Beam driven tokamak fusion reactors

Kunihiko Okano

doi:10.1080/18811248.1990.9731243

Beam driven tokamak fusion reactors

Kunihiko Okano

Department of Mechanical Engineering

Research output: Contribution to journal › Review article › peer-review

1 Citation (Scopus)

Abstract

The recent successes in neutral beam current drive experiments on large tokamaks prompt us to consider the prospect of a beam driven steady state tokamak fusion reactor. A neoclassical theory on the beam driven current, which fully includes the toroidal effects on the induced ion and electron currents and is the most reliable to date, is reviewed in this article. The prospect of steady state tokamaks predicted by the theory may be somewhat pessimistic if the plasma current is sustained only by the beam driven current, because too much beam power is necessary for the current drive. However, thanks to the bootstrap current which was discovered in many tokamaks in recent years, the feasibility of a continuous tokamak operation will probably be highly improved because several tens of percent of the current will be produced by the bootstrap current. The energy gain Q would attain 30 to 50 in the power reactor and about 10 even for next generation (demonstration size) tokamaks.

Original language	English
Pages (from-to)	689-699
Number of pages	11
Journal	Journal of Nuclear Science and Technology
Volume	27
Issue number	8
DOIs	https://doi.org/10.1080/18811248.1990.9731243
Publication status	Published - 1990 Aug

Keywords

Beam driven current
Bootstrap current
Current drive
Energy gain
Neutral beam injection
Nuclear fusion
Tokamak devices

ASJC Scopus subject areas

Nuclear and High Energy Physics
Nuclear Energy and Engineering

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10.1080/18811248.1990.9731243

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title = "Beam driven tokamak fusion reactors",

abstract = "The recent successes in neutral beam current drive experiments on large tokamaks prompt us to consider the prospect of a beam driven steady state tokamak fusion reactor. A neoclassical theory on the beam driven current, which fully includes the toroidal effects on the induced ion and electron currents and is the most reliable to date, is reviewed in this article. The prospect of steady state tokamaks predicted by the theory may be somewhat pessimistic if the plasma current is sustained only by the beam driven current, because too much beam power is necessary for the current drive. However, thanks to the bootstrap current which was discovered in many tokamaks in recent years, the feasibility of a continuous tokamak operation will probably be highly improved because several tens of percent of the current will be produced by the bootstrap current. The energy gain Q would attain 30 to 50 in the power reactor and about 10 even for next generation (demonstration size) tokamaks.",

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author = "Kunihiko Okano",

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AU - Okano, Kunihiko

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AB - The recent successes in neutral beam current drive experiments on large tokamaks prompt us to consider the prospect of a beam driven steady state tokamak fusion reactor. A neoclassical theory on the beam driven current, which fully includes the toroidal effects on the induced ion and electron currents and is the most reliable to date, is reviewed in this article. The prospect of steady state tokamaks predicted by the theory may be somewhat pessimistic if the plasma current is sustained only by the beam driven current, because too much beam power is necessary for the current drive. However, thanks to the bootstrap current which was discovered in many tokamaks in recent years, the feasibility of a continuous tokamak operation will probably be highly improved because several tens of percent of the current will be produced by the bootstrap current. The energy gain Q would attain 30 to 50 in the power reactor and about 10 even for next generation (demonstration size) tokamaks.

KW - Beam driven current

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KW - Energy gain

KW - Neutral beam injection

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KW - Tokamak devices

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Beam driven tokamak fusion reactors

Abstract

Keywords

ASJC Scopus subject areas

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