Your search keyword '"Wiss, Thierry"' showing total 6 results

1. TEM study of alpha-damaged plutonium and americium dioxides.

Author

Wiss, Thierry, Dieste-Blanco, Oliver, Tacu, Anca, Janssen, Arne, Talip, Zeynep, Colle, Jean-Yves, Martin, Philippe, and Konings, Rudy

Subjects

ACTINIDE elements, PLUTONIUM oxides, AMERICIUM compounds, TRANSMISSION electron microscopy, NUCLEAR ceramics

Abstract

Actinide-based nuclear ceramics, oxides particularly, are not only used as fuel in nuclear power reactors (uranium and plutonium) but are also used/envisaged as materials for electrical power sources in space probes (plutonium or americium). These actinides are all alpha-emitters, some having rather short half-lives. As a result of their strong alpha-activity, the actinide-based materials cumulate radiation damage and radiogenic helium. The stability of such materials needs to be assessed and understood for predicting the long-term stability of not only spent fuel in storage/disposal conditions but also of electrical power sources to be used in space probes. This paper describes the specific transmission electron microscope microstructure analyses of aged 238PuO2, 238Pu-doped UO2 (to simulate aged spent nuclear fuel), and of 241AmO2 samples (candidate electrical power source) and makes the correlation of the observed defects with other properties like helium thermal desorption and lattice parameter. It is shown that these fluorite structured materials resist to high alpha-damage levels and can accommodate large quantities of helium. [ABSTRACT FROM PUBLISHER]

Published

2015

2. Predicting material release during a nuclear reactor accident.

Author

Konings, Rudy J. M., Wiss, Thierry, and Beneš, Ondřej

Subjects

*FISSION products, *NUCLEAR fission, *NUCLEAR reactor accidents, *RADIOACTIVE contamination, *ENVIRONMENTAL engineering

Abstract

The author discusses the study on the release of fission products from the fuel during a nuclear reactor accident. Tackled is the release of the radioactive gases in the environment as well as the destruction of the reactor cores through the Three Mile Island accident in Pennsylvania. Also explored are health and environmental effects during a nuclear accident.

Published

2015

3. Analytical Chemistry of Plutonium*.

Author

Moody, Kenton J., Shaughnessy, Dawn A., Casteleyn, Karin, Ottmar, Herbert, Lützenkirchen, Klaus, Wallenius, Maria, and Wiss, Thierry

Abstract

In 1940, shortly after the discovery of fission, McMillan and Abelson studied the recoil range of fission products induced by neutrons incident on a thin uranium foil (McMillan, 1939; McMillan and Abelson, 1940). While fission products were mostly ejected from the foil, two activities were significantly retained, one with a half-life of 23 min and the other with a half-life of 2.3 days. [ABSTRACT FROM AUTHOR]

Published

2011

4. Nuclear Fuels.

Author

Konings, Rudy J. M., Wiss, Thierry, and Guéneau, Christine

Abstract

The core of a nuclear reactor is composed of a controlled critical configuration of a fissile material, which in strict a sense is the fuel. This fissile material is contained in a matrix, normally a ceramic compound or eventually a metallic alloy, and in practice this combination of fissile material and matrix is called the nuclear fuel. In the fuel the fission process takes place, generating heat that must be transferred to the coolant, while producing fission products that must be retained. [ABSTRACT FROM AUTHOR]

Published

2011

5. Insights into the sonochemical synthesis and properties of salt-free intrinsic plutonium colloids.

Author

Dalodière, Elodie, Virot, Matthieu, Morosini, Vincent, Chave, Tony, Dumas, Thomas, Hennig, Christoph, Wiss, Thierry, Dieste Blanco, Oliver, Shuh, David K., Tyliszcak, Tolek, Venault, Laurent, Moisy, Philippe, and Nikitenko, Sergey I.

Abstract

Fundamental knowledge on intrinsic plutonium colloids is important for the prediction of plutonium behaviour in the geosphere and in engineered systems. The first synthetic route to obtain salt-free intrinsic plutonium colloids by ultrasonic treatment of PuO2 suspensions in pure water is reported. Kinetics showed that both chemical and mechanical effects of ultrasound contribute to the mechanism of Pu colloid formation. In the first stage, fragmentation of initial PuO2 particles provides larger surface contact between cavitation bubbles and solids. Furthermore, hydrogen formed during sonochemical water splitting enables reduction of Pu(IV) to more soluble Pu(III), which then re-oxidizes yielding Pu(IV) colloid. A comparative study of nanostructured PuO2 and Pu colloids produced by sonochemical and hydrolytic methods, has been conducted using HRTEM, Pu LIII-edge XAS, and O K-edge NEXAFS/STXM. Characterization of Pu colloids revealed a correlation between the number of Pu-O and Pu-Pu contacts and the atomic surface-to-volume ratio of the PuO2 nanoparticles. NEXAFS indicated that oxygen state in hydrolytic Pu colloid is influenced by hydrolysed Pu(IV) species to a greater extent than in sonochemical PuO2 nanoparticles. In general, hydrolytic and sonochemical Pu colloids can be described as core-shell nanoparticles composed of quasi-stoichiometric PuO2 cores and hydrolyzed Pu(IV) moieties at the surface shell. [ABSTRACT FROM AUTHOR]

Published

2017

6. Materials for energy: From fission towards fusion.

Author

Möslang, Anton and Wiss, Thierry

Subjects

*NUCLEAR reactor design & construction, *NUCLEAR reactor material testing, *NUCLEAR fuels, *IRRADIATION, *NUCLEAR energy

Abstract

The article analyzes the emerging trend in the development of nuclear reactors using materials that can handle very high energy and particle fluxes. A recent symposium on nuclear materials dealt with ways of predicting the behavior of material when subjected to high irradiation, causes of damage to metals and storage of spent fuel. It concludes that the development of next generation nuclear reactors requires a synergy between experimental data and simulations based on a multi scale approach.

Published

2006