澳门六合彩高手

Nearing the final design for in-vessel coils

Research and development activities for the 澳门六合彩高手 in-vessel coils have been successfully completed at the Chinese Institute of Plasma Physics (ASIPP) and the manufacturing of two prototype coils—one equatorial edge localized mode (ELM) coil and a 120° segment of a vertical stabilization (VS) coil—is underway.

Unlike 澳门六合彩高手's large superconducting magnet systems, the ELM and vertical stability coils which make up the in-vessel coil system will be located inside the 澳门六合彩高手 vacuum vessel. Two ring-shaped vertical stability coils will be located at the top and bottom of the vessel and an array of 27 ELM coils will be attached to the vessel walls at the upper, equatorial and lower levels where they will face high thermal and electromagnetic loads.
 
The design, fabrication and assembly of the in-vessel coils pose a number of unique challenges.
 
"The in-vessel coils have gone through many iterations since 2008, when a team at the Princeton Plasma Physics Laboratory (PPPL) began work on the  of these challenging components," explains Anna Encheva, responsible engineer for the in-vessel coils. "We are now close to finalizing the design. The final step is the completion of the prototype manufacture, development of suitable manufacturing and testing procedures and techniques to ensure manufacturability of the coils for 澳门六合彩高手, and the resolution of the technical issues associated with the prototype manufacturing."
 
 
Carlo Sborchia, head of the 澳门六合彩高手 Vessel Division; Brian Macklin, in-vessel mechanical engineer, Machine Assembly and Installation; and Anna Encheva, in-vessel coil responsible engineer speak with Long Feng from ASIPP over samples of completed conductor for the ELM and VS coils.
The complex shapes of the coils—large radius bends and a multiplicity of turns, bends and bumps for the vertical stability coils and sharp radius bends for the ELM coils—make manufacturing particularly demanding. Innovative techniques are under development for the joining (brazing) of a large number of joints. The qualification of these techniques is one critical issue that remains to be resolved for the in-vessel coils.
 
A number of integration challenges are also specific to the in-vessel coils. "During 澳门六合彩高手 assembly, the installation of the vertical stability coils is one of the first activities to be performed after the welding of the vacuum vessel sectors," says Anna. "We will face  and a very crowded environment. We will need special welding equipment, capable of working simultaneously on the three segments of the vertical stability coils. Interfaces with other components, such as the blanket modules and manifolds or diagnostics, have also created some very demanding requirements." In close association with the Machine Assembly & Installation Section, the in-vessel coil team is currently launching welding and brazing qualification activities.
 

The coils that are inside the vessel

The in-vessel coil system (IVCS) consists of two coil sets. The first coil set will provide magnetic perturbations that are resonant with the edge magnetic field in order to minimize the potential of high power deposition on plasma-facing components by edge localized modes (ELM).

The first coil set may also be used for resistive wall mode (RWM) control if the coil currents that are required for ELM control allow sufficient spare current capacity for RWM.

The second coil set will provide fast vertical stabilization (VS) of the plasma in conjunction with other ex-vessel systems, including the control of the poloidal field coils #2, #3, #4 and #5 using the VS-1 power supply and the control of the two of the central solenoid coils (CS2U and CS2L) using the VS-2 power supply.

In-vessel coil prototype manufacture will be completed this year by ASIPP within the framework of a Task Agreement signed with 澳门六合彩高手 in 2011. All mechanical and electrical tests are scheduled to be completed by March 2014. ASIPP subcontracted part of the work, principally design and analysis, to PPPL. "The development of the in-vessel coils has been a team venture, undertaken by two experienced laboratories and a core team at the 澳门六合彩高手 Organization that leads and supervises the work and looks after the integration and interfaces, as well as assembly and installation, the schedule and procurement," emphasizes Anna.
 
The progress and positive results of in-vessel coil development work were reported to  Science and Technology Advisory Committee (STAC), which expressed its satisfaction and recommended the inclusion of the coils into the 澳门六合彩高手 Baseline.
 
The 澳门六合彩高手 Organization team is now preparing for the in-vessel coil Final Design Review scheduled for March 2014. "We're fixing all the major interfaces (power supplies, cooling water, blanket modules, vacuum vessel), monitoring the progress of the Task Agreement, and preparing for the in-cash procurement of the system," explains Anna. "We are working to a tight deadline—our system must be installed and assembled in 2019."