REVIEW OF DEUTERIUM-TRITIUM RESULTS FROM THE TOKAMAK FUSION TEST REACTOR

被引：81

作者：

MCGUIRE, KM

ADLER, H

ALLING, P

ANCHER, C

ANDERSON, H

ANDERSON, JL

ANDERSON, JW

ARUNASALAM, V

ASCIONE, G

ASHCROFT, D

BARNES, CW

BARNES, G

BATHA, S

BATEMAN, G

BEER, M

BELL, MG

BELL, R

BITTER, M

BLANCHARD, W

BRETZ, NL

BRUNKHORST, C

BUDNY, R

BUSH, CE

CAMP, R

CAORLIN, M

CARNEVALE, H

CAUFFMAN, S

CHANG, Z

CHANG, CS

CHENG, CZ

CHRZANOWSKI, J

COLLINS, J

COWARD, G

CROPPER, M

DARROW, DS

DAUGERT, R

DELOOPER, J

DENDY, R

DORLAND, W

DUDEK, L

DUONG, H

DURST, R

EFTHIMION, PC

ERNST, D

EVENSON, H

FISCH, NJ

FISHER, R

FONCK, RJ

FREDD, E

FREDRICKSON, E

机构：

[1] LOS ALAMOS NATL LAB, LOS ALAMOS, NM 87545 USA

[2] OAK RIDGE NATL LAB, OAK RIDGE, TN 37831 USA

[3] UNIV WISCONSIN, MADISON, WI 53706 USA

[4] NYU, COURANT INST, NEW YORK, NY 10003 USA

[5] CULHAM LAB, ABINGDON OX14 3DB, OXON, ENGLAND

[6] UNIV TEXAS, INST FUS STUDIES, AUSTIN, TX 78712 USA

[7] GEN ATOM CO, SAN DIEGO, CA 92186 USA

[8] MIT, CAMBRIDGE, MA 02139 USA

[9] JAPAN ATOM ENERGY RES INST, NAKA FUS RES ESTAB, NAKA, IBARAKI 31101, JAPAN

[10] TRINITI, MOSCOW, RUSSIA

[11] UNIV CALIF IRVINE, IRVINE, CA 92717 USA

[12] GRUMMAN CORP, PRINCETON, NJ 08540 USA

[13] JET JOINT UNDERTAKING, ABINGDON OX14 3EA, OXON, ENGLAND

[14] COLUMBIA UNIV, NEW YORK, NY 10027 USA

[15] ECOLE ROYALE MIL, BRUSSELS, BELGIUM

[16] NATL INST FUS STUDIES, NAGOYA, AICHI, JAPAN

[17] AF IOFFE PHYS TECH INST, ST PETERSBURG 194021, RUSSIA

[18] CANADIAN FUS FUELS TECHNOL PROJECT, TORONTO, ON, CANADA

[19] EBASCO, NEW YORK, NY 10048 USA

[20] RUSSIAN RES CTR, KURCHATOV INST, MOSCOW, RUSSIA

[21] FUS PHYS & TECHNOL, TORRANCE, CA 90503 USA

来源：

PHYSICS OF PLASMAS | 1995年 / 2卷 / 06期

关键词：

D O I：

10.1063/1.871303

中图分类号：

O35 [流体力学]; O53 [等离子体物理学];

学科分类号：

070204 ; 080103 ; 080704 ;

摘要：

After many years of fusion research, the conditions needed for a D-T fusion reactor have been approached on the Tokamak Fusion Test Reactor (TFTR) [Fusion Technol. 21, 1324 (1992)]. For the first time the unique phenomena present in a D-T plasma are now being studied in a laboratory plasma. The first magnetic fusion experiments to study plasmas using nearly equal concentrations of deuterium and tritium have been carried out on TFTR. At present the maximum fusion power of 10.7 MW, using 39.5 MW of neutral-beam heating, in a supershot discharge and 6.7 MW in a high-βp discharge following a current rampdown. The fusion power density in a core of the plasma is ≈2.8 MW m -3, exceeding that expected in the International Thermonuclear Experimental Reactor (ITER) [Plasma Physics and Controlled Nuclear Fusion Research (International Atomic Energy Agency, Vienna, 1991), Vol. 3, p. 239] at 1500 MW total fusion power. The energy confinement time, τE, is observed to increase in D-T, relative to D plasmas, by 20% and the n i(0) Ti(0) τE product by 55%. The improvement in thermal confinement is caused primarily by a decrease in ion heat conductivity in both supershot and limiter-H-mode discharges. Extensive lithium pellet injection increased the confinement time to 0.27 s and enabled higher current operation in both supershot and high-βp discharges. Ion cyclotron range of frequencies (ICRF) heating of a D-T plasma, using the second harmonic of tritium, has been demonstrated. First measurements of the confined alpha particles have been performed and found to be in good agreement with TRANSP [Nucl. Fusion 34, 1247 (1994)] simulations. Initial measurements of the alpha ash profile have been compared with simulations using particle transport coefficients from He gas puffing experiments. The loss of alpha particles to a detector at the bottom of the vessel is well described by the first-orbit loss mechanism. No loss due to alpha-particle-driven instabilities has yet been observed. D-T experiments on TFTR will continue to explore the assumptions of the ITER design and to examine some of the physics issues associated with an advanced tokamak reactor. © 1995 American Institute of Physics.

引用

页码：2176 / 2188

页数：13

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