Presentation is loading. Please wait.

Presentation is loading. Please wait.

Nuclear waste treatment by vitrification Transformation of highly radioactive liquid waste into solid waste An atomic scale incorporation of radionucleides.

Published byLucas Mathews Modified over 8 years ago

Similar presentations

Presentation on theme: "Nuclear waste treatment by vitrification Transformation of highly radioactive liquid waste into solid waste An atomic scale incorporation of radionucleides."— Presentation transcript:

1 Nuclear waste treatment by vitrification Transformation of highly radioactive liquid waste into solid waste An atomic scale incorporation of radionucleides (RN) Production of glass canisters at La Hague reprocessing plant Laboratory scale R&D at CEA Marcoule Ceramics for specific wastes still under research Multi-scale glass characterization methodology : XRD, SEM images for glass homogeneity Thermal analysis, viscosity, oxygen pressure, thermal and electrical conductivity Alteration rate by water Context Glass structure determination Ceramic structure determination Goal : Determining the structure of simplified glass Growing the complexity of the glass Looking at structure deviation when crystallizations occur Modelization of the structure Facilities : X’Pert MPD Pro with Mo tube reflection geometry TsiganX software analysis Atomic conditioning of RN into glass structure Pair function distribution of BaCa(CO 3 ) 2 barytocalcite For 14 C conditioning Nicolas Massoni, Olivier Bouty CEA Marcoule, DEN/DTCD/SECM, BP 17171, 30207 Bagnols sur cèze Cedex Total scattering analyses of glass and ceramics in the context of nuclear waste containment In France, spent nuclear fuel is reprocessed to separate final wastes from uranium and plutonium oxide. Fission products are extracted and conditioned into glass recognized for its good long term behavior. Iodine 129 I or carbon 14 C are also long-lived radionucleides coming from spent fuel reprocessing but they are not contained in the nuclear glass. At present, research is performed for iodine and carbon which could be immobilized into ceramics, respectively apatite [1] or barytocalcite [2]. These ceramics and simplified glass were synthesized by modification of the usual precursors. They show a slight deviation from the pristine materials requiring a deeper understanding of their structures. Thus total scattering analysis has been successfully employed with a lab diffractometer equipped with a Mo source. About ceramics, a modified apatite using a new precursor has been synthesized and the PDF determined using PedfGetX2 [3]. The comparison of the PDF between pristine and modified apatite clearly shows a modification of the interatomic distances. Modelling of the structure was performed with PDFgui [4]. A barytocalcite sample has been also analyzed. It allows us to check that no local deviation from average density was present but also successful modelling allows us to get more precise atomic coordinates. Concerning glass, two simplified glass ‘SiLiO’ and ‘SiBaO’ have been synthesized and the PDF determined using TsiganX [5]. It shows well-known silicate pairs and also new pairs which should be attributed by literature values or adequate modelling. Abstract [1] - C. Guy et al., CR. Phys. 3, 827, (2002). [2] - A. Grandjean et al., J. of Nuc. Mat. 345, 11, (2005). [3] - Qiu, X. and Thompson, J. W. and Billinge, S. J. L. J. Appl. Crystal. 37, 678, (2004). [4] - C. L. Farrow, P. Juhás, J. W. Liu, D. Bryndin, E. S. Božin, J. Bloch, Th. Proffen and S. J. L. Billinge, J. Phys.: Condens. Matter, 19, 335219, (2007). [5] - http://www-tsiganx.cea.fr/ Goal : Looking at structure deviation when substitution occur Modelization of the structure Facilities : X’Pert MPD Pro with Mo tube reflection geometry PDFGetX2 and PDFgui softwares P-O 1,55 Å P-O 1,60 Å 1,28 Å ? Ca-O 2,46 Å 2,84 Å O-O (Iodate) Pair function distribution of two apatites: Ca 10 (PO 4 ) 6 I 2 apatite “Ha-Ca” Ca 10 (PO4) 6 (IO 3 ) 2 apatite “HA-CaI” For 129 C conditioning r → No deviation at short distances → New peak at 1.28Å appears for IO 3 -apatite Outlook : Modelization of the structure Proposal for high energy WAXS at ESRF Me 10 (XO 4 ) 6 Y 2 apatite structure Na O Si Al B Zr → Importance of the glass structure Glass elaboration facilities Simplified glass « CJ1 » : (SiO 2 ) 0,67 (Na 2 O) 0,14 (B 2 O 3 ) 0,18 www-tsiganx.cea.fr Outlook : Modelization of the structure for pairs matching 4 and more oxides incorporation Gaussian functions superposition SiO 2, B 2 O 3, X 2 O with X= Li, Na, K, Cs SiO 2, B 2 O 3, Na 2 O, Eu 2 O 3 SiO 2, B 2 O 3, Na 2 O, Al 2 O 3, CaO SiO 2, Li 2 O (+MoO 3 ) SiO 2, BaO (+La 2 O 3 ) SiO 2, Na 2 O (+CaO) Glass analyzed Oven Nuclear glass PDF of other glass Atomic pair density function of CJ1

Download ppt "Nuclear waste treatment by vitrification Transformation of highly radioactive liquid waste into solid waste An atomic scale incorporation of radionucleides."

Similar presentations

A2 – nuclear power Garfield Graphic with kind permission from PAWS Inc – All rights reserved.

A2 – nuclear power Garfield Graphic with kind permission from PAWS Inc – All rights reserved.
© NTScience.co.uk 2005KS3 Unit 7i - Energy1 Energy.

© NTScience.co.uk 2005KS3 Unit 7i - Energy1 Energy.
Nuclear Energy University Programs Fuel Cycle Technologies, Separations and Waste Forms Program August 10, 2011 Terry Todd, National Technical Director.

Nuclear Energy University Programs Fuel Cycle Technologies, Separations and Waste Forms Program August 10, 2011 Terry Todd, National Technical Director.
Nuclear Power. Source: Uranium-235 Process: – An unstable uranium nucleus is bombarded with a neutron and splits into two smaller nuclei and some neutrons.

Nuclear Power. Source: Uranium-235 Process: – An unstable uranium nucleus is bombarded with a neutron and splits into two smaller nuclei and some neutrons.
Inhibition of Spent Ion Exchangers in Geopolymer Matrix Institute of Rock Structure and Mechanics, Academy of Sciences of the Czech republic Dept. Of Chemistry.

Inhibition of Spent Ion Exchangers in Geopolymer Matrix Institute of Rock Structure and Mechanics, Academy of Sciences of the Czech republic Dept. Of Chemistry.
X-Ray Diffraction. The XRD Technique Takes a sample of the material and places a powdered sample which is then illuminated with x-rays of a fixed wave-length.

X-Ray Diffraction. The XRD Technique Takes a sample of the material and places a powdered sample which is then illuminated with x-rays of a fixed wave-length.
Physical Properties of Glass 2: Thermal Expansion Coefficient

Physical Properties of Glass 2: Thermal Expansion Coefficient
Transmutation (Objective 25

Transmutation (Objective 25
1 National 5 Chemistry Nuclear Chemistry. Isotopes 2  Atoms of the same element (same Z) but different mass number (A).  Boron-10 ( 10 B) has 5 p and.

1 National 5 Chemistry Nuclear Chemistry. Isotopes 2  Atoms of the same element (same Z) but different mass number (A).  Boron-10 ( 10 B) has 5 p and.
Lecture 2 M.Sc.. AA Spectrometer Components Lamp and FlameDetector Fuel Oxidant Nebulizer Double-Click picture for VIDEO.

Lecture 2 M.Sc.. AA Spectrometer Components Lamp and FlameDetector Fuel Oxidant Nebulizer Double-Click picture for VIDEO.
Solid State Approach: La 9.33 Si 6 O 26 Electrolyte as a Replacement for YSZ in Solid Oxide Fuel Cells By: Scott Wilhour, Penn State, MatSE Mentor: Martha.

Solid State Approach: La 9.33 Si 6 O 26 Electrolyte as a Replacement for YSZ in Solid Oxide Fuel Cells By: Scott Wilhour, Penn State, MatSE Mentor: Martha.
March 2, 2010Global Network Symposium 1 Physics of compression of liquids Implication for the evolution of planets Shun-ichiro Karato Yale University Department.

March 2, 2010Global Network Symposium 1 Physics of compression of liquids Implication for the evolution of planets Shun-ichiro Karato Yale University Department.
The Nature of Molecules

The Nature of Molecules
III. Analytical Aspects Summary Cheetham & Day, Chapters 2, 3 Chemical Characterization of Solid-State Materials Chemical Composition: Bulk, Surface, …

III. Analytical Aspects Summary Cheetham & Day, Chapters 2, 3 Chemical Characterization of Solid-State Materials Chemical Composition: Bulk, Surface, …
By Prashant Selvaratnam Department of Earth Sciences University of Cambridge Supervisor: Dr. Ian Farnan.

By Prashant Selvaratnam Department of Earth Sciences University of Cambridge Supervisor: Dr. Ian Farnan.
Crystallization behavior of a borosilicate nuclear glass in isothermal and thermal gradient conditions Olivier Delattre 1, Elise Regnier 1, Sophie Schuller.

Crystallization behavior of a borosilicate nuclear glass in isothermal and thermal gradient conditions Olivier Delattre 1, Elise Regnier 1, Sophie Schuller.
ICEM’ 11– Reims France 26 Septembre 2011 Presented by: Albert A. Kruger Glass Scientist Supervisor, Vitrification Group of the DOE WTP Project Office Engineering.

ICEM’ 11– Reims France 26 Septembre 2011 Presented by: Albert A. Kruger Glass Scientist Supervisor, Vitrification Group of the DOE WTP Project Office Engineering.
Nuclear and Radiation Physics, BAU, 1 st Semester, 2006-2007 (Saed Dababneh). 1 Nuclear Fission Q for 235 U + n  236 U is 6.54478 MeV. Table 13.1 in Krane:

Nuclear and Radiation Physics, BAU, 1 st Semester, (Saed Dababneh). 1 Nuclear Fission Q for 235 U + n  236 U is MeV. Table 13.1 in Krane:
Matter and its Changes. Atoms Matter is made up of atoms Matter is anything that takes up space and has mass Atoms are the “building blocks” of life.

Matter and its Changes. Atoms Matter is made up of atoms Matter is anything that takes up space and has mass Atoms are the “building blocks” of life.
Reforming and Fixation of Carbon Oxides in Atmospheric Pressure Non- thermal CO/CO 2 Plasmas Robert Geiger Advisor: Dr. David Staack Texas A&M Mechanical.

Reforming and Fixation of Carbon Oxides in Atmospheric Pressure Non- thermal CO/CO 2 Plasmas Robert Geiger Advisor: Dr. David Staack Texas A&M Mechanical.

Similar presentations

Ads by Google