Interactions between sodium carbonate aerosols and iodine fission-products / Interactions entre les aérosols de carbonate de sodium et les produits de fission à base d'iode

Jadon, Ankita

20 July 2018

L’analyse de sûreté des réacteurs à neutrons rapides refroidis au sodium de Génération IV nécessite l'étude des conséquences d'un accident grave en cas de rejet dans l'environnement du sodium et des radionucléides qu'il transporte (terme source chimique et radiologique). Le terme source global dépend donc à la fois de la spéciation chimique des aérosols de sodium, issus de la combustion du sodium dans l'enceinte, et de leurs interactions avec les radionucléides. Au cours de cette thèse, les interactions entre le carbonate de sodium et les produits de fission gazeux iodés (I2 et HI) ont été étudiées aux échelles atomique et macroscopique, via une double approche théorique et expérimentale. Une expression analytique de l'isotherme d'adsorption a été développée. La stabilité relative des surfaces du carbonate de sodium a été déterminée par des calculs ab initio utilisant la théorie de la densité fonctionnelle. La réactivité de l'iode a été étudiée pour les surfaces les plus stables et les isothermes d'adsorption évaluées. En parallèle, la cinétique de capture de l'iode moléculaire par le carbonate de sodium a été déterminée expérimentalement pour différentes conditions. L'ensemble des résultats montrent une capture efficace de l'iode moléculaire par le carbonate de sodium à 373 K, variant selon la pression partielle d'iode et la surface du carbonate. Pour les conditions représentatives d'un accident grave, les sites d'adsorption de la surface de carbonate de sodium la plus favorable seront majoritairement vides ou doublement occupés selon la pression partielle d'iode moléculaire, conduisant à une pression d'équilibre inférieure à 2x10-4 bar à 373 K. / The safety analysis of Generation IV sodium-cooled fast neutron reactors requires the study of the consequences of a severe accident in case of release into the environment of sodium and the radionuclides it carries (term chemical and radiological source). The global source term therefore depends on both the chemical speciation of sodium aerosols, resulting from the combustion of sodium in the containment, and their interactions with radionuclides. During this thesis, the interactions between sodium carbonate and iodinated gaseous fission products (I2 and HI) were studied at the atomic and macroscopic scales, via a combined theoretical and experimental approach. An analytical expression of the adsorption isotherm has been developed. The relative stability of the sodium carbonate surfaces was determined by ab initio calculations using density functional theory. The reactivity of iodine has been studied for the most stable surfaces and the adsorption isotherms evaluated. In parallel, the kinetics of capture of molecular iodine by sodium carbonate has been determined experimentally for different boundary conditions.The results show an effective capture of the molecular iodine by sodium carbonate at 373 K, varying according to the partial pressure of iodine and the surface of the carbonate sorbent. For the representative conditions of a severe accident, the adsorption sites of the most favorable sodium carbonate surfaces will be mostly bare or doubly occupied depending on the partial pressure of molecular iodine; leading to an equilibrium pressure of less than 2x10-4 bar at 373 K.

Isothermes d’adsorption

Carbonate de sodium

541.38

Beyond lithium : atomic-scale insights into cathode materials for sodium and magnesium rechargeable batteries

Heath, Jenny

January 2018

The importance of energy storage worldwide is increasing with the use of renewable energy sources and electric vehicles. With the intermittent nature of wind and solar power, large-scale grid storage is an extremely important progression needed to reduce the use of fossil fuels. For this to become a reality, rechargeable batteries beyond existing Li-ion technologies need consideration. The development of such batteries requires improvement of understanding their component materials. Modern computer modelling techniques enable valuable insights into the fundamental defect, ion transport and voltage properties of battery materials at the atomic level. Atomistic simulation and ab initio density functional theory (DFT) techniques have been used to study a number of potential cathode materials for Na-ion and Mg batteries. Firstly, the olivine and maricite forms of NaFePO4 are considered in terms of their defect formation energies and Na ion diffusion. The atomistic study indicates that anti-site disorder is the most favourable type of intrinsic defect. The activation energies for Na-ion migration in the olivine and maricite materials are 0.4 eV and 1.6 – 1.8 eV respectively. Moreover, molecular dynamics (MD) studies reveal that there is only substantial Na-ion diffusion in the olivine structure, with diffusion coefficients (DNa) at 300 K of 7 x 10−13 cm2s−1 for maricite and 4 x 10−9 cm2s−1 for olivine NaFePO4. The presence of anti-site defects is shown to decrease Na+ diffusion within the olivine structure, which is of relevance to its rate behaviour. Secondly, the effect of lattice strain on ion transport and defect formation in olivine-type LiFePO4 and NaFePO4 is investigated as a means to enhance their ion conduction properties. It is predicted that lattice strain can have a remarkable effect on the rate performance of olivine cathode materials, with a major increase in ionic conductivity and decrease in blocking defectsat room temperature. Thirdly, DFT techniques have been used to examinesurface and grain boundary formation in P2-NaCoO2. The coordination lossexperienced by ions present at surfaces is found to influence the resultingsurface energy. Layered oxide cathode materials were further investigated byconsidering the effect of Mg2+ doping on P2-Na2 [Ni1 Mn2 ]O2. Na vacancy 333formation energies decreased with 10% Mg2+ doping on the Ni site and an increase in Na diffusion was predicted with MD calculations. This positive effect on Na ion conductivity is caused by displacement of the Mg ions from the transition metal layer and the resulting change in electrostatic potential. Finally, Mg ion conduction, doping and voltage behaviour of MgFeSiO4 were studied. The Mg-ion migration activation energy is relatively low for an olivine-type silicate, and MD simulations predict a diffusion coefficient (DMg) of 10−9 cm2s−1, suggesting favourable electrode kinetics. Partial substitution of Fe by Co or Mn could increase the cell voltage from 2.3 V vs Mg/Mg2+ to 2.8 - 3.0 V.

540

Battery ; Cathode ; Sodium ; Magnesium

The role of dopamine and sodium transport inhibitor in natriuresis.

January 1994

by Ho, Chung Shun. / Thesis (Ph.D.)--Chinese University of Hong Kong, 1994. / Includes bibliographical references (leaves [304-328]). / Chapter CHAPTER 1 --- REVIEW ON SODIUM EXCRETION / Chapter L --- Sodium excretion --- p.1-1 / Chapter II. --- Cellular mechanism of sodium reabsorption --- p.1-3 / Chapter III. --- Sensors monitoring ECF volume --- p.1-6 / Chapter IV. --- Factors affecting natriuresis: / Glomerular filtration rate --- p.1-8 / Renal physical forces --- p.1-8 / Sympathetic nervous system --- p.1-10 / Renal dopamine --- p.1-12 / Renin-angiotensin system --- p.1-14 / Aldosterone --- p.1-16 / Renal prostaglandins --- p.1-17 / Renal kallikrein-kinin system --- p.1-18 / Natriuretic peptides --- p.1-19 / Endogenous sodium transport inhibitor --- p.1-21 / Vasopressin --- p.1-22 / Endothelins --- p.1-23 / Endothelin-derived relaxing factor --- p.1-25 / Other hormones --- p.1-25 / Chapter V. --- Conclusion --- p.1-27 / Chapter CHAPTER 2 --- MEASUREMENT OF ENDOGENOUS SODIUM TRANSPORT INHIBITORS / Chapter I. --- Literature review: --- p.2-1 / Pretreatment and purification procedures prior to ESTI measurement --- p.2-1 / Methods of measuring ESTI --- p.2-3 / "Inhibition of purified Na, K-ATPase activity" / Inhibition of sodium pump on intact cells or tissues / Biological effects of sodium pump inhibition / Immunoreactivity with anti-digoxin /anti-ouabain antibodies / Chapter II. --- Method of measurement of ESTI in this study: / Principles of methods --- p.2-11 / Materials and methods --- p.2-14 / Results --- p.2-24 / Discussion --- p.2-53 / Chapter CHAPTER 3 --- MEASUREMENT OF URINARY FREE DOPAMINE / Chapter I. --- Literature review / Properties of dopamine for measurement methods --- p.3-1 / Preservatives used in the urine collection --- p.3-3 / Sample pretreatment procedure before --- p.3-6 / measurement --- p.3-8 / Methods of measurement / Bioassays / Colorimetric method / Fluorometric methods / Radioimmunoassays / Radioenzymatic method / Chromatographic methods --- p.3-16 / Concluding remarks / Chapter II. --- Method of measurement in this study / Principle of the method --- p.3-17 / Materials and methods --- p.3-18 / Results --- p.3-23 / Discussion --- p.3-54 / Chapter CHAPTER 4 --- CROSS SECTIONAL STUDIES IN THE HUMAN / Chapter I. --- Introduction --- p.4-1 / Chapter II. --- Relationship of urinary sodium excretion and plasma ESTI in medical students / Materials and methods --- p.4-2 / Results --- p.4-3 / Discussion --- p.4-6 / Chapter III. --- Excretion of urinary electrolytes and natriuretic factors in young Chinese females / Materials and methods --- p.4-7 / Results --- p.4-8 / Discussion --- p.4-11 / Chapter IV. --- Urinary sodium / DA relationship in Chinese normotensives and hypertensives --- p.4-13 / Materials and methods / Results --- p.4-14 / Discussion --- p.4-17 / Chapter V. --- Urinary DA excretion and plasma ESTI in normotensive and hypertensive NIDDM patients / Materials and methods --- p.4-20 / Results --- p.4-23 / Discussion --- p.4-33 / Chapter CHAPTER 5 --- VOLUME EXPANSION STUDIES IN THE HUMAN / Chapter I --- Introduction --- p.5-1 / Chapter II. --- Volume expansion by headout water immersion / Materials and methods --- p.5-3 / Results --- p.5-5 / Discussion --- p.5-11 / Chapter III. --- Volume expansion by saline infusion / Materials and methods --- p.5-16 / Results --- p.5-19 / Discussion --- p.5-29 / Chapter IV. --- Oral salt loading with free diet / Materials and methods --- p.5-36 / Results --- p.5-38 / Discussion --- p.5-49 / Chapter V. --- Oral salt loading under controlled diet / Materials and methods --- p.5-53 / Results --- p.5-54 / Discussion --- p.5-64 / Chapter CHAPTER 6 --- STUDIES ON THE EFFECTS OF SALT LOADING IN THE RAT / Chapter I. --- Introduction --- p.6-1 / Chapter II. --- Temporal relationship between excretions of DA and ESTI during salt loading in the rat / Materials and methods --- p.6-2 / Results --- p.6-3 / Discussion --- p.6-6 / Chapter III. --- Roles of DA and ESTI in natriuresis in rats treated with carbidopa / Materials and methods --- p.6-8 / Results --- p.6-9 / Discussion --- p.6-14 / Chapter CHAPTER 7 --- CONCLUSION / Measurement of ESTI --- p.7-2 / Measurement of urinary free DA --- p.7-5 / Cross sectional studies in human --- p.7-7 / Volume expansion studies in human --- p.7-11 / Studies on the effects of salt loading in the rat --- p.7-16 / Summary --- p.7-18

Natriuresis

Receptors, Dopamine

Sodium--Metabolism

The role of the renal sodium-dependent phosphate cotransporter genes, NPT1 and NPT2, in inherited hypophosphatemias /

Kos, Claudine H.

January 1998

No description available.

Hypophosphatemia, Familial.

Sodium cotransport systems.

Etude de la cristallisation du bicarbonate de sodium raffiné:contribution au modèle des colonnes à bulles

Gutierrez, Vanessa

15 March 2010

La société Solvay est le plus grand producteur de bicarbonate de sodium raffiné au monde. Le NaHCO3 est un des produits parmi les plus connus et utilisés. Sa production a lieu dans des colonnes à bulles de volumes très importants. La production du bicarbonate de sodium raffiné dans ces réacteurs peut se résumer par la réaction entre une solution saturée de carbonate de sodium (Na2CO3) et le CO2(gaz) Cette production implique la connaissance et le contrôle des réacteurs de type triphasique. En effet dans ce procédé on met en jeu deux types de transferts entre un gaz et un liquide le CO2 et la solution de Na2CO3 et entre un liquide et un solide, NaHCO3 (liq) et NaHCO3 (solide) Le but de ce travail est d’acquérir des informations concernant la cristallisation du NaHCO3 dans une colonne à bulles. L’étude de la cristallisation de ce produit se fait au travers des modèles des cinétiques de cristallisation : la vitesse de croissance G (m•s-1) et la vitesse de nucléation J (#.m-3•s-1). Nous avons utilisé pour cette étude deux réacteurs différents; un réacteur parfaitement mélangé ou MSMPR (Mixed Suspension Mixed Product Removal) et un réacteur de type colonne à bulles à l’échelle laboratoire. Le premier réacteur nous a permis d’étudier le transfert liquide solide et les différents paramètres qui peuvent intervenir dans la cristallisation comme par exemple : La sursaturation, la température, l’agitation, la densité du solide et les impuretés. Dans la colonne à bulles nous avons étudié les principaux paramètres opératoires comme par exemple : le débit de gaz injecté, la température, la composition la présence d’impureté dans la solution. Grâce à l’étude des différents paramètres du procédé de cristallisation dans les deux réacteurs, nous avons pu établir clairement les relations entre les paramètres opératoires d’une colonne à bulles et les paramètres de cristallisation. Une évaluation paramétrique de la vitesse de croissance et de la vitesse de germination du NaHCO3 a été réalisée dans les deux réacteurs. Nous avons comparé les résultats obtenus dans nos différents réacteurs aux résultats obtenus dans des colonnes industrielles afin d’observer en premier lieu, l’effet des paramètres étudiés à une grande échelle et en deuxième lieu afin de savoir si notre étude peut être corrélée à une échelle industrielle. Ainsi l’information obtenue concernant chaque paramètre étudié sera utilisée pour l’amélioration d’un modèle global décrivant le procédé de cristallisation du NaHCO3 dans les colonnes de production industrielle Solvay.

cristallisation

colonnes à bulles

bicarbonate de sodium

Mechanisms and modulation of neuropathic pain by neurotrophin-3

Wilson-Gerwing, Tracy

10 July 2007

Neuropathic pain is a complex clinical syndrome characterized by increased sensitivity to thermal and/or mechanical stimuli that may or may not be accompanied by the phenomenon of spontaneous or aberrant pain sensations. <p>Over the past decade, the mechanisms underlying the behavioral manifestations of inflammatory neuropathic pain have become more clearly elucidated. These include the involvement of: 1) transient receptor potential vanilloid receptor 1 (TRPV1) in the generation of thermal hyperalgesia; 2) acid sensing ion channel 3 (ASIC3) in some aspects of the development/maintenance of mechanical hypersensitivity; 3) the tetrodotoxin resistant sodium channels Nav1.8 and Nav1.9 in both hyperalgesia and spontaneous pain; and 4) activation of the MAP Kinases p38 and ERK1/2 in the regulation of expression of the aforementioned molecules.<p>Interestingly, it is the pro-inflammatory neurotrophin nerve growth factor (NGF) that is the common link between all of these mediators of neuropathic pain. Increased availability of NGF under conditions of inflammation has been shown to drive increased expression/upregulation of TRPV1, ASIC3, Nav1.8 and Nav1.9, as well as phospho-p38 and phospho-ERK1/2.<p>Evidence presented here continues to support a role for neurotrophin-3 (NT-3) in antagonizing the effects of increased NGF on trkA signaling, neuropathic pain behaviors and some of the molecules associated with the generation of such behaviors.<p>More specifically, the work culminating in this thesis demonstrates a novel role for NT-3 in negative modulation of TRPV1, ASIC3, Nav1.8 and Nav1.9, as well as phospho-p38 expression in response to the chronic constriction injury model of neuropathic pain. Finally, initial insights into how this negative regulation of these nociceptive markers might occur is elucidated in studies demonstrating that NT-3 differentially affects levels of the key signaling molecule phospho-ERK in trkA-positive versus trkC-positive neurons in naïve dorsal root ganglia (DRG).

ASIC3

TRPV1

sodium channels

MAPK

Mechanisms and modulation of neuropathic pain by neurotrophin-3

Wilson-Gerwing, Tracy

10 July 2007

Neuropathic pain is a complex clinical syndrome characterized by increased sensitivity to thermal and/or mechanical stimuli that may or may not be accompanied by the phenomenon of spontaneous or aberrant pain sensations. <p>Over the past decade, the mechanisms underlying the behavioral manifestations of inflammatory neuropathic pain have become more clearly elucidated. These include the involvement of: 1) transient receptor potential vanilloid receptor 1 (TRPV1) in the generation of thermal hyperalgesia; 2) acid sensing ion channel 3 (ASIC3) in some aspects of the development/maintenance of mechanical hypersensitivity; 3) the tetrodotoxin resistant sodium channels Nav1.8 and Nav1.9 in both hyperalgesia and spontaneous pain; and 4) activation of the MAP Kinases p38 and ERK1/2 in the regulation of expression of the aforementioned molecules.<p>Interestingly, it is the pro-inflammatory neurotrophin nerve growth factor (NGF) that is the common link between all of these mediators of neuropathic pain. Increased availability of NGF under conditions of inflammation has been shown to drive increased expression/upregulation of TRPV1, ASIC3, Nav1.8 and Nav1.9, as well as phospho-p38 and phospho-ERK1/2.<p>Evidence presented here continues to support a role for neurotrophin-3 (NT-3) in antagonizing the effects of increased NGF on trkA signaling, neuropathic pain behaviors and some of the molecules associated with the generation of such behaviors.<p>More specifically, the work culminating in this thesis demonstrates a novel role for NT-3 in negative modulation of TRPV1, ASIC3, Nav1.8 and Nav1.9, as well as phospho-p38 expression in response to the chronic constriction injury model of neuropathic pain. Finally, initial insights into how this negative regulation of these nociceptive markers might occur is elucidated in studies demonstrating that NT-3 differentially affects levels of the key signaling molecule phospho-ERK in trkA-positive versus trkC-positive neurons in naïve dorsal root ganglia (DRG).

ASIC3

TRPV1

sodium channels

MAPK

The diffusional properties of sodium hydroxide

Fary, A. David

01 January 1966

No description available.

Physical chemistry

Diffusion

Sodium hydroxide

A study of the reaction products of lignin model compounds and sodium hydrosulfide.

Zentner, Thomas G. (Thomas Glenn)

01 January 1952

No description available.

Lignin model compounds

Sodium hydrosulfide

Electrochemical Splitting of Sodium Sulfate

Davis, Samuel M.

22 May 2006

Five cation exchange membranes and four anion exchange membranes were tested in a three-compartment, two-membrane, electrolysis salt-splitting cell for the recycle of sodium sulfate into sodium hydroxide and sulfuric acid. The cell is further examined using DuPont Nafion 324 cation exchange membrane and Sybron Ionac MA-7500 anion exchange membrane to determine the maximum concentration of sodium hydroxide that can be produced by electrolysis salt-splitting as well as to determine the chief source of inefficiency. The discussion includes recommendations for future electrolysis salt-splitting cells and a mathematical model of the cell is created to determine optimum operating conditions.

Salt-splitting

Electrolysis

Sodium sulfate