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Global Design Effort - CFS Oct-20-2010IWLC2010 1 ML Single Tunnel Cross Section GDE Asian Regional Team KEK A. Enomoto.

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Presentation on theme: "Global Design Effort - CFS Oct-20-2010IWLC2010 1 ML Single Tunnel Cross Section GDE Asian Regional Team KEK A. Enomoto."— Presentation transcript:

1 Global Design Effort - CFS Oct-20-2010IWLC2010 1 ML Single Tunnel Cross Section GDE Asian Regional Team KEK A. Enomoto

2 Global Design Effort - CFS Oct-20-2010IWLC2010 2 Contents of Presentation -Boundary condition for single tunnel design - LHC, XFEL Example - Asian Team Design status

3 Global Design Effort - CFS Oct-20-2010IWLC2010 3 Main Linac (ML) RF Unit in RDR - Double-tunnel accelerator configuration - AC plug-in power: 150 kW Output pulse: 120 kV x 130 A = 15.6 MW peak, 1.6 ms, 5 Hz Averaged output power: 124.8 kW Modulator Efficiency: 83% Power loss: 25.2 kW Input RF power: ~100 W Input DC pulse: 15.6 MW peak, 1.6 ms, 5 Hz Output RF pulse: 10 MW peak, 1.565 ms, 5 Hz Averaged output power: 78.25 kW Klystron Efficiency: 65% Power loss: 46.55 kW Power Loss: ~5.6 kW (7%) Service Tunnel Beam Tunnel 37.956 m e- ML294 RF units e+ ML290 RF units Total584 RF units Field gradient:31.5 MV/m Energy gain per RF unit :850 MeV (with 22% tuning overhead)

4 Global Design Effort - CFS Oct-20-2010IWLC2010 4 RDR ML RF Unit - Double Tunnel Section -

5 Global Design Effort - CFS Oct-20-2010IWLC2010 5 RDR ML RF Unit - Service Tunnel- 35.10 m Thanks to the FNAL Facilities Engineering Services Section for AutoCAD data!

6 Global Design Effort - CFS Oct-20-2010IWLC2010 6 Cryomodule Assembly with waveguides for DRFS (Beam Tunnel) (Drawing y Matsushita, KEK, RF group)

7 Global Design Effort - CFS Oct-20-2010IWLC2010 7 Clearance Height Transport Space Space reservation for survey Determination of Tunnel Diameter (for Single Tunnel in floor-mount DRFS)

8 Global Design Effort - CFS Oct-20-2010IWLC2010 8 ILC Cryomodule S1-Global Cryomodules are compatible with each other.

9 Global Design Effort - CFS Oct-20-2010IWLC2010 9 12-m cryostats are combined in tunnel to form a “string”. ILC Cryomodule

10 Global Design Effort - CFS Oct-20-2010IWLC2010 10 Ceiling CM Example Euro-XFEL @DESY XFEL Design Report

11 Global Design Effort - CFS Oct-20-2010IWLC2010 11 XFEL Design Report  5200 mm 645 mm Ceiling CM Example Euro-XFEL @DESY

12 Global Design Effort - CFS Oct-20-2010IWLC2010 12 CM diameter is almost the same! 2335 mm 1700 mm 870 mm 1000 mm Floor CM Example LHC  3800 Tunnel

13 Global Design Effort - CFS Oct-20-2010IWLC2010 13 Floor CM Example LHC  3800 Tunnel # Equipment name# 1Machine cryostat20General services safety 2QRL jumper22General services phones 3Helium warm ring line DN10023Lighting 4Helium recovery line DN15024Electrical powering for transport 5EDA DN15026Space reserved for transport 6EDR DN15028Space reserved for survey 7Water filling DN6529Protection barriers 10Cable tray1 (general services)#Space reserved for an e- machine 11Cable tray3 (power and optical fibers)31Beam loss monitor 12Cable tray2 (signals)33Cable tray 5 (dispersion suppressors) 14Vacuum pumps42Vacuum pumping mobile group 15Electronics chassis81Cablefil 17 Optical fibers  40 83Telex 19Communications antenna cable

14 Global Design Effort - CFS Oct-20-2010IWLC2010 14 Floor CM Example FNAL Project X Test Facility 1846 mm 1222 mm 1219 mm 4826 mm CM1_TUNNEL_XSEC (Materials from Jerry Leibfritz)

15 Global Design Effort - CFS Oct-20-2010IWLC2010 15 Floor CM Example FNAL Project X Test Facility CM1_TUNNEL (Photos from Jerry Leibfritz)

16 Global Design Effort - CFS Oct-20-2010IWLC2010 16 Discussion at KEK for the clearance from Tunnel Wall

17 Global Design Effort - CFS Oct-20-2010IWLC2010 17 Clearance ~500 mm is minimum Current Conclusion for Clearance from Tunnel Wall-

18 Global Design Effort - CFS Oct-20-2010IWLC2010 18 Vacuum pump space was discussed. The present space seems enough to have it under the module body. Cryomodule Position (2) - Clearance from the Floor - Clearance ~960 mm @ Beamline height of ~1200 mm

19 Global Design Effort - CFS Oct-20-2010IWLC2010 19 Space Reservation for Alignment

20 Global Design Effort - CFS Oct-20-2010IWLC2010 20 Space Reservation for Alignment This area should be discussed with machine alignment people.

21 Global Design Effort - CFS Oct-20-2010IWLC2010 21 Transport Space XFEL CM Transporter 1400 mm

22 Global Design Effort - CFS Oct-20-2010IWLC2010 22 Transport Space for STEP files to convert design data from IDEAS to INVENTOR. Parts files exceed more than 2600. Thanks to XFEL design team !

23 Global Design Effort - CFS Oct-20-2010IWLC2010 23 Space Reservation for Alignment This area should be discussed with machine alignment people. 1700 mm

24 Global Design Effort - CFS Oct-20-2010IWLC2010 24 Asian Team Design Status 3-D ML DRFS Tunnel Section

25 Global Design Effort - CFS Oct-20-2010IWLC2010 25 DRFS Single Tunnel Section Dimensiona 1800 mm 500 mm

26 Global Design Effort - CFS Oct-20-2010IWLC2010 26 DRFS 2-D Plan & Elevation

27 Global Design Effort - CFS Oct-20-2010IWLC2010 27 Single Tunnel with RDR-HLRF

28 Global Design Effort - CFS Oct-20-2010IWLC2010 28 Single Tunnel with RDR-HLRF

29 Global Design Effort - CFS Oct-20-2010IWLC2010 29 Single tunnel configuration was discussed with the RDR- type HLRF system and with the DRFS type. The ILC cryomodule positioning in the single tunnel was discussed referring to examples (XFEL, LHC, Project X, S1 Global) Asian Team design with 3-D approach has been well progressed during the half period of FY2010. Summary

30 APPENDIX Boundary conditions and guidelines for design works 30

31 ML Single-Tunnel Configuration - Distribute RF System (DRFS) - 31 Power Loss: ~5.6 kW (7%) Beam Tunnel e- ML282 RF units e+ ML278 RF units Total560 RF units Field gradient31.5 MV/m Energy gain per RF unit 850 MeV (with 22% tuning overhead)

32 ML RF Unit - Distributed RF System (DRFS) - 32 X 26.336 m (~70%) 11.62 m ~5.4 m (L) (every 4 th units) Beam / Service Tunnel 37.956 m 35.100 m Alcove (Every 4 th Units, 152 m) X X One big HV klystron replaced by 13 small klystrons Cooling Water Skid and Common Electricity 1.6 m (W) 2.438 m (H) 11:30-12:00Shigeki Fukuda, HLRF Requirements

33 Safety Euro-XFEL @DESY XFEL Design Report

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