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Fusion Technology Volume 14, 1988 - Issue 1
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Technical Paper

Scoping Studies for the Next European Torus

Kurt BorrassThe Net Team, c/o Max-Planck-Institut für Plasmaphysik, Boltzmannstraße 2 D-8046 Garching bei München, Federal Republic of Germany
&
William R. SpearsThe Net Team, c/o Max-Planck-Institut für Plasmaphysik, Boltzmannstraße 2 D-8046 Garching bei München, Federal Republic of Germany
Pages 228-245 | Published online: 09 May 2017

References

  • K. BORRASS, “SUPERCOIL: A Model for the Computational Design of Tokamaks,” Nucl. Eng. Design/Fusion, 4, 2, 21 (1986).
  • W. R. SPEARS, “The SCAN-2 Cost Model,” EUR-FU/XII-80/86/62, Commission of the European Communities (Jul. 1986).
  • K. BORRASS, “Scoping Studies for NET,” Nucl. Eng. Design/Fusion, 4, 2, 141 (1987).
  • International Tokamak Reactor, Phase One, International Atomic Energy Agency, Vienna (1982).
  • International Tokamak Reactor, Phase II-A, Part 2, Critical Issues, European Contributions to the INTOR Phase II-A Workshop, Group F (Physics), Vol. IV (1985).
  • F. ENGELMANN, M. F. A. HARRISON, R. ALBANESE, K. BORRASS, O. De BARBIERI, E. S. HOTSTON, A. NOCENTINI, J-G. WÉGROWE, and G. ZAMBOTTI, “Next European Torus Physics Basis,” Fusion Technol., 14, 30 (1988).
  • “NET Status Report, December 1985,” EUR-FU/XII-80/86/51, Commission of the European Communities (1986).
  • K. BORRASS, “Impact of the TF Coil Performance on Cost and Compactness of Next-Generation Tokamaks,” Proc. 14th Symp. Fusion Technology (SOFT), Avignon, France, September 8-12, 1986.
  • W. R. SPEARS, “DEMO and FCTR Parameters,” EUR-FU/XII-361/85/41, Commission of the European Communities (Aug. 1985).
  • K. BORRASS, W. SPEARS, and J-G. WÉGROWE, “Impact of Steady-State Current Drive on the Optimum Parameters, Cost and Performance of NET-Like Devices” (in preparation); see also International Tokamak Reactor Phase IIA, Part 3, Critical Issues, European Contributions to the 14th Workshop Mtg., Group H.
  • D. A. EHST, Y. CHA, A. M. HASSANEIN, S. MAJUMDAR, B. MISRA, and H. C. STEVENS, “A Comparison of Pulsed and Steady-State Tokamak Reactor Burn Cycles. Part I: Thermal Effects and Lifetime Limitations,” Nucl. Eng. Design/Fusion, 2, 305 (1985).
  • D. A. EHST, J. N. BROOKS, K. EVANS, Jr., and S. KIM, “A Comparison of Pulsed and Steady-State Tokamak Reactor Burn Cycles. Part II: Magnet Fatigue, Power Supplies and Cost Analysis,” Nucl. Eng. Design/Fusion, 2, 319 (1985).
  • K. BORRASS, “Burn Temperature Control and Stabilization of Thermal Runaway in Tokamaks,” Proc. Symp. Role of Alpha Particles in Magnetically Confined Fusion Plasmas, Aspenäsgarden, Göteborg, Sweden, June 24-27, 1986; Phys. Scripta, T16, 107 (1987).
  • O. De BARBIERI, F. ENGELMANN, A. NOCENTINI, and J-G. WÉGROWE, “Current Maintenance During Recharging of the Transformer and/or Current Ramp-Up by Lower Hybrid Waves,” International Tokamak Reactor Phase IIA, Éuropean Contributions, Vol. III, Chap. IV, p. 317 (1985).
  • W. R. SPEARS, “Reactors Beyond NET,” Proc. Fusion Reactor Design and Technology, Yalta, USSR, May 26-June 6, 1986, Vol. I, p. 285, International Atomic Energy Agency, Vienna.
  • W. R. SPEARS, “A Prototype Commercial-Sized Reactor PCSR-E,” EUR-FU/XII-80/86/67, Commission of the European Communities (Dec. 1986).
  • C. C. BAKER, M. A. ABDOU et al., “STARFIRE-A Commercial Tokamak Design Study,” ANL/FPP-80-1, Argonne National Laboratory (1980).
  • “UWMAK, A Wisconsin Toroidal Fusion Reactor Design,” UWFDM-68, University of Wisconsin (1975).
  • A. A. HOLLIS, “An Analysis of the Estimated Capital Cost for a Fusion Reactor,” AERE-R-9933, U.K. Atomic Energy Research Establishment (Jun. 1981).
  • W. R. SPEARS, “Reactor Cost Driving Items,” Proc. 14th Symp. Fusion Technology (SOFT), Avignon, France, September 8-12, 1986, p. 387.
  • “Environmental Impact and Economical Prospects of Nuclear Fusion,” EUR-FU-BRU/XII-828/86, Commission of the European Communities (1986).
  • MFAC Panel X, “Report on High Power Density Fusion Systems” (May 1985).
  • C. COPENHAVER et al., “Compact Reversed Field Pinch Reactors (CRFPR): Fusion Power Core Integration Study,” LA-10500-MS, Los Alamos National Laboratory (Aug. 1985).
  • B. G. LOGAN et al., “Mirror Advanced Reactor Study: Executive Summary and Overview,” UCRL-53563, Lawrence Livermore National Laboratory (Jul. 1984).
  • R. TOSCHI, W. R. SPEARS, and F. ENGELMANN, “Reactor Requirements,” Philos. Trans. R. Soc. London, Ser. A., 322, 1563, 189 (1987).
  • R. TOSCHI, M. CHAZALON, F. ENGELMANN, J. NIHOUL, J. RAEDER, and E. SALPIETRO, “Next European Torus Objectives, General Requirements, and Parameter Choices,” Fusion Technol., 14, 19 (1988).

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