Extração da ascorbato oxidase de Cucurbita maxima por processo descontínuo e contínuo em coluna de discos rotativos perfurados utilizando sistemas de duas fases aquosas / Extraction of ascorbate oxidase from Cucurbita maxima by discontinuous and continuous process in perforated rotating disc contactor using aqueous two-phase systems.

Tatiana Souza Porto

21 May 2008

A partição e purificação de ascorbato oxidase de abóbora (Cucurbita maxima) por extração líquido-líquido em sistema de duas fases aquosas (SDFA), pelos processos descontínuos e contínuos, utilizando coluna de discos rotativos perfurados (PRDC), foram estudadas. Foram utilizados planejamentos estatísticos para selecionar as variáveis significativas no processo descontínuo de purificação, e as variáveis estudadas foram massa molar e concentração do polietileno glicol (PEG), concentração de citrato, pH, concentração de NaCl, fator de diluição e massa total do sistema. Os melhores resultados (coeficiente de partição 1,72, recuperação 90,8% e aumento de pureza 3,12) foram obtidos nas seguintes condições: massa molar do PEG 20000 (g/mol), pH 6,0, concentração de PEG 25% (m/m) e concentração de citrato 10% (m/m). No valor de pH 6,0 e temperatura 35°C a ascorbato oxidase apresentou seus maiores valores de atividade, e manteve a estabilidade na faixa de pH 5,0 a 9,0 durante 36 horas e a temperaturas de até 40°C durante 1 hora. Experimentos também foram realizados para estimar as principais propriedades cinéticas e termodinâmicas da atividade e estabilidade da ascorbato oxidase, e esse estudo revelou que a enzima foi estável nas condições testadas. A PRDC mostrou um bom desempenho para extração da ascorbato oxidase em modo contínuo utilizando SDFA. A melhor condição operacional selecionada neste estudo foi selecionada com o auxílio de planejamentos estatísticos, sendo selecionadas as seguintes condições: massa molar do PEG 20000 (g/mol), concentração de PEG 20% (m/m), concentração de citrato 10% (m/m), velocidade de rotação dos discos de 80 rpm e velocidade da fase dispersa de 2 mL/min. Os melhores resultados em valores médios foram: coeficiente de partição 3,36, recuperação 152%, aumento de pureza 2,31, coeficiente de transferência de massa 0,045, eficiência de separação 43,7% e hold up 0,33. Os dados experimentais demonstram o potencial da aplicação do sistema de duas fases aquosas PEG/citrato para purificar a ascorbato oxidase utilizando coluna de discos rotativos perfurados. / The partition and purification of ascorbate oxidase from pumpkin (Cucurbita maxima) by liquid-liquid extraction in aqueous two-phase system (ATPS) by discontinuous and continuous process, using perforated rotating disc contactor (PRDC) was studied. Experimental designs were used to choose the significant variables for discontinuous process, and polyethylene glycol (PEG) molar mass and concentration, citrate concentration, pH, NaCl concentration, dilution factor and total mass of the system, were the variables studied. The better results (partition coefficient 1.72, recovery 90.8% and purification factor 3.12) were obtained with following conditions: PEG molar mass of 20000 g/mol, pH 6.0, PEG concentration of 25% (w/w) and citrate concentration of 10% (w/w). In the pH 6.0 and temperature of 35?C the ascorbate oxidase showed their high activity values and the enzyme was stable in the pH range of 5.0 to 9.0 during 36 hours and temperatures up to 40?C for 1 hour. Experiments were also conducted to estimate the main kinetic and thermodynamic properties of ascorbate oxidase activity and stability, and this study revealed the interesting stability of this enzyme. The PRDC showed a good performance for extracting in continuous mode using aqueous two-phase systems. The best operating condition was selected in this study for the extraction of ascorbate oxidase in the PRDC, and it was obtained with PEG molar mass of 20000 g/mol, PEG concentration of 20% (w/w) and citrate concentration of 10% (w/w), the disc rotational speed of 80 rpm and dispersed phase flowrate of 2 mL/min. The results in mean values were: partition coefficient 3.36, recovery 152%, purification factor 2.31, mass transfer coefficient 0.045, separation efficiency 43.7% and Hold up 0.33. The experimental data showed the potential application of aqueous two-phase systems PEG/citrate to purification ascorbate oxidase using perforated rotating disc contactor.

Ácidos ascórbicos

Alimentos

Ascorbato oxidase

Biotecnologia

Coluna de discos perfurados rotativos

Enzimas

Fármacos

PEG/citrato

Proteinas

Sistemas de duas fases aquosas

Soluções aquosas

Aqueous two-phase systems

Ascorbate oxidase

Biotecnolgy

Enzymes

PEG/citrate

Perforated rotating disc contactor

Extração da ascorbato oxidase de Cucurbita maxima por processo descontínuo e contínuo em coluna de discos rotativos perfurados utilizando sistemas de duas fases aquosas / Extraction of ascorbate oxidase from Cucurbita maxima by discontinuous and continuous process in perforated rotating disc contactor using aqueous two-phase systems.

Porto, Tatiana Souza

21 May 2008

A partição e purificação de ascorbato oxidase de abóbora (Cucurbita maxima) por extração líquido-líquido em sistema de duas fases aquosas (SDFA), pelos processos descontínuos e contínuos, utilizando coluna de discos rotativos perfurados (PRDC), foram estudadas. Foram utilizados planejamentos estatísticos para selecionar as variáveis significativas no processo descontínuo de purificação, e as variáveis estudadas foram massa molar e concentração do polietileno glicol (PEG), concentração de citrato, pH, concentração de NaCl, fator de diluição e massa total do sistema. Os melhores resultados (coeficiente de partição 1,72, recuperação 90,8% e aumento de pureza 3,12) foram obtidos nas seguintes condições: massa molar do PEG 20000 (g/mol), pH 6,0, concentração de PEG 25% (m/m) e concentração de citrato 10% (m/m). No valor de pH 6,0 e temperatura 35°C a ascorbato oxidase apresentou seus maiores valores de atividade, e manteve a estabilidade na faixa de pH 5,0 a 9,0 durante 36 horas e a temperaturas de até 40°C durante 1 hora. Experimentos também foram realizados para estimar as principais propriedades cinéticas e termodinâmicas da atividade e estabilidade da ascorbato oxidase, e esse estudo revelou que a enzima foi estável nas condições testadas. A PRDC mostrou um bom desempenho para extração da ascorbato oxidase em modo contínuo utilizando SDFA. A melhor condição operacional selecionada neste estudo foi selecionada com o auxílio de planejamentos estatísticos, sendo selecionadas as seguintes condições: massa molar do PEG 20000 (g/mol), concentração de PEG 20% (m/m), concentração de citrato 10% (m/m), velocidade de rotação dos discos de 80 rpm e velocidade da fase dispersa de 2 mL/min. Os melhores resultados em valores médios foram: coeficiente de partição 3,36, recuperação 152%, aumento de pureza 2,31, coeficiente de transferência de massa 0,045, eficiência de separação 43,7% e hold up 0,33. Os dados experimentais demonstram o potencial da aplicação do sistema de duas fases aquosas PEG/citrato para purificar a ascorbato oxidase utilizando coluna de discos rotativos perfurados. / The partition and purification of ascorbate oxidase from pumpkin (Cucurbita maxima) by liquid-liquid extraction in aqueous two-phase system (ATPS) by discontinuous and continuous process, using perforated rotating disc contactor (PRDC) was studied. Experimental designs were used to choose the significant variables for discontinuous process, and polyethylene glycol (PEG) molar mass and concentration, citrate concentration, pH, NaCl concentration, dilution factor and total mass of the system, were the variables studied. The better results (partition coefficient 1.72, recovery 90.8% and purification factor 3.12) were obtained with following conditions: PEG molar mass of 20000 g/mol, pH 6.0, PEG concentration of 25% (w/w) and citrate concentration of 10% (w/w). In the pH 6.0 and temperature of 35?C the ascorbate oxidase showed their high activity values and the enzyme was stable in the pH range of 5.0 to 9.0 during 36 hours and temperatures up to 40?C for 1 hour. Experiments were also conducted to estimate the main kinetic and thermodynamic properties of ascorbate oxidase activity and stability, and this study revealed the interesting stability of this enzyme. The PRDC showed a good performance for extracting in continuous mode using aqueous two-phase systems. The best operating condition was selected in this study for the extraction of ascorbate oxidase in the PRDC, and it was obtained with PEG molar mass of 20000 g/mol, PEG concentration of 20% (w/w) and citrate concentration of 10% (w/w), the disc rotational speed of 80 rpm and dispersed phase flowrate of 2 mL/min. The results in mean values were: partition coefficient 3.36, recovery 152%, purification factor 2.31, mass transfer coefficient 0.045, separation efficiency 43.7% and Hold up 0.33. The experimental data showed the potential application of aqueous two-phase systems PEG/citrate to purification ascorbate oxidase using perforated rotating disc contactor.

Ácidos ascórbicos

Alimentos

Aqueous two-phase systems

Ascorbate oxidase

Ascorbato oxidase

Biotecnolgy

Biotecnologia

Coluna de discos perfurados rotativos

Enzimas

Enzymes

Fármacos

PEG/citrate

PEG/citrato

Perforated rotating disc contactor

Proteinas

Sistemas de duas fases aquosas

Soluções aquosas

Comparaison du captage du CO2 en postcombustion par des solutions d'ammoniaque et d'amines organiques : Évaluation en contacteurs direct et indirect, par des approches cinétiques, thermodynamiques et par modélisation / Comparison of post-combustion CO2 capture by solutions of ammonia and organic amines : Assessment using direct and indirect contactors by kinetic, thermodynamic approaches and modeling

Toro Molina, Carol

26 June 2013

Actuellement, la production d’énergie est de plus en plus associée à une hausse simultanée d’émissions de Gaz à Effet de Serre (GES). Malgré les inquiétudes concernant les GES dans l’atmosphère, les énergies fossiles resteront probablement longtemps la principale source d’énergie primaire à l’échelle mondiale. Le procédé de captage de CO2, principal gaz à effet de serre, généralement préconisé est un procédé d’absorption chimique avec de la monoéthanolamine (MEA). Ce procédé pose de nombreux problèmes comme le coût de la régénération de l’amine. Cette étude s’intéresse à une alternative consistant à absorber chimiquement le dioxyde de carbone dans une solution aqueuse d’ammoniac. Par ailleurs, dans le but d’améliorer les procédés de captage et d’intensifier le transfert gaz-liquide, des techniques de captage à base de membranes (contacteurs membranaires) ont été développées et couplées à l’absorption chimique. Dans un premier temps des mesures d’absorption du CO2 à partir d’une solution aqueuse d’ammoniac ont été réalisées. Ces mesures ont été effectuées entre 278 et 303 K dans un réacteur fermé de type cellule de Lewis. Le taux de charge maximum, la pression partielle du CO2 à l’équilibre ont été déterminés. Les performances ont été comparées à celles de solvants conventionnels tels que la MEA et la N-méthyldiéthanolamine (MDEA). Dans un second temps, des mesures d’absorption à travers un contacteur membranaire ont été réalisées. L’efficacité de captage est étudiée en fonction de la nature des matériaux constituants la membrane et des paramètres opératoires. Les résultats obtenus montrent qu’il est possible de capter le CO2 par l’ammoniaque à travers une membrane avec une efficacité de captage supérieure à 90 %. La membrane limite les pertes d’ammoniaque mais ne les élimine pas. La simulation du fonctionnement de la centrale thermique alimentée au charbon pulvérisé (CP) intégrant le captage de CO2 a été réalisée à l’aide du logiciel Aspen Plus. Les fumées issues de la post-combustion sont captées par différents solvants. Une étude paramétrique a été conduite afin de préciser les conditions optimales pour capter le CO2 par l’ammoniaque. Des comparaisons de dépense énergétique dans le cas de la régénération pour les solvants NH3, MEA et MDEA ont été réalisées. L’étude comparative suggère que l’absorption chimique utilisant l’ammoniaque comme solvant est un des procédés les plus intéressants pour la centrale CP. / Nowadays rising energy production is associated with increasingly greenhouse gases (GHG) emissions. Despite of concerns about GHG emissions in atmosphere, fossil fuels will probably remain the main source of primary energy for a long time. The process of CO2 (the main greenhouse gas) capture, generally recommended is the chemical absorption with monoethanolamine (MEA). This process has many problems such as the regeneration cost of amine. This study examines an alternative which consists in absorbing carbon dioxide by ammonia aqueous solution. Moreover, membranes have been developed and coupled to chemical absorption to improve the capture processes and to intensify the gas-liquid transfer. Firstly measurements of CO2 absorption from an aqueous ammonia solution have been conducted. These measurements have been made between 278 and 303 K in a closed reactor type Lewis cell. Maximum CO2 loading, CO2 partial pressure at equilibrium have been determined. The solvents performances have been compared with respect to conventional solvents such as MEA and N-methyldiethanolamine (MDEA). Secondly absorption measurements through a membrane contactor have been made. The influence of the material nature constituting the membrane and operating parameters on the capture efficiency has been studied. The results have shown that it is possible to capture CO2 from ammonia through a membrane with a capture efficiency greater than 90 %. The membrane limits ammonia losses but does not eliminate it. Operation simulation of the thermal power plant fed with pulverized coal (CP) including CO2 capture has been performed using the software Aspen Plus. The flue gases containing CO2 from post-combustion have been captured by different solvents. A parametric study has been conducted to clarify the optimal conditions to capture CO2 by ammonia. Comparisons of energy consumption in the case of solvent regeneration for NH3,MEA andMDEA have been performed. The comparative study suggests that the use of ammonia as a solvent in chemical absorption is the most interesting process for the central CP.

Captage en post-combustion

Dioxyde de carbone

Ammoniaque

Absorption gaz-liquide

Centrale charbon pulvérisé

Post-combustion capture

Carbon dioxide

Ammonia

Gas-liquid absorption

Membrane contactor with intensification

Thermal power plant

Préparation à petite et grande échelle des liposomes encapsulant l’huile essentielle de clou de girofle libre et sous forme de complexe d’inclusion dans l’hydroxypropyl-β-cyclodextrine : caractérisation des nanostructures et évaluation de leur effet antioxydant / Preparation at small and lare scale of liposomes encapsulating clove essential oil in free and hydroxypropyl-β-cyclodextrin inclusion complex forms : characterization of nanostructures and evaluation of their antioxidant effect

Sebaaly, Carine

05 January 2016

L'huile essentielle de clou de girofle (HECG) et son constituant majeur l'eugénol (Eug) sont reconnus pour leurs propriétés biologiques. Ces principes actifs naturels peuvent constituer des alternatifs aux agents antimicrobiens, antioxydants et anti-inflammatoires de synthèse dans les formulations alimentaires et pharmaceutiques. Cependant, leur utilisation est limitée en raison de leur faible solubilité aqueuse, volatilité et sensibilité à la lumière. Notre travail de thèse porte sur la préparation et la caractérisation des vésicules lipidiques encapsulant l'HECG et l'Eug ainsi que les complexes d'inclusion cyclodextrine/Eug. Dans une première étape, la méthode d'injection éthanolique est utilisée à l'échelle du laboratoire où les paramètres de préparation ont été optimisés. Des phospholipides naturels de soja saturés (Phospholipon 80H et Phospholipon 90H) et insaturés (Lipoid S100) ont été utilisés pour étudier l'effet de l'hydrogénation et de la composition des phospholipides sur les caractéristiques des liposomes. Les conditions optimales ont été par la suite appliquées pour préparer les liposomes à grande échelle par contacteur à membrane et à l'échelle pilote. Des résultats similaires en termes de taille, indice de polydispersité, potentiel zêta, morphologie et taux d'incorporation de phospholipides sont obtenus à petite et grande échelle. Ceci indique la reproductibilité de ces procédés de préparation. Par ailleurs, des complexes d'inclusion d'HP-β-CD/Eug et d'HP-β-CD/HECG sont préparés dans une solution aqueuse et ensuite incorporés dans les liposomes formant un système combiné « drug in cyclodextrin in liposomes, DCL ». Un système en double encapsulation (DCL2) a été également préparé où l'Eug ou l'HECG sont ajoutés dans la phase organique et leurs complexes d'inclusion dans la phase aqueuse. En comparant à une simple incorporation dans les liposomes, DCL et DCL2 améliorent le rendement d'encapsulation de l'Eug et possèdent des tailles plus petites. Les résultats ont montré que les liposomes et les DCLs sont stables et maintiennent l'activité anti-oxydante de l'Eug. De plus, les liposomes protègent l'Eug contre la dégradation induite par les rayons UVC. Les DCLs, dont la particularité est de maintenir une huile essentielle volatile dans un lyophilisat en dépit des pressions très basses appliquées, peuvent être considérés comme un système de vectorisation prometteur de l'HECG et de l'Eug permettant leur utilisation en tant qu'ingrédients dans les préparations cosmétiques, pharmaceutiques, et agroalimentaires / Clove essential oil (CEO) and its major constituent eugenol (Eug) are recognized for their biological properties. These molecules may constitute natural alternatives to synthetic antimicrobial, antioxidant, and anti-inflammatory agents in food and pharmaceutical formulations. However, CEO constituents are volatile, sensitive to light and possess low aqueous solubility, which may limit their wide applications. Our thesis focuses on the preparation and characterization of lipid vesicles encapsulating CEO, Eug and the inclusion complexes cyclodextrin/Eug. In a first step, the ethanol injection method is applied at laboratory scale where the preparation parameters have been optimized. Natural hydrogenated (Phospholipon 80H, Phospholipon 90H) and non-hydrogenated (Lipoid S100) soybean phospholipids were used to study the effect of hydrogenation and phospholipid composition on the characteristics of liposomes. Optimal conditions were then applied to prepare liposomes at large scale by membrane contactor and at pilot scale. Similar results in terms of size, polydispersity index, zeta potential, morphology and phospholipid loading rate were obtained at laboratory and large scale. This indicates the reproducibility of the preparation methods. In addition, HP-β-CD/Eug and HP- β-CD/CEO inclusion complexes were prepared in aqueous solution and were then incorporated into liposomes forming a combined system « drug in cyclodextrin in liposomes, DCL ». Double loaded liposomes (DCL2) were also prepared where CEO or Eug were added in the organic phase and their inclusion complexes in the aqueous phase. Compared to CEO and Eug loaded liposomes, DCL and DCL2 improved the loading rate of Eug and possessed smaller vesicles size. Results showed that both liposomes and DCLs are stable and maintain the antioxidant activity of Eug. In addition, liposomes protect Eug from degradation induced by UVC irradiation. DCLs, whose characteristic is to keep a volatile essential oil in a lyophilized form despite the very low applied pressures, could be considered as a promising carrier system of CEO and Eug permitting their use as ingredients in cosmetic, pharmaceutical and food industries

Activité Anti-oxydante

Contacteur à membrane

Drug in cyclodextrin in liposomes

Eugénol

Ydroxypropyl-β-cyclodextrine

Huile essentielle de clou de girofle

Liposomes

Lyophilisation

Antioxidant activity

Membrane contactor

Drug in cyclodextrin in liposomes

Eugenol

Hydroxypropyl-β-cyclodextrin

Clove essential oil

Liposomes

Lyophilization

572

Étude des paramètres affectant le transfert d'oxygène dans les vins

Chiciuc, Igor

07 December 2010

La micro-oxygénation des vins, par la dispersion de bulles d’oxygène, est une pratique de plus en plus utilisée dans le domaine de l’œnologie. Cette technique n’est pas toujours convenablement maitrisée par manque de connaissances scientifiques sur les paramètres régissant le transfert de l’oxygène. La recherche s'est focalisée sur l'étude des coefficients de transfert en fonction des composés du vin (CO2, éthanol, sucrose, consommateurs d’oxygène) et des conditions opératoires (type de diffuseur, température, rapport entre hauteur et diamètre du contenant de liquide). Les résultats montrent que lors de la micro-oxygénation, le dioxyde de carbone dissous et le sucrose ont une incidence négative sur le transfert alors que la présence d’éthanol améliore le transfert. En ce qui concerne les conditions opératoires, l’augmentation de débit de gaz et l’augmentation de rapport entre la hauteur et le diamètre de la cuve de micro-oxygénation joue positivement sur le transfert d’oxygène La surface spécifique des bulles et le coefficient de transfert de matière ont pu être dissociés pour les vins. La nature tensio-active des composés du vin semble être un élément important sur le transfert de matière. Les connaissances acquises ont été appliquées à la micro-oxygénation au cours de deux étapes de l'élaboration des vins : la fermentation alcoolique avec la maitrise de l’apport d’oxygène et la simulation de la technique d’élevage en barrique par micro-oxygénation couplée à l’ajout de copeaux de bois. Une nouvelle approche concerne l'étude d'un contacteur membranaire qui permet le transfert d’oxygène par diffusion. / Micro-oxygenation of the wines, by the dispersion of oxygen bubbles, is a practice increasingly used in oenology. This technique is not always suitably controlled for lack of scientific knowledge on the parameters governing the transfer of oxygen. Research was focused on the study of transfer coefficients in function of wine components (CO2, ethanol, sucrose, consuming oxygen) and of operating conditions (type of diffuser, temperature, relationship between height and diameter of the container of liquid). The results show that during micro-oxygenation, the dissolved carbon dioxide and the sucrose have a negative incidence on the transfer whereas the presence of ethanol improves the transfer. As operating conditions are concerned, the increase in gas output and the increase in micro-oxygenation tank height/diameter ratio positively influence oxygen transfer. For wines, the specific surface of the bubbles and the mass transfer coefficient could be dissociated. The surfactant nature of wine components seems to be the most important factor in mass transfer. The knowledge so acquired was applied to micro-oxygenation during two stages of wine making: alcoholic fermentation with the oxygen yield control and the simulation of ageing technique in barrels coupled with the wood chips addition. A new approach relates to the study of a membrane contactor application allowing the oxygen transfer by diffusion.

Micro-oxygénation

Oxygène

Vin

Solubilité

Transfert gaz–liquide

Coefficient volumique de transfert

Aire interfaciale volumique

Coefficient de transfert de matière

Fermentation alcoolique

Dioxyde de carbone

Copeaux de bois

Contacteur membranaire

Micro-oxygenation

Oxygen

Wine

Solubility

Gas-liquid transfer

Volumetric transfer coefficient

Interfacial area

Mass transfer coefficient

Alcoholic fermentation

Carbon dioxide

Wood chips

Membrane contactor