Abstract
Comparative study on the plasma performance and the engineering characteristics of low and high aspect ratio devices for ITER (International Thermonuclear Experimental Reactor) design option is done to examine quantitatively the expected merit and demerit of high aspect ratio device on steady state operation. Device parameters of aspect ratio A=3 and 4 are chosen based on ITER-power scaling law. Improvement of steady state operation with A=4 is found only moderate. Reduction of stability margin in vertical instability is about 20% and plasma elongation must be decreased from 2 down to about 1.8 to recover this reduction of stability margin with A=4. If such lower elongation is employed, single null divertor configuration should be employed to reduce the capacity of poloidal field system. Detailed 2D divertor code calculation shows that peak heat load per unit area of A=4 device with SN configuration increases compared with A=3 device with DN configuration, contrary to the predictions so far made. Preliminary engineering studies indicate that A=4 device would have less space for handling the in-vessel components and doubled toroidal field magnet weight and winding length, and hence is less desirable when compared with the present ITER design (A=3). Based on these examinations, it is
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Sugihara, Masayoshi;
Tada, Eisuke;
Shimomura, Yasuo;
Tsunematsu, Toshihide;
Nishio, Satoshi;
Nakazato, Toshiko;
Murakami, Yoshiki;
Koizumi, Koichi
[1]
- Japan Atomic Energy Research Inst., Naka, Ibaraki (Japan). Naka Fusion Research Establishment
Citation Formats
Sugihara, Masayoshi, Tada, Eisuke, Shimomura, Yasuo, Tsunematsu, Toshihide, Nishio, Satoshi, Nakazato, Toshiko, Murakami, Yoshiki, and Koizumi, Koichi.
Comparative study of low and high aspect ratio devices for ITER design options.
Japan: N. p.,
1992.
Web.
Sugihara, Masayoshi, Tada, Eisuke, Shimomura, Yasuo, Tsunematsu, Toshihide, Nishio, Satoshi, Nakazato, Toshiko, Murakami, Yoshiki, & Koizumi, Koichi.
Comparative study of low and high aspect ratio devices for ITER design options.
Japan.
Sugihara, Masayoshi, Tada, Eisuke, Shimomura, Yasuo, Tsunematsu, Toshihide, Nishio, Satoshi, Nakazato, Toshiko, Murakami, Yoshiki, and Koizumi, Koichi.
1992.
"Comparative study of low and high aspect ratio devices for ITER design options."
Japan.
@misc{etde_10123162,
title = {Comparative study of low and high aspect ratio devices for ITER design options}
author = {Sugihara, Masayoshi, Tada, Eisuke, Shimomura, Yasuo, Tsunematsu, Toshihide, Nishio, Satoshi, Nakazato, Toshiko, Murakami, Yoshiki, and Koizumi, Koichi}
abstractNote = {Comparative study on the plasma performance and the engineering characteristics of low and high aspect ratio devices for ITER (International Thermonuclear Experimental Reactor) design option is done to examine quantitatively the expected merit and demerit of high aspect ratio device on steady state operation. Device parameters of aspect ratio A=3 and 4 are chosen based on ITER-power scaling law. Improvement of steady state operation with A=4 is found only moderate. Reduction of stability margin in vertical instability is about 20% and plasma elongation must be decreased from 2 down to about 1.8 to recover this reduction of stability margin with A=4. If such lower elongation is employed, single null divertor configuration should be employed to reduce the capacity of poloidal field system. Detailed 2D divertor code calculation shows that peak heat load per unit area of A=4 device with SN configuration increases compared with A=3 device with DN configuration, contrary to the predictions so far made. Preliminary engineering studies indicate that A=4 device would have less space for handling the in-vessel components and doubled toroidal field magnet weight and winding length, and hence is less desirable when compared with the present ITER design (A=3). Based on these examinations, it is concluded that high aspect ratio device does not have remarkable advantage than low aspect ratio device, and the latter device has similar capability for the prospect of future commercial reactor to the former device. (J.P.N.).}
place = {Japan}
year = {1992}
month = {Sep}
}
title = {Comparative study of low and high aspect ratio devices for ITER design options}
author = {Sugihara, Masayoshi, Tada, Eisuke, Shimomura, Yasuo, Tsunematsu, Toshihide, Nishio, Satoshi, Nakazato, Toshiko, Murakami, Yoshiki, and Koizumi, Koichi}
abstractNote = {Comparative study on the plasma performance and the engineering characteristics of low and high aspect ratio devices for ITER (International Thermonuclear Experimental Reactor) design option is done to examine quantitatively the expected merit and demerit of high aspect ratio device on steady state operation. Device parameters of aspect ratio A=3 and 4 are chosen based on ITER-power scaling law. Improvement of steady state operation with A=4 is found only moderate. Reduction of stability margin in vertical instability is about 20% and plasma elongation must be decreased from 2 down to about 1.8 to recover this reduction of stability margin with A=4. If such lower elongation is employed, single null divertor configuration should be employed to reduce the capacity of poloidal field system. Detailed 2D divertor code calculation shows that peak heat load per unit area of A=4 device with SN configuration increases compared with A=3 device with DN configuration, contrary to the predictions so far made. Preliminary engineering studies indicate that A=4 device would have less space for handling the in-vessel components and doubled toroidal field magnet weight and winding length, and hence is less desirable when compared with the present ITER design (A=3). Based on these examinations, it is concluded that high aspect ratio device does not have remarkable advantage than low aspect ratio device, and the latter device has similar capability for the prospect of future commercial reactor to the former device. (J.P.N.).}
place = {Japan}
year = {1992}
month = {Sep}
}