Extraction of Mn and Cr from slags by molten salt electrolysis

Tianming, Sun

January 2012

There are many kinds of elements, especially heavy metallic elements, presentin the industrial slags. These elements bring big environmental problems ifthey are directly used in land filling. And the recovery of these elements canalso have benefits for the resource conservation. This paper reports the use ofelectrochemical method to extract the metal elements from both industrial slagand pure oxide. The mixture of NaCl-KCl was used as the electrolyte for thisprocess. Some proposals are alsomentioned for the further work.

Molten salts

Electrolysis

Slag

Cr

Mn.

Other Materials Engineering

Annan materialteknik

Investigating Bismuth as a Surrogate for Plutonium Electrorefining

Chipman, Greg

11 August 2023

Conducting research experiments on plutonium electrorefining is difficult due to the significant hazards and regulations associated with nuclear materials. Finding a surrogate for plutonium electrorefining studies would enable more fundamental research to be conducted. Potential surrogates were identified by determining the physical properties required to conduct electrorefining using a molten metal and molten salt in CaCl2 at 1123 K. More potential surrogates were identified by changing the matrix salt to be a LiCl-KCl-CaCl2 eutectic salt with electrorefining conducted at 673-773 K. Ce-CeCl3, In-InCl3, Zn-ZnCl2, Sn-SnCl2, and Bi-BiCl¬3 were investigated as potential plutonium electrorefining surrogates. Ce electrorefining in molten CaCl2 resulted in a difficult to separate colloid mixture of Ce, Ca and Cl. Electrorefining rates for In were too slow due to InCl3 volatilizing out of the molten salt. Zn was successfully electrorefined, but the metal obtained did not coalesce into one piece. Sn and Bi were successfully electrorefined and coalesced into solid product rings with high yields and coulombic efficiencies. While a surrogate could not be identified using the same conditions as plutonium electrorefining, two possible surrogates, Sn-SnCl2 and Bi-BiCl3,¬ were found that could imitate the physical configuration (i.e., molten salt on top of molten metal) of plutonium electrorefining at a reduced temperature using a eutectic LiCl-KCl-CaCl2 salt in place of CaCl2. Using this surrogate enables fundamental studies of aspects of plutonium electrorefining. One aspect of plutonium electrorefining research is to improve its efficiency and yield. Plutonium electrorefining is a time-intensive process which generates radioactive waste. Improvements in efficiency and yield can reduce process time and waste. One possible way of improving the efficiency of plutonium electrorefining is to study the impact of using an AC superimposed DC waveform. Four AC superimposed DC and two DC electrorefining runs were performed using bismuth as a plutonium surrogate. All six runs showed a high level of yield and coulombic efficiency. All six cathode rings were confirmed to be high-purity bismuth using scanning electron microscopy with energy dispersive x-ray analysis (SEM-EDS). While the results were inconclusive about the ability of AC superimposed DC waveforms to increase the efficiency of bismuth electrorefining, applying an AC superimposed DC waveform did not appear to decrease the efficiency or yield of the process. The change in waveform also did not result in impurities being present in the product cathode ring. Bismuth, in addition to being identified as a viable plutonium surrogate, has been investigated as a potential liquid electrode for molten salt electrorefining. Because of this, its electrochemical properties are of interest. However, bismuth's electrochemical behavior has received scant attention in eutectic LiCl-KCl melts and no studies were found in the ternary LiCl-KCl-CaCl2 melts. LiCl-KCl-CaCl2 melts offer some advantages over eutectic LiCl-KCl, such as lower melting point and higher oxide solubility. Cyclic voltammetry, square wave voltammetry, chronoamperometry, chronopotentiometry and open-circuit chronopotentiometry were used to measure electrochemical parameters, such as diffusivity and standard redox potential of bismuth electrodeposition in LiCl-KCl and LiCl-KCl-CaCl2 eutectics.

Pyrochemistry

electrorefining

molten salts

bismuth

plutonium surrogate

AC superimposed DC waveform

electrochemical properties

Engineering

The Advancement of Experimental and Computation Tools for the Study of Molten Salt Chemistry to Facilitate the Extraction of Strategic Elements in Nuclear Applications

Stoddard, Michael

25 April 2024

Nuclear energy presents environmental benefits, yet the challenge of radioactive waste management persists. Advanced solutions, such as Molten Salt Reactors (MSRs), require a more profound understanding of molten salt chemistry. This research aims to develop tools, including a depletion simulator, molten salt electrochemical simulator, and a fluoride-based thermodynamic reference electrode for electrochemical purification. The computationally inexpensive depletion simulator allows for exploration into extraction and processing strategies for molten salt reactors. An illustrative case study on Mo-99 production from MSRs demonstrates the practical application of the theoretical framework, emphasizing the need for optimization in extraction effectiveness and separation difficulty. The electrochemical simulator, employing first-principles models, contributes to both nuclear technology and the broader field of electrochemistry. Detailed analyses of linear sweep voltammetry (LSV) for uranium deposition, coupled with numerical simulations for diffusion coefficient measurements, enhance precision in experimental methodologies. The study into fluoride-based thermodynamic reference electrodes provides validation of boron nitride as a viable ion-exchange membrane permeation of oxide impurities as a contributing factor to reference electrode failure, and an investigation of an alternative reference electrode chemistry based on the equilibrium between U3+ and U4+. This novel reference electrode chemistry enabled electrochemical purification of fluoride-based salts which were characterized with square wave voltammetry and have less than 30 ppm O2-. In summary, this work not only advances theoretical understanding but also provides practical tools for nuclear energy and electrochemical processes. Its interdisciplinary approach of integrating theory, computation, and experimentation represents a significant stride toward the responsible and balanced utilization of nuclear power to address global energy needs and challenges.

molten salts

electrochemistry

purification

simulation

fluoride

chloride

nuclear

advanced reactors

pyroprocessing

Engineering

Développement d'un procédé électrochimique pour le recyclage du néodyme à partir de déchets électroniques / Development of an electrochemical process for the recycling of neodymium from electronic scraps

Mery, Mickaël

16 November 2018

Le néodyme appartient à la série des lanthanides se trouvant dans le tableau périodique. Il est le composant clé des aimants permanents Nd2Fe14B implantés dans différents appareils électroniques mais aussi dans appareils dis « écologiques » comme les éoliennes, les voitures ou vélos électriques. De nos jours seulement 1 % du néodyme présent dans les déchets électroniques est recyclé. De fortes tensions géopolitiques ainsi que la croissance rapide de la demande pour ce type d’aimants conduisent à d’importantes spéculations et fluctuations sur le prix du néodyme aggravées par l’appauvrissement annoncé de la ressource.Depuis quelques décennies, plusieurs procédés de recyclage du néodyme ont été développés au niveau des laboratoires sans avoir été utilisés à l’échelle industrielle. Les procédés existants ont plusieurs désavantages comme un grand nombre d’étapes avant d’obtenir le produit final ou encore l’utilisation de grandes quantités de produits chimiques.Le but de ces recherches est le développement d’un procédé pyrochimique pouvant être une alternative à ceux déjà existants. Ce procédé permettrait de récupérer le néodyme sous sa forme métallique en seulement une étape. Pour atteindre cet objet, il a fallu élaborer un réacteur pouvant résister à de hautes températures ainsi qu’aux sels fondus pouvant être corrosifs selon leur composition. Par la suite, les propriétés électrochimiques du néodyme ont été étudiées dans différents sels fondus à base de chlorures et de fluorures afin trouver la configuration optimale pour l’extraction du néodyme contenu dans les aimants permanents.Nous avons ainsi prouvé qu’il était possible d’extraire le néodyme sous sa forme métallique contenu dans de vieux aimants permanents en une seule étape durant une électrolyse. / Neodymium belongs to the lanthanide’s serie of the period system and is the key component of the permanent magnets Nd2Fe14B which are implemented in electronic devices and “green” technologies like wind turbines or electric cars and bicycles. Nowadays, only one percent of the neodymium in electronic scraps is recycled. Due to the geopolitical considerations and a strong increase of the use of permanent magnets, there is an impoverishment of the raw material resources leading to an instable market.Since some decades, few recycling processes have been developed on a lab scale without any upscaling to the industrial scale. The existing processes have several drawbacks like multiple steps to obtain the final desired product. This means that these methods have a long process time or use a large amount of chemical productsThe aim of this research was the development of a pyrochemical process, which could be an alternative to the existing recycling processes in order to extract neodymium from electronic scraps with less steps, a smaller amount of chemical products and a higher recovery rate of the rare neodymium. For this purpose a special reaction chamber has been created which resists to the severe experimental conditions induced by the use of high temperatures and corrosive molten salts. Moreover the electrochemical behaviour of neodymium in different chloride- and fluoride-based molten salts was studied in order to find the most appropriated setup.We could prove that the pyrochemical method could be the solution to recover neodymium from the old permanent magnets under its metallic form in just one single reaction step during an electrolysis.

Recyclage

Aimant permanents

Électrochimie

Sels fondus

Déchets électroniques

Néodyme

Electronic scraps

Neodynium

Recycling

Molten salts

Electrochemistry

Permanent magnets

540

620

Transferts de masse aux interfaces agitées électromagnétiquement : application au retraitement de déchets nucléaires / Mass transfers through electromagnetically stirred interfaces – nuclear wastes application.

Courtessole, Cyril

30 November 2012

L’extraction réductrice liquide-liquide est une des voies pyrochimiques les plusprometteuses pour assurer le retraitement des déchets nucléaires. Cette techniqueconsiste à extraire à haute température des éléments initialement en solution dansun sel fondu sur une nappe métallique. Afin d’améliorer les transferts de masse,l’utilisation de forces électromagnétiques permettant de brasser sans contact matérielle coeur des bains et l’interface elle-même a été envisagée.Les cinétiques d’extraction de trois lanthanides (cérium, néodyme et samarium)ont été étudiées expérimentalement. Une étude préalable nous a conduit à travaillersur le couple fluorure de lithium/antimoine et à utiliser le lithium comme agentréducteur. Les investigations réalisées ont démontré que le mécanisme contrôlant lacinétique rapide des transferts est la diffusion des espèces réactives à l’interface.La simulation numérique du réacteur expérimental faisant intervenir de multiplescouplages a également été réalisée. Elle a permis de déterminer les écoulementsturbulents dans chacune des phases. Les transferts de masse simulés ont ensuiteété comparés aux mesures expérimentales. / Reductive extraction is one of the most promising pyroprocess for processing spentnuclear fuel. The extraction of elements from a molten salt to a liquid metal occurs athigh temperature. At the interface between the two immiscible flows mass transfersare ensured via a redox reaction. To increase these transfers, electromagnetic forcescan be used to stir the bulk of both phases and of the interface itself without materialcontact.The kinetic of extraction of three lanthanides (cerium, neodymium and samarium)has been experimentally studied. We worked on lithium fluoride/antimony system,the reducing agent being lithium. Theses experiments show that mass transfers arefast for all studied lanthanides and are controlled by diffusion of reactive species atthe interface.The numerical simulation of experimental reactor which involves many stronglycoupled phenomenon has been performed. Turbulent flows have been computed inboth phases. Mass transfers have then been deduced and compared to experimentalresults.

Procédé pyrochimique

Transferts de masse

Interface liquide-liquide

Brassage électromagnétique

Simulation numérique

Sels fondus

Pyroprocess

Mass Transfer

Liquid-Liquid Interface

Electromagnetic Stirring

Numerical Simulation

Molten Salts

Investigation of Charge Transfer Kinetics in Non–Aqueous Electrolytes Using Voltammetric Techniques and Mathematical Modeling

Shen, Dai

28 January 2020

No description available.

Chemical Engineering

deep eutectic solvents

high temperature molten salts

ethaline

electrochemical kinetics

electrochemical engineering

electrochemical redox reactions

complexation

diffusion-reaction modeling

molten salt electrolysis

neodymium

Analysis of a hybrid PV-CSP plant integration in the electricity market

Maz Zapater, Juan Vicente

January 2023

One of the key challenges the world will need to face during the 21st century is global warming and the consequent climate change. Its presence is indisputable, and decarbonizing the gird emerges as one of the required pathways to achieve global sustainable objectives. Solar energy power plants have the potential to revert this situation and solve the problem. One way to harness this energy is through Concentrated Solar Power plants. The major advantage and potential of this technology is its ability to integrate cost-effective Thermal Energy Storage (TES), which is key with such an inherently intermittent resource. On the other hand, the drawback is the high current Levelized Cost of Energy (LCOE). The other main way to harness that highlighted solar energy is the use of Photovoltaic panels, which have recently achieved very competitive LCOE values. On the other hand, the storage integration is still a very pricey option, normally done with Battery Energy Storage Systems (BESS). As a conclusion, a hybrid power plant combining the LCOE of the PV and the TES of the CSP emerges as the key way of achieving a very competitive solution with a big potential. This master thesis aims at exploring the possibilities of a hybrid CSP and PV power plant with a sCO2 power cycle, integrated in the primary, secondary and tertiary electricity markets. To achieve this purpose, firstly, a Python-based Energy Dispatcher was developed to control the hybrid power plant. Indeed, the Dispatcher is the tool that decides when to produce, when to store… following an optimization problem. This can be formulated mathematically, and that was done and integrated into the Python code using Pyomo, a software for optimization problems. As a result, the Dispatcher achieved an effective control of the plant, showing intelligent decisions in detailed hourly analyses. The results were very promising and included optimization functions as maximizing the profitability of the plant or the total production, among others. To proceed with the Techno-economic assessment of the hybrid plant, the electricity markets were studied. The main source of income of any power plant is normally the revenue from selling electricity to the grid, but since there are several markets, there are also other possibilities. In this thesis, it was assessed from a Techno-Economic perspective how the performance and optimal design of the plants vary when providing different services extra to selling electricity to the grid. The conclusion was that even though the Net Present Value (NPV) achieved working on the spot market was already very high, the extra value added from participating in the secondary or tertiary markets was indisputable. Indeed, the profits attained in those markets were between two and four times higher than the ones of the spot market. This is a specific case, but a trend was identified: these hybrid power plants have a huge possibility and a bright future on the service markets. As a consequence, this thesis shows the huge potential of hybrid power plants integrated in the grid participating in several markets. It also lays the foundation for future studies in other locations, under different conditions and with different technologies, among others.

Concentrated Solar Power (CSP)

Photovoltaic (PV)

Molten Salts

supercritical CO2

Thermal Energy Storage

Battery Energy Storage System

MoSES

Energy Dispatcher

Engineering and Technology

Teknik och teknologier

Ανάπτυξη νέων τεχνικών υψηλών θερμοκρασιών με χρήση laser υπέρυθρου (CO2) γιά τη μελέτη με φασματοσκοπία Raman δικτυακών δομών ανόργανων υλικών / Development of new high temperature techniques using infrared laser (co2) for studying the network structure of inorganic materials by means of raman spectroscopy

Καλαμπούνιας, Άγγελος

24 June 2007

Στα πλαίσια της παρούσας διδακτορικής διατριβής έγινε προσπάθεια να μελετηθούν μέσω φασματοσκοπίας Raman τα δομικά και τα δυναμικά χαρακτηριστικά διαφόρων ανόργανων υγρών και γυαλιών σε μεγάλο θερμοκρασιακό εύρος. Αναπτύχθηκαν μέθοδοι, με τις οποίες επιτεύχθηκε η φασματοσκοπική μελέτη υλικών υψηλής καθαρότητας σε θερμοκρασίες έως και 2000oC. Τα φασματοσκοπικά δεδομένα Raman διαφόρων γυαλιών και υγρών περιορίζονται σε θερμοκρασίες έως 1000oC λόγω διαφόρων πειραματικών δυσκολιών που παρουσιάζονται σε μετρήσεις δονητικής φασματοσκοπίας σε υψηλές θερμοκρασίες. Η κυριότερη δυσκολία είναι η πολύ ισχυρή ακτινοβολία μέλανος σώματος, η οποία υπερκαλύπτει το ασθενές σήμα Raman μην επιτρέποντας από κάποιο σημείο και πέρα τη λήψη των φασμάτων. Προκειμένου να ξεπεραστούν οι πειραματικές δυσκολίες αναπτύχθηκε στα πλαίσια της παρούσας διδακτορικής διατριβής ένα σύστημα Raman που συνδυάζει τις «τεχνικές ελλείψεως δοχείου» (“containerless techniques”) και τη χρήση ενός laser υπερύθρου (CO2-laser) ως θερμαντική πηγή, επιτρέποντας τη λήψη φασμάτων για πρώτη φορά σε θερμοκρασίες έως και 2000oC. Οι «τεχνικές ελλείψεως δοχείου» χωρίζονται σε δύο κατηγορίες, την «τεχνική αιώρησης» του δείγματος (“levitation technique”) όπου το υλικό αιωρείται υπό μορφή υγρής σταγόνας σε κατάλληλης γεωμετρίας ακροφύσιο με χρήση προωθητικού αερίου και την «τεχνική αυτοϋποστήριξης» του δείγματος (“self-support technique”) όπου το υγρό υποστηρίζεται από τη στερεά φάση του ίδιου υλικού. Το βασικότερο πλεονεκτήμα του συνδυασμού της φασματοσκοπίας Raman, των «τεχνικών ελλείψεως δοχείου» και της θέρμανσης με χρήση ενός laser υπερύθρου είναι ο σημαντικός περιορισμός της θερμικής εκπομπής, αφού απουσιάζει η ισχυρή θερμική εκπομπή του φούρνου, δίνοντας τη δυνατότητα μελέτης υψηλότηκτων υλικών αποφεύγοντας μολύνσεις, ετερογενή πυρηνοποίηση, αντιδράσεις μεταξύ υλικών και δοχείων σε υψηλές θερμοκρασίες επιτρέποντας την εφαρμογή της επιθυμητής ατμόσφαιρας στο υπό εξέταση υλικό. Μελετήθηκαν με δονητική φασματοσκοπία Raman μη-οξυγονούχες (ZnCl2, ZnBr2, xZnCl2-(1-x)AlCl3) και οξυγονούχες (SiO2, K2Si4O9, xCaO-(1-x)SiO2, xCaO-(1-x)Al2O3) ενώσεις με ενδογενείς πειραματικές δυσκολίες, όπως πολύ υψηλά σημεία τήξης (~2000oC για την περίπτωση των οξειδίων), υψηλή υγροσκοπικότητα, μεγάλες τάσεις ατμών κ.α. ξεπερνώντας τους διαφόρους πειραματικούς περιορισμούς και πραγματοποιήθηκε προσπάθεια σύνδεσης ανάμεσα στο δομικό και δυναμικό χαρακτήρα τους λαμβάνοντας φάσματα Raman σε θερμοκρασιακό εύρος που περιλαμβάνει την κρυσταλλική, υαλώδη, υπέρψυκτη και υγρή κατάσταση. Από τις πληροφορίες που λαμβάνονται για τα τοπικά πολύεδρα συναρμογής σε μικρής κλίμακας τάξη μέσω φασματοσκοπίας Raman γίνεται προσπάθεια να διασαφηνιστεί ο ρόλος των «τροποποιητών του δικτύου» (“network modifiers”) κατά την εισαγωγή τους σε υλικά με πλήρως πολυμερισμένες, τρισδιάστατες, δικτυακές τετραεδρικές δομές (“network formers”). Η δομή σε ενδιάμεσης κλίμακας τάξη (φάσμα Raman χαμηλών συχνοτήτων), η κορυφή Boson, η ημιελαστική κορυφή και χαρακτηριστικά όπως ο εύθραυστος/ισχυρός χαρακτήρας και η μη-εκθετική/εκθετική συμπεριφορά των υπό μελέτη υλικών προσδιορίστηκαν συναρτήσει της θερμοκρασίας και τα αποτελέσματα αναλύονται στα πλαίσια θεωρητικών και φαινομενολογικών μοντέλων που αφορούν την υαλώδη μετάβαση. / e present the Raman spectroscopic results concerning the structure and the dynamics of several inorganic melts and glasses in a broad temperature range. The development of pioneering methods appropriate for high temperature material research and their combination with Raman spectroscopy provided spectroscopic results of high-purity materials at temperatures up to 2000oC. High-temperature Raman data are limited at temperatures below 1000oC due to several experimental difficulties concerning high-temperature vibrational measurements. The main difficulty is the intensive black body radiation, which overwhelms the weak Raman signal and consequently no spectrum can be recorded. In order to overcome the experimental difficulties, we developed a Raman setup, which combines the “containerless techniques” with the use of an infrared laser (CO2-laser) as a heating source permitting the recording of Raman spectra at temperatures up to 2000oC. The “containerless techniques” are divided in two main categories. The “levitation technique”, where the liquid sample is levitated using a nozzle with the appropriate geometry and a supporting gas and the “self-support technique”, where the liquid sample is supported from the solid part of the same material. The main advantage of the Raman spectroscopy-containerlees techniques-laser heating combination is the effective limitation of the black body radiation giving the opportunity to use the desirable atmosphere on the sample and study high-melting materials preventing contamination, heterogeneous nucleation, reactions between materials and containers at high temperatures. We studied several non-oxide (ZnCl2, ZnBr2, xZnCl2-(1-x)AlCl3) and oxide (SiO2, K2Si4O9, xCaO-(1-x)SiO2, xCaO-(1-x)Al2O3) systems with intrinsic experimental difficulties, such as high melting points (~2000oC), hygroscopic nature, high vapor pressures etc. We recorded Raman spectra in extensive temperature range covering the crystalline, the glassy, the supercooled and the molten state in order to elucidate the structure and the involved dynamics of these materials. Information concerning the local coordination polyhedra in short range order have been used for clarifying the role of “network modifiers” inside the fully polymerized threedimensional tetrahedral networks (“network formers”). The structure in medium range order (low-frequency Raman spectrum), the Boson peak, the Quasi-Elastic line and characteristics such as the fragile/strong character and the non-exponential/exponential behavior of these materials have been put under focus and the results are discussed in the framework of the current phenomenological status of the field.

Τήγματα οξειδίων

Φασματοσκοπία Raman

Υψηλή θερμοκρασία

Τεχνικές χωρίς επαφή

Τμήματα αλάτων

Ανόργανα γυαλία

620.112 1

Raman spectroscopy

High temperature

Self support technique

Containerless technique

Levination technique

Molten Salts

Molten oxides

Inorganique glasses

Comportement en corrosion de matériaux métalliques commerciaux et modèles dans des conditions types UVEOM / Corrosion behavior of commercial metallic materials and models under typical conditions UVEOM

Schaal, Emmanuel

23 October 2015

La corrosion des échangeurs de chaleur est un problème économique et technique majeur des Unités de Valorisation Energétique de Ordures Ménagères (UVEOM). Elle est causée par l’action combinée (i) des gaz de combustion contenant notamment HCl et SO2 et (ii) des cendres riches en chlorures et sulfates alcalins, et sels de métaux lourds. Les travaux présentés dans ce mémoire s’inscrivent dans le projet ANR SCAPAC (n°11-RMNP-0016) et portent sur l’influence des paramètres expérimentaux (température, teneur en chlorures dans les cendres, présence de gaz corrosifs et présence de chlorures de métaux lourds dans les cendres) sur la tenue à la corrosion de deux alliages utilisés en milieu UVEOM : l’acier 16Mo3 et l’alliage base nickel Inconel 625. Ces travaux ont permis de mettre en évidence que la présence de phases fondues, l’augmentation de la teneur en chlorures, la présence de 10% en masse de ZnCl2 dans les mélanges de cendres et la présence de gaz corrosifs (HCl, SO2) dans l’atmosphère sont trois facteurs qui ont induit une corrosion plus importante sur les matériaux, de manière plus prononcée sur l’alliage base fer. Une autre partie du travail s’est focalisée sur l’influence des éléments d’alliage Fe, Cr et Mo. Des alliages « modèles » dont les compositions oscillent autour de la composition de l’alliage Inconel 625 commercial ont été synthétisés par fusion haute fréquence et leur tenue à la corrosion a été évaluée sous air et sous atmosphère corrosive. La bonne optimisation de l’alliage commercial a ainsi été démontrée sous air. Sous atmosphère gaz corrosifs, une teneur en chrome supérieure à 22% massique s’est montrée indispensable à la bonne tenue de l’alliage / Corrosion of heat exchangers is an economic and technical issue in Waste-to-energy plants. It is caused by the combined action of (i) flue gas containing HCl and SO2 and (ii) chlorides and alkali sulfates rich ash. This work is part of the ANR project SCAPAC (supported by the ANR-11-RMNP 0016) and focused on the influence of experimental parameters on the corrosion behavior of two commercial alloys used in Waste-to-Energy plants: the 16Mo3 steel and the nickel-based alloy Inconel 625. This study allowed to highlight that the presence of molten phase, the increase in the chloride content, the presence of 10% by weight of ZnCl2 in the ash mixtures and the presence of corrosive gases (HCl, SO2) in the atmosphere are three factors that have induced an higher corrosion of materials, more pronounced on the iron alloy base. Another part of the work has been focused on the influence of alloying elements Fe, Cr and Mo. Thus, model alloys with compositions oscillating around the composition of Inconel 625 commercial alloy were synthesized by high frequency induction and their corrosion resistance was evaluated in air and in corrosive atmosphere. Good optimization of the commercial alloy has been demonstrated in air. In corrosive atmosphere, a minimum chromium content was required to obtain a good corrosion resistance

Corrosion par les sels fondus

Chlorures alcalins

Chlorure de zinc

Température de solidus

Inconel 625

16Mo3

Alliages modèles

Corrosion by molten salts

Alkali Chlorides

Zinc chloride

Solidus temperature

Inconel 625

16Mo3

Model alloys

620.112 23

Síntese e caracterização de fósforos a base de silicatos de cálcio e magnésio dopados com európio e disprósio / Synthesis and characterization of phosphors based on calcium and magnesium silicates doped with europium and dysprosium

MISSO, AGATHA M.

25 May 2017

Submitted by Marco Antonio Oliveira da Silva (maosilva@ipen.br) on 2017-05-25T17:33:34Z No. of bitstreams: 0 / Made available in DSpace on 2017-05-25T17:33:34Z (GMT). No. of bitstreams: 0 / Fósforos a base de silicatos de Ca e Mg foram preparados pelo método sol-gel combinado com o processo de sais fundidos. O gel de sílica foi obtido a partir da solução de Na2SiO3 usando soluções de cloretos de európio, disprósio, cálcio e magnésio. Assim, estes cloretos foram homogeneamente distribuídos no gel. O gel obtido foi seco e tratado termicamente a 900°C por 1h para permitir a fusão dos sais presentes. Em seguida o material foi lavado com água até teste negativo para íons Cl- e seco em estufa a 80°C. A redução do európio para Eu2+ foi realizada em um forno sob atmosfera de 5% de H2 e 95% de Ar a 900°C por 3h para obter os fósforos de CaMgSi2O6:Eu2+ e CaMgSi2O6:Eu2+:Dy3+. Nos difratogramas de DRX das amostras, a diopsita foi identificada como fase cristalina principal e quartzo, como a secundária. Micrografias obtidas por MEV (microscopia eletrônica de varredura), das amostras, mostraram morfologia acicular, esférica, folhas e bastonetes das partículas e dos aglomerados . Curva de análise térmica (TGA-DTGA) revelou que a temperatura de cristalização do CaMgSi2O6:Eu2+ é próxima de 765°C. Estudos de espectroscopia de fotoluminescência foram baseados nas transições interconfiguracionais 4fN → 4fN-1 5d do íon Eu2+. O espectro de excitação apresentou banda larga relativa à transição de transferência de carga ligante metal (LMCT) O2- (2p) → Eu3+ na região de 250 nm e bandas finas oriundas das transições 4f → 4f do íon Eu3+ , mostrando a transição 7F0 → 5L6 em 393 nm quando a emissão é monitorada em 583,5 nm. E o espectro de emissão com excitação monitorada em 393 nm apresentou picos finos entre 570 e 750 nm característicos das transições 5D0 → 7 FJ (J = 0 - 5) do íon Eu3+ , indicando que o íon Eu3+ se encontra em um sítio com centro de inversão. Os resultados obtidos indicam que o método desenvolvido é viável na síntese de fóforos, CaMgSi2O6:Eu2+ e CaMgSi2O6:Eu2+:Dy3+ como foi proposto. / Dissertação (Mestrado em Tecnologia Nuclear) / IPEN/D / Instituto de Pesquisas Energéticas e Nucleares - IPEN-CNEN/SP

diopside

silicate minerals

calcium silicates

magnesium silicates

phosphors

sodium silicates

europium

dysprosium

sol-gel process

synthesis

site characterization

molten salts

x-ray diffraction

thermogravimetric analysis

differential thermal analysis

radiothermoluminescence

electron microscopy