• Jobs 0
  • Tenders 0
  • Visits
  • FAQs
  • Contact us
  • ITER directory
  • Subscribe

    Subscribe to the newsletter

    Your email address will only be used for the purpose of sending you the ITER Organization publication(s) that you have requested. ITER Organization will not transfer your email address or other personal data to any other party or use it for commercial purposes.

    If you change your mind, you can easily unsubscribe by clicking the unsubscribe option at the bottom of an email you've received from ITER Organization.

    For more information, see our Privacy policy.

    Select your newsletters:

  • Donate
FR

And now, it's for keeps!

1 May 2017 - R.A.

At first view, nothing distinguishes the current operations in the Poloidal Field Coils Winding Facility from those that got underway last November: steel-jacketed conductor is being unspooled, straightened, cleaned, bent to the correct angle, and wrapped with layers of insulating tape ... technicians in white lab coats are carefully performing dimensional checks ... and there is the same machine hum and flash of orange lights.

PFCoil5_actual_fab.jpg
The real thing—production winding—has started for poloidal field coil #5. In this on-site facility at ITER, Europe will produce the four largest poloidal field coils.

Although invisible to the eye, the difference is nonetheless essential—this time it is not "dummy" conductor on the winding table but the actual niobium-titanium (Nb-Ti) superconductor for poloidal field coil #5 (PF5). Measuring 17 metres in diameter, PF5 will be the second ring coil to take its place in the Tokamak assembly sequence, just above the smaller poloidal field coil #6.

 
The difference lies in the heart of the steel-jacketed component. In the dummy conductor, the strands were one hundred percent copper. This less-expensive material—which respected the actual dimensions of the true conductor—was a good choice for qualifying the production line; contractors used it to first produce a semi-winding (four turns) and then a full two-layer dummy double pancake.
 
In the actual conductor, the strands consist of a mix of copper and of the superconducting alloy niobium-titanium. Four poloidal field coils (out of the six needed for the machine), will be manufactured by Europe in the Poloidal Field Coils Winding Facility. With diameters of 17 to 24 metres and weights ranging from 200 to 400 tonnes, these impressive components will require approximately 18 months each to manufacture.
 
Two smaller ring coils, with diameters of approximately 8 metres, are in production now in Russia and China.

See a recent report from the European Domestic Agency on fabrication activities for poloidal field coils #5 and #6 here.

Lab coats and overshoes are mandatory in the "clean room" where operators have started on the first conductor turn for poloidal field coil #5 (PF5). Following the fabrication of several qualification "dummy windings," the "real" winding has begun.
Creating the first double-layer winding pack for poloidal field coil #5 is a highly sophisticated technological operation. But when it comes to measurements, nothing beats the good old calliper.
The steel-jacketed conductor is wrapped with several layers of tight-fitting insulating tape, and then enveloped in a special fabric. This technician from the European firm CNIM (contractor to the European Domestic Agency) carefully checks the conformity of the tight gaps between conductor turns.
Operators can wind approximately 20 metres of conductor before it's time to renew the taping heads and replenish the sandblasting cleaning equipment with fresh sand.
Under watchful eyes
Winding activities are closely monitored by the European Domestic Agency and specialists from the engineering integrator ASG Superconductors. Note the tape dispenser spinning in the background.
Return to newsline