Presentation is loading. Please wait.

Presentation is loading. Please wait.

CERN QXF Conductor Procurement and Cable R&D A.Ballarino, B. Bordini and L. Oberli CERN, TE-MSC-SCD LARP Meeting, Napa, 9 April 2013.

Published byAbraham Newman Modified over 7 years ago

Similar presentations

Presentation on theme: "CERN QXF Conductor Procurement and Cable R&D A.Ballarino, B. Bordini and L. Oberli CERN, TE-MSC-SCD LARP Meeting, Napa, 9 April 2013."— Presentation transcript:

1 CERN QXF Conductor Procurement and Cable R&D A.Ballarino, B. Bordini and L. Oberli CERN, TE-MSC-SCD LARP Meeting, Napa, 9 April 2013

2 Outline  Cable specification and procurement Medium and long term strategy  Cable development Status of R&D activity Cable geometries and first test results On-going and future activities  Conclusions A. BallarinoNapa, LARP Meeting, 9 April 2013

3 Strand specification A. BallarinoNapa, LARP Meeting, 9 April 2013

4 Strand procurement (1/3)  RRP 132/169  PIT 192 Strand for Cabling Optimization (2012-2013) 5 km of RRP Nb-Ti 132/169 - Delivered in December 2012 Measured characteristics: RRR > 150 Ic(12 T) > 700 A Jc(12 T) > 2800 A/mm 2 5 km of PIT Nb-Ta 192 - Delivered in March 2013 To be measured at CERN A. BallarinoNapa, LARP Meeting, 9 April 2013

5 Strand procurement (2/3) Strand for Long Prototype Program (2016) 6 coils, 5.4 km of cable (UL=900 m),  220 km of strand Procurement (  440 km) to be launched by end 2014 – for deliveries as from mid 2015 Strand for Short Model Program (2014-2015) 12 coils, 2 km of cable,  100 km of strand 2013 35 km of RRP 132/169 35 km of PIT 192 Technical specification out for tendering. Orders to be placed in May 2013 Deliveries as from November 2013 2014 30 km – to be ordered by beginning 2014 A. BallarinoNapa, LARP Meeting, 9 April 2013

6 20122013201420152016 10 km Short Model: 30 km Long Prototype: 400 km Series Short Model: 70 km Strand procurement (2/3) Series production:  2500 km of Nb 3 Sn strand A. BallarinoNapa, LARP Meeting, 9 April 2013

7  2.5 tons Nb 3 Sn strand procurement at CERN Fresca 2 11 T Hi-Lumi Quadrupole A. BallarinoNapa, LARP Meeting, 9 April 2013

8 Cable specification 433 A 496 A 538 A Iop  25 % margin on the load line @ 1.9 K P. Ferracin Iop = 17320 A Bpeak = 12.2 T A. BallarinoNapa, LARP Meeting, 9 April 2013

9 Cable R&D Status  Assembly of short prototypes cables with copper and RRP strands (RRP 132/169)  Cables assembled do not contain -yet - stainless steel core  PIT strands delivered in March 2013 – cabling in April 2013 A. BallarinoNapa, LARP Meeting, 9 April 2013

10 Cable R&D Objectives:  Develop an optimized cable geometry made from 40 strands Nb 3 Sn wires of 0.85 mm diameter meeting the electrical characteristics specified by the magnet design;  Limit the Ic degradation to 100;  Make cables from RRP and PIT strands – with the objective of possibly converging to the same cable geometry;  Perform a series of validation tests on strands and cables (FRESCA test station) A. BallarinoNapa, LARP Meeting, 9 April 2013

11 Cable R&D Width (mm) Mid-th (mm) LT (mm) Ic degr (%) Keyst. (deg) Compact. (%) FRESCA 2*20.91.82120< 5-87.5 11 T**14.71.25100<40.7987.3 * 40 strands of 1 mm diameter, PIT and RRP strands ** 40 strands of 0.7 mm diameter, RRP strands Experience at CERN on Nb 3 Sn cables A. BallarinoNapa, LARP Meeting, 9 April 2013

12 Cable R&D Width : 17.8 mm Width compaction C w = - 3.5 Mid-thickness : 1.50 and 1.53 mm Keystone angle : 0.65 degree Pitch length : 113 mm (17.5 o ) and 125 mm (16 o ) Cw larger than its value for the FRESCA2 cable (- 4.6) but smaller than its value for the cable for the dipole DS 11 T (- 2.6). A. BallarinoNapa, LARP Meeting, 9 April 2013

13 Fabrication of 17.8 mm wide cables without core RRP - 132/169 Cable R&D SampleMid-thicknessPitch lengthKeystone angle 1~ 1.53 mm113 mm~ 0.55 – 0.58 degree 2~ 1.53 mm125 mm~ 0.55 – 0.58 degree 3~ 1.50 mm113 mm~ 0.55 - 0.58 degree 4~ 1.50 mm125 mm~ 0.55 – 0.58 degree  4 cables - 3 m long  2 mid thicknesses (1.53 mm and 1.50 mm)  2 pitch lengths (113 mm and 125 mm) A. BallarinoNapa, LARP Meeting, 9 April 2013

14 Cable R&D PL=113 mm, 1.50 mm 3.9 % (Ic max. 5.8%) PL=113 mm, 1.53 mm 2.9 % (Ic max. 6.6%) PL=125 mm, 1.50 mm 2.7 % (Ic max. 4.4%) PL=125 mm, 1.53 mm 0.52 % (Ic max. 2.4 %) Mid-thickness Pitch 4.3 K 12 T 4.3 K 12 T 4.3 K 12 T 4.3 K 12 T A. BallarinoNapa, LARP Meeting, 9 April 2013

15 Cable R&D Average Ic degradation = 1.8 % 4.3 K 12 T A. BallarinoNapa, LARP Meeting, 9 April 2013

16 Cable R&D T=4.3 K Extracted strands –three Is > 1000 A A lot of margin… A. BallarinoNapa, LARP Meeting, 9 April 2013 Ic (A) B (T)

17 Mid-thickness ~ 1.50 mm, PL = 113 mm

18 Mid-thickness ~ 1.50 mm, PL = 125 mm

19 On-going activities  Cabling of Ruftherford cables with SS core – PIT and RRP w=17.3 mm, mid-th=1.50 and 1.53 mm, LT=109 mm  After feedback from magnet winding, change - reduction- of keystone angle to increase compaction on the large edge and reduce compaction on the narrow edge. Objective: improve mechanical stability and reduce filaments deformation A. BallarinoNapa, LARP Meeting, 9 April 2013

20 Cable Tests in FRESCA 1/2  Short Term Plan: test of cables (132/169 RRP, 192 PIT) with and without core by using the regular FRESCA power supply (up to 32 kA) 1. Critical current measurements at 4.3 K ( cable critical current at 12 T lower ~ 29 kA; cable self-field 0.8 T per 10 kA, maximum applied field 10 T) 2. Measurement of the stability current at 4.3 K and 1.9 K 3. Quench current measurements when simultaneously ramping the sample current and the applied magnetic field; ramp-rate dependence study 4. Measurements of the cable thermal stability (strip heaters impregnated with the cable samples) 5. Measurements of the quench propagation velocity A. BallarinoNapa, LARP Meeting, 9 April 2013

21 Cable Tests In FRESCA 2/2  Medium Term Plan : test of cables with and without core by using the 100 kA transformer 1. Critical current measurements at 4.3 K and 1.9 K with different applied field orientations to identify weak spots in the cables 2. Measurement of the stability current at 4.3 K an d 1.9 K up to 100 kA 3. Quench current measurements when simultaneously ramping the sample current and the applied magnetic field; ramp-rate dependence study A. BallarinoNapa, LARP Meeting, 9 April 2013

22 Additional studies  Critical current measurements of rolled wires (PIT and RRP)  Critical and Stability Current measurements of extracted strands  Critical Current Measurements of strands under axial and transversal load (UniGe)  Inter-strand resistance of cables with and without core A. BallarinoNapa, LARP Meeting, 9 April 2013

23 Conclusions  Conductor for R&D activity has been procured. Conductor procurement strategy has been made. According to the present plan of installation of the Hi-Lumi magnets, conductor procurement for the series production shall be launched by beginning 2016  Cable development has started. First results with the selected cable geometry indicate low Ic degradation and sufficiently high RRR but possibly need for improvement of mechanical stability. Plan for development of both PIT and RRP cable is established A. BallarinoNapa, LARP Meeting, 9 April 2013

24 Thanks for your attention

Download ppt "CERN QXF Conductor Procurement and Cable R&D A.Ballarino, B. Bordini and L. Oberli CERN, TE-MSC-SCD LARP Meeting, Napa, 9 April 2013."

Similar presentations

Optimisation of Roebel cable for HTS accelerator magnets

Optimisation of Roebel cable for HTS accelerator magnets
Outline: Goals for the cable development at CERN. Main parameters of the cable. Cable development work for a cable width of 15.1 mm and for a cable width.

Outline: Goals for the cable development at CERN. Main parameters of the cable. Cable development work for a cable width of 15.1 mm and for a cable width.
Superconducting Large Bore Sextupole for ILC

Superconducting Large Bore Sextupole for ILC
Coil working group video-meeting P. Ferracin, J. C. Perez, S. Izquierdo Bermudez, X. Sarasola February 4th, 2014.

Coil working group video-meeting P. Ferracin, J. C. Perez, S. Izquierdo Bermudez, X. Sarasola February 4th, 2014.
Oct. 16-17, 2013, CDP D.R. Dietderich LARP Conductor & Cable Review 1 Conductor Development Program Support for LARP and HiLumi LARP- HiLumi Conductor.

Oct , 2013, CDP D.R. Dietderich LARP Conductor & Cable Review 1 Conductor Development Program Support for LARP and HiLumi LARP- HiLumi Conductor.
Nb3Sn Cable and Insulation for LARP High-Gradient Quadrupole Magnets

Nb3Sn Cable and Insulation for LARP High-Gradient Quadrupole Magnets
11 Oct. 16-17, 2013 by Video LBNL Cable Experience for HiLumi HiLumi LARP/LHC Strand and Cable Internal Review Oct. 16-17, 2013 by Video D.R. Dietderich,

11 Oct , 2013 by Video LBNL Cable Experience for HiLumi HiLumi LARP/LHC Strand and Cable Internal Review Oct , 2013 by Video D.R. Dietderich,
DOE Review of LARP – February 17-18, 2014 QXF Conductor and Cable Arup K. Ghosh Feb-17-2014 1.

DOE Review of LARP – February 17-18, 2014 QXF Conductor and Cable Arup K. Ghosh Feb
Possible HTS wire implementation Amalia Ballarino Care HHH Working Meeting LHC beam-beam effects and beam-beam interaction CERN, 28 th August 2008.

Possible HTS wire implementation Amalia Ballarino Care HHH Working Meeting LHC beam-beam effects and beam-beam interaction CERN, 28 th August 2008.
TASK 5.5 - Conductor Studies First Proposal CERN – 09 th July 2015 EuroCirCol Meeting – WP5.

TASK Conductor Studies First Proposal CERN – 09 th July 2015 EuroCirCol Meeting – WP5.
Collaboration Mtg, St Charles, IL 10/5-6, 2005 A. Ghosh1 Conductor R&D Plan Arup K. Ghosh BNL.

Collaboration Mtg, St Charles, IL 10/5-6, 2005 A. Ghosh1 Conductor R&D Plan Arup K. Ghosh BNL.
MQXF RRP® Strand for Q1/Q3 A. K. Ghosh MQXF Conductor Review November 5-6, 2014 CERN.

MQXF RRP® Strand for Q1/Q3 A. K. Ghosh MQXF Conductor Review November 5-6, 2014 CERN.
Status of MQXF Conductor LARP Update

Status of MQXF Conductor LARP Update
SMC Plans for new SMCs for Fresca2 program J.C. Perez EUCARD-WP7-HFM Short Model Coil review 12 December 2011.

SMC Plans for new SMCs for Fresca2 program J.C. Perez EUCARD-WP7-HFM Short Model Coil review 12 December 2011.
Design Features: still to be determined and open questions P. Ferracin 4 th Joint HiLumi LHC-LARP Annual Meeting November 17-21, 2014 KEK, Tsukuba.

Design Features: still to be determined and open questions P. Ferracin 4 th Joint HiLumi LHC-LARP Annual Meeting November 17-21, 2014 KEK, Tsukuba.
QXF Cable Status D.R. Dietderich Conductor Working Group Video Meeting, Sept. 17, 2014.

QXF Cable Status D.R. Dietderich Conductor Working Group Video Meeting, Sept. 17, 2014.
Development of the EuCARD Nb 3 Sn Dipole Magnet FRESCA2 P. Ferracin, M. Devaux, M. Durante, P. Fazilleau, P. Fessia, P. Manil, A. Milanese, J. E. Munoz.

Development of the EuCARD Nb 3 Sn Dipole Magnet FRESCA2 P. Ferracin, M. Devaux, M. Durante, P. Fazilleau, P. Fessia, P. Manil, A. Milanese, J. E. Munoz.
MQXF Cable for Q1/Q3 D.R. Dietderich MQXF Conductor Review November 5-6, 2014 CERN.

MQXF Cable for Q1/Q3 D.R. Dietderich MQXF Conductor Review November 5-6, 2014 CERN.
HiLumi-LHC / LARP Conductor and Cable Internal Review October 16 th and 17 th 2013 H. Felice LARP Short Magnets Fabrication and Test experience relevant.

HiLumi-LHC / LARP Conductor and Cable Internal Review October 16 th and 17 th 2013 H. Felice LARP Short Magnets Fabrication and Test experience relevant.
11 T Nb3Sn Demonstrator Dipole R&D Strategy and Status

11 T Nb3Sn Demonstrator Dipole R&D Strategy and Status

Similar presentations

Ads by Google