Steady-state operation regime of tokamak reactor plasma. Consistency analysis

Sanae Inoue Itoh; Atsushi Fukuyama; Tomonori Takizuka; Kimitaka Itoh

doi:10.13182/FST89-A29126

Steady-state operation regime of tokamak reactor plasma. Consistency analysis

Sanae Inoue Itoh, Atsushi Fukuyama, Tomonori Takizuka, Kimitaka Itoh

Research output: Contribution to journal › Article › peer-review

9 Citations (Scopus)

Abstract

The consistency of physics constraints imposed on a core plasma in a tokamak reactor is investigated. Conditions for the steady-state operation of the International Thermonuclear Experimental Reactor (ITER)-grade plasma are listed, i.e., the density limit, the critical beta, feasibility of full current-drive and divertor functions, etc. The parameter regime, in which these guidelines are simultaneously satisfied, is investigated. Based on the available data base, the consistency of the conditions is examined. The L-mode scaling of the energy confinement time is employed for extrapolation to the ITER-grade plasma. The Q value and the size dependence are studied. The consistent operating regime of the steady-state operation is found. If offset-linear scaling is applied, the minimum and necessary input power is approximately 130 MW.

Original language	English
Pages (from-to)	346-364
Number of pages	19
Journal	Fusion Technology
Volume	16
Issue number	3
DOIs	https://doi.org/10.13182/FST89-A29126
Publication status	Published - 1989
Externally published	Yes

All Science Journal Classification (ASJC) codes

Engineering(all)

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10.13182/FST89-A29126

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abstract = "The consistency of physics constraints imposed on a core plasma in a tokamak reactor is investigated. Conditions for the steady-state operation of the International Thermonuclear Experimental Reactor (ITER)-grade plasma are listed, i.e., the density limit, the critical beta, feasibility of full current-drive and divertor functions, etc. The parameter regime, in which these guidelines are simultaneously satisfied, is investigated. Based on the available data base, the consistency of the conditions is examined. The L-mode scaling of the energy confinement time is employed for extrapolation to the ITER-grade plasma. The Q value and the size dependence are studied. The consistent operating regime of the steady-state operation is found. If offset-linear scaling is applied, the minimum and necessary input power is approximately 130 MW.",

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AU - Itoh, Sanae Inoue

AU - Fukuyama, Atsushi

AU - Takizuka, Tomonori

AU - Itoh, Kimitaka

PY - 1989

Y1 - 1989

N2 - The consistency of physics constraints imposed on a core plasma in a tokamak reactor is investigated. Conditions for the steady-state operation of the International Thermonuclear Experimental Reactor (ITER)-grade plasma are listed, i.e., the density limit, the critical beta, feasibility of full current-drive and divertor functions, etc. The parameter regime, in which these guidelines are simultaneously satisfied, is investigated. Based on the available data base, the consistency of the conditions is examined. The L-mode scaling of the energy confinement time is employed for extrapolation to the ITER-grade plasma. The Q value and the size dependence are studied. The consistent operating regime of the steady-state operation is found. If offset-linear scaling is applied, the minimum and necessary input power is approximately 130 MW.

AB - The consistency of physics constraints imposed on a core plasma in a tokamak reactor is investigated. Conditions for the steady-state operation of the International Thermonuclear Experimental Reactor (ITER)-grade plasma are listed, i.e., the density limit, the critical beta, feasibility of full current-drive and divertor functions, etc. The parameter regime, in which these guidelines are simultaneously satisfied, is investigated. Based on the available data base, the consistency of the conditions is examined. The L-mode scaling of the energy confinement time is employed for extrapolation to the ITER-grade plasma. The Q value and the size dependence are studied. The consistent operating regime of the steady-state operation is found. If offset-linear scaling is applied, the minimum and necessary input power is approximately 130 MW.

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Steady-state operation regime of tokamak reactor plasma. Consistency analysis

Abstract

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