Modeling of In-Pile Experiments on Tritium Release from Molten Lithium-Lead
スポンサーリンク
概要
- 論文の詳細を見る
Modeling of in-pile tritium release from molten lithium-lead was performed. Three models were considered: (1) recombination limited release, (2) bulk diffusion with subsequent recombination, and (3) fast bulk transport with slow skin layer diffusion followed by recombinative desorption. All the three models gave equally good agreement with experimental kinetic curves of tritium release. The decision about which model is valid can only be made having additional information. For the case of the particular experiment considered, this information was available, and it was concluded, that the skin layer model must be applied to this particular experiment. The recombination coefficient and the thickness of the layer were obtained.
- 一般社団法人 日本原子力学会の論文
- 2002-04-25
著者
-
TERAI Takayuki
Department of Nuclear Engineering, Faculty of Engineering, University of Tokyo
-
Tanabe Tetsuo
Center For Integrated Research In Science And Engineering Nagoya University
-
Tanabe Tetsuo
Center For Integrated Research In Science And Engineering (cirse)
-
Terai Takayuki
Department Of Quantum Engineering And System Science The University Of Tokyo
-
Pisarev Alexander
Moscow State Engineering And Physics Institute
-
BENAMATI Gianluca
Italian Agency for New Technology Energy and Environment
-
MULLIN Mikhail
Moscow State Engineering and Physics Institute
関連論文
- On extended energy-loss fine structure data analysis for obtaining reliable structural parameters
- Degradation of Dibutyl Phthalate in Water by the Aid of Metals under γ-Ray Irradiation
- Changes of Superconductivity and Crystal Structure on Ba_2YCu_3O_ Thin Film by 2.5 MeV Ni^ Ion Irradiation
- Enhancement of Transport Critical Current Density of Ba_2YCu_3O_ Thin Film by 28 MeV Electron Irradiation
- Effects of Ion Irradiation on the Critical Current Density of Ba_2YCu_3O_ Thin Films
- Magnetron-sputtered Hydrogenated Carbon Nitride : Structural and Optical Properties of As-deposited and Postannealed Films
- Hydrogen Atmosphere Effect on Vaporization of Li2TiO3 by means of High Temperature Mass Spectrometry (ノーベル化学賞記念特集号/TMS特集号(3))
- Change in Chemical Bonding States in Electron-Irradiated Graphite
- Changes of Superconductivity and Crystal Structure on Ba_2YCu_3O_ by 1 MeV Ar^+ Ion Irradiation
- Mechanical, Thermal, and Tribological Properties of Amorphous Carbon Films
- Modeling of In-Pile Experiments on Tritium Release from Molten Lithium-Lead
- Local structural order in electron-irradiated graphite studied by high-resolution high-voltage electron microscopy
- Observation of Surface Blistering by Grazing Incidence Electron Microscopy
- Hydrogen Effect on Damage Structure of Si(100) Surface Studied by in Situ Raman Spectroscopy
- Fragmentation of graphite crystals by electron irradiation at elevated temperatures
- Energy-Filtered Image of Surface Blisters by Grazing Incidence Electron Microscopy
- Development of new TEM specimen holder for cathodoluminescence detection
- Compatibility of SiC/SiC Composite Materials with Molten Lithium Metal and Li16-Pb84 Eutectic Alloy
- Magnetron-sputtered Hydrogenated Carbon Nitride: Structural and Optical Properties of As-deposited and Postannealed Films
- Decrease of Deuterium Permeation Rate through Austenitic Stainless Steel Facing Molten Li17-Pb83 Alloy with Formation of Surface Oxide Film.
- Enrichment of tritium by hydrogen-gas sorption in potassium-carbon lamellar compounds.