Electrochemical technology of molten salts : Proceedings of the first european workshop on electrochemical technology of molten salt, held in Sintra, Portugal, March 14-17, 1993

Author(s)

Bibliographic Information

Electrochemical technology of molten salts : Proceedings of the first european workshop on electrochemical technology of molten salt, held in Sintra, Portugal, March 14-17, 1993

C.A.C. Sequeira, G.S. Picard, editors

(Molten salt forum, v. 1 & 2)

Trans Tech Publications, c1993

Available at  / 2 libraries

Search this Book/Journal

Note

Includes bibliographical references and indexes

Description and Table of Contents

Description

During the past several years there has been remarkable interest and activity in two fields of the fused salt chemistry, namely Molten Salt Extractive Metallurgy and High-Temperature Fuel Cells. The required fundamental investigations for improving industrial processes are necessarily devoted to all aspects of the reactivity in molten salts. Therefore, most of the relevant disciplines are represented here: electrochemistry, spectroscopy and computer modelling.

Table of Contents

Preface I. Oxide Reaction Chemistry Acidity Measurement Electrochemical Behaviour of Dissolved CaO in Molten CaCl2 pO2- Sensor in Molten Chlorides: Precise Calibration and Uses Oxoacidity Effect on Metallic Oxide Dissolution Reactions in Fused Chlorides Separation and Selective Reactions Three-Dimensional Reactivity Diagrams for Reaction Chemistry in Molten Chlorides Molten Salt Separation of Baryum Sulfate from a Brazilian Baryte Ore Separation of Tin and Indium Traces from Zinc/Lead Matrixes in Molten Chlorides Chemical and Electrochemical Behaviour of Nickel Ion in the PbCl2-KCl Melt at 475 DegreesC II. Structural Studies of Salts and Interfaces Raman Study on the SO3-K2S2O7 Molten System Raman Spectroscopic Studies in the Molten System CsCl-NbCl5-NbOCl3 Structural Modelling of a Molten Salt by a Monte-Carlo Method Ab Initio and Molecular Dynamics Studies of Molten NaCl-Graphite Interfaces III. Refractory Metals and Alloys Niobium Investigations of the Complex and Redox Chemistry of K2NBF7 Dissolved in NaCl-KCl Melts with Oxide Additions Titanium and Molybdenum Influence of Nature of the Alkali Metal Cation on Ti(III)- e = Ti(IV)Electrochemical Process in Chloride Melts Contribution to the Electrochemistry of Ti in Fused Salts Electrochemical Study of Molybdenum Solutions at 500 DegreesC Electrodeposition of Molybdenum from KF-K2MoO4-SiO2 Melts Electrochemical Study of Molybdenum in KF-K2MoO4-B2O3 Melts st 860 DegreesC: Chronopotentiometry and Voltametry IV. Light Metals Electrolysis Processes Aluminium and Neodymium Reactions between Molten Electrolyte - Sodium - Carbon and Air within the Cathode during Aluminium Electrolysis Raman Spectra of Neodymium (III) Chloride-Alkali Chloride Melts and of Solid Compounds The Kinetics and Mechanism of Al(III)/Al Electrode Reaction in Cryolite - Alumina Melts Investigations on Cell and Electrode Materials Oxygen-Evolving Anodes for High-Temperature Electrolysis A Study on the Solubility of SnO2 in Cryolite-Based Melts Chemical and Electrochemical Behaviour of Some 'New Materials' in Molten Salts to be Used for Aluminium Electrolysis Thermodynamics of Y2O3-LiF-YF3 Melts Electrochemical Behaviour of the Ceramical NiO-Li2O Anode in Molten CaCl2-CaO Mixture V. Energetic Relevant Systems Fuel Cells Electrochemical Sensors and Fuel Cells: The Solid State Alternative Electrochemical Corrosion Studies on Molten Carbonate Fuel Cell Components Investigation on the Kinetics and Stability of NiO(Li) and La0.8Sr0.2CoO3 in Molten Carbonates by Means of Electrochemical Impedance Spectroscopy Electroreduction of Oxygen under Pressurized Conditions in Molten Carbonate Media Design of a Rotating and Hanging Meniscus Rotating Disk Electrode for Molten Carbonates Others Prospective Investigations Diffusion of Impurities in Liquid Metal Using Solid Electrolytes Hydride-Containing Molten Salts and their Technology Implications Ostwald Ripening in a Molten Salt Medium Structure and Transport Properties of Molten NH4H2PO4 upon Addition of Solid CaHPO4 VI. Low-Temperature Molten Salts Electrolyte-Amide Molten System: Micellar and Supercapacitive Stystems Electrochemical Insertion of Magnesium in Vanadium Bronzes Using Room Temperature Molten Salts as an Electrolyte Electrochemical Reduction of SO2 from Molten Amides at n-Type Semiconductor Electrodes Electrochemical Studies in Low Temperature Amide Melts

by "Nielsen BookData"

Related Books: 1-1 of 1

Details

  • NCID
    BA4809667X
  • ISBN
    • 0878496696
  • Country Code
    sz
  • Title Language Code
    eng
  • Text Language Code
    eng
  • Place of Publication
    Zuerich
  • Pages/Volumes
    415 p.
  • Size
    25 cm
  • Subject Headings
  • Parent Bibliography ID
Page Top