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June 25-26, 2002 D&D Lessons Learned Workshop 1
D&D Health Physics Issues
George Ascione / Carl TilsonD&D Lessons Learned Workshop
June 25-26, 2002
PPPL
June 25-26, 2002 D&D Lessons Learned Workshop 2
Overview
• Discussion of the concerns, hazards, and protective measures to reduce or eliminate radiation dose to personnel from internal and external radiation sources associated with the D&D effort.
June 25-26, 2002 D&D Lessons Learned Workshop 3
Topics Of Discussion
• Identification of the internal radiation hazards• Identification of the external radiation hazards• Development of ALARA protective measures for
internal radiation hazards• Development of ALARA practices to reduce or
eliminate the external dose hazard• Decon vs. Disposal• Releasing material and areas• Counting and surveying techniques• Some facts and figures….
June 25-26, 2002 D&D Lessons Learned Workshop 4
Identification Of The Internal Radiation Hazards
• Possible source terms– Tritium
• Elemental (Low Concern)• Oxide (Moderate Concern)• Oxide contaminated particulates (High Concern)
– Atmospheric Dust– Carbon dust– Concrete dust
– Activated metals• Cutting and grinding operations.
June 25-26, 2002 D&D Lessons Learned Workshop 5
Identification Of The External Radiation Hazards
• Possible source terms (cont.)– Tritium
• All Forms, No Concern
– Activated metals• Vacuum Vessel
• Coil Removal and Cutting
• Sheer Compression Panel Removals
June 25-26, 2002 D&D Lessons Learned Workshop 6
ALARA Protective Measures For Internal Radiation Hazards
• Tritium– Oxide and Elemental Form
• Routine HP Technician monitoring using bioassay. D&D worker bioassay monitoring as needed.
– Tritiated particulates• All areas with the potential to have airborne tritiated
particulates required either air supplied respirators or air purifying respirators on all workers.
– All Contamination areas• Varying degrees of protective clothing (PC’s) based on the
level of hazard and defined on the job specific RWP.
June 25-26, 2002 D&D Lessons Learned Workshop 7
Development Of ALARA Practices To Reduce Or Eliminate The
External Dose Hazard
• Standard ALARA Implementation of “TDS” (Time, Distance, and Shielding)– Specific job analysis on activated materials
• Ensuring that the proper personnel perform the task and are properly trained (Time Factor)
• Use of specialized tools and apparatus to maximize the distance between the workers and the source. (Distance Factor)
• Whenever possible rely on local structures for shielding or deploy lead blankets to shield the workers (Shielding Factor)
June 25-26, 2002 D&D Lessons Learned Workshop 8
Development Of ALARA Practices To Reduce Or Eliminate The
External Dose Hazard
• The majority of the external dose received during the D&D effort was the result of the shear compression panel removals.
June 25-26, 2002 D&D Lessons Learned Workshop 9
Decon vs. Disposal
• DOE Moratorium Issues– Scrap metals being removed from TFTR cannot be recycled or
disposed of in normal landfills. The “No Rad Added” directive prohibits recycling at this time.
– All stainless steel components removed from TFTR are treated as activated and disposed of by approved PPPL Rad Waste procedures
• Tritium contaminated items– Equipment and apparatus brought into the test cell for D&D
activities which were never activated became contaminated.– Based on value to the laboratory for internal use, equipment is
being evaluated and released in accordance with PPPL’s release criteria of < 1000 DPM/100cm2
June 25-26, 2002 D&D Lessons Learned Workshop 10
Releasing Material And Areas
• Activated Metals– No release criteria established. All activated metals treated as Rad
Waste
• Tritium contaminated items– PPPL’s release criteria of < 1000 DPM/100cm2– Equipment with oils, hydraulic fluids, cooling liquids and/or other
chemicals• When possible samples are analyzed for tritium.• Systems with cooling components or lubricating oil were flushed to
remove any potential internal contamiation.• Decontamination by manual methods for hundreds of small items
used to rig, hoist, secure, and move materials during D&D.
June 25-26, 2002 D&D Lessons Learned Workshop 11
Releasing Material And Areas (cont.)
Tritium contaminated areas– Floor space which became contaminated areas were
continuously cleaned and moved. Ultimately the plan is to have the test cell floor free from any contamination areas
– Some components and structures associated with TFTR will remain in place in the test cell. These areas and pieces of equipment will be agressively decontaminated to levels below PPPL’s guidelines.
– A significant portion of the test cell including the walls and fire protection system will be manually decontaminated.
June 25-26, 2002 D&D Lessons Learned Workshop 12
Counting And Surveying Techniques
Tritium– Liquid Scintillation (Passive)
• The overwhelming majority of the samples taken were “Q-Tip” samples, gross area surveys.
• Oils and hydraulic fluids were Oxidized when possible and counted using LSC.
• Airborne tritium oxide analysis performed using water bubblers
• Personnel bioassay’s
– Realtime Air Monitoring• “Line Break” activities require local portable tritium monitors
June 25-26, 2002 D&D Lessons Learned Workshop 13
LSC, Real-time Tritium MonitorsAnd Other Handheld Monitors
June 25-26, 2002 D&D Lessons Learned Workshop 14
Oxidizer And Bubblers
June 25-26, 2002 D&D Lessons Learned Workshop 15
Counting And Surveying Techniques (cont.)
Gamma from activated components– Real time monitoring
• Continuous air monitoring using SAIC air filters analyzed with local scalers
• Hand held portable instruments for local activation measurement
• Baseline whole body counting and exit counting
– Passive Monitoring• Personnel dosimetry
• Gamma Spectroscopy performed on metals and metal filings
June 25-26, 2002 D&D Lessons Learned Workshop 16
Whole Body Counting AndGamma Spectroscopy
June 25-26, 2002 D&D Lessons Learned Workshop 17
Some Facts And Figures….
• “0” Zero reportable occurrence reports due to health physics related issues based on regulatory requirements.
• < 100 mRem combined dose from internal exposure for all HP technicians and workers monitored for D&D operations
• Maximum single individual external dose of 573 mRem attributed to the sheer compression panel removals.
• “0” Zero detectible internal exposures due to activated metals to date.
• More than 150,000 individual LSC samples analyzed.
• Just over 210Ci of tritium total for the site released up the stack since August 2001
June 25-26, 2002 D&D Lessons Learned Workshop 18
More Facts And Figures
Enclosure lift contamination levels (Maximum) 600,000 dpm/100cm2
Segment pull maximum airborne contamination (Segment Top) 1.90 microCuries/m3
Segment pull maximum airborne contamination (100’ Level) 0.32 microCuries/m3
Maximum contamination outside of enclosures in CA 176,000 dpm/100cm2
Maximum contamination outside of enclosures in clean areas (First segment move)
6,000 dpm/100cm2
Maximum contamination on segment (Segment 8) 23,811,141 dpm/100cm2
Maximum contamination pre-decon on coils 1,500,000 dpm/100cm2
Post coil decon contamination level (same coil) 40,500 dpm/100cm2
TF Upper/Lower enclosure maximum airborne concentration during cutting
48.9 / 5.75 microCuries/m3
Maximum permacon airborne concentration 8.00 microCuries/m3
Maximum general area airborne concentration (Test Cell) 0.805 microCuries/m3
Lowest general area airborne concentration (Test Cell) 4.02E-3 microCuries/m3
June 25-26, 2002 D&D Lessons Learned Workshop 19
Lessons Learned
• Because we lacked an adequate dose model for determining whole body dose due to the deposition of Tritiated particulates in the body, all personnel were required to wear air supplied respirators inside containment.
• This proved to be the correct protective measure although it did prolong the work performed inside the containments. Even with an adequate dose model we believe that workers inside containment would have exceeded our regulatory limit for skin and clothing contamination of 10,000 dpm/100cm2 if these protective measures had not been taken.
June 25-26, 2002 D&D Lessons Learned Workshop 20
• Careful job planning and proper HP contamination controls reduced the areas designated as contamination areas and reduced the spread of contamination to clean areas. Additional measures such as the vacuum vessel segment “diaper” while moving the vessel segment helped prevent the spread of contamination to clean areas and helped to protect workers from un-necessary contamination. Segment Diaper
Lessons Learned
June 25-26, 2002 D&D Lessons Learned Workshop 21
Lessons Learned
• Clean materials and equipment entering contamination areas should be better controlled. – Many small tools, equipment, and items were brought into
contamination areas when the same tools or items were already contaminated.
– Better planning on materials entering the areas should be performed.
– Seek alternatives to materials which cannot be surveyed.• Example: HP currently has no approved method for performing a
Tritium survey of the foam used during D&D.
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