Showing 1 - 8 of 8 Journals Results
2015
CCFE-PR(17)37
A. Turner D. Leichtle P. Lamalle B. Levesy L. Meunier E. Polunovskiy R. Sartori M. Shannon
The Ion Cyclotron Heating and Current Drive (ICH&CD) system will reside in ITER equatorial port plugs 13 and 15. Shutdown dose rates (SDDR) within the port interspace are required to be less than 100 Sv/h at 106 s cooling. A significant contribution to the SDDR results from neutrons streaming down gaps around the port frame, and the mitigation of …
Preprint Published2014
F. Durodié P. Dumortier M. Vrancken A. Messiaen R. Bamber D. Hancock S. Huygen D. Lockley F. Louche R. Maggiora D. Milanesio M. P. S. Nightingale M. Shannon P. Tigwell M. Van Schoor M. Vervier D. Wilson K. Winkler Cycle Team
ITER’s Ion Cyclotron Range of Frequencies (ICRF) system [Lamalle et al., Fusion Eng. Des. 88, 517–520 (2013)] comprises two antenna launchers designed by CYCLE (a consortium of European associations listed in the author affiliations above) on behalf of ITER Organisation (IO), each inserted as a Port Plug (PP) into one of ITER’s Vacuum Vessel …
Published2014
A. Lafuente M. Fursdon M. Shannon
Design optimization work has been conducted on the ITER Ion Cyclotron Resonance Heating (ICRH) Four Port Junction (4PJ) and Straps – a sub-assembly of the antenna. The aim of the analysis is to evaluate ways of making the component compliant with SDC-IC rules while balancing the competing demands of different performance requirements. Of particul…
Published2014
A. Argouarch R. Bamber B. Beaumont J.-M. Bernard J. M. Delaplanche F. Durodié J. C. Hatchressian P. Lamalle G. Lombard K. Nicholls J. C. Patterlini M. Shannon D. Thouvenin P. Tigwell R. Volpe K. Vulliez
In the framework of the Ion Cyclotron (IC) antenna design, ITER Organization requested qualification tests on sliding Radio-Frequency (RF) contacts, to verify that these contacts (quality class 1) are designed appropriately to guarantee a sufficient operational life time. These RF contacts will be integrated into the antenna structure at different …
Published2014
K. Winkler M. Shannon D. Lockley
Since March 2010 the preliminary design of the ITER ICRF Antennas have been developed by CYCLE, a consortium consisting of IPP (Garching), CCFE (Culham), CEA (Cadarache), Politecnico di Torino(Torino) and LPPERM/KMS (Brussels). This paper describes the steps taken to develop the present geometry of the triplet pair Strap Housing Module from a therm…
Published2014
F. Durodié M. Vrancken R. Bamber L. Colas P. Dumortier D. Hancock S. Huygen D. Lockley F. Louche R. Maggiora D. Milanesio A. Messiaen M. P. S. Nightingale M. Shannon P. Tigwell M. Van Schoor D. Wilson K. Winkler Cycle Team
ITER’s Ion Cyclotron Range of Frequencies (ICRF) system [1] comprises two antenna launchers designed by CYCLE (a consortium of European associations listed in the author affiliations above) on behalf F4E for the ITER Organisation (IO), each inserted as a Port Plug (PP) into one of ITER’s Vacuum Vessel (VV) ports. Each launcher is an array of 4 …
Published2013
David Hancock Mark Shannon Bertrand Beaumont Pierre Dumortier Frederic Durodie Volodymyr Kyrytsya Fabrice Louche Robert Mckinley Keith Nicholls The Cycle Team
In the ITER equatorial ports containing ICRH antennas, parasitic electrical resonances can be excited in the nominal 20 mm clearance gap between the port walls and the plug contained within it. RF calculations have established that these resonances can be effectively mitigated by a series of suitably located electrically conducting contacts between…
Published2007