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{{#Wiki_filter:Enclosure C L-16-277 EAL Calculations for Beaver Valley P.ower Station, Unit No. 2 (157 Pages Follow)
FORM 1/2-ADM-1611 F28 Rev 2 RTL# A9.621A Beaver Valley Power Station Radiation Protection Technical Position/Evaluation/Calculation Subject No.
PAGE 1 OF BVPS - U2 Gaseous Radioactivity Monitor ERS-MPD-93-008 35 Emergency Action Levels Reference HPP EPP x
TIS CR DCP Category Unit 1 Unit 2 D Technical Position
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Technical Evaluation D Calculation D
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Purpose To apply guidance contained in the NEI 99-01 EAL document to the appropriate gaseous radiation monitors at BVPS Unit 2.
Note: This Technical Evaluation is not an implementing document. Any application of the information contained herein must be reviewed and approved using the established review/approval process for that application.
D ORIGINAL ISSUE
[8] REVISION#
8 Revision description:
Revised to include guidance from NEI 99-01 revision 6, which changed the methodology for Alert Level Declarations.
NOTE: Calculations included in this revision will only become effective if NEI 99-01 is approved by the NRC for implementation at BVPS.
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date date Checklist !
Attachments 00 Purpose
!XI Results
[8] Data Sheets 00 Methodology
!XI References D Illustrations 00 Input Data D Printouts D Code Listings C8J Transmittal to BVRC D Supt, Rad Ops D Author:
C8J Original RP ERF FILE D Supv, RP Services
!RI Hal Szklinski BV-SIM D MGR, Radiation Protection D Supv, Rad Waste/Effluents D
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Beaver Valley Power Station Health Physics Technical Position/Evaluation/Calculation
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BVPS-U2 Gaseous Radioactivity Monitor Emergency Action Levels DISCUSSION REVISION: 8 No.:
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ERS-MPD-93-008 2
This technical evaluation uses accident source terms, radiation monitor nuclide detection efficiencies and nuclide dose conversion factors (TEDE and child thyroid) to calculate radiation monitor readings that correspond to offsite doses of 10, 100 and 1000 mrem TEDE and 50, 500 and 5000 mrem child thyroid. These are used as indicators of the Alert, Site Area Emergency (SAE) and General Emergency (GE) classifications. Additionally, indicators for the Unusual Event classification are derived. These are simply multiples of the ODCM limit, i.e., 2xODCM limit for the Unusual Event (UE). The calculated radiation monitor readings may be used for Emergency Action Level (EAL) determination following an accident with consequent release of radioactivity, and when the results of more rigorous assessments are not available.
Revision History:
This revision, Revised 8, was done to include guidance from NEI 99-01 revision 6, which changed the methodology for Alert Level Declarations.
Revision 6 was done to incorporate revised LOCA source terms from ERS-MPD-01-0022.
The affected accident source terms are the DBA LOCA, GAP LOCA, RCS LOCA and RCCA. This revision was prompted by changes made to the reactor building containment sump and to the operation of the recirculation spray system. Additional information regarding these changes and the impact on the accident source term may be found in UFSAR design basis radiological consequence calculation, 10080-UR(B)-4873. This revision makes a change to the TEDE dose conversion factors for iodine by -
including the dose contribution from 4-day ground contamination. The 4-day ground contamination dose is included when performing dose projections and including it here is consistent with that application. In addition, calculations from previous revisions (addenda) are removed and any prior changes are incorporated in the main body of this technical evaluation. Also, the original main body was edited and retyped in Microsoft WORD. Used revised steam release pressure of 1100 psi a.
Removed Fuel Building exhaust monitor as there is not EAL value used for this process monitor.
Revision 5 was made to correct the Technical Evaluation number.
Revision 4 used revised source terms developed to consider the extended power up-rate, atmospheric containment conversion and use of alternate source terms.
Replace use of the XRADMON FORTRAN program with mathematically equivalent EXCEL spreadsheets.
Revision 3 used revised source terms developed to consider the extended power up-rate, atmospheric containment conversion and use of alternate source terms. The results from this revision were never implemented.
Revision 2 updated the calculations using revised source terms.
Revision 1 updated results for the mid-range WRGM due to use of a different detector.
Beaver Valley Power Station Health Physics Technical Position/Evaluation/Calculation
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BVPS-U2 Gaseous Radioactivity Monitor Emergency Action Levels METHODOLOGY REVISION: 8 No.:
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ERS-MPD-93-008 3
The bases for the EAL values for the four emergency classifications are:
UE ODCM limit multiplied by two (x2)
Alert Effluent pathway radiation monitor indication that corresponds to 10 mrem TEDE or 50 mrem child thyroid at the site boundary. The lower of the two values is used.
SAE Effluent pathway radiation monitor indication that corresponds to 100 mrem TEDE or 500 mrem child thyroid at the site boundary. The lower of the two values is used.
GE Effluent pathway radiation monitor indication that corresponds to 1000 mrem TEDE or 5000 mrem child thyroid at the site boundary. The lower of the two values is used.
For the Alert, SAE and GE calculations a release duration is necessary to calculate an integrated dose. Consistent with previous revisions, a release duration of one hour is used. All of the UFSAR accidents that have a radiological consequence analysis, and several variants of the Loss of Coolant Accident (LOCA) are considered, each having a unique source term. The radiation monitor EAL for each radiation monitor is the lowest monitor indication calculated among all accident types.
The original calculation methodology (used in XRADMON) is:
The traction of each isotope in the accident source term is calculated S1 = A1 I :E, At Since the activity for each isotope is converted to a unitless fraction, the input activity can be expressed in any normal activity units. Note that the input activity is used strictly to determine the activity ratios - the absolute value or units of the input activity has no meaning in subsequent calculations.
The dose rate, DR1 (mrem/h), at a point downwind from a radiological release is equal to:
[1]
DRt =Qt* (X/Q) "(DCFt)" (1.1408E-4 yr/h)
[2]
where:
01 =release rate (uCi/s)
X/Q =dispersion (s/m3)
DCF1 = dose conversion factor (mrem-m3/uCi-yr)
- 1.1408E
- 4 is a unit conversion factor : = ( 1 year
- 1 day )
365.25 day 24 hr Re-arranging equation [2] to solve for the release rate yields:
Q, = DR1 I ((X/Q),,; (DCFt) * (1.1408E-4)
[3]
The dose rate conversion factor for a mixture of nuclides in the sum of the normalized DC Fi for each nuclide, I:
[4]
Beaver Valley Power Station Health Physics Technical Position/Evaluation/Calculation
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BVPS-U2 Gaseous Radioactivity Monitor Emergency Action Levels Substituting equation [4] into equation (3] gives:
Ct = DRt I ((1.1408E-4) * (X/C)
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ERS-MPD-93-008 4
(5)
Equation (5) is valid for either TEDE or child thyroid dose, provided the appropriate DCFs are used. In order for the thyroid dose-related monitor reading to be valid, all nuclides must be included in determining S1. While only radioiodines contribute significantly to thyroid dose, the noble gas nuclides nevertheless contribute to the monitor reading.
Once the release necessary to obtain the desired total dose rate is determined, it can be ratioed by Si to obtain 01, the activity of nuclide i as follows:
C1 = Ct* S1 To obtain the release concentration, divide by the release flow:
C1 = (2.12E-3
To obtain the monitor count rate for a single nuclide:
CR1 = E1*C1 Where Ei is the efficiency (cpm/uCi/cc) of the monitor for nuclide i. The count rate for the release as a whole is then:
- cRt = ~1S1*CR1 At Unit 2, the radiation monitor software uses a conversion factor (CF11) to convert cpm to uCi/cc (and uCi/s for some monitor channels). Because this conversion is nuclide mix specific, the correlation of monitor response to dose requires additional calculations as described later.
The following is a description of the math performed by the EXCEL spreadsheets used in this Technical Evaluation. This has been verified to produce results consistent with the previously used XRADMON application and the math described above.
An EXCEL spreadsheet was made for each accident type and radiation monitor combination that is appropriate for the accident type. Each spreadsheet consists of 15 columns with a row for each radionuclide. At the bottom of each spreadsheet, there is a section used to convert cpm to TEDE and child thyroid. Additionally, each spreadsheet has cells used for inputting release flow rate (cfm) and the atmospheric dispersion factor (X/Q) (s/m3). Details of all spreadsheet math is provided below:
Column 1 - List of the individual isotopes that comprise the accident source term.
Each isotope occupies a row.
Column 2 - Total release quantity (Ci) for each isotope specific to the accident type. These values are taken from ERS-MPD-01-002.
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Column 3 - Activity ratio for each nuclide. This is a unitless fraction of the total for each nuclide calculated by:
col 1 I ~col 1 fraction = Ci I Ci where Ai is the activity of each individual nuclide.
Column 4 - List of the TEDE dose conversion factors (DCFs) for each radionuclide (mrem-m3/uCi-yr).
Column 5 - Effective DCF col 3 col 4 mrem-m3/uCi-yr = mrem-m3/uCi-yr
Release rate (uCi/s) that, for each nuclide in the specific accident mix, will result in a TEDE rate of 1 mrem per hour of exposure to the total mix. First, math equivalent of the equation above is performed in the top section of the spreadsheet. Then, for each nuclide, this is multiplied by the unitless activity fraction in column 3.
col 3 unit rate I (time conversion
- X/Q
- L: col 5) uCi/s = unitless fraction * (1 mrem/h I ((1 yr I 8760 hr) * (s/m3) * (mrem-m3 I uCi/yr)))
One mrem per hour is selected so that the calculated release rate need only be multiplied by the desired total mrem to calculate that release rate that will cause the total mrem over one hour. The ODCM X/Q associated with the release point for the radiation monitor is entered in a cell on each spreadsheet.
Column 7 -
Release concentration (uCi/cc) that, for each nuclide in the specific accident mix, will result in a TEDE rate of 1 mrem per hour of exposure to the total mix.
col 6 I flow rate uCi/cc = uCi/s I eels The release pathway flow rate (cfm) for the radiation monitor is entered in a cell on each spreadsheet and converted to eels.
Column 8 - List of the monitor specific detection efficiencies (cpm/uCi/cc) for each isotope. These values are taken from ERS-SFL-86-026.
Column 9 -The radiation monitor count rate (cpm) that, if sustained for 1 hour, will cause 1 mrem TEDE to an individual located at the site boundary.
col 7 I
col 8 cpm = uCi/cc I cpm/uCi/cc Two additional math operations are performed at the bottom of each spreadsheet. First the calculated cpm for 1 mrem is multiplied by the desired dose (10, 100 and 1000 mrem for TEDE). Then these values are multiplied by the current monitor CF11 (uCi/cc-cpm) to calculate the monitor indication (uCi/cc) that corresponds to each of these doses. Again, this applies at the site boundary for a 1 hour exposure duration.
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Indicators for child thyroid doses of 50, 500 and 5000 mrem are calculated in the manner described above in columns 10 through 15. The only difference is that TEDE DCFs are replaced with child thyroid DCFs.
The main steam and SLCRS pathway monitors are provided with an effluent channel that converts the release rate in units of uCi/cc to units of uCi/s. EAL values are calculated for these channels using the following unit conversion constants and r:nath:
uCi/s = (calculated EAL uCi/cc) * (pathway flow rate ft3/min) * (1 min/60 s) * (2.832E4 cc/ft3)
Consistent with previous methodology, the ERS-MPD-01-002 STGR source term is reduced by 0.01 for the release through the Condensate Polishing Vent because this pathway is filtered.
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BVPS-U2 Gaseous Radioactivity Monitor 7
Emergency Action Levels ERS-MPD-93-008 INPUT DATA I ASSUMPTIONS
- 1. Release Source Terms (2)
Iodine reduction is applied as was done in previous revisions for the release via gaseous pathways.
This is already applied in ERS-MPD-01-002 for all accidents except the SGTR, MSLB and LRA/LACP. For these accidents (that are not normally associated with a filtered pathway as modeled in the design basis analyses), an iodine reduction factor of 0.01 is applied herein to ERS-MPD-01-002 source terms for use in this evaluation when the monitor is for a pathway expected to be filtered.
This reduction factor is also applied for unfiltered pathways, taking credit for other iodine removal mechanisms (plate-out, scavenging by humidity, agglomeration and retention in leakage fluids), again consistent with previous revisions. For releases via the main steam valves, no additional iodine reduction is used for these. Iodine reduction is not applicable for the gaseous waste system failure i1'S this release contains no iodine.
Again, iodine reduction as described above is consistent with the intent of the previous revisions and the calculations performed for Unit 1.
This is appropriate as these source terms are intended only for use in EPP applications.
As such, they are modified to more closely reflect actual plant conditions.
The release source terms used are shown in the spreadsheet calculation printouts included with this evaluation.
- 2. Unit 2 release 12oint data (1,5,6)
Monitor CF11 Pathway flow ODCM Release Point Radiation monitor (uCi/cc-coml Ranae (uCi/cc) rate (cfm)
X/Q (s/m3)
Ventilation Vent 2HVS-RQ101B 3.65E-8 3.7E-7 to 3.72E-1 23700 1.03E-4 Condensate Polishing Bldg.
2-HVL-RQ112B 5.56E-8 5.6E-7 to 5.6E-1 30556 7.35E-5 Supplementary Collection 2HVS*RQ1098 2.45E-8 2.5E-7 to 2.5E-1 59000 9.24E-5 and Release System 2HVS~RQ109C 4.09E-5 3.9E-4 to 3.9E2 59000 9.24E-5 (SLCRS) 2HVS*RQ109D 1.12E-2 8.9E-2 to 6.9E4 59000 9.24E-5 Waste Gas Tank Vault Vent 2RMQ-RQ303B 2.79E-8 2.6E-7 to 2.BE-1 2000 9.24E-5 Decon Building Vent 2RMQ-RQ301 B 5.56E-8 5.6E-7 to 5.6E-1 12400 9.24E-5 Main Steam Exhaust 2MSS*RQ101A,B,C 2.50E-4 2.5E-3 to 2.5E3 5474 9.24E-5 The main steam exhaust flow rate in cfm is calculated as follows:
The maximum release rate from an open main steam safety valve of 811,237 lbm/hr8 at 1075 psig (1089.7 psia) is used at the basis for the main steam exhaust flow rate.
The specific volume is 0.40485 ft3/lb at saturation conditions.
5474 ft3/min = (811237 lb/hr) * (0.40485 ft3/lb) * (1 hr/60 min)
.}
For use in the calculations, spreadsheet math is used to convert this to units of eels:
2.584E6 eels = (5474 ft3/min) * (1 min/60 s) * (2.832E4 eel ft3)
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In addition to the channels listed above, EAL values will also be calculated for the "effluent channels" of the main steam monitors and 2HVS'*RQ-109E. These channels indicate in units of uCi/s. The monitor software calculates indication values for these channels using the uCi/cc values and the pathway flow rate.
- 3. Radiation monitor nuclide detection efficiencies
[4]
Detection efficiencies for each monitor and for each nuclide are listed on each spreadsheet.
- 4. Dose conversion factors
[8]
The TEDE conversion factors (DCFs) are taken from ERS-MPD-91-046 (units of mrem-m3/uCi-yr).
In this emergency dose projection application, 4-day dose from ground deposition is included. These DCFs are equivalent to those in EPA Report 40010 and are expressed with three significant digits.
The child thyroid conversion factors (DCFs) are taken from ERS-MPD-91-046 (units of mrem-m3/uCi-yr). These were developed from child thyroid DCFs provided in USNRC Regulatory Guide 1.109 Table E-9.
All DCFs listed on each spreadsheet.
- 5. Accident Types
[2]
Gap LOCA Loss of Coolant Accident with release of a fraction of fuel rod gap activity DBA LOCA Design Basis Loss of Coolant Accident RCS LOCA Loss of Coolant Accident with release of T.S. limit concentration RCS activity TIO LOCA TIO 14844 source term release assumptions (failed ESFs)
SB LOCA Small break LOCA outside of containment FHA Fuel Handling Accident RCCA Rod Control Cluster ejection Accident LACP/LRA Loss of Non-emergency AC Power/Locked (reactor coolant pump) Rotor Accident MSLB Main Steam Line Break SGTR Steam Generator Tube Rupture GWS Fail Gaseous Waste System Failure
- 6. Accident Types and Applicable Release Pathways This technical evaluation provides conversions for all accident source terms for each radiation monitor. Because not all accident types necessarily have a release pathway applicable to each monitor, the following tables are provided to identify the most likely combinations.
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BVPS-U2 Gaseous Radioactivity Monitor Emergency Action Levels ERS-MPD-93-008 9
Monitor 2HVS-RQ101B, Ventilation Vent OBA LOCA, GAP LOCA, RCS Leakage via penetrations into contiguous areas LOCA, TIO LOCA, RCCA SB LOCA SGTR, LACP/LRA FHA GWS, MSLB Leakage into contiguous areas No reasonable path to this release point Fuel handling accident in containment No physical pathway Monitor 2HVL-RQ112B, Condensate Polishing Building Vent DBA LOCA, GAP LOCA, RCS No reasonable pathway LOCA, TIO LOCA, RCCA, SB LOCA, FHA, GWS, MSLB, LACP/LRA SGTR Via condensate leakage Monitor 2HVS*RQ109B, C, D, E (Effluent Channel), SLCRS DBA LOCA, GAP LOCA, RCS Leakage via penetrations into contiguous LOCA, TIO LOCA, RCCA areas, or to the PAB with diversion SB LOCA Leakage into contiguous areas, or to PAB with diversion FHA SGTR, LACP/LRA GWS, MSLB From fuel pool via FHB exhaust or, fuel handling accident in containment No likely pathway No physical pathway Monitor 2RMQ-RQ303B, Waste Gas Storage Tank Vault Vent DBA LOCA, GAP LOCA, RCS No release via this pathway LOCA, TIO LOCA, RCCA, SB LOCA, FHA, SGTR, MSLB, LACP/LRA GWS Directly to this release point Monitor 2RMQ-RQ301 B, Oecon Building Vent OBA LOCA, GAP LOCA, TID No release via this pathway LOCA, RCCA, SB LOCA, FHA, SGTR, MSLB, LACP/LRA, GWS RCSLOCA Selected as a general source term
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BVPS-U2 Gaseous Radioactivity Monitor Emergency Action Levels REVISION: 8 No.:
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ERS-MPD-93-008 1 0 Monitor 2MSS*RQ101 Effluent Channel Main Steam Release Point DBA LOCA, GAP LOCA, TID No release via this pathway LOCA, RCCA, SB LOCA, FHA, MSLB, RCS LOCA, LACP/LRA, GWS, Kr-85, Xe-133 SGTR, LACP/LRA Release via a lifted safety valve during the event. SGTR is used as the limiting accident.
- 7. 2HVS*RQ109E Effluent Channel The effluent channel of the SLCRS wide range gas monitor (WRGM), 2HVS*RQ109E, contains software which converts the effluent concentration into a uCi/s release rate. In addition, the software selects a value from one of the three ranges based on a crossover point which is expressed in activity. The value from the low range detector is used until the activity is 1 E-2 uCi/cc, then the value from the middle range detector is used. When the activity reaches 1 E2 uCi/cc, the high range detector is used to determine the release rate. The software selects the conversions factor from the detector in use at the time the calculation is made. This will affect the calculation of the release rate EALs since the effluent channel may be using any of the three detectors.
Consistent with previous revisions, the mid-range detector (2HVS*RQ109C) is used to calculate the effluent channel EAL.
- 8. Application of Monitor Background Because background indication may vary, it is not considered in this technical evaluation.
The EAL values calculated herein are net values, and are in addition to normal monitor background indication.
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BVPS-U2 Gaseous Radioactivity Monitor Emergency Action Levels ERS-MPD-93-008 11 RESULTS details the UE EAL calculations. Attachment 2 and Attachment 3 provide a summary and details of the Alert, SAE and GE EAL calculations. No value is shown where the calculated value exceeds the monitor range or, for the main steam monitors, no ODCM limit is specified. The summary of all results is:
Release Point Radiation monitor UE Alert SAE GE Ventilation Vent 2HVS-RQ101 B 6.02E-4 uCi/cc 1.67E-2 uCi/cc 1.67E-1 uCi/cc out of range Condensate Polishing Bldg.
2-HVL-RQ112B 3.22E-3 uCi/cc 8.22E-2 uCi/cc out of range out of range 2HVS*RQ109B 2.12E-4 uCi/cc 8.13E-3 uCi/cc 8.13E-2 uCi/cc out of range Supplementary Collection 2HVS*RQ109C n/a 7.26E-3 uCi/cc 7.26E-2 uCi/cc 7.26E-1 uCi/cc and Release System 2HVS*RQ109D n/a n/a out of range 6.45E-1 uCi/cc (SLCRS) 2Hvs*RQ109E 5.88E+3 uCi/s 1.95E+5 uCi/s 1.95E+6 uCi/s 1.95E+7 uCi/s Effluent Channel Waste Gas Tank Vault Vent 2RMQ-RQ303B 5.16E-2 uCi/cc out of range out of range out of range Decon Building Vent 2RMQ-RQ301B 6.30E-3 uCi/cc 5.28E-1 uCi/cc out of range out of range Main Steam Exhaust 2Mss*RQ101A,B,C nla 4.65E-2 uCi/cc 4.65E-1 uCi/cc 4.65EO uCi/cc Main Steam Exhaust Eff.
2Mss*RQ101A,8,C nla 1.32E+5 uCi/s 1.32E+6 uCi/s 1.32E+7 uCi/s Effluent Channels
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BVPS-U2 Gaseous Radioactivity Monitor Emergency Action Levels ERS-MPD-93-008 12 REFERENCES
- 1.
BVPS Offsite Dose Calculation Manual (ODCM), 1/2-0DC-2.02.
- 2.
BVPS Technical Evaluation, ERS-MPD-01-002, "Determination of Release Source Terms for BVPS Accidents for Emergency Planning Purposes".
- 3.
SWEC Calculation 10080-UR(B)-487, "Site Boundary, Control Room and Emergency Response Facility Doses following a Loss-of-Coolant Accident Based on Core Uprate, and Atmospheric Containment, and Alternative Source Term Methodology".
- 4.
BVPS Technical Evaluation ERS-SFL-86-026, "Unit 2 ORMS Isotopic Efficiencies".
- 5.
Unit 2 DRMS Database
- 6.
Procedure 2-HPP-4.02.021, "DRMS Effluent Monitoring Subsystem".
- 7.
BVPS Unit 2 Operating Manual 20M-21.2B, "Main Steam System, Precautions, Limitations and Setpoints".
- 8.
BVPS Technical Evaluation ERS-MPD-91-046, "Determination of Dose Conversion Factors for Use in EPP Emergency Action Level (EAL) Indicators".
- 9.
USEPA 400-R-92-001, "Manual of Protective Action Guides and Protection Actions for Nuclear Incidents".
- 10. USNRC 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".
- 11. NEI 99-01 Revision 6, Methodology for Development of Emergency Action Levels, November 2012.
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BVPS-U2 Gaseous Radioactivity Monitor Emergency Action Levels UE EAL Calculations:
Release Point Radiation monitor Ventilation Vent 2HVS-RQ 101 B Condensate Polishing Bldg.
2-HVL-RQ112B Supplementary Collection and Release System (SLCRS)
Waste Gas Tank Vault Vent Decon Building Vent 2HVS*RQ109B 2HVS*RQ109C 2HVS*RQ109D 2HVS*RQ109E 2RMQ-RQ303B 2RMQ-RQ301B REVISION: 8 No.:
ERS-MPD-93-008 ODCM Limit<1>
3.01 E-4 uCi/cc 1.61 E-3 uCi/cc 1.06E-4 uCi/cc(2l
__ _(3)
___ (3) 2.94E+3 uCi/s 2.58E-2 uCi/cc 3.15E-3 uCi/cc Main Steam Exhaust 2MSS*RQ101A,B,C n/aC4l
<1>From 1/2-0DC-2.02
<2>values are derived by unit conversion of 2HVS-RQ109E.
!3lThese higher range channels are not used for the low concentrations associated with the ODCM limit.
<4>No ODCM limit associated with these monitors.
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BVPS-U2 Gaseous Radioactivity Monitor ERS-MPD-93-008 14 Emergency Action Levels Calculation Summary:
\\
Ventilation Vent:
2HVS-RQl1l13:
Alert SAE GE LOCA Gap 7.61E-02 7.61E*01 7.61Ei00 TEDE 167E-02 167E*01 167E+OO THYROID DBA LOCA 8.7DE-02 8.70E-01 8.70Ei00 TEDE 2.47E-02 2.47E-01 2.47Ei00 THYROID LOCA RCS 5.89E*D1 5.89E+OO 5.89E+01 TEDE 163E*01 t63E+OO 163E+01 THYROID LOCA TIO t99E-02 t99E-01 t99ETOO TEDE t98E-02 t98E-01 198ETOO THYROID SB LOCA 6.26E-02 6.26E-01 6.26EiOO TEDE 3.14E-02 3.14E-01 3.14Ei00 THYROID FHA 2.85E*01 2.85E-+OO 2.85Ei01 TEDE 6.75E-01 6.75Ei00 6.75Ei01 THYROID RCCA 129E*01 t29Ei00 129E-1()1 TED E 3.58E-D1 3.58Ei00 3.58Ei01 THYROID Minimum Value =
1.67E*02 1.6 7E *O 1 1.67E+OO Condensate P ollshlng:
2HVS-RQl112B:
Alert SAE GE SGTR 8.22E-02 8.22E-01 8.22Ei00 TEDE t1lE.f-OO 11lE-+01 11lEi02 THYROID Minimum Value =
8.22E-02 8.22E*O 1 8.22E+OO SLCRS:
2HVS"R 011l9B:
Alert SAE GE LOCA Gap 3.70E-02 3.7DE-01 3.70Ei00 TEDE 8.13E*03 8.13E*02 8.13E*01 THYROID OBA LOCA 4.20E*02 4.20E-01 4.20E-l()O TED E 4.20E-02 UlE*01 119E+OO THYROID LOCA RCS 3.29E-01 3.29E+OO 3.29Ei-01 TED E 9.09E-02 9.09E-01 9.09E+OO THYROID LOCA TIO 127E-02 127E-01 t27ETOO TEDE 127E-02 127E-01 t27E+OO THYROID SB LOCA 3.07E*02 3.07E-01 3.07E+OO TEDE 154E-02 154E-01 t54E+oO THYROID FHA 134E-01 134E+OO 134E-1()1 TEDE 3.13E-01 3.18E+OO 3.18E-1()1 THYROID RCCA 6.36E-02 6.38E*01 6.3BE+OO TEDE t76E-01 t76E+OO 176Ei-01 THYROID M lnimum Value =
8.13E*03 8.13E*02 8.13E*01 2HVS'R011l9C:
Alert SAE GE LOCA Gap 3.31E-02 3.31E-01 3.31Ei00 TEDE 7.26E-03 7.26E*02 7.26E-01 THYROID DBALOCA 3.83E*02 3.83E-01 3.83E+oO TEDE t06E*02 tOBE*01 108Ei00 THYROID LOCA RCS 159E-01 159E+OO 159E+01 TED E 4.40E-02 4.40E-01 4.40Ei00 THYROID LOCA TIO 2.37E-02 2.37E-01 2.37Ei00 TEDE 2.36E*02 2.36E*01 2.36E+OO THYROID SB LOCA 2.76E-02 2.76E-01 2.76Ei00 TEDE t39E-02 139E*01 139Ei00 THYROID FHA 112E-01 112Ei00 t 12Ei-01 TEDE 2.65E-01 2.65Ei00 2.65E+01 THYROID RCCA 5.78E-02 5.78E-01 5.7BE+OO TEDE t60E*01 160Ei00 t60Ei01 THYROID M lnimum Value =
7.26E*03 7.26E*02 7.26E*01 2HVS'R011l9E:
Minimum Value=
1.95E+06 1.95E+06 1.95E+07
Beaver Valley Power Station Health Physics Technical Position/Evaluation/Calculation REVISION: 8
Subject:
No.:
Page:
BVPS-U2 Gaseous Radioactivity Monitor ERS-MPD-93-008 15 Emergency Action Levels I
Calculation Summary (continued):
SLCRS (continued):
2HVS'RQl1l9D:
Alert SAE GE LOCAGap 2.94E-02 2.94E-01 2.94E-IOO TEDE 6.45E-03 6.45E-02 6.45E-01 THYROID DBA LOCA 3.39E-02 3.39E-01 3.39E-IOO TEDE 3.17Ei00 9.62E-02 9.62E-01 THYROID LOCA RCS 147E-01 t47Ei00 147Ei01 TEDE 4.07E-02 4.07E-01 4.07Ei00 THYROID LOCA TIO 2.29E-02 2.29E-01 2.29Ei00 TEDE 2.27E-02 2.27E-01 2.27Ei00 THYROID SB LOCA 2.53E-02 2.53E-01 2.53E-IOO TEDE t27E-02 1.27E-01 t27Ei00 THYROID FHA 9.73E-02 9.73E-01 9.73Ei00 TEDE 2.3'E-01 2.3'Ei00 2.3'Ei01 THYROID RCCA 5.14E-02 5.14E-01 5.14Ei00 TEDE 1.42E-01 t42Ei00 142Ei01 TH YR 010 M lnimum Value=
6.45E*03 6.45E-02 6.45E*01 Decon Building:
2RMO-ROl301l:
Alert SAE GE LOCA RCS 19'E-OO t9"E.f01 191Ei02 TEDE 5.28E-01 5.28Ei00 5.28Ei01 THYROID M lnimum Value =
5.28E*01 5.28E+OO 5.28E+01 Waste Gas Decay Tank Vault Vent:
2RMO-RQl303B:
Alert SAE GE GW3 2.05Ei00 2.0SE-!01 2.05Ei02 TEDE nla n/a n/a THYROID Minimum Value=
2.0SE+OO 2.05E+01 2.05E+02 M aln Steam:
2MSS"RQl101A,B,C Alert SAE GE SGTR tBBE-01 tBBEiOO 1.88Ei01 TEDE 4.65E-02 4.65E-01 4.65Ei00 THYROID Min Im urn Value=
4.66E-02 4.65E-01 4.65E+OO 2MSS'RQl1J1".,B,C EFF Minimum Value =
1.32E+05 1.32E+06 1.32E+07
N m [JJ g> :i: to X/Q =
1.0JE-04 s1m' Monitor efficiencies from ERS-SFL-86-026 Upstream filtration (iodines reduced 0.01)
Release (uCVs) CF for TEDE =
1.17E+05 I
3 <.2:
Cl (D
2HVS-ROl-101 B Release Flow Rate;;
2.37E+04 elm 1.12E+07 cr./s Release ruats1 CF ror cnila Tn'ITnia = 5.16E+03 (I) "'tJ CD g: PJ U1 &U2 Activily t:ttectiw Count Ettective Count
~ en g..,, <
LOCAGap Ratio DCF DCF Release Release Efficiency Rate DCF DCF Release Release Efficiency Rate en CQ
- r I
(D Isotope (Ci)
Cmrem-m 3/uCi~vl (uCi/s)
(uCi/cc)
(cpm/uCiicc)
(cpmfmremlh)
(mrem-m3/uCi-vl (uCVs)
{uCi/cc)
(cpm/uCi/cc)
(cpm/mremhl)
I (I) c
""1 Kr-83m 9.01E*01 2.02E-03 4.69E-01 9.48E-04 2.37E+02 2.12E-05 OOOE+OO O.OOE+OO O.OOE+OO O.OOE+OO 1.04E+01 9.32E-07 O.OOE+OO O.OOE+DO
- a
-
- s N 0
Kr.SSm 2.21E+02 4.96E-03 8.17E+02 4.05E+OO S.62E+02 5.20E-05 3 20E+07 1.66E+03 0.00E+OO O.DOE+OO 2.56E+01 229E-06 320E*07 7.31E+01 0
Kr-85 1.27E*03 2.65E-02 1.12E+01 3.19E-01 3.34E+03 2.SSE-04 3 60E*07 1.08E+04 O.OOE+OO O.OOE+OO 1.47E+02 1.31E-05 3.60E+07 4.73E+02
(') G)
-:l Kr-87 8.4SE+01 1.69E-03 4.47E+03 8.47E+OO 2.22E+02 1.99E-05 3.73E+07 7.42E+02 D.OOE+OO O.OOE+OO 9.78E+OO 8.74E-07 3.73E+07 3.26E+01 (I)
PJ
-lo.
(")
Kr-88 3.5BE+02 8.03E-03 1.13E+04 9.07E+D1 9.43E+02 8.43E-05 3 05E*07 2.57E+03 O.OOE+OO O.OOE+OO 4.14E+01 3.70E-06 3.05E+07 1.13E+02 0
)> m
- r -
Kr-89 7.SOE-02 1.68E-06 1.02E*D4 1.72E-02 1.97E-01 1.nE-08 3 72E*07 6.57E-01 O.OOE+OO 0.00E+OO 8.68E-03 7.76E-10 3.72E+07 2.BSE-02 UJ
- i -
-lo.
o*
(D Xe-.131m 7.26E+02 1.63E..Q2 4.29E+01 6.98E-01 1.91E+03 1.71E-04 2 44E+07 4.17E+03 O.OOE+OO O.OOE+OO B.40E*01 7.51E-06 2.44E+07 1.83E+02
(") (I)
~ ~
Xe-133m 6.33E+02 1.42E-02 1.49E+02 2.11E*OO 1.67E+03 1.49E-04 2 86E*07 4.26E*03 O.OOE+OO O.OOE+OO 7.32E+01 6.SSE-06 2.66E+07 1.87E+02
< = 0 Xe-133 3.72E+04 8.34E-01 1.76E+02 1.47E+02 9.79E+04 8.76E-03 1 80E+07 1.58E+OS O.OOE+OO O.OOE+OO 4.30E+03 3.85E-04 1.BOE+07 6.92E*03 0
CD c
0
""C Xe-135m 1.24E+03 2.78E-02 2.15E+03 5.98E+01 3.26E+03 2.92E-04 7.22E+06 2.11E+03 O.OOE+OO 0.00E+OO 1.43E+02 1.28E-05 722E+06 9.25E+01 Xe-135 2.71E+03 6.0BE-02 1.25E+03 7.60E+01 7.14E+03 6.38E-04 3.86E+07 2.46E+04 O.OOE+OO O.OOE+OO 3.14E+02 2.BOE-05 3.86E+07 1.08E+03
- l
- s UJ
- .* 0 Xe-137 2.SSE-01 5.72E-06 9.55E+02 5.46E-03 6.71E-01 6.00E-08 3 78E+07 2.27E+OO 0.00E+OO O.OOE+OO 2.95E-02 2.64E-09 3.78E+07 9.96E-02 r-
- :u s*
~
- i Xe-138 7.BOE+OO 1.75E-04 6.27E+03 1.10E+OO 2.05E+01 1.64E-06 3 52E+07 6.47E+01 O.OOE+OO O.OOE+OO 9.02E-01 8.07E-08 3.52E+07 2.64E+OO Ill CD 1-131 2.73E+01 6.12E-04 4.66E*OS 2.8SE+02 7.19E+01 6.43E-06 2 98E*OS 1.91E+OO 2.44E+07 1.49E+04 3.16E+OO 2.82E-07 2.98E+OS 8.40E <
DJ tTl (D
1-132 1.32E+01 2.96E-04 4.33E+04 128E+01 3.48E+01 3.11E-06 3 72E+05 1.16E+OO 2.90E+05 8.58E+01 1.53E+OO 1.37E-07 3.72E+OS 5.0SE-02 0
- a.
CD
~
1-133 1.06E+01 2.38E-04 1.28E+05 3.04E+01 2.79E+01 2.49E-06 3.69E*05 9.19E-01 5.77E+06 1.37E+03 1.23E+OO 1.10E-07 3.69E+05 4.04E-02
- l ur 0 s::
(/1 1-134 6.51E-01 1.46E-05 2.69E+04 3.93E-01 1.71E+OO 1.53E-07 3.78E+05 5.78E-02 7.60E+04 1.11E+OO 7.53E-02 6.73E-09 3.78E+D5 2.54E-03 a
1-135 3.38E+OO 7.SBE-05 7.10E+04 S.38E+OO 8.90E+OO 7.96E-07 3 49E+05 2.77E-01 1.19E+06 9.02E+01 3.91E-01 3.50E-08 3.49E+OS 1.22E-02 m
s*
f""t-4.46E+04 7.24E+02 2.09E+05 1.65E+D4 4.61E-04 9.16E+03 CD
(")
- i ~
I
- l (i -*
.. ***1 ChPdThyroid :::/:A;P,iJ:i::::>>
Monitor conversion factor CF11 (uCi/cc-cpm) =
3.SSE-08 uCi/cc TEDE
.*.*epm.*.*.
uCi/cc Ill 0
7.61E-02 1.00E+01
- Z.iJSE~oo:
1.67E-02 5.00E+Ol
- -:*:4.~E*llS>:*
0 7.61E-01 1.00E+02
- ~-~+.ct.:
1.67E-01 5.00E*02
- 'I.~~+:>:
c:
- s 7.61E+OO 1.00E+03
1.67E+OO 5.00E+03 -:-:-a:see+ot*:-:
~
s:
c;*
0
- I
- I XJO. =
1.03E-04 s/m3 0
Monitor efficiencies from ERS-SFL-86-026 Upstream filtration (iodines reduced O.D1)
Release (uCi/s) CF for TEDE = 1.38E+05
~
2HVS-ROl-101B Release Flow Rate =
2.37E+04 elm 1.12E+07 cr.is Release ruc~sl CF for Child Thvroid = 7.70E+03 U1 IS
Xe-131m 1.45E+04 1.SSE-02 429E+01 7.0SE-01 2.24E+03 2.00E-04 2.44E+07 4.90E*03 O.OOE+OO 0.00E*OO 1.27E+02 1.14E-05 2.44E*07 2.78E+02 Ef I
Xe-133m 1.27E+04 1.45E-02 1.49E*02
- 2. 16E+OO 1.96E+03 1.76E-04 2.86E+07 5.02E+03 O.OOE+OO O.OOE*OO 1.111:+02 9.95E-06 2.86E+07 2.85E+02 s:
- u Xe-133 7.43E+OS 8.46E-01 1.76E+02 1.49E+02 1.15E+05 1.03E-02 1.80E+07 1.65E*05 O.OOE+OO O.OOE+OO 6.51E+03 5.82E-04 1.80E+07 1.0SE+04 n "'C m
Xe-135m 248E+04 2.82E-02 2.15E+03 6.07E+01 3.83E+03 3.43E-04 7.22E*06 2.47E+03 O.OOE+OO O.OOE+OO 2.17E+02 1.94E-05 7.22E+06 1.40E+02
- J" IXe-135 5.42E+04 6.17E-02 1.25E+03 7.72E+01 8.38E+03 7.49E-04 3.86E+07 2.89E+04 O.OOE+OO O.OOE+OO 4.75E+02 4.25E-05 3.66E+07 1.64E+03 3 0 en Xe-137 509E+OO 5.SOE-06 9.55E+02 5.54E-03 7.87E-01 7.03E-08 3.78E+07 2.66E+OO O.OOE+OO O.OOE*OO 4.46E-02 3.99E-09 3.78E*07 1.51E-01 I
0 Xe-138 1.56E+-02 1.7BE-04 6.27E+03 1.11E+OO 2.41E+01 2.16E-06 3.52E+07 7.59E+01 O.OOE*OO O.OOE*OO 1.37E*OO 1.22E-07 3.52E+07 4.31E*OO C1) CD 1-131 3.41E*02 3.88E-04 4.66E+05 1.81E+02 5.27E+01 4.71E-06 2.98E+05 1.40E*OO 2.44E*07 9.48E+03 2.99E+OO 2.67E-07 2.98E*05 7.95E-02
- s w z
1-132 2.64E+02 3.01E-04 4.33E+04 1.30E+01 4.08E+01 3.85E-06 3.72E+05 1.38E+OO 2.90E+05 8.72E*01 2.31E+OO 2.07E-07 3.72E+05 7.69E-02 w
I 1-133 2.12E*02 2.41E-04 1.28E+05 3.09E+01 3.2BE+01 2.93E-06 3.69E+05 1.08E+OO 5.77E+06 1.39E+03 1.86E+OO 1.66E-07 3.69E+05 6.12E-02 0
C>>
1-134 1 30E*01 1.48E-05 2.69E+04 3.98E-01 2.01E+OO 1.BOE-07 3.78E+05 6.78E-02 7.60E+D4 1.13E+OO 1.14E-01 1.02E-08 3.78E+OS 3.BSE-03 0
1-135 6 7SE+01 7.69E-05 7.10E+04 5.46E*OO 1.04E+01 9.33E-07 3.49E+05 3.25E-01 1.19E+06 9.15E+01 5.92E-01 5.29E-08 3.49E+05 1.84E-02 Q) 8.78E*OS 6.27E+02 2.38E+05 1.10E*04 6.BeE-04 1.35E*04 Monitor conversion taaor CF11 (UCVcc-cpm) = 3.85E-08 I
UCi/cc TEDE
- c;im.-:::1 uCi/cc Child Thyroid : /:"i;iii]i:::::
"'ti Cl 8.70E-02 1.00E+01 : * *2.SSE.+06:
2.47E-02 5.00E+01
!10 8.70E-01 1 OOE+02 : : ~:~i;::~o7:
2.47E-01 5.00E+02
- -5_:1si:~oo<
{I) 8.70E*OO 1.00E+03.. ~*"O'C'*M.
2.4!71::::._oo 5.00E*03
- -il;ii;;,~07 :
~
(J)
N m mg> :r: ~
(1)
I 3 <.2: I>>
(l)
)(/Q = 1.03E-04 slm' CD.,, ~ :r ~
Monitor efficiencies Imm ERS-SFl-86-026 Upstrean filtration (iodines reduced 0.01)
Release (uCils) CF !orTEOE = 6.41E+05
.., en~ -0 <
en cc
- r 2HVS-ROl-101 B Release Flow Rate =
- 1. 12E*07 eds Release luCilsl CF for Child Thvmld = 3.54E+04 I
I (l)
U2only Activity
"'"'dive Count Effective Count
- u CD c
'"'1 LOCARCS Ratio OCF OCF Release Release Efficiency Rate OCF OCF Release Release Efficiency Rate
- I N Isotope (Ci)
Cmrem-m'luCi-vl (uCils)
(uCilcc)
(cpm/l.Ci/cc)
(cpm/mrem/h)
Cnvem-m3flCi-vl (uCi/S)
(uCi/cc)
(cpm/uCi/cc)
(cpm/mrem/h) D
(')
G>
-l Kr-83m 1 34E-03 2.27E-05 4.69E-01 1.07E-05 1.46E+01 1.30E-06 O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO 8.0SE-01 7.20E-08 0.00E+OO 0.00E+OO -
(1)
~
-lo 0
Kr-85m 5 53E-03 9.39E-05 8.17E+02 7.67E-02 6.02E+01 5.38E-06 3.20E+07 1.72E+02 0.00E+OO O.OOE+OO 3.32E+OO 2.97E-07 3.20E*07 9.51E+OO DJ
- r -
Kr-85 3.27E+01 5.55E-01 1.12E+01 6.22E*OO 3.56E+05 3.18E-02 3.60E+07 1.15E+06 O.OOE+OO O.OOE+OO 1.97E+04 1.76E-03 3.60E*07 6.33E+04 0
)> en
- i Kr-87 7.04E-04 1.19E-05 4.47E+03 5.34E-02 7.66E+OO 6.85E-07 3.73E+07 2.55E+01 O.OOE+OO O.OOE+OO 4.23E-01 3.78E-08 3.73E+07 U1E+OO
-lo
(') CD o*
(t)
Kr.SS 602E-03 1.02E-04 1.13E+04 1.15E+OO 6.55E+01 5.86E-06 3.05E*07 1.79E+02 0.00E+OO O.OOE+OO 3.62E+OO 3.24E-07 3.05E+07 9.88E+OO <
~ 0
~ '-<
Kr-89 2 92E-08 4.96E-10 1.02E+04 5.0SE-06 3.18E-04 2.84E-11 3.72E+07 1.06E-03 0.00E+OO 0.00E+OO 1.76E-05 1.57E-12 3.72E+07 5.84E-05 0
-0 Xe-131m 1.18E+OO 2.00E-02 429E+01 8.5GE-01 1.28E+04 1.15E-03 2.44E+07 2.80E+04 0.00E+OO 0.00E+OO 7.09E+02 6.34E-05 2.44E+07 1.55E+03 CD c
0
'"'C Xe*133m 181E-01 3.07E-03 1.49E*02 4.58E-01 1.97E*03 1.76E-04 2.86E+07 5.04E+03 O.OOE+OO O.OOE+OO 1.09E*02 9.73E-06 2.86E+07 2.78E*02
- J
- I en
~~ 0 Xe-133 2.48E+01 4.21E-01 1.76E+02 7.41E+01 2.70E*05 2.41E-02 1.80E+07 4.34E+05 0.00E+OO O.OOE*OO 1.49E*04 1.33E-03 1.80E+07 2.40E*04
- t:
r ;tJ o*
~
Xe-135m 121E-02 2.0SE-04 2.15E+03 4.42E-01 1.32E+02 1.18E-05 7.22E+06 8.49E+01 O.OOE+OO O.OOE+OO 7.27E+OO 6.50E-07 7.22E+06 4.69E+OO m
t:!_
Xe-135 1.BSE-02 3.16E-04 1.25E+03 3.95E-01 2.02E+02 1.81E-05 3.86E+07 6.97E+02 O.OOE+OO 0.00E+OO 1.12E+01 1.00E-06 3.86E+07 3.85E+01
.-+
CD DJ
[Tl (t)
Xe-137
, 19E-07 2.02E-09 9.55E+02 1.93E-06 129E-03 1.16E-10 3.78E+07 4.37E-03 0.00E+OO O.OOE+OO 7.15E-05 6.40E-12 3.78E+07 2.42E-04
()" < c.
'"'1 Xe-138 1.32E.05 2.24E.07 6.27E+03 1.40E-03 1.44E.Q1 1.28E-08 3.52E+07 4.52E-01 O.OOE+OO O.OOE+OO 7.94E-03 7.09E-10 3.52E+07 2.!iOE-02 CD -*
~
1-131 5.41E-03 9.18E-05 4.66E+OS 4.28E*01 5.89E+01 5.26E-06 2.9BE+OS 1.57E+OO 2.44E+07 2.24E+03 325E+OO 2.91E-07 2.98E*OS 8.BSE-02
- J iii' 0 i::
'J'J a
1-132 3.62E-03 6.14E-05 4.33E+04 2.66E+OO 3.94E+01 3.52E-06 3.72E+05 1.31E*OO 2.90E*OS 1.78E*01 2.1BE+OO 1.95E.07 3.72E*05 7.24E-02 <
DJ (5".-+
1-133 1.38E-03 2.34E-05 128E+05 3.00E+OO 1.SOE+01 1.34E-06 3.69E+OS 4.95E-01 5.77E+CH 1.35E+02 8.30E-01 7.42E-08 3.69E+05 2.73E-02 CD
(')
t:!.. ~
1-134 3.61E-05 6.13E-07 2.69E+04 1.65E.02 3.93E-01 3.51E-08 3.78E+05 1.33E-02 7.60E+04 4.66E-02 2.17E-02 1.94E-09 3.78E+05 7.32E-04
- J -
n -*
1-135 3.76E-04 6.38E-06 7.10E+04 4.53E-01 4.09E+OO 3.66E-07 3.49E+05 1.27E-01 1.19E+06 7.59E+OO 2.26E-01 2.02E-08 3.49E+05 7.04E-03
.-+
0 5.89E*01 1.33E+02 1.61E+06 2.40E+03 3.17E-03 8.91E+04
~
i::
- s 0
Monitor conversion factar CF11 (uCi/cccpm) = 3.65E-08 UCi/CC TEOE
-:-:-:c;im:-:-:*
uCi/cc Child Thyroid
- ~~:"<<;~:::: 0 a
5.89E-01 1.00E+01
- ~~11;~1:: 163E-01 5.00E+01
- J s:
(5" 5.89E+OO 1.00E+02 :-1 :s:1E;.oe-:
- A4!i!'~9~::::.-+
- l 5.89E+01 1.00E+03 <-i:SiO::.:rn:-
1."-~~+01 5.00E+03
... ~ ""~+os*.....:_.,
0
- I
- +
X/Q=
1.03E-04 s1m' 0
Monitor efficiencies from ERS-SFL-88-026 Upstream filtration (iodines red..,,d 0.01)
Release (uCVs) CF for TEDE = 2.03E+04 2HVS-ROl-101B Release Row Rate =
2.37E+04 dm 1.12E+07 rx:/s Release luCUs1 CF f()( Cnild Thvrnid = 4.04E+03 U1 &U2 Activity Effective Count t:tTeciive
<.;ount LOCATID Ratio OCF OCF Release Release Efficienc~
Rate OCF OCF Release Release Efficiency Rate Isotope (C1)
Cmrem-m'JuCi-vl (uCils)
(..Ci/cc)
(cpm/UCi/cc)
(cpmlrnrem/h)
Cmrem-m31uCi-vl (uCi/s)
(i.Cilcc)
(cpmluCUcc)
(cpmlmrem/h)
Kr-83m 9 46E+06 1.31E-02 4.69E-01 6.13E-03 2.65E+02 2.37E-05 O.OOE+OO O.OOE+OO 0.00E+OO O.OOE+OO 5.28E+01 4.72E-06 O.OOE*OO O.OOE+OO Kr-85m 195E*07 2.89E-02 8.17E+02 2.20E+01 5.47E+02 4.89E-05 3.20E+07 1.56E+03 0.00E+OO O.OOE*OO 1.09E+02 9.73E-06 320E+07 3.11E+02 m
Kr.SS 827E+05 1.14E-03 1.12E+01 1.28E-02 2.32E+01 2.07E-06 3.60E+07 7.46E+01 O.OOE+OO O.OOE+OO 4.61E+OO 4.12E-07 3.60E+07 1.48E+01 z
Kr-87 3.91E+07 5.40E-02 4.47E+03 2.41E+02 1.10E+03 9.BOE-05 3.73E+07 3.66E+03 O.OOE+OO O.OOE+OO 2.18E+02 1.95E.05 3.73E+07 7.27E+02
- 0 9
Kr.SS 5.43E+07 7.SOE--02 1.13E+04 8.47E+02 1.52E+03 1.36E-04 3.0SE+07 4.16E+03 O.OOE+OO O.OOE+OO 3.03E+02 2.71E-05 3.05E+07 8.27E+02 en..
Kr-89 6.75E*07 9.32E-02 1.02E+04 9.51E+02 1.89E+03 1.69E-04 3.72E+07 629E+03 O.OOE+OO O.OOE+OO 3.77E+02 3.37E-05 3.72E+07 1.25E+03 Xe-131m 1.08E*06 1.49E-03 4.29E+01 6.40E-02 3.03E+01 2.71E-06 2.44E+07 6.61E+01 0.00E+OO O.OOE*OO 6.03E*OO 5.39E-07 2.44E+07 1.32E+01 s=
I Xe-133m 5.05E+06 6.97E-03 1.49E+02 1.04E+OO 1.42E+02 1.27E-05 2.86E+07 3.62E+02 O.OOE+OO 0.00E+OO 2.82E+01 2.52E-06 2.86E+07 7.20E+01 3:
- Al Xe-133 1.60E+08 221E-01 1.76E+02 3.89E+01 4.49E+03 4.01E-04 1.80E+07 722E+03 0.00E+OO 0.00E+OO B.93E+02 7.98E-05 1.60E+07 1.44E+03 n.,,
m Xe-135m 3.36E+07 4.64E-02 2.15E+03 9.97E*01 9.42E+02 8.42E-05 722E+06 6.08E+02 0.00E+OO O.OOE+OO 1.87E+02 1.68E-05 7.22E+06 1.21E+02
':r Xe-135 4.84E+07 6.68E-02 1.25E+03 8.35E+01 1.36E+03 121E-04 3.86E+07 4.68E+03 O.OOE+OO O.OOE+OO 2.70E+02 2.41E-05 3.86E+07 9.31E+02 3 c Ci5 Xe-137 146E+08 2.02E-01 9.55E+02 1.93E+02 4.09E+03 3.66E-04 3.78E+07 1.38E+04 O.OOE+OO 0.00E+OO 8.15E+02 7.28E.05 3.78E+07 2.75E+03 I
6 Xe-138 136E+08 1.BBE-01 6.27E+03 1.18E+03 3.81E+03 3.41E-04 3.52E+07 120E+04 O.OOE+OO O.OOE+OO 7.59E+02 6.78E-05 3.52E+07 2.39E+03 CD U) 1-131 3 89E*05 5.37E-04 4.66E+05 2.50E*02 1.09E*01 9.75E-07 2.96E+05 2.90E-01 2.44E*07 1.31E+04 2.17E*OO 1.94E-07 298E+05 5.77E-02
= w z
1-132 570E+OS 7.87E-04 4.33E+04 3.41E+01 1.60E+01 1.43E-06 3.72E+05 5.31E-01 2.90E+05 2.28E+02 3.1BE+OO 2.B4E-07 3.72E+05 1.00E-01 w
I co 1-133 800E*05 1.10E-03 1.28E+05 1.41E+02 2.24E+01 2.01E-06 3.69E+05 7.39E-01 5.77E+06 6.37E+03 4.46E+OO 3.99E-07 3.69E+05 1.47E-01 c
1-134 885E+05 1.22E-03 2.69E+04 3.29E+01 2.48E+01 2.22E-06 3.78E+05 8.38E-01 7.60E+04 929E+01 4.94E+OO 4.41E-07 3.78E+05 1.67E-01 c
1-135 7 60E*OS 1.05E.()3 7.10E+04 7.45E+01 2.13E+01 1.91E-06 3.49E*05 6.64E.01 1.19E+06 1.25E+03 4.24E+OO 3.79E-07 3.49E+05 1.32E-01
()0 7 24E+08 4.19E+03 5.45E+04 210E+04 3.61E-04 1.08E+04 Monitor converaion factor CF11 (uCUcccpm) = 3.65E-08 UcUcc TEDE
- ~;4~~:1 uCl/cc CtilldTllylt)jd
- -::Cll!'I*>.*
"'!:)
I>>
1.99E-02 1 OOE+01 198E-02 5.00E+01
Otl 1.99E.01 1.00E+02 -:s:45E-iOS:*
1.98E-01 5.00E+02 5:.aE.~ci&:
~
1.99E+OO 1.00E+03 :
- 5;4si;~ir7: 1.98E+OO 5.00E+03 * -:s*~~..:01"
.....Ji.
-...J
N m mg> :c: °'
(I) 3 <£r. I>>
(D I
)(/Q = 1.03E-04 s1m' CD "ti CD
- r
~
(/)~ "ti Monttor efficiencies from ERS-SFL-86-025 Upstream filtration (iodines reduced 0.01)
Release (uCils) CF fer TEDE = 9.40E+04 en...
- r 2HVS-RQl-101 B Release Flow Rate =
2.37E+04 cfm 1.12E+07 cc/s Release tuCi/s' CF for Chi kl Thvmid =
9.45E*03 I
cc I
(D U2 only Activity Effective Count Effective Co uni
- 0 CD c c;*
SBLOCA Ratio DCF DCF Release Release Efficiency Rate DCF DC~
Release Release Efficiency Rate
- J N lsclope (Ci)
Cmrem-m3/uCi..v)
(uCi/s)
(uCilcc)
(cpm/uCi/cc)
(cpm/mrem'11)
Cmmm-m3/uCi-vl (uCilsJ (uCi/cc)
(cpm/uCi/cc)
(cpmlmrem'11)
D
(") C)
-.;i Kr-83m 2.49E-01 6.21E-04 4.69E.{)1 2.91E.{)4 5.84E+01 5.22E.{)6 O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO S.87E+OO 5.25E.{)7 O.OOE+OO O.OOE+OO (I)
~
-lo.
(")
Kr-85m 8.90E-01 2.22E-03 8.17E+02 1.81E+OO 2.09E+02 1.87E-05 3.20E+07 5.97E+02 O.OOE+OO O.OOE*OO 2.10E*01 1.88E.{)6 320E*07 6.00E*01 DJ
- r -
Kr~
7.90E+01 1.97E.{)1 1.12E+01 2.21E+OO 1.85E*04 1.66E-03 3.60E+07 5.96E+04 O.OOE*OO O.OOE+OO 1.66E+03 1.67E-04 3.60E+07 i 5.99E+'03 0
)> en
= -
Kr-87 5.64E*01 1.41E-03 4.47E+03 6.29E+OO 1.32E+02 1.18E-05 3.73E+07 4.41E+02 O.OOE+OO 0.00E+OO 1.33E+01 1.19E-06 3.73E+07 4.43E+Ot
-lo.
n CD c:;*
('t)
Kr-68 1.64E+Otl 4.09E.{)3 1.13E+04 4.62E+01 3.85E+02 3.44E-05 3.0SE+07 1.0SE+03 0.00E+OO 0.00E+OO 3.87E*01 3.46E-06 3.05E+07 1.06E+02
~ 0 e?.. '<
Kr-89 1.44E.{)2 3.59E-05 1.02E+04 3.66E.{)1 3.38E+oo 3.02E-07 3.72E+07 1.12E*01 O.OOE+OO O.OOE+OO 3.40E-01 3.03E-OB 3.72E+07 1.13E+OO 0
"ti Xe-131m 3.36E+OO 8.38E.{)3 429E+01 3.60E-01 7.88E+02 7.05E-05 2.44E+07 1.72E+03 0.00E+OO 0.00E+OO 7.92E+01 7.08E.{)6 2.44E+07 1.73E+02 m
c 0
~
Xe-133m 3.01E+OO 7.51E-03 1.49E+02 1.12E+OO 7.06E*02 6.31E.{)5 2.86E+07 1.81E*03 O.OOE+OO O.OOE+OO 7.10E+01 6.34E.{)6 2.SSE+07 1.81E+02
- J
- s en
~- 0 Xe-133 2.02E*02 5.04E-01 1.76E+02 8.B7E+01 4.74E*04 4.24E.{)3 1.BOE+07 7.62E+04 0.00E+OO O.OOE+OO 4.76E+03 426E-04 1.80E+07 7.66E*03
~ r ::0 c;*
~
Xe-135m 8.91E*01 2.22E-01 2.15E+03 4.7BE+02 2.09E*04 1.87E.{)3 7.22E+06 1.35E*04 0.00E+OO O.OOE+OO 2.10E+03 1.88E-04 7.22E+06 1.36E+03 ii)
~
Xe-135 2.00E+01 4.99E-02 125E+03 ll.24E+01 4.69E*03 4.19E-04 3.86E+07 1.62E*04 O.OOE+OO O.OOE+OO 4.72E+02 4.22E.{)5 3.86E+07 1.62E+03 CD m
~ <
(D Xe-137 4.36E.{)2 1.09E-04 9.55E+02 1.04E.{)1 1.02E+01 9.14E-07 3.78E+07 3.45E+01 O.OIJE+OO 0.00E+OO 1.03E+Oll 9.19E-OB 3.7BE+07 3.47E+OO 0
- a.
Xe-138 3.03E-01 7.SSE-04 4.74E+OO 7.11E+01 6.35E-06 3.52E+07 2.24E+02 O.OOE+OO O.OOE+OO 7.14E+OO 6.39E-07 3.52E+07 2.25E+01 CD -*
I>>
6.27E+03 2"
1-131 9.92E-02 2.4BE-04 4.66E+05 1.15E+02 2.33E*01 2.0BE-06 2.98E+05 6.19E-01 2.44E+07 6.04E+03 2.34E+OO 2.09E-07 2.98E+05 6.22E-02
- J -o r/J en DJ I>>
1-132 1.02E-01 2.54E-04 4.33E+04 1.10E+01 2.39E*01 2.14E.{)6 3.72E+05 7.96E-01 2.90E+05 7.38E*01 2.40E+OO 2.15E-07 3.72E+05 7.911E-02
..-+
1-133 1.72E-01 4.29E-04 128E+05 5.49E+01 4.03E*01 3.61E-06 3.69E+05 1.33E*OO 5.77E+06 2.48E+03 4.06E+OO 3.63E.{)7 3.69E+05 1.34E-01 n
0 a 1-134 1.18E-01 2.94E-04 2.69E+04 7.92E+OO 2.77E*01 2.47E.{)6 3.78E+05 9.34E-01 7.60E+04 224E+01 2.7BE+OO 2.49E-07 3.7BE+05 9.39E-02 m -
~
1-135 1.31E-01 3.27E-04 7.10E+04 2.32E+01 3.07E+01 2.75E.{)6 3.49E+05 9.57E-01 1.19E+06 3.89E+02 3.09E+OO 2.76E.{)7 3.49E+05 9.62E-02
- J
('") -*
I>>
0 4.01E+02 9.05E+02 1.71E+05 9.00E+03 8.45E-04 1.72E+04
(;'"
~
- s
()
c Monitor conversion factor CF11 (uCi/cc-cpm) =
3.65E-OB uCi/cc TEDE
-:-:-:ci>m:-:*.t uCi/cc Child Thyroid -:-*-:.;cp!Jl:-:-:-:*
a 6.26E-02 1.00E-+01
'.X?~t:;<P!i:: 3.14E-02 S.OOE+01
-:-:-a:s1e*os-:-:
0 s:
c:r 6.26E-01 1.00E+02.*U.1E+07.*
3.14E.{)1 5.00E+02 *:::: e:iii e;:os::::
- J
<1>t;.;..n;,:
3.14E+OO
<<s:i;i~.:01>> -
- I 6.26E+OO 1.00E+03 5.00E+03 0
- s
><JO=
1.0JE-04 s/m3 a=
Monitor efficiencies from ERS-SFL-86-026 Upstream filtration (iodines reduced 0.01)
Release (uCi/s) CF for TEDE = 4.70E*05 2HVS-ROl-101B Release Row Rate =
2.37E+04 ctm 1.12E+07 ce/s Release ruc11s1 CF for O!lld Thvrold = 2.23E+05 U1 &U2 Activity Effective
...... nt Effective Co!Jnt FHA Ratio DCF DCF Release Release Efficiency Rate OCF DCF Release Release Efficiency Rate lsctope (Ci)
(mrem-m'(UCi-vl (uCi/s)
(uCi/cc)
(cpmACilcc)
(q>rn.lmrem/h)
Crnmm-m3/uCi-vl.
(uCi/s)
(uCi/cc)
(cpm/uCi/cc)
(cpm/mrem/h)
Kr-83m 0.00E*OO 0.00E+OO 4.69E-01 O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE*OO O.OOE+OO O.OOE+OO 0.00E+OO 0.00E+OO O.OOE*OO O.OOE+OO Kr-85m 1.04E-03 3.07E-08 8.17E+02 2.SOE-05 1.44E.{)2 1.29E-09 3.20E*07 4.12E.{)2 O.OOE+OO 0.00E+OO 6.83E-03 6.10E-10 3.20E+07 1.95E-02 m
Kr-85 4.78E*02 1.41E-02 1.12E+01 1.SBE-01 6.62E+03 5.9'2E-04 3.60E+07 2.13E+04 O.OOE+OO O.OOE+OO 3.14E+OO 2.81E-04 3.60E+07 1.01E+04 z
Kr-87 O.OOE*OO O.llOE+OO 4.47E+03 O.OOE+OO O.OOE+OO O.OOE+OO 3.73E+07 O.OOE+OO O.OOE+OO O.OOE+OO 0.00E+OO 0.00E+OO.
3.73E*07 O.OOE+Oll
- o 9
Kr-88 O.OOE+OO O.OOE*OO 1.13E+04 O.OOE*OO O.OOE+OO O.OOE+OO 3.05E+07 0.00E+OO O.OOE+OO O.OOE+OO O.ooE+OO O.OOE+OO 3.05E+07 0.00E+OO l> en Kr.as O.OOE*OO O.OOE+OO 1.02E*04 O.OOE*OO 0.00E+OO 0.00E+OO 3.72E+07 O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO 3.72E+07 O.OOE+OO
~e-131m 4.66E+02 1.37E-02 4.29E+01 5.B9E-01 6.45E+03 5.77E-04 2.44E+07 1.41E*04 O.OOE+OO O.OOE+OO 3.06E+03 2.73E-04 2.44E+07 6.68E+03 6f 3::
~e-133m 6.16E+02 1.82E-02 1.49E+02 2.71E+OO 8.53E+03 7.63E-04 2.86E+07 2.18E+04 O.OOE+OO O.OOE+OO 4.04E+03 3.62E-04 2.86E*07 1.03E+04
- u
~e-133 323E+04 9.52E-01 1.76E+02 1.68E+02 4.47E+05 4.00E-02 1.80E+07 7.20E+05 O.OOE+OO O.OOE+OO 2.12E+05 1.90E-02 1.80E*07 3.41E+05
() -0 m
~e-135m 2.65E+OO 7.81E-05 2.15E+03 1.68E-01 3.67E+01 3.28E-06 7.22E+06 2.37E+01 O.OOE+OO O.OOE+OO 1.74E+01 1.56E-06 7.22E+06 1.12E+01
- J" iXe-135 6.10E+01 1.BOE-03 125E+03 2.25E+OO B.45E+02 7.SSE-05 3.86E+07 2.91E+03 0.00E+OO O.OOE+OO 4.00E+02 3.SBE-05 3.86E+07 1.38E+03 3 c Ci5
~e-137 O.OOE+Otl O.OOE*OO 9.55E+02 O.OOE+OO O.OOE+OO 0.00E+OO 3.78E+07 O.OOE+OO 0.00E+OO O.OOE*OO 0.00E+OO O.OOE+OO 3.78E+07 O.OOE+Otl I
6
~e-138 O.OOE+OO O.OOE+OO 6.27E+03 0.00E+OO O.OOE+OO O.OOE+OO 3.52E+07 O.OOE+OO O.OOE*OO 0.00E*OO O.OOE+OO O.OOE+OO 3.52E+07 O.OOE*OO Cl> co 1-131 5.20E-01 1.53E-05 4.66E+05 7.14E+OO 7.20E+OO 6.44E.{)7 2.98E+05 1.92E-01 2.44E+07 3.74E+02 3.41E+OO 3.05E-07 2.96E*05 9.0BE-02
- I w z
1-132 2.52E-01 7.43E-06 4.33E+04 3.22E-01 3.49E+OO 3.12E-07 3.72E+05 1.16E-01 2.90E+05 2.15E+OO 1.65E+OO 1.4BE-07 3.72E+05 5.SOE.{)2 w
I Cl) 1-133 3.35E-02 9.87E-07 1.28E+05 1.21lE-01 4.64E-01 4.15E-OB 3.69E+05 1.53E-02 577E+06 5.70E+OO 2.20E-01 1.97E-08 3.69E+05 7.25E-03 0
1-134 O.OOE+OO O.OOE*OO 2.ll9E+04 0.00E+OO O.OOE+OO O.OOE+OO 3.78E+D5 0.00E+OO 760E+04 O.OOE+OO O.OOE+OO O.OOE+OO 3.78E+05 0.00E+OO 0
1-135 223E-05 6.57E-10 7.10E+04 4.67E-05 3.09E-04 2.76E-11 3.49E+05 9.62E-06 1.19E+06 7.82E-04 1.46E-04 1.31E-11 349E+05 4.56E-06 00 3.39E+04 1.81E+02 7.BOE+OS 3.82E+02 1.99E-02 3.70E+05 Monitor conveision factor CF11 (uCUcc.qim) = 3.65E-08 I
uC~cc TEDE
- -:*:-:cpl)I:-:-:-
uCi/CC Child Thyroid :-::::'.:<;P.nj:::::::
"'O 2.SSE-01 1.00E+Ol *>7-.80E+o6<
6.75E-01 5.00E+01
- :-: 1.1l5E+.o7:-:
- till 2.85E*OO 1.00E+02 :JaaE+Oi: 6.75E+OO 5.00E*02 :. -: : 1.65i:~Oii<-:
(!>
2.B5E+01 1.00E+03 :-:-;._o,.:,ri._.r-a:. s.1si=+o1 5.001=+03
. :- :-;,~ai::i::~irQ*: -:
~
OJ
l\\J m mg> :i:: to (11 I
3 <.2: !?.
(I)
Xia=
1.03E-04 slm' CD "t1 ~ :r P:I MonitOr efficiencies from ERS-SFL-86-026 Upstream filtration (iodines reduced 0.01)
Release (uCUs) CF for TEDE = 1.98E+05 en., en:-"!" "ti <
<C
- r 2HVS-R01-101B
"'"'*-* ct~. "'"'e =
?.371=+04 dm 11"C+n7 -**
Release luCi/sl CF for Child Th*...,,d = 1.09E+05 I
(1)
I CD c::
'"'1 U1 & U2 Activity !
Effective Count Effective Count
- u o*
RCCA Ratio OCF OCF'-
Release Release Efficiency Rate OCF OCF Release Release Efficiency Rate
- s N Isotope (Ci) cmrem-m'IUCi-vl (uCils)
(UCl/CC)
(cpm/uCUcc)
(cpm/mremhl)
(rm3m-m'luCl-vl (uC~s)
(uCl/cc)
(cpm/UQICC)
(cpmlmramJh) 0 n G>
-l Kr-83m 3.82E+01 2.48E--03 4.69E-01
- 1. 16E--03 4.89E+02 4.37E-05 O.OOE+OO O.OOE+OO 0.00E+OO O.OOE+OO 2.7DE+02 2.42E-05 O.OOE+OO 0.00E+OO
~ P:I
~
0 Kr-85m 9.12E+01 5.91E--03 8.17E+02 4.83E+OO 1.17E+03 1.04E-04 320E+07 3.34E+03 O.OOE+OO O.OOE+OO 6.45E+02 5.77E-05 3.20E+07 1.85E+03 m
- r -
Kr-85 222E+02 1 44E-02 1.12E+01 1.61E-01 2.84E+03 2.54E-O en
- I -
Kr~7 522E*01 J.38E-03 4.47E+03 1.51E*01 6.68E+02 5.97E-05 3.73E+07 2.2JE+03 0.00E*OO O.OOE+OO 3.69E+02 3.30E-05 3.73E+07 1.23E+03
~ n CD o* (1)
Kr~
1.63E+02 1.0GE-02 1.13E+04 1.19E+02 2.09E+03 1.87E-04 3.05E+07 5.70E+03 O.OOE+OO O.OOE+OO 1.15E+03 1.03E-04 3.05E+07 3.15E+03
~ 0
!?. '<
Kr~
376E+OO 2.44E-04 1.02E+04 2.49E+OO 4.81E*01 4.30E-06 3.nE+07 1.60E+02 0.00E*OO O.OOE+OO 2.66E+01 2.38E-06 3.72E+07 8.84E+01 0
"ti Xe-131m 186E*02 1.21E-02 4.29E+01 5.17E-01 2.38E+03 2.13E-04 2.44E+07 5.20E+03 O.OOE+OO O.OOE+OO 1.32E+03 1.18E-04 2.44E+07 2.87E+03 m
c 0
~
Xe-133m 223E*02 1.45E-02 1.49E+02 2.15E+OO 2.88E+03 2.55E-04 2.86E+07 7.30E+03 O.OOE+OO O.OOE+OO 1.58E+03 1.41E-04 2.88E+07 4.03E+03
- J
- s "'
- a. 0 Xe-133 1 32E*04 8.56E-01 1.76E+02 1.51E*02 1.69E+05 1.51E-02 1.60E*07 2.72E,.05 O.OOE*OO 0.00E,.00 9.34E,.04 8.35E-03 1.80E+07 UiOE,.05
= r :::0 c:r
~
Xe-135m 1.42E+02 9.21E-03 2.15E+03 1.98E+01 1.82E+03 1.63E-04 722E+06 1.17E+03 0.00E+OO O.OOE+OO 1.00E+03 8.98E-05 7.22E+06 6.48E+02 m
CD
~
Xe-135 1.06E*03 6.87E-02 1.25E+03 8.59E+01 1.36E*04 1.21E-03 3.86E+07 4.68E+04 0.00E*OO O.OOE+OO 7.50E+03 6.70E-04 3.88E+07 2.58E+04
=
m (1)
Xe-137 9.66E+OO 6.28E.Q4 I 9.55E+02 5.99E-01 1.24E+02 1.11E-05 3.7BE*07 4.19E+02 O.OOE+OO O.OOE+OO 6.85E+01 6.12E-06 3.78E+07 2.31E+02 0
< Q.
2.19E-03 :
CD Xe-138 3.38E*01 6.27E+03 1.37E+01 4.33E+02 3.87E-05 3.52E*07 1.36E+03 O.OOE*OO O.OOE+OO 2.39E+02 2.14E-05 3.52E+07 7.53E+02 c
1*131 453E.01 2.94E-05 4.66E+05 1.37E+01 5.80E*OO 5.18E-07 2.98E+05 1.54E-01 2.44E+07 7.17E+02 3.20E*OO 2.86E-07 2.98E+05 8.52E-02
- J
'iii' 0
~ VJ 1-132 1 li8E.Q2 1 01E-06 4.33E+04 4.38E-02 2.00E-01 1.79E-08 3.72E+05 6.64E-03 2.90E+05 2.93E-01 1.10E.Q1 9.87E-o9 3.72E+05 3.67E-03 m
c;*
.-+
1-133 1 SSE.01 1.00E-05 1.28E+05 1.29E+OO 1.98E+OO 1.77E-07 3.69E+05 6.54E-02 5.77E+06 5.80E+01 1.10E+OO 9.BOE-08 3.69E+05 3.61E-02 m
n
- I
~
1-134 9.29E-03 6.02E.07 2.69E+04 1.62E-02 1 19E-01 1.0SE-08 3.78E+05 4.0lE-03 7.60E*04 4.58E-02 6.57E-02 5.BBE-09 3.78E+05 2.22E-03 1-135 5.80E.Q2 3.76E-06 7.10E+04 2.67E-01 7.43E.01 6.64E-08 3.49E+OS 2.31E-02 1.19E*06 4,47E+OO 4.lOE-01 3.67E-08 3.49E+05 1.28E-02
- J
- ('
() -*
"' 0 1.5'1E+04 4.31E+02 3.55E*05 7.79E*02 9.76E-03 1.00E+OS
~
~
c
- s C')
Monitor conversion fac1or CF11 (ICUce<pm) = 3.65E-08 ucucc TEDE
- -:-:-com:-:*:i uCilcc Child Thyroid :-:-:-:-*c:ptn: :-:*.*
0 i"
1.29E.01 1.00E+01 -: 3:55e~Os:
- 3.58E-01 5.00E+01 : :: : :~-~~+9!i:-<
- J s:
o*
1.29E*OO 1.00E+02 : : \\l:5se~ir7:. 3.58E*OO 5.00E+02
- I 1.29E+01 1.00E+03 : : i!;~~iRi< 3.58E*01 5.00E+03
- -:-:9.20e+oa>:
0
- I
~
0.,
m z
- u 9..
CJ)
)>
iif I s:
- o n "'1
- J m
- J' c 3
I en Cl) U) 0
=.w z
w I
m 0
0 Q)
"'t1
()"Q
!1?
-Ji.
<.O
N m men :I:: ~
3 c:
<1>
I
<.sr. ~ (t)
)(/Q =
7.35E-05 sJm' CD "'tJ ~ :r p:i Monitor ellldendes from ERS.SFL~
Upstream filtration (iOdlnes reauce<l 0.01)
Release (uCVs) CF " TEDE =
1.17E+05
(/)., CJJ~.,, <
cc
- r 2HVS.RQl-112B Release Flow Rate = 3.06E+04 cfm 1.44E+07 ccJs Release luCi/sl CF for Child ThvroiC = 3.29E+05 I
(t)
U2 only Adivity Effective Count Effective Co uni I
CD c
'""i
- 0 c:;-
SGTR Ratio DCF DCF Release Release Efficiency Rale DCF DCF Release Release Effidency Rate 0
- J N r.n <
Isotope (C*>
(mrem-m3/uCi-y)
(uCi/s)
(uCi/cc)
(cpm/uCilcc)
(cpm/mrem/h)
(mrem-m3fuCi*vl (uCils)
(uCilcc)
(cprn/uCilcc)
(cprn/mrem/11) n
-l Kr-83m 2 87E+OO 5.15E-04 4.69E-01 2.41E-04 6.01E+01 4.16E-06 O.OOE+OO 0.00E+OO O.OOE+OO 0.00E+OO 1.69E+02 1.17E-OS O.OOE+OO O.OOE+OO
'< G>
Cl>
p:i Kr-85m 8 79E*OO 1.SSE-03 8.17E+02 1.29E+OO 1.84E+02 1.26E-05 3.20E*07 4.06E+02 0.00E+OO O.OOE+OO 5.19E+02 3.60E-05 3.20E*07 1.1~+03
~
n Kr-85 6 29E*02 1.49E-01 1.12E+o1 1.73E+04 1.20E-03 3.60E+07 433E+04 0.00E+OO O.OOE+OO 4.89E+04 3.39E-03 3.60E+07 1.22E+05
~ )> I>>
- r -
1.66E+OO
- I -
Kr-87 4 91E+OO 8.SOE-04 4.47E+03 3.94E+OO 1.03E+02 7.12E-06 3.73E+07 2.66E+02 O.OOE+OO 0.00E+OO 2.90E+-02 2.01E-05 3.73E+07 7.50E+02 N
n CD c:;*
(t)
Kr-88 15iE*01 2.82E-03 1.13E+04 3.18E+01 3.26E+02 2.26E-05 3.05E+07 6.95E+02 O.OOE+OO O.OOE+OO 927E+-02 6.43E-05 3.05E+07 1.96E+o3 OJ
!::t.
!!?.. '<
Kr-69 520E-02 9.32E-OB 1.02E+04 9.51E-02 1.0!3E+OO 7.54E*OS 3.72E+07 2.81E+OO O.OOE+OO O.OOE+OO 3.07E*OO 2.13E-07 3.72E+07 7.92E+OO 0
Xo-131m 3 42E+01 6.13E-03 4.29E*01 2.63E-01 7.16E+02 4.96E-05 2.44E+07 1.21E+03 O.OOE+OO O.OOE+OO 2.02E+03 1.40E-04 2.44E+07 3.42E+03
()
0 c 0,,
Xo*133m 325E*01 5.63E-03 1.49E+02 6.68E-01 6.80E+02 4.71E-05 2.88E+07 1.35E+03 O.OOE*OO 0.00E*OO 1.92E+03 1.33E-04.
2.66E+07 3.SOE+-03 0
- J "'
~- 0
)(e.133 2 13E+03 3.82E-01 1.76E+02 6.72E+o1 4.46E+04 3.0SE-03 1.60E+07 5.56E+04 O.OOE+OO 0.00E+OO 1.26E+05 6.72E-03 1.80E+o7 1.57E+05 15*
Xe*135m 211E+03 3.76E-01 2.15E+03 6.13E+02 4.41E+04 3.00E-03 7.22E+06 2.21E+04 O.OOE+OO O.OOE+OO 1.25E+05 8.84E-03 7.22E+06 6.23E+04
- J r- :::0
- I ~
X&-135 4.07E*02 7.30E-02 1.25E+03 9.12E+o1 8.52E+03 5.90E-04 3.88E+07 2.28E+04 O.CIOE+OO O.OOE+OO 2.40E+04 1.67E-03 3.66E+07 8.42E+04
- a.
CD I>>
Xe-137 1.57E-01 2.82E-OS 9.55E+02 2.69E-02 3.26E+OO 2.28E-07 3.76E+07 8.61E+OO O.OOE+OO 0.00E+CIO 9.27E+OO 6.43E-07 3.76E+07 2.43E+01 CD
[Tl CD
- c.
)(e.138 1 56E+OO 2.SOE-04 6.27E*03 1.75E+OO 3.26E+01 2.26E-06 3.52E+07 7.97E+01 O.OOE*OO 0.00E+OO 9.21E+01 6.JSE-06 3.52E+07 2.25E+02
- J CD I>>
'""S 1*131 594E-02 1.07E-05 4.66E+05 4.00E*OO 1.24E+OO 6.62E-08 2.96E+05 2.56E*02 2.44E+07 2.60E+02 3.51E+OO 2.43E-07 2.98E+05 7.23E-02 CfJ 2"'
(i' 0 Cf.)
1-132 2.04E*02 3.66E-OB 4.33E+04 1.58E-01 427E-01 2.00E-06 3.72E+OS 1.10E-02 2.90E*OS 1.06E+OO 120E+OO 6.35E-06 3.72E+05 3.11E-02 Q)
I>>
e 1*133 B 76E*02 1.57E-OS 126E+05 2.01E+OO 1.63E+OO 1.27E-07 3.89E+OS 4.BBE-02 s.ne+oe 9.06E+01 5.17E+OO 3.59E-07 3.69E+OS 1.32E o* rl-1-134 949E-03 1.70E-06 2.69E+04 4.58E-02 1.99E-01 1.38E-08 3.78E+OS 5.20E-03 7.60E+04 1.29E-01 5.60E-01 3.88E-08 3.78E+05 1.47E-02 CD n
~ ~
1-135 4.84E-02 8.68E-06 7.10E+04 6.16E-01 1.01E+OO 7.02E-06 3.49E+OS 2.45E-02 1.19E+06 1.03E+01 2.86E+OO 1.SSE-07 3.49E+05 6.90E-02
(")
-u 5.58E+03 1.02E*03 1.48E+05 3.62E+02 2.28E-02 4.17E+05 I>> 0 0
- +
n-
~
Monitor conversion ractor CF11 (uCLlcc-cpm) = 5.56E-06 uCVcc TEDE
Ctild Thyroid :-:-;. >!'P.'l' :-:-:..
c:
a;*
~
8.22E-02 1.00E+01
<:::;:E~oo:::
1.16E+OO 5.00E+01
<g;:~:>
822E-01 1.00E+02
- ~:~;>
1.16E+01 5.00E+-02
- r 3:
15*
.a.,.,i=+m 1.v"lc+m 1.16E+02 CN>C~ :-:* "-t"ri*i:r~(1g*: *:
- I Iodines reduced by XtOO for fillrotlon
- J 0
cc
- J CD 0
- J m z
- 0 9..
)> en i
I 1
3:
- 0 n.,,
m
- r 3 c (i5 CD I
5 co
- l w z
w I
00 0 0 co
-0 I>>
~
I\\.)
0
I\\.) m mg> :c OJ Cl>
I 3 <.£ ~ ~
Ml= 9.24E-05 stm' CD 1:J ~ 5-
~
Monttor efficiencies from ERS-SFL-86-026 Upstream nitration (iodines red\\Jald 0.01)
Release (uCi/s) CF for TEDE =
1.31E+OS en
.., en~.,, <
cc
- r 2H\\/!';"R01-109B Release Flow Rate =
5.90E+04 cfm 2.7BE+07 c:x:Js Release luCi/sl CF for Child Thvmid = 5.75E+03 I
~
U1 &U2 Activity Effective Count Effedive Count CD c Ill
~
- a (i"
LOCAGap Ratio OCF OCF Release Release Efficiency Rate DCF DCF Release Release Efficiency Rate
- I N Ill <
Isotope (CiJ tmrem-m'luCl-vl (uCi/s)
(uCi/a;)
(cpm/uCi/cc)
(cpm/mrem/h) cmrem-m'luCi-vl (uCi/s)
(uCi/cc)
(cpmtuCi/cc)
(qm/mrem/11) 0 n G')
-l Kr-83m 901E+01 2.02E-03 4.69E-01 9.48E-04 2.64E+02 9.SOE-06 O.OOE+OO O.OOE+OO 0.00E+OO 0.00E+OO 1.16E+01 4.17E-07 0.00E+OO O.OOE+OO Cl>
~
Kr.a5m 2.21E+02 4.96E-03 1.36E+03
~
0 B.17E+02 4.0SE+OO 6.49E+02 2.33E-05 5.83E+07 0.00E+OO O.OOE+OO 2.85E+01 1.02E-06 5.83E+07 5.97E+01
)> I>>
- r........
Kr-85 1.27E+03 2.BSE-02 1.12E+01 3.19E-01 373E+03 1.34E-04 7.19E+07 9.62E+03
,0.00E+OO O.OOE+OO 1.64E+02 5.88E-06 7.19E+07 4.23E+02 0
- s Kr-87 8 45E*01 1.89E-03 4.47E+03 8.47E+OO 2.48E*02 8.91E-06 a.8SE+07 7.88E+02 O.OOE+OO O.OOE+OO 1.09E+01 3.91E-07 8.85E+07 3.46E+01 co n UJ c;*
~
Kr-88 3.5eE*02 8.03E-03 1.13E*04 9.07E+01 1.0SE*03 3.77E-05 8.BOE+07 2.57E+03 0.00E+OO 0.00E+OO 4.62E+01 1.66E-06 B.BOE*07 1.13E+02 OJ
,.. CD
~ ~
Kr-89 7.SOE-02 1.66E-06 1.02E+04 1.72E-02 2.20E-01 7.90E-09 8.73E+07 6.90E-01 O.ODE+OO O.OOE+OO 9.67E-03 3.47E-10 B.73E+07 3.03E-02
-*O Xe-131m 7 26E*02 1.63E-02 4.29E+01 6.98E-01 2.13E+03 7.65E-05 4.61E+04 3.53E+OO O.OOE+oO O.OOE+OO 9.36E+01 3.36E-06 4.61E+04 1.SSE-01 r
0 c:
0
""'d Xs-133m 6.33E+02 1.42E-02 1.49E+02 2.11E+OO 1.86E+03 667E.CS 6.06E+04 4.04E+OO O.OOE+OO O.OOE+OO 8.16E+01 2.93E-06 6.06E+04 1.78E-01 0
- I fl)
!a* 0 X&-133 3.72E+04 8.34E-01 1.76E+02 1.47E+02 1.09E+OS 3.92E-03 2.94E*07 1.15E*OS 0.00E+OO O.OOE+OO 4.80E+03 1.72E-04 2.94E+07 5.06E*03
- e c;*
Xe-135m I 24E+03 2.78E-02 2.15E+03 5.98E+01 3.64E*03 1.31E-04 1.55E*04 2.02E*OO O.OOE+OO O.OOE+OO 1.60E*D2 5.74E-06 1.SSE+04 8.89E-02 r- ;o
~ ~
Xs-135 Z 71E*03 6.08E-02 1.25E+03 7.60E+01 7.95E+03 2.86E-04 7.4BE+07 2.13E+04 O.OOE+OO O.OOE+OO 3.49E+02 1.25E-OS 7.4BE+07 9.38E+02
- 0 CD IU tTl
~
X&-137 2.SSE-01 5.72E-06 9.55E*02 5.46E-03 7.48E-01 2.69E-08 9.07E+07 2.44E*OO O.OOE+OO O.OOE+OO 3.29E-02 UBE-09 907E+07 1.07E-01
< c.
Xe-138 7 80E+OO 1.75E-04 6.27E+03 1.10E+OO 2.29E+01 B.22E-07 7.74E+07 6.36E+01 O.OOE+OO 0.00E+OO 1.01E+OO 3.SlE-08 7.74E+07 2.79E+OO Dl CD
~
~131 2.73E+01 6.12E-04 4.60E+05 2.85E+02 8.01E*01 2.88E-06 6.23E*OS 1.79E*OO 2.44E+07 1.49E+04 3.52E*OO 1.26E-07 6.23E*OS 7.sSE-02
- J ii ()"
c C/J
~132 1.32E+01 2.96E-04 4.33E+04 1.2BE+01 3.87E*01 1.39E-06 7.91E+OS 1.10E+OO 2.90E*05 B.SBE+01 1.70E+OO 6.11E-08 7.91E+OS 4.84E-02
<O IU a
f""+
~133 1 06E*01 2.38E-04 1.28E+OS 3.04E+01 3.11E+01 1.12E-06 7.67E+OS B.57E-01 5.77E+06 1.37E+03 1.37E+OO 4.91E-08 7.67E+OS 3.76E-02 CD n
Ci' a J-134 6 SlE-01 1.46E-05*
2.69E+04 3.93E-D1 1.91E+OO 6.86E-08 6.16E+05 5.60E-02 7.60E+04 1.11E+OO 6.39E-02 3.01E-09 6.16E+05 2.46E-03 en t:!..
1-135 3 38E+OO 7.SBE-05 7.10E*04 5.38E+OO 9.92E*OO 3.56E-07 7.32E+OS 2.61E-01 1.19E+06 9.02E+01 4.36E-01 1.57E-08 7.32E+OS 1.lSE-02
() -*
4.46E+04 7.24E+02 1.51E+OS 1.6SE+04 2.07E-04 6.64E+03 r
"' 0
()
(')" ::s c:
Monitor conversion factorCF11 (uCilcc-q:>m);
2.45E-08 uCi/cc TEDE
- -:<il'!'l*:-::1 uCi/cc Child Thyroid
-:-: <;P.11)-:*: *:-
- a s
3.70E-02 1.00E+01
- 1:S1E+06:
B.13E-03 5.00E+01
- a~2E+05: *:
3.70E-01 1.00E+02
- i:iiiE:+or::
8.13E-02 5.00E+02
- a-,;itt+!i!i<:
en s:
c;*
- I 3.70E+OO 1.00E+03
8.13E-01 5.00E+03
- I X/Q=
9.24E-05 s/m3 0
Monttor efflciarcies from ERS-SFL-86-026 Upslream fil1ration (iodines reduced 0.01)
Release (uCi/s) CF for TEDE = 1.51E+05 2HVS"RDl-1098 Release Flow Rate=
5.90E+04 cfm 2.78E+07 a:ls Release luCUsl CF for Chttd Th*-'-' m 8.5BE*03 U1 &U2 Activity Effective Coon1 Effective Count DBALOCA Ratio DCF DCF Release Release Efficiercy Rale OCF OCF Release Release Efliciercy Raia Isotope (Ci) rmram-m3/uCi-vl (uC~s)
(UCi/CC)
(cpm/uCilcc)
(cpm/mrem/h) lmrem-m31uCi-v)
(uCi/s)
(uCi/ccJ (cpm/uCi/CC)
{cpm/mrem/h)
Kr-83m 1.60E+03 2.0SE-03 4.69E-01 9.61E-04 3.10E+02 1.11E.05 O.OOE+OO O.OOE+OO OOOE+OO O.OOE+OO 1.76E+01 6.32E-07 OOOE+OO O.OOE+OO Kr-l!Sm 4.41E*03 5.02E-03 8.17E+02 4.10E+OO 7.60E+02 2.73E-05 5.83E+07 1.59E+03 O.OOE+OO O.OOE+OO 4.31E+01 1.SSE-06 5.83E*07 9.03E+01 m
Kr-85 127E*04 1.45E-02 1.12E+01 1.62E-01 2.19E+03 7.86E-05 7.19E+07 5.65E+03 O.OOE+OO O.OOE+OO 1.24E+02 4.46E-06 7.19E+D7 3.20E+02 z
Kr-87 169E+03 1.92E-03 4.47E+03 B.SOE+OO 2.91E+02 1.05E.OS 8.85E*07 9.25E*02 0.00E+OO 0.00E+OO 1.65E+01 5 93E-07 8 85E*07 5.25E+01
- tJ 9 Kr-88 7.16E*03 B.15E-03 1.13E*04 9.21E+01 1.23E+03 4.43E-05 6.80E+07 3.01E*03 O.OOE+OO O.OOE+OO 7.00E+01 2.51E-06 6.80E+D7 1.71E+D2 en..
Kr-89 1 SOE+OO 1.71E-06 1.02E+04 1.74E-02 2.58E-01 9.28E-09 8.73E+07 8.10E-01 O.OOE+OO O.OOE+OO 1.47E-02 5.26E-10 8.73E+07 4.60E-02
)>
Xe-131m 1.45E+04 1.65E-02 4.29E+01 7.0SE-01 2.50E+03 8.97E-05 4.61E+04 4.14E+OO 0.00E+OO O.OOE+OO 1.42E+02 5.09E-06 4.61E+04 2.35E-01 if I
Xe-133m 1.27E+04 1.45E-02 1.49E+02 2.16E*OO 2.19E+03 7.BSE-05 6.06E+04 4.76E+OO O.OOE+OO 0.00E+OD 1.24E+02 4.46E-06 6.06E+04 2.70E.01 s:
- o Xe-133 743E*05 B.46E-01 1.76E+02 1.49E+02 1.28E+OS 4.60E-03 2.94E+07 1.35E+05 O.OOE+OO O.OOE+OO 7.26E+03 2.61E-04 2.94E+07 7.67E+03 n "'CJ m
X&-135m 24BE+04 2.82E-02 2.15E+03 6.07E*01 4.27E+03 1.53E-04 1.55E+04 2.38E+OO O.OOE+OO 0.00E+OO 2.42E+02 B.70E-06 1.55E+04 1.35E-01
':S' X&-135 5.42E+04 6.17E-02 1.25E+03 7.72E+01 9.34E*03 3.35E-04 7.48E+07 2.51E+04 O.OOE+OO 0.00E+OO 5.30E+02 1.90E-05 7.4BE+D7 1.42E+03 3 c
~
Xe-137 5.09E+OO 5.BOE-06 9.55E+02 5.54E-03 8.77E-01 3.15E-08 9.07E*07 2.86E+OO O.OOE+OO O.OOE+OO 4.97E-02 1.79E-09 9.07E+07 1.62E-01 I
Xe-138 1.56E+02 1.78E-04 6.27E+03 1.11E+OO 2.69E+01 9.65E-07 7.74E+07 7.47E+01 O.OOE+OO O.OOE+OO 1.52E+OO 5.47E-08 7 74E+07 4.24E+OO Cl) co 0
1-131 3.41E+02 3.88E-04 4.66E+05 1.81E+02 5.88E+01 2.11E-06 6.23E+05 1.31E+OO 244E+07 9.48E+03 3.33E+OO 1.20E-07 6.23E+05 7.46E-02
- s w z
1-132 2.64E+02 3.01E-04 4.33E*04 1.30E+01 4.55E+01 1.63E-06 7.91E+OS 1.29E+OO 290E+05 B.72E+01 2.58E+OO 9.26E-08 791E+05 7.33E-02 wC, m
1-133 2.12E+02 2.41E-04 1.28E+05 3.09E*01 3.65E+01 1.31E-06 7.67E+OS 1.01E+OO sne*oo 1.39E+03 2.07E+OO 7.44E-08 767E+05 S.70E-02 1-134 1.30E+01 1.48E-05 2.69E*04 3.98E-01 224E*OO 8.04E-08 8.16E*OS 6.56E-02 7.60E*04 113E+OO 1.27E-01 456E-09 816E+OS 3.72E-03 0
1*135 6.75E+01 7.69E-OS 7.10E+04 5.46E+OO 1.16E+01 4.18E-07 7.32E+OS 3.06E-01 1.19E+06 9.15E+01 6.00E-01 2.37E-08 7.32E+05 1.T.lE-02 CD 8.78E+OS 6.27E*02 1.72E+05 1.10E*04 3.0BE-04 9.T.lE*03 Monilor conveision lacta CFl 1 (uCi/cc.qlm) =
2.45E-08 uCi/cc TEDE
- l'ili!i:*:*:1 uCi/cc Child Thyroid.. :-.**c:p{R:-:-:*:*
4.20E-02 1 OOE+01 <1:72e-tOS:*
1.19E-02 500E+01
~
4.20E-01 1.00E+02
- \\i;z~~ir( 1.19E-01 5.00E+02
- . ~.Ji6e+Oe*<
420E*OD 1.00E+03.-:1,-r.>r:+09*.
1.19E+OO 5.00E+03
I\\.)
...Jr.
Upstream filtratiO'l (iodines re<luce<I 0.01)
Morita efficiencies from ERS-SFL-SS-026 2HVS'R01-1098 Release Flow Rate=
5.90E+04 dm IS<llope Kr-83m Kr-85m Kr-85 Kr-87 Kr-88 Kr-$
Xe-131m Xe-133m Xe-133 Xe-135m Xe-135 Xe-137 Xe-138 1-131 1-132 1-133 1-134 1-135 U2only LOCARCS (Ci) 1.34E-03 5.53E-03 3.27E+01 7.04E-04 6.02E.OO 2.92E-08 1.18E+OO 1.81E-01 2.48E+01 1.21E-02 1.86E-02 1.19E-07 1.32E-05 5.41E-03 362E-03 1.38E-03 3 61E-05 3 76E-04 5.89E+01 Activity Ratio 227E.{)5 9.39E-05 5.SSE-01 1.19E.{)5 1.02E-04 4.96E-10 2.00E-ll2 3.07E-03 4.21E-01 2.05E-04 3.16E-04 2.02E-09 2.24E-07 9.18E-05 6.14E-05 2.34E-ll5 6.13E-07 6.38E-<l6 OCF lmrem-m3tuCi*v\\
4.69E-01 8.17E+02 1.12E*01 4.47E+03 1.13E+04 1.02E+04 4.29E+01 1.49E+02 1.76E+02 2.15E+03 1.25E+03 9.55E+02 6.27E+03 4.seE+OS 4.33E+04 1.28E+OS 2.69E+04 7.10E+04 Effective OCF 1.07E-05 7.67E-02 6.22E+OO 5.34E-02 1.15E+OO 5.0SE-06 8.59E-01 4.58E-01 7.41E+01 4.42E-01 3.95E-01 1.93E-06 1.40E-03 428E+01 2.66E+OO 3.00E*OO 1.65E-02 4.53E-01 1.33E+02 Release (uCi/s) 1.63E*01 6.71E+01 3.97E+OS 6.54E+OO 7.30E+01 3.54E-04 1.43E+04 220E+CXl 3.01E+OS 1.47E+02 2.26E*02 1.44E-03 1.60E-01 6.56E+01 4.39E+01 1.67E*01 4.38E-01 4.56E+OO Release (uCi/cc) 5.64E-07 2.41E-06 1.42E-02 3.07E-07 2.62E-06 1.27E-11 5.14E-04 7.88E-OS 1.08E-02 5.27E-06 B.10E-06 5.18E-11 5.75E-09 2.38E-06 1.58E-06 6.01E-07 1.57E-08 1.64E-07 Mooitorconversion factor CF11 (uCilcc-cpm) = 2.45E-08 Upstream filtration Oodines reducad0.01)
Monitor efficiencies lrom ERS-SFL-86-026 2HVS'RQt-109B Release Flow Rate=
5.00E+04 cfm ls<Jlope Kr-83m Kr-85m Kr-85 Kr-87 Kr-88 Kr.all Xe-131m Xe-133m Xe-133 Xe-135m Xe-135 Xe-137 Xe-138 1-131 1-132 1-133 1-134 1-135 u1 au2 LOCATID (Ci) 9 46E+06 195E+07 827E+05 3.91E+07 5.43E+07 6.75E+07 1.08E+06 505E+06 1.60E+08 3.36E+07 4 84E+07 146E+08 138E+08 389E+05 5 70E*05 800E+05 885E+05 7 60E*05 7 24E*08 Activity Ratio 1.31E-02 2.S9E-02 1.14E-03 5.40E-02 7.SOE-02 9.32E-02 1.49E-03 6.97E-03 2.21E-01 4.B4E-02 6.66E-02 2.02E-01 1.aae-01 5.37E-04 7.87E-04 1.10E-03 1.22E-03 1.0SE-03 DCF tmrem-m3/uCi-vl 4.69E-01 8.17E+02 1.12E+01 4.47E*03 1.13E+04 1.02E+04 4.29E+01 1.49E+02 1.76E+02 2.15E+03 1.25E+03 9.55E+02 6.27E+03 4.66E+05 4.33E+04 1.28E+05 2.69E+04 7.10E+04 Monitor conversion !actor CF11 (uCiiC!XPm) -
Effective DCF 6.13E-03 2.20E+01 1.28E-02 2.41E+02 8.47E+02 9.51E+02 6.40E-02 1.04E+OO 3.89E*01 9.97E+01 8.35E+01 1.93E+02 1.18E+03 2.50E*02 3.41E*01 1.41E+02 3.29E+OI 7.45E+01 4.19E+03 2.45E-Oa Release (uCi/s) 2.96E+02 6.10E+02 2.59E+01 1.22E+03 1.70E+03 2.11E+03 3.38E+01 1.58E+02 5.00E+03 1.05E+03 1.51E+03 4.56E+03 4.25E+03 1.22E+01 1.78E+01 2.50E+01 2.nE+Ol 2.38E+01 Release (uCi/cc) 1.0SE-05 2.19E-05 9.28E-07 4.39E-05 6,10E-05 7.58E-05 1.21E-06 5.67E-06 1.80E-04 3.77E-05 5.43E-05 1.64E-04 1.53E-04 4.37E-07 6.40E-07 8.98E-07 9.93E-07 8.53E-07
- 2. 7BE+07 r:ds XIO-Release (UCi/s) CF for TEDE =
Release luCi/sl CF for Child Th.,,,,;d =
Efficiency (cpm/uCUcc)
O.OOE+OO 5.83E+07 7.19E+07 8.8SE+07 6.BOE+07 B.73E+07 4.61E+04 6.00E+04 2.94E+07 1.55E+04 7.48E+07 9.07E+07 7.74E+07 6.23E+05 7.91E+05 7.67E+05 B.16E+05 7.32E+05 Count Rate DCF (cpmlmrem/h)
- lmrem-m3/uCi-vl O.OOE+OO O.OOE+OO 1.41E+02 0.00E+OO 1.02E+06 O.OOE+OO 2.71E+01 O.OOE+OO 1.78E+02 O.OOE+OO 1.11E-03 O.OOE+OO 2.37E+01 O.OOE+OO 4.78E+OO 0.00E+OO 3.18E+05 1
0.00E+OO 8.16E-02 0.00E+OO 6.06E+02 4.70E-03 4.45E-01 1.47E+OO !
1.25E+OO 4.61E-01 1.28E-02 1.20E.{)1 1.34E+06 0.00E+OO 0.00E+OO 0.00E+OO 2.44E+07 2.90E+05 s.ne+os 7.60E+04 1.19E+06 LCilcc 3.29E-01 3.29E+OO 3.29E+01 Effective OCF O.OOE+OO 0.00E+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO 0.00E+OO 0.00E+OO O.OOE+OO 0.00E+OO 0.00E+OO O.OOE+OO 224E+03 1.71!E+01 1.35E+02 4.66E-02 7.59E+OO 2.40E+03 TEDE 1.00E*01 1.00E+02 1.00E+OJ Release (uCi/s)
B.98E-01 3.71E+OO 2.19E+04 4.72E-01 4.03E+OO 1.96E.{)5 7.91E+02 1.21E+02 Ui6E+04 8.11E+OO 1.25E+01 7.S7E-05 B.85E-03 3.63E+OO 2.43E+OO 9.25E-01 2.42E-02 2.52E-01 2.78E+07 eds X/Q-Release (uCi/s) CF for TEDE =
Release luCUsl CF for Child Thvroid =
Efficiency (cpm/uCi/cc)
O.OOE+OO 5.83E+07 7.19E*07 8.85E+07 6.80E+07 8.73E+07 4.61E+04 6.06E+04 2.94E+07 1.55E+04 7.4SE+07 9.07E+07 7.74E+07 6.23E*05 7.91E+05 7.67E+05 8.16E+05 7.32E+05 Count Rate (cpmtmrem/h)
O.OOE+OO 1.2BE+03 6.67E+01 3.88E+03 4.15E+03 6.62E*03 5.59E-02 3.44E-01 5.26E*03 5.84E-01 4.06E+03 1.49E+04 1.1BE+04 2.72E-01 5.00E-01 6.89E-01 6.10E-01 6.24E-01 5.20E+04 I
DCF (mrem-m'tuCi-vl O.OOE+OO 0.00E+OO O.OOE+OO O.OOE+OO 0.00E+OO 0.00E+OO 0.00E+OO O.OOE+OO O.OOE*OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO 2.44E+07 2.90E*05 5.nE+06 7.60E+04 1.19E*06 uCUcc 127E-02 1.27E-01 1.27E+OO Effective DCF 0.00E+OO O.OOE+OO O.OOE+OO 0.00E+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE*OO O.OOE+OO O.OOE+OO 0.00E+OO O.OOE+OO 1.31E+04 2.28E+02 6.37E+03 9.29E+01 1.25E+03 2.10E+04
- reo'E 1.00E+Ol 1.00E+02 1.00E+03 Release (UC~s) 588E+01 121E+02 514E+OO 2.43E+02 3.3BE+02 4.20E+02 6.72E+OO 314E+01 9.95E+02 2.09E+02 3.01E+02 9.0BE+02 8.46E+02 2.42E+OO 3.54E+OO 4.98E*OO 5.50E+OO 4 73E+OO
- : *cp.;..; :*:
>520E+OS::
- -s.2rie-i-06::
- -:~?riO:.n7:*
9.24E-05 Slrn3 7.15E+05 3.95E+04 Release (uCVcc) 3.22E-08 1.33E-07 7.87E-04 1.69E-08 1.45E-07 7.03E-13 2.84E-ll5 4.36E-06 5.97E-04 2.91E-07 4.4SE-ll7 2.B6E*12 3.18E-10 1.30E-07 8.71E-08 3.32E-08 8.69E-10 9.0SE-09 1.42E-03 uCi/cc 9.09E-02 9.09E-01 9.00F+OO Efficiency (cpm/uCilcc)
O.OOE+OO 5.83E*07 7.19E+07 8.85E+07 6.BOE+07 8.73E+07 4.61E+04 6JJ6E+04 2.94E*07 1.55E+04 7.4SE*07 9.07E+07 7.74E+07 623E+05 7.91E+OS 7.67E*OS 8.16E+05 7.32E+05 count Rate (cpm/mrem/h) 0.00E+OO 7.76E+OO 5.66E+04 1.50E+OO 9.BSE+OO 6.14E-05 1.31E+OO 2.64E-01 1.7SE+04 4.51E-03 3.35E+01 2.60E-04 2.46E-02 8.11E-02 6.89E-02 2.sse-02 7.09E-04 6.62E-03 7.42E+04 Chilc!Thymid :-:-:-;.:Cll(ll:-:-:-:-
5.00E+01
<<:~.:*ttl;+p?;:::
5.00E+02
- ~-'?~£;~_7.::::
5.00F+03
""*'.'7lti>-08""
9.24E-05 51m3 2.26E+04
¢.50E+03 Release (uCilCC) 2.11E-06 4.35E-06 1.8SE-07 6.73E-06 1.21E-05 1.51E-05 2.41E-07 1.13E-06 3.57E-05 7.50E-06 1.08E-05 3.26E-05 3.04E-05 8.69E-08 1.27E-07 1.79E-07 1 98E-07 1.70E-07 1 62E-04 uCi/cc 1 VE-02 1 27E-01 1.27E*OO Emo ency
( c:pinluCi/cc) 0.00E+OO 5.83E+07 7.19E+07 B.85E+07 6.80E+07 8.73E+07 4.61E+04 6.06E+04 2.94E+07 1.55E*04 7.4BE+07 9.07E+07 7.74E+07 6.23E*05 7.91E+05 7.67E+05 8.16E+OS 7.32E+05 Count Rale (cpm/rnrem/h)
O.OOE+OO 2.54E+02 1.33E+01 7.73E*02 8.25E*02 1.32E*03 1.11E-02 664E-02 1 05E*03 116E-01 B.08E+02 2.96E+03 2.35E+03 5.41E-02 1.0lE-01 1.37E-Ol 161E-01 124E-01 1 03E+04 Child Thyroid ** ::::~:.::~:
5.00E+Ol l).~Y.E~l)!f:
5.00E+02
.5:17.E+OO" 5.00E*03 i;,'17E~tii<
N I <
en..
- a 0
~
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r- :;ti CD m
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z 0
- 0 m
~
en 6 z
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I 3 <£: ~ (1)
XJO=
9 24E-05 sJtn' CD \\J ~ :r
~
Monitor efficiencies from ERS-SFL-66-026 Upslfeam fittration ~odines reduced 0.01)
Release (uCi/s) CF for TEDE = *1.05E*05
... cn~ '"O <
en cc
- r 2HVS"ROl-1098 Release Flow Rate =
5.90E+04 elm
- 2. 78E+07 ccJs Release 11£Usl CF for Child r~-id = 1.05E+04 I
(1)
CD c rn
~
U2 only Activity Effective Count Effective Count
- 0 o*
SBLOCA Ratio DCF DCF Release Release Efficiency Raia DCF DCF Release Release Efficiency Rate 0
- J N Isotope (CiJ lmrern-rn'IUCi-vl (uCils)
(uCi/a:)
(cpmluCilcc)
(cpmlmremlh) lmrem-m'IUCi-vl (uCils)
(1£ilcc)
(cpmla£ilcc)
(cpm/mremlh) n Ci)
-l Kr-83m 249E-Ot 6.21E-04 4.69E-01 2.91E-04 6 51E+01 2.34E-06 O.OOE+OO O.OOE+OO OOOE+OO O.OOE+OO 6.54E+OO 2.35E-07 O.OOE+OO O.OOE+OO (11
~
Kr-85m B.90E-01 2.22E-03 B.17E+-0:1 1.81E+OO 2.33E+02 B.36E-06 5.B3E+07 4.87E*02 O.OOE+OO O.OOE+OO 2.34E+01 8.40E-07 5.B3E+07 4.90E+01 D>
n ::r -
Kr-85 790E+01 1.97E-01 1.12E+01 2.21E+OO 2.07E+04 7.42E-04 7.19E+07 533E+04 O.OOE+OO O.OOE<-00 2.08E+03 7.46E-05 7.19E+07 5.36E+03 0
)> UJ
- I -
Kr~7 5.6'1E-01 1.41E-03 4.47E*03 6.29E*OO 1.47E+02 5.30E-06 8.85E*07 4.69E+02 O.OOE+OO O.OOE+OO 1.48E*01 5.32E-07 8.85E*07 4.71E+01
<O n CD c;*
(1)
Kr-86 164E*OO 4.00E-03 1.13E+04 4.62E+01 4.29E*02 1.54E-05 6.80E+07 1.0SE+03 O.OOE+OO O.OOE+OO 4.31E+01 1.55E-06 6.80E+07 1.0SE*02 ID -0
~ "<
Kr~9 1.44E-02 3.59E-05 1.02E+04 3.66E-01 3.77E+OO 1.35E-07 8.73E+07 1.18E+Ot 0.00E+OO O.OOE+OO 3.7BE-01 1.36E-OB 8.73E*07 1.19E+OO 0
Xe-131m 336E+OO 8.36E-03 4.29E+01 3.60E-01 B.79E+02 3.15E-05 4.61E+04 1.46E+OO O.OOE+OO 0.00E+OO B.B3E+01 3.17E-06 4.61E+04 1.46E-01 r
c 0
~
Xe-133m 3.01E*OO 7.51E-03 1.49E+-0:1 1.12E+OO 7.87E+02 2.83E-05 6.06E+04 1.71E+OO 0.00E+OO O.OOE+OO 7.91E+01 2.84E-06 6.06E*04 1.72E-Ot 0
- J UJ
~* 0 Xe-133 202E*02 5.04E-01 1.76E+-0:1 B.87E+01 5.28E*04 1.00E-03 2.94E+07 5.58E*04 O.OOE+OO 0.00E*OO 5.31E*03 1.91E-04 2.94E+07 5.60E*03
=E r ::a c;*
~
Xe-135m 891E*01 2.22E-01 2.15E+03 4.78E+02 2.33E+04 8.37E-04 1.55E+04 1.30E+01 0.00E+OO O.OOE*OO 2.34E+03 8.41E-05 1.55E*04 1.30E+OO
- s CD Xe-135 200E*01 4.99E-02 1.25E+03 6.24E+01 5.23E+03 1.BSE-04 7.48E+07 140E+04 O.OOE+OO O.OOE+OO 5.26E+02 1.81lE-05 7.48E+07 1.41E+03
- 0 D>
CTI (1)
Xe-137 4 36E-02 1.00E-04 9.55E+02 1.04E-01 114E+01 4.09E-07 9.07E+07 3.71E+01 O.OOE+OO O.OOE+OO 1.15E+OO 4.11E-OB 9.07E+07 3.73E+OO D>
< c..
~
CD Xe-136 303E-01 7.56E-04 6.27E+03 4.74E+OO 7.92E+01 2.84E-06 7.74E+07 2.20E+02 O.OOE+OO O.OOE+OO
- 7.96E+OO 2.B6E-07 7.74E+07 221E+01
- J 2"
1-131 992E-02 2.48E-04 4.66E+05 1.15£+02 2.59E*01 9.31E-07 6.23E+05 5.BOE-01 2.44E+07 6.04E+03 2.61E+OO 936E-OB 6.23E+05 5.83E-02
<C iii' 0 a r:/J 1-132 1 02E-01 2.54E-04 4.33E+04 1.10E+01 2.67E+01 9.58E-07 7.91E+05 7.SSE-01 2.90E+05 7.3BE+01 2.6BE+OO 9.63E-OB 7.91E+05 7.62E-02 CD D>
cs*
....+
1-133 1 72E-01 429E-04 1.28E+05 5.49E+01 4.50E+01 1.61E-06 7.67E+05 1.24E+OO 5.77E+06 2.4BE+03 4.52E+OO 162E-07 7.67E+05 1.24E-01 n
02.. a 1-134 1 18E-01 2.94E-04
- i.69E+04 7.92E+OO 3.09E+01 1.11E-06 B.16E+05 9.04E-01 7.60E+04 2.24E+01 3.10E+OO 1.11E-07 B.16E+05 9.08E-02
(/) -
3.43E+01 9.00E-01 3.44E+OO 1.24E-07 7.32E+05 9.0SE-02
- c:*
(j -*
1-135 131E-01 3.27E-04 7.10E+04 2.32E+01 1.23E-06 7.32E+05 1.19E+06 3.89E+02 r
"' 0 401E*02 9.05E+02 1.25E+05 9.00E+03 3 78E-04 1.26E+04
~
n-()
c
~
Mori1or conversion factor CF11 (uCi/axpm) = 2.45E-08 uC~cc TEDE
- -:-:-:cp(ll:*:-:*
uCUcc Child Thyroid -: "-: *: qlfl)*: * :-:-:
- 0 j;" -
3.07E-02 1.00E+01
- ~~~+P!i< 1 54E-02 5.00E+01 :
- -:~.;i!i!>~lllf: :-
en 3:
a*
3.07E-01 1.00E+02 *'.-}.25E~1< 154E-01 5.00E+02
- -: * '.6.9CE+llll> >
- I 3.07E+OO 1.00E+D3 :*>i:i5e~"*;,:-
1.54E+OO 5.00E+03 *:-:*aooe+n7*:*: -
0 0
~
0 XICl~ 9.24E-OS stm'
- J 0
Morita efficiencies from ERS.SFL-<<l-026 Upstream nttratioo (iodnes reduced 0.01)
Release (uCils) CF 1or TEOE = 5.24E+05
- J 2HVS"R"l*109B Release Flow Rate :
5.90E+04 elm 2.78E+07 ccJs Release 11£ilsl CF for Child r~~d -
2.48E*05 U1 &U2 Activity Effective Count Effective Count c:
FHA Ratio DCF DCF Release Release Efficiency Rate DCF DCF Release Release Efficiency Rate CD lsotcpe (Ci) lmrem-rn31uCi-vl (uQ/s)
(uCi/cc)
(cpm/uCi/cc)
(cpm/mremlh)
(mrem-m3/uCi-vl (uCils)
. (uCi/cc)
(cpmluCVcc)
(cpmlmremlh) c..
Kr-B3m OOOE+OO O.OOE*OO 4.69E-01 O.OOE*OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE*OO O.OOE+OO O.OOE+OO O.OOE*OO O.OOE+OO O.OOE+OO Kr-65m 1 04E-03 3.07E-OB 8.17E+02 2.SOE-05 1.61E-02 5.77E-10 5.83E+07 3.36E-02 O.OOE+OO O.ODE+OO 7.61E-03 2.73E-10 5.B3E+07 1.59E-02 m
Kr~
4 78E*02 1.41E-02 1.12E+01 1.58E-01 7.3BE+03 2.65E-04 7.19E+07 1.91E+04 O.OOE*OO 0.00E+OO 3.50E+03 1.26E-04 7.19E+07 9.03E+03 z
Kr~7 OOOE+OO O.OOE+OO 4.47E+03 O.OOE+OO 0.00E+OO O.OOE+OO 8.B5E+07 0.00E+OO O.OOE+OO O.OOE+OO O.OOE+OO OOOE+OO 8.85E+07 O.OOE+IJO
- c 9 Kr~
OOOE*OO 0.00E*OO 1.13E+04 O.OOE*OO O.OOE+OO OOOE+OO 6.80E+07 0 OOE*OO O.OOE*OO O.OOE+OO O.OOE+OO 0.00E+OO 6.80E+07 O.OOE*OO l> en Kr-69 OOOE*OO O.OOE*OO 1.02E+04 0.00E+OO 0.00E+OO 0.00E+OO 8.73E+07 O.OOE+OO O.OOE*OO O.OOE+OO O.OOE+OO O.OOE+OO 8.73E+07 O.OOE+OO Xe-131m 4 66E*02 1.37E-02 4.29E*01 5.00E-01 7.19E+03 2 58E-04 4.61E+04 1.19E*01 O.OOE+OO O.OOE+OO 3.41E+OJ 1.22E-04 4.61E+04 5.65E+OO
~~
Xe-133m 616E*02 1.82E-02 1.49E+02 2.71E+OO 9.51E+03 3 41E-04 6.06E+04 2.07E+01 O.OOE+OO 0.00E+OO 4.51E+03 1.62E-04 6.06E*04 9.81E+OO
- u Xe-133 32JE*04 9.52E-01 1.76E+02 1.68E+02 499E+D5 1.79E-02 2.94E+07 5.26E+05 O.OOE*OO O.OOE+OO 2.36E+05 8.49E.{)3 2.94E+07 2.50E*05 C'> "'C m
Xe-135m 265E*OO 7.81E-05 2.15E+03 1.68E-01 4.09E+01 1 47E-06 1.5SE+04 2.28E-02 O.OOE*OO O.OOE+OO 1.D4E+01 6.96E-07 1.55E+04 1.08E-02
- r Xe-135 610E*01 1.80E-03 125E+03 2.25E+OO 9.42E*02 3.38E.{)5 7.4BE+07 2.53E+03 O.OOE*OO O.OOE+OO 4.46E+02 1.60E-05 7.48E+07 1.20E*03 3 c u;
Xe-137 OOOE+OO O.OOE*OO 9.55E+02 O.OOE+OO O.OOE+OO O.OOE+OO 9.07E+07 O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO OOOE+OO 9.07E+07 0.00E+OO I
0 Xe-138 OOOE+OO 0.00E*OO 627E*03 O.OOE+OO O.OOE+OO O.OOE+OO 7.74E+07 O.OOE+OO O.OOE+OO 0.00E+OO O.OOE+OO 0.00E+OO 7.74E*07 O.OOE+OO CD U) 1-131 520E-01 1.53E-05 4.66E*05 7.14E+OO B.03E+OO 2.BBE-07 6.23E+05 1.80E.{)1 2.44E+07 3.74E+02 3.81E+OO 1.37E.{)7 6.23E+05 B.52E-02
- I w z
1-132 2 52E-01 7.43E-06 4.33E*04 3.22E-01 3 89E+OO 1 40E-07 7.91E+05 1 11E-01 290E*05 2.15E*OO 1.84E+OO 6.62E-08 7.91E+05 5.24E-02
(.,)
I m
1-133 335E-02 9.87E-07 1.2flE*05 1.26E-01 5.17E-01 1 86E-08 7.67E+05 1.42E-02 5.nE+06 5.70E+OO 2.<l:iE.{)1 8.00E--09 7.67E+05 6.75E-03 0
1-134 OOOE+OO O.OOE+OO 2.69E+04 0.00E+OO O.OOE+OO OOOE+OO 8.16E+05 O.OOE+OO 7.60E+04 O.OOE+OO 0.00E+OO OOOE+OO 8.16E+05 O.OOE+OO 0
1-135 2 23E-05 6.57E-10 7.10E+04 4.67E-05 3.44E-04 1.24E-11 7.32E+05 9.0SE-06 1.19E+06 7.82E-04 1.83E-04 5 86E-12 7.32E+05 4.29E-06 00 3 39E+04 1.81E+02 5.48E+05 3.82E+02 8 92E-03 2.60E+05 Monitor conveniion factor CF11 (uCilco-c.pm) = 2.45E-08 I
uCVcc TEOE :::if::j uCUcc Child Thyroid <: :*<;cpr_rr:/
""C I>>
1.34E-01 1.00E+01 3.1BE-01 5.00E+01
-:*>l-.:30E~t*:
~
1.34E+OO 1.00E+02 318E+OO 5.00E+02 :::- i:.::ilie+OS:
1.""'"*01 1nm=+03. -~:.;,,;,.;o,;.
3.18~+01 5.00~*03...-,:~.;.;,;,;.,;.
f\\)
w
I\\.)
m m g:i ::i:: OJ X/Q=
9.24E-05 shn' Monitorefliciercies from ERS-SFL-$026 Upstream filtration (iodines reduced O.Q1)
Release (uCUs) CF forTEDE = 2.20E+05 I
3 <.2: ~ (1) 2HVS*Rnl-109B 0"'A*"" Fln.v Rate=
"oni:+ru cfm 2.78E+07 cc/s Release luCi/sl CF tor Child Thvmid = 1.22E+05 (I) "'C ~ ;;.
~
U1 &U2 Activity Effective Count Effective Count
... en!"'!" ~
RCCA Ratio DCF DCF Release Release Efficiency Rate DCF DCF Release Release Efficiency Rate
(/)
CQ I
(1)
Isotope (Ci)
(mrem-m 'IUCl*vl (uCi/s)
(uCi/cc)
(cpmluCilcci (cpmlrnremlh) <mrenwn'tua-vl (uCUs)
(uCi/cc)
(cpmluCi/cc)
(cpm/mrom/h)
(I) c Kr-83m 3.82E+01 2.48E-03 4.69E-01 1.16E-03 5.45E+02 1.96E-05 0.00E+OO O.OOE+OO O.OOE+OO O.OOE+OO 3.01E+02 1.08E.OS O.OOE+OO O.OOE*OO
- o
-
- s N
(;"
Kr-SSm 9.12E+01 5.91E-03 8.17E*02 4.83E+OO 1.30E+03 4.67E-05 5.83E+07 2.73E+OO 0.00E+OO O.OOE+OO 7.19E+02 2.58E-05 5.83E+07 1.51E+03 0
Kr-85 2.22E+02 1.44E-ll2 1.12E*01 1.61E.01 3.17E+03 1.14E-04 7.19E*07 B.1BE+OO 0.00E+OO O.OOE+OO 1.75E+03 6.29E.05 7.19E+07 4.52E+03
(")
C>
-l
~
Kr-87 5.22E*01 3.38E-03 4.47E*OO 1.51E+01 7.45E+02 2.6BE.05 885E+07 2.37E+OO O.OOE+OO O.OOE+OO 4.12E+02 1.48E-05 8.B5E+07 1.31E+03
-3.
Cl Kr-88 1.63E*02 1.06E-02 1.13E*04 1.19E+02 2.33E+03 B.35E-05 6.80E*07 5.6BE+OO O.OOE+OO O.OOE+OO 1.29E+03 4.62E.05 6.80E+07 3.14E+03
)> m
- r -
0 tn Kr-89 3.76E*OO 2.44E-04 1.02E*04 2.49E+OO 5.37E+01 1.93E-06 8.73E+07 1.6BE+02 O.OOE+OO O.OOE+OO 2.97E+01 1.0SE-06 B.73E+07 9.30E+01
(;" (1)
Xe-131m 1.86E*02 1.21E-02 4.29E+01 5.17E.01 2.65E+03 9.53E-05 4.61E*04 4.40E+OO O.OOE+OO O.OOE+OO 1.47E+03 5.27E.05 4.61E*04 2.43E+OO
<.O
(") (I)
~ "<
Xe-133m 2.23E+02 1.45E-ll2 1.49E*02 2.15E+OO 3.18E+03. 1.14E-04 6.06E+04 6.93E+OO O.OOE+OO 0.00E*OO 1.76E+03 6.32E-05 6.06E+04 3.83E+oo OJ
- e. 0 Xe-133 1.32E+04 8.$E-01 1.76E+02 1.51E+02 1.88E+OS 6.77E.03 2.94E+07 1.99E+05 O.OOE+OO O.OOE+OO 1.04E+OS 3.74E.03 2.94E+07 1.10E+05 r
0 c 0
~
Xe-135m 1.42E+02 9.21E.03 2.15E+03 1.98E+01 2.03E+03 7.2BE-05 1.55E+04 1.13E+OO O.OOE+OO O.OOE+OO 1.12E+03 4.02E.OS 1.55E+04 6.23E.01
- s tn Xe-135 1.06E+03 6.87E-02 1.25E+03 8.59E+01 1.51E+04 5.43E-04 7.48E*07 4.06E+04 O.OOE+OO O.OOE+OO B.36E+03 3.00E-04 7.48E+07 2.24E+04
~
- 0 Xe-137 968E*OO 6.28E-04 9.55E*02 5.99E-01 1.38E+02 4.96E-06 9.07E+07 4.SOE+02 O.OOE+OO O.OOE+OO 7.63E+01 2.74E-06 9.07E+07 2.49E+02 r-AJ s*
~
Xe-138 3.38E+01 2.19E-03 6.27E+03 1.37E*01 4.B2E+02 1.73E.OS 7.74E*07 1.34E+OO O.OOE+OO 0.00E+OO 2.67E+02 9.57E-06 7.74E+07 7.41E+02
- o (I) m
~ (1) 1-131 4.53E-01 2.94E-05 4.Ei6E+05 1.37E+01 6.47E+OO 2.32E-07 6.23E+05 1.45E-01 2.44E+07 7.17E+02 3.57E+OO 1.28E-07 6.23E+05 7.99E-02
< a.
~132 1.56E.Q2 1.01E-06 4.33E+04 4.38E-02 2.23E-01 B.OOE-09 7.91E+05 6.33E.03 2.90E+05 2.93E.01 1.23E.01 4.42E-09 7.91E+05 3.SOE-03 m
(I)
P>
""1
~133 1.SSE-01 1.00E-05 1.28E+05 1.29E+OO 2.21E+OO 7.94E-08 7.67E+05 6.09E-02 5.77E+06 5.BOE+Ol 1.22E+OO 4.39E-OB 7.67E+05 3.37E-02
- J
'ii s*
c V'1
~134 9.29E-03 6.02E-07 2.69E+04 1.62E-02 1.33E-01 4.76E-09 8.16E+05 3.88E-03 7.60E+04 4.SBE-02 7.33E.Q2 2.63E-09 B.16E+OS 2.15E-03 co P>
m
!j°.
..-+-
1-135 5.BOE-02 3.76E-OO 7.10E+04 2.67E-01 8.26E-01 2.97E-08 7.32E*05 2.18E-02 1.19E+06 4.47E*OO 4.57E-01 1.64E-08 7.32E+05 1.20E-02 CD
(")
0 a 1.54E+04 4.31E+02 2.60E*05 7.79E+02 4.37E-03 1.44E+05
~
(/)
- c:*
('J -*
Monitor conversion factor CF11 (uCitcc.qim) =
2.45E-08 uCUcc TEDE
-:-:~m-:*:-1 UCi/cc Childlhyroid -:-:-:*:'.'111\\>:-:-:-:
r P>
0 6.38E-02 1.00E+01 2:soe;.oo:
1.76E-01 5.00E+01
- -:-:7..QOE*.os:-:*
0 c
- 3 6.38E-01 1.00E+02
- i:i;OE~<ii:
1.76E+OO 5.00E+02
- <:7)20E;~:Oi::::
![
6.38E+OO 1.00E+03 2:60E~oo* 1.76E+01 5.00E+03
-:-:-7.2oe+~-:-:
- 0
(/)
3:
s*
0 0
- s 0
- J 0
~..
- J c:
CD a.
m z
- u 9
~en i3:
- o Cl "tJ m
J c 3
en I
0 CD U>
- s w z
w I
()()
0 0 co P>
(IQ n
i')
~
Upstream fll1ration (iodines reduced 0.01)
Monitor efficiencies from ERS-SFL..SS.026
?"'"'*ROl.109C Release Flow Rate =
5.90E+04 elm ISOIOpe Kr~3m Kr~Sm Kr.SS Kr.a7 Kr-88 Kr~
Xe.131m Xe-133m Xe-133 xe.13sm
~e-135
~e.137
~e-138 1*131 1-132 l-133 1-134 1-135 U1&U2 LOCAGap (Ci) 9.01E+01 221E+02 127E+03 8.45E+01 3.58E+02 7.50E-02 7.26E*02 6.33E+02 3.72E*04 1.24E+03 2.71E+03 255E-01 7BOE+OO 2.73E*01 132E+01 106E+01 6.51E-01 3.38E*OO 446E*04 Activity Ratio 2.02E-03 4.96E-03 2.BSE-02 1.69E-03 8.03E-03 1.68E.Q6 1.63E-02 1.42E-02 8.34E.01 2.78E-02 6.08E-02 s.ne.os 1.75E-04 6.12E-04 2.96E-04 2.38E-04 1.46E-05 7.58E-05 DCF
<mrem-m'fuCi*vl 4.69E-01 8.17E+02 1.12E+01 4.47E*03 1.13E+04 1.02E+04 429E+01 1.49E+02 1.76E*02 2.15E+03 125E+03 9.55E+02 6.27E+03 4.66E*05 4.33E+04 1.28E+05 2.69E+04 7.10E+04 Effective DCF 9.48E-04 4.05E+OO 3.19E-01 8.47E+OO 9.07E+01 1.72E-02 6.98E-01 2.11E+OO 1.47E+02 5.98E+01 7.60E+01 5.46E-03 1.10E+OO 2.85E+02 1 28E+01 3.04E+01 3.93E-01 5.38E+OO 7.24E*02 Release (uCf/s) 2.64E+02 6.49E+02 3.73E+03 2.48E+02 1.05E+03 220E-01 2.13E+03 1.86E+03 1.09E+05 3.64E+03 7.95E+03 7.48E-01 2.29E+01 8.01E+01 3.87E+01 3.11E+01 1.91E+OO 9.92E+OO Release (l.CVCC)
. 9.SOE-06 2.33E-05 1.34E-04 8.91E.Q6 3.77E-05 7.90E-09 7.65E-05 6.67E-05 3.92E-03 1.31E-04 2.86E-04 2.69E-Oa 822E.07 2.68E-06 1.39E-06 1.12E.Q6 6.86E-Oa 3.56E.07 Monitor conversicri factor CF11 (uCilcccpm) = 4.32E-05 Upstream filtration (IOdines reduced 0.01)
Monitor e1flciencies from ERS-SFL.SS.026 2HVS"ROl-109C Release Flow Rate ~
5.90E+04 elm Isotope Kr-83m Kr-SSm Kr.as Kr.a7 Kr-88 Kr-89 Xe-131m xe-133m Xe-133 Xe.135m Xe.135 Xe.137 Xe-136 1-131 1-132 1-133 l-134 1-135 U1 &U2 DBALOCA (Ci) 180E+03 441E*03 1.27E+04 169E+03 716E+03 1 SOE+OO 145E+04 127E+04 7 43E*05 248E*04 5.42E+04 509E*OO 156E*02 3.41E*02 2.64E*02 212E*02 130E*01 6.75E*01 8.78E+05 Atlillily Ra1io 2.0SE-03 5.02E-03 1.45E-02 1.92E-03 8.15E-03 1.71E-06 1.65E-02 1.45E-02 8.46E-01 2.82E-02 6.17E-02 5.80E.Q6 1.78E-04 3.88E-04 3.01E-04 2.41E-04 1.48E-05 7.69E-05 OCF lmrem-m3/uCi-vl 4.69E-01 8.17E*02 1.12E+01 4.47E+03 1.13E+04 1.02E+04 429E+01 1.49E+02 1.76E+02 2.15E+03 125E+03 9.55E*02 627E*03 4.66E+05 4.~E+04 128E+05 2.69E+04 7.10E+04 Monitor conversion factor CF11 (uC~c:c<:pm) =
Effective DCF 9.61E-04 4.10E*OO 1.62E.01 8.60E+OO 921E+01 1.74E-02 7.08E.01 2.16E+OO 1.49E+02 6.07E+01 7.nE+01 5.54E-03 111E*OO 1.81E*02 1.30E+01 3.09E*01 3.98E.01 5.46E*OO 627E*02 4.32E-05 Release (uCils) 3.10E+02 7,60E+02 2.19E+03 2.91E+02 1.23E+03 2.SSE.01 2.50E+03 2.19E+03 1.2BE+05 427E+03 9.34E+03 B.77E.01 2.69E+01 5.88E+01 4.55E+01 3.65E+01 2.24E+OO 1.16E+01 Release (uCilcc) 1.11E-05 2.73E.05 7.86E.OS 1 OSE-05 4.43E.05 9.28E-09 8.97E.05 7.66E-05 4.60E-03 1.53E-04 3.35E-04 3.15E-Oa 9.65E.07 2.11E.Q6 1.63E-06 1.31E.Q6 8.04E-Oa 4.18E.07 2.78E+07 <:tis Efficiency (cpmluCUcc)
O.OOE+OO 4.88E+04 1.51E+04 1.09E*05 4.28E+04 1.18E+05 5.74E+03 1.41E+04 1.38E+04 1.87E+04 4.47E+04 1.19E+05 8.00E+04 2.16E+02 7.47E+02 5.39E+02 9.41E+02 4.78E+02 Count Rale (cprn.tmremlh) 0.00E+OO 1.14E+OO 2.02E+OO 9.71E.01 1.61E+OO 9.33E-04 4.39E-01 9.41E.01 5.41E+01 2.44E+OO 1.2BE+01 3.20E-03 6.58E.02 6.21E-04 1.04E-03 6.02E-04 6.46E.05 1.70E-04 7.65E+01 2.78E+07 cc/s Efficiency (cpm/uCUcc)
O.OOE+OO 4.88E+04 1.51E+04 1.09E+05 4.28E+04 1.1BE+05 5.74E+03 1.41E+04 1.3BE+04 1.87E+04 4.47E+04 1.19E+05 B.OOE+04 2.16E+02 7.47E+02 5.39E+02 9.41E+02 4.78E+02 Count Rate (Cllffi/mrem/h) 1 O.OOE+OO 1.33E+OO 1.19E+OO 1.14E+OO 1.90E+OO
- 1. 10E-03 5.15E-01 1.11E+OO 6.34E+01 2.87E+OO 1.50E+01 3.75E-03 1.ne-02 456E-04 1 22E-03 7 07E-04 7.57E-05 2.00E-04 8.86E+01 X/Q=
Release (uCVs) CF for TEDE =
Release ILCVsl CF for Child Thv.nid =
DCF cmrem-m'tuCi*vl O.OOE+OO 0.00E+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO 0.00E+OO 0.00E+OO 0.00E+OO O.OOE+OO 0.00E+OO 2.44E*07 2.90E+05 5.77E+06 7.60E+04 1.19E+06 Efiedive DCF O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO 0.00E+OO O.OOE+OO O.OOE+OO 0.00E+OO 0.00E+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO 1.49E+04 8.58E+01 1.37E+03 1.11E+OO 9.02E+01 1.65E+04 Release (uCVs) 1.16E+01 2.85E+01 1.64E+02 1.09E+01 4.62E+01 9.67E.03 9.36E+01 8.16E+01 4.80E+03 1.60E+02 3.49E+02 329E-02 1 01E+OO 3.52E+OO 1.70E+OO 1.37E+OO 8.39E.02 4.36E-01 9.24E-05 s/m3 1.31E+05 5.75E+03 Release (uC!/cc) 4.17E.07 1 02E-06 5.88E-06 3.91E.07 1.66E.OS 3.47E-10 3.36E-06 2.93E.OS 1.72E-04 5.74E-06 1.25E.05 1.18E-09 3.61E-Oa 1.26E-07 6.11E-Oa 4.91E-08 3.01E-09 1.57E.OS 2.07E-04 Efficiency (cpiniuCUcc)
O.OoE+OO 4.88E+04 1.51E*04 1.09E+05 4.28E+04 1.18E+05 5.74E+03 1.41E+04 1.38E+04 1.87E+04 4.47E+04 1.19E+05 8.00E+04 2.16E+02 7.47E+02 5.39E+02 9.41E+02 4.78E+02 Co um Rate (cpm/mremhl)
O.OOE+OO 4.99E.02 8.88E.02 4.27E.02 7.10E-02 4.10E.05 1.93E-02 4.13E-02 2.38E+OO 1.07E.01 5.61E.01 1.41E-04 2.89E.03 2.73E.05 4.57E.05 2.65E.05 2.84E-06 7.48E-06 3.36E+OO uCi/cc 3.31E-02 3.31E.01 3.31E+OO TEDE 1.00E+01 1.00E+02 1.00E+03
-:-:~m-:-:*:i*
uCilcc
- .M~t¢
- : 7.26E-03
- 1.sss+03:
126E.02
- 7.65i:~:O;i : 7.26E.01 Child Thyroid :-:-:-:*:Cll(ll:*:-:-:-
5.00E+01
<*>t.l!i!E+~-:-:
5.00E+02 :;:::ii!ie.:00::::
s.ooe*03 :: <~JiBew>::
X/O=
Release (uCi/s) CF for TEOE =
Release tuCVs* CF for Child Thv<oid ~
DCF rmrem-m3/uCi*vl O.OOE+OO O.OOE*OO O.OOE*OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO 0.00E+OO O.OOE+OO O.OOE*OO O.OOE+OO 0.00E+OO O.OOE+OO 2.44E+07 2.90E+05 5.77E+06 7.60E+04 1.19E+06 uCi/cc 3.63E.02 3.63E.01 3.83E+oo Effective DCF O.OOE+OO O.OOE*OO O.OOE+OO O.OOE+OO 0.00E+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO 0.00E+OO O.OOE*OO O.OOE+OO 9.48E+03 B.72E*01 1.39E+03 1.13E*OO 9.15E*01 1.10E+04 Release (uCUs) 1.76E+01 4.31E+01 1.24E+02 1.65E+01 7.00E+01 1.47E-02 1.42E+02 1.24E+02 726E+03 2.42E+02 5.30E+02 4.97E.()2 1.52E+OO 3.33E+OO 2.58E+OO 2.07E+OO 1.27E.()1 660E.()1 TEDE
.-:. !'PIT->:
1.00E*01
.'!l:l!SE-i~:
1.OOE*02 *: 6*86E~Ol
- 1.OOE+03 "s:IW'+il<l" 9.24E-05 slm' 1.51E+OS B.58E+03 Release (uCiltx:)
6.32E-07 1.SSE-06 4.46E-06 5.93E-07 2.51E-06 5.26E-10 5.09E-06 4.46E-06 2.61E-04 8.70E.OS 1.90E-05 1.79E-09 5.47E-Oa 1.20E-07 9.26E-08 7.44E-Oa 4.56E-09 2.37E-06 3.08E-04 uCilcc 1.08E--02 UJ8E.01 1.08E+OO Efficiency (cpm/UCUcc) 0.00E+OO 4.88E+04 1.51E+04 1.09E+05 4.28E+04 1.18E+05 5.74E+03 1.41E*04 1.3BE+04 1.87E+04 4.47E+04 1.19E*05 8.00E+04 2.16E+02 7.47E+02 S.39E+02 9.41E*02 4.76E+02 Count Rate (epm/mremlh)
O.OOE+OO 7.55E.02 6.73E.02 6.46E-02 1.08E-01 621E-05 2.92E.02 6.28E-02 3.60E+OO 1.63E-01 8.SOE.01 2.13E.()4 4.38E.03 2.58E.05 6.92E-05 4.01E.05 4.29E-06 1.13E.05 5.02E+OO Cllild Thyroid.'-:-: -:~:.':.
5 OOE+01
""'2.51Et-02 5.00E+02
- . "2
- S1EH>J :
5.00E+03
" -: ; *Si Cin'A:
I\\.)
I <
(/)
- a 0
~
0 co
()
s:
Ci
- 0 m
- J cc CD en r ()
- a en z
9
N m mg> :c ~
(I)
I 3 <.Q: !:?..
(1)
XIQ=
9.24E-05 sJm' CD "'C ~ g.
~
Moritor efficiencies from ERS-SFL-86-026 Upstream fitration (iodines reduced 0.01)
Release (uCils) CF for TEDE = 7.15E*05
(/)
.., CJ) !"T..., <
cc
- r
°"°'"Rn(.'"""'
Release Fla.v Rale =
s.sm;+04 c1m
- 2. 7BE +07 eds Release luCi/s\\ r.F for r.hild Thvmid = 3.95E+04 I
(1)
U2only Activity Effeclive Count Effective Count CD c Vl
'"1
- u o*
LOCARCS Ratio DCF DCF Release Release Efficiency Rate DCF DCF Release Release Efficiency Rate
- I N Vl <
IS01ope (Ci)
Cmrem-m3/uCi-vl (uCils)
(uCi/CC)
(cpmiuO/cc)
(cpm/mrem/ll) rmrem-m'tuCi-vl (uCils)
(uCi!cc)
(cpmluCi!cc)
(cpmJmremmi 0
n G')
Kr-83m 1 34E-03 2.27E-05 4.69E-01 1.07E-05 1.63E+01 5.84E-07 O.OOE+OO 0.00E+OO 0.00E+OO O.OOE+OO 8.98E--01 3.22E-08 O.OOE+OO 0.00E+OO (I)
PJ Kr.a!im 5.53E-03
....lo.
0 9.39E-05 8.17E+02 7.67E-02 6.71E+01 2.41E-06 4.BBE+04 1.1BE-01 O.OOE+OO 0.00E+OO 3.71E+OO 1.33E.{)7 4.88E+04 6.49E-03 m
- r........
Kr-85 3.27E*01 5.SSE-01 1.12E+01 6.22E+OO 3.97E*05
, 42E-02 1.51E+04 2.15E+02 O.OOE*OO O.OOE*OO 2.19E*04 7.87E-04 1.51E*04 1.19E+01 0
)> I/)
- l -
Kr-S7 7 04E-04 1.19E-05 4.47E*03 5.34E-{)2 8.54E*OO 3.07E-07 1.09E+05 3.34E-02 O.OOE*OO O.OOE+OO 4.72E--01 1.69E-08 1.09E+05 1.BSE-03 co n CD o*
(1)
Kr-ae 6 02E-03 1.02E-04 1.13E+04 1.15E+OO 7.30E+01 2.62E-06 4.28E*04 1.12E-01 O.OOE+OO 0.00E+OO 4.03E+OO 1.4SE-07 4.28E+04 6.20E-03 0
!::::!: 0
~ '<
Kr~
2 92E-08 4.96E-10 Ul2E+04 5.06E-06 3.54E-04 1.27E-11 1.18E+05 1.SOE-06 O.OOE*OO O.OOE+OO 1.96E-05 7.0JE-13 1.18E+05 8.29E-08 0
Xe-131m 118E+OO 2.00E-02 4.29E+01 8.59E-01 1.43E+04 5.14E-04 5.74E+03 2.95E+OO 0.00E+OO 0.00E+OO 7.91E+02 2.84E--05 5.74E+03 1.63E-01 s::
c 0
~
Xe-133m 1 81E-01 3.07E-03 1.49E*02 4.58E--01 2.20E+03 7.BSE-05 1.41E+04 1.11E+OO O.OOE*OO O.OOE*OO 1.21E*02 4.36E-06 1.41E+04 6.14E-02
- , I/)
~.. 0 Xe-133 2.48E*01 4.21E-01 1.76E*02 7.41E+01 3.01E+05 1.0BE--02 1.38E+04 1.49E+02 0.00E+OO O.OOE*OO 1.66E+04 5.97E-04 1.38E+04 B.24E+OO a:
r- :;tJ c;*
~
Xe-135m 1.21E-02 2.0SE-04
- 2. 15E+03 4.42E-01 1.47E*02 5.27E-06 1.87E+04 9.86E-02 O.OOE*OO O.OOE+OO 8.11E+OO 2.91E-07 1.B7E+04 5.45E-03
'2..
Xe-135 1 86E-02 3.16E-04 1.25E+03 3.95E-01 226E+02 B.10E-06 4.47E+04 3.62E-01 O.OOE+OO O.OOE+OO 1.25E+01 4.48E-07 4.47E+04 2.00E-02
- 0 CD m tTl (1)
Xe-137 1 19E-07 2.02E-09 9.55E+02 1.93E-06 1.44E.{)3 5.1BE-11 1.19E+05 6.17E-06 O.OOE*OO O.OOE+OO 7.97E--05 2.86E-12 1.19E+05 3.41E-07 ID
< c.
'"1 ct>
Xe-138 1 32E-05 2.24E-07 6.27E+03 1.40E-03 1.60E.{)1 5.7SE-09 8.00E*04 4.SOE-04 O.OOE*OO O.OOE+OO 8.BSE-03 3.18E-10 8.00E+04 2.54E-05
- J cs*
c 1-131 5.41E-03 9.18E-05 4.66E+05 4.28E+01 6.56E+01 2.36E.{)6 2.16E+02 5.0SE-04 2.44E*07 2.24E+03 3.63E*OO 1.30E.{)7 2.16E+02 2.B1E-05 cc u;
~ rJ).
1-132 3.62E-03 6.14E-05 4.33E*04 2.66E+OO 4.39E+01 1.58E-06 7.47E+02 1.1BE-03 2.90E+05 1.78E*01 2.43E+OO 8.71E-08 7.47E+02 6.51E-05 CD m
c:;*
r-t-1-133 1.3BE-03 2.34E-05 1.28E+05 3.00E+OO 1.67E+01 6.01E-07 5.39E+02 3.24E-04 5.77E+06 1.35E+02 9.25E-01 3.32E-08 5.39E+02 1.79E-05 n
- !.. a 1-134 3.61E-05 6.13E-07 2.69E+04 1.65E.{)2 4.3BE--01 1.57E-08 9.41E+02 1.48E-05 7.60E+04 4.66E.{)2 2.42E-02 B.69E-10 9.41E+02 B.17E-07
(/)
1-135 3.76E-04 6.38E-06 7.10E+04 4.53E.01 4.56E+OO 4.33E-06
(') -*
1.64E-07 4.78E+02 7.83E-05 1.19E+06 7.59E+OO 2.52E--01 9.05E.{)9 4.78E+02 r
"' 0 5.89E*01 1.33E+02 3.69E+02 2.40E+03 1.42E-03 2.04E+01 0
- +
0 c
- s Monitor conve,,;lon raoor CF11 (uCVcc-cpm) = 4.32E-05 uCilcc TEDE
- -:.. cp(ll:-:-:*
uCitcc Child Thyroid -:-:-'."<;pill<<<:
- u
!["
1.59E-01 1.00E+01
- 369E+o3< 4.40E-02 5.00E+01
- -:,,~~~()~:-.
(/)
s:
c;*
1 59E*OO 1.00E*02
- 3 59E+<l4.: 4.40E-01 5.00E+02
- -:-:rn2E+ll4>"
- l 1.59E+01 1.00E*03
- 3,59,,:,.;,;;:-
4.40E+OO 5.00E+03
0 0
- I 0
- +
-
- J X/C = 9.24E-05 sJm' 0
Monitor efficiencies from ERS-SFL-a6-026 Upstream fillralion 6odines reduced 0,01 l Release (uCils) CF for TEDE = 2.26E+04
- J
~'"'"'"Rrn.1nor-Re\\oA"" Flow Rate = 5. <r1~+04 elm 2 7BE+07,.,.1c RoloAse /ut"i/sl CF for Child Th"""" = 4.50E+03 s:::
U1 &U2 Activity Effective Count Effective Count CD LOCATID Ratio DCF DO' Release Release Efficiency Rate DCF DCF Release Release Efficiency Rote
- c.
Isotope (Ci)
Cmrem-m'IUCl-vl (uCi/s)
(l.Cilci;)
(qxn/l.CVci;)
(cpmlmremlll) cmrem-m'l\\JCi-vl (uCils)
(uCVci;)
(cpm/uCi/cc)
(cpmlmrem/h) -
Kr-83m 946E+06 1 31E-02 4.69E.{)1 613E.{)3 2.96E*02 1.0SE-05 OJXlE+OO O.OOE+OO O.OOE+OO O.OOE+OO 5.88E+01 2.11E-06 O.OOE+OO O.OOE+OO Kr~
195E*07 2.69E-02 8.17E+02 2.20E+01 6.10E+02 2.19E-05 4.BBE+04 1.07E+OO 0.00E+OO 0.00E+OO 1.21E+02 4.35E.{)6 4.88E+04 2.13E-01 m
Kr-a5 827E+OS 1.14E-03 1.12E+01 1.2BE-02 2.59E+01 9.2BE--07 1.51E+04 1.40E.{)2 O.OOE+OO 0.00E+OO 5.14E+OO 1.85E-07 1.S1E+04 2.79E-03 z
Kr-a7 391E+07 5.40E-02 4.47E+03 2 41E+02 1.22E+03 4.39E-05 1.09E+OS 478E+OO O.OOE+OO O.OOE+OO 2.43E+02 B.73E-06 1.09E+05 9.52E-01
- a 9
Kr-aB S 43E+07 7.50E-02 1.13E*04 8.47E*02 1.70E+03
- 6. 10E--05 4.2BE+04 2.61E+OO O.OOE+OO O.OOE+OO 3.38E+02 1.21E-05 4.28E+04 5.19E-01 Kr-a9 6 75E+07 9.32E-02 1.02E+04 9.51E+02 2.11E+03 7.58E-05 1.18E+05 8.94E+OO O.OOE+OO O.OOE+OO 4.20E+02 1.51E-05 1.1BE+05 1.7BE+OO
)>
Xe-131m 108E+06 1.49E-03 4.29E*01 6.40E-02 3.38E+01 1.21E-06 5.74E+03 6.96E--03 O.OOE+OO O.OOE+OO 6.72E+OO 2.41E-07 5.74E+03 13BE-03 I
Xe-133m 5.0SE+06 6.97E-03 1.49E+02 1.04E+OO 1.58E+02 5.67E-06 1.41E+04 7.99E-02 O.OOE+OO O.OOE+OO 3.14E+01 1.13E-06 1.41E+04 1.59E-02 3:
- o Xe-133 160E+OB 2.21E-01 1.76E+02 3.89E+01 5.00E*03 1.SOE-04 1.38E+04 2.48E+OO O.OOE+OO O.OOE+OO 9.95E+02 3.57E-05 1.38E+04 4.93E-01
(') ""C m
Xe-135m 336E+07 4.64E-02 2.15E+03 9.97E+01 1.05E*03 3.77E-OS 1.87E+04 7.0SE-01 O.OOE+OO O.OOE+OO 2.09E+02 7.SOE-06 1.87E*04 1.40E-01
- r Xe-135 4.84E+07 6.68E-02 1.25E+03 8.35E+01 1.51E+03 5.43E-05 4.47E+04 2.43E+OO O.OOE+OO O.OOE+OO 301E+02 1 OBE-05 4.47E*04 4.63E-01 3 c (J)
Xe-137 146E+08 2.02E-01 955E*02 1.93E+02 4.56E*03 1.64E-04 1.19E+05 1.95E+01 O.OOE+OO O.OOE+OO 9.08E+02 3.26E-05 1.19E+05 3.BBE+OO cO Xe-138 136E+08 1.BaE-01 627E+03 1.18E+03 4.2SE+03 1.53E-04 8.00E+04 1.22E+01 0.00E+OO OOOE+OO B46E+02 3.04E-05 B.OOE+04 2.43E+OO CD 0
1-131 3 B9E*05 5.37E-04 466E*05 2.50E+02 1.22E+01 4.37E-07 2.16E+02 9.43E-05 2.44E+07 1.31E+04 242E+OO 8.69E-08 216E+02 1.BSE-05
- I w z
1-132 5 70E+05 7 87E-04 4.33E*04 3.41E+01 1.7BE*01 640E--07 7.47E*02 4 7BE-04 2.90E+OS 2.2BE*02 354E*OO 1.Z7E-07 7.47E+02 9.51E-05 w
I 1-133 8.00E+OS 1.10E-03 1*28E+05 1.41E+02 2.50E+01 8.98E-07 5.39E+02 4.84E-04 S.77E+06 6.37E+03 498E+OO 1.79E-07 5.39E+02 9.63E-05 0
QI) 1-134 885E*05 1.22E-03 2.69E+04 3.29E+01 2.77E+01 993E--07 9.41E+02 9.35E-04 7.60E+04 929E+01 5.SOE+OO 1 98E-07 9.41E+02 1.86E-04 0
1-135 760E*05 1.0SE-03 7.10E+04 7.45E+01 2.38E*01 B.53E-07 4.7BE+02 4.0SE-04 1.19E+06 1.2SE+03 4.73E+OO 1.70E-07 4.7BE+02 B.11E-05 00 7 24E*OB 4.19E+03 5.48E+01 2.10E+04 1.62E-04 1.09E+01 Monitor conversion factor CF 1 1 (uCVo;;-cpm) =
4.32E--05 I
UCl/ci; TEDE : : : w.m: : "]
uO/ci; Child ThYrotd ;: :;:::~;:;::::
2.37E-02 1.00E+01
- ~~BE~QZ:
2.36E-02 5.00E+01
-: * >s.4sr+o:z *:::
(IQ 2 37E-01 1.00E*02 : <5.48E+lJ3.
2 36E-01 5 OOE+02
- *: :s.fiSi::+os:::
Cl>
2.37E+OO 1.00E*03 * >5.<lirE+o.i
- 2.36E+OO 5.00E+03 : :-:~.~Cc".UtA:-:
l\\J
())
N m m (J) :i:: t:O 3
c Cl>
I
<.Q'. ~ (!)
9.24E-05 stm' CD "O ~ g. ~
X/Q=
Monitor efficiencies from ERS-SFL-<l!i-026 Release (uCils) CF for TEDE =
.., en~ '"Cl <
UPStream fittration (iodines reduced 0.011 1.05E+05 en cc
- r 2HVS'ROl-109C Release Flow Rate -
5.90E+04 elm 2.78E+07 eels Release IUCilsl CF for Child T"""id = 1.05E+04 I
(!)
Count CD c
""1 U2 only Activity Effective Count Effective
- 0 c;*
SBLOCA Ratio DCF DCF Release Release Efficiency Rate DCF DCF Release Release Efficiency Rate
~ N lsolope
!Ci)
<mrem-m'luC~vl (uCils)
(uCi/cc)
(cpm/uCi/cc)
(cpm/mrem/h)
Cmrem-m3/uCi-vl (uCi/s)
(UC:i/cc)
(cpm/uCi/cc)
(cpm/mrem/h)
D
(")
G'>
-l Kr.a:!m 2 49E-01 621E-!14 4.69E-01 2.91E-04 6.51E+01 2.34E-06 O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO 6.54E+OO 2.35E-07 0.00E+OO O.OOE+OO Cl>
~
~
(')
Kr~Sm 8 90E-01 222E-03 8.17E+02 1.81E+OO 2.33E+02 8.36E-06 4.88E+04 4.0SE-01 O.OOE+OO 0.00E*oo 2.34E+01 8.40E-07 4.88E+04 4.iDE-02 m
- r -
Kr~
7.90E*01 1.97E-01 1.12E*01 2.21E+OO 2.07E+04 7.42E-04 1.51E+04 1.12E+01 O.OOE+OO O.OOE+OO 2.08E+03 7.46E-05 1.51E+04 1.13E+OO 0
)> (I)
- I -
Kr~7 5.64E-01 1.41E-03 4.47E+03 6.29E+OO 1.47E+02 5.30E-06 1.09E+05 5.77E-01 O.OOE+OO 0.00E+OO 1.48E+01 5.32E-07 1.09E+05 5.SOE-02
<O n CD c:;*
(!)
Kr~
1.64E+OO 4.09E-03 1.13E+04 4.62E+01 4.29E+02 1.54E-05 4.28E+04 6.59E-01 O.OOE+OO 0.00E+OO 4.31E+01 1.55E-06 4.28E*04 6.62E-02
()
~ 0
~ ~
Kr~
1.44E-02 3.59E-05 1.02E+04 3.66E-01 3.77E+OO 1.35E-07 1.18E+05 1.60E-02 O.OOE+OO 0.00E+OO 3.7BE-01 1.36E-08 1.18E+05 1.60E-<13 0
Xe-131m 3.36E+OO 8.38E-03 4.29E+01 3.60E-01 8.79E+02 3.15E-06 5.74E+03 1.81E-01 O.OOE+OO 0.00E*OO 8.83E+01 3.17E-06 5.74E+03 1.82E-02 s:
c 0
'"'d
~ (I)
Xe-133m 3.01E+OO 7.51E-03 1.49E+02 1.12E+OO 7.87E+02 2.83E-05 1.41E+04
, 3.98E-01 O.OOE*OO 0.00E+OO 7.91E+01 2.B4E-06 1.41E+04 4.01E-02
- 0 Xe-133 2.02E+02 5.04E-01 1.76E+02 8.87E+01 5.28E+04 1.90E-03 1.38E+04 2.62E*01 O.OOE+OO O.OOE+OO 5.31E+03 1.91E-04 1.38E+04 2.63E+OO a
r- ::0 c:r
~
Xe-135m 8.91E+01 222E-01 2.15E+03 4.78E+02 2.33E+04 8.37E-04 1.87E*04 1.56E+01 O.OOE+OO 0.00E+OO 2.34E+03 S.41E-05 1.87E+04 1.57E+OO
- I Xe-135 2.00E*01 4.99E-02 1.25E+03 6.24E+01 5.23E+03 1.88E-04 4.47E+04 8.39E+OO O.OOE+OO 0.00E+OO 5.26E+02 1.89E-05 4.47E+04 8.44E-01
- 0 CD m m (!)
Xe-137
~.36E-02 1.09E-04 9.55E+02 1.04E-01 1.14E+01 4.09E-07 1.19E+05 4.87E-02 O.OOE+OO O.OOE+OO 1.15E+OO 4.11E-08 1.19E+05 4.90E-03 Q)
< Q.
""1 CD I>>
Xe-138 303E--01 7.56E-04 6.27E+03 4.74E+OO 7.92E+01 2.B4E-06 8.00E*04 2.28E-01 O.OOE+OO O.OOE+OO 7.96E+OO 2.SSE-07 8.00E+04 2.29E-02
- J c
- 0 r:.r.i 1-131 9.92E-02 2.48E-04 4.66E+05 1.15E+02 2.59E+01 9.31E-07 2.16E+02 201E-04 2.44E+07 6.04E*03 2.61E+OO 9.36E-08 2.16E+02 2.02E-05
<C e
1-132 1 02E--01 2.54E-04 4.33E+04 1.10E+01 2.67E+01 9.58E-07 7.47E+02 715E-04 2.90E+05 7.38E+01 2.6SE+OO 9.63E-08 7.47E+02 7.19E-05 CD m
c;*.......
1-133 1.72E-01 4.29E-04 1.28E+05 5.49E+01 4.50E+01 1.61E-OO 5.39E+02 870E-!14 5.77E+06 2.48E+03 4.52E+OO 1.62E--07 5.39E+02 8.75E-05 n
- I a 1-134 118E-01 2.94E-04 2.69E+04 7.92E+OO 3.09E+01 1.11E-OO 9.41E+02 1.04E-03 7.60E+04 2.24E+01 3.10E+OO 1.11E-07 9.41E+02 1.0SE-04 en - n
- c*
1-135 1.31E-01 3.27E-04 7.10E+04 2.32E+01 3.43E+01 1.23E-O; 4.78E+02 5.88E-!14 1.19E+06 3.89E+02 3.44E+OO 1.24E-07 4.78E+02 5.91E-05 r
I>>
0 4 01E+02 9.05E+02 6.39E+01 9.00E+03 3.78E-04 6.43E+OO
()
0 c
- s Monitor conversion factor CF11 (uCilcc-cpm) =
4.32E-05 uCi/cc TEDE
- -:-:CPR!<<]
uCi/cc Child Thyroid :-:-:- *llP<l':-:-:-:
- o iii -
2.76E-02 1.00E+01
-:s.:i96+bi>
1.39E-02 5.00E*01
c;*
2.76E-01 1.00E+02
- ~~~~~Q:i:
1.39E-01 5.00E+02 :-:::i.:iiE'tos>>
- I 2.76E+OO 1.00E+03 * :6.'3l!E*"".
1.39E+OO 5.00E+03 :::-:321804:*:.
0 0
~
0
- J X/Q=
9.24E-05 sJm'
~
0 Molitor efficiern:ies from ERS-SFL~
Upstream filtraticn (iodines reduced 0.01)
Release (uCi/s) CF for TEOE = 5.24E+05
- J 2HVS'RDl*109C Release FkM Rate =
5.90E+04 elm 2.78E+07 er:Js Release !uCi/SI CF for Child T""""d = 2.48E+05 C
U1 &U2 Activity Effedive Count Effective Count (I)
FHA Ratio DCF DCF Release Release Efficiency Rate DCF DCF Release Release Efficiency Rate 0..
lsOlcpe (Ci)
!mrem-m31uCi*Yl (UC:Vs)
(uCi/a:)
(qim/uCi/cc)
(cpm/mrem/h)
(mrem-m3/uCi-v1 (uCils)
(uCilcc)
(cpm/uCi/cc)
(cpm/mrem/h) -
Kr-83m 0 OOE*OO O.OOE+OO 4.69E-01 O.OOE+OO 0.00E+OO O.OOE+OO O.OOE+OO 0.00E+OO O.OOE+OO O.OOE*OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO Kr~m 1 04E-03 3.07E-08 8.17E+02 2.SOE-05 1.61E-02 5.77E-10 4.88E+04 2.81E-05 O.OOE+OO 0.00E+OO 7.61E-03 2.73E-10 4.88E+04 1.33E--05 m
Kr~
4.78E+02 1.41E-02 1.12E+01 1.58E-01 7.38E+03 2.65E-04 1.51E+04 4.00E+OO O.OOE+OO 0.00E+OO 3.50E+03 1.26E-04 1.51E+04 1.90E+OO z
Kr~7 0.00E*OO O.OOE+OO 4.47E+03 O.OOE+OO 0.00E+OO O.OOE+OO 1.09E+05 O.OOE+OO O.OOE+OO OOOE+OO 0.00E+OO 0.00E+OO 1.09E+05 O.OOE+OO
- 0
~
Kr~
O.OOE+OO 0.00E*OO 1.13E+04 0.00E+OO O.OOE+OO O.OOE+OO 4.28E+04 O.OOE*OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO 4.28E+04 O.OOE+OO CJ)..
Kr~
O.OOE+OO O.OOE+OO 1.02E+04 O.OOE+OO O.OOE+OO O.OOE*OO 1.18E+05 O.OOE+OO O.OOE+OO O.OOE+OO 0.00E+OO O.OOE+OO 1.18E+05 O.OOE*OO
)>
Xe-131m 4.66E+02 1.37E-02 4.29E+01 5.89E-01 7.19E+03 2.58E-04 5.74E+03 1.48E+OO 0.00E+OO O.OOE+OO 3.41E*03 1.22E-04 5.74E+03 7.03E-01
~
I Xe-133m 6.16E+02 1.82E-02 1.49E+02 2.71E+OO 9.51E+03 3.41E-04 1.41E+04 4.81E+OO O.OOE+OO O.OOE+OO 4.51E+03 1.62E-04 1.41E+04 2.28E+OO s:
- 0 Xe-133 3.23E+04 9.52E-01 1.76E+02 1.68E+02 4.99E*05 1.79E-02 1.38E*04 2.47E+02 O.OOE+OO O.OOE+OO 2.3SE+05 8.49E-03 1.38E+04 1.17E+02
('),,
m Xe-135m 2.65E+OO 7.81E-05 2.15E+03 1.68E-01 4.09E+01 1.47E-06 1.87E+04 2.75E-02 O.OOE+OO O.OOE+OO 1.94E+01 6.96E-07 1.87E+04 1.30E-02
- r Xe-135 6 10E+01 1.BOE-03 1.25E+03 2.25E+OO 9.42E+02 3.38E-05 4.47E+04 1.51E+OO O.OOE+OO O.OOE+OO 4.46E+02 1.60E-05 4.47E+04 7.17E-01 3 c en Xe-137 OOOE+OO 0.00E+OO 9.55E+02 0.00E+OO O.OOE+OO O.OOE+OO 1.19E+05 0.00E+OO 0.00E+OO O.OOE+OO O.OCE+OO 0.00E+OO 119E+05 O.OOE+OO I
0 Xe-138 OOOE+OO 0.00E+OO B27E+03 O.OOE+OO O.OOE+OO O.OOE+OO B.OOE+04 OOOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO 8.00E+04 0.00E+OO CD U>
1-131 5 20E-01 1.53E-05 4.66E+05 7.14E+OO 8.03E*OO 2.88E-07 2.16E+02 6.23E-05 2.44E+07 3.74E*02 3.81E+OO 1.37E-07 2.16E+02 2.95E-05
- I w z
1-132 2.52E-01 7.43E-06 4.33E*04 3.22E-01 3.89E+OO 1.40E-07 7.47E*02 1.04E-04 2.90E*05 2.15E+OO 1.B4E+OO 6.62E-08 7 47E*02 4 95E-05 w
I CC) 1-133 3.35E-02 9.87E-07 1.28E+05 1.26E-01 5.17E-01 186E-08 S.39E+02 1.00E-05 5.77E+06 5.70E+OO 2.45E-01 8.BOE-09 5.39E+02 4.75E-06 0
1-134 OOOE+OO O.OOE+OO 2.69E+04 O.OOE+OO O.OOE+OO 0.00E+OO 9.41E+02 O.OOE+OO 7.60E+04 O.OOE+OO O.OCE+OO O.OOE+OO 9.41E+02 OOOE+OO 0
1-135 2.23E-05 6.STE-10 710E+04 4.67E-05 3.44E-04 1.24E-11 4.78E+02 5.91E-09 1.19E+06 7.82E-04 1.s:JE-04 5.86E-12 4.78E+02 2.SOE-09 00 3 39E*04 1.81E*02 2.59E+02 3.82E+02 8.92E-03 1.23E+02 Monrtor conversion laclor Cf 11 (uCVcc-cpm) =
4.32E-05 uC~cc TEDE
- -:-:-~:-:-:-
UC:Va:
Chila Thyroid
1.12E-01 1 OOE+01
- 2;~~~:: 2.65E-01 5.00E+01
- ~~~i;>*~3.::
cffl 1.12E+OO 1.00E+02 -: *2:59804: : 2.65E+OO 5.00E+02 "6.14E+Dil:-:
Cl>
1.12E+01 1.00E+03
- -:::o:~ru::.as** 2.sse.01 5.00E+03 i;.:1:.io-~05*>
I\\)
~
I\\)
m Cl g> :i:: to
('!)
I 3 <.2: ~ (l)
X/Q=
9.24E-05 s1m' CD.,, ~ a-Pi' Monitor efficiencies from ERS-SFL.a&-026 Upstream flllration (iodines reduced 0.01)
Release (uCi/s) CF for TEDE = 220E+05 en
~ (/) rr.,, <
CQ
- r 2HVS"RDl-109C Release Fla.v Rate -
5.90E*04 elm 2.78E+07 cc/s Ralease luCi/sl CF for Child T"'~'d = 1.22E+OS I
(l)
U1&U2 Effective Count Count CD c:
"'"1 Activity Effective
- u n-RCCA Ratio DCF DCF Release Release Ema ency Rate DCF DCF Release Release Efficiency Rate
- s N Isotope
!Ci)
Cmrem-m'luCi-vl (uO/s)
(uO/cc)
(cpm/uCi/cc)
(cpm/mrem/h)
Cmrem-m'tuCi-vl (uCi/s)
(uCi/cc)
(cpmluCi/CC)
(cpm/mremlll) 0 n
G'>
-l Kr-83m 382E*01 2.48E.Q3 4.69E-01 1.16E-03 5.45E+02 1.96E-05 O.OOE+OO O.OOE+OO 0.00E+OO O.OOE+OO 3.01E+02 1.0SE-05 0.00E+OO O.OOE+OO
('!)
Pi'
-Jo.
n Kr-SSm 9.12E+01 5.91E.Q3 8.17E+02 4.83E+OO 1.30E+03 4.67E-05 4.88E+04 2.28E+OO O.OOE+OO O.OOE+OO 719E+02 2.58E-05 4.88E+04 1.26E+OO D>
- r -
Kr-85 222E*02 1.44E.Q2 1.12E+01 1.61E-01 3.17E+03 1.14E-04 1.51E+04 1.72E+OO O.OOE+OO O.OOE+OO 1.75E+03 6.29E-05 1.51E*04 9.49E-01 0
)> "'
- s -
Kr~7 5.22E*01 3.38E-03 4.47E+03 1.51E+01 7.45E+02 2.68E.{)5 1.09E+05 2.92E+OO O.OOE+OO O.OOE+OO 4.12E+02 1.4llE-05 1.09E+05 1.61E+OO
<.O n CD c=;-
(!)
Kr~
1.63E*02 1.06E-02 1.13E+04 1.19E+02 2.33E+03 B.35E-05 4.2BE*04 3.58E+OO O.OOE+OO 0.00E+OO 1.29E+03 4.62E-05 4.28E+04 1.98E+OO 0
er. 0
~ \\.<:'.
Kr~
3.76E+OO 2.44E-04 1.02E+04 2.49E+OO 5.37E+01 1.93E-06 1.18E+05 2.27E-01 0.00E+OO 0.00E+OO 2.97E+01 106E.Q6 1.18E+05 1.26E-01 0
Xe-131m 186E*02 1.21E-02 4.29E*01 5.17E-01 2.65E+03 9.53E-05 5.74E*03 5.47E-01 O.OOE+OO 0.00E+OO 1.47E*03
'5.27E.OS 5.74E+03 3.02E-01 s:
c 0
"'t1 Xe-133m 2.23E*02 1.45E.Q2 1.49E+02 2.15E*OO 3.1BE+03 1.14E-04 1.41E+04 1.61E+OO O.OOE+OO O.OOE+OO 1.76E+03 6.32E-05 1.41E+04 B.90E-01
- s "'
~* 0 Xe-133 1.32E+04 8.56E-01 1.76E+02 1.51E*02 1.88E+OS 6.77E.Q3 1.38E+04 9.34E+01 O.OOE+OO O.OOE+OO 1.04E+05 3.74E-03 1.38E+04 5.16E+01 a:
r :::0 c:r
~
Xe-135m 1.42E+02 921E-03 2.15E+03 1.98E+01 2.03E*03 7.28E-05 1.B7E+04 1.36E+OO O.OOE+OO O.OOE+OO 1.12E+03 402E-05 1.87E+04 7.52E-01 CD e..
Xa-135 1.06E*03 6.87E-02 1.25E*03 8.59E+01 1.51E+04 5.43E-04 4.47E+04 2.43E+01 O.OOE+OO 0.00E+OO 8.:JSE+03 3.00E-04 4.47E+04 1.34E+01
- u m
rn (l)
Xe-137 968E+OO 6.28E-04 9.55E+02 5.99E-01 1.38E+02 4.96E-06 1.19E+05 5.90E-01 O.OOE+OO O.OOE+OO 7.63E+01 274E-06 1.19E+05 3.26E-01 Ql
< a.
"'"1 CD Xe-138 338E+01 2.19E.Q3 6.27E+03 137E+01 4.82E+02 1.73E-05 8.00E+04 1.39E*OO O.OOE+OO O.OOE+OO 2.67E+02 9.57E-06 8.00E*04 7.00E-01
- J 2"
1-131 4 53E-01 2.94E-05 4.66E+05 1.37E+01 6.47E+OO 2.32E-07 2.16E+02 5.0lE-05 2.44E+07 7.17E+02 3.57E*OO 1.28E-07 2.16E+02 2.77E-05 cc ii 0 E!!
C/J 1-132 1 56E-02 1.01E.Q6 4.33E+04 4.38E.Q2 2.23E-01 8.00E-09 7.47E+02 5.97E-06 2.90E+05 2.93E-01 1 23E-01 4.42E-09 7.47E*02 3.30E-Ol (1)
D>
5*
....+
1-133 1 55E-01 1.00E-05 1.28E*05 1.29E*OO 2.21E+OO 7.94E-08 5.39E+02 4.28E-05 5.77E+06 5.80E+01 1.22E+OO 439E-08 5.39E+02 2.37E-05 n
- I a 1-134 9 29E-03 6.02E-07 2.69E*04 1.82E.Q2 1.33E-01 4.76E-09 9.41E*02 4.48E-06 7.60E+04 4.58E-02 7 33E-02 2.63E-09 9.41E*02 2.48E-06 en -
?5
- c*
1-135 SSOE-02 3.76E-06 7.10E+04 2.67E-01 8.28E-01 2.97E-08 4.78E+02 1.42E.{)5 1.19E+06 4.47E+OO 4.57E-01 164E-08 4.78E*02 7.85E-06 r
"" 0 1.54E+04 4.31E+02 1.34E+02 7.79E+02 4.37E-03 7.40E+01 0
n-
- s c:
Monitor converaion faclor CF11 tuCUce-qimJ = 4.32E-05 uCUcc TEDE
"* * *cpfri * * * *
- 1 uCUcc ChildThyroid -:-:-:-:<:P.m<<
- u
~
5.78E.Q2 1.00E+01
\\~t:~tiJ:
1 SOE-01 5.00E+01
- -:~_j!)IS~Q~
en s:
0-5.78E-01 1.00E+02
<L14E~04: 1.60E+OO 5.00E*02
- -:*:3.10E*Oi;34E:,:05:
1.60E+o1 5.00E+03
<<:i'lilE+tis 0
0
- s 0
- J 0
- J
~
c CD a. -
m z
~ !'.>..
>>en 61 :i:
- u n -a m
- r 3 c Ci5 I
6 CD CD
- I w z
I w
I co 0
0 co
-i:l Ql
~
/
l\\J CX>
N m mg' :I: co
<V I
3 <g ~ (t)
X/Q=
9.24E-OS stm' CD.,, ~ s-
~
Monitor efficiencies from ERS-SFL-56-026 Upstream filtration (iodines reduced 0.01)
Release (uCVs) CF for TEOE = 1.31E+05
.., cn~ -c (J) cc
- r' 2HVS 0 RQl-1090 Release Flow Rate =
5.90E+04 elm 2.78E+07 a:Js Release luCVsl CF for Child Thvmid = 5.75E+03 I
(t)
U1 & U2 Activity Effective Count Effective Count CD c:
lo'1
- 0 c;*
LOCAGap Ratio DCF DCF Release Release Efficiency Rate DCF DCF Release Release Efficiency Rate
- l N Isotope (Ci!
(mrem-m~hJCi--v)
(uCVs)
(uCVcc)
(cpm/uCVCCJ (cpm/mremlh)
(mrem-m'luCi-vl (uCVs)
(uCilcc)
(cpm/uCllcc)
(cpmlmremlh) 0 n
G'>
-l Kr-83m 9.01E+01 2.02E-03 4.69E-01 9.48E-04 2.64E+02 9.SOE-06 O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO 1.16E+01 4.HE-07 O.OOE+OO O.OOE+OO
<V p.:i Kr-8Sm 221E+02 8.17E+02 4.0SE+OO 2.85E+01 1.79E+02 1.83E-04
....lo.
0 4.96E-03 6.49E+02 2.33E-05 1.79E+02 4.HE-03 O.OOE+OO O.OOE+OO 1.02E-06 m
- r' -
Kr-85 1 27E+03 2.85E-02 1.12E+Ot 3.19E-01 3.T.lE+03 1.34E-04 S.89E+01 7.BSE-03 O.OOE+OO O.OOE+OO 1.64E+02 5.BSE-06 5.89E+01 3.46E-04 0
)> en
- I -
Kr-87 845E+01 1.89E-03 4.47E+03 8.47E+OO 2.48E+02 8.91E-06 4.31E*02 3.84E-03 O.OOE+OO O.OOE+OO 1.09E+01 3.9tE-07 4.31E+02 1.69E-04
(!)
n CD c;*
(D Kr-88 3.58E+02 8.03E-03 1.13E*04 9.07E+01 1.05E+03 3.77E-05 1.63E+02 6.15E-03 O.OOE*OO O.OOE+OO 4.62E+01 1.68E-06 1.63E+02 2.70E-04 0
!:::!: 0
~ '<
Kr-89 7.SOE-02 1.68E-06 1.02E+04 1.nE-02 2.20E-01 7.SOE-09 4.63E+02 3.66E-06 O.OOE+OO O.OOE+OO 9.67E-03 3.47E-10 4.63E+02 1.61E..07 0
-c
~131m 7.26E+02 1.63E-02 4.29E+01 6.98E-01 2.13E+03 7.65E-05 2.25E*01 1.72E-03 O.OOE+OO O.OOE*OO 9.36E+01 3.36E-06 225E*01 7.56E-05 I
c 0
i--o Xe-133m 6 33E+02 1.42E-02 1.49E+02 2.11E+OO 1.86E+03 6.67E-05 5.50E+01 3.67E-03 OOOE+OO~
O.OOE+OO 8.16E+01 2.93E-06 S.SOE+01 1.61E-04
- l en
~- 0 Xe-133 3 72E*04 6.34E..01 1.76E+02 1.47E+02 1.09E+05 3.ll2E-03 4.82E+01 1.89E-01 OOOE*OO O.OOE*OO 4.80E*03 1.72E-04 4.82E+01 8.30E-03 ce*
r ::a 5*
~
Xe-13Sm 1 24E+03 2.78E-02
_2.tSE+03 5.98E+01 3.64E+03 1.31E-04 7.16E+01 9.36E-03 OOOE+OO 0.00E+OO 1.60E+02 S.74E-06 7.16E+01 4.11E-04
- r
- s CD Xe-135 2.71E+o3 6.0SE-02 1.25E+03 7.60E+01 7.95E+03 2.86E-04 1.69E+02 4.83E-02 O.OOE+OO OOOE+OO 3.49E+o2 1.25E-05 1.69E+02 2.12E--03 m
[Tl (D
X&-137 2 SSE-01 S.72E-06 9.55E+02 5.48E-03 7.48E-01 2.69E-08 4.72E+02 1.27E-OS O.OOE+OO O.OOE+OO 3.29E-02 1.18E-09 4.72E+02 5.57E-07
- 0
< a.
""1 CD X&-138 7.80E+OO 1.75E-04 627E+03 1.10E+OO 2.29E+01 B.22E-07 3.11E+02 2.56E-04 O.OOE*OO O.OOE+OO 1.01E+OO 3.61E-08 3.11E+02 1.12E-05 DJ cs*
2"
~131 273E*01 6.12E-04 4.68E+05 2.85E+02 8.01E+01 2.SBE-06 8.07E..01 2.32E-06 2.44E+07 1.49E+04 3.52E+OO 1.26E-07 8.07E-01 1.02E..07
- I (jj' a rJJ 1-132 1.32E+01 2.96E-04 4.33E+04 128E*01 3.87E+01 1.39E-06 2.87E+OO 3.99E-06 2.90E+OS 6.58E+01 1.70E+OO 6.11E-08 2.87E+OO 1.7SE..07 cc m
5* M-
~133 1.06E+01 2.38E-04 1.28E+05 3.04E+01 3.11E*01 1.12E-06 2.10E+OO 2.35E-06 5.77E*06 1.37E+03 1.37E+OO 4.91E-08 2.10E+o0 1.03E--07 CD n
- I e
~134 6.51E-01 1.46E-05 2.69E+04 3.93E-01 1.91E+OO 6.86E-08 3.64E+OO 2.SOE-07 7.60E+04 1.11E+OO B.39E-02 3.01E-09 3.64E+OO 1.10E-08 1-135 3.38E+OO 7.SBE-05 7.10E+04 S.38E+OO 9.92E+OO 3.56E-07 1.86E+OO 6.63E-07 1.19E+06 9.02E+01 4.36E-01 1.57E-08 1.86E+OO 2.91E-08 (J)
\\.) -*
4.46E+04 724E+o2 2.74E-01 1.65E+04 2.07E-04 1.21E-02 0
r 0 ::s
()
c:
Monitor ccnversion factorCF11 (uCVa;..q>m);
1.07E-02 uCi/ce TEDE
-:-:*l'P.'l':-:-:1 uCVcc Child Thyroid :-:-:-:-!'!"!':-:-:
a 2.94E-02 1.00E+01
- 2;7:4~:'G!!::
6.45E-03 5.00E+01
- 0 3:
5*
2.94E-01 1.00E+02
- z,74E~0
- 1:*
6.4SE-02 5.00E+02 : : : :
e:.o3E~o<J.'.
2.94E+OO 1 nnc+m
6.4SF-01 S.OOE+03
- -:-e:ci3E~hL (J)
- I 0
- I XJQ; 9.24E-OS slm' 0
Monitor efficiencies from ERS-SFL-86-026 Upstream mtration (iOdines reduced 0.01)
Release (uCi/s) CF for TEOE = 1 51E*05
~
2H\\IS 0 ROl-1090 Release Flow Rale ;
5.90E+04 cfm
- 2. 78E+07 cc/s Release luCUsl CF for Child Thvroid = 8.58E+03 U1&U2 Activity Effective CO<Jnt Effective Count DBALOCA Ratio OCF OCF Release Release Efflcierq Rate OCF OCF Release Release Efficiency Rate Isotope (Ci) rmrem-m'luCi-vl (uCi/s)
(uCUcc)
(cpm/uCi/a:)
(cpm/mrem/h) lmrem-m'tuei-vl (uCi/s)
(uCi/a:)
(cpn/uCUcc)
(cpm/mremih)
Kr-83m 180E+03 2.0SE-03 4.69E-01 9.61E-04 3.10E+02 1.11E-05 O.CXJE+OO O.CXJE+OO O.OOE+OO O.OOE+OO 1.76E+01 6.32E-07 O.OOE+OO O.OOE+OO Kr-85m 441E+03 5.02E-03 8.17E*02 4.10E+OO 7.60E+02 2.73E-05 1.79E+02 4.88E-03 0.CXJE+OO O.OOE+OO 4.31E+01 1.SSE-06 1.79E*02 2.77E-04 m
Kr.es 1.27E*04 1.45E-02 1.12E*01 1.62E-01 2.19E+03 7.86E-05 5.89E+01 4.63E-03 OOOE+OO O.OOE*OO 1.24E*02 4.46E-06 5.89E+01 2.62E-04 z
Kr-87 1.69E+03 1.92E-03 4.47E+03 8.60E+OO 2.91E+02 1.0SE-05 4.31E+02 4.51E-03 O.OOE+OO 0.00E+OO 1.6SE+01 593E-07 4.31E+02 2.56E-04
- u ?
Kr-86 716E+03 8.15E-03 1.13E+04 9.21E+01 1.23E+03 4.43E-OS 1.63E+02 7.22E-03 O.OOE+OO O.OOE+OO 7.00E+01 2.51E-06 1.63E*02 4.10E-04 J> en. -
Kr-89 1 SOE+OO 1.71E.OS 1.02E+04 1.74E-02 2.58E.01 9.2BE-09 4.63E+02 4.30E-06 O.OOE+OO O.OOE+OO 1.47E-02 5.26E*10 4.63E*02 2.44E-07 Xe-131m 1.4SE+04 1.65E-02 4.29E*01 7.0SE-01 2.SOE+03 B.97E-OS 2.25E+01 2.02E-03 O.OOE+OO O.OOE+OO 1.42E+02 5.09E.Q6 2.25E+01 1.14E-04 if 3:
Xe-133m 1.27E+04 1.45E-02 1.49E+02 2.16E+OO 2.19E*03 7.86E-OS 5.50E*01 4.32E-03 O.OOE+OO O.OOE+OO 1.24E*02 4.46E-06 5.50E*01 2.4SE-04 Al Xe-133 7.43E*05 B.46E-01 1.76E+02 1.49E+02 1.28E+05 4.60E-03 4.82E*01 2.22E..01 O.OOE+OO O.OOE+OO 7.26E+03 2.61E-04 4.B2E+01 1.26E-02 0 -a m
Xe-135m 2 48E+04 2.82E-02 2.15E+03 6.07E+01 4.27E+03 1.53E-04 7.16E+01 1.lOE-02 O.OOE+OO OOOE+OO 2.42E+02 B.70E-06 7.16E+01 6.23E-04
- J"o Xe-135 542E+04 6.17E-02 125E+03 7.72E+01 9.34E+03 3.35E-04 1.69E+02 5.67E-02 O.OOE+OO 0.00E+OO 5.30E+02 1.!lOE-05 1.69E+02 3.21E-ll3 Ci5 Xe-137 5.09E+OO S.BOE-06 9.55E+02 5.54E-03 8.77E-01 3.1SE.Q8 4.nE+02 1.49E-05 0.00E*OO O.OOE+OO 4.97E-02 1.79E-09 4.72E+02 8.43E-07 3
I 5
Xe-138 1 56E*02 1.78E-04 627E+03 1.11E+OO 2.69E*01 9.65E-07 3.11E*02 3.00E-04 O.OOE+OO O.OOE+OO 1.52E+OO 5.47E-08 3.11E+02 1.70E-05 CD CO 1-131 341E+02 3.88E-04 4.66E+05 1.81E+o2 586E+01 211E--06 8.07E-01 1.70E--06 2 44E+07 9.48E+03 3.33E+OO 1.20E-07 807E-01 9.66E-08 aw z..
1-132 264E*02 3.01E-04 4.33E+04 1.30E+01 4.55E+01 1.63E.Q6 2.87E+OO 4.69E-06 2.90E+05 a.ne+01 2.58E*OO 9.26E-08 2.87E*OO 2.66E-07 wC, co l-133 212E*02 2.41E-04 128E+05 3.09E+01 3.65E+01 131E-06 2.10E+OO 2.75E-06 577E+06 1.39E+03 2.07E*OO 7.44E-08 2.10E*OO 1.56E-07 1-134 13CE*01 148E-05 269E+04 3.98E-01 2.24E+OO 804E-08 3.64E+OO 2.93E.07 7.60E*04 113E+OO 1.27E.01 4 56E-09 3.64E+OO 1.66E-08 0
1-135 6 75E*01 7.69E-OS 7.10E*04 5.46E+OO 1.16E*01 418E-07 1.86E+OO 7.77E-07 1.19E+06 9.15E+01 6.SOE-01 2.37E-08 1.86E+OO 4.41E-08 QO 8 78E*05 6.27E+02 3.17E.01
- 1. IOE+04 3.0SE-04 1.SOE-02 Monitor conversion factor CF11 (uCUcc-<:pm) = 1.07E-02 I
uCVa:
TEOE
.-::ClllT!-::
uClfcc Ctllld Thyroid.::::::~:::-:-*
-c 3.39E-02 1.00E+01
'.-3.17E+oo-:
962E-03 S.OOE+01
~
3.39E-01 1.00E+02 :::i:1:7E;ci1
- -:-:B.99E+DO:-
3.39E+OO 1.00E+03
9.62E-01 S.OOE+03
<<*8.i>oio~ti-i<
I\\.)
c.o
N m mg> ::c: ~
(1)
I 3 <.2: "'
G XIO=
924E-OS s1m' CD "'ti (I)
- r
~
Monitor efficiencies from ERS-SFL-00-026 Upstream fittration (iodines reduced 0.01)
Release (UCils) CF for TEDE = 7.15E+05
... (/) g. "'tl
(/)
cc
- r 2HVS"ROl-1090 Release Fla.- Rate =
5.90E+04 cfm 2.78E+07 c:cls Release luCi/sl r:F for l':hild T'"""id = 3.95E+04 I
G CD c
""1 U2only Adivity Effedive Count Effective Count
- o
(;"
LOCARCS Ratio DCF DCF Release Release Efficiency Rate DCF DCF Release Release Efficiency Raia
- l N Isotope (Ci)
Cmrem-m3/uCi-vl (UCVs)
(uCi/cc)
(cpm/uCi/CC)
(cpm/mrem/h)
Cmrem-<n3/uCi-vl (uCVs)
(uCVcc)
(cpmluCi/cc)
(cpm/mremlh) 0 n
G'>
-l Kr-83/n 1.34E-03 2.27E-05 4.69E-01 1.07E--05 1.63E+01 5.84E-07 O.OOE+OO 0.00E+OO O.OOE+OO 0.00E+OO 8.98E-01 3.22E-08 O.OOE+OO O.OOE+OO (1)
PJ Kr-85m 5.53E-03 9.39E-05 8.17E+02 7.67E-02 6.71E+01 2.41E-06 1.79E+02 4.31E-04 O.OOE+OO O.OOE+OO 3.71E+OO 1.33E-07 1.79E+02 2.38E-05 D>
t'>
)>
- r -
Kr.SS 3.27E+01 5.55E-01 1.12E+01 6.22E+OO 3.97E+05 1.42E-02 5.B9E+01 8.39E-01 O.OOE+OO O.OOE+OO 2.19E+04 7.87E-04 5.89E+01 4.63E-02 0
- i Kr-ll7 7.04E-04 1.19E-05 447E+03 5.34E-02 S.54E+OO 3.07E-07
-4.31E+02 1.32E-04 O.OOE+OO O.OOE+OO 4.72E-01 1.69E-OS 4.31E+02 7.30E-06 c.o
(") CD n-G Kr-llS 602E-03 1.02E-o4 1.13E+04 1.15E+OO 7.30E+01 2.62E-06 1.63E+02 4.27E-04 O.OOE+OO 0.00E+OO 4.03E+OO 1.45E-07 1.63E+02 2.36E-05 0
r+
~ '-<
Kr-llQ 2.92E-08 4.QGE-10 1 02E+04 5.06E-06 3.54E-04 1.27E-11 4.63E+02 5.B9E-09 O.OOE+OO O.OOE+OO 1.96E-05 7.03E-13 4.63E+02 3.25E-10
-* 0 Xe-131m 1.18E+OO 2.00E-02 429E*01 8.59E-01 1.43E+04 5.14E-04 2.25E+01 1.16E-02 O.OOE+OO O.OOE+OO 7.91E+02 2.84E-05 2.25E+01 6.39E-04 I
0 c 0
~
- l "'
Xe-133m 181E-01 3.07E-03 1.49E+02 4.SSE-01 2.20E+03 7.88E-05 5.50E+01 4.34E-03 0.00E+OO O.OOE+OO 1.21E+02 4.36E-06 5.50E+01 2.40E-04
<C'
- 0 Xe-133 2.48E+01 4.21E-01 1.76E+02 7.41E+01 3.01E+05 1.0SE-02 4.82E+01 5.21E-01 O.OOE+OO O.OOE+OO 1.66E+04 5.97E-04 4.82E+01 2.88E-02 I
- o 5*
~
Xe-135m 1.21E-02 2.05E-o4 2.15E+03 4.42E-01 1.47E+02 527E-06 7.16E+01 3.77E-04 O.OOE*OO O.OOE*OO 8.11E+OO 2.91E-07 7.16E+01 2.0SE-05
- J"'
~
Xe-135 1.86E-02 3.16E-04 1.25E*03 3.95E-01 2.26E+02 B.10E-06 1.69E+02 1.37E-03 O.OOE+OO 0.00E*OO 1.2SE+01 4.48E-07 1.69E+02 7.56E-05 CD D>
G Xe-137 1.19E-07 2.02E-09 9.55E+02 1.93E-06 1.44E-03 5.18E-11 4.72E+02 2.45E-08 O.OOE+OO O.OOE+OO 7.97E-05 2.86E-12 4.72E+02 1.35E-09
- o
< Q.
'"1 Xe-138 1.32E-05 2.24E-07 6.27E+03 1.40E-03 1.60E-01 5.75E-09 3.11E+02 1.79E-06
- O.OOE+OO 0.00E+OO 8.85E-03 3.18E-10 3.11E+02 9.88E-08 Q) 2" 1-131 5.41E-03 9.18E-05 4.66E+05 4.28E+01 6.56E+01 2.36E-06 8.07E-01 1.90E-06 2.44E+07 2.24E*03 3.63E*oo 1.30E-07 8.07E-01 1.0SE-07
'.:j 0
s rF1 1-132 3.62E-03 6.14E-05 4.33E+04 2.66E+OO 4.39E*01 1.58E-06 2.87E+OO 4.53E-06 2.90E+05 1.78E+01 2.43E+OO 8.71E-08 2.87E+OO 2.SOE-07
<C D>
c:r
~
1-133 1.38E-03 2.34E-05 1.2BE+05 3.00E+OO 1.67E+01 6.01E-07 2.10E+OO 1.26E-06 5.77E+06 1.35E+02 9.25E-01 3.32E-08 2.10E+OO 6.97E-08 CD
()
?s a 1-134 3.61E-05 6.13E-07 2.69E+04 1.65E-02 4.38E-01 1.57E-08 3.64E*OO 5.72E-08 7.60E+04 4.66E-02 2.42E-02 8.69E-10 3.64E+OO 3.16E-09 r+
1-135 3.76E-04 6.38E-06 7.10E+04 4.53E-01 4.56E+OO 1.64E-07 1.86E+OO 3.0SE-07 1.19E+06 7.59E+OO 2.52E-01 9.0SE-09 1.86E+OO 1.68E-08
(/)
"' 0 5.B9E+01 1.33E+02 1.38E+OO 2.40E+03 1.42E-03 7.61E-02 r
n-() -
c:
- s Man~or conversion faelor CF11 (uCi/cc-cpm) =
1.07E-02 uCilcc TEDE
- -~:-:-:-
uCVcc CnldThymid
-:-:(P.I')-::-:
a 1.47E-01 1.00E+01
+.361<+01< 4.07E-02 5.00E+01
- ~.!if~tQ(!::
- o s
s*
1.47E+OO 1.00E+02
- 1:.:i8Etiliz:: 4.07E-01 5.00E*02
- 3.8{E+!)} :-
(/)
- I 1.47E*01 1.00E+03
- 1:,.;,;.:.;,;,:-
4.07E+OO 5.00E+03
0
~
(')
0 X/Q=
9.24E-05 stm'
'.:j 0
Monitor efficiencies from ERS-SFL-86-026 Upstream filtration (iodines reduced O.Q1)
Release (uCils) CF for TEDE = 2.26E+04 2HVS"ROl* 1090 Release Flow Raia =
5.90E+04 cfm
- 2. 78E+07 eds Release luCi/sl CF for ChildThvmd = 4.50E+03
'.:j U1 & U2 ActiYity Effective Count Effective Count c:
LOCA TIO Ratio DCF DCF Release Release Efficiency Rate DCF DCF Release Release Efficiency Rate CD IS01ope (Ci)
Cmrem-<n3/uCi-vl (uCVs)
(uCi/a:)
(cpm/lJCi/cc)
(cpmhnmm/h)
(mrem-<n3/uCi-vl (uCVs)
(uCi/cc)
(q>111/UCi/CC)
(cpm/mrem/hl c..
Kr-a:lm 9.46E+06 1.31E-02 4.69E-01 6.13E-03 2.96E+02 1.0GE-05 O.OOE+OO O.OOE*OO O.OOE+OO O.OOE+OO 5.88E+01 2.11E-06 O.OOE+OO 0.00E+OO -
Kr-llSm 1.95E*07 2.69E-02 8.17E+02 2.20E+01 6.10E*02 2.19E-05 1.79E*02 3.92E-03 0.00E+OO O.OOE+OO 1.21E+02 4.35E-06 1.79E+02 7.79E-04 m
Kr-85 827E+OS 1.14E-03 1.12E+01 1.28E-02 2.59E+01 9.28E-07 5.89E+01 5.47E-05 O.OOE+OO 0.00E+OO 5.14E+OO 1.BSE-07 5.B9E+01 1.09E-05 z
Kr~7 3.91E+07 5.40E-02 4.47E+03 2.41E+02 1.22E+03 4.39E-05 4.31E+02 1.B9E-02 O.OOE+OO 0.00E+OO 2.43E+02 8.73E-06 4.31E+02 3.76E-03
- 0 9
Kr-llB 543E+07 7.SOE-02 1.13E+04 8.47E+02 1.70E+03 6.10E-05 1.63E*02 9.94E-03 O.OOE+OO 0.00E+OO 3.38E+02 1.21E-05 1.63E+02 1.98E-03 en Kr-ll9 6.75E*07 9.32E-02 1.02E*04 9.51E*02 2.11E+03 7.58E-05 4.63E*02 3.51E-02 0.00E+OO O.OOE+OO 420E+02 1.51E-OS 4.63E+02 6.98E-03
)>
Xe-131m 1.08E*06 1.49E-03 4.29E.,.01 6.40E-02 3.38E+01 1.21E-06 225E*01 2.73E-05 O.OOE+OO O.OOE+OO 6.72E*OO 2.41E-07 225E+01 5.43E-06
&f I
Xe-133m 5.0SE+OO 6.97E-03 1.49E+02 1.04E+OO 1.58E+02 5.67E-06 5.50E+01 3.12E-04 O.OOE+OO 0.00E+OO 3.14E+01 1.13E-06 5.50E*01 620E-05
- rs:
- JJ Xe-133 1.60E+08 2.21E-01 1.76E+02 3.B9E+01 5.00E+03 1.80E-04 4.82E*01 866E-03 O.OOE+OO 0.00E+OO 9.95E+02 3.57E-05 4.82E+01 1.72E-03 n "tJ m
Xe-13Sm 3.36E+07 4.64E-02 2.15E+03 9.97E+01 1.05E+03 3.77E-05 7.16E+01 2.70E-03 O.OOE+OO 0.00E+OO 2.09E+02 7.SOE-06 7.16E+01 5.37E-04 Xe-135 4.8'1E+07 6.68E-02 1.25E+03 8.35E+01 1.51E+03 5.43E-05 1.69E+02 9.18E-03 O.OOE+OO O.OOE+OO 3.01E+02 1.0SE-05 1.69E*02 1.83E-03 3 c U')
Xe-137 1.46E+08 2.02E-01 9.55E+02 1.93E*02 4.56E+03 1.64E-04 4.72E*02 7.74E-02 O.OOE+OO O.OOE+OO 9.08E+02 326E-05 4.72E*02 1.54E-02 I
5 xe-138 136E*08 1.88E-01 627E+03 1.18E+03 4.25E*03 1.53E-04 3.11E+02 4 75E-02 0.00E+OO O.OOE+OO 8.46E+02 3.04E-05 3.11E+02 9.45E-03 CD co 1-131 3.89E+05 5.37E-04 4.66E+05 2.50E+02 1.22E+01 4.37E-07 8.07E-01 3.52E-07 2.44E+07 1.31E+04 2.42E+OO 8.69E-08 B.07E-01 7.01E-08
- s w z
r+
1-132 570E+OS 7.87E-04 4.33E+04 3.41E+01 1.78E+01 6.40E-07 2.87E+OO 1.84E-06 2.90E+05 2.28E+02 3.54E+OO 1.27E-07 2.87E*OO 365E-07 w
I QO 1-133 8.00E*05 1.10E-03 1.28E+05 1.41E+02 2.50E+01 8.98E-07 2.10E+OO 1.B9E-06 5.77E+06 6.37E+03 4.98E+OO 1.79E-07 2.10E+OO 375E-07 0
1-134 885E+05 1.22E-03 2.69E+04 3.29E*01 2.77E+01 9.93E-07 3.64E+OO 3.62E-06 7.60E+04 9.29E+01 5.SOE+OO 1.98E-07 3.64E+OO 7.19E-07 0
1*135 7.60E+05 1.0SE-03 7.10E+04 7.45E+01 2.38E+01 B.53E-07 1.86E*OO 1.59E-06 1.19E+06 1.25E+03 4.73E+OO 1.70E-07 1.BSE+OO 3.16E-07 00 7.24E+08 419E+03 2.14E-01 2.10E+04 1.62E-04 4.25E-02 Monitor conversion factor CF1 1 (UCilcc..cpm) = 1.07E-02 I
uC~cc TEDE -
- ~:'.:(;Pii)'.:'.]
uCilcc.. ChildThyroid <::::::~::<:::
I>>
2.29E-02 1.00E+01
- i
- ~~~~~:
2.27E-02 5.00E+01
<:>~.1~9!V:
(JQ 2.29E-01 1.00E+02 :-:Z14E*D}:
227E-01 5.00E+02
~
2.29E+OO 1.00E+03 *>2.:14E*m*
2.27E+OO 5.00E+03
w 0
Moritor efficiencies from ERS-SFL-86-026 2HVS*RQl-109D Upstream fittratioo Qodines reduced O.D1)
Release Flow Rale =
5.90E+04 cfm Isotope Kr~m Kr-85m Kr-85 Kr-87 Kr.as Kr.sl Xe-131m Xe-133m Xe-133 Xe-135m Xe-135 Xe-137 Xe-138 1-131 1-132 1-133 1-134 1-135 U2only SB LOCA (Ci) 2.49E-01 8.90E-01 7.90E+01 5.64E-01 1.64E+OO 1.44E-02 3.36E+OO 3.01E+OO 2.02E+02 8.91E+01 2.00E+01 4.36E-02 3.03E-01 9.92E-02 1.02E.()1 1.72E-01 1.1BE-01 1.31E-01 4 01E+02 Activity Ratio 6.21E-04 2.22E-03 1.97E-01 1.41E-03 4.09E-03 3.59E-05 8.38E-03 7.51E-03 5.04E-01 2.22E-01 4.99E-02 1.09E-04 7.56E-04 2.48E-04 2.54E-04 4.29E-04 2.94E-04 327E-04 DCF (mrem-m'IUCi-vl 4.69'E-01 8.17E+02 1.12E+01 4.47E+03 1.13E+04 1.02E+04 4.29E+01 1.49E+02 1.76E+02 2.15E+03 1.25E+03 9.55E+02 6.27E+03 4.66E+05 4.33E+04 1.28E+05 2.69E+04 7.10E+04 Effective DCF 2.91E-04 1.81E*OO 2.21E+OO 6.29E+OO 4.62E+01 3.66E-01 3.60E-01 1.12E+OO 887E+01 4.78E+02 6.24E+01 1.04E-01 4.74E+OO 1.15E+02 1.10E+01 5.49E+01 7.92E+OO 2.32E+01 9.05E+02 Monitor COflV81$iOn fac!Ot CF11 (uCUcc-cpm) =
1.07E-02 Release (uCi/s) 6.51E+01 2.33E+02 2.07E+04 1.47E+02 4.29E+02 3.77E+OO B.79E+02 7.87E+02 5.28E+04 2.33E+04 5.23E+03 1.14E+01 7.92E+01 2.59E+01 2.67E+01 4.50E+01 3.09E+01 3.43E+01 Release (UCi/cc) 2.34E:.OS 8.36E-06 7.42E-04 5.30E-06 1.54E-05 1.35E-07 3.15E-05 2.63E-05 1.90E-03 8.37E-04 1.BBE-04 4.09E-07 2.84E-06 9.31E-07 9.58E-07 1.61E-06 1 1.11E-06 123E-06
'>7~C+07 ~1*
Efficiency (cpm/uCi/cc)
O.OOE+OO 1.79E+02 5.89E+01 4.31E+02 1.63E+02 4.63E+02 2.25E+01 5.50E+01 4.82E+01 7.16E+01 1.69E+02 4.72E+02 3.11E+02 8.07E-01 2.87E+OO 2.10E+OO 3.64E+OO 1.86E+OO Count Rate (cpmlmrem/h)
O.OOE+OO 1.SOE-03 4.37E-02 2.28E-03 2.51E-03 626E-05 7.10E-04 1.55E-03 9.14E-02 5.99E-02 3.17E-02 1.93E-04 8.85E-04 7.52E-07 2.75E-06 3.39E-06 4.03E-06 2.29E-06 2.36E-01 Monitor efficiencies from ERS.SFL-86-026 2HVS*ROl-1090 Upstream filiratlon (iodines reduced 0.01) lso1ope Kr-a:lm Kr-85m Kr.as Kr-S7 Kr-SS Kr-S9 Xe-131m Xe-133m Xe-133 Xe-135m Xe-135 Xe-137 Xe-138 1-131 1-132 1-133 1-134 1-135 Release Flow Rate=
5.90E+04 cfm U1&U2 FHA (Ci)
OOOE+OO 1.04E-03 4.78E+02 0.00E+OO O.OOE+OO O.OOE+OO 4.66E+02 6.16E+02 3.23E+04 265E+OO 6.10E+01 OOOE+OO O.OOE+OO 520E-01 2.52E-01 3.35E-02 OOOE+OO 2 23E-05 3 39E+04 Activity I Ratio OCF i <mrem-m3/uCi-vl
~-~~ I ::~ii!
1.41E-02 I 1.12E+01 0.00E+OO ;
4.47E+03 O.OOE+OO 1.13E*04 0.00E+OO I 1.02E+04 1.37E-02 i 4.29E+01 1.82E.02 1.49E+02 9.52E-01
- 1. 76E+D2 7.81E-05 2.15E+03 1.BOE-03 1.25E*03 0.00E+OO.
9.55E+02 0.00E+OO 6.27E+03 1.53E-05 4.66E+OS 7.43E-06 4.33E+04 9.B7E-07 1.28E+05 O.OOE+OO,
2.69E+04 6.57E-10 7.10E+04 Mon~or conven;ion factor CF11 (uCl/cc.qxn) =
Efledive OCF O.OOE+OO 2.SOE-05 1.58E-01 O.OOE+OO O.OOE+OO O.OOE+OO 5.89E-01 2.71E+OO 1.68E+02 1.68E-01 2.25E+OO 0.00E+OO O.OOE+OO 7.14E+OO 3.22E-01 1.26E-01 O.OOE+OO 4.67E-05 1.81E+02 1.07E-02 Release (uCils) 0.00E+OO 1.61E-02 7.38E+03 0.00E+OO 0.00E+OO O.OOE+OO 7.19E+03 9.51E+03 4.99E+OS 4.09E*01 9.42E*02 O.OOE+OO O.OOE+OO 8.03E*OO 3.89E+OO 5.17E-01 O.OOE+OO 3.44E-04 Release (uCilcc)
O.OOE+OO 5.77E-10 2.65E-04 0.00E+OO O.OOE+OO O.OOE+OO 2.58E-04 3.41E-04 1.79E-02 1.47E-06 3.38E-05 0.00E+OO O.OOE+OO 2.BBE-07 1.40E-07 1.86E-08 O.ooE+OO 1.24E-11 2.78E+07 eds Efficiency (cpmM:llcc) 0.00E+OO 1.79E+02 5.89E+01 4.31E+02 1.63E+02 4.63E+02 2.25E+01 5.SOE+01 4.82E+01 7.16E+01 1.69E+02 4.72E+02 3.11E+02 8.07E-01 2.87E+OO 2.10E*OO 3.64E+OO 1.86E+OO Count Rate (cpmlmrem/h) 0.00E+OO 1.03E-07 1.56E-02 O.OOE+OO 0.00E+OO O.OOE+OO 5.81E-03 1.BBE-02 8.63E-01 1.0SE-04 5.71E-03 0.00E+OO O.OOE+oo 2.33E-07 4.01E-07 3.00E-08 O.OOE+OO 2.30E-11 9.09E-01 XJQ=
Release (UCi/s) CF for TEDE =
R"""~~ 1* "Vs\\ CF for Child Th*""'d =
OCF (mrem-m3/UCi*vl O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO 0.00E+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO 0.00E+OO O.OOE+OO O.OOE+OO O.OOE+OO 2.44E+07 2.90E+05 5.77E+06 7.60E+04 1.19E+06 Effective DCF O.OOE+OO 0.00E+OO 0.00E+OO O.OOE+OO O.OOE+OO 0.00E+OO O.OOE+OO 0.00E+OO 0.00E+OO 0.00E+OO O.OOE*OO O.OOE+OO O.OOE+OO 6.04E+03 7.38E+01 2.48E+03 224E+01 3.69E+02 9.00E+03 Release (uCVs) 6.54E+OO 2.34E+01 2.00E+03 148E+01 4.31E+01 3.78E-01 883E+01 7.91E+01 5.31E+03 2 34E+03 5.26E+02 1.15E+oo 7.96E+OO 2.61E+oo 2.68E+OO 4.52E+OO 3.10E+oo 3.44E+OO 924E-05 S/m3 1.0SE+OS 1.0SE+04 Release (uCi/cc) 2.35E-07 8.40E-07 7.46E-05 5.32E-07 1.55E-06 1.36E-08 3.17E-06 2.84E-06 1.91E-04 8.41E-05 1.89E-05 4.11E-08 2.86E-07 9.36E-08 9.63E-08 1.62E-07 1.11E-07 1.24E-07 3.78E-04 Efficiency (cpmluCi/cc)
O.OOE+OO 1.79E+02 5.89E+01 4.31E+02 1.63E+02 4.63E+02 2.25E+01 5.50E+01 4.82E*01 7.16E+01 1.69E*02 4.72E+02 3.11E+02 8.07E-01 2.87E+OO 2.10E+OO 3.64E+OO 1.86E+OO Count Rate (cpm/mremlh)
O.OOE+OO 1.50E-04 4.39E-03 2.29E-04 2.52E-04 6.29E-06 7.13E-05 1.56E-04 9.19E-03 6.02E-03 3.19E-03 1.94E-05 8.89E-05 7.55E-08 2.76E-07 3.41E-07 4.0SE-07 2.30E-07 2.3BE-02 uCilcc 2.53E-02 2.53E-01 2.53E+OO TEDE 1.00E+01 1.00E+02 1.00E+03
- i.;i!i!>tOCl:
1.27E-02
- !.!)!l!'~ll'I_
1.27E-01
- Z.OOE+m:
1.27E*OO Child Thyroid : * :-:-:-:cpm:-:-:
5.00E+Of
/ :i:.:ti!E:+ii(i:
5.00E+02
- -:::1:.i!)e'!-02:
X/Q=
Release (uCVs) CF fQ( TEDE =
Release ruCi/sl r.i: *~ rhild T""m'" -
OCF (mrem-m3/uCi-Vl O.OOE+OO 0.00E+OO O.OOE+OO 0.00E+OO 0.00E+OO O.OOE+OO 0.00E+OO 0.00E+OO OOOE+OO 0.00E+OO 0.00E*OO 0.00E+OO 0.00E+OO 2.44E+07 2.90E+05 5.77E+06 7.60E+04 1 t9E+06 uCVcc 9.73E-02 9.73E-01 9.73E+OO Effective OCF O.OOE+OO O.OOE+OO 0.00E+OO O.OOE+OO O.OOE*OO O.OOE+OO O.OOE+OO 0.00E+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO 3.74E+02 2.15E+OO 5.70E+OO O.OOE+OO 7.82E-04 3.62E+02 TEDE 1.00E+01 1.00E+02 1.00E+03 Release (uCVs)
O.OOE+OO 7.61E-03 3.50E+03 O.OOE+OO 0.00E+OO O.OOE+OO 3.41E+03 4.51E+03 2.36E+05 1.94E+01 4.48E*02 0.00E*OO O.OOE*OO 3.81E*OO 1.84E+oo 2.45E-01 O.OOE+OO 1.63E-04
- -:-~:-:-:
. : ~-09E~<l0.:
- : g:c)gE'.f(Jj:::
- j:i:,;ac:.;..;, :
- 9.24E-05 s/m3 5.24E+05
'AOC+Q5 Release (uCVcc)
O.OOE+OO 2.73E-10 1.26E-04 O.OOE+OO O.OOE+OO O.OOE*OO 1.22E-04 1.62E-04 a49E-03 6.96E-07 1.60E-05 0.00E+OO O.OOE+OO 1.37E-07 6.62E-08 B.80E-09 O.OOE+OO 5.86E-12 6.92E-03 uCilcc 2.31E-01 2.31E+OO 2.31E+01
.Efficiency (qim/uCUcc)
O.OOE+oo 1.79E+02 5.89E*01 4.31E+02 1.63E+02 4.63E+02 2.25E+01 5.SOE+01 4.82E+01 7.16E+01 1.69E+02 4.72E*02 3.11E+02 8.07E-01 2.87E+OO 2.10E+OO 3.64E+OO 1.86E*OO Count Rate (cpmlmrem/h)
O.OOE+OO 4.89E-08 7.40E-03 0.00E+OO O.OOE+OO O.ooE+OO 276E-03 8.90E-03 4.00E-01 4.99E.05 2.71E-03 0.00E+OO O.OOE+OO 1.10E-07 1.90E.07 1.BSE-08 O.OOE*OO 1.09E-11 4.31E-01 ChildThyrnid *:::::**<;QR):::::::
5.00E+01
- >l~~*ii~:::.
5.00E*02
-: * :Z 15E*D2 :-:-
5.00E+03
-:-: :i.~6F:+o:i*>:
N I
~
- a 0
.....\\.
0 co 0
I
<C"
~
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- J
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- u en 0
0
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N m m gi :c OJ (1>
I 3 <£r. ~ ('D XIO= 9.24E-05 s1m' CD "'tJ ~ g. ~
Monitor elficiercies from ERS-SFL-86-026 Upstream filtration (iodines reduced 0.01 l Release (uC~s) CF fa TEDE = 2.20E+05
(/)
.., CJ) !"!" -0 <
(Q
- r 2HVS"R01-1090 RA!easa e1-Rate =
5.90E+D4 dm 2.7BE+07 eds Release luCi/sl CF tor Child Thvmid = 1.22E+05 I
('D ActMty count Effective CD c:
U1&U2 Effective Count
- a c;*
RCCA Ratio DCF DCF Release Release Efticiercy Ra1e OCF DCF Release Release Eftieiency Ra1a
- I N Isotope (Ci)
(mrem-m'AJCl-vl (uCils)
(uCVcc)
(c:pm/uCVcc)
(cpm/mrem/h)
(mrem-m3/uCi-vl (uCi/s)
(t.Ci/cc)
(cpmluC~) (cpm/mrem/h) 0
(") Q
-l Kr-83m 3 82E*01 2.48E--03 4.69E-01 1.16E-03 5.45E+02 1.96E-05 O.OOE+OO O.OOE+OO O.OOE+OO 0.00E*OO 3.01E*02 1.08E-05 O.OOE+OO O.OOE*OO (1>
~
Kr-85m 9 12E+01 5.91E-03 8.17E*02 4.83E+OO 1.30E*03 4.67E-05 1.79E+02 8.37E-03 O.OOE+OO O.OOE+OO 7.19E*02 2.SBE-05 1.79E+02 4.62E-03
....lo.
m
(')
)>
- r -
Kr.SS 2 22E*02 1.44E-02 1.12E+01 1.61E.01 3.17E+03 1.14E-04 5.89E+01 6.70E-03 O.OOE+OO 0.00E+OO 1.75E*03 6.29E-05 5.!l9E+01 3.70E-03 0
en
- i -
Kr-87 522E*01 3.38E-03 4.47E*03 1.51E*01 7.45E+02 2.SBE-05 4.31E+02 1.15E-02 O.OOE+OO O.OOE+OO 4.12E+02 1.48E-05 4.31E+02 6.37E-03 (0
(") CD c;*
('D Kr-88 1.63E+02 1.06E-02 1.13E*04 1.19E+02 2.33E*03 8.35E-05 1.63E*02 1.36E-02 0.00E+OO O.OOE*OO 1.29E*03 4.62E-05 1.63E+02 7.52E-03 0
.. 0
~ '<
Kr-89 3.76E*OO 2.44E-04 1.02E*04 2.49E+OO 5.J7E+01 1.93E--06 4.63E*02 8.92E-OI O.OOE+OO O.OOE*OO 2.97E*01 1.06E--06 4.63E*02 4.93E-04
-0 Xe-131m 186E+02 121E-02 4.29E+01 5.17E-01 2.65E+03 9.53E.05 2.25E+01 2.14E-03 O.OOE+OO 0.00E+OO 1.47E+03 5.27E-05 2.25E*01 1.19E-03 I
0 c:
0
~
Xe-133m 2.23E+02 1.45E-02 1.49E+02 2.15E+OO 3.18E+03 1.14E-04 5.SOE+01 6.29E-03 O.OOE+OO O.OOE+OO 1.76E+03 6.32E-05 5.:iOE*01 3.47E-03
<O'
- I en
~-
0 Xe-133 1.32E<-04 8.56E-01 1.76E*02 1.51E+02 1.88E+05 6.77E-03 4.82E+01 3.26E-01 O.OOE+OO O.OOE+OO 1.04E+05 3.74E-03 4.82E*01 1.BOE-01 r- ::0 c;*
~
Xe-135m 1.42E+02 9.21E-03 2.15E*03 1.9SE+01 2.03E+03 7.28E-05 7.16E.01 5.21E-03 O.OOE+OO O.OOE+oo 1.12E+03 4.02E--05 7.16E+01 2.88E-03
- J"
~
Xe-135 1 06E+03 6.87E-02 125E+03 8.59E+01 1.51E*04 5.43E-04 1.69E+02 9.18E-02 O.OOE+OO O.OOE+OO 8.36E*03 3.00E-04 1.69E+02 5.07E-02 CD m (D
Xe-137 968E*OO 6.28E-04 9.55E*02 5.99E.01 1.38E+02 4.96E-06 4.72E+02 2.34E-03 O.OOE+OO O.OOE+OO 7.63E+01 2.74E-06 4.72E+02 1.29E-03
- u
< c.
"'"1 CD Ill Xe-138 3.38E+01 2.19E..03 627E+03 1.37E+01 4.82E+02 1.73E-05 3.11E+02 5.39E-03 0.00E+OO O.OOE*OO 2.67E+02 9.57E-06 3.11E+02 2.98E-03 m
2" 1-131 4.53E-01 2.94E-05 4.66E+05 1.37E+01 6.47E+OO 2.32E-07 8.07E-01 1.87E..07 2.44E+07 7.17E+02 3.57E+OO 1.26E-07 6.07E-01 1.04E-07
- J ur 0 Ill r:/).
1-132 1.56E-02 1 01E-06 4.33E*04 4.38E-02 2.23E-01 8.00E-OIJ 2.87E+OO 2.29E-08 2.90E+05 2.93E-01 123E-01 4.42E.o9 2.87E+OO 1.27E-OO
<C m -
r-t-c;*
1-133 1 55E-01 1.00E-05 1.28E*05 1.29E+OO 2.21E+OO 7.94E-08 2.10E+OO 1.67E-tl7 5.77E+06 5.80E*01 1.22E+OO 4.39E-08 2.10E+OO 9.22E-Ol (1)
(")
~ ~
1-134 929E-03 6.02E-07 2.69E+04 1.62E-02 1.33E-01 4.76E-09 3.64E+OO 1.73E-08 7.60E*04 4.SBE-02 7.33E-02 2.63E-09 3.64E+OO 9.58E.o9 1-135 7.10E+04 2.67E-01 8.28E..01 2.97E-08 1.SSE+OO 5.53E-08 1.19E+06 4.47E+OO 4.57E-01 1.64E-08 1.86E+OO 3.0SE-08
(/)
() -*
5.SOE-02 3.76E-06 Ill 0
1.54E*04 4.31E+02 4.80E.01 7.79E+02 4.37E.o:l 2.SSE-01 r
~
(')"
()
s:: ::s Monitor conversion factor CF11 (uCi/ccxpm) = 1.07E-02 uC~cc TEDE
. :-: :cprn-:-:: I uCi/cc Child Thyroid * * :-: -: ~A'l<-: * *.
~
5.14E-02 1.00E*01 : * :(aoe~-ro-:,.42E-01 5.00E+01 : :::1:.~~~o~:: :
- u 3
a*
5.14E-01 1.00E*02
<~:Sli~;-0-t: 1.42E+OO 5.00E+02
- . : 1:93E+l>2 :-:-
(/)
- i 5.14E+OO 1.00E+03
- oi*8JiEi
- oz:: 1.42E+01 5.00E+03
<:i:sai;+ii:i<.
0
- I 0
0
- J 0
- s c:
CD a. -
m z
- 0 9..
en
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- 0 n ""O m
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3 c 00 I
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- I w z
(lo)
I co 0
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Ill (IQ.,,
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m mg> ::r: t:O (1)
I 3 <.2: I>>
('t)
XIQu 9.24E-05 s/m3 n> "tJ CD
- r
~
Moritor efficiencies !rem ERS-SFL-llS-026 Upstream filtration (iodines reduced 0.01)
Release (uCi/s) CF for TEDE = 7.15E+05
... Cl>g '"O en cc
- r 2RMD.RDl-301B Release Flow Rate =
, ?4~*04"""
5 85E+ll6 cc/s Release luCVsl CF for Child Thvroid = 3.95E+04 I
('t)
U2 only Activity I
n> c 1-1 Elfedive Count Effective uiunt
- 0 c:;*
LOCARCS Ratio DCF DCF Release Release Efficiency Rate DCF DCF Release Release Efficiency Rate
~
- s N Isotope (0)
(mrenH113h\\(:l-vl (uCUs)
(uCVcc)
(cpm/\\Ci/cc)
(cpm/mrem/h)
!mrem-m3/uCi-vl (uCi/s)
(uCil<:c)
(cpm/uCilcc)
(cpm/mrem/h) n C)
-l Kr-83m 1.34E-03 227E-05 4.69E-01 1.07E-05 1.63E+01 2.78E-06 O.OOE+OO O.OOE+OO 0.00E+OO O.OOE+OO B.98E-01 1.53E-07 O.OOE+OO 0.00E+OO 0
(1)
~
(")
Kr-85m 5 53E-03 9.39E-05 B.17E+02 7.67E-02 6.71E+01 1.15E-05 3.20E+07 3.67E*02 0.00E+OO 0.00E+OO 3.71E+OO 6.33E-07 320E+07 2.00E+01 DJ
- r -
Kr.SS 3.27E+01 5.SSE-01 1.12E+01 6.22E+OO 3.97E+05 6.78E-02 3.00E+07 2.44E+06 D.OOE+OO O.OOE+OO 2.19E+04 3.74E-03 3.60E+07 1.35E+05 w
> UJ
- l Kr.a7 7 04E-04 1.19E-05 4.47E+03 5.34E-02 8.54E+OO 1.46E-06 3.73E+07 5.44E+01 0.00E+OO O.OOE+OO 4.72E-01 B.06E-08 3.73E+07 3.01E+OO 0
n n>
(')"
('t)
Kr.a8 6 02E-03 1.02E-04 1.13E+04 1.15E+OO 7.30E+01 1.25E-05 3.05E+07 3.81E+02 O.OOE+OO O.OOE+OO 4.03E*OO 6.B9E-07 3.05E+07 2.1DE+01
~
=::t.
!:?.. "-<
Kr-$
2 92E-08 4.96E-10 1.02E+04 5.06E-06 3.54E-04 6.0SE-11 3.72E+07 2.25E-03 O.OOE+OO 0.00E+OO 1.96E-05 3.34E-12 3.72E+07 1.24E-04 CJ 0 0 Xe-131m 1.1BE+OO 2.00E-02 4.29E+01 B.59E.01 1.43E+04 2.45E-03 2.44E+07 5.97E+04 0.00E+OO O.OOE+OO 7.91E+02 1.35E-04 2.44E*07 3.30E+03 c
0
~
Xe-133m 1 81E-01 3.07E-03 1.49E+02 4.SBE-01 220E+03 3.75E-04 2.86E+07 1.07E+04 0.00E+OO 0.00E+OO 1.21E*02 2.07E-05 2.86E+07 5.93E+02 0
- s fn
~e 0 Xe-133 2.-48E+01 4.21E.01 1.76E+02 7.41E*01 3.01E*05 5.14E-02 1.BOE+07 9.25E+05 0.00E+OO 0.00E+OO 1.66E*04 2.64E-03 1.BOE+07 5.11E+04 (1) r- :;o cs*
~
Xe-135m 1 21E-02 2.0SE-04 2.15E+03 4.42E-01 1.47E*02 2.51E-05 722E+06 1.81E+02 O.OOE+OO O.OOE+OO 8.11E+OO 1.39E.OO 7.22E+06 1.00E+01 0
n>
t:!..
Xe-135 1 BSE-02 3.16E-04 1.25E+03 3.95E-01 2.2tiE*02 3.85E--05 3.BBE+07 1.49E+03 O.OOE+OO O.OOE+OO 1.25E+01 2.13E-06 3.86E+07 8.21E+01 0
m tT1
('t)
Xe-137 119E-07 2.02E-09 9.55E+02 1.93E-06 1.44E-03 2.47E-10 3.78E+07 9.32E-03 0.00E+OO O.OOE+OO 797E-05 1.36E-11 3.78E+07 5.15E-04
- J
< Q.
1-1 n>
I>>
Xe-138 132E.()5 2.24E.07 6.27E+03 1.40E-03 1.60E.01 2.74E-08 3.52E+07 9.64E-01 O.OOE+OO O.OOE+OO B.BSE-03 1.51E-09 3.52E+07 5.32E-02 c
t-131 5.41E-03 9.1BE.05 4.66E+05 4.28E+01 6.56E+01 1.12E-05 2.98E+05 3.34E+OO 2.44E+07 2.24E+03 3.63E*OO 6.19E-07 2.98E*05 1.B4E-01 CJ iii' 0 a C'1 1-132 3.62E-03 6.14E-05 4.33E+04 2.66E+OO 4.39E+01 7.SOE-06 3.ni:*os 2.79E+OO 2.90E+05 1.78E+01 2.43E+OO 4.14E-07 3.72E+05 1.54E-01 c:
DJ c;*
f"'+-
1-133 1.3BE-03 2.34E-OS 1.28E+05 3.00E+OO 1.67E*01 2.00E-06 3.69E*05 1.05E+OO s.nE*06 1.35E+02 9.25E-01 1.58E-07 3.69E+05 5.82E.02 n
<:!.. ~
1-134 3.61E-05 6.13E-07 2.69E+04 1.65E-02 4.38E-01 7.48E.()8 3.78E+05 2.82E-02 7.60E*04 4.66E-02 2.42E-02 4.13E-09 3.78E+05 1.56E-03
- 0.
1-135 3.76E-04 6.38E-06 7.10E+04 4.53E.01 4.56E+OO 7.79E-07 3.49E+05 2.72E-01 1.19E+06 7.59E+OO 2.52E-01 4.31E-08 3.49E+05 1.SOE-02
- c*
(J -*
ll>
0 5.89E+01 1.33E+02 3.44E+ll6 2.40E+03 6.75E-03 1.90E+05
- J 0
cc
- +
c:
- s Monitor C011V01llion !actor CF11 (uCUc;c.cpm) c 5.56E.()8 uCUcc TEDE
- -:-:-:GPm:-:-:-
!Cilcc Child Th)10id -:-:-:qim-:-:-:-
~
1.91E+OO 1.00E*01 A44.~+~r.:: 5.2BE-01 5.00E+01
- ~.~~tll!l:::.
s:
cs*
1.91E+01 1.00E*02 <*3.ll<IE+OS*: 5.2BE+OO 5.00E*02
- -:~?!J!'~q~::::
(1)
- l 1.91E+02 1.00E+03
- -:3_~,;..;,Q:-
S.28E+01 S.OOE+03
- l 0
- l -*
r+
0 m z
- 0 9..
if i:
- 0 n "O
~
- r
- 3. c Ci)
I CD co 0
- s w z
(..)
I CX) 0 0
~
co
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QQ
~
w w
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m mg> ::t to (11 I
3 <.£ ~ (t)
X/O=
9.24E-05 sJm' CD
""CJ ~ :;. ~
Monitor e!!lclencies from ERS-SFL-86-026 Upotream ~ltration (iodines reduced 0.01)
Release (uCils) CF for TEDE =
2.94E+05
(/)
""' en!"':.,, <
- r 2RM"-R01*303B Re1ea5e Flow Rate ;:
2.00E+03 cfm 9.44E+-05 a:/s Release luCi/g\\ CF for Child Th -*" =
- DIV/01 I
CQ I
(D U2 only Aellvity Effective Count Effective Count
- 0 CD C II>
""'t c;*
GWS Ratio DCF DCF Release Release Efficiency Rate DCF DCF Release Release Efficiency RB1e
- l N II> <
15'ltope (Cij lmrem-m3/uCi-vl (iJCUs)
(I.Ci/cc)
(cpm/uCUcc)
(cpm/mrem/h) lmrem-m'JiJCi-v\\
(uCi/s)
(uCVoo)
(cpm/IJCVcc)
(cpmlmremlh) s:
(")
~
Kr-83m 3.18E+OO i.44E-03 4.69E*01 6.74E-04 4.23E+02 4.48E-04 O.OOE+OO O.OOE+OO 0.00E+OO O.OOE+OO
- DIV/O!
- DIV/O!
OJJOE+OO
- OIV/O!
0
'< C>
~
Kr-85m 1.14E+01 5.15E-03 8.17E+02 421E+OO 1.52E+03 1.61E-03 3.20E+07 5.14E+04 O.OOE+OO O.OOE+OO
- DIVIOI
- DIV/01 320E+07
- OIVIO!
(')
Kr-85 S.17E+02 2.34E-01 1.12E+01 2.62E+OO 6.88E+04 726E-02 3.60E+07 2.62E+06 0.00E+OO 0.00E+OO
- DIV/01
- OIV/O!
3.60E+07
- OIV/O!
w
>m
- r -
- l -
Kr-ll7 6.71E+OO 3.00E-03 4.47E+03 1.36E+01 8.92E+02 9.*SE-04 3.73E+07 3.53E+64 0.00E+OO O.OOE+OO
- DIVIO!
- OIV/O!
3.73E+07
- DIV/O!
0 n en t;*
([)
Kr-88 2.20E+01 9.94E-03 1.13E+04 1.12E*02 2.93E+03 3.10E-03 3.0SE+07 9.48E+04 0.00E+OO O.OOE+OO
- DIVIOI
- OIV/01 3.05E+07
- DIVIO!
w r+ CD e.. "-<:
Kr-89 2.39E.01 1.08E-04 1.02E+04 1.10E+OO 3.18E+01 3.37E-05 3.72E+07 1.25E+03 0.00E+OO O.OOE+OO
- DIVIOI
- DIV/01 3.72E+07
- DIV/01
-*O X&-131m 1 98E+01 8.95E-03 4.29E+01 3.84E.01 2.63E+03 2 79E-03 2.44E+07 6.81E+04 O.OOE+OO O.OOE+OO
- DIV/01
- OIV/01 2.44E+07
- OIVIOI OJ 0 c "C
~
0 Xe-133m 2.79E+01 1.26E-02 1.49E+02 1.88E+OO 3.71E+03 3.93E-03 2.86E+07 1.12E+05 0.00E+oo O.OOE+OO
- OIVIO!
- DIVIO!
2.86E+07
- OIV/01
~
- s en Xe-133 1.50E+03 6.7BE-01 1.76E+02 1.19E+02 1.99E+OS 2.11E-01 1.80E+07 3.80E+06 0.00E+OO O.OOE+OO
- OIVIOI
- OIV/01 1.80E+07
- OIV/01
- 0 Xe-135m 3.BOE+OO 1.72E-03 2.iSE+03 3.69E+OO 5.05E+02 5.35E-04 7.22E+06 3.86E+03 O.OOE+OO O.OOE+OO
- OIV/01
- OIV/01 7.22E+06
- DIV/01 Q) r ::;u 0
~
X...135 9.81E+01 4.43E.02 1.2SE+03 5.54E+01 1.30E+04 1.3SE-02 3.86E+07 5.33E+OS 0.00E+OO O.OOE+OO
- OIVIOI
- OIV/01 3.86E+07
- OIV/O!
en CD m
~
Xe-137 6.30E-01 2.85E-04 9.55E+02 2.72E-01 8.38E+01 8.88E-05 3.78E+07 3.35E+03 O.OOE+OO O.OOE+OO
- DIVIO!
- OIVIOI 3.78E+07
- OIVIOI
...+
< c.
(D Xe-138 2.61E+OO 1.18E-03 B.27E+03 7.39E+<JO 3.47E+02 3.68E-04 3.52E+07 1.29E+04 0.00E+OO O.OOE+OO
- DIV/01
- OIV/01 3.52E+07
- DIV/O!
CD
""'t 1-131 0.00E+OO O.OOE+OO 4.66E+05 O.OOE*OO O.OOE+OO O.OOE+OO 2.98E+OS O.OOE+OO 2.44E+07 O.OOE+OO
- DIV/O!
- OIV/01 2.98E+-05
- DIVIOI CD -*
c G)
-o r.n.
1-132 O.OOE+OO O.OOE+OO 4.33E+04 O.OOE+OO O.OOE+OO O.OOE+OO 3.72E+05 O.OOE+OO 2.90E+05 O.OOE+OO
- OIVIO!
- OIV/O!
3.72E+OS
- OIVIOI en m a
~133 OOOE+OO O.OOE+OO 1.28E+05 O.OOE+OO O.OOE+OO O.OOE+OO 3.69E+05 O.OOE+OO s.nE+OB O.OOE+OO
- OIV/01
- OIV/Ol 3.69E+OS
- OIVIO!
Ill c>>
~
~134 O.OOE+OO O.OOE+OO 2.69E+04 O.OOE+OO O.OOE+OO O.OOE+OO 3.78E+OS O.OOE+OO 7.60E+04 O.OOE+OO
- DIVIOI
- DIVIO!
3.76E+OS
- DIVIOI en
(")
<:!.. a
~135 0 OOE+OO O.OOE+OO 7.10E+04 O.OOE+OO O.OOE+OO O.OOE+OO 3.49E+OS O.OOE+OO 1.19E+06 0.00E+OO
- OIV/01
- DIV/01 3.49E+OS
- OIV/O!
7.34E+06 O.OOE+OO
- OIV/01
- OIVIOI
("') -*
2.21E+03 3.22E*02 0
Ill 0
- s Monitor convession fatter CF11 (uCi/cc..q>m) =
2.79E-08 uCUcc TEDE
- .;::e!~/:1 UCi/CC ChildThyroid :-:-:-:-!:Qrr>*-:-:-:
- J c
2.0SE+OO 1.00E+01
- OIV/01 5.00E+01
-:-:-:tiEilil/!l(-:-:
a 2.05E+01 1.00E+02 :::::1:3-ie:..oa:::
- OIVIOI 5.00E+02
- ~\\TiOt::::
- iii'"
o*
2.05E+02 1.00E+03
- -::,:341;:,:00:::
- DIVIOI 5.00E+03 :-:-:-i!Otvitit:*:-
~
- l 0
c:
- l
- +
0 CD
- J m z
- a
!=>
~"'
if~
- o
(") -a m
- Tc 3
I en CD CO 5
aw z
wC, co 0
()0
~
w
~
N m OJ~ :i: o:;
(1) s:
3 <.E: 2:.
(1)
X/Q=
9.24E-05 Sim' en CD ""C ~ s-
~
MOnitor efficiencies from ERS.SFL-1!6-026 Relt!ase (uCUs) CF for TEDE = 5.31E+D4
.., C/J :-!"
"'O en c.c
- r 2MSS*ROI* 101A B C Release Flow Rate = 6.000E+03 cfm 2.636E+06 eds Release luCUsl CF for Child Thvroid = 2.63E+03 I
(1)
U2only Activity Effective Count Effec1ive Count CD c
'"1 SGTR Ratio DCF DCF ReE-ase Release Efficiency Ra1e DCF DCF ReJease Release Efficiency Ra1o
- o
-
- s N c:;*
lsotopQ (Ci)
Cmrem-m3/uCi-v)
(uCi/1)
(uCilcc)
(cpm/uCUcc)
(cpmlmremlh)
(mrem-m3JuCi-Y)
(uCUs)
(uCiicc)
(cpm/uCUcc)
(cpm/mremlh) 0 0
c;i Kr-83m 2.67E+OO 5.13E-04 4.69E-01 2.*0E-04 2.72E+01 9.WE-06 O.OOE+OO O.OOE+OO O.OOE+OO O.OOE+OO 1.35E+OO
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~e*135m 211E+03 3.77E-01 2.15E+03 8.10E+02 2.00E+D4 7.05E-o3 6.36E+03 5.90E+01 O.OOE+OO O.OOE+OO 9.91E+02 3.49E-04 B.36E+D3 2.92E+OO
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