Enable Recite

Lettres d'information

Choisissez ce que vous souhaitez recevoir :

Merci de renseigner votre adresse de messagerie électronique :

@

Votre adresse email ne sera utilisée que dans le cadre de campagnes d'information ITER Organization auxquelles vous êtes abonné. ITER Organization ne communiquera jamais votre adresse email et autres informations personnelles à quiconque ou dans le cadre d'informations commerciales.

Si vous changez d'avis, il vous est possible de vous désinscrire en cliquant sur le lien 'unsubscribe' visible dans vos emails provenant d'ITER Organization.

Pour plus d'information, veuillez consulter notre Politique de confidentialité.

Actu & Médias


Pour les actualités en français, voir la page Actus & Médias.

Progress in the field of leak localization

Kicking off the development of a Fast Deployment Device: Liam Worth (ITER), Alan Rolfe (Oxford Technologies), Alexander Antipenkov (ITER), Simon Mills (Oxford Technologies), Edward McCarron (Oxford Technologies) and Robert Pearce (ITER). (Click to view larger version...)
Kicking off the development of a Fast Deployment Device: Liam Worth (ITER), Alan Rolfe (Oxford Technologies), Alexander Antipenkov (ITER), Simon Mills (Oxford Technologies), Edward McCarron (Oxford Technologies) and Robert Pearce (ITER).
As part of a three-year program of leak localization research and development, a contract between the English company Oxford Technologies and the ITER Organization to develop a concept design for a fast deployment device (FDD) for leak localization on ITER was kicked off this week.

Under the scope of the contract, Oxford Technologies will develop the concept design of the FDD which is a quickly-deployable, remotely-operated dexterous device capable of carrying a light payload of sensors dedicated to the localization of leaks in the main ITER vacuum vessel and/or cryostat.

It is envisaged that the FDD will form part of the overall leak localization system which comprises several complementary sub-systems developed to localize the range of potential leaks on ITER.


return to the latest published articles