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Fusion Technology Volume 19, 1991 - Issue 3P2A
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Advanced Reactor

Apollo-L3, an Advanced Fuel Fusion Power Reactor Utilizing Direct and Thermal Energy Conversion

G.L. KulcinskiFusion Technology Institute University of Wisconsin-Madison 1500 Johnson Drive Madison, WI 53706-1687 (608) 263-2308
,
G.A. EmmertFusion Technology Institute University of Wisconsin-Madison 1500 Johnson Drive Madison, WI 53706-1687 (608) 263-2308
,
J.P. BlanchardFusion Technology Institute University of Wisconsin-Madison 1500 Johnson Drive Madison, WI 53706-1687 (608) 263-2308
,
L.A. El-GuebalyFusion Technology Institute University of Wisconsin-Madison 1500 Johnson Drive Madison, WI 53706-1687 (608) 263-2308
,
H.Y. KhaterFusion Technology Institute University of Wisconsin-Madison 1500 Johnson Drive Madison, WI 53706-1687 (608) 263-2308
,
C.W. MaynardFusion Technology Institute University of Wisconsin-Madison 1500 Johnson Drive Madison, WI 53706-1687 (608) 263-2308
,
E.A. MogahedFusion Technology Institute University of Wisconsin-Madison 1500 Johnson Drive Madison, WI 53706-1687 (608) 263-2308
,
J.F. SantariusFusion Technology Institute University of Wisconsin-Madison 1500 Johnson Drive Madison, WI 53706-1687 (608) 263-2308
,
M.E. SawanFusion Technology Institute University of Wisconsin-Madison 1500 Johnson Drive Madison, WI 53706-1687 (608) 263-2308
,
I.N. SviatoslavskyFusion Technology Institute University of Wisconsin-Madison 1500 Johnson Drive Madison, WI 53706-1687 (608) 263-2308
&
L.J. WittenbergFusion Technology Institute University of Wisconsin-Madison 1500 Johnson Drive Madison, WI 53706-1687 (608) 263-2308
 show all
Pages 791-801 | Published online: 10 Aug 2017

Citations (17)

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S. Meschini, M. Zucchetti & Enrico Pagliuca. (2021) Development of an Advanced-Fuel Nuclear Fusion Experiment. Fusion Science and Technology 77:7-8, pages 784-790.
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Gerald L. Kulcinski & John F. Santarius. (2001) New Opportunities for Fusion in the 21st Century - Advanced Fuels. Fusion Technology 39:2P2, pages 480-485.
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W. R. Fundamenski & A. A. Harms. (1996) Evolution and Status of D-3He Fusion: A Critical Review. Fusion Technology 29:3, pages 313-349.
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Winfried kernbichler. (1992) Operational Parameters for D-3He in Field-Reversed Configurations. Fusion Technology 21:4, pages 2297-2306.
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G. L. Kulcinski, James P. Blanchard, Laila A. El-Guebaly, Gilbert A. Emmert, Hesham Y. Khater, Charles W. Maynard, E. A. Mogahed, John F. Santarius, Mohamed E. Sawan, I. N. Sviatoslavsky & L. J. Wittenberg. (1992) Summary of Apollo, A D-3He Tokamak Reactor Design. Fusion Technology 21:4, pages 2292-2296.
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Gilbert A. Emmert & Ronald Parker. (1992) Potential for D-3He Experiments in Next-Generation Tokamaks. Fusion Technology 21:4, pages 2284-2291.
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L. J. Wittenberg, E. N. Cameron, G. L. Kulcinski, S. H. Ott, J. F. Santarius, G. I. Sviatoslavsky, I. N. SViatoslavsky & H. E. Thompson. (1992) A Review of 3He Resources and Acquisition for Use as Fusion Fuel. Fusion Technology 21:4, pages 2230-2253.
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G. L. Kulcinski, J. P. Blanchard, G. A. Emmert, L. A. El-Guebaly, H. Khater, C. W. Maynard, E. A. Mogahed, J. E Santarius, M. E. Sawan, I. N. Sviatoslavsky & L. J. Wittenberg. (1992) Safety and Environmental Characteristics of Recent D-3He and DT Tokamak Power Reactors. Fusion Technology 21:3P2B, pages 1779-1783.
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Articles from other publishers (9)

A Yu Chirkov. (2019) On the possibility of using alternative thermonuclear reactions for energy production, neutron generation and other applications. Journal of Physics: Conference Series 1370:1, pages 012025.
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D. A. Baver. (2012) An Energy Recovering Divertor Based on Amplification of Alfven Waves. Journal of Fusion Energy 32:2, pages 278-286.
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John Slough, George Votroubek & Chris Pihl. (2011) Creation of a high-temperature plasma through merging and compression of supersonic field reversed configuration plasmoids. Nuclear Fusion 51:5, pages 053008.
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Laila El-Guebaly & Massimo Zucchetti. (2007) Recent developments in environmental aspects of D–3He fuelled fusion devices. Fusion Engineering and Design 82:4, pages 351-361.
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A. Yu. Chirkov. (2006) Possibility of utilizing the D-3He fuel cycle with 3He production in a spherical tokamak reactor. Technical Physics 51:9, pages 1158-1162.
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P E Stott. (2005) The feasibility of using D– 3 He and D–D fusion fuels . Plasma Physics and Controlled Fusion 47:8, pages 1305-1338.
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V I Khvesyuk & A Yu Chirkov. (2002) Low-radioactivity D- 3 He fusion fuel cycles with 3 He production . Plasma Physics and Controlled Fusion 44:2, pages 253-260.
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G.A. Emmert, G.L. Kulcinski, J.P. Blanchard, L.A. El-Guebaly, H. Khater, C.W. Maynard, E.A. Mogahed, J.F. Santarius, M.E. Sawan, I.N. Sviatoslavsky & L.J. Wittenberg. (1992) An improved first stability advanced fuel tokamak Apollo-L3. An improved first stability advanced fuel tokamak Apollo-L3.
G. L. Kulcinski. (1991) Lessons learned from recent D-3He tokamak power reactor studies. Journal of Fusion Energy 10:4, pages 351-355.
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