presentation to iaea disponet- improving disposal practises at vaalputs
TRANSCRIPT
IMPROVING WASTE DISPOSAL PRACTICES AT VAALPUTS
IAEA Disponet Meeting Sweden, 4 October 2011
By:
Alan CarolissenSenior Manager: Nuclear Liabilities Management
2
LOW LEVEL WASTE DISPOSAL REPOSITORY: VAALPUTS
3
VAALPUTS COMMISSIONING
• Site selection completed in 1985• Site operating license granted in 1986• First waste shipment arrived in November 1986• Only solidified or solid low level waste are disposed
off.
4
5
Red sand – 0,5 m
Red ‘clay’ – 10m
White ‘clay’ – 5m
Weathered granite – 3m
Fresh granite up to 100m
Aquifer
5 5555
DISPOSAL CONCEPT
Monitoring pipe
Natural Clay
5.2 m
8.0 m
Drainage layer – 200mm
Backfill
Compacted clay cap
Natural cover
Top soil
Waste packages
50 m
Shallow Land Disposal (SLD)
Near surface trenches for LLW
TYPES OF WASTEONLY SOLID OR SOLIDIFIED RADIOACTIVE WASTE
6
LLW in metal containers
LLW in concretecontainers
Spent fuel racks
VAALPUTS WASTE INVENTORY• Design capacity
- 500 000 metal waste packages- 50 000 concrete waste packages
• Metal waste packages- 14 699 disposed of (3% of capacity)
• Concrete waste packages- 3 769 disposed of (8% of total capacity)
7
RECEIVING WASTE
8
9
10
REHABILATED TRENCH
11
INITIATING EVENT: CRACKING OF CONCRETE WASTE CONTAINERS• Discovered damaged containers – May 1997• Was evident that cracking phenomenon has evolved over
period (1986 emplaced containers)• Cracks were observed on the rims, sidewalls and bases of
the containers.• Nuclear occurrence registered.• Independent sampling and environmental monitoring done
by Necsa, NNR, IAEA.• Results: No contamination outside disposal trenches.
12
VP006 - Description
VP006 - Description
VP006 - Investigation
NCR-2004/0087 - Investigation
VP006 - Investigation
VP006 - Investigation
ROOT CAUSE IDENTIFICATION• Premature degradation of container due to prolonged exposure to
elements:- Thermal cycling- Corrosive effects of soil- Free liquid between drum wall and metal liner- Expansion of resin matrix.
• Huge trenches• Lack of understanding in container performance in repository
environment (container specs initially adopted from French design.)• Deficiencies in pre-disposal operational processes (handling, filling
and capping).• Insufficient QA control by waste generators
20
IMPROVING WASTE DISPOSAL PRACTICES:
TRENCH MANAGEMENT
IMPROVEMENTS: TRENCH MANAGEMENT• Premature closure of trenches necessitated changes in
original trench design.• Concrete cut-off wall build at live end of waste stacks.• Provided a barrier against which backfill and capping
proceeded.• New smaller trenches are used
- Length depends on pre-defined number of containers delivered in concentrated campaigns.
- Backfilling within two months.- Capping within a year.
22
Typical near surface trench
6m
3m
1.5m
3m
X m
IMPROVING WASTE DISPOSAL PRACTICES:
CONTAINER FILLING
IMPROVEMENTS: CONTAINER FILLING
26
Drum Composition
C1-CONCRETE CONTAINER
Concrete drum
1.3 m
1.4 m
150 mm
C1-CONCRETE CONTAINER
Concrete drum
Metal liner
Void
1.3 m
1.4 m
150 mm
C1-CONCRETE CONTAINER
Concrete drum
Metal liner
Foam seal
Void
1.3 m
1.4 m
150 mm
C1-CONCRETE CONTAINER
Concrete drum
Metal liner
Foam seal
Waste Matrix Resin
Void
1.3 m
1.4 m
150 mm
C1-CONCRETE CONTAINER
Concrete drum
Metal liner
Foam seal
Cap
Void
1.3 m
1.4 m
150 mm
IMPROVEMENTS: CONTAINER FILLINGInsertion of expansion foam.
33
IMPROVING WASTE DISPOSAL PRACTICES:
CONTAINER DESIGN
IMPROVEMENTS: CONTAINERContainers shall be so designed that withstand thermal cycling.
35
PARAMETER MAXIMUM MINIMUM AVERAGE
Relative humidity 100% 1% 57 %
Ambient temperature
47.1 °C - 7.8 °C 16.5 °C
22 cm soil temperature
38.3 °C 5.6 °C 22.4 °C
60 cm soil temperature
38.2 °C 6.0 °C 22.4 °C
Wind speed 27.2 ms-1 0 ms-1 4.3 ms-1
Atmospheric pressure
915 hPa 879 hPa 883.9 hPa
MAMSL 1 000 m
IMPROVEMENTS: CONTAINERContainers shall be so designed that:
• Following emplacement in the repository, the mechanical integrity of the waste container shall be capable of being maintained for at least the operational life (100 years) of the repository.
• The compressive strength shall be compatible with the repository stacking pressures, including the overburden imposed by the trench cap.
• The tensile strength shall be compatible with the forces that may be exerted on the container by the waste matrix due to, e.g., corrosion expansion, thermal expansion, etc.
• Iron chloride and iron carbonate in cement mixture exclude due to reducing soil environment
36
IMPROVING WASTE DISPOSAL PRACTICES:
IMPROVED INSPECTION & QA
Pre-shipmentinspections
Receiving inspections
On arrival at the repository• Condition of shipment;• External package condition, package closure;• Radiological measurements (dose rate, surface
contamination)• Compliance with transport regulations;• Package labelling / unique identification;• Package mass;• Container type.
IMPROVED INSPECTION PRACTICES
Conducted at waste supplier’s site • Visual inspection (waste packages)• Consignment records (data packs)• Status of NC’s and waivers• Process implementation (PDO WAC)
ProcessVerification
In future will include•Destructive testing•Non-destructive testing (X-ray)•Verification of nuclide inventory (direct measurement, random sampling)•Mass verification (weighing)
•Technical audits•Pre-shipment inspections•Receiving inspections•Witness process qualification•Witness process operations•Documented procedures•Non-conformances, CA and PA
IMPROVED QA PRACTICES
IMPROVING WASTE DISPOSAL PRACTICES:
WAC IMPROVEMENTS
• Specific to Koeberg• Added:
- Nuclides to be reported- Administrative procedures (documentation, application,
approval, etc.)- Quality requirements (data pack, process qualification &
verification introduced)- Radiological requirements- Packaging & labeling requirements- Prohibited items and substances- Non-conforming waste- Waivers
EVOLUTION OF WAC: WAC Rev 6
42
EVOLUTION OF WAC: WAC Rev 6(a)
Added:• Audit/review of PDO’s QA system• Specific criteria and concessions wrt pH• TRU’s up to 4000 Bq/g per waste package• Toxic and corrosive substances• Passively safe waste form• Tamper seals• NCR’s from PDO’s• WAC Rev 7 currently under development
WAC DEVELOPMENT
43
WAC
Long-term safety
Operational safety
Transport safety
StakeholdersWaste
suppliers
Repository economics
Quality control
•Safety•Health•Environment•Radiological•Regulatory
•WM plans•Historical waste•Current waste•Future waste
•Resources•Commercial issues•Disposal contract•Disposal cost•Waste ownership
•Regulators•Public•Government•Waste suppliers
•TS-R-1•WP performance•Nuclide limits•Radiological control
•Inspection•Testing•Verification•Non-conformities•Data packs•Records
•Disposal concept•Safety assessments•Performance assessments
IMPROVING WASTE DISPOSAL PRACTICES:
RESEARCH & DEVELOPMENT
EXPERIMENTAL PROGRAMME
• Trench cap performance• Container performance• Near field studies• Trench cap cracked and subsided• Simulation of possible conditions during institutional control
period
49
CONCLUDING REMARKS
Continual improvements in disposal practices are imperative to:
• Deepen and strengthen stakeholder confidence
• Enhance and strengthen the plausibility and robustness of the disposal safety case
Thank You!!!
53