposition on Ground - SSW (1,460 m)3.3E-023.8E-023.3E-023.3E-023.3E-023.3E-023.3E-023.3E-02Fresh Vegetables - SSW (1,460 m)1.6E-02-1.2E-021.9E-027.5E-018.4E-031.5E-021.5E-02Stored Vegetables - SSW (1,460 m)3.0E-01-1.9E-013.4E-013.9E-011.4E-013.0E-013.0E-01 Cow's milk - SSE (1,300 m)7.6E-02-7.3E-021.1E-015.0E+004.5E-027.2E-027.1E-02Goat's milk - SSE (1,300 m)1.1E-01-1.3E-012.0E-016.0E+006.8E-021.0E-019.3E-02Meat - SSE (1,300 m)1.5E-02-1.2E-021.6E-027.7E-025.6E-031.5E-021.5E-02TOTAL OF ABOVE PATHWAYS WITH INGESTION OF COW'S MILK4.6E-013.8E-023.2E-015.4E-016.3E+002.4E-014.5E-014.5E-01TOTAL OF ABOVE PATHWAYS WITH INGESTION OF GOAT'S MILK4.9E-013.8E-023.8E-016.3E-017.3E+002.7E-014.8E-014.8E-01 FSAR Appendix I Tables and FiguresUFSAR 2010Page 225 of 248 Table I.8-4 POINT BEACH NUCLEAR PLANT ANNUAL DOSES TO MAXIMUM OFFSITE INDIVIDUAL IN INFANT GROUP FROM RADIOIODINE AND PARTICULATES IN GASEOUS EFFLUENTSANNUAL DOSE (mrem/yr)Pathway and LocationTotal Body SkinBoneLiver Thyroid Kidney LungGI TractInhalation - SSW (1,460 m)2.0E-02-1.2E-032.1E-026.6E-028.5E-032.1E-022.0E-02Deposition on Ground - SSW (1,460 m)3.3E-023.8E-023.3E-023.3E-023.3E-023.3E-023.3E-023.3E-02Fresh Vegetables - SSW (1,460 m)--------Stored Vegetables - SSW (1,460 m)--------
Cow's milk - SSE (1,300 m)1.5E-01-1.6E-012.3E-011.2E+014.5E-021.3E-011.3E-01Goat's milk - SSE (1,300 m)2.0E-01-2.6E-014.0E-011.5E+016.8E-021.8E-011.6E-01Meat - SSE (1,300 m)--------TOTAL OF ABOVE PATHWAYS WITH INGESTION OF COW'S MILK2.0E-013.8E-021.9E-012.8E-011.2E+018.7E-021.8E-011.8E-01TOTAL OF ABOVE PATHWAYS WITH INGESTION OF GOAT'S MILK2.5E-013.8E-022.9E-014.5E-011.5E+011.1E-012.3E-012.1E-01 FSAR Appendix I Tables and FiguresUFSAR 2010Page 226 of 248 Table I.8-5 POINT BEACH NUCLEAR PLANT ANNUAL DOSES TO MAXIMUM INDIVIDUAL FROM NOBLE GASES IN GASEOUS EFFLUENTSIndividualTotal Body Dose(mrem/yr)Skin Dose (mrem/yr)Onsite (1250 m, WNW)1.7E-023.6E-02Offsite (1460 m, SSW)2.7E-025.6E-02 FSAR Appendix I Tables and FiguresUFSAR 2010Page 227 of 248 Table I.8-6 POINT BEACH NUCLEAR PLANT ANNUAL DOSES TO MAXIMUM OFFSITE INDIVIDUAL IN ADULT AGE GROUP FROM LIQUID EFFLUENTS UNDER EQUILIBRIUM CONDITIONSANNUAL DOSE (mrem/yr)Pathway and LocationTotal Body SkinBoneLiver Thyroid Kidney LungGI TractIngestion of potable water - (Two Rivers - 12 miles S)3.1E-04-1.7E-043.9E-041.3E-023.0E-041.4E-042.2E-04Ingestion of fish - (edge of initial mixing zone)1.9E-01-1.3E-012.5E-011.3E-019.0E-022.8E-022.1E-02Ingestion of fresh vegetables - (Two Rivers - 12 miles S)1.4E-04-1.0E-041.9E-043.2E-038.9E-053.0E-054.0E-05Ingestion of stored vegetables - (Two Rivers - 12 miles S)1.0E-03-7.4E-041.4E-032.4E-045.2E-042.3E-041.8E-04 Ingestion of cow's milk (Two Rivers - 12 miles S)8.7E-04-5.9E-041.1E-031.1E-024.7E-041.7E-041.0E-04Ingestion of meat - (Two Rivers - 12 miles S)5.6E-05-3.1E-057.0E-052.1E-044.2E-052.6E-054.4E-05Swimming - (edge of initial mixing zone)1.3E-041.3E-041.3E-041.3E-041.3E-041.3E-041.3E-041.3E-04 Boating - (edge of initial mixing zones)4.4E-054.4E-054.4E-054.4E-054.4E-054.4E-054.4E-054.4E-05Shoreline deposits - (1500 meters - South)1.2E-06 1.4E-06 1.2E-061.2E-06 1.2E-06 1.2E-061.2E-06 1.2E-06TOTAL OF ABOVE PATHWAYS1.9E-011.8E-041.3E-012.5E-011.6E-019.0E-022.9E-022.2E-02 FSAR Appendix I Tables and FiguresUFSAR 2010Page 228 of 248 Table I.8-7 POINT BEACH NUCLEAR PLANT ANNUAL DOSES TO MAXIMUM OFFSITE INDIVIDUAL IN TEEN AGE GROUP FROM LIQUID EFFLUENTS UNDER EQUILIBRIUM CONDITIONSANNUAL DOSE (mrem/yr)Pathway and LocationTotal Body SkinBoneLiver Thyroid Kidney LungGI TractIngestion of potable water - (Two Rivers - 12 miles S)1.8E-04-1.4E-043.1E-041.0E-022.1E-048.8E-051.4E-04Ingestion of fish - (edge of initial mixing zone)1.1E-01-1.3E-012.5E-011.2E-016.9E-023.1E-021.5E-01Ingestion of fresh vegetables - (Two Rivers - 12 miles S)7.4E-05-8.9E-051.7E-042.4E-035.8E-052.4E-022.4E-05Ingestion of stored vegetables - (Two Rivers - 12 miles S)9.6E-04-1.2E-032.2E-033.1E-016.2E-043.5E-041.9E-04 Ingestion of cow's milk (Two Rivers - 12 miles S)8.5E-04-1.0E-031.9E-031.8E-026.2E-042.8E-041.1E-04Ingestion of meat - (Two Rivers - 12 miles S)2.5E-05-2.3E-054.8E-051.4E-042.4E-051.5E-052.3E-05Swimming - (edge of initial mixing zone)1.3E-041.3E-041.3E-041.3E-041.3E-041.3E-041.3E-041.3E-04 Boating - (edge of initial mixing zones)4.4E-054.4E-054.4E-054.4E-054.4E-054.4E-054.4E-054.4E-05Shoreline deposits - (1500 meters - South)6.8E-06 8.0E-06 6.8E-066.8E-06 6.8E-06 6.8E-066.8E-06 6.8E-06TOTAL OF ABOVE PATHWAYS1.1E-011.8E-041.3E-012.6E-011.5E-017.1E-023.3E-021.5E-01 FSAR Appendix I Tables and FiguresUFSAR 2010Page 229 of 248 Table I.8-8 POINT BEACH NUCLEAR PLANT ANNUAL DOSES TO MAXIMUM OFFSITE INDIVIDUAL IN CHILD AGE GROUP FROM LIQUID EFFLUENTS UNDER EQUILIBRIUM CONDITIONSANNUAL DOSE (mrem/yr)Pathway and LocationTotal Body SkinBoneLiver Thyroid Kidney LungGI TractIngestion of potable water - (Two Rivers - 12 miles S)2.1E-04-4.0E-046.1E-042.5E-022.1E-041.7E-042.0E-04Ingestion of fish - (edge of initial mixing zone)4.3E-02-1.7E-012.1E-011.3E-013.0E-022.4E-026.6E-03Ingestion of fresh vegetables - (Two Rivers - 12 miles S)4.3E-05-1.5E-042.0E-043.6E-033.6E-052.6E-051.8E-05Ingestion of stored vegetables - (Two Rivers - 12 miles S)7.8E-04-2.8E-033.5E-035.7E-045.2E-045.2E-042.0E-04 Ingestion of cow's milk (Two Rivers - 12 miles S)6.5E-04-2.3E-033.1E-033.4E-025.1E-044.1E-041.3E-04Ingestion of meat - (Two Rivers - 12 miles S)2.2E-05-4.4E-056.5E-052.3E-041.7E-061.8E-052.1E-05Swimming - (edge of initial mixing zone)7.3E-057.3E-057.3E-057.3E-057.3E-057.3E-057.3E-057.3E-05 Boating - (edge of initial mixing zones)2.4E-052.4E-052.4E-052.4E-052.4E-052.4E-052.4E-052.4E-05Shoreline deposits - (1500 meters - South)1.4E-06 1.7E-06 1.4E-061.4E-06 1.4E-06 1.4E-061.4E-06 1.4E-06TOTAL OF ABOVE PATHWAYS4.5E-029.9E-051.8E-012.1E-012.0E-013.1E-022.5E-021.1E-02 FSAR Appendix I Tables and FiguresUFSAR 2010Page 230 of 248 Table I.8-9 POINT BEACH NUCLEAR PLANT ANNUAL DOSES TO MAXIMUM OFFSITE INDIVIDUAL IN INFANT AGE GROUP FROM LIQUID EFFLUENTS UNDER EQUILIBRIUM CONDITIONSANNUAL DOSE (mrem/yr)Pathway and LocationTotal Body SkinBoneLiver Thyroid Kidney LungGI TractIngestion of potable water - (Two Rivers - 12 miles S)3.7E-04-8.1E-041.3E-036.1E-022.1E-042.9E-042.5E-04Ingestion of fish - (edge of initial mixing zone)--------Ingestion of fresh vegetables - (Two Rivers - 12 miles S)--------Ingestion of stored vegetables - (Two Rivers - 12 miles S)--------
Ingestion of cow's milk (Two Rivers - 12 miles S)7.7E-04-4.8E-036.9E-038.3E-025.1E-048.8E-041.7E-04Ingestion of meat - (Two Rivers - 12 miles S)--------Swimming - (edge of initial mixing zone)--------
Boating - (edge of initial mixing zones)--------Shoreline deposits - (1500 meters - South)-
TOTAL OF ABOVE PATHWAYS1.1E-03-5.6E-038.2E-031.4E-017.2E-041.2E-034.2E-04 FSAR Appendix I Tables and FiguresUFSAR 2010Page 231 of 248 Table I.8-10 POINT BEACH NUCLEAR PLANT ANNUAL DOSES TO MAXIMUM ONSITE INDIVIDUAL IN ADULT GROUP FROM RADIOIODINE AND PARTICULATES IN GASEOUS EFFLUENTSANNUAL DOSE (mrem/yr)Pathway and LocationTotal Body SkinBoneLiver Thyroid Kidney LungGI TractInhalation - WNW - 1250 m2.0E-02-6.9E-042.0E-023.2E-022.0E-022.0E-022.0E-02Deposition on ground - WNW - 1250 m2.6E-023.1E-022.6E-022.6E-022.6E-022.6E-022.6E-022.6E-02Fresh vegetables - WNW - 1250 m1.1E-02-8.3E-031.2E-025.1E-011.2E-028.6E-039.5E-03Stored vegetables - WNW - 1250 m8.0E-02
-5.7E-028.2E-02 9.3E-02 7.3E-027.0E-02 7.3E-02TOTAL OF ABOVE PATHWAYS1.4E-013.1E-029.2E-021.4E-016.6E-011.3E-011.2E-011.3E-01 FSAR Appendix I Tables and FiguresUFSAR 2010Page 232 of 248 Table I.8-11 POINT BEACH NUCLEAR PLANT ANNUAL DOSES TO MAXIMUM ONSITE INDIVIDUAL IN TEEN GROUP FROM RADIOIODINE AND PARTICULATES IN GASEOUS EFFLUENTSANNUAL DOSE (mrem/yr)Pathway and LocationTotal Body SkinBoneLiver Thyroid Kidney LungGI TractInhalation - WNW - 1250 m1.1E-02-1.6E-041.1E-022.1E-021.4E-021.1E-021.1E-02Deposition on ground - WNW - 1250 m2.6E-023.1E-022.6E-022.6E-022.6E-022.6E-022.6E-022.6E-02Fresh vegetables - WNW - 1250 m6.4E-03-3.43E-037.6E-033.8E-017.6E-034.9E-035.5E-03Stored vegetables - WNW - 1250 m8.2E-02
-3.6E-029.3E-02 1.1E-01 8.8E-027.4E-02 7.6E-02TOTAL OF ABOVE PATHWAYS1.3E-013.1E-026.6E-021.4E-015.4E-011.4E-021.2E-011.2E-01 FSAR Appendix I Tables and FiguresUFSAR 2010Page 233 of 248 Table I.8-12 POINT BEACH NUCLEAR PLANT ANNUAL DOSES TO MAXIMUM ONSITE INDIVIDUAL IN CHILD GROUP FROM RADIOIODINE AND PARTICULATES IN GASEOUS EFFLUENTSANNUAL DOSE (mrem/yr)Pathway and LocationTotal Body SkinBoneLiver Thyroid Kidney LungGI TractInhalation - WNW - 1250 m1.1E-02-2.4E-041.1E-022.5E-027.3E-031.1E-021.1E-02Deposition on ground - WNW - 1250 m2.6E-023.1E-022.6E-022.6E-022.6E-022.6E-022.6E-022.6E-02Fresh vegetables - WNW - 1250 m7.0E-03-5.7E-039.9E-035.8E-014.8E-036.4E-036.7E-03Stored vegetables - WNW - 1250 m1.4E-01
-7.9E-021.6E-01 1.9E-01 7.3E-021.3E-01 1.3E-01TOTAL OF ABOVE PATHWAYS1.8E-013.1E-021.1E-012.1E-018.2E-011.1E-011.7E-011.7E-01 FSAR Appendix I Tables and FiguresUFSAR 2010Page 234 of 248 Table I.8-13 POINT BEACH NUCLEAR PLANT ANNUAL DOSES TO MAXIMUM ONSITE INDIVIDUAL IN INFANT GROUP FROM RADIOIODINE AND PARTICULATES IN GASEOUS EFFLUENTSANNUAL DOSE (mrem/yr)Pathway and LocationTotal Body SkinBoneLiver Thyroid Kidney LungGI TractInhalation - WNW - 1250 m1.2E-02-3.6E-041.2E-023.5E-025.2E-031.2E-021.2E-02Deposition on ground - WNW - 1250 m2.6E-023.1E-022.6E-022.6E-022.6E-022.6E-022.6E-022.6E-02Fresh vegetables - WNW - 1250 m--------Stored vegetables - WNW - 1250 m-
TOTAL OF ABOVE PATHWAYS3.8E-023.1E-022.6E-023.8E-026.1E-023.1E-023.8E-023.8E-02 FSAR Appendix I Tables and FiguresUFSAR 2010Page 235 of 248 Table I.9-1 COMPARISON OF MAXIMUM CALCULATED DOSES FROM POINT BEACH NUCLEAR PLANT WITH DESIGN OBJECTIVES IN DOCKET RM-50-2 (1)1."Concluding Statement of Position of the Regulatory Staff," Docket RM-50-2,February 20, 1974, U. S. Atomic Energy Commission, Washington, D.C.2.Calculated at site boundary 3.Onsite resident 4.Carbon-14 and tritium have been added to this category.RM-50-2Calculated Maximum DoseRelease Design ObjectiveIndividualOrgan DoseLiquid Effluents1.Total body5 millirem/yearAdult-0.19 millirem/year2.Any organ5 millirem/yearTeenLiver0.26 millirem/yearNoble gases 1.Gamma Dose in Air (2)10 millirads/year--0.06 millirads/year 2.Beta Dose in Air (2)20 millirads/year--0.07 millirads/year3.Total body5 millirem/yearAny Any (3)--0.03 millirem/year0.02 millirem/year4.Skin15 millirem/yearAny Any (3)SkinSkin0.06 millirem/year0.04 millirem/yearRadioiodine and Particulates in Gaseous Releases (4)1.Any organ from all pathways15 millirem/yearInfantChild (3)Thyroid Thyroid15.0 millirem/year0.82 millirem/year FSAR Appendix I Tables and FiguresUFSAR 2010Page 236 of 248 Figure I.2-1 LIQUID WASTE SYSTEM PROCESS FLOW DIAGRAM FSAR Appendix I Tables and FiguresUFSAR 2010Page 237 of 248 Figure I.2-2 CHEMICAL & VOLUME CONTROL SYSTEM PROCESS FLOW DIAGRAM FSAR Appendix I Tables and FiguresUFSAR 2010Page 238 of 248 Figure I.2-3 VENTILATION AND GASEOUS WASTE PROCESS FLOW DIAGRAM FSAR Appendix I Tables and FiguresUFSAR 2010Page 239 of 248 Figure I.2-4 PIPING & INSTRUMENT DIAGRAM HEATING & VENTILATION AIRFLOW FSAR Appendix I Tables and FiguresUFSAR 2010Page 240 of 248 Figure I.2-5 PIPING & INSTRUMENT DIAGRAM HEATING & VENTILATION SYSTEMS FSAR Appendix I Tables and FiguresUFSAR 2010Page 241 of 248 Figure I.4-1 GENERAL TOPOGRAPHY WITHIN 10-MILE RADIUS FSAR Appendix I Tables and FiguresUFSAR 2010Page 242 of 248 Figure I.4-2 MAXIMUM TOPOGRAPHIC ELEVATION VS DISTANCE BY SECTOR FSAR Appendix I Tables and FiguresUFSAR 2010Page 243 of 248 FSAR Appendix I Tables and FiguresUFSAR 2010Page 244 of 248 FSAR Appendix I Tables and FiguresUFSAR 2010Page 245 of 248 FSAR Appendix I Tables and FiguresUFSAR 2010Page 246 of 248 FSAR Appendix I Tables and FiguresUFSAR 2010Page 247 of 248 FSAR Appendix I Tables and FiguresUFSAR 2010Page 248 of 248 Figure I.6-1 FARM AND NON-FARM RESIDENCES WITHIN 3 MILES