Spherical tokamak power plant design issues

T. C. Hender; A. Bond; J. Edwards; P. J. Karditsas; K. G. McClements; J. Mustoe; D. V. Sherwood; G. M. Voss; H. R. Wilson

doi:10.1016/S0920-3796(00)00169-1

Spherical tokamak power plant design issues

T. C. Hender, A. Bond, J. Edwards, P. J. Karditsas, K. G. McClements, J. Mustoe, D. V. Sherwood, G. M. Voss, H. R. Wilson

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

8 Scopus citations

Abstract

The very high β potential of the spherical tokamak has been demonstrated in the START experiment. Systems code studies show the cost of electricity from spherical tokamak power plants, operating at high β in second ballooning mode stable regime, is comparable with fossil fuels and fission. Outline engineering designs are presented based on two concepts for the central rod of the toroidal field (TF) circuit - a room temperature water cooled copper rod or a helium cooled cryogenic aluminum rod. For the copper rod case the TF return limbs are supported by the vacuum vessel, while for the aluminum rod the TF coils form an independent structure. In both cases thermohydraulic and stress calculations indicate the viability of the design. Two-dimensional neutronics calculations show the feasibility of tritium self-sufficiency without an inboard blanket. The spherical tokamak has unique maintenance possibilities based on lowering major component structures into a hot cell beneath the device and these are discussed.

Original language	English
Pages (from-to)	255-263
Number of pages	9
Journal	Fusion Engineering and Design
Volume	48
Issue number	3
DOIs	https://doi.org/10.1016/S0920-3796(00)00169-1
State	Published - Sep 2000
Externally published	Yes

Funding

This work was jointly funded by the UK Department of Trade and Industry and EURATOM.

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10.1016/S0920-3796(00)00169-1

Cite this

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abstract = "The very high β potential of the spherical tokamak has been demonstrated in the START experiment. Systems code studies show the cost of electricity from spherical tokamak power plants, operating at high β in second ballooning mode stable regime, is comparable with fossil fuels and fission. Outline engineering designs are presented based on two concepts for the central rod of the toroidal field (TF) circuit - a room temperature water cooled copper rod or a helium cooled cryogenic aluminum rod. For the copper rod case the TF return limbs are supported by the vacuum vessel, while for the aluminum rod the TF coils form an independent structure. In both cases thermohydraulic and stress calculations indicate the viability of the design. Two-dimensional neutronics calculations show the feasibility of tritium self-sufficiency without an inboard blanket. The spherical tokamak has unique maintenance possibilities based on lowering major component structures into a hot cell beneath the device and these are discussed.",

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AU - Hender, T. C.

AU - Bond, A.

AU - Edwards, J.

AU - Karditsas, P. J.

AU - McClements, K. G.

AU - Mustoe, J.

AU - Sherwood, D. V.

AU - Voss, G. M.

AU - Wilson, H. R.

PY - 2000/9

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AB - The very high β potential of the spherical tokamak has been demonstrated in the START experiment. Systems code studies show the cost of electricity from spherical tokamak power plants, operating at high β in second ballooning mode stable regime, is comparable with fossil fuels and fission. Outline engineering designs are presented based on two concepts for the central rod of the toroidal field (TF) circuit - a room temperature water cooled copper rod or a helium cooled cryogenic aluminum rod. For the copper rod case the TF return limbs are supported by the vacuum vessel, while for the aluminum rod the TF coils form an independent structure. In both cases thermohydraulic and stress calculations indicate the viability of the design. Two-dimensional neutronics calculations show the feasibility of tritium self-sufficiency without an inboard blanket. The spherical tokamak has unique maintenance possibilities based on lowering major component structures into a hot cell beneath the device and these are discussed.

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Spherical tokamak power plant design issues

Abstract

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