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Characterization of the nTOF Radioactive Waste M. Brugger, P. Cennini, A. Ferrari, V. Vlachoudis CERN AB/ATB/EET.

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Presentation on theme: "Characterization of the nTOF Radioactive Waste M. Brugger, P. Cennini, A. Ferrari, V. Vlachoudis CERN AB/ATB/EET."— Presentation transcript:

1 Characterization of the nTOF Radioactive Waste M. Brugger, P. Cennini, A. Ferrari, V. Vlachoudis CERN AB/ATB/EET

2 24.01.2007 Characterization of the nToF Radioactive Waste 2 FLUKA Calculation Details & Method FLUKA Calculation Details & Method Geometry, beam details, irradiation & cooling times Geometry, beam details, irradiation & cooling times Relevant quantities Relevant quantities Results Results Target with pure composition Target with pure composition First estimate for detailed composition First estimate for detailed composition Respective inherent uncertainties Respective inherent uncertainties New target New target General design goals General design goals Overview

3 24.01.2007 Characterization of the nToF Radioactive Waste 3 The Target…

4 24.01.2007 Characterization of the nToF Radioactive Waste 4 Detailed geometry Detailed geometry target and support, surrounding structure (shielding, cooling basin,…) target and support, surrounding structure (shielding, cooling basin,…) downstream tunnel structure downstream tunnel structure Beam & Irradiation Parameters Beam & Irradiation Parameters Irradiation time: 6 months/year Irradiation time: 6 months/year Proton intensity: 5x7x10 12 p/supercycle Proton intensity: 5x7x10 12 p/supercycle Protons on target: 3.2x10 19 p/year (real average: 1.3x10 19 p/year) Protons on target: 3.2x10 19 p/year (real average: 1.3x10 19 p/year) Activation of target Activation of target specific and total activity as well as expression of the first as multiple of the exemption limits specific and total activity as well as expression of the first as multiple of the exemption limits FLUKA Calculations

5 24.01.2007 Characterization of the nToF Radioactive Waste 5 Geometry Details

6 24.01.2007 Characterization of the nToF Radioactive Waste 6 Target in the Pit Target Earth Pit filled (concrete) Beam Pipe Concrete Marble Beam

7 24.01.2007 Characterization of the nToF Radioactive Waste 7 Measurement Location 0% Co 0.01% Co 0.1% Co Target - Residual Dose Rate

8 24.01.2007 Characterization of the nToF Radioactive Waste 8 Measured Dose Rate: ~15mSv/h Considered Cobald Content: 0.01% Residual Dose Rate Calculations

9 24.01.2007 Characterization of the nToF Radioactive Waste 9 Nuclide inventory Nuclide inventory specific and total activity specific and total activity content of alpha emitters content of alpha emitters Elimination pathway Elimination pathway temporary, intermediate & final storage temporary, intermediate & final storage acceptance by NAGRA/PSI acceptance by NAGRA/PSI maximum alpha content, residual dose ratemaximum alpha content, residual dose rate Transport Transport class A class A contamination, residual dose rate, containercontamination, residual dose rate, container Radioactive Waste

10 24.01.2007 Characterization of the nToF Radioactive Waste 10 Nuclide inventory Nuclide inventory specific and total activity specific and total activity content of alpha emitters content of alpha emitters Elimination pathway Elimination pathway temporary, intermediate & final storage temporary, intermediate & final storage acceptance by NAGRA/PSI acceptance by NAGRA/PSI maximum alpha content, residual dose ratemaximum alpha content, residual dose rate Transport Transport class A class A contamination, residual dose rate, containercontamination, residual dose rate, container Radioactive Waste

11 24.01.2007 Characterization of the nToF Radioactive Waste 11 Target Disposal – Waste Study Specific activity (Bq/g) Specific activity (Bq/g) Specific activity (Multiples of LE) Specific activity (Multiples of LE) Nuclide Vector

12 24.01.2007 Characterization of the nToF Radioactive Waste 12 The FLUKA study is based on the entire nToF operation period (2001-2004) The FLUKA study is based on the entire nToF operation period (2001-2004) Several cooling times were calculated; shown results refer to Mai 2006 Several cooling times were calculated; shown results refer to Mai 2006 Target assumed to be pure lead Target assumed to be pure lead Nuclide Vector Stainless Steel Frame Lead Target (pure Pb)

13 24.01.2007 Characterization of the nToF Radioactive Waste 13 First estimate for detailed composition (NAGRA) First estimate for detailed composition (NAGRA) Simplified geometry, high statistical uncertainties Simplified geometry, high statistical uncertainties Low-alpha content Low-alpha content ~2 Bq/g specific alpha activity (<10kBq/g) ~2 Bq/g specific alpha activity (<10kBq/g) ~1 MBq total activity ~1 MBq total activity To be confirmed by detailed FLUKA calculations To be confirmed by detailed FLUKA calculations Nuclide Vector

14 24.01.2007 Characterization of the nToF Radioactive Waste 14 Residual Dose Rate Maps 3D residual dose rate maps are available for various cooling times 3D residual dose rate maps are available for various cooling times Hotspots are located at the entry and exit point of the beam as well as around the stainless steel support Hotspots are located at the entry and exit point of the beam as well as around the stainless steel support

15 24.01.2007 Characterization of the nToF Radioactive Waste 15 Chemical Composition Chemical Composition accurately known for the Pb (e.g., 19ppm Bi) accurately known for the Pb (e.g., 19ppm Bi) for Steel: “known” from benchmark experiments, confirmed by dose rate measurement and finally to be confirmed during the target removal for Steel: “known” from benchmark experiments, confirmed by dose rate measurement and finally to be confirmed during the target removal Irradiation History Irradiation History beam intensity and irradiation time profile is accurately known beam intensity and irradiation time profile is accurately known Geometry Geometry implemented in a very detailed way implemented in a very detailed way Statistical Uncertainty of MC Calculation Statistical Uncertainty of MC Calculation good statistics for pure lead case good statistics for pure lead case important uncertainties for estimate of the alpha content important uncertainties for estimate of the alpha content to be improved with a more detailed calculation to be improved with a more detailed calculation FLUKA Models – Activation/Residual DR FLUKA Models – Activation/Residual DR well benchmarked for low-mass materials at CERF well benchmarked for low-mass materials at CERF recent comparison for high mass isotopes show a very good overall agreement (see next slide) recent comparison for high mass isotopes show a very good overall agreement (see next slide) Related Uncertainties

16 24.01.2007 Characterization of the nToF Radioactive Waste 16 Related Uncertainties 1 A GeV 208 Pb + p reactions Nucl. Phys. A 686 (2001) 481-524 DataData Old FLUKAOld FLUKA New FLUKANew FLUKA New only when exp data existsNew only when exp data exists One expects an accurate characterization of the nuclide vector for nToF One expects an accurate characterization of the nuclide vector for nToF

17 24.01.2007 Characterization of the nToF Radioactive Waste 17 Characterization of the nuclide vector Specific activities, total activity, residual dose rate (for different cooling times) Characterization of the nuclide vector Specific activities, total activity, residual dose rate (for different cooling times) detailed calculation and good statistics for pure target detailed calculation and good statistics for pure target first estimate for detailed composition first estimate for detailed composition including alpha emitters (showing low levels) including alpha emitters (showing low levels) additional measurements during the target removal additional measurements during the target removal Transport should be performed as Class-A Transport should be performed as Class-A final activation levels are checked final activation levels are checked hot spots of target can be shielded hot spots of target can be shielded Possible elimination pathway all necessary quantities are prepared Possible elimination pathway all necessary quantities are prepared coordinated by NAGRA, to be sent to PSI coordinated by NAGRA, to be sent to PSI details currently prepared (more in the talk of L. Ulrici) details currently prepared (more in the talk of L. Ulrici) Target Disposal – Conclusion

18 24.01.2007 Characterization of the nToF Radioactive Waste 18 Target Design Target Design not in direct contact with the cooling water not in direct contact with the cooling water optimized smaller dimensions optimized smaller dimensions less materialless material minimizes radioactive waste productionminimizes radioactive waste production however, leads to higher contact dose rateshowever, leads to higher contact dose rates –compensated by a respective target container Update of FLUKA calculations Update of FLUKA calculations nuclide inventory nuclide inventory residual dose rates residual dose rates handling procedures handling procedures Inspection of old target is necessary for the final verification Inspection of old target is necessary for the final verification measurements of specific activity and residual dose rates measurements of specific activity and residual dose rates New Target Design Constraints


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