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A Materials Evaluation Neutron Source Based on the Gas Dynamic Trap (DTNS) One Element in an Urgently Needed Comprehensive Fusion Materials Program Based.

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Presentation on theme: "A Materials Evaluation Neutron Source Based on the Gas Dynamic Trap (DTNS) One Element in an Urgently Needed Comprehensive Fusion Materials Program Based."— Presentation transcript:

1 A Materials Evaluation Neutron Source Based on the Gas Dynamic Trap (DTNS) One Element in an Urgently Needed Comprehensive Fusion Materials Program Based on a Mirror Status Workshop Berkeley, CA. Sept. 8-9, 2008 25 Participants - 6 Labs. and 5 Universities - Japan & Russia T. C. Simonen, Chair Renews Workshop March 2-6, 2009

2 The Simple Axisymmetric Mirror A Physics & Engineering Game Changer Simple magnet geometry stabilized by plasma exhaust –Physics established: Novosibirsk GDT Device – 60% beta, Te, classical –Extrapolates to a Dynamic Trap D-T Neutron Source (DTNS) –~ 2 MW/m2 Neutron Flux, ~2 m2 Area, ~100 Liter Volume –Simple Geometry, Ease of Construction & Maintenance –Addresses Greenwald Gaps 10 & 13 and Initiative 7 Neutron Source

3 3 GDT at Novosibirsk, Russia 12 m Long with Large End Tanks to Decouple Te

4 One Version of DTNS Showing Magnets, Shielding,Neutral Beams, and Material Samples (Bobouch, Fusion Science & Tech. 41 (2002) p44)

5 Neutron Flux Scales With Te to 4 MW/m2 (for various NBI energies)

6 DTNS Could Produce ITER-Like Neutron Energy Spectra (Fischer, A.Moslang, A.Ivanov, FE&D 48 (2000) p.307)

7 DTNS Would Operate at Higher Magnetic Field, Neutral Beam Energy, and Power than GDT GDT AchievedDTNS Design Beta (%)60 Beam Power (MW)430 Beam Energy (kV)2080 Ion Energy (keV)1040 Electron Temp (eV)230750 Density (10e20 m-3)14 Energy Confinement Time (ms) 22 Pulse Duration5 mscw

8 DTNS Has Two Test Zones Neutron Flux concentrates in regions of beam ion Turning Points –One Zone could test many material samples –One Zone could test Sub-components

9 Small Material Sample Test Assembly (Holds ~8,000 Temp. Controlled Specimens) ref: U. Fisher, A. Moslang, A.A. Ivanov, FE&D 48 (2000) p307

10 Monte Carlo Calculation Indicates Uniform Radial-Axial Neutron Flux (r-uniformity < 5%/cm, z-uniformity < 0.1%/cm)

11 Materials Testing Neutron Sources RTNS D-T 82-87 IFMIF D+Li DTNS D-T FDF/CTF D-T Neutron Power (MW) 20 W? 2+100-300 30-160 Flux (MW/m2)0.21.5 2+2 - 3 1 - 3 Area (m2).00010.01 2 70 15 Tritium (kg/FPY)~00 0.15~2 to 20 without breeding Cost ($M) FY081000325-650? 1500

12 Summary– The DTNS is an Attractive D-T Neutron Source That Closes Gaps 10 & 13 and Initiative 7 for Materials Testing ITER-Like Neutron Energy Spectrum Produces 1-4 MW/m2 Provides ~2 m2 Test Area Provides ~100 Liter Test Volume Uniformity < 5%/cm

13 Suggested Next Steps Collaboration with Novosibirsk GDT –Diagnostics (Thomson Scattering, …) –GDT-Upgrade (4 MW to 10 MW) Theory-Modeling to –Extrapolate to DTNS (Te, MHD, DCLC, TPM ) –Seek More Efficient Design (end cells) –Deploy US Theory Capabilities (e.g. UTexas, LLNL, LANL, Lehigh, etc, etc) Initiate DTNS Design Construct DTNS (could be phased)

14 Additional Benefits of DTNS Activity DTNS Physics Has Much in Common with Other Confinement Systems Tests Existing Modeling Capability in Very Simple Geometry More Efficient DTNS (end cells) Leads to a Fusion-Fission Hybrid Benefits Outside Magnetic Fusion Fosters International Collaboration

15 References Gas dynamic trap as high power 14 MeV neutron source, P.A Bagryansky, et. al. Fusion Engineering and Design 70 (2004), p13-33 Assessment of the gas dynamic trap mirror facility as intense neutron source for fusion material test irradiations, U. Fischer, A. Moslang, A.A. Ivanov, Fusion Engineering and Design, 48 (2000) p307-325


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