decontamination (industrial application)
DESCRIPTION
DECONTAMINATION (INDUSTRIAL APPLICATION). M. Detilleux Belgatom. Decontamination / Industrial Application. Reference to the PHARE Project Technical Design for Decommissioning Kozloduy NPP Units 1&2 Task 2 Decontamination and Cleaning Operations. Decontamination / Industrial Application. - PowerPoint PPT PresentationTRANSCRIPT
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DECONTAMINATION
(INDUSTRIAL APPLICATION)
M. DetilleuxBelgatom
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Decontamination / Industrial Application
Reference to the PHARE ProjectTechnical Design for Decommissioning
Kozloduy NPP Units 1&2
Task 2Decontamination and Cleaning
Operations
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Decontamination / Industrial Application
• Primary Circuit
• Nuclear Auxiliary Systems
• Reactor and Spent Fuel Pools
• Thermal Insulation Sheathing Materials
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Primary Circuit
Primary Circuit Components The pipe works The SGs tubes and collectors The pressuriser The reactor vessel with the internals The main coolant pumps and isolation valves The hot portion of the SV01 circuit
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Primary Circuit
Two steps• Soft Pre Decontamination
• Hard Decontamination
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Soft Pre Decontamination
Preference to the APCE process
pH must be > 5.5 due to absence of stainless steel cladding in the RPV and in the pressuriser
The type of secondary wasteAPCE : liquid waste processed by SV03 systemCORD: highly active IERs
APCE process already used Experience of the staff and Availabilty of the
chemical dosing systems
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Hard Decontamination
Main Guidelines considered
Objective to achieve the EU free release levels
Regenerative Cerium process selected as proven technology currently available
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3 Options considered for the primary circuit
1. On-line hard decontamination of the 6 loops during the SE preparatory phase
2. No-Hard decontamination; at the end of the SE the components are dismantled, immobilised without decontamination
3. Hard decontamination in batches in an auxiliary unit on the dismantled components at the end of the SE phase
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On-line Hard Decontamination
Must be performed during the SE preparatory phase (operability and tightness of the circuit)
Must have a reasonable assurance to reach the free release levels for most equipment
‼ In the case of KNPP, to much plugging rate of the SGs tube’s and to difficult to remove (or to drill) the plugs on an economical basis
Option abandoned
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Cost Benefit Analysis
Cj = Aj + Nj . V . X
Cj = overall cost of option j
Aj = total cost for the process Nj = number of final packages V = volume of the final package X = final disposal unit cost
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Aj Items for processing costs
Investment fixed costs Consumable costs
- Chemical reagents- Final packages- Products for final conditioning (cementation)- Steam, electrical energy, auxiliay fluids
Manpower costs (for decontamination and waste conditioning)
Personnel radiological exposure costs
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Factors influencing Nj
Total weight criteria- Internal concrete shielding- Maximum weight (licensing and handling)
Chemical concentration- Limit for total salts content (240 gr / l)
Contact dose rate (handling and transportation)
Activity inventory- WAC for critical nuclides
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No-Hard Decontamination
Direct dismantling after SE, and conditioning the cut equipment
For SGs tubes, two cases Without supercompaction With supercompaction
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No-Hard Decontamination
Equipment Nj Criterion
6 loops
6 SGs tubes bundels
12 SGs collectors
1 pressuriser
6 Main coolant pumps
12 Main isolation valves
6
20 to 25
12
10
10
7
Weight
α activity, geometry
weight
weight
Weight
weight
Total 70
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No-Hard Decontamination
With supercompaction ∆ cost = - 7% Less volume Additional costs
- More operations for cutting in small lenghts- More handling operations- More secondary waste- More Manpower and Man.Sv exposure costs
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Hard Decontamination, SGs tube excluded
• Hard Decontamination in batches(segmented components)
Compared to option 1 2X more reagents Volume of liquid waste is lower Volume of sludges is unchanged
• SGs tubes :cutting, conditioning with or not SC
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Hard Decontamination,SGs tubes included
Significative increase of the surfaces Increase of the size and the capacity
- of the decontamination unit (50 m² / batch in place of 10-20 m² / batch)
- of the waste conditioning unit
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Results for Nj by option
Option
Nj
Soft pre decontamination before SE 19
No-hard decontamination 65 to 70
Hard decontamination (all equipment, ex SGs tubes) 25 to 30
Hard decontamination (all equipment) 19
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Cost Benefit Analysis
Result (cheapest option) Soft decontamination after Reactor Final Shutdown
Hard decontamination (all equipment) during the differed dismantling (at the end of the SE)
Batch process applied on segmented components
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SGs decommissioning alternate options
• SGs melting option (Yankee Row, Kewaunee, Obrigheim NPPs)
• SGs entombment option(Loviisa NPP)
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Nuclear Auxiliary Systems
Cold portion of following systems
• SV 01 Purification system of the primary circuit
• SV 02 Liquid waste collecting system
• SV 03 Liquid waste processing system
• SV 04 Spent fuel storage pools cooling down and purification systems
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Nuclear Auxiliary Systems
No APCE Soft Pre Decontamination• Technical reasons
Need to circulate solutions at high temperature (110 – 160 °C)
≠ Systems operated at low temperature and not provided with thermal insulation
Complexity of the pipework circuits, difficulty to arrange circulation decontamination loops
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Nuclear Auxiliary Systems
No APCE Soft Pre Decontamination• Radiological reasons
Internal β-γ and α surfacic contamination is low
(1 to 2 order of magnitude than the primary circuit at the Reactor Final Shutdown)
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Reactor and Spent Fuel Pools
Selection of the decontamination process Chemical
- Too large volumes- Unfavourable geometry for recirculation
Ultra-sonic- Industrial experience in western PWRs- Easy to be implemented- Removal of cruds with immersed filter cartridges- DFs in the range of 5 to 50
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• Patented submerged filter system UWF 120-4
• Reactor vessel pool and spent fuel pool
• Reduces activity and turbidity
• Outage time reduction
Pool Cleaning Filtration
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A
8
B
C
7 6 5
D
E
F
8 67 5
A
B
C
4 23
D
E
1
F
V99999-33-0105 1296"0"
Pool CleaningWorking Positions05.12.96
05.12.96
Submersible Filter System UWF 120balduf Verfahrenstechnik GmbHD-71720 Oberstenfeld GermanyPhone +49 (0) 7062 94220
A
8
B
C
7 6 5
D
E
F
8 67 5
A
B
C
4 23
D
E
1
F
V99999-33-0105 1296"0"
Pool CleaningWorking Positions05.12.96
05.12.96
Submersible Filter System UWF 120balduf Verfahrenstechnik GmbHD-71720 Oberstenfeld GermanyPhone +49 (0) 7062 94220
UWF Working Position
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A
8
B
C
7 6 5
D
E
F
8 67 5
A
B
C
4 23
D
E
1
F
V99999-33-0205 1296"0"
Pool CleaningChange-out Position05.12.96
05.12.96
Submersible Filter System UWF 120balduf Verfahrenstechnik GmbHD-71720 Oberstenfeld GermanyPhone +49 (0) 7062 94220
A
8
B
C
7 6 5
D
E
F
8 67 5
A
B
C
4 23
D
E
1
F
V99999-33-0205 1296"0"
Pool CleaningChange-out Position05.12.96
05.12.96
Submersible Filter System UWF 120balduf Verfahrenstechnik GmbHD-71720 Oberstenfeld GermanyPhone +49 (0) 7062 94220
UWF Filterelement Change Out
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Booster UWS 30-1
• Suction installation as a water jet pump
• Handling: dimension as a fuel assembly
• Suction direct at the machine
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Bottom- and Wall Cleaning
A
8
B
C
7 6 5
D
E
F
8 67 5
A
B
C
4 23
D
E
1
F
V99999-33-1005 1296"0"
Pool Cleaning05.12.9605.12.96
Submersible Filter System UWF 120balduf Verfahrenstechnik GmbHD-71720 Oberstenfeld GermanyPhone +49 (0) 7062 94220
Combination between UWF andBooster with bottom cleaner
A
8
B
C
7 6 5
D
E
F
8 67 5
A
B
C
4 23
D
E
1
F
V99999-33-1005 1296"0"
Pool Cleaning05.12.9605.12.96
Submersible Filter System UWF 120balduf Verfahrenstechnik GmbHD-71720 Oberstenfeld GermanyPhone +49 (0) 7062 94220
Combination between UWF andBooster with bottom cleaner
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Cleaning of the Reactor Vessel
A
8
B
C
7 6 5
D
E
F
8 67 5
A
B
C
4 23
D
E
1
F
V99999-33-0905 1296"0"
Pool Cleaning05.12.9605.12.96
Submersible Filter System UWF 120balduf Verfahrenstechnik GmbHD-71720 Oberstenfeld GermanyPhone +49 (0) 7062 94220
Combination between UWF andBooster with corner extraction
A
8
B
C
7 6 5
D
E
F
8 67 5
A
B
C
4 23
D
E
1
F
V99999-33-0905 1296"0"
Pool Cleaning05.12.9605.12.96
Submersible Filter System UWF 120balduf Verfahrenstechnik GmbHD-71720 Oberstenfeld GermanyPhone +49 (0) 7062 94220
Combination between UWF andBooster with corner extraction
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Thermal Insulation and sheathing Materials
Immediate Removal( after decontamination of the primary circuit)
Not suited for long term conservation Corrosion of sheating materials Generation of dust and aerosols from glass
wool materials
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Conditioning options
• Thermal insulation material
Precompaction (50 t) into drums (110 kg / 210 l drum)
Supercompaction (910 t) Height reduction factor of 3
Immobilisation with concrete in the final package
Overall volume reduction factor = 4.7
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Conditioning options
• Sheathing materials
Two options Pre compaction, supercompaction,
immobilisation (‼ aluminium)
Decontamination to reach free release levels