Alain Hervé, ILD Workshop, ILD-T-Coil&Yoke-Parametric-Model-4360, CERN-20 January 2009 Parametric Model for Yoke + Coil ILD Workshop - CERN - 20 January.

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Presentation transcript:

Alain Hervé, ILD Workshop, ILD-T-Coil&Yoke-Parametric-Model-4360, CERN-20 January 2009 Parametric Model for Yoke + Coil ILD Workshop - CERN - 20 January 2009 A. Hervé/ETH CERN

Alain Hervé, ILD Workshop, ILD-T-Coil&Yoke-Parametric-Model-4360, CERN-20 January 2009 Parametric Model for Coil+Yoke Valid for CMS SiD ILC and CLIC

Alain Hervé, ILD Workshop, ILD-T-Coil&Yoke-Parametric-Model-4360, CERN-20 January 2009 B0: Central Induction RfreeBore: Inner Radius of Vac tank theta: Distribution Barrel/Endcap BmeanSat: Mean Saturation of Iron in Central Plane kflux: Fraction of Flux crossing Endcap at RoutWinding Ngone: Yoke number of sides of polygon E/M: Ratio of Magnetic Stored Energy per kg of Cold Mass Definition of Main Parameters

Alain Hervé, ILD Workshop, ILD-T-Coil&Yoke-Parametric-Model-4360, CERN-20 January 2009 Specific Stored Energy Vs. Strain Coil is a Thin Tube This is the limiting factor!

Alain Hervé, ILD Workshop, ILD-T-Coil&Yoke-Parametric-Model-4360, CERN-20 January 2009 Temperature distribution in CMS coil during a fast dump with 50% extraction and E/M=12kJ/kg Fast dump analysis in CMS With E/M=12kJ/kg, when all is OK, the mean Temp. reaches 70K with a thermal gradient of 25K. If all the energy is dumped in the coil the Temp. reaches 130K + ∆T, and this is a ‘safety limit’! Non negligible ∆T

Alain Hervé, ILD Workshop, ILD-T-Coil&Yoke-Parametric-Model-4360, CERN-20 January 2009 B 0 and r do not appear in the Formula 0.6 in CMS conductor < 1

Alain Hervé, ILD Workshop, ILD-T-Coil&Yoke-Parametric-Model-4360, CERN-20 January 2009 B 0 and r do not appear in the Formula Thus there is nothing magic with B 0 or r! Not forgetting the cost of the return yoke if one wants to limit the stray field! However, B 0 and r are not without influence on difficulties and cost!

Alain Hervé, ILD Workshop, ILD-T-Coil&Yoke-Parametric-Model-4360, CERN-20 January 2009 Waiting for new engineering studies at Saclay, I have assumed the same gaps as for CMS. Radial gaps in Coil System They are by no means exaggerated, but they can certainly be slightly decreased for a shorter coil.

Alain Hervé, ILD Workshop, ILD-T-Coil&Yoke-Parametric-Model-4360, CERN-20 January 2009 Radial gaps in Coil System Thus radial thickness of cryostat is taken as 500mm + thCoil

Alain Hervé, ILD Workshop, ILD-T-Coil&Yoke-Parametric-Model-4360, CERN-20 January 2009 Tie bars to stabilize the cold mass inside the Vac Tank. They protrude! The flange is a complex structure Z gaps in Coil System

Alain Hervé, ILD Workshop, ILD-T-Coil&Yoke-Parametric-Model-4360, CERN-20 January 2009 Z gaps in Coil System Thus distance from coil end to start of endcap is taken as 380mm

Alain Hervé, ILD Workshop, ILD-T-Coil&Yoke-Parametric-Model-4360, CERN-20 January 2009 Parametric Model for ILD-Results-I For exemple here: 4T and RfreeBore=3440mm 1/2LBarrel= m (ILD0) Parameters adjusted to get the yoke thicknesses of ILD0

Alain Hervé, ILD Workshop, ILD-T-Coil&Yoke-Parametric-Model-4360, CERN-20 January 2009 Parametric Model for ILD-Results-II +50 mm +100 mm coil

Alain Hervé, ILD Workshop, ILD-T-Coil&Yoke-Parametric-Model-4360, CERN-20 January 2009 Parametric Model for ILD-Results-III

Alain Hervé, ILD Workshop, ILD-T-Coil&Yoke-Parametric-Model-4360, CERN-20 January 2009 Parametric Model for ILD-Results-IV

Alain Hervé, ILD Workshop, ILD-T-Coil&Yoke-Parametric-Model-4360, CERN-20 January 2009 Mass of Yoke in tonnes For comparison only

Alain Hervé, ILD Workshop, ILD-T-Coil&Yoke-Parametric-Model-4360, CERN-20 January 2009 Total Cost of Magnet System in M€ For comparison only

Alain Hervé, ILD Workshop, ILD-T-Coil&Yoke-Parametric-Model-4360, CERN-20 January 2009 Thickness of Winding (in mm)

Alain Hervé, ILD Workshop, ILD-T-Coil&Yoke-Parametric-Model-4360, CERN-20 January 2009 The only parameter to watch is the non negligible increase of current in the side modules to better homogeneity. As mentioned by Kircher, to respect both E/M and strain in these modules without increasing the coil thickness, the use of the upgraded conductor proposed by CMS two years ago, is mandatory It is thus important to launch the industrial R&D development program proposed already one year ago by CERN, Saclay and Genova, to replace pure aluminum by “Yamamoto’s alloy”. Conclusions-I

Alain Hervé, ILD Workshop, ILD-T-Coil&Yoke-Parametric-Model-4360, CERN-20 January 2009 There is large penalty in cost to increase RfreeBore There is another one to increase B0, and technical difficulties for the coil are increased for B0 > 4T A heavy yoke brings further penalties in logistics in particular in the push-pull scenario The increase of current in the side modules to better homogeneity needs to be confirmed by the R&D program Otherwise I find the ILD choice ( T, 3440mm) a good choice Conclusions-II