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1 Safety Issues for the n-TOF target Thomas OTTO, Radiation Protection Group, SC-RP, CERN.

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Presentation on theme: "1 Safety Issues for the n-TOF target Thomas OTTO, Radiation Protection Group, SC-RP, CERN."— Presentation transcript:

1 1 Safety Issues for the n-TOF target Thomas OTTO, Radiation Protection Group, SC-RP, CERN

2 Thomas Otto & Luisa Ulrici, SC-RP, CERN N-TOF Review 14. 6. 2007 2 Installation of n-TOF at CERN The n-TOF spallation target has been installed in a former transfer tunnel between the PS and the West Area. No ventilation nor water retention facilities Radioactive air is moving and escaping uncontrolled Radioactive water spillage can go unhindered into surface waters (environment)

3 Thomas Otto & Luisa Ulrici, SC-RP, CERN N-TOF Review 14. 6. 2007 3 n-TOF spallation target Lead target in direct contact with cooling water

4 Thomas Otto & Luisa Ulrici, SC-RP, CERN N-TOF Review 14. 6. 2007 4 n-TOF target 2004: observation of activity transfer target -> water Activity concentration of water A >> 100 *L E : must not be released to environment At CERN, no facilities to handle or store large quantities (700 litres) of contaminated water Dose rate measured at ion exchanger 2004 2003

5 Thomas Otto & Luisa Ulrici, SC-RP, CERN N-TOF Review 14. 6. 2007 5 Cooling water system The cooling water system is internally contaminated with Pb spallation products (qualitative measurements: dose rate of water pipes and gamma spectrometry of wipe test) A quantitative analysis in the target tank and in a section of pipe is required Options for the cooling water system: No intervention needed if contamination low enough Cleaning with water and weak acid, collection in ion exchanger resins Replace cooling water system

6 Thomas Otto & Luisa Ulrici, SC-RP, CERN N-TOF Review 14. 6. 2007 6 Requirement 1: Cladded spallation target Cladded spallation target is required, to prevent radioactive contamination of cooling water. Cladding with aluminum is not favoured (radioactive waste separation, see below) The cooling water circuitry must be inspected for contamination (fixed or mobile) before deciding on its potential re-use

7 Thomas Otto & Luisa Ulrici, SC-RP, CERN N-TOF Review 14. 6. 2007 7 N-TOF target dimension approx. one interaction length, no dump Intense hadronic cascade leaving target and shielding Consequence: Air activation Air activation in target area

8 Thomas Otto & Luisa Ulrici, SC-RP, CERN N-TOF Review 14. 6. 2007 8 Air activation in target area Aerosol concentration during operation: Estimated annual release: Ventilation must be refitted. Improve atmospheric conditions during operation (temperature, humidity, O 3 ) Improve working conditions after access Account for releases to environment n-TOF (est.)ISOLDE 7 Be300 MBq121 MBq 24 Na100 MBq1.16 MBq Short-lived gases ?? (small)6 TBq Door 203 (40 m f. target) Door 204 7 Be860 Bq/m 3 27 Bq/m 3 24 Na290 Bq/m 3 4 Bq/m 3

9 Thomas Otto & Luisa Ulrici, SC-RP, CERN N-TOF Review 14. 6. 2007 9 Requirement 2: Ventilated Target Area The n-TOF spallation target area must be equipped with a filtered and monitored Ventilation, such as target areas in the PS, SPS and ISOLDE. Study in AB-ATB,TS-CV and SC-IE: Minimize dose to critical group of public Potentially recirculation during operation Monitored release

10 Thomas Otto & Luisa Ulrici, SC-RP, CERN N-TOF Review 14. 6. 2007 10 n-TOF Experimental Area As the target area, the experimental area EAR-1 is installed in a former transfer tunnel No ventilation No water management For nuclear fuel cycle related experiments with radioactive targets (actinides, trans-uranium elements) In 2002-2004, exceptional authorisations for detectors with mechanical and thermal resistance similar to “sealed radioactive sources” (ISO 2919) were obtained One of the detectors was loaded in PSI (no appropriate work sector available at CERN) Numerous actinide targets still at CERN: problems with re- expedition to owner EAR 1 in its present form can only receive experiments with inactive targets (astrophysics, nuclear physics)

11 Thomas Otto & Luisa Ulrici, SC-RP, CERN N-TOF Review 14. 6. 2007 11 Requirement 3a: Use sealed radioactive sources Wherever possible, sealed radioactive sources with ISO 2919-certification by officially authorised bodies must be used as targets The activity is limited by an auxiliary criterion: dose to the public in case of complete dispersion of the source (fire, sabotage) must not exceed 1 mSv Binding re-exportation arrangements for the sources should be made before they enter CERN

12 Thomas Otto & Luisa Ulrici, SC-RP, CERN N-TOF Review 14. 6. 2007 12 Requirement 3b: Work Sector Construction of a work sector for handling unsealed radioactive samples in the experimental area filtered and monitored ventilation, retention of contamination (multiple barriers), decontamination facility, application of work procedures continuous monitoring by radiation protection Examples for work sectors for nuclear fuel-cycle related research at accelerator facilities are available at Synchrotron Light Sources (e.g. ESS, ANKA, SOLEIL)

13 Thomas Otto & Luisa Ulrici, SC-RP, CERN N-TOF Review 14. 6. 2007 13 RP-Resources for n-TOF operation Presently available manpower: For ISOLDE, MERIT and n-TOF < 1.5 FTE RP techn. engineers for monitoring 0.2 FTE RP physicist for studies and authorisations Additional manpower required for the n-TOF research programme : 0.5 FTE physicist/ senior engineer for studies and authorisations 0.5 FTE technician/ techn. engineer for monitoring work with potentially dangerous radioactive targets Can be combined with requests in other areas of radiation protection at CERN

14 Thomas Otto & Luisa Ulrici, SC-RP, CERN N-TOF Review 14. 6. 2007 14 Summary In case of restart, n-TOF must be equipped with A new, improved, cladded target A target area ventilation system A decision on the reuse of the cooling water system can be taken after measurements have been taken. For experiments with actinides and other radioactive samples Sealed sources (certified by authorised bodies) must be used whenever possible A work sector for handling unsealed sources must be built in the experimental area Additional human resources in RP must be made available

15 15 Conditioning and Elimination of radioactive waste from n-TOF On behalf of Luisa Ulrici Radiation Protection Group SC-RP

16 Thomas Otto & Luisa Ulrici, SC-RP, CERN N-TOF Review 14. 6. 2007 16 nTOF RADIOACTIVE WASTE TARGETS Present (activation + contamination) Future (cladding to avoid contamination of cooling water) Other water (if not suitable for free release in environment) heavy water (limited quantities accepted by PSI) Solid metallic waste (maintenance, upgrade, dismantling etc.)

17 Thomas Otto & Luisa Ulrici, SC-RP, CERN N-TOF Review 14. 6. 2007 17 Elimination of old target The old n-TOF target can be eliminated towards a Swiss repository, subject to technical requirements No volatile contamination during transport (Type A container needed, probably single use (lost)) Maximum dose rate at the surface of the waste container 2 mSv/h (shielding must be fitted) Dimensions adapted to fit in the waste conditioning container for at PSI

18 Thomas Otto & Luisa Ulrici, SC-RP, CERN N-TOF Review 14. 6. 2007 18 DESIGN OF THE NEXT TARGET Recommendations for the design of the next target: Cladding => minimize contamination of the water in the cooling system If aluminum is chosen for the cladding, the design shall foresee the possibility to remotely dismantle the cladding Knowledge of the chemical composition of all materials used in the target (for the calculation of the nuclide inventory).

19 Thomas Otto & Luisa Ulrici, SC-RP, CERN N-TOF Review 14. 6. 2007 19 RESOURCES Studies on nuclide inventory : 2 man months per target Availability of sufficient CPU Organisation of waste elimination: 0.2 FTE

20 Thomas Otto & Luisa Ulrici, SC-RP, CERN N-TOF Review 14. 6. 2007 20 COSTS Elimination of Targets Transport container~10kCHF Transport~10kCHF Elimination container (PSI)~7kCHF Elimination feesto be defined (meeting with PSI) Shielding for transportdepends on type, needs etc. Elimination of other waste (pipes, supports, shielding etc.) Transport depends on volumes Elimination103 kCHF/cubic meter N.B. No elimination pathway is currently available for activated and/or contaminated deuterium (quantities above 10 liters)

21 Thomas Otto & Luisa Ulrici, SC-RP, CERN N-TOF Review 14. 6. 2007 21 CONCLUSION An elimination pathway for the targets of nTOF exists and the disposal can be carried out according to the Host-States regulation The disposal of the old target soon after its removal from the irradiation position has the double advantage of Comply with the legislation requirements Eliminate the need of the construction of a second storage place for the future target The P & M resources needed to perform the disposal will be confirmed after deciding with PSI on exact method of conditioning of the target

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