Design concept of K-DEMO for near-term implementation

K. Kim; K. Im; H. C. Kim; S. Oh; J. S. Park; S. Kwon; Y. S. Lee; J. H. Yeom; C. Lee; G. S. Lee; G. Neilson; C. Kessel; T. Brown; P. Titus; D. Mikkelsen; Y. Zhai

doi:10.1088/0029-5515/55/5/053027

Design concept of K-DEMO for near-term implementation

K. Kim
, K. Im
, H. C. Kim
, S. Oh
, J. S. Park
, S. Kwon
, Y. S. Lee
, J. H. Yeom
, C. Lee
, G. S. Lee
, G. Neilson
, C. Kessel
, T. Brown
, P. Titus
, D. Mikkelsen
, Y. Zhai

PPPL Engineering

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

134 Scopus citations

Abstract

A Korean fusion energy development promotion law (FEDPL) was enacted in 2007. As a following step, a conceptual design study for a steady-state Korean fusion demonstration reactor (K-DEMO) was initiated in 2012. After the thorough 0D system analysis, the parameters of the main machine characterized by the major and minor radii of 6.8 and 2.1 m, respectively, were chosen for further study. The analyses of heating and current drives were performed for the development of the plasma operation scenarios. Preliminary results on lower hybrid and neutral beam current drive are included herein. A high performance Nb₃Sn-based superconducting conductor is adopted, providing a peak magnetic field approaching 16 T with the magnetic field at the plasma centre above 7 T. Pressurized water is the prominent choice for the main coolant of K-DEMO when the balance of plant development details is considered. The blanket system adopts a ceramic pebble type breeder. Considering plasma performance, a double-null divertor is the reference configuration choice of K-DEMO. For a high availability operation, K-DEMO incorporates a design with vertical maintenance. A design concept for K-DEMO is presented together with the preliminary design parameters.

Original language	English (US)
Article number	053027
Journal	Nuclear Fusion
Volume	55
Issue number	5
DOIs	https://doi.org/10.1088/0029-5515/55/5/053027
State	Published - May 1 2015

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Condensed Matter Physics

Keywords

breeding blanket concept
DEMO
divertor concept
in-vessel components
K-DEMO
superconducting magnet

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10.1088/0029-5515/55/5/053027

Cite this

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title = "Design concept of K-DEMO for near-term implementation",

abstract = "A Korean fusion energy development promotion law (FEDPL) was enacted in 2007. As a following step, a conceptual design study for a steady-state Korean fusion demonstration reactor (K-DEMO) was initiated in 2012. After the thorough 0D system analysis, the parameters of the main machine characterized by the major and minor radii of 6.8 and 2.1 m, respectively, were chosen for further study. The analyses of heating and current drives were performed for the development of the plasma operation scenarios. Preliminary results on lower hybrid and neutral beam current drive are included herein. A high performance Nb3Sn-based superconducting conductor is adopted, providing a peak magnetic field approaching 16 T with the magnetic field at the plasma centre above 7 T. Pressurized water is the prominent choice for the main coolant of K-DEMO when the balance of plant development details is considered. The blanket system adopts a ceramic pebble type breeder. Considering plasma performance, a double-null divertor is the reference configuration choice of K-DEMO. For a high availability operation, K-DEMO incorporates a design with vertical maintenance. A design concept for K-DEMO is presented together with the preliminary design parameters.",

keywords = "breeding blanket concept, DEMO, divertor concept, in-vessel components, K-DEMO, superconducting magnet",

author = "K. Kim and K. Im and Kim, \{H. C.\} and S. Oh and Park, \{J. S.\} and S. Kwon and Lee, \{Y. S.\} and Yeom, \{J. H.\} and C. Lee and Lee, \{G. S.\} and G. Neilson and C. Kessel and T. Brown and P. Titus and D. Mikkelsen and Y. Zhai",

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T1 - Design concept of K-DEMO for near-term implementation

AU - Kim, K.

AU - Im, K.

AU - Kim, H. C.

AU - Oh, S.

AU - Park, J. S.

AU - Kwon, S.

AU - Lee, Y. S.

AU - Yeom, J. H.

AU - Lee, C.

AU - Lee, G. S.

AU - Neilson, G.

AU - Kessel, C.

AU - Brown, T.

AU - Titus, P.

AU - Mikkelsen, D.

AU - Zhai, Y.

PY - 2015/5/1

Y1 - 2015/5/1

N2 - A Korean fusion energy development promotion law (FEDPL) was enacted in 2007. As a following step, a conceptual design study for a steady-state Korean fusion demonstration reactor (K-DEMO) was initiated in 2012. After the thorough 0D system analysis, the parameters of the main machine characterized by the major and minor radii of 6.8 and 2.1 m, respectively, were chosen for further study. The analyses of heating and current drives were performed for the development of the plasma operation scenarios. Preliminary results on lower hybrid and neutral beam current drive are included herein. A high performance Nb3Sn-based superconducting conductor is adopted, providing a peak magnetic field approaching 16 T with the magnetic field at the plasma centre above 7 T. Pressurized water is the prominent choice for the main coolant of K-DEMO when the balance of plant development details is considered. The blanket system adopts a ceramic pebble type breeder. Considering plasma performance, a double-null divertor is the reference configuration choice of K-DEMO. For a high availability operation, K-DEMO incorporates a design with vertical maintenance. A design concept for K-DEMO is presented together with the preliminary design parameters.

AB - A Korean fusion energy development promotion law (FEDPL) was enacted in 2007. As a following step, a conceptual design study for a steady-state Korean fusion demonstration reactor (K-DEMO) was initiated in 2012. After the thorough 0D system analysis, the parameters of the main machine characterized by the major and minor radii of 6.8 and 2.1 m, respectively, were chosen for further study. The analyses of heating and current drives were performed for the development of the plasma operation scenarios. Preliminary results on lower hybrid and neutral beam current drive are included herein. A high performance Nb3Sn-based superconducting conductor is adopted, providing a peak magnetic field approaching 16 T with the magnetic field at the plasma centre above 7 T. Pressurized water is the prominent choice for the main coolant of K-DEMO when the balance of plant development details is considered. The blanket system adopts a ceramic pebble type breeder. Considering plasma performance, a double-null divertor is the reference configuration choice of K-DEMO. For a high availability operation, K-DEMO incorporates a design with vertical maintenance. A design concept for K-DEMO is presented together with the preliminary design parameters.

KW - breeding blanket concept

KW - DEMO

KW - divertor concept

KW - in-vessel components

KW - K-DEMO

KW - superconducting magnet

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JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 5

M1 - 053027

ER -

Design concept of K-DEMO for near-term implementation

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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