Davide Tommasini EuroCirCol WP5 : Work Distribution June 3 rd, 2015.

Slides:

Advertisements

Similar presentations

Superconducting Magnet Program S. Gourlay CERN March 11-12, Lawrence Berkeley National Laboratory IR Quad R&D Program LHC IR Upgrade Stephen A.

Advertisements

Cold Powering of the HL-LHC magnet system WP6 Motivation Work Package description Tasks Partners & resources Amalia Ballarino HL-LHC Design Study – 3 rd.

September 2007 FP7-IA HFM JRA proposal G. de Rijk (CERN)1 FP7-IA HFM JRA proposal   The proposal is under discussion: we welcome input from potential.

11 September 2007 FP7-IA HFM JRA proposal G. de Rijk (CERN)1 FP7-IA HFM JRA proposal   Outline Motivation General description Proposed Work Packages.

Superconducting Large Bore Sextupole for ILC

EuCARD2 Magnet Status and action plan

E. Todesco DESIGN STUDY FOR THE LHC UPGRADE WP3: MAGNETS E. Todesco CERN, Geneva, Switzerland Thanks to O. Bruning, G. De Rijk, T. Nakamoto, J. M. Rifflet,

DOE Review of LARP – February 17-18, 2014 Helene Felice P. Ferracin, M. Juchno, D. Cheng, M. Anerella, R. Hafalia, Thomas Sahner, Bruno Favrat 02/17/2014.

FCC Week 2015Design Options for 16 T LTS Dipoles – G. Sabbi 1 Overview of Magnet Design Options for LTS Dipoles in the 16 T Range GianLuca Sabbi, LBNL.

Superconducting R&D – Now Strand and Cable R&D FERMILAB Magnet Systems Department – Now SC Materials Department (TD) HTS Insert Coil Test in External Solenoid.

Towards Nb 3 Sn accelerator magnets, challenges & solutions, history & forecast Shlomo Caspi Superconducting Magnet Group Lawrence Berkeley National Laboratory.

SC magnet developments at CEA/Saclay Maria Durante Hélène Felice CEA Saclay DSM/DAPNIA/SACM/LEAS.

11 T Nb3Sn Demonstrator Dipole R&D Strategy and Status

1 Francis Perez WP4 Cryogenic Beam Vacuum System Conception EuroCirCol WP4 – Cryogenic Beam Vacuum Concept Cryo Beam Vacuum Objectives,

EuroCirCol Plan Overview Daniel Schulte for the EuroCirCol team CERN, June 2015.

ASC 2014Nb 3 Sn Block Coil Dipoles for a 100 TeV Hadron Collider – G. Sabbi 1 Performance characteristics of Nb 3 Sn block-coil dipoles for a 100 TeV hadron.

11 T Dipole Informal Coil and Assembly Readiness Review CERN September 2013 Review committee: Herman Ten Kate CERN (Chair) Fred Nobrega FNAL Davide.

FCC kick-off meeting a summary for magnets L. Bottura

1 Francis Perez WP4 Cryogenic Beam Vacuum System Conception EuroCirCol WP4 – Cryogenic Beam Vacuum Concept Cryo Beam Vacuum Work.

Superferric CEA. CEA is involved in the FAIR/GSI project: Responsible for the conceptual design preparation and technical follow-up of 24 superferric.

CERN Accelerator School Superconductivity for Accelerators Case study 1 Paolo Ferracin ( ) European Organization for Nuclear Research.

CERN Accelerator School Superconductivity for Accelerators Case study introduction Paolo Ferracin CERN, Geneva Claire Antoine

LARP Magnet Progress Michael Lamm For the LARP Collaboration bnl - fnal - lbnl - slac US LHC Accelerator Research Program All Experimenters’ Meeting Monday,

WP6 status Paolo Fessia. Summary Status of the WP6 and change of WP coordinator Lowβ quadrupole status Corrector status Cryostat status.

Magnet design, final parameters Paolo Ferracin and Attilio Milanese EuCARD ESAC review for the FRESCA2 dipole CERN March, 2012.

LARP Collaboration Meeting, April 26-28, 2006Gian Luca Sabbi HQ Design Study (WBS ) LARP Collaboration Meeting April 26-28, 2006 N. Andreev, E.

Dipole design at the 16 T frontier - Magnet R&D for a Future Circular Collider (FCC) at Fermilab Alexander Zlobin Fermilab.

CERN Accelerator School Superconductivity for Accelerators Case study 3 Paolo Ferracin ( ) European Organization for Nuclear Research.

16 T Dipole Design Options: Input Parameters and Evaluation Criteria F. Toral - CIEMAT CIEMAT-VC, Sept. 4th, 2015.

ECC Clément Lorin – Maria Durante Acknowledgements: Fresca2 team.

Superconducting Technologies for the Next Generation of Accelerators CERN, Globe of Science and Innovation 4-5 December Superconducting Links for the Hi-Lumi.

FCC EuroCirCol kick-off,CERN, 3 rd June 2015.

Cosine-theta configurations for S.C. Dipole Massimo Sorbi on behalf of: INFN LASA & Genova Team Giovanni Bellomo, Pasquale Fabbricarore, Stefania Farinon,

Report from Session 2 Main Dipoles. P. McIntyre 2005 – 24T ss Tripler, a lot of Bi-2212, Je = 800 A/mm2 E. Todesco T, 80% ss 30% NbTi 55 %NbSn.

Tiina Salmi and Antti Stenvall, Tampere University of technology, Finland FCCW2016 Roma, April 13 th, 2016 Quench protection of the 16T dipoles for the.

1 Francis Perez WP4 Cryogenic Beam Vacuum System Conception EuroCirCol WP4 – Cryogenic Beam Vacuum Concept Cryo Beam Vacuum Summary.

Preliminary analysis of a 16 T sc dipole with cos-theta lay-out INFN team October 2015.

TE-MSC-MDT. FTEC Follow-Up Meeting Juan Carlos Perez TE-MSC-MDT Jose Ferradas TE-MSC-MDT 28/04/2016.

The FCC Magnet Program seen from CERN Meeting at ASC-2014, Charlotte, August 13t, 2014.

Massimo Sorbi on behalf of INFN team:

WORK IN PROGRESS F C C Main Quadrupoles FCC week 2017

SLHC –PP WP6 LHC IR Upgrade - Phase I.

Model magnet test results at FNAL

11 T Dipole Integration & Plans M. Karppinen

Lucio Rossi (CERN) WP10 coordinator

Task T HTS Dipole Magnet Design and Construction

Task 10.3 : 5T HTS Dipole Magnet Design and Construction

MQXF Goals & Plans G. Ambrosio MQXF Conductor Review

16 T Cosq DIPOLE Mechanical Analysis

Development of the Canted Cosine Theta Superconducting Magnet

CERN-INFN, 23 Febbraio 2017 Stato del programma 16 T Davide Tommasini.

EuroCirCol: 16T dipole based on common coils (DRAFT)

Arc magnet designs Attilio Milanese 13 Oct. 2016

Mechanical Modelling of the PSI CD1 Dipole

EuroCirCol: 16T dipole based on common coils

Bore quench field vs. critical current density

Naoyuki Amemiya Kyoto University

the MDP High Field Dipole Demonstrator

TASK 5.4 MAGNET conceptual DESIGn (preliminary) organization structure

DESIGN OPTIONS IN THE T RANGE

Introduction to the technical content The Q4 magnet (MQYY) for HL-LHC

EuCARD2 WP 10.2 HTS Conductor

MQXF coil cross-section status

CERN Accelerator School Superconductivity for Accelerators Case study 2 Paolo Ferracin European Organization for Nuclear Research.

Design of Nb3Sn IR quadrupoles with apertures larger than 120 mm

Dipole Project for Fusion

Muon Collider Magnet Technologies/Challenges

Muon Collider SR and IR Magnets

Design of Nb3Sn IR quadrupoles with apertures larger than 120 mm

Qingjin XU Institute of High Energy Physics (IHEP),

Presentation transcript:

Davide Tommasini EuroCirCol WP5 : Work Distribution June 3 rd, 2015

Davide TommasiniEuroCirCol Kickoff MeetingJune 3 rd, 2015 Reference parameters About a factor of 7!

Davide TommasiniEuroCirCol Kickoff MeetingJune 3 rd, 2015 Conductor Cost even in a dream we will never be comparable to that of the LHC in terms of “conductor cost per magnet length”. We can imagine scaling by a factor of 2 due to twice the field and another factor of 2 due to twice the current setting a target of: K, 16T Performance Interesting to remark 16-18T for most of conductors (Nb 3 Sn, BSCCO, YBCO, REBCO) J eng  500 A/mm 2 is already more or less on reach, though at different cost and with a number of technological limitations.. In the EuroCirCol context we will focus on Nb 3 Sn, considering a realistic hypothesis in the timeframe of the Project

Davide TommasiniEuroCirCol Kickoff MeetingJune 3 rd, 2015 Towards 16T magnets with bore D HD2c 2009 Coil configuration cos  blocks Bore (mm) 5036 Achieved bore field (T) 4.3K J 12T, 4.2K (A/mm 2 ) J 16T, 4.2K (A/mm 2 ) * J 12T, 1.9K (A/mm 2 ) J 16T, 1.9K (A/mm 2 ) Many thanks to Paolo Ferracin for help in retrieving information on D20 and HD2 J eng = J strand HD2c Cu/Sc= D20 Cu/Sc=0.4 on inner layer * Corresponds to FCC target, though with too high magnetization and cost

Davide TommasiniEuroCirCol Kickoff MeetingJune 3 rd, 2015 D20 50 mm bore 4 layers, 13 blocks Yoke outer radius: 381 mm Shell thickness: 25 mm

Davide TommasiniEuroCirCol Kickoff MeetingJune 3 rd, 2015 HD2c 36 mm bore 2 layers, 2 blocks Yoke outer radius: 311 mm Shell thickness: 41 mm

Davide TommasiniEuroCirCol Kickoff MeetingJune 3 rd, 2015 WP5: Sub-Work-Packages DescriptionCERNTUTCEAINFNUTCIEMATKEKUNIGE FTE months Work Package CoordinationX 5.2 Design optionsX X X 5.3 Magnet cost modelX X X 5.4 Electromagnetic design XXX 5.5 Mechanical design XXXX X 5.6 Quench protection X X 5.7 Manufacturing folderX X As in H2020-INFRADEV Carry two options in parrallel till the end? Group electromagnetic+structural design? Introduce 3D design? Scope is: engineering design of a 16T accelerator dipole, based on 4.5K A parallel «Magnets Technologies» program is being organized

Davide TommasiniEuroCirCol Kickoff MeetingJune 3 rd, 2015 Responsibilities As in H2020-INFRADEV WPIDDescription 5.2 CEA Qualification of alternative options CERN Review of alternatives KEK Explore potential of Nb 3 Al 5.3 CERN The model will take into account the experience in the LHC (dipoles + quadrupoles) CEA CIEMAT 5.4 INFN Analysis of field quality and transient effects UT Experimental data about DC and AC magnetization, non-linear and transient effects CIEMAT Design of the coil cross section 5.5 CIEMAT Development of the coil and structure concepts CEA 2D and 3D coil stress analysis INFN Analysis of the structure and the assembly UT Cable behaviour and limits UNIGE Strand behaviour and limits 5.6 TUT Quench protection of a string of magnets INFN Quench protection of a single magnet 5.7 CEA Participation in the execution of the drawings. Definition of assembly procedures. CERN Participation in the execution of the drawings. Organization of archiving.

Davide TommasiniEuroCirCol Kickoff MeetingJune 3 rd, 2015 Milestones & Deliverables As in H2020-INFRADEV Deliverables D-5.1 Overview of magnet design options17 D-5.2 Identification of preferred dipole design options and cost estimate26 D-5.3 Cost model (optimistic, likely and conservative)39 D-5.4 Manufacturing folder for reference design short model46 Milestones MS-5.1 WP group established and hiring complete5 MS-5.2 Baseline specifications and assumptions for accelerator magnet10 MS-5.3 Specifications for conductors and conductor configurations34 MS-5.4 High-field accelerator dipole conceptual design report46 MS-5.5 Report on recommended follow-up R&D47

Davide TommasiniEuroCirCol Kickoff MeetingJune 3 rd, 2015 Proposed strategy Forum “Towards 16T Accelerator Magnets” sharing information between: EuroCirCol A companion “technology development program” Other programs (US, JP, RU …) For EuroCirCol Trim responsibilities in the WP descriptions (this meeting) Define a planning with deliverables (this meeting) “Coffee video-meetings” with open participation “Advancement video-meetings” Two workshop-meetings per year Sept 02 Oct 14 Nov 25 Feb 10 Apr FCC Y Jun 01 Coffee XX Advancement XX Workshop XX

Davide TommasiniEuroCirCol Kickoff MeetingJune 3 rd, 2015 WP5 Coordination Meeting : Agenda Wed 14:00 – 15h30 room 30/6-019 (Vidyo) WP5 : Scope and methods Wed 16:00 – 17h30 room 6/R-012 Common session, basic parameters WP2 (Arc Design and Lattice Integration) WP3 (Experimental Insertion Region Design) WP5 (High Field Accelerator Magnet Design) Thu 09:00 – 10h30 room 30/7-018 (Vidyo) WP5 : Distribution of the work Thu 11:00 – 12h30 room 112/R-028 Common session, basic parameters WP4 (Cryogenic Beam Vacuum System Conception) WP5 (High Field Accelerator Magnet Design) Thu 14:00 – 15h30 room 112/R-028 WP5 : Tentative planning Thu 16:00 – 17h30 room 6/R-012 Plenary conclusion

Thank you for your attention