Big Magnet Design II: a) solenoid and cable concept b) short section test V.V. Kashikhin and A.V. Zlobin.

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Presentation transcript:

Big Magnet Design II: a) solenoid and cable concept b) short section test V.V. Kashikhin and A.V. Zlobin

Magnetic cavern design II Fields 1 m iron wall thickness. ~2.4 T peak field in the iron. Good fielduniformity IBI yz IBI xz

Fr and F z Fr (middle/end turns) Fz (end turns) The largest force component => drives the mechanical design.

Parameters

Original Solenoid and cable design Pipetron type cable –Needs modification to provide long length (~5-7 km) and flexibility (bending diameter 15 m) Solenoid strongback Assembly procedure

New support structure and cable Structure: Cable vacuum shell is now part of the solenoid support structure LN shield is fabricated and installed independently: two half-shells with LN pipes super-insulation, supports Cable installed inside the LN shield: thick He pipe with SC and Cu wires wound outside thick Al or Cu tape (mechanical support and additional stabilizer) wrapped over SC/Cu wires superinsulation flexible (+/-2 mm dynamic range) supports

1-2 turn solenoid model Goals: Develop and optimize cable design, thermal shield, support structure, superinsulation Fabricate and test ~50m long cable and LN shield Test solenoid support structure and assembly procedure (thermal shield and cable installation) Cable splicing (mechanical, electrical) Test cable support structure mechanics (londitudinal and transverse): –Fr(body)~6-10 kN/m –Fr(end)~15 kN/m –Fz(end)~29-29 Kn/m Measurestatic heat leaks at different currents to LN and LHe levels <=Single turn

Pipetron Magnet Test facility PS~100kA Current leads 100 kA Cryogenic system Quench detection and protection systems DAQ Next step: Check the availability of this equipment and space Experiment plan, schedule and cost estimate