Global ETD Search

281	Synthèse de polysaccharides amphiphiles à partir de dextrane et application à la stabilisation d'émulsions directes et inverses / Synthesis of amphiphilic polysaccharides based on dextran and applications to the stabilization of emulsions Covis, Rudy 04 February 2011 (has links) Une nouvelle famille de dérivés amphiphiles du dextrane a été obtenue par réaction du dextrane avec le 1,2-époxydodécane en milieu basique. Deux voies de synthèse ont été étudiées. La première en milieu aqueux dispersé n’a permis d’obtenir que des taux de modification faibles (< 10 %) car l’homopolymérisation de l’époxyde est prépondérante. Au contraire, la réaction en milieu organique homogène a permis la synthèse de dérivés dont le taux de modification atteint 164 %. Des émulsions huile dans eau ont été préparées par sonication en présence de plusieurs dérivés hydrosolubles (τ ≤ 25 %). La fraction volumique d’huile (hexadécane ou nujol) est comprise entre 10 % et 50 %. La taille des gouttelettes augmente avec la fraction volumique d’huile mais ne dépend pas du taux de modification du dextrane entre 10 et 25 %. Ces émulsions ont un comportement de gel d’autant plus marqué que la fraction volumique d’huile dispersée augmente. Des émulsions inverses eau : chloroforme, stables pendant au moins 2 mois, ont été obtenues par sonication en présence de dérivés organosolubles (τ = 164 %). Le processus dynamique d’émulsification sous cisaillement a été étudié pour des émulsions directes (hexadécane / eau) dont la fraction volumique d’huile était comprise entre 10 et 60 % et pour différents gradients de vitesse. Un suivi continu in situ de la viscosité des émulsions et du rayon des gouttes formées montre que le temps caractéristique d’émulsification dépend du gradient de vitesse et du rapport des viscosités mais pas de la fraction volumique d’huile dispersée. Dans le cas d’un système newtonien, la viscosité finale et la taille finale des gouttes dépendent du gradient de vitesse appliqué alors qu’elles sont invariantes dans le cas du système non newtonien sur tout l’intervalle exploré / A new family of amphiphilic dextran derivatives was obtained by reaction of 1,2-epoxydodecane on dextran in basic medium. Two reaction procedures were examined. The first one was carried out in biphasic medium but produced only low degrees of hydrophobic substitution. Epoxide homopolymerization was indeed predominant. On the contrary, the reaction in a homogeneous organic medium allowed the synthesis of dextran derivatives with substitution degrees as high as 164 %. Oil-in-water emulsions were prepared by sonication in the presence of different hydrosoluble derivatives (τ ≤ 25 %). Oil volume fraction (hexadecane or nujol) ranged from 10 % to 50 %. The size of the emulsion droplets increased with the oil volume fraction but did not depend on the substitution degree of modified dextran between 10 and 25 %. These emulsions behave like a gel which strengthened with the oil volume fraction. Water-in-oil emulsions (water in chloroform) were obtained by sonication in the presence of organosoluble derivatives (τ = 164 %). They were stable over at least two months.Furthermore, dynamic emulsification process under shear flow was investigated for oil-in-water emulsions (hexadecane in water). The volume fraction of oil ranged from 10 % to 60 % and various shear rates were applied. Simultaneous in situ measurements of viscosity of emulsions and droplet size were performed. The characteristic time of emulsification depended on shear rate and viscosity ratio but was independent of the oil volume. For the newtonian system, final shear stress and final droplet size depended on the applied shear rate while they were invariant in the non newtonian system Polysaccharide Dextranes amphiphiles Émulsions directes et inverses Suivi d’émulsification in situ Polysaccharide Amphiphilic dextrans Oil-in-water emulsion Water-in-oil emulsion In situ emulsification monitoring
282	Etude de la nucléation contrôlée de latex polymère à la surface de nanoparticules d’oxyde pour l’élaboration de colloïdes hybrides structurés / Study of polymer latex controlled nucleation on oxide nanoparticles surfaces to the development of structured hybrid colloids Nguyen, David 18 December 2008 (has links) Des colloïdes à base de silice et de polystyrène ont été synthétisés. Les particules d’oxyde ont d’abord été élaborées et modifiées en surface, puis ont servi de germes au cours d’une étape de polymérisation du styrène. Deux procédés de polymérisation en phase hétérogène ont été utilisés (émulsion ou dispersion) menant à des colloïdes aux morphologies originales et contrôlées. Une étude morphologique par tomographie électronique a permis de mieux comprendre les mécanismes de croissance et d’organisation des particules de latex autour des germes de silice. La synthèse de particules Janus pour l’imagerie biomédicale est aussi décrite. Ces particules de silice ont été modifiées en surface par un chromophore biphotonique et un agent de reconnaissance de certaines cellules tumorales. Des études spectroscopiques et des tests de cytotoxicité ont été entrepris. / Hybrid colloids based on silica and polystyrene have been synthesized. Oxide particles were first elaborated, surface modified, and then used as seed in a styrene polymerization step. Two heterogeneous polymerisation proceeds were employed (emulsion or dispersion) leading to colloids with original and controlled morphologies. A morphological study by electronic tomography enabled to better understand growth and organisation mechanisms of latexes around silica seeds. Janus particles synthesis for biomedical imaging is also described. Silica particles were surface modified with a biphotonic chromophore and a tumor cells targeting agent. Spectroscopic studies and cytotoxicity tests were investigated. Colloïdes hybrides Emulsion Dispersion Polymérisation ensemencée Particules Janus Cryo-tomographie électronique Imagerie biomédical Hybrid colloids Seeded polymerisation Emulsion Dispersion Janus particles Electronic cryo-tomography Biomedical imaging
283	Évaluation d'une forme galénique à base d'alpha cyclodextrine et d'huile végétale pour l'administration par voie orale de molécules actives peu solubles dans l'eau / Beads made of cyclodextrin and oil for oral delivery of lipophilic drugs Hamoudi, Mounira Cherifa 13 July 2012 (has links) L’objectif général de cette thèse a été d’étudier le potentiel de billes à base de molécules d’α-cyclodextrine et d’huile de soja, pour l’administration orale de principes actifs peu solubles dans l’eau.Nous avons tout d’abord vérifié qu’il était possible d’encapsuler dans les billes des molécules actives (la progestérone et l’indométacine) autres que les rétinoïdes et le diazépam, avec une teneur élevée et un rendement de fabrication satisfaisant. L’étude du comportement des billes nues lyophilisées, en termes de stabilité et de libération dans des milieux digestifs simulés, nous a permis de proposer un mécanisme de libération de la molécule encapsulée qui se déroule en plusieurs étapes: i) hydratation des billes, ii) dissolution de la matrice hydrophile d’α-cyclodextrine, iii) libération de gouttelettes d’huile contenant le principe actif puis de la fraction dissoute dans l’huile par un phénomène de partage, iiii) fragmentation des billes fragilisées et libération totale de l’huile. La présence de sels biliaires dans le milieu, accélère à la fois la libération et la quantité dissoute, en fragilisant les billes et en réduisant la valeur du coefficient de partage du principe actif entre l’huile et le milieu digestif. Nous avons montré in vitro et in vivo qu’il est possible de moduler la libération d’un principe actif à partir d’une même formulation de départ, en jouant sur l’organisation du système (émulsion sèche, billes nues, billes coquées par un nouvel ajout d’α-cyclodextrine sur les billes nues). Les études in vivo chez le rat ont révélé que l’émulsion sèche se comporte comme une forme à libération immédiate, les billes coquées comme une forme à libération prolongée et les billes nues comme une forme à libération intermédiaire. Enfin, la libération du principe actif encapsulé peut également être modulée en modifiant le mode de séchage des billes. Comparativement à la lyophilisation, le séchage à l’étuve modifie les propriétés des billes en augmentant leur résistance dans les milieux digestifs simulés et prolonge la libération de la molécule encapsulée. / The general aim of this thesis was the study of the potential of beads, made of α-cyclodextrin and soybean oil, for the oral delivery of poorly water soluble drugs. We have first verified that it was possible to encapsulate in beads, active molecules (progesterone and indomethacin), other than retinoid and diazepam, with a high drug loading and a satisfying yied. The study of the behaviour of freeze-dried naked beads, in terms of stability and drug release in simulated gastro-intestinal fluids, allowed to propose a mechanism for the release of the encapsulated drug, involving several steps: i) hydration of the freeze-dried beads, ii) dissolution of α-CD hydrophilic matrix, iii) release of oily droplets containing the active drug and then of the fraction of drug dissolved in oil, following a partition phenomenon, iiii) fragmentation of the weakened beads and at last the total release of oil. The presence of bile salts in the medium accelerates both the release and the dissolved amount, by weakening the beads and reducing the partition coefficient value of the active molecule between oil and digestive medium.We have shown in vitro as well as in vivo that it is possible to modulate the release of a model drug from the same initial formulation, according to the degree of organization of the system (dry emulsion, naked beads, coated beads obtained by an additional amount of α-cyclodextrine to the preformed naked beads). In vivo studies in rats have highlighted that dry emulsion behaves as a fast release formulation, the coated beads as a sustained release formulation and the naked beads as an intermediate one. Finally, the release of the encapsulated drug can also be modulated by modifying the drying method of the beads. Compared to freeze-drying, oven-drying modifies the properties of the beads by increasing their resistance in simulated gastro-intestinal fluids and sustaining the release of the encapsulated drug. Billes Emulsion séche Libération immédiate Séchage à l'étuve Cyclodextrin beads Soybean oil Dry emulsion Oral delivery Progesterone Indomethacin Fast release Sustained release Oven-drying Freeze-drying
284	Sistemas microfluídicos aplicados na produção de micro e nanopartículas. / Microfluidic systems applied in micro and nanoparticles production. Schianti, Juliana de Novais 12 December 2012 (has links) Neste trabalho foram desenvolvidos sistemas microfluídicos para aplicações na produção de micro e nanopartículas. Os dispositivos microfluídicos foram microfabricados em vidros do tipo borosilicato e em cerâmica verde LTCC (Low Temperature Co-fired Ceramic). Para os dispositivos em vidro foram utilizadas técnicas de fotolitografia, corrosão úmida e soldagem por cola UV. Com estas técnicas foram produzidos sistemas planares com diversas geometrias, sistemas com dispositivos em paralelo com duas e três camadas de vidros. Além disso, dois polímeros o Benzociclobuteno (BCB) e o Parylene-C foram apresentados como ferramenta para a modificação da superfície do vidro de hidrofílica para hidrofóbica. A cerâmica LTCC foi utilizada para a produção de um sistema microfluídico para focalização hidrodinâmica em 3 dimensões. Os dispositivos microfabricados foram utilizados para estudos sobre a produção de emulsões simples e duplas, observando a influência de parâmetros como taxa de fluxo, razão entre fluxos e diferentes tipos de emulsificantes no tamanho das gotas e no tipo de corte obtido em cada situação. Observou-se que o tamanho máximo das gotas obtidas fica restringido ao tamanho do canal microfabricado, cerca de 50m e o tamanho mínimo obtido foi de 15m. Além da produção de emulsões, foi estudada a produção de nanosuspensões pela técnica de nanoprecipitação anti-solvente. Para este estudo, além das geometrias planares, foram testadas as geometrias 3D e também sistemas para o aumento de escala de produção, onde o sistema integrado possuía 4 dispositivos para nanoprecipitação. Os resultados obtidos indicaram que os sistemas microfluídicos permitem a produção de nanopartículas amorfas, na faixa de 100 a 1000 nm, com baixa polidispersão, sendo ainda reprodutíveis em sistema de maior escala. O desenvolvimento deste trabalho mostrou que a microfluídica oferece ferramentas importantes na obtenção de micro e nanopartículas. / In this work microfluidic systems were developed for applications in micro and nanoparticles production. Microfluidic devices were microfabricated in borosilicate glasses substrates and LTCC ceramic (Low Temperature Co-fired Ceramic). For glass devices were used techniques such as photolithography, wet etching and UV glue for sealing glass wafers. With these techniques were manufactured planar systems with various geometries, systems with devices in parallel with two and three glass layers. In addition, two polymers, BCB and Parylene-C, were presented as a tool for glass surface modification, from hydrophilic to hydrophobic. The ceramic LTCC was used for the production of a microfluidic system for hydrodynamic focusing in three dimensions. The devices were used for studies on the single and double emulsions production, observing the influence of parameters such as flow rate, ratio between flows and different types of surfactants at the droplet size and droplet cut type obtained in each situation. It was observed that the maximum size of the droplets obtained is restricted by the channel size, the maximum was about 50m and the minimum size of 15m. Besides, the devices were used to produce nanoparticles using anti-solvent nanoprecipitation technique. For these studies, besides the planar geometries, 3D geometries were tested and also systems for increasing scale production, where 4 devices were integrated in one system for nanoprecipitation. The results indicated that the microfluidic systems allow the production of amorphous nanoparticles in the range of 100 to 1000 nm with low polydispersity, being also reproducible in a larger scale system. The development of this work has shown that microfluidics offers valuable tools in obtaining micro-and nanoparticles. Double emulsion Emulsão dupla Emulsão simples Intensificação de processo Microcanais Microchannel Nanoprecipitação Nanoprecipitation Planar systems Process intensification Simple emulsion Sistemas em 3D Sistemas planares Systems in 3D
285	Sistemas microfluídicos aplicados na produção de micro e nanopartículas. / Microfluidic systems applied in micro and nanoparticles production. Juliana de Novais Schianti 12 December 2012 (has links) Neste trabalho foram desenvolvidos sistemas microfluídicos para aplicações na produção de micro e nanopartículas. Os dispositivos microfluídicos foram microfabricados em vidros do tipo borosilicato e em cerâmica verde LTCC (Low Temperature Co-fired Ceramic). Para os dispositivos em vidro foram utilizadas técnicas de fotolitografia, corrosão úmida e soldagem por cola UV. Com estas técnicas foram produzidos sistemas planares com diversas geometrias, sistemas com dispositivos em paralelo com duas e três camadas de vidros. Além disso, dois polímeros o Benzociclobuteno (BCB) e o Parylene-C foram apresentados como ferramenta para a modificação da superfície do vidro de hidrofílica para hidrofóbica. A cerâmica LTCC foi utilizada para a produção de um sistema microfluídico para focalização hidrodinâmica em 3 dimensões. Os dispositivos microfabricados foram utilizados para estudos sobre a produção de emulsões simples e duplas, observando a influência de parâmetros como taxa de fluxo, razão entre fluxos e diferentes tipos de emulsificantes no tamanho das gotas e no tipo de corte obtido em cada situação. Observou-se que o tamanho máximo das gotas obtidas fica restringido ao tamanho do canal microfabricado, cerca de 50m e o tamanho mínimo obtido foi de 15m. Além da produção de emulsões, foi estudada a produção de nanosuspensões pela técnica de nanoprecipitação anti-solvente. Para este estudo, além das geometrias planares, foram testadas as geometrias 3D e também sistemas para o aumento de escala de produção, onde o sistema integrado possuía 4 dispositivos para nanoprecipitação. Os resultados obtidos indicaram que os sistemas microfluídicos permitem a produção de nanopartículas amorfas, na faixa de 100 a 1000 nm, com baixa polidispersão, sendo ainda reprodutíveis em sistema de maior escala. O desenvolvimento deste trabalho mostrou que a microfluídica oferece ferramentas importantes na obtenção de micro e nanopartículas. / In this work microfluidic systems were developed for applications in micro and nanoparticles production. Microfluidic devices were microfabricated in borosilicate glasses substrates and LTCC ceramic (Low Temperature Co-fired Ceramic). For glass devices were used techniques such as photolithography, wet etching and UV glue for sealing glass wafers. With these techniques were manufactured planar systems with various geometries, systems with devices in parallel with two and three glass layers. In addition, two polymers, BCB and Parylene-C, were presented as a tool for glass surface modification, from hydrophilic to hydrophobic. The ceramic LTCC was used for the production of a microfluidic system for hydrodynamic focusing in three dimensions. The devices were used for studies on the single and double emulsions production, observing the influence of parameters such as flow rate, ratio between flows and different types of surfactants at the droplet size and droplet cut type obtained in each situation. It was observed that the maximum size of the droplets obtained is restricted by the channel size, the maximum was about 50m and the minimum size of 15m. Besides, the devices were used to produce nanoparticles using anti-solvent nanoprecipitation technique. For these studies, besides the planar geometries, 3D geometries were tested and also systems for increasing scale production, where 4 devices were integrated in one system for nanoprecipitation. The results indicated that the microfluidic systems allow the production of amorphous nanoparticles in the range of 100 to 1000 nm with low polydispersity, being also reproducible in a larger scale system. The development of this work has shown that microfluidics offers valuable tools in obtaining micro-and nanoparticles. Emulsão dupla Emulsão simples Intensificação de processo Microcanais Nanoprecipitação Sistemas em 3D Sistemas planares Double emulsion Microchannel Nanoprecipitation Planar systems Process intensification Simple emulsion Systems in 3D
286	Les lipides polaires laitiers modulent l’absorption lipidique et la lipémie postprandiale : conséquences métaboliques chez la souris / Milk polar lipids modulate lipid absorption and postprandial lipemia : metabolic consequences in mice Lecomte, Manon 29 January 2016 (has links) Les maladies métaboliques d’origine nutritionnelle sont caractérisées par un métabolisme des lipides perturbé et une inflammation métabolique. Les lipides polaires (LP) sont des agents émulsifiants utilisés dans l’industrie agroalimentaire. Le but de notre étude a été d’évaluer l’impact de l’utilisation de nouveaux LP issus du lait sur (i) la digestion et le métabolisme postprandial des lipides, et (ii) à plus long terme sur l’adiposité et l’inflammation dans le tissu adipeux (TA), en comparaison avec les LP de soja, actuellement les plus consommés.Chez la souris, les LP laitiers induisent une cinétique de lipémie postprandiale plus précoce en comparaison avec les LP de soja, associée à une augmentation de la lipolyse intestinale in vitro. De plus, les chylomicrons sécrétés durant le pic de lipémie sont plus petits avec les LP laitiers. D’autre part, la substitution d’une partie des lipides d’un régime hyper-lipidique par des LP laitiers ne modifie pas le stockage des lipides dans le foie et le TA contrairement aux LP de soja qui induisent une augmentation des lipides hépatiques, des adipocytes et des marqueurs inflammatoires dans le TA. Par ailleurs, Les LP laitiers induisent une diminution de l’expression génique de marqueurs de l’infiltration macrophagique dans le TA et du nombre de cellules à gobelet dans le côlon, suggérant une barrière intestinale renforcée.Ces travaux démontrent que les LP laitiers, par rapport aux LP de soja, stimulent la digestion des lipides et induisent une cinétique plus rapide de lipémie postprandiale. A long terme ils n’induisent pas les altérations métaboliques du TA observées en présence de LP de soja dans un régime hyper-lipidique / Metabolic diseases are characterized by an altered lipid metabolism and metabolic inflammation. Numerous food products contain polar lipid (PL) emulsifiers that could impact these risk factors. We evaluated the impact of using PL from milk (MPL) (i) acutely on lipid digestion and postprandial lipemia and (ii) in the longer term in addition to a high fat diet on adiposity and adipose tissue inflammation. We compared MPL to soybean PL (SPL) that is currently the main commercial source of PL.In mice, an emulsion stabilized by MPL results in a more rapid postprandial lipemia than an emulsion stabilized by SPL, with an early increase in lipemia and a faster clearance. Differences in lipemia can originate from differential kinetics of lipid hydrolysis in the mouse gut, as an increase intestinal TG hydrolysis is observed in vitro. Moreover, early MPL-derived chylomicrons are smaller than SPL-derived chylomicrons. In the longer term, compared with HF diet, HF-SPL diet increases hepatic lipids, white adipose tissue (WAT) mass, with larger and more numerous adipocytes and increases expression of pro-inflammatory adipokines. This is not observed with HF-MPL diet despite similar dietary intakes. HFP-MPL mice have a lower expression in WAT of marker of macrophage infiltration and more numerous goblet cells in the colon, suggesting an improved gut barrier function with this diet.Postprandial lipemia in mice can be modulated by emulsifying with MPL compared with SPL, partly through differences in chylomicron assembly, and intestinal TG hydrolysis rate. Moreover unlike SPL, MPL in a high fat diet do not induce WAT hypertrophy and inflammation Nutrition Maladie métabolique Lipide Phospholipide Lait Emulsion Digestion Barrière intestinale Nutrition Metabolic disease Lipid Phospholipid Milk Emulsion Digestion Gut barrier 572
287	Déstabilisation de nappes liquides d'émulsions diluées / Destabilisation of liquid sheets of dilute emulsions Vernay, Clara 16 October 2015 (has links) Le phénomène de dérive constitue un enjeu environnemental et sanitaire majeur lors de la pulvérisation de solutions phytosanitaires sur les surfaces agricoles. Sous l'action du vent, des gouttelettes peuvent dériver loin des champs ciblés et être source de pollution. Une stratégie pour limiter la dérive est de contrôler la distribution de taille des gouttes de spray, en réduisant la proportion de petites gouttes. Dans ce but, des additifs anti-dérives, tels que des émulsions diluées d'huile dans l'eau, ont été développés. Bien que largement étudiés, les effets de ces émulsions ne sont pas encore bien compris. L'objectif de cette thèse est d'élucider les mécanismes à l'origine de l'augmentation de la taille des gouttes de spray à base d'émulsions.La pulvérisation implique la fragmentation d'un flux de liquide par une buse hydraulique. A la sortie de la buse, une nappe libre de liquide est formée, puis déstabilisée en gouttes. Afin d'élucider les mécanismes à l'origine des effets anti-dérives des émulsions, nous étudions l'influence de ces émulsions sur les mécanismes de déstabilisation des nappes liquides. Une expérience modèle basée sur la collision d'une goutte de solution sur une cible solide est utilisée pour produire et visualiser des nappes liquides. Lors de l'impact, la goutte s'aplatit en une nappe qui s'étend radialement dans l'air, bordée par un bourrelet plus épais. Différents mécanismes de déstabilisation sont observés en fonction des propriétés des fluides. Une nappe d'eau pure s'étale radialement puis se rétracte par effet de la tension de surface ; simultanément, le bourrelet est déstabilisé en gouttes. Pour une émulsion diluée d'huile dans l'eau, le mécanisme de déstabilisation dominant est considérablement modifié: les nappes sont déstabilisées par la nucléation de trous qui perforent le film liquide lors de son expansion; les trous grandissent jusqu'à la formation d'un réseau de ligaments, qui est ensuite déstabilisé en gouttes.Une étude systématique de l'influence des paramètres physico-chimiques de l'émulsion, tels que la concentration en huile et la distribution de taille de gouttelettes d'huile, sur le mécanisme de perforation est conduite. Nous établissons une corrélation entre le nombre d'évènements de perforations observés dans les nappes modèles et la distribution de taille de gouttes de sprays formés avec des buses de pulvérisation agricoles. Ce résultat démontre la pertinence expérimentale de notre expérience modèle pour comprendre les mécanismes d'actions des formulations anti-dérives. Nous montrons ainsi que le mécanisme à l'origine de l'augmentation de la taille des gouttes de spray à base d'émulsion est un mécanisme de perforation.Pour comprendre les mécanismes à l'origine de la perforation, nous développons une technique optique permettant de mesurer le champ d'épaisseur de nappes liquides. Nous constatons que la formation d'un trou dans la nappe est systématiquement précédée par un amincissement local du film liquide. Nous montrons que cet amincissement est le résultat de l'entrée puis de l'étalement par effet Marangoni de gouttelettes d'huile à l'interface air/eau. L'amincissement du film liquide conduit in fine à sa rupture.Nous proposons un mécanisme de perforation en deux étapes: les gouttelettes d'huile (i) entrent à l'interface air/eau, et (ii) s'étalent à l'interface. La formulation de l'émulsion est un paramètre critique pour contrôler le processus de perforation. L'addition de sels ou de copolymères amphiphiles à des émulsions stabilisées par des tensio-actifs ioniques peut soit déclencher, soit inhiber le mécanisme de perforation. Nous montrons que l'entrée de gouttes d'huile à l'interface air/eau est l'étape limitante de ce mécanisme. Les interactions répulsives de nature stérique et/ou électrostatique entre les gouttelettes d'huile et l'interface stabilisent le film liquide, empêchant les gouttelettes d'entrer à l'interface, et ainsi inhibent le processus de perforation. / One of the major environmental issues related to spraying of pesticides on cultivated crops is the drift phenomenon. Because of the wind, small droplets may drift away from the targeted crop and cause contamination. One way to reduce the drift is to control the spray drop size distribution and reduce the proportion of small drops. In this context, anti-drift additives have been developed, including dilute oil-in-water emulsions. Although being documented, the effects of oil-in-water emulsions on spray drop size distribution are not yet understood. The objective of this thesis is to determine the mechanisms at the origin of the changes of the spray drop size distribution for emulsion-based sprays.Agricultural spraying involves atomizing a liquid stream through a hydraulic nozzle. At the exit of the nozzle, a free liquid sheet is formed, which is subsequently destabilized into droplets. In order to elucidate the mechanisms causing the changes of the spray drop size distribution, we investigate the influence of emulsions on the destabilization mechanisms of liquid sheets. Model single-tear experiments based on the collision of one tear of liquid on a small solid target are used to produce and visualize liquid sheets with a fast camera. Upon impact, the tear flattens into a sheet radially expanding in the air bounded by a thicker rim. Different destabilization mechanisms of the sheet are observed depending on the fluid properties. A pure water sheet spreads out radially and then retracts due to the effect of surface tension. Simultaneously, the rim corrugates forming radial ligaments, which are subsequently destabilized into droplets. The destabilization mechanism is drastically modified when a dilute oil-in-water emulsion is used. Emulsion-based liquid sheets are destabilized through the nucleation of holes within the sheet that perforate the sheet during its expansion. The holes grow until they merge together and form a web of ligaments, which are then destabilized into drops.The physical-chemical parameters of the emulsion, such as emulsion concentration and emulsion droplet size distribution, are modified to rationalize their influence on the perforation mechanism. We correlate the size distribution of drops issued from conventional agricultural spray with the amount of perforation events in single-tear experiments, demonstrating that the single-tear experiment is an appropriate model experiment to investigate the physical mechanisms governing the spray drop size distribution of anti-drift formulations. We show that the relevant mechanism causing the increase of drops size in the emulsion-based spray is a perforation mechanism.To gain an understanding of the physical mechanisms at the origin of the perforation events, we develop an optical technique that allows the determination of the time and space-resolved thickness of the sheet. We find that the formation of a hole in the sheet is systematically preceded by a localized thinning of the liquid film. We show that the thinning results from the entering and Marangoni-driven spreading of emulsion oil droplet at the air/water interface. The localized thinning of the liquid film ultimately leads to the rupture of the film. We propose the perforation mechanism as a sequence of two necessary steps: the emulsion oil droplets (i) enter the air/water interface, and (ii) spread at the interface. We show that the formulation of the emulsion is a critical parameter to control the perforation. The addition of salt or amphiphilic copolymers can trigger or completely inhibit the perforation mechanism. We show that the entering of oil droplets at the air/water interface is the limiting step of the mechanism. Thin-film forces such as electrostatic or steric repulsion forces stabilize the thin film formed between the interface and the approaching oil droplets preventing the entering of oil droplets at the interface and so inhibit the perforation process. Emulsion huile dans eau Nappe liquide Spray Impact de goutte Effet Marangoni Adjuvant anti-Dérive Oil-In-Water emulsion Liquid sheet Spray Drop impact Marangoni effect Anti-Drift adjuvant
288	NHC-Boranes : amorceurs de photopolymérisation en émulsion et nouveaux matériaux énergétiques / NHC-Boranes : initiator of emulsion polymerization and new hypergolic fuels Subervie, Daniel 16 October 2018 (has links) Synthèse et étude de nouveaux NHC-Boranes pour leurs propriétés énergétiques et leurs rôles en tant que photo co-amorceurs pour la photopolymérisation en émulsion.Depuis la première synthèse de complexes N-Hétérocycliques Boranes (NHC-Borane) stables en 1993, une étude plus générale de propriétés et réactivité n’a débuté que dans le milieu des années 2000. Les domaines d’applications de ces composés qui sont des paires de Lewis vont de la synthèse organique (agent réducteur, hydroboration de liaisons multiples) en passant par la chimie radicalaire (remplacement de l’hydrure de tributylétain, hydroboration) ou même en tant qu’amorceur ou co-amorceur de polymérisations.L’objet de cette thèse était d’étendre l’application des NHC-Boranes dans deux domaines précis. Un premier axe porte sur les propriétés hypergoliques amenées par leurs structures inédites. Un second est consacré à l’amorçage de réactions de polymérisations en émulsion et l’obtention de particules hybrides sous irradiation visible.Nous avons choisi et synthétisé de nouvelles cibles polyazotées qui ont montré des propriétés énergétiques potentiellement intéressantes pour l’usage de NHC-Boranes en propulsion solide. L’étude mis en évidence des différentes de réactivités en fonction du squelette du carbène utilisé. De plus, un nouveau type de carbène borane pouvant être utilisé dans différents domaines a été synthétisé.Nous avons aussi amélioré la compréhension du système de photoamorçage déjà proposé en polymérisation en émulsion dans le visible. Des points clés, sur la conception du système et du réacteur ont été améliorés. Nous avons aussi pu remplacer le tensioactif utilisé pour proposer la première photopolymérisation en émulsion Pickering. Il en résulte des latex stables, composés de particules hybrides pouvant former des films potentiellement anti-UV. L’excitation dans le visible, pourrait être utilisée dans le but de réduire les coûts énergétiques et même former d’autres particules inédites en évitant la dégradation de composés thermo ou UV-sensibles / Study and synthesis of new NHC-Boranes usable as hypergolic fuels and as photo co-initiators for radical emulsion photopolymerizationsThe first N-Heterocyclic Carbene Borane complex (NHC-Borane) was synthetized in 1993, but we had to wait until the mid-2000s before chemists investigated their properties and reactivity. The applications of NHC-Boranes range from organic chemistry (where they are used as reducing agents or for the hydroboration of multiple bonds) to radical chemistry (as replacement of te tributyltin hydride) and radical polymerizations (initiators and co-initiators). We designed and synthetized new Nitrogen-rich NHC-Boranes. The latter are hypergolic and might serve as fuels for solid propulsion. We managed to synthetize several new classed of NHC-Borane which was or could be used in different fields. We also deepened our understanding of the visible light-induced emulsion polymerization, where the NHC-Boranes serve as co-initiators. We could optimize the process and then replaced the surfactant by an inorganic sol to propose the first Pickering emulsion photopolymerization. Stable latexes of hybrid particles have been generated which might be used as sunscreen films, to reduce the energetic footprint of the reactions and/or to access particles made of heat- or UV-sensitive materials NHC-Borane Ergol hypergolique Photopolymérisation Réactions radicalaires NHC-Borane Hypergolic propellant Emulsion polymerization Pickering emulsion polymerization Radical chemistry 540
289	Manipulation of Monodisperse Emulsions in Microchannels / Manipulation von monodispersen Emulsionen in Mikrokanälen Surenjav, Enkhtuul 15 December 2008 (has links) No description available. 530 Physik Mathematics and Computer Science Mikrofluidik Manipulation Emulsion Tropfen Mikrokanälen microfluidics manipulation emulsion droplet microchannels 33.05 33.60 RV 000: Kondensierte Materie {Physik}
290	[en] VISUALIZATION OF TWO PHASE FLOW IN POROUS MEDIA BY X-RAY MICROTOMOGRAPHY / [pt] MICROTOMOGRAFIA DE RAIOS-X APLICADA À VISUALIZAÇÃO DO ESCOAMENTO BIFÁSICO EM MEIOS POROSOS RODRIGO CID LOUREIRO ASSAF 07 January 2019 (has links) [pt] Na indústria do petróleo estudam-se os chamados métodos de recuperação melhorada de óleo, que visam melhorar a varredura macroscópica do reservatório e reduzir a saturação de óleo residual nas regiões varridas pela injeção da fase aquosa. Este trabalho apresenta um estudo fundamental do processo de injeção de emulsões óleo-água como método de recuperação melhorada. O meio poroso utilizado nos estudos foi um empacotamento de esferas de vidro. O meio poroso foi inicialmente saturado com óleo. O deslocamento de óleo foi realizado através da injeção sequencial de água, emulsão e água. Microtomografia de raios-X foi utilizada para determinar a distribuição das fases aquosas e oleosas ao final de cada etapa do processo de injeção. Processamento das imagens 3D obtidas permitiram a quantificação do efeito da injeção de emulsão no desvio do caminho preferencial da fase aquosa e na distribuição e tamanho de gânglios de óleo residual, gerando recuperações incrementais com relação a injeção de água. / [en] In the oil industry, the so-called enhanced oil recovery methods are studied, which aim to improve the macroscopic scanning of the reservoir and reduce the residual oil saturation in the regions swept by the injection of the aqueous phase. This work presents a fundamental study of the process of injection of oil-water emulsions as an improved recovery method. The porous medium used in the studies was a glass bead packaging. The porous medium was initially saturated with oil. The oil displacement was performed through the sequential injection of water, emulsion and water. X-ray microtomography was used to determine the distribution of the aqueous and oily phases at the end of each step of the injection process. Processing of the 3D images obtained allowed the quantification of the effect of emulsion injection on the deviation of the preferred path of the aqueous phase and the distribution and size of residual oil ganglia, generating incremental recoveries in relation to a water injection. [pt] VISUALIZACAO 3D [en] VISUALIZATION 3D [pt] MICROTOMOGRAFIA [en] MICROTOMOGRAPHY [pt] RECUPERACAO AVANCADA DE OLEO [en] ENHANCED OIL RECOVERY [pt] INJECAO DE EMULSAO [en] EMULSION INJECTION [pt] ESCOAMENTO EM MEIO POROSO [en] EMULSION INJECTION

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