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PROGRESS REPORT OF A NLNS-FFAG ADS MAGNET

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Presentation on theme: "PROGRESS REPORT OF A NLNS-FFAG ADS MAGNET"— Presentation transcript:

1 PROGRESS REPORT OF A NLNS-FFAG ADS MAGNET
F. Meot, W. T. Weng, W. Z. Meng, BNL C. Johnstone, PAC PASI-II, RAL, UK April 3-5, 2013

2 OUTLINE Introduction Machine Parameters Magnet Parameters and Design
Cost Estimate of the Magnet Possible Iteration Summary and Conclusion

3 Ingredients of a Complete FFAG
Acceptable Lattice Design( tunes, isochronous, dynamical aperture, component space, etc., …) RF System and Power Source Magnet System and Power Supply Injection/Extraction Ion source and Front End Systems Beam Dynamics( space charge, loss rate, radiation protection, .. ) and Performance Simulation Manufacturing process and cost This report focus on Magnet design performed at BNL

4 Performance Requirements

5 Performance Requirements-2

6 Ring Layout

7 Radius

8 Orbit from Injection

9 Magnet Length

10 BNL’s Magnet Cost Study

11 Input Parameters

12 OPERA 2-D and 3-D Run Preliminary magnet parameters:
Gap: cm (1.75 center (R=x=630 cm) (Required: 2 R=550 cm; 1.5 R=710 cm) Bending angles: at larger radius (for extraction energy) is 60º; at smaller radii could be much less than 60º Pole width: 185 cm (along the radial direction) Yoke thickness: 105 cm (inner); 85 cm (outer); 94 (top); with cuts Ampere-turn required: 36,400 A-t (per coil) ( giving ~ 20% saturation) Nominal coil cross-section: 10 (H) x 28(V) cm (overall J = 130 A/cm**2); (assuming water cooled; 50% volume copper)

13 Flux Plot

14 Field (By) plot (unit: cm, gauss) Required B~1
Field (By) plot (unit: cm, gauss) Required B~1.5 T at R = 550 cm and B~1.9 T at R = 710 cm

15 Steel Shape Steel (1006) estimate: Weight ~5.17E5 kg
(including “field clamps”) Envelope size: Height 2.56 m Width 3.99 m Arc-Length 9.17 m (outer) 4.99 m (inner) Field Clamp

16 Coil Configuration

17 Steel Assembly Drawing

18 Rough Cost Estimate Based on 8 pieces machined core assembly
of a 500 T magnet, it cost about $4.5M. A FFAG ring of 6 magnets will cost $27M. Worry about effects of excessive weight on manufacturing, assembly, transportation, floor loading, and cost indicates the need for possible improvement, through iterative process with lattice, Inj/Ext, and RF design.

19 Possible Improvements
More Cells( 8 or 10 ) Smaller Gap Lower Energy S. C. Magnet

20 Conclusion and Future Works
A methodology has been established to do magnet design and cost estimate. Possible future works Are: Finalize lattice and Magnet Parameters Optimize Magnet Design, including proper Chamfer and Shims with 3-D code Confirm Lattice with ZGOUBI Code Build a Prototype Magnet

21 References S. L. Sheehy, C. Johnstone, “A 1 GeV CW FFAG High Intensity Proton Driver”, IPAC2012 C. Johnstone, P. Snopok, F. Meot, W.T. Weng, “1 GeV CW Non-scaling FFAG For ADS”, IPAC2012 F. Meot, et. Al., “Variable Energy Protontherapy FFAG Accelerator”, EPAC2008

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