fp 420 connection cryostat design and integration
DESCRIPTION
FP 420 Connection Cryostat Design and Integration. Keith Potter, Jaak Lippmaa, Guido Ryckwaert, Benoit Florin, Thierry Renaglia, Thierry Colombet, Shrikant Pattalwar, Domenico Dattola. Torino 11-12 July 06. FP 420 Cryostat Design and Integration. - PowerPoint PPT PresentationTRANSCRIPT
FP 420 Connection Cryostat Design and Integration
Keith Potter, Jaak Lippmaa, Guido Ryckwaert, Benoit Florin, Thierry Renaglia, Thierry Colombet, Shrikant Pattalwar,
Domenico Dattola.
Torino 11-12 July 06
FP 420 Cryostat Design and Integration. Torino 11-12/07/06 2D. D. INFN To/CERN PH CMM
FP 420 Cryostat Design and Integration
Integration into the machine tunnel with existing equipment and reserved volumes – Cryo distribution line (QRL)– Tunnel Services, cable trays, cables and piping– Transport reservation– Alignment lines of sight
• Integration of services and detector on the new connection cryostat with warm beam pipes– Vacuum sector valves, pumps, vacuum gauges, diagnostic ports– Detector Interfaces– Detector cooling and services
• Assembly, transport and installation– First Installation must not take longer than the normal 3-4 month winter
shutdown Assembly the complete connection cryostat in surface hall. Structural Beam to assembly together Terminal Module (ATM) and
support cryogenics continuity lines, detectors positioning system, radiation shielding.
FP 420 Cryostat Design and Integration. Torino 11-12/07/06 3D. D. INFN To/CERN PH CMM
Typical tunnel section.
FP 420 Cryostat Design and Integration. Torino 11-12/07/06 4D. D. INFN To/CERN PH CMM
FP420 Connection Cryostat in tunnel.
FP 420 Cryostat Design and Integration. Torino 11-12/07/06 5D. D. INFN To/CERN PH CMM
Vacuum Instrumentation (VAA) on Reshuffling Module of Distribution Feed Boxes (DFB)
Vacuum Instrumentation (VAA)
FP 420 Cryostat Design and Integration. Torino 11-12/07/06 6D. D. INFN To/CERN PH CMM
DFB Vacuum Equipment (VAA)
Visit DFB Vacuum Assembly Facilities. (Keith Potter, Michele Arneodo, Detlef Swoboda, Benoit Florins, Guido Ryckewaert)
FP 420 Cryostat Design and Integration. Torino 11-12/07/06 7D. D. INFN To/CERN PH CMM
RF all metal gate valve
FP 420 Cryostat Design and Integration. Torino 11-12/07/06 8D. D. INFN To/CERN PH CMM
ATM Reshuffling Module. X Line
Superfluid He (X) Line. Existing raw interfaces
FP 420 Cryostat Design and Integration. Torino 11-12/07/06 9D. D. INFN To/CERN PH CMM
X line continuity
There is not continuity for the super-fluid He (X line) on the existing module. It can be added on existing raw interfaces in the reshuffling module.
A straight line between ATM flanges has been considered.
A: aligned to contiguous element B:Moved aside by 180 mm to allow easy accessibility to detectors
FP 420 Cryostat Design and Integration. Torino 11-12/07/06 10D. D. INFN To/CERN PH CMM
X Line Continuity new proposal. (I)•Previously layouts not compatible with Beam vacuum equipment.
Move X Line away by curved piping between ATM flanges
FP 420 Cryostat Design and Integration. Torino 11-12/07/06 11D. D. INFN To/CERN PH CMM
X Line Continuity new proposal. (II)
Detail on next slide
•Distance between flanges of reshuffling modules: 9810 mm
•Reserve to vacuum equipment 700mm per side. Available space for detectors ~ 8410 mm
Instrumentation must sectorise the warm and cold vacuum systems and provide roughing pumping/venting and UHV pumping of the warm vacuum system for both beams, independently. In addition it should provides tools to monitor the status and quality of each beam vacuum.
Combination of valve, pump and pressure gauges, as is on DFB modules (VAA), would occupy about 700 mm
FP 420 Cryostat Design and Integration. Torino 11-12/07/06 12D. D. INFN To/CERN PH CMM
X Line Continuity new proposal. (III)
FP 420 Cryostat Design and Integration. Torino 11-12/07/06 13D. D. INFN To/CERN PH CMM
X Line Continuity new proposal. (IV)
FP 420 Cryostat Design and Integration. Torino 11-12/07/06 14D. D. INFN To/CERN PH CMM
Assembly Structure (I)
FP 420 Cryostat Design and Integration. Torino 11-12/07/06 15D. D. INFN To/CERN PH CMM
Assembly Structure (II)
AA AA
Top side view
A-A view
FP 420 Cryostat Design and Integration. Torino 11-12/07/06 16D. D. INFN To/CERN PH CMM
Conclusion (next steps)
• Get detailed drawing of tunnel layout in all the 8 zone. Check QRL.
• Study on feasibility of 3rd proposal of X line routing. Design Interconnection inside shuffling module.
• Adapt Vacuum equipment- (R Veness ?) • Cryostat Assembly Beam – Transport Handling
Frame ?
FP 420 Cryostat Design and Integration. Torino 11-12/07/06 17D. D. INFN To/CERN PH CMM
ATM various pic. and fig.
FP 420 Cryostat Design and Integration. Torino 11-12/07/06 18D. D. INFN To/CERN PH CMM
DFP Arc Termination Module (ATM) in LHC
FP 420 Cryostat Design and Integration. Torino 11-12/07/06 19D. D. INFN To/CERN PH CMM
ATM DFB interface I
FP 420 Cryostat Design and Integration. Torino 11-12/07/06 20D. D. INFN To/CERN PH CMM
ATM DFB interface II
FP 420 Cryostat Design and Integration. Torino 11-12/07/06 21D. D. INFN To/CERN PH CMM
ATM DFB interface III