Preliminary RF characterization of DEMO in-port ion cyclotron heating system for toroidal and poloidal geometry variations

Maquet V.; Bobkov V.; Messiaen A.; Usoltceva M.

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Preliminary RF characterization of DEMO in-port ion cyclotron heating system for toroidal and poloidal geometry variations

机译：初步RF对环形和面部几何变化的输送端口离子回旋加热系统的初步RF表征

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Ion cyclotron Resonance Heating (ICRH) is one of the auxiliary heating schemes considered for the future DEMOnstration Power Plant (DEMO). The ICRH system in DEMO should couple 50 MW using three equatorial ports. Compared to the ITER one, the current DEMO port design has a smaller toroidal and a larger poloidal extent. One of the ICRH pre-conceptual design options for DEMO, an in-port antenna based on the current ITER design, is investigated using the ANTITER II code. To make optimal use of the port larger poloidal extent, the possibility to use quadruplets instead of the ITER triplets is explored. The impact on the power coupling is evaluated for two different antenna geometry considering a possible toroidal extension of the antenna in the blanket. The ITER matching-decoupling system is adapted to the new antenna front geometries considered.

机译：离子回旋谐振加热（ICRH）是考虑未来示范电厂（演示）的辅助加热方案之一。 DEMO中的ICRH系统应使用三个赤道端口耦合50 MW。与ITER相比，目前的演示端口设计具有较小的环形环形和更大的单片程度。使用Alti II代码研究了用于演示的ICRH前概念设计选项，是基于当前迭代设计的端口天线。为了使端口更大的占码头范围，探讨了使用四元铲而不是浸泡三元组的可能性。考虑到橡皮布中的天线可能的环形延伸，对两种不同的天线几何进行评估对电力耦合的影响。迭代匹配解耦系统适用于考虑的新天线前几何形状。

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《Fusion Engineering and Design》 |2021年第8期|112508.1-112508.4|共4页
作者
Maquet V.; Bobkov V.; Messiaen A.; Usoltceva M.;
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作者单位

LPP ERM KMS B-1000 Brussels Belgium|Univ Libre Bruxelles Ave FD Roosevelt 50 B-1050 Brussels Belgium;

Max Planck Inst Plasma Phys Boltzmannstr 2 D-85748 Garching Germany;

LPP ERM KMS B-1000 Brussels Belgium;

Max Planck Inst Plasma Phys Boltzmannstr 2 D-85748 Garching Germany;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
DEMO; Heating and current drive; ICRH;

机译：演示;加热和电流驱动;ICRH;

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专利

1. Impurity transport in Alcator C-Mod in the presence of poloidal density variation induced by ion cyclotron resonance heating [J] . Mollen A., Pusztai I., Reinke M. L., Plasma physics and controlled fusion . 2014,第12期

机译：在离子回旋共振加热引起的多倍体密度变化下，Alcator C-Mod中的杂质传输
2. Poloidal variation of high-Z impurity density due to hydrogen minority ion cyclotron resonance heating on Alcator C-Mod [J] . Reinke M.L., Hutchinson I.H., Rice J.E., Plasma physics and controlled fusion . 2012,第4期

机译：Alcator C-Mod上的少数氢离子回旋共振加热导致的高Z杂质密度的极谱变化
3. Semi-analytical modelling of non-local ion-cyclotron resonance heating in toroidal geometry [J] . D. Van Eester Journal of Plasma Physics . 1995,第1期

机译：环形几何中非局部离子回旋共振加热的半解析模型
4. Nonlinear Particle Simulation of Ion Cyclotron Waves in Toroidal Geometry [C] . A. Kuley, J. Bao, Z. Lin, Topical Conference on Radio Frequency Power in Plasmas . 2015

机译：环形几何中离子回旋波的非线性粒子模拟
5. Fast wave ion cyclotron resonance heating experiments on the advanced toroidal facility [D] . Kwon, Myeun. 1990

机译：先进环形装置上的快速波离子回旋加速器共振加热实验
6. Characterization of the interface structure of enzyme-inhibitor complex by using hydrogen-deuterium exchange and electrospray ionization Fourier transform ion cyclotron resonance mass spectrometry. [O] . S. Akashi, K. Takio 2000

机译：通过氢-氘交换和电喷雾电离傅立叶变换离子回旋共振质谱法表征酶-抑制剂复合物的界面结构。
7. Electron cyclotron heating and current drive in toroidal geometry [O] . A.H. Kritz 1991

机译：电子回旋加热和环形几何中的电流驱动

Preliminary RF characterization of DEMO in-port ion cyclotron heating system for toroidal and poloidal geometry variations

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