Journal ArticleDOI
HYLIFE-II: A Molten-Salt Inertial Fusion Energy Power Plant Design — Final Report
Ralph W. Moir,R. L. Bieri,Xiang M. Chen,T. J. Dolan,M. A. Hoffman,P.A. House,R. L. Leber,J. D. Lee,Y. T. Lee,J. C. Liu,G. R. Longhurst,Wayne R. Meier,P. F. Peterson,Ronald W. Petzoldt,V. E. Schrock,M. Tobin,W. H. Williams +16 more
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In this article, the liquid-wall HYLIFE-II conceptual design has been presented, which has been shown to reduce the electricity cost by using a neutronically thick array of flowing molten-salt jets, which will not burn, has a low tritium solubility and inventory, and protects the chamber walls.Abstract:
Enhanced safety and performance improvements have been made to the liquid-wall HYLIFE reactor, yielding the current HYLIFE-II conceptual design. Liquid lithium has been replaced with a neutronically thick array of flowing molten-salt jets (Li[sub 2]BeF[sub 4] or Flibe), which will not burn, has a low tritium solubility and inventory, and protects the chamber walls, giving a robust design with a 30-yr lifetime. The tritium inventory is 0.5 g in the molten salt and 140 g in the metal of the tube walls, where it is less easily released. The 5-MJ driver is a recirculating induction accelerator estimated to cost $570 million (direct costs). Heavy-ion targets yield 350 MJ, six times per second, to produce 940 MW of electrical power for a cost of 6.5 cents/kW[center dot]h. Both larger and smaller yields are possible with correspondingly lower and higher pulse rates. When scaled up to 1934 MW (electric), the plant design has a calculated cost of electricity of 4.5 cents/kW[center dot]h. The design did not take into account potential improved plant availability and lower operations and maintenance costs compared with conventional power plant experience, resulting from the liquid wall protection. Such improvements would directly lower the electricity cost figures. For example,more » if the availability can be raised from the conservatively assumed 75% to 85% and the annual cost of component replacement, operations, and maintenance can be reduced from 6% to 3% of direct cost, the cost of electricity would drop to 5.0 and 3.9 cents/kW[center dot]h for 1- and 2-GW (electric) cases. 50 refs., 15 figs., 3 tabs.« lessread more
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Journal ArticleDOI
Chamber, target and final focus integrated design
TL;DR: In this article, the authors proposed an integrated chamber, target, and final focus design and successful resolution of key technical issues by the chamber R&D efforts, but they have not yet succeeded in coming up with an integrated HIF main line chamber design compatible with 200 beams.
Journal ArticleDOI
Development of piv technique under magnetic fields and measurement of turbulent pipe flow of flibe simulant fluid
J. Takeuchi,Shin-ichi Satake,Tomoaki Kunugi,Takehiko Yokomine,Neil B. Morley,Mohamed A. Abdou +5 more
TL;DR: An investigation of MHD effects on a Flibe (Li2BeF4) simulant fluid has been conducted under the US-Japan JUPITER-II collaboration program using “FLIHY” pipe flow facility at UCLA as discussed by the authors.
Journal ArticleDOI
The effect on radiation damage of structural material in a hybrid system by using a Monte Carlo radiation transport code
TL;DR: In this paper, the effects of the selected fluid on the radiation damage, in terms of individual as well as total isotopes in the structural material, were investigated for 30 full power years.
Journal ArticleDOI
Neutronic Analysis of the Laser Inertial Confinement Fusion–Fission Energy (LIFE) Engine Using Various Thorium Molten Salts
TL;DR: In this paper, the neutronic performance of the LIFE engine was investigated by using XSDRNPM/SCALE5 codes in S8-P3 approximation, and the thorium molten salt composition considered in this calculation is 75% LiF-25% ThF4, 75.
References
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ReportDOI
High-Yield Lithium-Injection Fusion-Energy (HYLIFE) reactor
TL;DR: The High-Yield Lithium-Injection Fusion Energy (HYLIFE) concept to convent inertial confinement fusion energy into electric power has undergone intensive research and refinement at LLNL since 1978 as discussed by the authors, focusing on the HYLIFE reaction chamber (which includes neutronics, liquid-metal jet-array hydrocynamics, and structural design), supporting systems, primary steam system and balance of plant, safety and environmental protection, and costs.
Journal ArticleDOI
Waste Disposal Assessment of HYLIFE-II Structure
TL;DR: The initial scoping analysis indicates that by using Type 304 stainless steel (SS), most of the vacuum vessel's structural mass in the HYLIFE-II inertial fusion energy power plant conceptual design cou....
Journal ArticleDOI
HYLIFE-II Inertial Confinement Fusion Reactor Design
TL;DR: The HYLIFE-II inertial fusion power plant design study uses a liquid fall, in the form of jets to protect the first structural wall from neutron damage, x-rays, and blast to provide a 30-y lifetime.
Journal ArticleDOI
Hylife-II Inertial Fusion Energy Power Plant Design
TL;DR: In this article, an inertial fusion power plant design study uses a liquid fall, in the form of jets, to protect the first structural wall from neutron damage, x rays, and blast to provide a 30-y lifetime.
Journal ArticleDOI
Updated comparison of economics of fusion reactors with advanced fission reactors
TL;DR: In this article, the projected cost of electricity (COE) for fusion is compared with that from current and advanced nuclear fission and coal-fired plants, and the results show COEs of about 59--74 mills/kWh for the fusion designs considered.
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