FP 420 Connection Cryostat Design and Integration Keith Potter, Jaak Lippmaa, Guido Ryckwaert, Benoit Florin, Thierry Renaglia, Thierry Colombet, Shrikant.

Slides:



Advertisements
Similar presentations
Thierry RENAGLIA / Ramon FOLCH FP420 Manchester Workshop December 2006 FP420 Connection Cryostat Mechanical Design & Construction Key capabilities of CERN.
Advertisements

19th – 20th of September 2007Cryogenic Expert Meeting at GSI, Jan Patrick Meier1/11 Cryogenic Experts Meeting at GSI, 2007 The SIS 100 Cryogenic Jumper.
Laboratori Nazionali di Legnaro (Italy) DTL design status A. Pisent.
Improved anchoring of SSS with vacuum barrier to avoid displacement Ofelia Capatina (speaker), Katy Foraz (coordinates all the activities), Antonio Foreste,
MODULE TRANSPORT CLIC Module Working Group 27 September 2010 Keith Kershaw CERN EN-HE.
ColUSM #51 30 th January, 2015 D. Duarte Ramos, C. Mucher, L. Gentini, T. Sahner, H. Prin, R. Wawrowski, Q. Deliege, V. Baglin, F. Savary.
A. Perin, CERN, TE-CRG, 26 May Review of the cryogenic by-pass for the LHC DS collimators 26 May 2011 Modifications to the DFBs, DSLC and cryogenic.
Crab Cavities in IR1 and IR5 Some considerations on tunnel integration What will be the situation in the tunnel after the LHC IR Phase-1 Upgrade. What.
Possible Assembly and Test of the Crab cryomodule in SM18 at CERN P. Maesen LHC Crab Cav meeting, 17 Sep’ 09 LHC-CC09Cryomodule Assembly & Test Stand.
HLTC 15 th April 2014 EDMS: Y. Muttoni EN-MEF-INT with the contribution of P. Fessia.
1 Integration of collimators in the dispersion suppressors Status of 11 T cryo- assembly integration Dec 17, 2013
1 Presented at ColUSM by D. Ramos on behalf of the Cold Collimator Feasibility Study Working Group Longitudinal.
SPL cryo-module conceptual design review Cavity, helium vessel and tuner assembly N. Valverde, G. Arnau, S. Atieh, I. Aviles, O. Capatina, M. Esposito,
ILCTA_NML Progress at Fermilab Jerry Leibfritz September 10, 2007.
MQXF Cold-mass Assembly and Cryostating H. Prin, D. Duarte Ramos, P. Ferracin, P. Fessia 4 th Joint HiLumi LHC-LARP Annual Meeting November 17-21, 2014.
FP420 Vacuum Ray Veness. Contents o What is FP420? o How would it be installed in the LHC? o What would it look like? o What are the issues/interest for.
SCU Segmented Cryostat Concept M. Leitner, S. Prestemon, D. Arbelaez, S. Myers September 2 nd, 2014.
LHC Insertions Upgrade Working Group (LIUWG) Space available in tunnel Y. Muttoni.
23 rd WP8 Bi-weekly meeting Lukasz Krzempek (TE-VSC-DLM) TAS-Q1 – vacuum equipment design.
Experimental Sectors Ray Veness / AT-VAC With many thanks to G.Foffano + W.Cameron TS/MME Patrick Lepeule / AT-VAC.
Booster and Collider SC magnets. Design & prototyping of UHV and cryostat systems for Booster and Collider A.Smirnov JINR, Dubna, Russia NICA Machine Advisory.
56 Mhz Vacuum Mike Mapes Mhz Insulating Vacuum TURBO PUMP WITH GATE VALVE AND GAUGE SET MOUNTED ON TANK SIMILAR TO RHIC CRYOSTAT & VALVE.
Integration studies – Part 1 Inner triplet Y. Muttoni TS-ICC-LI 31 July 2008.
Shrikant_Pattalwar TTC 2015 Dec 1, 2015 SLAC 1 Horizontal Tests in a Vertical Cryostat Shrikant Pattalwar STFC Daresbury Laboratory UK.
SKEKB Mini Work SKEKB Vacuum System – Arc Section – Contents Y.Suetsugu KEKB Vacuum Group 1.Beam Chambers 2.Pumps: Pump, Pressure,
9/17/07IRENG071 Cryogenic System for the ILC IR Magnets QD0 and QF1 K. C. Wu - BNL.
FP420 R&D Project – Brainstorming session on mechanics 28 March 06 1 D. D. INFN To/CERN PH CMM FP420 Integration Environment.
1 Sector Test – Preparation Layout in LSS7 Jan Uythoven (AB/BT) Thanks to Mike Lamont and the other ‘sector testers’
The HiLumi LHC Design Study (a sub-system of HL-LHC) is co-funded by the European Commission within the Framework Programme 7 Capacities Specific Programme,
AFP-HPS /03/ D. D. INFN To/CERN PH UCM HPS240. Integration of Moving Beam Pipe and detector box. 1. Re-collection Layout of moving beam pipe.
Global Design Effort - CFS Oct IWLC ML Single Tunnel Cross Section GDE Asian Regional Team KEK A. Enomoto.
Cryostat & LHC Tunnel Slava Yakovlev on behalf of the FNAL team: Nikolay Solyak, Tom Peterson, Ivan Gonin, and Timergali Khabibouline The 6 th LHC-CC webex.
The integration of 420 m detectors into the LHC
LHC Cryostat evaluation Nikolay Solyak Thanks Rama Calaga, Tom Peterson, Slava Yakovlev, Ivan Gonin C11 workshop. FNAL, Oct 27-28, 2008.
Installation of the T600 at Fermilab CSN2, September 22,
Interface of FP420 to LHC FP420 meeting 28-Sep-2006.
HL-LHC 11 T Dipole for DS Collimation 8 th to10 th December, 2014 D. Duarte Ramos, C. Mucher, L. Gentini, T. Sahner, H. Prin, R. Wawrowski, F. Savary,
TE-CRG Activities D. Delikaris, TE-CRG.
Date 2007/Sept./12-14 EDR kick-off-meeting Global Design Effort 1 Cryomodule Interface definition N. Ohuchi.
SPL cryomodule specification meeting, CERN 19th October 2010 SPL cryomodule specification: Goals of the meeting SPL cryomodule specification: Goals of.
S1-Global status report KEK Norihito Ohuchi 2008/11/171ILC08-GDE-Meeting-Chicago.
8/29/07K. C. Wu - Brookhaven National Lab1 Major Components in ILC IR Hall Interchangeable Detectors.
LHC Machine Advisory Committee Meeting no.19 QRL status 16 June 2006 G. Riddone, AT-ACR On behalf of the QRL team.
CW Cryomodules for Project X Yuriy Orlov, Tom Nicol, and Tom Peterson Cryomodules for Project X, 14 June 2013Page 1.
SM18 Vertical & Horizontal Test 110/12/2013Mathieu Therasse CERN BE/RF A. Benoit, O. Brunner, E. Jensen, A. Macpherson, P. Maesen, K. Schirm, W. Venturini.
LHC Beampipes Ray Veness / AT-VAC FP XII 08Beam Vacuum- R.Veness.
SuperB Integration SuperB Experimental hall. Related topics of Slac D&D activities.
ColUSM #63 18 th September, 2015 D. Ramos, C. Mucher, L. Gentini, H. Prin, Q. Deliege, A. Bastard, J. Hrivnak.
Workshop on cryogenic & vacuum sectorisation of the SPL Vacuum Sectorisation Paul Cruikshank, CERN Technology Department (TE) Vacuum Surfaces & Coatings.
ILCTA_NML Progress at Fermilab Jerry Leibfritz August 16, 2007.
Proposal for Microstation Prototype Jaak Lippmaa CERN 2005.
1 IPN Orsay / Division Accélérateurs The Spoke cryomodule Vacuum aspects P. DUTHIL on behalf of the IPNO team ESS Lund February 19 th 2013.
Movable beam pipe and NNC Study & prototype development Manchester 14/12/20091D. FP meeting.
Teleconf ACS – FREIA 28th March 2017
Panda Solenoid Content Interface Box Cold Mass Layout Cooling Lines
HL-LHC IT STRING and Series test of SC link
IT-4189 Supply and installation of a cryogenic distribution system
BA6 – crab cavity activities in EYETS
Installation of an Instrument on a CERN machine
A. Vande Craen, C. Eymin, M. Moretti, D. Ramos CERN
SPS cryogenic proximity equipment and SM18 validation
List of changes and improvements for the next generation CLIC module
XFEL Vacuum System Commissioning
From Design to Installation courtesy R. Folch S. Atieh TS / MME
The 11T cryo-assembly: summary of design and integration aspects
UK RFD Pre-Series cryomodule
Design of Distribution Feedbox at LHC P7
SNS PPU Cryomodule Instrumentation
BGC Collaboration Meeting –
SNS PPU Cryomodule Instrumentation
Presentation transcript:

FP 420 Connection Cryostat Design and Integration Keith Potter, Jaak Lippmaa, Guido Ryckwaert, Benoit Florin, Thierry Renaglia, Thierry Colombet, Shrikant Pattalwar, Domenico Dattola. Torino July 06

FP 420 Cryostat Design and Integration. Torino 11-12/07/06 2 D. 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 3 D. D. INFN To/CERN PH CMM Typical tunnel section.

FP 420 Cryostat Design and Integration. Torino 11-12/07/06 4 D. D. INFN To/CERN PH CMM FP420 Connection Cryostat in tunnel.

FP 420 Cryostat Design and Integration. Torino 11-12/07/06 5 D. 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 6 D. 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 7 D. D. INFN To/CERN PH CMM RF all metal gate valve

FP 420 Cryostat Design and Integration. Torino 11-12/07/06 8 D. 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 9 D. 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 10 D. 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 11 D. 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 12 D. D. INFN To/CERN PH CMM X Line Continuity new proposal. (III)

FP 420 Cryostat Design and Integration. Torino 11-12/07/06 13 D. D. INFN To/CERN PH CMM X Line Continuity new proposal. (IV)

FP 420 Cryostat Design and Integration. Torino 11-12/07/06 14 D. D. INFN To/CERN PH CMM Assembly Structure (I)

FP 420 Cryostat Design and Integration. Torino 11-12/07/06 15 D. D. INFN To/CERN PH CMM Assembly Structure (II) AA A A Top side view A-A view

FP 420 Cryostat Design and Integration. Torino 11-12/07/06 16 D. 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 3 rd 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 17 D. D. INFN To/CERN PH CMM ATM various pic. and fig.

FP 420 Cryostat Design and Integration. Torino 11-12/07/06 18 D. D. INFN To/CERN PH CMM DFP Arc Termination Module (ATM) in LHC

FP 420 Cryostat Design and Integration. Torino 11-12/07/06 19 D. D. INFN To/CERN PH CMM ATM DFB interface I

FP 420 Cryostat Design and Integration. Torino 11-12/07/06 20 D. D. INFN To/CERN PH CMM ATM DFB interface II

FP 420 Cryostat Design and Integration. Torino 11-12/07/06 21 D. D. INFN To/CERN PH CMM ATM DFB interface III

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2025 SlidePlayer.com. Inc. All rights reserved.