Coils/Cryostats Completed Magnets ... - History and Archives
The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets...
Transcript of The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets...
![Page 1: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/1.jpg)
The MSC-CMI Section: Cryostats & Machine Integration
V.Parma, CERN, TE-MSC
April 2012
![Page 2: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/2.jpg)
Mandate The CMI Section (Cryostats & Machine Integration) is
responsible for: • Design & construction of cryostats for accelerator SC devices and integration
of technical systems; • LHC layout and machine integration studies; management of system interfaces; • Technical coordination of LHC superconducting magnets; • Maintenance of the LHC SC magnet cryostats and construction of spares
(SMI2 facility, 189 storage); • Participation to LHC cryo-magnets interventions during long shut downs (LS);
study of magnet handling and interventions in activated areas; • Development of supporting technologies and key technical competencies; • Support to LHC operation (MP3).
![Page 3: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/3.jpg)
Evolution of personnel in the Section
Staff: Cat.E/F • V.Parma • J.Ph.Tock • L.R.Williams • D.Duarte Ramos (starts on 1st May) • New cat. E: open recruitment end 2012 Cat.C/D: • A.Musso • A.Vande Creaen • J.B.Deschamps (joined on 1st February) • G.Barlow (starts on 1st May) • New cat. D: open recruitment mid 2012 Cat.A/B: • M.Souchet • A.Bastard
Fell/PhD students/VIA • Y.Leclercq (FELL) • P.Azevedo (FELL) • R.Bonomi (FELL) • R.Ortwein (PhD student) • J.A. Boursquet (VIA) Collaborators from other institutes • A.Chrul (Polish institute) (joined in
March)
![Page 4: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/4.jpg)
HIGH-LIGHTS
![Page 5: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/5.jpg)
SMACC J.Ph. Tock #221
Open/Close IC [DN200] A Musso (A Chrul) #33
Main arc splices cons. F Savary (H Prin) #52 -Sleeves cutting (JM Hubert) -BB surfacing (M Dumas/C Lopez) -Shunt installation (M Pozzobon) -Insulation (M Parent) -Splice de- & resoldering [15%] (D Etiembre / L Favier) Special interventions “SIT”
N Bourcey (G Maury) #15
-Cryomagnets exchange -Connect. Cryostat cons. -PIMs -Specific issues -Heavy NCs
-Opening/ Closure of IC Partial and complete W bellows & ther. shields -Installation of DN200
Quality Assurance R Ostojic (X) #39
-Electrical QC: #17 C Scheuerlein (P Thonet) -Welding QC: JM Dalin # 6 -Beam vacuum QC: C Garion #8 -Open/close IC QC: D Bodart #4 (6) -QA manager support : M Struik -Audits (TBD)
ELQA [TE-MPE] K Dahlerup
(G D’Angelo) #23 -Continuity -HV test
Leak Test [TE-VSC] P Cruikshank (X) #19
-Beam lines -Cryogenics lines -Insulation vacuum
Project Office M Pojer (X) #11
-Radiation protection -Safety, Access -General logistics -Pressure test -Link to visits, media
-Coordination with Survey, BLM, Instrumentation, Transport, LS1 planning, QPS, cryogenics,… Test teams on a chain of IC -Reporting tools -Administrative support (Budget, human resources, scientific secretary)
DFBA [TE-CRG] A Perin (O Pirotte) [#12 (TBC)]
-Splices and BB
TIG welding [EN-MME] S Atieh (X) #16 (+5)
- Orbital & manual
Superconducting Magnets And Circuits Consolidation (SMACC) for LS1
![Page 6: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/6.jpg)
LS1 related activities in CMI • CMI involvement in LS1 consolidation activities:
– SMACC management (J.Ph.Tock) – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination (M.Souchet+A.Musso) – Open/Close IC and DN200 installation (A.Musso) – Installation of redesigned interconnect thermal shields (A.Musso) – Participation to special team activity (J.B.Deschamps, cutting of M sleeves) – Inspections and repair of Connection Cryostats (A.Vande Craen)
At peak : 6.1 pers. – 6/8 staff involved (J.Ph.Tock) • Involvement in QA related activities:
– WISH: development of web-based communication platform for QA and consolidation work follow-up from the tunnel (A.Musso)
– Implementation of QA in Open/Close IC (A.Musso, A.Chrul)
![Page 7: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/7.jpg)
Assembly of spare LHC cryo-magnet spares (SMI2 facility)
SMI2, LHC cryostat assembly facility
SSS 230 (with vacuum barrier visible)
Finished SSS 230 with vacuum barrier
• Assembly of 5 dipoles and 2 SSS (+4 in test cryostat) in 2011;
• Construction/modification of small components for LHC cryostats (cryogenic tubing, ph.separators, etc.);
• Major work foreseen for 2012: – Assembly of remaining cryo-magnets for LS1 – Assembly of LHC ondulator spare
![Page 8: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/8.jpg)
Procurement of spare cryostat components • Procurement of 3 spare vacuum vessels (through French in-kind); • Recovery of 6 dipole vacuum vessels; ~500 kCHF saving! • Procurement of magnet end caps (under DS collimator project); • Procurement of cryostat parts for undulator spare launched • Construction/modification of small components for LHC cryostats (cryogenic tubing,
ph.separators, etc.);
New spare vacuum vessel (CMI, France)
Magnet end cap (Metso, Finland)
Recovered LHC dipole vessels
LHC undulator
Modification of ph. separator
![Page 9: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/9.jpg)
Support to LHC operation (MP3) • Re-commissioning performed in shifts beginning 2011 • Piquet service members: Z Charifouline, M Koratzinos, J Steckert, A Verweij, M Zerlauth (TE-MPE)
S Le Naour, M Modena, A Musso, JPh Tock (TE-MSC) • 82 interventions (On 16.11.2011), called at least once more than 80 % of the weeks, > 2 interventions per week in average
• X ray tomography (partnership with EN/MME) PIM
splice
![Page 10: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/10.jpg)
Technical coordination of LHC superconducting magnets • Preparation of LHC spare SC magnets; • Knowledge of SC magnets and cryostat spares and of their main components; • LS1 preparation activity (magnets to be replaced); • Application of QAP (including NCR, ECR) and Manufacturing & Test File (MTF); • Support to test analysis & evaluation, and presents magnets to the Magnets Evaluation
Board (MEB);
http://ts-msc-ci.web.cern.ch/ts-msc-ci/Cryomagnet-Coordination.htm
![Page 11: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/11.jpg)
Web Interface Shutdown WISH Project
Web interface from LHC tunnel during LS1 allows:
• Real-time tasks advancement recording (easier coordination)
• Team and tooling traceability for each single task
• Fast reaction in case of NCR’s • MTF traceability when needed
Requires: • 3G data connection (checked with IT experts,
this is the best in terms of speed, cost, installation time)
• Tablets (or laptop) for team leaders • Website specification (work already started)
Project schedule
• Database design and performance study: APRIL 2012 • Web setup and programming: July 2012 • Test and debugging: August • Code revision and training: September 2012 • Production: November 2012
Project responsible: Andrea Musso (TE-MSC)
Project implementation and software development:
Jose Carlos Pereira Lopes (Brunn @ Sorensen)
Note: Foresee access to all points during technical stops to test connection Presentation movie available
![Page 12: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/12.jpg)
W Bellows: New thermal shield design
Thermal connection by mechanical clamping Why?: • Avoid Welds to be done in the tunnel (Fire hazard) • Grind-free removal during next LS’ (RP issue)
The shield will be fixed to the cryo-magnet thermal
shield with a screwed clamp.
Thermal calculations and test are in progress ECR will be written
![Page 13: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/13.jpg)
Design & construction of cryostats for accelerators superconducting devices and integration of technical systems
• LHC machine upgrades – Short Connection Cryostat, conceptual design reviewed. Project postponed. – improved design of new spare Connection Cryostats in progress, construction delayed to after
LS1. – 11 T magnet/collimator cryo-assembly (LS2, 2018) , feasibility study in progress. – New SC links and surface feedboxes, for R2E in IR1,5 and 7, (LS2, 2018, LS3, 2022), study yet to
start. – New IT (and D1) cryostats (LS3, 2022), study not started.
• Cryogenic devices for other machine : – Cryomodule prototype for HIE Isolde, conceptual design done.
• Testing cryostats: – MQXC horizontal test cryostat – 11 T magnet horizontal test cryostat – HFM vertical test cryostat, conceptual design done. – SPL Short Cryomodule, conceptual design done.
Use existing concepts, could be a « universal » test cryostat.
![Page 14: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/14.jpg)
Short Connection Cryostat (DS collimator project): • Design improvements (BB routing and supports) • Design reviewed , project stopped, drwgs being archived.
Spare Connection Cryostat • same design improvements of SCC • components to be procured in 2012 • 2 spares to be constructed after LS1 • need for shielding to be assessed again
Improved BB supports
Connection Cryostats
![Page 15: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/15.jpg)
HFM vertical test station
• General dimensions fixed • Integration ongoing (10kA, cold buffer,…) • General concept finished • Detailed design started • Final design of vacuum vessel started
Parameter description Value Unit
Nominal magnetic field @ 4.2 K 13 T Ultimate magnetic field @ 1.9 K 15 T Maximum current 20 kA Free aperture diameter 100 mm Coil length 1.6 m Maximum length 2.5 m Maximum outer diameter 1.03 m Maximum weight 9000 kg
Maximum stored energy 6 MJ Inductance 80 mH Maximum heat dissipation when ramping 10 W
![Page 16: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/16.jpg)
DS collimator studies: moving to compact integration solutions
Design of a Short Connection Cryostat (SCC)
By-pass cryostat+warm collimator (EN-MME)
Q8 MB LTC
SCC Q11 MB
War
m O
ptio
n
• 11T dipole magnet + collimator (warm or cold): compact 2-in-1 solutions – Feasibility study in progress
Possible options (cold or warm)
![Page 17: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/17.jpg)
HIE-ISOLDE High Beta Cryomodule as it is today
Helium vessel
RF cavities
SC solenoid
Beam line
![Page 18: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/18.jpg)
HIE-ISOLDE High Beta Cryomodule Recent Changes and Work Underway
• Vacuum Tank – Two top seals with inter-seal pumping – Rounded bottom to reduce stresses and deformations – 316L for a stricter control of permeability – Electro-polished to ease cleaning – Tech Spec is written for procurement in May
• Helium Tank – Operational volume and pressure defined – Internal piping under design now – Chimney is dimensioned thermalisation under study – Electrical and cryogenic services to the chimney are being studied
• Support System – Operational pressure reduced now to ~4 bar with helium exhaust
line at dia 150 mm – Support structure and cryo connections (bellows) less rigid - helps
alignment – First modes and natural frequencies of the suspended active part
have been calculated – Electrical and cryogenic services to the chimney are being studied
• Alignment – Call for tender underway via CATE for the design and construction
of 2 positional adjusters for the active part – The B-CAM position determining system is under test on the
mockup in SMI2 – Targets may be changed from active (illuminated) to passive
(reflectors)
• Support Frame – Material changed from Al Alloy to 316 stainless steel – Active cooling adopted and optimised to ensure safe cooldown and
warmup – Redesigned to allow late assembly and easy access to the cavities
and the solenoid
• Cavity and Solenoid Support – Concept unchanged but details modified to allow late assembly and
easy access to the cavities and the solenoid
• Thermal Shield and MLI – Construction methods have been examined – Thermalisation needs to be re-examined once the location of all
sources of heat input is known – Space has been left for some form of FLI (Few Layer Insulation)
system based on stretched mylar films. This will not be installed in the first cryomodule
• Instrumentation – Inventory is defined (except for RF) – First contacts with industrial suppliers, may buy connectors and cable
looms together
• Clean Room – Tech Spec is written – Call for tender out by end April – The staff to manage the clean room and carry out the first
module assembly needs to be identified and maybe trained
• Cryomodule Assembly – Assembly sequences defined – Procedures for tasks are being written – Special tooling concepts are under study
• Safety File – Needs have been clarified with HSE – Construction according to EN-13458-2 with CE certification only for
the helium vessel and the solenoid helium vessel • Risk Analysis
– Strategy has been defined with HSE; Process based risk analysis – Study group has been formed with Delio as our representative
• Design Review – Will be held on 26 and 27 April 2012 – Procurement will start after the review and subject to
recommendations
![Page 19: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/19.jpg)
SPL Short Cryomodule (CERN/CNRS/CEA collaboration effort)
7400
Vessel closing top
Vacuum vessel
Thermal shielding
Bi-phase low pressure Pumping line
Ph.Sep. He 5l
RF coupler double-walled tube He cooling ph.separator
Cryo lines
Magnetic shielding
• Conceptual design finalized (reviewed in Nov.11) • Main choices frozen
![Page 20: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/20.jpg)
SPL Short Cryomodule: developing innovative solutions
Original cavity supporting concept: - RF coupler tube as main cavity support - efficient He vapor-cooled tube support
Vacuum vessel optimisation design - elasto-plastic buckling stability Vacuum vessel with top lid
- vertical insertion of cavities (for compactness)
4 cavities module
8 cavities module
![Page 21: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/21.jpg)
Development of supporting technologies and competencies Design & Computational competencies: Design methodology for low heat load/precise alignment cryostats Mechanical and thermo-mechanical calculation Thermal performance @ cryogenic temperatures (thermal shielding
with MLI system, low-emissivity surfaces…) Construction technologies: Mechanical assembly techniques and benches for LHC-type cryostats Leak-tight welding methodology and He mass spectrometry leak
check techniques (sniffing, clamshell, accumulation methods) Cryostat leak-tight feed-throughs solutions for instrumentation
routing Expertise in compound material leak-tight assemblies (ex. ITER plugs) Mockups for mechanical testing and leak-tight checks
ITER plug prototype
Mechanical testing of LHC supports Mechanical testing of LHC vacuum barrier
Test tank
Isolde cryomodule Vacuum vessel
SPL cryomodule cavity supporting
![Page 22: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/22.jpg)
Facilities
SMI2
189
SMI2, LHC cryostat assembly facility
Point 18, future facilities for cryo-module assembly
Bd189, storage of cryostat components
![Page 23: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/23.jpg)
GOALS AND ACHIEVEMENTS
![Page 24: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/24.jpg)
Main achievements in 2011
Design accomplishments on new devices: • Review of DS collimator cryostats June 2011 • Conceptual review of the SPL Short Cryomodule November 2011 • Design improvements for the Connection Cryostats Jan.-Sept. 2011 • Critical advances in the design of the HIE-Isolde cryomodule Jan.-Sept. 2011
LHC cryo-magnet cryostats: • Assembly to need of spare dipoles and SSS cryostats all year long • Procurement of spare vacuum vessels (critical spare components) for SSS MS and CC Jan.Nov.2011 • Recovery of 6 dipole vacuum vessels; ~500 kCHF saving! Jan.-Dec. 2011 • Re-start of tech. coordination activity and associated committees (MEB) Sept.2011
Support to LHC operation: • > 2 MP3 interventions/week all year long, and shift work
![Page 25: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/25.jpg)
Status in April 2012 w.r.t. main goals set end 2011
• Preparation for LS1: – Finalize preparation of spare cryo-magnets by October in progress, on track: 3/15 cryo-dipoles in final preparation in SMI2; 21 cryo-dipoles, available for MEB
choice; 4 SSS: 230 ready, 233 @ 80%, cold masses Q5 & Q7 foreseen in June (on critical path) – Prepare section work package for LS1 work (opening/closing IC, DN200 installation); in
progress, on track – Prepare QA coordination role of the section and associated tools and methodology (needs
resources detached from other sections); Goal suppressed, QA coordination not anymore centralized in the section, but limited to
section activity in LS1(opening/closing IC, DN200 installation)
• Preparation of spares: – Construction of 2 spare Connection Cryostats; in progress, delayed:
– Not a priority, delayed to 2013-2014 (after LS1 engagements) – Only design and procurement of long-lead-time this year (bus bars, vacuum vessels)
– Procurement of additional LHC spare vacuum vessels; – 6 dipole prototype vessels upgraded to LHC spares – 2 vessels procured (1 special SSS + 1 connection cryostat), 1 more in progress (amendment
of French in-kind) – Decision not to procure additional dipole vessels agreed within MSC
– Procurement of spare ondulator components; in progress: – All components ordered (but for MLI blankets) – Study of cryostat assembly started;
![Page 26: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/26.jpg)
Status in April 2012 w.r.t. main goals set end 2011
• Design studies: – Start of conceptual design & integration studies for SC links and surface
feedboxes: in progress,
– definition of strategy and concepts – work will gain momentum in May, when D.Ramos will join
– HIE Isolde Cryomodule: in progress, on track:
– Detailed design review (March 2012) fixed on 26-27 April – Procurement of cryostat parts by end 2012
– SPL Short Cryomodule: in progress, on track:
– Detailed design review (October 2012): – Launch of procurement of long lead items
![Page 27: The MSC-CMI Section: Cryostats & Machine Integration · – Preparation of spare cryo-magnets cryostats and cryo-magnets technical coordination ( M.Souchet+A.Musso) – Open/Close](https://reader035.fdocuments.us/reader035/viewer/2022062605/5fd1616e7d7ea94fbb0133cc/html5/thumbnails/27.jpg)
Newly added goals for 2012 (revised w.r.t. 2011)
• HFM Vertical Test Cryostat: – Priority set for launching procurement by mid 2012, – Major cryostat components available to start installation in the beginning of
2013
• Development of WISH tool for LS1 • Enlarged participation in LS1 (J.B.Deschamps joins “special team”) • Redesign of Interconnect thermal shields (ECR in preparation) • Activated magnets removal study: preparatory study phase before
LS1 starts (identify additional workload for LS1)