The research plan of the JT-60SA, a superconducting tokamak device currently under construction, requests a powerful pellet injection system for its particle fueling and edge-localized-mode (ELM) pacing experiments. These investigations, foreseen to answer basic questions with respect to the operation...
summary and future plan are presented. 2. Divertor armors Required performances of JT-60SA divertor are (1) handling of 41–50MW plasma heating power during 100s, (2) particle con- trol for high density ∼10 20 m −3 for long pulse more than 100s, (3) ...
To support its research aims with high-performance, long-pulse (100 s) experiments JT-60SA has an extensive plan for enhancements in the coming years. The next improvements planned for plasma heating and fueling, power handling, disruption mitigation, and diagnostic capability are outlined. 展开 ...
This paper gives technical progress on fabrication, installation and assembly of tokamak components and ancillary systems, as well as progress of the JT-60SA Research Plan being developed jointly by European and Japanese fusion communities.doi:10.1016/j.fusengdes.2015.10.026Shirai, Hiroshi...
In preparation for exploitation, the JT-60SA Research Plan was issued in December 2011, and the research integration activities are addressing JT-60SA data management, validation and analysis tools. This paper overviews the latest evolution of the project in terms of construction and exploitation ...
R.Wang 1 , JT-60SA Research Plan Contributors and JT-60SA Team Consorzio RFX, Padova, Italy; 2 CNRS-Universit茅 de Provence, Marseille, France; CCFE, Culham, United Kingdom; FOM, Nieuwegein, The Netherlands; JAEA, Naka, Japan; University of Tokyo, Japan; IRFM-CAE, Cadarache,France; ...
In this work we present a study on the viability and practicality of installing a Doppler reflectometer (DR) system in the JT-60SA advanced tokamak. First, we discuss its scientific scope in the context of the JT-60SA research plan. We identify a number of fields in which a DR would ...
To support its research aims with high-performance, long-pulse (100 s) experiments JT-60SA has an extensive plan for enhancements in the coming years. The next improvements planned for plasma heating and fueling, power handling, disruption mitigation, and diagnostic capability are outlined.S. ...
During the initial research phase I, the stable operation at high current in large superconducting machine and the ITER risk mitigation for non-activated phase will be highlighted. A robust VDE predictor has been developed with machine learning and the adaptive voltage allocation scheme. The control...
JT-60SASuperconducting tokamakSatellite Tokamak ProgramBroader approachThis paper gives technical progress on fabrication, installation and assembly of tokamak components and ancillary systems, as well as progress of JT-60SA Research Plan being developed jointly by EU and Japanese fusion communities....