Molten salts chemistry : from lab to applications

Molten salts chemistry : from lab to applications

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Détails bibliographiques
Auteur principal: Lantelme, Frédéric (19..-....; auteur en physique). (Auteur)
Autres auteurs: Groult, Henri (1965-....). (Auteur)
Support: E-Book
Langue: Anglais
Publié: San Diego : Elsevier Science & Technology Books, 2013.
Sujets:
Fus salts > Analysis.
Autres localisations: Voir dans le Sudoc
Résumé: "In recent years, molecular modelling has become an indispensable tool for studying the structure and dynamics of molten salts. In this chapter we first provide a short description of the state-of-the-art models and methods used for modelling molten salts at the atomic scale. In particular, we discuss the importance of polarization effects for obtaining accurate results. We then give some examples of the structure of several molten salts, as yielded by the simulations. We finish by describing how the transport properties, which encompass the diffusion coefficients, electrical conductivities, viscosities and thermal conductivities, are computed. By comparing the values given by the simulations to reference experimental data, we show that this technique can now be considered as highly predictive"--
Accès en ligne: Accès à l'E-book
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100 1 |0 (IdRef)075242826  |1 http://www.idref.fr/075242826/id  |a Lantelme, Frédéric  |d (19..-....;   |c auteur en physique).  |4 aut.  |e Auteur 
245 1 0 |a Molten salts chemistry :  |b from lab to applications   |c Frédéric Lantelme, Henri Groult. 
256 |a Données textuelles. 
264 1 |a San Diego :  |b Elsevier Science & Technology Books,  |c 2013. 
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500 |a Titre provenant de la page de titre du document numérique. 
500 |a Numérisation de l'édition de San Diego : Elsevier Science & Technology Books, 2013. 
500 |a La pagination de l'édition imprimée correspondante est de 591 p. 
506 |a L'accès complet à la ressource est réservé aux usagers des établissements qui en ont fait l'acquisition 
516 |a Fichier PDF. 
520 |a "In recent years, molecular modelling has become an indispensable tool for studying the structure and dynamics of molten salts. In this chapter we first provide a short description of the state-of-the-art models and methods used for modelling molten salts at the atomic scale. In particular, we discuss the importance of polarization effects for obtaining accurate results. We then give some examples of the structure of several molten salts, as yielded by the simulations. We finish by describing how the transport properties, which encompass the diffusion coefficients, electrical conductivities, viscosities and thermal conductivities, are computed. By comparing the values given by the simulations to reference experimental data, we show that this technique can now be considered as highly predictive"-- 
538 |a Nécessite un lecteur de fichier PDF. 
559 1 |b Modelling of molten salts  |b Raman spectroscopy and pulsed neutron diffraction of molten salt mixtures containing rare earth trichlorides : trial approaches from fundamentals to pyrochemical reprocessing  |b In situ spectroscopy in molten fluoride salts  |b Thermodynamic calculations of molten salt reactor fuel systems  |b Ionic transport in molten salts  |b Salt bath thermal treating and nitriding  |b Catalysis in molten ionic media  |b The ability of molten carbonate for the gas cleaning of biomass gasification  |b Inert anode development for high-temperature molten salts  |b Boron-doped diamond electrode in molten chloride systems  |b NF3 production from electrolysis in molten fluorides  |b Corrosion in molten salts  |b Plasma-induced discharge electrolysis for nanoparticles production  |b Electrochemical formation of rare earth-nickel alloys  |b Electrochemical synthesis of novel niobium and tantalum compounds in molten salts  |b Preparation of carbonaceous materials in fused carbonates salts : applications to electrochemical storages devices  |b Molten carbonates from fuel cells to new energy devices  |b Synthesis and Li+ ion-exchange in molten salts of novel hollandite-type Ky(Mn1- xCox)O2zH2O nano-fiber for lithium battery electrodes  |b Hybrid molten carbonate/solid oxide direct carbon fuel cells  |b High temperature molten salts for solar power application  |b The sodium metal halide (ZEBRA) battery : an example of inorganic molten salt electrolyte battery  |b Hydrogen storage and transportation system through lithium hydride by using molten salt technology  |b Nuclear energy based on thorium molten salt  |b Molten salts for nuclear applications  |b Lanthanides extraction processes in molten fluoride media  |b Development of pyrochemical separation processes for recovery of actinides from spent nuclear fuel in molten LiCl-KCl 
650 0 |a Fus salts  |x Analysis.  |2 lc 
700 1 |0 (IdRef)134392906  |1 http://www.idref.fr/134392906/id  |a Groult, Henri  |d (1965-....).  |4 aut.  |e Auteur 
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