Daily Archives: January 9, 2020

2020年1月9日 五室第134期研讨会

202019 五室第134期研讨会

题  目: Progress and Remaining Issues in Integrated Modeling for Core Plasma in CFETR



 间:2020年1月9日(星期四)    15:00—16:30

地 点:6楼中间会议室

摘 要:

Core-Pedestal integrated modeling shows that it is necessary to operate with high density to meet the high fusion power target (~1GW) for CFETR. High density operation require efficient current drive to sustain the plasma current in both the hybrid scenario and steady-state scenarios. Steady-state scenario is designed with high poloidal beta condition and a localized reversed magnetic shear, which reduces the energy/particle transport in the intermediate radial region. Composition of helicon current drive, electron cyclotron current drive and bootstrap current can sustain the localized reversed magnetic shear, the location of which is optimized to make the normalized beta lower than the empirical limit without wall (4li).The ongoing works include to review the transport of fuel ions and impurities, the stabilization of global resistive modes and the nonlinear behavior of edge localized modes in these scenarios.

(This is an unfinished work yet.)


2020年1月6日 五室第133期研讨会

202016 五室第133期研讨会

题  目: Prospect of plasma theory and simulation research for JA DEMO  ( Dr. YAGI Masatoshi)

  摘  要:In Japan, the Joint Special Design Team for Fusion DEMO contributes to develop JA DEMO as the national team. Recently, plasma theory and simulation working group has drawn up an intermediate term research plan to contribute the conceptual design of JA DEMO. In this presentation, we will briefly introduce the activity of plasma theory and simulation research for DEMO.

题  目: Interplay between fluctuation driven toroidal axisymmetric flows and resistive ballooning mode turbulence  Dr. SETO Haruki

摘  要:An interplay between fluctuation driven toroidal axisymmetric flows (

convective cell modes) and resistive ballooning mode turbulence after the pedestal collapse is numerically studied by a four-field reduced MHD model in the BOUT++ framework. The strong flow shear sup- presses the radial transport of pressure filaments, and the pressure profile in the pedestal region is partially recovered. As a result, a secondary instability is quasi-linearly excited, which yields a secondary collapse. The subsequent damped oscillation is also analyzed by phase diagram analysis.

题  目: Characteristics of ITG turbulence and associated global profile

formation in flux-driven gyrokinetic simulation ( Dr. WANG Wei)

摘  要:Global nature of multi-scale turbulence is of specifically importance in

understanding and evaluating transport levels in Tokamak plasmas. Based on flux-driven gyrokinetic simulations using GKNET, characteristics of ITG turbulence and associated global profile formation are discussed through several approaches including Fourier-based analyses and the newly developed size-PDF analysis

主持人: 项农

时  间:2019年1月6日(星期一)  14:00—16:30

地  点:4楼中间会议室 ~欢迎全所感兴趣的同志