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ISIS Target studies Could a used ISIS target provide fusion relevant irradiated tungsten material properties? Tristan Davenne 20 th May 2015 2 nd Radiate.

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Presentation on theme: "ISIS Target studies Could a used ISIS target provide fusion relevant irradiated tungsten material properties? Tristan Davenne 20 th May 2015 2 nd Radiate."— Presentation transcript:

1 ISIS Target studies Could a used ISIS target provide fusion relevant irradiated tungsten material properties? Tristan Davenne 20 th May 2015 2 nd Radiate Meeting Oxford University

2 TS1 core FLUKA geometry Geometry includes 12 tantalum clad tungsten plates and heavy water channels in between. Does not include stainless steel water manifolds on side of target.

3 TS1 energy deposition and FLUKA dpa Variation of dpa across a target plate Variation of dpa through out target

4 Target Activity Total target activity calculated from simple FLUKA model Irradiation profile interpreted for FLUKA http://hepunx.rl.ac.uk/uknf/wp3/hidden/ goran/ISIS_jobs/01_TrgtInven/ts1_w1_ac t.pdf Irradiation profile of TS1-W1 from Goran Skoro’s report Total target activity from Goran Skoro’s report

5 Peak Target Activity Maximum activity in target 1.2e13 Bq/cc imeadiately after irradiation 2.1e11 Bq/cc after 1e8s or for tungsten 1.1e10Bq/gram after 1e8s (i.e. 10GBq/gram) Activity after 1e8s

6 How many neutrons can you get per incident proton from a spallation target? ≈ 18 neutrons/proton for a 30cm long 10cm diameter tungsten cylinder

7 Fusion neutron spectra according to Mark Gilbert et al. J Nuc Fusion 2012 In fusion reactor DEMO expect 1e15 neutrons/cm 2 /s/lethar gy interval in first wall tungsten armour

8 FLUKA simulation of neutron yield from ISIS target core TS1 yields 3 neutrons per proton above 1MeV TS1 W1 ran with 1e15 protons/s for 1e8s, i.e. 1e23protons, so about 3e23 neutrons produced Compare with expected neutron spectrum in a fusion reactor At 14MeV TS1 W1 had 2e22 neutrons/lethargy interval Assume neutrons uniformly spread over Target surface of 2000cm2 Gives 1e19 neutrons/cm2/lethargy interval In fusion reactor DEMO expect up to 1e15 neutrons/cm2/s/lethargy interval

9 Consider neutron flux through a corner of plate 1 of TS1 At 14MeV TS1 W1 plate 1 sample corner has seen 1e20 neutrons/cm 2 (Irradiated at about 330K) First wall armour tungsten exposed to 1e15 neutrons/cm 2 /s integrated flux in sample corner equivalent to 1e5s of operation – 28hours Next calculation – helium and hydrogen production through out target Beam Tungsten sample corner 2cm

10 PNNL have made an offer to do PIE on TS1 W1 and TS2 -Container or cask for receipt of target, size and cost depends on activity of target -Initial size reduction requiring band saw capability in hot cell -Visual examination with cameras (routine) -Precision sectioning requiring installation of an EDM -Waste disposal PIE then to include -Thermal conductivity -Mechanical properties -Microscopy

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