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Korea Electric Power Research Institute
Operational Experiences and Operational Experiences and Occupational Dose Assessment of the Occupational Dose Assessment of the Radioactivity Release Event at YG NPP Radioactivity Release Event at YG NPP
Unit 5Unit 5
Operational Experiences and Operational Experiences and Occupational Dose Assessment of the Occupational Dose Assessment of the Radioactivity Release Event at YG NPP Radioactivity Release Event at YG NPP
Unit 5Unit 5
2006.06.28
Hee Geun KimRadiation and Chemistry Group
Nuclear Power LaboratoryKorea Electric Power Research Institute
Korea Electric Power Research Institute 2
Topics for PresentationTopics for PresentationTopics for PresentationTopics for Presentation
1. Introduction
2. Description of the Release Event at YG
Unit 5
3. Details on the Event and Countermeasures
4. Occupational Dose Assessment
5. Summary
Korea Electric Power Research Institute 3
Activity of Korean Nuclear Power Plants
Condition Power PlantsInstalled
GeneratingCapacity(MW)
Comment
InOperation
Kori #1Kori #2Kori #3Kori #4
Wolsong #1Wolsong #2Wolsong #3Wolsong #4
Yonggwang #1Yonggwang #2Yonggwang #3Yonggwang #4Yonggwang #5
Ulchin #1Ulchin #2Ulchin #3Ulchin #4
587650950950679700700700950950
1,0001,0001,000
950950
1,0001,000
Westinghouse”””
CANDU”””
Westinghouse”
CE””
Framatome”
CE”
Ulchin #5Ulchin #6
1,000
1,0001,000
CE
””
Total 20 16,716
Yonggwang #6
1. Introduction-General1. Introduction-General1. Introduction-General1. Introduction-General
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No. of Korean NPPs and Occupational Radiation Exposure
4000
6000
8000
10000
12000
14000
16000
18000
1991 1992 1993 1994 1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 Year
man-mSv
4
6
8
10
12
14
16
18
20
operation(units)
man-mSv
In operation(units)
1. Introduction-General1. Introduction-General1. Introduction-General1. Introduction-General
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Annual Average Dose (man-Sv/unit and mSv/man)
0
0.5
1
1.5
2
2.5
3
3.5
'85 '86 '87 '88 '89 '90 '91 '92 '93 '94 '95 '96 '97 '98 '99 '00 '01 '02 '03 '04 Year
man- Sv/unitmSv/man
1. Introduction-General1. Introduction-General1. Introduction-General1. Introduction-General
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451
368
270236
219
172146 139 145 141 137 133
100
150
200
250
300
350
400
450
500
1993 1994 1995 1996 1997 1998 1999 2000 2001 2002 2003 2004Year
Drum/unit
Annual Soild Radioactive Waste (Drums/unit)
1. Introduction-General1. Introduction-General1. Introduction-General1. Introduction-General
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The View of Yonggwang Nuclear Power Plants
1. Introduction-YG NPPs1. Introduction-YG NPPs1. Introduction-YG NPPs1. Introduction-YG NPPs
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1. Introduction-YG NPPs1. Introduction-YG NPPs1. Introduction-YG NPPs1. Introduction-YG NPPs
Yonggwang Nuclear Power Plant Unit 5Located in the western sea side of Korean peninsular (The Republic of Korea)Design Criteria: 10CFR50 Appendix A(GDC for NPPs) and Korean Radiation Protection Criteria (ex; Reduced dose limits(ICRP-60, etc))CE type and Pressurized Water Reactor (PWR)2,825 MWth(1,000 MWe) Power2 Loop Steam Generator/2,250 psia4 Reactor Coolant Pumps, etc
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2. Description of the Release 2. Description of the Release EventEvent
2. Description of the Release 2. Description of the Release EventEvent
Description of the Release Event at YG Unit 5 [1]December 21, 2003: Disconnection from the grid to perform a normal shutdown (S/D) process. The S/D system is connected to the primary Rector Coolant System (RCS) at a pressure of approximately 395 psig(29kg/cm2 absolute). December 22: Increased radiation level of aerosol monitor(RE-054). The alert was indicated in the Technical Support Center (TSC) and reported to the MCR. The alarm status, that would have required immediate actions to be taken, was not reached. December 23 to 27 : Investigation of the cause for this alert by HP staff. Check of the possible failure of the RMS (electrical and radiogical, etc).air samples and No airborne radiation. The cause for the alert was not identified at that time.
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Description of the Release Event at YG Unit 5 [2]December 23: Restart and 100% power on December 24. December 27: A high radiation level in the TSC. The point of measurement was near the humidifier overflow piping. The DWS is a non-radioactive system that has to be kept free of contamination. To verify the cause of the radiation the piping of the DWS was subsequently measured. Finally a very high dose level was detected at the valve in the PASS interface. The Post Accident Sample System (PASS) is connected to the SCS, that can be contaminated by the primary reactor coolant, and to the clean (non-radioactive) DWS.December 29: shutdown for additional checks and investigations to detect the cause of the high radiation level.
2. Description of the Release 2. Description of the Release EventEvent
2. Description of the Release 2. Description of the Release EventEvent
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Description of the Release Event at YG Unit 5 [3]December 29 to 31: The PASS interface was checked to verify the possibility of contaminated fluid leaking from the S/D system into DWS. Leak rate tests were performed on site. A raised internal leak rate of one isolation valve (V 041) in the PASS interface was found. The allowed leak maximum of 1.5 cm3/h (under specified test conditions) was very clearly exceeded by a measured leak rate of approximately 600 cm3/h. The leaking valve was dismantled and later disassembled by service staff. A belt of hardened suspended foreign material was found on the valve disc inside the valve. The valve was cleaned and foreign material was removed. After cleaning, reassembling and fitting in the valve, leak rate tests were performed again. The measurements showed no valve leakage. Due to the contamination a higher level of radiation in the piping remained. The contamination had to be eliminated by cleaning the piping, and in part by exchanging pipes, after the radioactivity release event.
2. Description of the Release 2. Description of the Release EventEvent
2. Description of the Release 2. Description of the Release EventEvent
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The leakage pathways for contamination of SCS, PASS and DWS
2. Description of the Release 2. Description of the Release EventEvent
2. Description of the Release 2. Description of the Release EventEvent
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The release pathway of contaminated water to the offsite
Release activity: 64 MBq
(1.73 mCi)
Public dose: 4.93x10-7 mSv
(Dose limit: 0.03 mSv)
Occupational dose: 0.18 mSv
(Dose limit: 100 mSv/5yr)
2. Description of the Release 2. Description of the Release EventEvent
2. Description of the Release 2. Description of the Release EventEvent
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Flow PathNo radiation monitoring that could directly indicate the contamination and the spread of radioactivity in the DWSThe contamination of the DWS was detected later by radiation measurement taken to investigate the cause of alert of RMSIn further investigation it was verified by valve leakage tests performed at PASS interface that a small flow contaminated coolant caused by an internal valve leakage could pass this interface and could contaminate the clean secondary systemFlow path: SCS (Train A) → SCS Isolation Valve V041 → Check Valve V1018 → Check valve V1016 → Isolation Valve V098 → Check Valve V1020 → DWS Isolation Valve V097 → DWSThe related systems: Shutdown Cooling system (SCS), Post accident Sample System Interface (PASS) and Demineralized Water System (DWS)
3. Details on the Event and 3. Details on the Event and CountermeasuresCountermeasures
3. Details on the Event and 3. Details on the Event and CountermeasuresCountermeasures
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Description of the Related SystemsSCS : During normal power conditions the SCS is isolated from the RCS and not pressurized. During shutdown conditions SCS is operated and pressurized to 395 psig ( 29 kg/cm2 absolute) maximum. Furthermore SCS is operated during the refueling or safety injection. During the long term cooling mode is pressurized to approximately 57 psig (4.5 kg/cm2 absolute) PASS : The system is designed to operate during post-accident conditions, the sampling pump was operated so far only for some minutes for testing (every 6 months). During normal, shutdown and restart the PASS is not operated but in standby.DWS : The DWS is in use during all operational modes of the plant. The pressure of the DWS is controlled to 100 psig (8kg/cm2 absolute) at all operational modes.
3. Details on the Event and 3. Details on the Event and CountermeasuresCountermeasures
3. Details on the Event and 3. Details on the Event and CountermeasuresCountermeasures
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Valve Leakage TestsThe Staff of Unit 5 has performed several valve leakage tests to identify the discharge point of contaminated water into DWS. The tightness of the isolation valves in the PASS interface was verified. For these valve a maximum leak rate of 1.5 cm3/hr under full design pressure (RCS pressure) is acceptable by specification. The leakage tests were performed with different measurement conditions and constellations. The maximum leakage of 600 cm3/h was measured at collection point A; Isolation valve V041 closed, isolation valve V098 opened, slow pressurization up to 28 hPa (over 17 min). These tests were attended by the valve supplier and an independent expert organization (KINS).
3. Details on the Event and 3. Details on the Event and CountermeasuresCountermeasures
3. Details on the Event and 3. Details on the Event and CountermeasuresCountermeasures
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The Schematic Diagram of pilot solenoid valveThe Schematic Diagram of pilot solenoid valveThe Schematic Diagram of pilot solenoid valveThe Schematic Diagram of pilot solenoid valve
3. Details on the Event and 3. Details on the Event and CountermeasuresCountermeasures
3. Details on the Event and 3. Details on the Event and CountermeasuresCountermeasures
Foreign Material and Valve DesignA belt of foreign material of isolation valve V041 was found.
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RMS Alert Response ActionsOn Dec. 22 the radiation alert occurred at radiation monitor (RE-054) at TSC. The indicated value reached 0.1 Bq/cm3 (alert: 0.057Bq/cm3; alarm: 0.57 Bq/cm3)The alert and alarm set point are generally defined to protect workers. Based on 10CFR20 the alert set point are usually a fraction (e.g. 1/10) of the alarm set point value. The alert was identified by EO at MCR, reported to SRO and finally notified HP.Response and actions : check RE-054 and RE-255(showed background levels). contradiction to the monitor readings. check the dose rate. check the electrical functions of RE-054. air samples. Change (new) and switch the detector of Unit 6.No air contamination and opening the ceiling. 10,000cpm near the piping and check the T/B sump. DWS was finally identified as source of the contamination.
3. Details on the Event and 3. Details on the Event and CountermeasuresCountermeasures
3. Details on the Event and 3. Details on the Event and CountermeasuresCountermeasures
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Monitoring of Uncontaminated SystemsNo monitoring of the clean systems was performed prior to the incident. This caused a delay of contamination recognition.The water treatment plants (general water treatment facility, sewage water facility) are not equipped with radiation monitoring systems.During the incident and after detection of the contamination, water samples from these plants were analyzed and their further discharge was stopped. The samples showed contamination level between 1 and 15 Bq/L for Co-58 and Mn-54. As a results of the incident and as prevention against reoccurrence the sanitary and water treatment facility are sampled weekly. The storm (rain water) drainage is sampled monthly.
3. Details on the Event and 3. Details on the Event and CountermeasuresCountermeasures
3. Details on the Event and 3. Details on the Event and CountermeasuresCountermeasures
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Environmental MonitoringAfter identification of the spreading of radio nuclides via water pathways to the environment, the affected water treatment facilities stopped their discharge into the sea.Water samples were taken and analyzed for gamma emitting radio nuclides.The amount of treated and discharged wastewater is measured and documented on a daily basis. This data was and still is collected in a manner independent of any incident, so that this data is available for the whole time over which the incident developed. The amount of discharged water: 3,529 ton via central waste water facility and 1,329 ton via sewage water treatment facility.
3. Details on the Event and 3. Details on the Event and CountermeasuresCountermeasures
3. Details on the Event and 3. Details on the Event and CountermeasuresCountermeasures
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Environmental MonitoringThe dose from seafish consumption is calculated: 0.131 µSv [The Co-58 data: 79.3kg(mean value of Korea), DCF from ICRP-2001, 1000 (bioaccumulation factor), etc]The dose from shellfish consumption is calculated: 0.145 µSv [The Co-58 data: 17.6kg(mean value of Korea), DCF from ICRP-2001, 5000 (bioaccumulation factor), etc]The dose from algae (seaweed) consumption is calculated: 0.261 µSv [The Co-58 data: 15.8kg(mean value of Korea), DCF from ICRP-2001, 10000 (bioaccumulation factor), etc]The calculated dose for the released Mn-54 is: 0.023 µSv. The total effective dose over both nuclides and over the three exposure pathways is: 0.56 µSv.
3. Details on the Event and 3. Details on the Event and CountermeasuresCountermeasures
3. Details on the Event and 3. Details on the Event and CountermeasuresCountermeasures
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External dose assessment for worker : Radioactivity release to DWS → Contamination of DWS and turbine building ( Liquid Waste System) → Radiation dose control and measurement of contaminated area → Time tracking for RCA and dose assessment (Establishment/set up for temporary RCA at contaminated area, such as Humidifier or T/B, etc) → Dose assessment by calculation based on record and judgement
☞ The maximum dose is 0.18 mSv(18 mrem)
Investigation of worker
and working time
(Record, RWP, and
Interview, etc.)
Investigation of radiation
dose rate and working
condition
Investigation of dose record
by ADR
Occupational dose
assessment based on
review and onsite
investigation
4. Occupational Dose 4. Occupational Dose AssessmentAssessment
4. Occupational Dose 4. Occupational Dose AssessmentAssessment
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Internal dose assessment for workers
☞ Internal dose assessment based on investigation of Radiation Work Permit (RWP) / Work tracking system (83 persons) and drinking of demineralized water (4 persons) : no internal dose
Internally deposited gammaradionuclide measurement using WBC
Internally deposited tritiumradionuclide measurement using LSC
Radioactivity measurement ofcontaminated water
Intake estimation based on
air concentration of working area
Intake estimation of drunken person of
demineralized water
Intercomparison and confirmation of
intake and committed effective dose
Intercomparison Intercomparison
4. Occupational Dose 4. Occupational Dose AssessmentAssessment
4. Occupational Dose 4. Occupational Dose AssessmentAssessment
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The schematic diagram of internal dose assessment for internally contaminated radionuclide using whole body counter (WBC)
Pre-amplifier
Pre-amplifier
High Voltage Unit ○ Main Amplifier ○ MCA Board
Whole Body CounterModel : FASTSCAN-2250Geometry : Stand TypeGenic PC : O/S-2Radionuclide analysis program : Abacos
Whole Body CounterModel : FASTSCAN-2250Geometry : Stand TypeGenic PC : O/S-2Radionuclide analysis program : Abacos
KIDAC/IMBA Program Operating Mode - Intake assessment - Dose assessment
Measurement by WBCInternal activity (M)
Choice ofMetabolic data
Intake assessment Assessment of committed effective doseby internal dose computer code
ReportReport
4. Occupational Dose 4. Occupational Dose AssessmentAssessment
4. Occupational Dose 4. Occupational Dose AssessmentAssessment
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Radioactivity measurement and dose assessment from tritium intake using urine samples and liquid scintillation counter (LSC)
Selection/Request of
UrineSubmitted
Intake and CEDassessment /
confirmation bydose tracking
system
4. Occupational Dose 4. Occupational Dose AssessmentAssessment
4. Occupational Dose 4. Occupational Dose AssessmentAssessment
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5. Summary5. Summary5. Summary5. SummaryThe incident leads to a contamination of non-nuclear (clean) system, DWS, by reactor coolant in the SCS.The leakage was caused by incomplete closure due to the deposition of foreign material inside the valve.The contamination was not recognized immediately due to no RMS at DWS. Only after analyzing an alert of RE-054 the contamination source finally identified and spreading through DWS stopped.There were time delay due to followings: No direct monitoring of the DWS. Indirect alert and misleading. Only alert signal (no alarm).Response and actions: Installation of quick disconnect coupling (physical separation). A systematic review of all possible flow path from RCS to secondary system. Valve replacement plan for bidirectional flow isolation.The complete review of sampling/environmental monitoring program and uncontrolled discharge over the water pathway. Radiation monitoring improvement (ex, water treatment system) and timely action/measures of contamination.
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Thank you very much Thank you very much for your attention !!!for your attention !!!Thank you very much Thank you very much for your attention !!!for your attention !!!