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Fusion Technology Volume 18, 1990 - Issue 4
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Alpha Particles in Fusion Research

Active Control of Burn Conditions for the International Thermonuclear Experimental Reactor

Scott W. HaneyLawrence Livermore National Laboratory, P.O. Box 808, L-644, Livermore, California 94550
,
L. John PerkinsLawrence Livermore National Laboratory, P.O. Box 808, L-644, Livermore, California 94550
,
John MandrekasGeorgia Institute of Technology, 225 North Avenue Atlanta, Georgia 30332
&
Weston M. Stacey Jr.Georgia Institute of Technology, 225 North Avenue Atlanta, Georgia 30332
Pages 606-617 | Published online: 09 May 2017

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Maxwell D. Hill & Weston M. Stacey. (2017) Confinement Tuning of a 0-D Plasma Dynamics Model. Fusion Science and Technology 72:2, pages 162-175.
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W. M. Stacey. (2007) A Survey of Thermal Instabilities in Tokamak Plasmas: Theory, Comparison with Experiment, and Predictions for Future Devices. Fusion Science and Technology 52:1, pages 29-67.
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Javier E. Vitela. (2007) Burn Control of a Two-Temperature Tokamak Power Plant with Online Estimations of Particle and Energy Transport Losses. Fusion Science and Technology 52:1, pages 1-28.
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Eugenio Schuster, Miroslav Krstić & George Tynan. (2003) Burn Control in Fusion Reactors via Nonlinear Stabilization Techniques. Fusion Science and Technology 43:1, pages 18-37.
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W. Hui, B. Bamieh & G. H. Miley. (1994) Robust Burn Control of Fusion Reactors with Modulation of Refueling Rate. Fusion Technology 26:3P2, pages 1151-1157.
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J. D. Galambos & L. John Perkins. (1994) Subignited, ITER-Like Designs—A Question of Confinement Margin. Fusion Technology 25:2, pages 176-181.
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Dan Anderson, Thomas Elevant, Håkan Hamnén, Mietek Lisak & Hans Persson. (1993) Studies of Fusion Burn Control. Fusion Technology 23:1, pages 5-41.
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George H. Miley & V. Varadarajan. (1992) On Self-Tuning Control of Tokamak Thermokinetics. Fusion Technology 22:4, pages 425-438.
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J. Mandrekas, W.M. Stacey & H. He. (1991) 1-1/2D Transport Studies of ITER Burn Control Scenarios. Fusion Technology 19:3P2A, pages 1307-1312.
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Articles from other publishers (23)

Reza Khoramdel, Seyedeh Nasrin Hosseinimotlagh & Zohreh Parang. (2023) Role of impurity and thermal noise on the radiation sources in ITER using DT fuel. Kerntechnik 88:4, pages 446-456.
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Vincent Graber & Eugenio Schuster. (2019) Nonlinear Adaptive Burn Control of Two-Temperature Tokamak Plasmas. Nonlinear Adaptive Burn Control of Two-Temperature Tokamak Plasmas.
Sair Garcia & Julio J. Martinell. (2019) Burn control of an ITER-like fusion reactor using fuzzy logic. Fusion Engineering and Design 147, pages 111227.
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Andres Pajares & Eugenio Schuster. (2019) Robust nonlinear burn control in ITER to handle uncertainties in the fuel-line concentrations. Nuclear Fusion 59:9, pages 096023.
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L Guazzotto & R Betti. (2019) Two-fluid burning-plasma analysis for magnetic confinement fusion devices. Plasma Physics and Controlled Fusion 61:8, pages 085028.
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M. A. Zarei, S. N. Hosseinimotlagh, A. Gharaati & S. Mohammadi. (2019) One Dimensional Non-Linear Control of ST Fusion Reactor with D3He Fuel Using Back-Stepping Method. Moscow University Physics Bulletin 74:2, pages 149-154.
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Andres Pajares & Eugenio Schuster. (2016) Nonlinear burn control in tokamaks using in-vessel coils. Nonlinear burn control in tokamaks using in-vessel coils.
Mark D. Boyer & Eugenio Schuster. (2015) Nonlinear burn condition control in tokamaks using isotopic fuel tailoring. Nuclear Fusion 55:8, pages 083021.
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D. Humphreys, G. Ambrosino, P. de Vries, F. Felici, S. H. Kim, G. Jackson, A. Kallenbach, E. Kolemen, J. Lister, D. Moreau, A. Pironti, G. Raupp, O. Sauter, E. Schuster, J. Snipes, W. Treutterer, M. Walker, A. Welander, A. Winter & L. Zabeo. (2015) Novel aspects of plasma control in ITER. Physics of Plasmas 22:2.
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N.N. Gorelenkov, S.D. Pinches & K. Toi. (2014) Energetic particle physics in fusion research in preparation for burning plasma experiments. Nuclear Fusion 54:12, pages 125001.
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Mark D Boyer & Eugenio Schuster. (2014) Nonlinear control and online optimization of the burn condition in ITER via heating, isotopic fueling and impurity injection. Plasma Physics and Controlled Fusion 56:10, pages 104004.
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Mark D. Boyer & Eugenio Schuster. (2014) Nonlinear Burn Control in Tokamak Fusion Reactors via Output Feedback. IFAC Proceedings Volumes 47:3, pages 3702-3707.
Crossref
Mark D. Boyer & Eugenio Schuster. (2013) Nonlinear control and optimization of the burn condition in tokamak nuclear fusion reactors. Nonlinear control and optimization of the burn condition in tokamak nuclear fusion reactors.
M. D. Boyer & E. Schuster. (2012) Adaptive nonlinear burn control in tokamak fusion reactors. Adaptive nonlinear burn control in tokamak fusion reactors.
Mark D. Boyer & Eugenio Schuster. (2011) Zero-dimensional nonlinear burn control using isotopic fuel tailoring for thermal excursions. Zero-dimensional nonlinear burn control using isotopic fuel tailoring for thermal excursions.
Eugenio Schuster, Miroslav Krstić & George Tynan. (2002) Nonlinear Lyapunov-based burn control in fusion reactors. Fusion Engineering and Design 63-64, pages 569-575.
Crossref
Eugenio Schuster, Miroslav Krstić & George Tynan. (2002) NONLINEAR BACKSTEPPING CONTROL FOR THE FUEL DIFFUSION LAG IN FUSION REACTORS. IFAC Proceedings Volumes 35:1, pages 113-118.
Crossref
E. Schuster, M. Krstic & G. Tynan. (2002) Nonlinear burn control in fusion reactors. Nonlinear burn control in fusion reactors.
Javier E Vitela & Julio J Martinell. (1998) Stabilization of burn conditions in a thermonuclear reactor using artificial neural networks. Plasma Physics and Controlled Fusion 40:2, pages 295-318.
Crossref
O Mitarai & K Muraoka. (1997) Ignition analysis for burn control and diagnostic developments in ITER. Nuclear Fusion 37:11, pages 1523-1540.
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T. Elevant, N. Garis, R. Chakarova & P. Linden. (1995) A neutron spectrometer for ITER. Review of Scientific Instruments 66:1, pages 881-883.
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John Sheffield. (1994) The physics of magnetic fusion reactors. Reviews of Modern Physics 66:3, pages 1015-1103.
Crossref
E.A Chaniotakis & D.J Sigmar. (1993) Time dependent effects of fusion reactivity enhancement due to minority heating in D- 3 He tokamak plasmas . Nuclear Fusion 33:6, pages 849-862.
Crossref

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