Your search keyword '"Shinsuke Tokunaga"' showing total 2 results

1. Simulation study of power load with impurity seeding in advanced divertor 'short super-X divertor' for a tokamak reactor

Author

Katsuhiro Shimizu, Kenji Tobita, Kazuo Hoshino, Hiroyasu Utoh, Nobuyuki Asakura, Noriyasu Ohno, K. Shinya, and Shinsuke Tokunaga

Subjects

Nuclear and High Energy Physics, Tokamak, Materials science, Field line, Divertor, Nuclear engineering, Plasma, Fusion power, law.invention, Nuclear physics, Nuclear Energy and Engineering, law, Electromagnetic coil, Shield, General Materials Science, Neutron

Abstract

A short super-X divertor (SXD) is proposed as an option for the Demo divertor, where the field line length from the divertor null to the outer target was largely increased compared to a similar-size conventional divertor. Physics and engineering design studies for a 3 GW-level fusion power Demo reactor (SlimCS) (Tobita et al., 2009) have recently progressed. Minimal number of the divertor coils were installed inside the toroidal field coil, i.e. interlink-winding. Arrangement of the poloidal field coils and their currents were determined, taking into account of the engineering design such as vacuum vessel and the neutron shield structures, and the divertor maintenance scenario. Divertor plasma simulation showed that significant radiation region is produced between the super-X null and the target. Radiation loss in the divertor was increased, producing fully detached plasmas efficiently. Advantages of the short SXD were demonstrated, but the total peak heat load was a marginal level (10 MW m −2 ) for the engineering design.

Published

2015

2. Combination of helical ferritic-steel inserts and flux-tube-expansion divertor for the heat control in tokamak DEMO reactor

Author

Kazuo Hoshino, Shinsuke Tokunaga, Tomonori Takizuka, Nobuyuki Asakura, and Katsuhiro Shimizu

Subjects

Nuclear and High Energy Physics, Materials science, Tokamak, Flux tube, Field (physics), Nuclear engineering, Divertor, Rotational symmetry, Edge (geometry), law.invention, Nuclear magnetic resonance, Nuclear Energy and Engineering, Physics::Plasma Physics, Neutron flux, law, General Materials Science, Transient (oscillation)

Abstract

Edge localized modes (ELMs) in the H-mode operation of tokamak reactors may be suppressed/mitigated by the resonant magnetic perturbation (RMP), but RMP coils are considered incompatible with DEMO reactors under the strong neutron flux. We propose an innovative concept of the RMP without installing coils but inserting ferritic steels of the helical configuration. Helically perturbed field is naturally formed in the axisymmetric toroidal field through the helical ferritic steel inserts (FSIs). When ELMs are avoided, large stationary heat load on divertor plates can be reduced by adopting a flux-tube-expansion (FTE) divertor like an X divertor. Separatrix shape and divertor-plate inclination are similar to those of a simple long-leg divertor configuration. Combination of the helical FSIs and the FTE divertor is a suitable method for the heat control to avoid transient ELM heat pulse and to reduce stationary divertor heat load in a tokamak DEMO reactor.

Published

2015