Granulation de suspensions concentrées UO2/PuO2 : application à l'élaboration de compacts granulaires denses par pressage et à leu caractérisation structurale post frittage / Granulation of concentrated UO2/PuO2 suspensions : application to the shaping of granular compacts by pressing and post-sintering microstructural characterization

La Lumia, Florian

18 October 2019

Le procédé actuel de fabrication des combustibles nucléaires MOX (UO2-PuO2) est réalisé exclusivement par voie sèche (broyage-tamisage des poudres, pressage et frittage). Afin d’améliorer ce procédé, des recherches sont menées sur le développement d’un procédé de fabrication du MOX par voie liquide. Ce procédé vise à réduire l’empoussièrement des boîtes à gants, améliorer l’homogénéité U/Pu et diminuer la quantité de défauts (fissures, éclats) des pastilles frittées, afin de minimiser le taux de pastilles rebutées. Dans cette optique, le proceed voie liquide étudié consiste à préparer une suspension aqueuse à partir des poudres brutes d’oxydes (mélange d’eau, d’additifs organiques et de poudres), puis à lui faire subir une granulation. Les granules obtenus sont ensuite pressés et frittés. Le procédé de granulation étudié est un procédé innovant de granulation cryogénique, consistant à atomiser la suspension dans de l’azote liquide puis à lyophiliser les granules gelés ainsi formés. L’étape clé du procédé est la préparation de suspension aqueuse de poudres UO2-PuO2, qui doit être dispersée, homogène, stable et suffisamment fluide pour l’étape de granulation. Une étude préliminaire a été réalisée avec des poudres simulantes, choisies pour leurs propriétés en suspension : TiO2 et Y2O3 pour simuler respectivement UO2 et PuO2. Une fois maîtrisé avec les poudres simulantes, ce procédé a été étudié avec UO2 et PuO2 pour déterminer ses conditions optimales de mise en oeuvre. La dispersion de suspensions d’UO2 et/ou de PuO2 a été étudiée par acoustophorométrie et rhéologie afin d’optimiser leur formulation, ainsi que l’étape de granulation cryogénique. Enfin, des pastilles d’UO2 et d’UO2-PuO2 ont été formées à partir des granules, puis leur frittage et leur microstructure ont été étudiés. / The current manufacturing process for MOX nuclear fuels (UO2-PuO2) is carried out by dry route exclusively (grinding, sieving, pressing and sintering). In order to improve this process, research is conducted to develop a liquid route MOX manufacturing process. It aims to reduce glove boxes dusting, increase U/Pu homogeneity and reduce the amount of defects (cracks, voids) in sintered pellets, in order to minimize scraps. In this scope, the liquid process studied consists in the preparation of an aqueous suspension from the raw oxide powders (mix of water, organic additives and powders), which is then granulated. The resulting granules are pressed into pellets and sintered. The granulation process studied is an innovative freeze granulation process that implies to spray the suspension in liquid nitrogen and then freeze-dry the frozen granules that are formed.The key step of the process is the preparation of aqueous suspension of UO2-PuO2 powders, which must be dispersed, homogeneous, stable and fluid enough for the granulation step. A preliminary study was carried out using surrogate powders, chosen for their properties in suspension: TiO2 and Y2O3 to surrogate UO2 and PuO2 respectively. Once mastered with surrogate powders, this process was studied with UO2 and PuO2 to determine its optimal working conditions. The dispersion of UO2 and/or PuO2 suspensions was studied by acoustophorometry and rheology in order to optimize their formulation, as well as the freeze granulation step. Finally, UO2 and UO2-PuO2 pellets were shaped from the granules, and their sintering and microstructure were studied.

UO2

PuO2

Suspension

Céramique

Potentiel zêta

Rhéologie

Granulation

Frittage

UO2

PuO2

Suspension

Ceramic

Zeta potential

Rheology

Granulation

Sintering

620.14

Formulace a testování nanočástic z větvených polyesterů s rifampicinem / Formulation and testing of rifampicin-loaded branched polyesters nanoparticles

Balciarová, Andrea

January 2018

Charles University Faculty of Pharmacy in Hradec Králové Department of Pharmaceutical Technology Consultant: doc. RNDr. Milan Dittrich, CSc. Student: Andrea Balciarová Title of Thesis: Formulation and testing of rifampicin-loaded branched polyesters nanoparticles In presented thesis, the main attention in theoretical part is focused on nanoparticles for targeted drug delivery, their types, structure and carriers used for their preparation. Moreover, in this part there is an overview of physicochemical characteristics and preparation methods of polymeric nanoparticles applicable in formulation of pharmaceutical products. The experimental part is concerned on studying the influence of the concentration of biodegradable polymers, the presence of cationic surfactants and rifampicin as model drug substance on nanoparticles΄ size and zeta-potential. The main attention is given to nanoparticles decoration with anionic biopolymers, hyaluronic acid and xanthan gum. The simple method of preparation which is usable in nanosystems formulation that influence biological functions purposefully was tried and tested in different contexts.

Formulace a charakterizace PLGA nanočástic s oximy / Formulation and characterization of oxims loaded PLGA nanoparticles

Hafezi, Ramin

January 2021

Thesis title: Formulation and characterization of oxime loaded PLGA nanoparticles Author: Ramin Hafezi Supervisor: PharmDr. Eva Šnejdrová, Ph.D. Advisor: PharmDr. Juraj Martiška, Ph.D. Department: Department of Pharmaceutical Technology The diploma thesis was focused on PLGA nanoparticles (NPs) which could be loaded with oximes, prepared by a double emulsion technique, and characterised by size, polydispersity and zeta potential. The theoretical part deals with the most common methods of the NPs preparation, the polymers and stabilizers employed, and drug delivery to brain. In the experimental part the effect of various formulation factors on NP characteristics were studied: linear or branched PLGA derivative, the concentrations of polymer, the volumes of primary emulsion. Dichloromethane (DCM) or Dimethyl sulfoxide (DMSO) as solvent for polymers were used and Poloxamer 407 or Didodecyldimethylammonium bromide (DDAB) as an outer phase stabilizer were employed. By comparison among the collected results, it seemed 1% A2 in DMSO and stabilization with poloxamer 407 could be best candidate for the oxime loaded drug delivery systems as it was possible to produce nanoparticles with size from 152 to 168 nm with PDI of below 0.15. Electrostatic stability in case of using DDAB was resulted excellent and...

[pt] ESTUDO DAS PROPRIEDADES ELETROCINÉTICAS E DE ESPECTROSCOPIA NO CAMPO DO INFRA-VERMELHO DA ESTIRPE R RUBER NA PRESENÇA DE CÁTIONS METÁLICOS / [en] STUDIES OF THE ELECTROMAGNETIC PROPERTIES AND SPECTROSCOPY IN THE INFRA-RED FIELD OF R RUBER STRAIN IN THE PRESENCE OF METAL IONS

CLARISSA MOSCHIAR FONTELLES

09 June 2015

[pt] Neste estudo, as propriedades bacterianas da estirpe Rhodococcus ruber in natura e ativada com NaOH 0,1M, foram analisadas. O estudo avaliou a influência dos cátions metálicos (Al3 positivo, Cr3 positivo, Fe3 positivo, Co2 positivo, Mg2 positivo e Ni2 positivo) sob o comportamento da estirpe bacteriana, no intervalo de concentração entre 10(-3) a 10(-6) mol/L. As amostras bacterianas foram caracterizadas por espectroscopia na faixa do infra-vermelho com transformada de Fourier (FTIR). O ponto isoelétrico (PIE) da estirpe R. Ruber foi obtido através das análises de potencial zeta. Os resultados demonstraram um PIE com pH igual 2,4 para a estirpe in natura, já quando ativada com NaOH 0,1M o PIE não foi evidenciado. A superfície bacteriana da estirpe ativada se apresentou levemente mais negativa do que a superfície da bactéria in natura. Para todas as amostras, observou-se alteração no potencial zeta durante a interação bacteriana com os íons estudados. Os resultados não apresentam diferenças significativas entre a bactéria in natura e ativada. As amostras permaneceram carregadas negativamente nos pH estudados, para todos os cátions, exceto Fe3 positivo. Por fim, diante dos resultados apresentados, acredita-se que a estirpe Rhodococcus ruber é uma opção viável para estudos voltados ao tratamento de efluentes contaminados por metais. / [en] In this study, the Rhodococcus ruber bacterial strain properties of in nature and activated with 0.1M NaOH were analyzed. The study evaluated the influence of metal ions (Al3 plus, Cr3 plus, Fe3 plus, Co2 plus, Mg2 plus and Ni2 plus) on the behavior of the bacterial strain in the concentration range from 10(-3) to 10(-6) mol/L. Bacterial samples were characterized by infra-red spectroscopy - Fourier transform Infra-red (FTIR). The isoelectric point (IEP) of the bacterium R. ruber was obtained by analysis of zeta potential. The results showed an IEP at pH equal 2.4 to strain in nature, in the other hand the IEP of activated strain (0.1M NaOH) was not observed. Bacterial surface-active strain showed slightly more negative than the surface of the bacterium in nature. All samples demonstrated changes in pH zeta potential during bacterial interaction with the analyzed ions. Samples remained negatively charged at the pH studied to all cations except Fe3 plus. Finally, it s believed that the bacterium Rhodococcus ruber is a viable option for the treatment of metal contaminated wastewater.

[pt] METAIS PESADOS

[pt] POTENCIAL ZETA

[pt] RHODOCOCCUS RUBER

[pt] EFLUENTE LIQUIDO

[en] HEAVY METALS

[en] ZETA POTENTIAL

[en] RHODOCOCCUS RUBER

[en] LIQUIDS EFFLUENTS

Effect of charge-modifying coatings on the antibacterial effect of silver nanoparticles for Escherichia coli

Martín Pardo, Reinaldo Román

09 1900

L'émergence de bactéries multirésistantes dues à une utilisation abusive d'antibiotiques est devenue l'une des menaces les plus dangereuses pour la santé publique. Le développement de nouveaux médicaments et la recherche d'agents antibactériens non traditionnels ont conduit à la nanotechnologie en tant que solution potentielle à ce problème. Les nanoparticules d'argent (NPs d’Ag) sont largement connues pour leur effet antibactérien. Cette étude vise à synthétiser des NPs d’Ag avec différents revêtements et à relier leurs propriétés physico-chimiques à leurs activités biocides, en mettant l'accent sur la façon dont leur charge de surface (estimée par leur potentiel zêta) affecte leurs efficacités antibactériennes et anti-biofilm. Les NPs d’Ag ont été synthétisées en utilisant du citrate comme agent de stabilisation et du polyvinylpyrrolidone, du polyéthylène glycol, de la chitosane et du polyéthylèneimine comme revêtements. La Spectroscopie de Masse à Plasma Inductif de Particule Unique, la Diffusion de Lumière Dynamique et les mesures de potentiel zêta ont été utilisées pour caractériser les NPs d’Ag préparées. La caractérisation des formulations de nanoparticules a montré qu'elles avaient des diamètres similaires d'environ 10 nm et des charges allant de -46 mV à 16 mV. Les comptages de plaques d'agar et les tests de micro dilution ont montré que les NPs d’Ag synthétisées étaient très efficaces pour empêcher la croissance des cellules bactériennes Escherichia coli. Des biofilms d'E. coli ont été cultivés et exposés aux NPs d’Ag, puis vérifiés à l'aide d'une microscopie à balayage laser confocal montrant que les formulations de NP avec un potentiel zêta négatif avaient plus d'activité anti-biofilm que les NP chargées neutres ou positives. / The emergence of multidrug resistant bacteria due to the misuse of antibiotics has become one of the most dangerous threats to public health. Development of new drugs and the search for non-traditional antibacterial agents have led to nanotechnology as a potential solution to this problem. Silver nanoparticles (Ag NPs) are widely known for their antibacterial effect. This study aims to synthesize Ag NPs with different coatings and relate their physicochemical properties with their biocidal activities, with special emphasis on how their surface charge (estimated via their zeta potential) affects their antibacterial and antibiofilm efficacies. Ag NPs were synthesized using citrate as a stabilizing agent and polyvinyl pyrrolidone, polyethylene glycol, chitosan and polyethyleneimine were used as coatings. Single Particle Inductively Coupled Plasma Mass Spectroscopy, Dynamic Light Scattering, and zeta potential measurements were used to characterize the prepared Ag NPs. Characterization of the nanoparticle formulations showed that they had similar diameters of around 10 nm and charges ranging from -46 mV to 16 mV. Agar Plate Counts and microdilution assays showed that the synthesized Ag NPs were very effective in preventing growth of Escherichia coli bacterial cells. E. coli biofilms were grown and exposed to the Ag NPs and checked afterwards with a confocal laser scanning microscopy showing that NP formulations with a negative zeta potential had more anti-biofilm activity than neutral or positive charged NPs.

silver nanoparticles

zeta potential

anti-bacterial properties

biofilms

Escherichia coli

nanoparticules d'argent

potentiel zeta

propriétés antibactériennes

Chemistry / Chimie (UMI : 0485)

The effect of kimberlite weathering on the behaviour of waste material at Cullinan diamond mine, South Africa / Jessica Strydom

Strydom, Jessica

January 2015

Water quality and space constraints have become major concerns regarding the No. 7 waste water dam at Petra Diamonds’ Cullinan mine. The unique location of the dam constrains further development, while unsustainable accumulation of waste water inside the dam increases the risk of potential environmental contamination from seepages and spillages. The dam retains a significant amount of very poor quality water. Its excessively high pH, dissolved salt content, density and extreme turbidity result from the concentration of natural weathering products of the diamond bearing kimberlite ore. The turbidity results from the dispersion of colloidal chlorite, saponite and nontronite clay. Along with the chemistry of the solution, their colloidal shape contributes equally significantly to the non-settlement of these suspended clays. Flocculation of the dispersed clay particles will provide (a) for easy and effective separation of the clay material from the waste water and (b) more convenient options for water treatment (and subsequent redistribution) This study was aimed at contributing to a better understanding of the dynamic interactions in the No 7 Dam system to contribute towards identifying a suitable means/method for chemical flocculation of the clay particles. The individual components of the system (clays, water quality) and influx contributors (kimberlite and its leachate) were systematically characterized by means of X-Ray Diffraction, X-Ray Fluorescence, petrographic microscopy, electron microscopy, electrophoretic mobility and standard water- and soil quality analyses. The baseline quality of the Cullinan kimberlite leachate was obtained based on ASTM D5744 principles. It was found that adjusting the pH-level and ionic strength of the waste water to the critical coagulation point (cK) (as determined by electrophoretic mobility and batch jar experiments) automatically induced coagulation. Higher valence cations were displaced from pH dependent surface charge sites by proton adsorption. The resultant increased ionic strength, in combination with decreased thickness of the ionic double layer, was sufficient for the automatic initiation of high strength disordered face-face and edge-face bonds. During batch Jar tests, flocculation initiated within 4 minutes after the addition of HCl (0.5 M) and total sedimentation completed within 3 hours. The use of commercial flocculants might decrease the sedimentation time. As expected a significant increase in dissolved salt content of the clear supernatant was observed. No re-dispersion of the dried clay occurred. Throughout the study geochemical modeling was performed with PHREEQC software to identify/determine possible effective experimental conditions, minimizing experimental time and expenses. The program was also used to model outcomes of the possible water treatment options, indicated in literature as viable options for similar situations. These options can be tested to extend upon the current research. / MSc (Environmental Sciences), North-West University, Potchefstroom Campus, 2015

Cullinan kimberlite

Kimberlite weathering

Cullinan No 7 Dam

Clay mineral

Suspension

Dispersion

Coagulation

Flocculation

Wastewater quality

High humidity leaching

Zeta potential

Laboratory-scale evaluation of different aspects related to Ceratium hirundinella removal during simulation of a conventional water treatment plant which includes sedimentation / Hendrik Ewerts

Ewerts, Hendrik

January 2015

The freshwater dinoflagellate species, Ceratium hirundinella (C. hirundinella) possesses unique characteristics, such as a thecal-plate cell covering of cellulose, spines and flagella. Unlike most other algae and cyanobacteria, C. hirundinella cells are relatively large in size (up to 450 μm in length and 50 μm in width). These unique characteristics (e.g. cell covering and flagella) and adaptations (e.g. spines) give the dinoflagellate cells the ability to reduce their sinking rate from the euphotic zone and to migrate easily through the water column. When source water contains high concentrations of C. hirundinella cells, water treatment problems and poor aesthetic water quality can be expected. These water treatment problems may include 1) the disruption of coagulation and flocculation, 2) clogging of sand filters and 3) taste and odour problems when cells penetrate into the final water. In Chapter 9 of this study, a list of operational guidelines (including alert levels) and recommendations to assist managers and operators of plants when C. hirundinella cells are causing water treatment problems. During events of high C. hirundinella concentrations in source water, managers and operators of conventional water treatment plants need strategies to optimize coagulants and unit processes. Thus when source water contains motile nuisance algae, such as C. hirundinella, in moderate or abundant quantities, it is advisable to conduct jar stirring test experiments using both turbidity and total photosynthetic pigment (or chlorophyll-a) analyses as indicators of appropriate coagulant choice and dosages. The aims of this study are summarized as follows:  To optimize coagulants and conventional water treatment processes by implementing relevant algal removal strategies and indicators during jar stirring test experiments,  To investigate the changes in surface charge (known as zeta potential) on C. hirundinella cells before and after adding coagulants as part of the treatment processes,  To investigate the physical and chemical impacts on the morphology of C. hirundinella cells after coagulation, flocculation and sedimentation,  To identify organic compounds that may be responsible for taste and odour problems associated with C. hirundinella,  To investigate the efficiency of pre-chlorination on the removal C. hirundinella cells when dosing various coagulants, and  Give recommendations and operational guidelines relevant for a conventional water treatment plant to improve C. hirundinella removal A combined water treatment system (Phipps and Bird Model), consisting of a six paddle jar test apparatus and six sand filter columns, was used to simulate conventional processes (coagulation, flocculation, sedimentation and rapid sand filtration). Source water samples containing relatively high C. hirundinella concentrations (> 500 cell/mℓ) were collected from Benoni Lake (26º10’50.40’’S; 28º17’50.11’’ E) in plastic containers and stored as a homogenous sample in a 200 litre container under laboratory conditions (± 22 °C). Samples were collected from the source water as well as after sedimentation (from the supernatant or sludge) to determine turbidity, total photosynthetic pigment analyses (chlorophyll) and for phytoplankton analyses. Flocs (containing C. hirundinella cells) were collected from the sludge or sediment for scanning electron microscopy investigations and to perform zeta potential analyses. Concentrated C. hirundinella samples were frozen at -80 °C according to the proposed sampling protocol for organic compound analyses. Results obtained from this study proved that using the relevant indicators to determine the appropriate coagulant dosages during jar stirring tests may generally improve the removal of problem-causing algae, such as C. hirundinella cells. Improved algal removal efficiencies will subsequently ensure final water with good aesthetic quality. The surface charge (zeta potential) on C. hirundinella cells can be used to evaluate the best coagulation conditions within an operating window of -10 mV to +3 mV when dosing various coagulants. Scanning electron microscopy investigations revealed major damaging effects to C. hirundinella cells when dosing high Ca(OH)2 concentrations. However, when dosing lower Ca(OH)2 concentrations, in combination with organic polymer, better C. hirundinella cell removal efficiencies with less damaging effects to cells was observed. This study also indicated that the pre-chlorination, without causing cell lyses, can be applied to render the highly motile cells immobile which will subsequently assist the coagulation unit process. The aesthetic quality (e.g. tastes and odours) of drinking water may be influenced when C. hirundinella cells release organic material into the water as a result of cell lyses. Organic compounds, such as fatty acids and dicarboxylic acids can lead to taste and odour problems which associate with the presence of C. hirundinella. Organic compounds also serve as precursors for the formation of harmful chlorine by-products formed during chlorination. / PhD (Environmental Sciences), North-West University, Potchefstroom Campus, 2015

Ceratium hirundinella

Conventional Water Treatment

Coagulants

Zeta Potential

Organic Acids and Pre-chlorination

Konvensionele watersuiweringsaanleg

Koagulante

Zeta Potensiaal

Organiese Sure en Voor-chlorinering

The effect of kimberlite weathering on the behaviour of waste material at Cullinan diamond mine, South Africa / Jessica Strydom

Strydom, Jessica

January 2015

Water quality and space constraints have become major concerns regarding the No. 7 waste water dam at Petra Diamonds’ Cullinan mine. The unique location of the dam constrains further development, while unsustainable accumulation of waste water inside the dam increases the risk of potential environmental contamination from seepages and spillages. The dam retains a significant amount of very poor quality water. Its excessively high pH, dissolved salt content, density and extreme turbidity result from the concentration of natural weathering products of the diamond bearing kimberlite ore. The turbidity results from the dispersion of colloidal chlorite, saponite and nontronite clay. Along with the chemistry of the solution, their colloidal shape contributes equally significantly to the non-settlement of these suspended clays. Flocculation of the dispersed clay particles will provide (a) for easy and effective separation of the clay material from the waste water and (b) more convenient options for water treatment (and subsequent redistribution) This study was aimed at contributing to a better understanding of the dynamic interactions in the No 7 Dam system to contribute towards identifying a suitable means/method for chemical flocculation of the clay particles. The individual components of the system (clays, water quality) and influx contributors (kimberlite and its leachate) were systematically characterized by means of X-Ray Diffraction, X-Ray Fluorescence, petrographic microscopy, electron microscopy, electrophoretic mobility and standard water- and soil quality analyses. The baseline quality of the Cullinan kimberlite leachate was obtained based on ASTM D5744 principles. It was found that adjusting the pH-level and ionic strength of the waste water to the critical coagulation point (cK) (as determined by electrophoretic mobility and batch jar experiments) automatically induced coagulation. Higher valence cations were displaced from pH dependent surface charge sites by proton adsorption. The resultant increased ionic strength, in combination with decreased thickness of the ionic double layer, was sufficient for the automatic initiation of high strength disordered face-face and edge-face bonds. During batch Jar tests, flocculation initiated within 4 minutes after the addition of HCl (0.5 M) and total sedimentation completed within 3 hours. The use of commercial flocculants might decrease the sedimentation time. As expected a significant increase in dissolved salt content of the clear supernatant was observed. No re-dispersion of the dried clay occurred. Throughout the study geochemical modeling was performed with PHREEQC software to identify/determine possible effective experimental conditions, minimizing experimental time and expenses. The program was also used to model outcomes of the possible water treatment options, indicated in literature as viable options for similar situations. These options can be tested to extend upon the current research. / MSc (Environmental Sciences), North-West University, Potchefstroom Campus, 2015

Cullinan kimberlite

Kimberlite weathering

Cullinan No 7 Dam

Clay mineral

Suspension

Dispersion

Coagulation

Flocculation

Wastewater quality

High humidity leaching

Zeta potential

Laboratory-scale evaluation of different aspects related to Ceratium hirundinella removal during simulation of a conventional water treatment plant which includes sedimentation / Hendrik Ewerts

Ewerts, Hendrik

January 2015

The freshwater dinoflagellate species, Ceratium hirundinella (C. hirundinella) possesses unique characteristics, such as a thecal-plate cell covering of cellulose, spines and flagella. Unlike most other algae and cyanobacteria, C. hirundinella cells are relatively large in size (up to 450 μm in length and 50 μm in width). These unique characteristics (e.g. cell covering and flagella) and adaptations (e.g. spines) give the dinoflagellate cells the ability to reduce their sinking rate from the euphotic zone and to migrate easily through the water column. When source water contains high concentrations of C. hirundinella cells, water treatment problems and poor aesthetic water quality can be expected. These water treatment problems may include 1) the disruption of coagulation and flocculation, 2) clogging of sand filters and 3) taste and odour problems when cells penetrate into the final water. In Chapter 9 of this study, a list of operational guidelines (including alert levels) and recommendations to assist managers and operators of plants when C. hirundinella cells are causing water treatment problems. During events of high C. hirundinella concentrations in source water, managers and operators of conventional water treatment plants need strategies to optimize coagulants and unit processes. Thus when source water contains motile nuisance algae, such as C. hirundinella, in moderate or abundant quantities, it is advisable to conduct jar stirring test experiments using both turbidity and total photosynthetic pigment (or chlorophyll-a) analyses as indicators of appropriate coagulant choice and dosages. The aims of this study are summarized as follows:  To optimize coagulants and conventional water treatment processes by implementing relevant algal removal strategies and indicators during jar stirring test experiments,  To investigate the changes in surface charge (known as zeta potential) on C. hirundinella cells before and after adding coagulants as part of the treatment processes,  To investigate the physical and chemical impacts on the morphology of C. hirundinella cells after coagulation, flocculation and sedimentation,  To identify organic compounds that may be responsible for taste and odour problems associated with C. hirundinella,  To investigate the efficiency of pre-chlorination on the removal C. hirundinella cells when dosing various coagulants, and  Give recommendations and operational guidelines relevant for a conventional water treatment plant to improve C. hirundinella removal A combined water treatment system (Phipps and Bird Model), consisting of a six paddle jar test apparatus and six sand filter columns, was used to simulate conventional processes (coagulation, flocculation, sedimentation and rapid sand filtration). Source water samples containing relatively high C. hirundinella concentrations (> 500 cell/mℓ) were collected from Benoni Lake (26º10’50.40’’S; 28º17’50.11’’ E) in plastic containers and stored as a homogenous sample in a 200 litre container under laboratory conditions (± 22 °C). Samples were collected from the source water as well as after sedimentation (from the supernatant or sludge) to determine turbidity, total photosynthetic pigment analyses (chlorophyll) and for phytoplankton analyses. Flocs (containing C. hirundinella cells) were collected from the sludge or sediment for scanning electron microscopy investigations and to perform zeta potential analyses. Concentrated C. hirundinella samples were frozen at -80 °C according to the proposed sampling protocol for organic compound analyses. Results obtained from this study proved that using the relevant indicators to determine the appropriate coagulant dosages during jar stirring tests may generally improve the removal of problem-causing algae, such as C. hirundinella cells. Improved algal removal efficiencies will subsequently ensure final water with good aesthetic quality. The surface charge (zeta potential) on C. hirundinella cells can be used to evaluate the best coagulation conditions within an operating window of -10 mV to +3 mV when dosing various coagulants. Scanning electron microscopy investigations revealed major damaging effects to C. hirundinella cells when dosing high Ca(OH)2 concentrations. However, when dosing lower Ca(OH)2 concentrations, in combination with organic polymer, better C. hirundinella cell removal efficiencies with less damaging effects to cells was observed. This study also indicated that the pre-chlorination, without causing cell lyses, can be applied to render the highly motile cells immobile which will subsequently assist the coagulation unit process. The aesthetic quality (e.g. tastes and odours) of drinking water may be influenced when C. hirundinella cells release organic material into the water as a result of cell lyses. Organic compounds, such as fatty acids and dicarboxylic acids can lead to taste and odour problems which associate with the presence of C. hirundinella. Organic compounds also serve as precursors for the formation of harmful chlorine by-products formed during chlorination. / PhD (Environmental Sciences), North-West University, Potchefstroom Campus, 2015

Ceratium hirundinella

Conventional Water Treatment

Coagulants

Zeta Potential

Organic Acids and Pre-chlorination

Konvensionele watersuiweringsaanleg

Koagulante

Zeta Potensiaal

Organiese Sure en Voor-chlorinering

Etude des mécanismes de libération d'actifs nanodispersés : application au traitement de puits

Rondon, Céline

14 December 2010

L’exploitation de pétrole s’accompagne de la modification des conditions thermodynamiques internes du puits et favorise, entre autres, la formation de dépôts minéraux pouvant obstruer les pores micrométriques de la formation rocheuse, rendant difficile l’extraction d’huile. L’efficacité du traitement anti-dépôts dépend de la concentration minimale d’inhibiteur et de la vitesse de relargage du produit. Dans ce contexte, nous avons étudié deux techniques d’encapsulation permettant d’obtenir un système préventif à libération prolongée contenant un polyélectrolyte anionique comme additif modèle. La première consiste en la formation de nanoparticules de polyélectrolytes complexés. La libération de l’actif encapsulé y a été stimulée par la modulation de la salinité du milieu. À pH basique, la libération de l’actif a lieu via le mécanisme de gonflement /dissociation des particules, à pH acide aucune libération ne parait avoir lieu car les objets précipitent. Le second système est une émulsion inverse (E/H) diluée contenant un actif modèle en phase dispersée. Ces systèmes sont stables et un faible pourcentage d’actif est libéré sous contrainte mécanique. / Many thermodynamic changes occur in reservoir rock when oil is produced. These changes enable scale formation on micrometric rock pores that can block them and impede/block oil extraction. Antiscale treatment efficiency depends on minimal inhibitor concentration and product release rate in fluids downhole. In this context, we have studied two encapsulation techniques allowing us to have a sustainable release system composed of an anionic polyelectrolyte as a model additive. The first formulation consists in formation of polyelectrolyte complexes nanoparticles. In this system, active ingredient release was stimulated through medium ionic strength modulation. Under basic conditions, release takes place in particles swelling/dissociation process; whereas, under acidic condition, particles precipitate and no release can be expected. The second system we have worked on is a diluted reverse (W/O) emulsion, in which dispersed aqueous droplets contain a model additive. These systems are stable and small additive percentage is released under mechanic strain.

Polyélectrolytes complexés

Particules

Sel

Potentiel zêta

Diamètre hydrodynamique

Émulsions E/H

Tensio-actif non ionique

Polyelectrolyte complexes

Particles

Salt

Zeta potential

Hydrodynamic diameter

W/O emulsions

Non-ionic surfactant