CIGALE: An innovative gas neutralizer based high efficiency neutral beam injector concept for future fusion reactors

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Alain Simonin, Hugo Bouvard, Basile Pouradier Duteil
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引用次数: 0

Abstract

This paper outlines the main features of a new high efficiency > 62%) high power (~20 MW D0) Neutral Beam concept based on pragmatic solutions suitable with the reactor requirements. The injector is modular (several beamlines in parallel) with independent ion sources referenced to the ground potential and gas neutralizers held at +1 MV. This topology leads to numerous simplifications; it overcomes the main issues of conventional NB systems, such as the complex 1MV electrical setup, the difficult ion source remote maintenance, the high caesium consumption. The other key parameter is the gas neutralization concept which minimizes the amount of gas by operating at a low gas target and low neutralizer duct conductance. The implementation of an energy recovery system for the residual 1 MeV D- is essential to attain a high wall-plug efficiency. These specific features require thin laminar D- beams provided by a pre-acceleration up to 100 keV in slotted grid apertures to form thin blade-like beamlets, followed by the post-acceleration to 1 MeV by merging the beamlets in a single beam in five gaps (+200 kV per gap). All these specific aspects minimize the beams losses and thermal loads along the beamline and enhance the injector reliability and availability.
CIGALE: 基于气体中和器的创新型高效中性束注入器概念,适用于未来的聚变反应堆
本文概述了一种新型高效率(> 62%)高功率(~20 兆瓦 D0)中性束概念的主要特点,该概念基于适合反应堆要求的实用解决方案。注入器是模块化的(多条光束线并行),具有独立的离子源,以地电位为基准,气体中和器保持在 +1 MV。这种拓扑结构简化了许多工作;克服了传统 NB 系统的主要问题,如复杂的 1MV 电气设置、离子源远程维护困难、铯消耗量大等。另一个关键参数是气体中和概念,它通过在低气体目标和低中和器管道电导下运行,最大限度地减少了气体量。残余 1 MeV D- 的能量回收系统对实现高壁塞效率至关重要。这些具体特点要求通过在槽栅孔径中预加速到 100 keV 以形成薄刀片状小光束来提供薄层状 D- 光束,然后通过在五个间隙(每个间隙 +200 kV)中将小光束合并为单个光束,将其后加速到 1 MeV。所有这些具体方面都最大限度地减少了光束线的光束损耗和热负荷,提高了注入器的可靠性和可用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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