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- Corrosion and anti-corrosives (2)
- Eutectic alloys (2)
- Lead-bismuth alloys (2)
- Lead-bismuth eutectic (2)
- Particle accelerators — Design and construction (2)
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- Accelerator-driven systems – Design and construction; Radioactive wastes — Transmutation (1)
- Accelerator-driven systems; Monte Carlo N-Particle eXtended (MCNPX); Nuclear reactions – Computer simulation; Radioactive wastes — Transmutation; Spallation (Nuclear physics) (1)
- Actinide elements; Criticality (Nuclear engineering); Neutrons — Multiplicity; Radioactive waste canisters; Reactor fuel reprocessing; Separation (Technology); Shielding (Radiation); Spent reactor fuels; Transmutation (Chemistry); Transuranium elements; Uranium Recovery by Extraction (UREX) (1)
- Laser beams; Monte Carlo N-Particle eXtended (MCNPX); Nuclear reactions – Computer simulation; Radioactive wastes — Transmutation; Spallation (Nuclear physics) (1)
- Monte Carlo N-Particle eXtended (MCNPX); Neutron flux; Neutrons; Nuclear reactors; Particles (Nuclear physics); Radioactive wastes — Transmutation; Spallation (Nuclear physics); Spent reactor fuels; Transmutation (Chemistry) (1)
- Stainless steel — Corrosion (1)
- Steel — Corrosion (1)
Articles 1 - 7 of 7
Full-Text Articles in Physics
Nuclear Criticality, Shielding, And Thermal Analyses Of Separations Processes For The Transmutation Fuel Cycle, William Culbreth, Denis Beller
Nuclear Criticality, Shielding, And Thermal Analyses Of Separations Processes For The Transmutation Fuel Cycle, William Culbreth, Denis Beller
Separations Campaign (TRP)
The first step in any transmutation strategy is the separation of radionuclides in used nuclear fuel. The current separation strategy supporting the Advanced Fuel Cycle Initiative (AFCI) program is based on the use of a solvent extraction separation process to separate the actinides, fission products, and uranium from used commercial nuclear fuel, and on the use of pyrochemical separation technologies to process used transmuter fuels. To separate the fission products and transuranic elements from the uranium in used fuel, the national program is developing a new solvent extraction process, the Uranium Extraction Plus, or UREX+, process, based on the traditional …
Neutron Multiplicity Measurements Of Target/Blanket Materials, Carter D. Hull, Denis Beller
Neutron Multiplicity Measurements Of Target/Blanket Materials, Carter D. Hull, Denis Beller
Transmutation Sciences Physics (TRP)
To optimize the performance of accelerator driven transmutation systems (ADS), engineers will need to design the system to operate with a neutron multiplication factor just below that of a critical, or self-sustaining, system. This design criteria requires particle transport codes that instill the highest level of confidence with minimal uncertainty, because the larger the uncertainties in the codes, the larger the safety margin required in the design and the lower the efficiency of the ADS transmuter. For current design efforts, the MCNPX code is used to determine neutron production and transport for spallation neutron systems.
While providing a very useful …
Corrosion Of Steel By Lead Bismuth Eutectic, John Farley, Allen L. Johnson, Dale L. Perry
Corrosion Of Steel By Lead Bismuth Eutectic, John Farley, Allen L. Johnson, Dale L. Perry
Transmutation Sciences Materials (TRP)
Materials for transmuter systems must be able to tolerate high neutron fluxes, great temperatures, and chemical corrosion. For lead bismuth eutectic (LBE) systems, there is an additional challenge in that the corrosive behaviors of materials in LBE are not well understood. Most of the available information on LBE systems has come from the Russians, who have over 80 reactor-years experience with LBE coolant in their Alpha-class submarine reactors. The Russians found that the presence of small amounts of oxygen (on the order of parts per million) in the LBE significantly reduced corrosion. However, a fundamental understanding and verification of its …
Surface Studies Of Corrosion Of Stainless Steel By Lead Bismuth Eutectic, Daniel Koury, Brian D. Hosterman, John Farley, Dale L. Perry, D. Parsons, J. Manzerova, Allen L. Johnson
Surface Studies Of Corrosion Of Stainless Steel By Lead Bismuth Eutectic, Daniel Koury, Brian D. Hosterman, John Farley, Dale L. Perry, D. Parsons, J. Manzerova, Allen L. Johnson
Transmutation Sciences Materials (TRP)
Why is Lead Bismuth Eutectic Important?
• Changing national security stances have led to reexamination of nuclear waste reprocessing
• Dangerous actinides can be separated and
• Transmuted into safer products, creating a waste form dangerous for only hundreds of years, in addition to the production (up to 1/3 of the original fission energy) of useful energy
• Non-moderating coolants or spallation targets for production of fast neutrons is required for transmutation
• Russian experience with LBE coolants in their nuclear submarine fleet makes LBE an attractive possible transmutation coolant technology
• Corrosion of steel by LBE is an important …
Radiation Transport Modeling Using Parallel Computational Techniques, William Culbreth, Denis Beller
Radiation Transport Modeling Using Parallel Computational Techniques, William Culbreth, Denis Beller
Reactor Campaign (TRP)
The second year of this project involved modeling several aspects of the LANCSE beam experiments:
- Modeling targets of varying diameter in air, in a vacuum, and in the presence of humid air;
- Modeling various proton beam profiles;
- Modeling the effects of off-axis proton beam impingement on the target;
- Modeling the asymmetry introduced by the steel table below the target;
- Modeling the effect of varying ratios of Pb to Bi and the effect of impurities; and
- Modeling the system, including other structures within the test room.
With the experience gained through modeling these systems, the UNLV researchers plan, with the assistance …
Radiation Transport Modeling Using Parallel Computational Techniques, William Culbreth
Radiation Transport Modeling Using Parallel Computational Techniques, William Culbreth
Reactor Campaign (TRP)
The Advanced Fuel Cycle Initiative (AFCI) program will rely on the use of accurate calculations and simulations of criticality and shielding for the separation process of the longlived isotopes that present a significant safety hazard in commercial spent fuel. To help design and verify the safety of the separation process, the neutronics code MCNPX will be used to model the distribution of neutron flux within the fuel blanket and to determine the neutron multiplication, keff. However, the cross section libraries and computational methods used by MCNPX at these neutron energies still have some uncertainty and will require validation. …
Monte Carlo Verification And Modeling Of Lead-Bismuth Spallation Targets, Daniel R. Lowe
Monte Carlo Verification And Modeling Of Lead-Bismuth Spallation Targets, Daniel R. Lowe
Reactor Campaign (TRP)
No abstract provided.