wp3: the neutrino factory costing status
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WP3: The Neutrino Factory Costing Status. Ajit Kurup CERN Costing Workshop 8 th December 2011. Introduction. Progress since last workshop. - PowerPoint PPT PresentationTRANSCRIPT
WP3: The Neutrino Factory
Costing Status
Ajit Kurup
CERN Costing Workshop8th December 2011
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
• Progress since last workshop.
• Go over the PBS and CFPs for each subsystem and outline the key pieces of information needed for the costing (input into spreadsheets for uploading to the Costing Tool), schematic drawings, etc.
• Thanks to Neil Bliss and Norbert Collomb for their engineering input.– I will show some slides that Neil prepared.– Norbert will present work being done on the FFAG and decay rings.
• Areas where we need additional support.
• Future plan.
Introduction
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
Level 3 Breakdown Structure
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
• Ion source to the downstream face of the last magnet of the final focus. – The building housing the final focus is part of the TCD. Ancillary
buildings and services for the final focus are included in the PD.– All transfer lines must be included (e.g. transfer line to the final focus.)
• SPL + rings (Important for EUROnu)– R. Garoby and S. Gillardoni
• ProjectX + rings– K. Gollwitzer
• RAL– J. Pozimski, J. Pasternak and J. Thomason
The Proton Driver
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
Proton Driver Breakdown Structure
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
• From the downstream face of the last magnet of the final focus to the downstream face of the last magnet of the last magnet of the decay section.– Must include space for the final focus and space for H&S for final focus but
actual H&S are included in PD.• Solid target
– R. Edgecock• Powder target
– C. Densham• Liquid target (baseline design and main focus)
– H. Kirk and K. MacDonald– Capture system
• H. Kirk and K. MacDonald and B. Weggle
• Decay section– C. Rogers
The Target , Capture and Decay System
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
Target, Capture and Decay Breakdown Structure
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
• From the downstream face of the last magnet of the decay section to the downstream face of the last module of the cooling section.
• Buncher, phase-rotator and cooling– G. Prior and C. Rogers
The Muon Front-end
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
Muon Front End Breakdown Structure
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
Buncher Breakdown Structure
Buncher
• Buncher section total length 33m• 33 normal conducting RF cavities and
44 superconducting coils• Cavities organised in 13 groups, each
group with the same RF frequency
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
Phase-Rotator Breakdown Structure
Phase Rotation
Two Cells
• Phase Rotation section consists of 56 cells 0.75m in length
• Total section length 42m• 56 normal conducting RF cavities and 56
superconducting coils• Cavities organised in 15 groups of the
same RF frequency over range 230.2 – 202.3 MHz, gradient 12 MV/m.
• Cavity and coil length 0.5m
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
Cooling Channel Breakdown Structure
Cooling• Cooling section consists of 100 cells 0.75m
in length• Total section length 75m• 100 normal conducting RF cavities and 100
superconducting coils• Cavities RF frequency 201.25 MHz,
gradient 15 MV/m.• Cavity length 0.5m, Coil length 0.15m
Two Cells
Be coated
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
• From the downstream face of the last module of the cooling section to the front face of the first magnet of the decay ring injection system.
• Linac, RLA 1 and RLA 2– A. Kurup
• Transfer lines to the FFAG– J.S. Berg
• FFAG– J.S. Berg and N. Bliss
• μ+ μ- transfer lines to the decay rings– J.S. Berg
The Muon Acceleration System
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
Muon Acceleration Breakdown Structure
Pre-linac and RLAs
RLA I
RLA II
Pre-linac
244 MeV
900 MeV
3.6 GeV
3.6 GeV
12.6 GeV
86 m0.6 GeV/pass
255 m2 GeV/pass
0.9 GeV
3.6 GeV
202 m
Beam enters both RLAs at the linac centre and exits at the right hand side. 4.5 passes in each RLA.
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
Linac Breakdown Structure
Pre-linac (244-900 MeV)
1.5 Tesla solenoid 2 Tesla solenoid Cavity R = 230 mmGradient 15 MV/m
202 m24 x 3m cryogenic modules 26 x 5m cryogenic modules
3000 mm 5000 mm
72 m0 m
72 m 130 m
µ beams
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
Transfer Line Breakdown Structure
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
RLA Breakdown Structure
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
RLA Breakdown Structure
RLA 1 Arc 1 and Arc 3
1.2 GeV
2.4 GeV
1.2 GeV2.4 GeV
side view
300°
4 x dipoles for vertical offset
2 x 30° dipoles
20 x 15° dipoles
18 x dipoles
37 quadrupoles
35 x quadrupoles
2 x 30° dipoles
RLA 1 Arc 2 and Arc 4
1.8 GeV
3 GeV
1.8 GeV
3 GeV
side view
Extraction - Injection Lines
1 m
1.75 m
Pre-Linac and RLA I to RLA II …Multistory configuration
3 GeV
1.8 GeV1.2 GeV
3.6 GeV
244 MeV
900 MeV
2.4 GeV
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
Transfer Line Breakdown Structure
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
RLA 2 Breakdown Structure
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
Transfer Line Breakdown Structure
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
FFAG Breakdown Structure
FFAG RF Source & Distribution
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
FFAG to Decay Rings Transfer Line Breakdown Structure
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
• Front face of the first magnet of the injection line through the whole ring, including all diagnostic/detector devices and the beam abort.
• MDR 1 and MDR 2– D. Kelliher and N. Collomb
The Muon Decay Rings
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
Decay Rings Breakdown Structure
Muon Decay Ring
RLA II3.6 – 12.6 GeVPre Linac
244 – 900 MeV
FFAG12.6 – 25 GeV
RLA I0.9 – 3.6 GeV
Cooler
Rotator
BuncherTarget
Protons Muons
Neutrino Beam
Neutrino Beam
Muo
n D
ecay
Rin
g
Target to Muon Decay Rings
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
• RF
• Cryogenics
• Vacuum
• Civil
• Shielding
Areas Where We Need Support
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WP3: The Neutrino Factory Costing Status
CERN Costing Workshop 8th December 2011Ajit Kurup
• Work on inputting information into the spreadsheets and the costing tool.
• Work out what information (and format) for EDMS.
• Get engineering input for the components and pricing.• Write baseline description document and schedule
CERN reviews.• June 2012
– Complete design (i.e. no holes) with cost estimates for components.
– Costing of all buildings, tunnels and services.
Plan