Spherical torus concept as power plants - The ARIES-ST study

F. Najmabadi; M. Billone; L. Bromberg; V. Chan; F. Dahlgren; D. A. Deuser; L. A. El-Guebaly; H. M. Fan; S. C. Jardin; H. Y. Khater; C. E. Kessel; L. Lao; Y. R. Linliu; S. Malang; T. K. Mau; J. Menard; R. Miller; R. L. Miller; E. A. Mogahed; C. Neumeyer; T. Petrie; P. Politzer; S. Pourrahimi; J. Pulsifer; W. Reiersen; J. H. Schultz; K. T. Slattery; R. D. Stambaugh; D. Steiner; I. Sviatoslavsky; D. K. Sze; M. S. Tillack; P. Titus; A. D. Turnbull; X. R. Wang; L. M. Waganer; G. W. Wille; I. Zatz

doi:10.1016/S0920-3796(02)00302-2

Spherical torus concept as power plants - The ARIES-ST study

F. Najmabadi
, M. Billone
, L. Bromberg
, V. Chan
, F. Dahlgren
, D. A. Deuser
, L. A. El-Guebaly
, H. M. Fan
, S. C. Jardin
, H. Y. Khater
, C. E. Kessel
, L. Lao
, Y. R. Linliu
, S. Malang
, T. K. Mau
, J. Menard
, R. Miller
, R. L. Miller
, E. A. Mogahed
, C. Neumeyer

T. Petrie, P. Politzer, S. Pourrahimi, J. Pulsifer, W. Reiersen, J. H. Schultz, K. T. Slattery, R. D. Stambaugh, D. Steiner, I. Sviatoslavsky, D. K. Sze, M. S. Tillack, P. Titus, A. D. Turnbull, X. R. Wang, L. M. Waganer, G. W. Wille, I. Zatz

PPPL Theory

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

127 Scopus citations

Abstract

Recent experimental achievements and theoretical studies have generated substantial interest in the spherical torus concept. The ARIES-ST study was undertaken as a national US effort to investigate the potential of the spherical tokamak concept as a fusion power plant. This 1000 MWe fusion power plant conceptual design has an aspect ratio of 1.6, a major radius of 3.2 m, a plasma elongation (at 95% flux surface) of 3.4 and triangularity of 0.64. This configuration attains a plasma β_T of 50% (which is 90% of theoretical limit). While the plasma current is 28 MA, the almost perfect alignment of bootstrap and equilibrium current density profiles results in a current-drive power of only 28 MW. The on-axis toroidal field of 2.1 T and the peak field at the TF coil of 7.4 T led to 329 MW of Joule losses in the normal-conducting TF system. The power core uses an advanced 'dual-cooled' breeding blanket with flowing PbLi breeder and He-cooled ferritic steel structures that can achieve a thermal conversion efficiency of ∼45%. The ARIES-ST study has highlighted many areas where trade-off among physics and engineering systems are critical in determining the optimum regime of operation for ST power plants.

Original language	English (US)
Pages (from-to)	143-164
Number of pages	22
Journal	Fusion Engineering and Design
Volume	65
Issue number	2
DOIs	https://doi.org/10.1016/S0920-3796(02)00302-2
State	Published - Feb 2003

All Science Journal Classification (ASJC) codes

Civil and Structural Engineering
Nuclear Energy and Engineering
General Materials Science
Mechanical Engineering

Keywords

Fusion power plants
Spherical tokamark
Spherical torus

Access to Document

10.1016/S0920-3796(02)00302-2

Cite this

Najmabadi, F., Billone, M., Bromberg, L., Chan, V., Dahlgren, F., Deuser, D. A., El-Guebaly, L. A., Fan, H. M., Jardin, S. C., Khater, H. Y., Kessel, C. E., Lao, L., Linliu, Y. R., Malang, S., Mau, T. K., Menard, J., Miller, R., Miller, R. L., Mogahed, E. A., ... Zatz, I. (2003). Spherical torus concept as power plants - The ARIES-ST study. Fusion Engineering and Design, 65(2), 143-164. https://doi.org/10.1016/S0920-3796(02)00302-2

@article{720b8b79f4e54930970e0e4c00c405ad,

title = "Spherical torus concept as power plants - The ARIES-ST study",

abstract = "Recent experimental achievements and theoretical studies have generated substantial interest in the spherical torus concept. The ARIES-ST study was undertaken as a national US effort to investigate the potential of the spherical tokamak concept as a fusion power plant. This 1000 MWe fusion power plant conceptual design has an aspect ratio of 1.6, a major radius of 3.2 m, a plasma elongation (at 95\% flux surface) of 3.4 and triangularity of 0.64. This configuration attains a plasma βT of 50\% (which is 90\% of theoretical limit). While the plasma current is 28 MA, the almost perfect alignment of bootstrap and equilibrium current density profiles results in a current-drive power of only 28 MW. The on-axis toroidal field of 2.1 T and the peak field at the TF coil of 7.4 T led to 329 MW of Joule losses in the normal-conducting TF system. The power core uses an advanced 'dual-cooled' breeding blanket with flowing PbLi breeder and He-cooled ferritic steel structures that can achieve a thermal conversion efficiency of ∼45\%. The ARIES-ST study has highlighted many areas where trade-off among physics and engineering systems are critical in determining the optimum regime of operation for ST power plants.",

keywords = "Fusion power plants, Spherical tokamark, Spherical torus",

author = "F. Najmabadi and M. Billone and L. Bromberg and V. Chan and F. Dahlgren and Deuser, \{D. A.\} and El-Guebaly, \{L. A.\} and Fan, \{H. M.\} and Jardin, \{S. C.\} and Khater, \{H. Y.\} and Kessel, \{C. E.\} and L. Lao and Linliu, \{Y. R.\} and S. Malang and Mau, \{T. K.\} and J. Menard and R. Miller and Miller, \{R. L.\} and Mogahed, \{E. A.\} and C. Neumeyer and T. Petrie and P. Politzer and S. Pourrahimi and J. Pulsifer and W. Reiersen and Schultz, \{J. H.\} and Slattery, \{K. T.\} and Stambaugh, \{R. D.\} and D. Steiner and I. Sviatoslavsky and Sze, \{D. K.\} and Tillack, \{M. S.\} and P. Titus and Turnbull, \{A. D.\} and Wang, \{X. R.\} and Waganer, \{L. M.\} and Wille, \{G. W.\} and I. Zatz",

year = "2003",

month = feb,

doi = "10.1016/S0920-3796(02)00302-2",

language = "English (US)",

volume = "65",

pages = "143--164",

journal = "Fusion Engineering and Design",

issn = "0920-3796",

publisher = "Elsevier B.V.",

number = "2",

}

Najmabadi, F, Billone, M, Bromberg, L, Chan, V, Dahlgren, F, Deuser, DA, El-Guebaly, LA, Fan, HM, Jardin, SC, Khater, HY, Kessel, CE, Lao, L, Linliu, YR, Malang, S, Mau, TK, Menard, J, Miller, R, Miller, RL, Mogahed, EA, Neumeyer, C, Petrie, T, Politzer, P, Pourrahimi, S, Pulsifer, J, Reiersen, W, Schultz, JH, Slattery, KT, Stambaugh, RD, Steiner, D, Sviatoslavsky, I, Sze, DK, Tillack, MS, Titus, P, Turnbull, AD, Wang, XR, Waganer, LM, Wille, GW & Zatz, I 2003, 'Spherical torus concept as power plants - The ARIES-ST study', Fusion Engineering and Design, vol. 65, no. 2, pp. 143-164. https://doi.org/10.1016/S0920-3796(02)00302-2

TY - JOUR

T1 - Spherical torus concept as power plants - The ARIES-ST study

AU - Najmabadi, F.

AU - Billone, M.

AU - Bromberg, L.

AU - Chan, V.

AU - Dahlgren, F.

AU - Deuser, D. A.

AU - El-Guebaly, L. A.

AU - Fan, H. M.

AU - Jardin, S. C.

AU - Khater, H. Y.

AU - Kessel, C. E.

AU - Lao, L.

AU - Linliu, Y. R.

AU - Malang, S.

AU - Mau, T. K.

AU - Menard, J.

AU - Miller, R.

AU - Miller, R. L.

AU - Mogahed, E. A.

AU - Neumeyer, C.

AU - Petrie, T.

AU - Politzer, P.

AU - Pourrahimi, S.

AU - Pulsifer, J.

AU - Reiersen, W.

AU - Schultz, J. H.

AU - Slattery, K. T.

AU - Stambaugh, R. D.

AU - Steiner, D.

AU - Sviatoslavsky, I.

AU - Sze, D. K.

AU - Tillack, M. S.

AU - Titus, P.

AU - Turnbull, A. D.

AU - Wang, X. R.

AU - Waganer, L. M.

AU - Wille, G. W.

AU - Zatz, I.

PY - 2003/2

Y1 - 2003/2

N2 - Recent experimental achievements and theoretical studies have generated substantial interest in the spherical torus concept. The ARIES-ST study was undertaken as a national US effort to investigate the potential of the spherical tokamak concept as a fusion power plant. This 1000 MWe fusion power plant conceptual design has an aspect ratio of 1.6, a major radius of 3.2 m, a plasma elongation (at 95% flux surface) of 3.4 and triangularity of 0.64. This configuration attains a plasma βT of 50% (which is 90% of theoretical limit). While the plasma current is 28 MA, the almost perfect alignment of bootstrap and equilibrium current density profiles results in a current-drive power of only 28 MW. The on-axis toroidal field of 2.1 T and the peak field at the TF coil of 7.4 T led to 329 MW of Joule losses in the normal-conducting TF system. The power core uses an advanced 'dual-cooled' breeding blanket with flowing PbLi breeder and He-cooled ferritic steel structures that can achieve a thermal conversion efficiency of ∼45%. The ARIES-ST study has highlighted many areas where trade-off among physics and engineering systems are critical in determining the optimum regime of operation for ST power plants.

AB - Recent experimental achievements and theoretical studies have generated substantial interest in the spherical torus concept. The ARIES-ST study was undertaken as a national US effort to investigate the potential of the spherical tokamak concept as a fusion power plant. This 1000 MWe fusion power plant conceptual design has an aspect ratio of 1.6, a major radius of 3.2 m, a plasma elongation (at 95% flux surface) of 3.4 and triangularity of 0.64. This configuration attains a plasma βT of 50% (which is 90% of theoretical limit). While the plasma current is 28 MA, the almost perfect alignment of bootstrap and equilibrium current density profiles results in a current-drive power of only 28 MW. The on-axis toroidal field of 2.1 T and the peak field at the TF coil of 7.4 T led to 329 MW of Joule losses in the normal-conducting TF system. The power core uses an advanced 'dual-cooled' breeding blanket with flowing PbLi breeder and He-cooled ferritic steel structures that can achieve a thermal conversion efficiency of ∼45%. The ARIES-ST study has highlighted many areas where trade-off among physics and engineering systems are critical in determining the optimum regime of operation for ST power plants.

KW - Fusion power plants

KW - Spherical tokamark

KW - Spherical torus

UR - https://www.scopus.com/pages/publications/0037322519

UR - https://www.scopus.com/pages/publications/0037322519#tab=citedBy

U2 - 10.1016/S0920-3796(02)00302-2

DO - 10.1016/S0920-3796(02)00302-2

M3 - Article

AN - SCOPUS:0037322519

SN - 0920-3796

VL - 65

SP - 143

EP - 164

JO - Fusion Engineering and Design

JF - Fusion Engineering and Design

IS - 2

ER -

Spherical torus concept as power plants - The ARIES-ST study

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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