hi-lumi wp3 meeting cryostats some ideas for the new q1 to q3 october 22, 2013
DESCRIPTION
Hi-Lumi WP3 meeting Cryostats Some ideas for the new Q1 to Q3 October 22, 2013. Baseline assumptions. No jumper on IP-side Return lines inside the magnet’s cryostat (1.9 K pumping, shield, quench/cooldown,…) C old mass diameter: 630 mm - PowerPoint PPT PresentationTRANSCRIPT
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Hi-Lumi WP3 meeting
CryostatsSome ideas for the new Q1 to Q3
October 22, 2013
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MQXFMQXFMCBXDMQXFLMQXFLMCBXDMQXFMQXFMCBXCMCQSX3a2
MCTX3
b6MCTSX3a6
MCDX3b5
MCDSX3a5
MCOX3b4
MCOSX3a4
MCSX3b3
MCSSX3a3
MBXF
Baseline assumptions
No jumper on IP-side Return lines inside the magnet’s cryostat (1.9 K pumping,
shield, quench/cooldown,…) Cold mass diameter: 630 mm Sliding sleeve with flanges for access to interconnect Cryostat on motorised jacks (must be of new design), no tie-
rods, similar alignment stability requirements as now First ideas without busbars routing/interconnection (must be
addressed soon)
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Current cryostat cross sectionHeat
exchanger
Pumping lineQuench line
Thermal shield cooling
“Spider” support
Cold mass
OD 1055
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Pipe specifications (preliminary)
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Cryo spec* Possible standard dimensions MaterialOD thickness ID
HeII in (Y1) 12 copperHeII in (Y2) 12 copperHeII out (pumping line) 97 106 3 100 1.4432, weldedBS in (C') 20 23 1.5 20 1.4404, seamlessBS capillaries (4x) 6.5Quench return line 40 44.5 2 40.5 1.4404, seamlessShield in (E ) 30 35 2.5 30Shield out (F) 30 35 2.5 30Bayonet HX-1 68 copperBayonet HX-2 68 copper*by Rob Van Weelderen
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He II out (pumping line)
Quench return
Shield cooling (inlet + outlet)
Beamscreen inlet (C’)
Cold mass
Clearance for orbital welding machines
Standard diameter & centered cold mass
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Standard diameter & downward offset cold mass
Support post not feasible, suspended system not promising
Very tight piping integration
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Standard diameter & upward offset cold mass
Short support post → higher heat load
Difficult piping integration (if at all possible), also at the phase separator region
Complicated cryostating work
No margin from the start!...
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Increased diameter & centered cold mass
Maximum transport width in the tunnel is 1250 mm, simulation needed (C. Bertone)
Simplest cryostat shape
Short support post → higher heat load
Piping integration ok!
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Standard support post
Piping integration ok
Complication of phase separator to pumping line connection (pumping must be above phase separator)
Incerased diameter & upward offset cold mass
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Elliptical cryostat
Simplified piping integration
Standard transport width
Standard support post
Interconnect sleeve is the main challenge (in contact with industry)
Cold mass can be centered
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Integration in the tunnel: large cylindrical vs elliptical On integration CAD models both cylindrical and elliptical versions seam ok (C.
Collazos) . Elliptical has the advantage of easier access for personnel on the sides.
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Conclusion
Large cold mass and size of the pumping line → a standard 1055 diam. cryostat is most likely not possible
Enlarged cylindrical cryostat complicates transport, integration and access in the tunnel: Integration and transport simulation studies required
Elliptical cryostat complicates the interconnect sleeve: contacts on-going with industry to address design/fabrication issues
Busbar rounting and interconnection study should start as soon as possible
Cryogenics P&ID needed to proceed with the conceptual study of the various cryostats
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