21 |
Amine-Modified SBA-15 (Prepared by Co-condensation) for Adsorption of Copper from Aqueous SolutionsDa'na, Enshirah Azmi Mahmoud 25 January 2012 (has links)
During the last few decades, concerns about water shortages and pollution have increased. Consequently, environmental legislations and regulations for wastewater discharge have been issued. The objective of this work was to contribute in developing an efficient dsorbent for removing heavy metal ions from wastewater. The thesis focused on evaluating amine-modified SBA-15 as copper and other heavy metal ions adsorbent, by determining a variety of adsorptive properties with the aim of gaining a deep understanding of its behavior and to outline its advantages and limitations.
The influence of synthesis conditions on the mesostructural stability of the resultant materials after different water treatments was
systematically investigated. N2 adsorption results indicated that the material prepared via co-condensation and aged at 100 ºC was not stable and lost its ordered mesoporous structure after contacting water even at room temperature. Aging at 130 ºC and addition of inorganic salts resulted in materials that maintained their mesporous structure under
different water treatments. The material synthesized in the presence of KCl was used as adsorbent for the rest of the thesis work. It was shown that the structural collapse observed in amine-modified SBA-15 prepared
by conventional method when contacted with aqueous solutions is associated with the drying process, and not the treatment itself. This structural collapse was avoided by replacing water with more volatile liquids such as acetone, before drying.
Amino-functionalized SBA-15 was tested for the removal of copper ions from aqueous solutions under different temperatures, pH, initial
concentrations and agitation speeds. The obtained results indicated that the amino-functionalized SBA-15 was very efficient and equilibrium was achieved in less than 30 min at room temperature. The adsorption capacity
increased dramatically with increasing temperature, initial copper concentration and pH. Under suitable conditions, the material exhibited high adsorption capacity even at very low copper concentration.
To further investigate the effect of dsorption parameters, a 24 factorial design experiments were used to screen the factors affecting the copper removal efficiency. All the parameters main effects were significant within a 95 % confidence level. Surface composite design was used to develop a reliable model representing the adsorption process. The statistical tests used proved the adequacy of the second order model. Optimization of the factors levels was carried out and the recommended optimum conditions are: copper concentration of 20 mg/L, adsorbent/solution ratio of 1.57 g/L, pH of 6.5, and T = 294 K with 95% copper removal.
The effect of regeneration conditions was investigated after three adsorption–desorption cycles, under different batchwise regeneration
conditions. Using a composite surface design methodology, the effect of the regeneration conditions on the performance of the adsorbent was investigated. It was found that all the studied parameters have a statistically significant influence on the working dsorption capacity.
With respect to structural properties and amine content, none of the factors was found to be significant. Regeneration using EDTA was found to be more efficient than acid treatment.
Amino-functionalized SBA-15 was studied as potential absorbent for Cd2 +, Co2 +, Cu2 +, Zn2 +, Pb2 +, Ni2 +, Al3+ and Cr3 +. The adsorption capacity and selectivity of the material were investigated in single and
multi-metal solutions. Using very dilute solutions, i.e., 10 ppm, more than 95% of cations were removed, except for Co2+ and Cr3 +, indicatingthe high sensitivity of the current adsorbent. The adsorption capacities
in multi-metal solutions were lower than in single-metal ones because of competition between metallic elements for the amine groups. The adsorbent was not affected in the presence of sodium, potassium, and calcium,
indicating that the ionic strength does not affect the adsorption properties. Application of this material to remove copper in tap water,
river water, and electroplating wastewater was shown to be successful. Dynamic experiments were carried out on the adsorption of copper ions in a laboratory packed-bed of amine-modified SBA-15. Breakthrough curves were
analyzed at different flowrates and after two adsorption-desorption cycles. Furthermore, a model based on mass balance was developed and tested for predicting the breakthrough curves under different experimental conditions used. The results suggested that the developed model was in
good agreement with the experimental data. Bed regeneration was performed by circulating 0.2 M EDTA solution through the column for 30 min.
Résumé
Durant les quelques dernières décennies, les préoccupations concernant les
pénuries d'eau et la pollution en général ont augmenté. Par conséquent,
des législations et des réglementations environnementales pour les rejets
d'eaux usées ont été introduites. L'objectif de ce travail était de
contribuer au développement d'un adsorbant efficace pour éliminer les ions
de métaux lourds des eaux usées. Cette thèse porte sur l'évaluation de
SBA-15 modifiée avec des amines comme adsorbant pour le cuivre et d'autres
ions de métaux lourds par la détermination d'une multitude de propriétés
d'adsorption dans le but d'acquérir une profonde compréhension de son
comportement et d’identifier ses avantages et ses limites.
L'influence des conditions de synthèse sur la stabilité des matériaux
mésoporeux obtenus après différents traitements a été étudié de façon
systématique. Les résultats d'adsorption de N2 ont indiqué que le matériel
préparé par co-condensation et vieilli à 100 °C n'était pas stable et a
perdu sa structure mésoporeuse ordonnée après avoir été en contact avec
l'eau même à température ambiante. Le vieillissement à 130 °C, avec ajout
de sels inorganiques, a abouti à des matériaux qui ont maintenu leur
structure mésoporeuse sous différents traitements en présence d'eau. Le
matériau synthétisé en présence de KCl a été utilisé comme adsorbant pour
le reste du travail de cette thèse. Il a été démontré que l'effondrement
de la structure observé dans la SBA-15 modifiée aux amines, préparée par
la méthode conventionnelle en contact avec des solutions aqueuses est
associé avec le processus de séchage, et non le traitement lui-même. Cet
effondrement de structure a été évité en remplaçant l'eau avec des
liquides plus volatils tels que l'acétone, avant le séchage.
La SBA-15 amino-fonctionnalisée a été testée pour l'élimination des ions
de cuivre des solutions aqueuses à différentes températures, pH,
concentrations initiales et vitesses d'agitation. Les résultats obtenus
ont indiqué que la SBA-15 amino-fonctionnalisée était très efficace et
l'équilibre a été atteint en moins de 30 min à température ambiante. La
capacité d'adsorption a considérablement augmenté avec la température, la
concentration initiale de cuivre et le pH. Sous des conditions
appropriées, le matériau a manifesté une grande capacité d'adsorption,
même à des concentrations très faibles en cuivre.
Afin d’étudier l'effet des paramètres d'adsorption, un plan factoriel de
24 expériences a été utilisé pour dépister les facteurs affectant
l'efficacité d'élimination du cuivre. Tous les effets principaux des
paramètres étaient importants à 95% de niveau de confiance. La
méthodologie de la surface composite a été utilisée pour développer un
modèle fiable qui représente le processus d'adsorption. Les tests
statistiques utilisés ont prouvé la pertinence du modèle de second ordre.
L’optimisation des niveaux des facteurs a été effectuée et les conditions
optimales recommandées sont: la concentration en cuivre de 20 mg/L, le
rapport adsorbant/solution de 1.57 g/L, pH de 6.5 et T = 294 K pour
l'élimination de 95% de cuivre.
L'effet des conditions de régénération a été étudié après trois cycles
d'adsorption-désorption, sous différentes conditions de régénération. En
utilisant la méthodologie de la surface composite, l'effet des conditions
de régénération sur la performance de l'adsorbant a été étudié. Il a été
constaté que tous les paramètres étudiés ont une influence statistiquement
significative sur la capacité de travail d'adsorption. En ce qui concerne
les propriétés structurelles et la teneur en amine, aucun des facteurs n’a
été jugé significatif. La régénération à l'aide d'EDTA a été jugée plus
efficace que le traitement acide.
La SBA-15 amino-fonctionnalisée a été étudiée comme absorbant potentiel de
Cd2+, Co2+, Cu2+, Zn2+, Pb2+, Ni2+, Al3+ and Cr3+. La capacité
d'adsorption et la sélectivité du matériau ont été étudiées dans des
solutions mono- et multi-métalliques. En utilisant des solutions très
diluées, soit 10 ppm, plus de 95% de cations ont été enlevés, sauf pour le
Co2+ et Cr3+, indiquant la forte sensibilité de l'adsorbant. Les capacités
d'adsorption dans les solutions multi-métalliques étaient inférieures à
celles des solutions mono-métalliques en raison de la concurrence entre
les éléments métalliques pour les groupes amine. L'adsorbant n'a pas été
affecté par la présence de sodium, de potassium et de calcium, ce qui
indique que la force ionique n'affecte pas les propriétés d'adsorption.
L’usage avec succès de ce matériau pour éliminer le cuivre dans l'eau de
robinet, l’eau de rivière et les eaux usées de galvanoplastie a été
démontré.
Des expériences dynamiques ont été réalisées sur l'adsorption des ions de
cuivre par la SBA-15 amine-modifiée sur une colonne à lit fixe de
laboratoire. Les courbes de perçage ont été analysées à des débits
différents et après deux cycles d'adsorption-désorption. De plus, un
modèle basé sur le bilan de matière a été développé et testé pour prédire
les courbes de perçage sous les différentes conditions expérimentales
utilisées. Les résultats suggèrent que le modèle développé est en bon
accord avec les données expérimentales. La régénération du lit a été
réalisée en faisant circuler une solution EDTA à 0.2 M à travers la
colonne pendant 30 min.
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Surface Tension and Adsorption Kinetics of Volatile Organic Amphiphiles in Aqueous SolutionFirooz, Abdolhamid January 2011 (has links)
Amphiphiles that possess a dual character, hydrophobic and hydrophilic, are employed in many chemical, pharmaceutical and biological applications. Amphiphile molecules that include a hydrophilic head and a hydrophobic tail can easily adsorb at a liquid/vapour interface, to reach to a minimum free energy and hence a most thermodynamically stable state. Surface tension is a key parameter for understanding such behavior of an amphiphile, or a surfactant. This thesis represents a comprehensive study on adsorption and surface tension of slightly volatile, organic amphiphiles in aqueous solution.
Although for a vapor-liquid interface, adsorption from both liquid and vapor phases should be considered, they have been almost always considered exclusive of one another. When a volatile surfactant is dissolved in the liquid phase, it also applies a finite partial pressure in the vapor phase. Recently, dynamic surface tension experiments showed that adsorption from both sides of a vapor/liquid interface must be studied simultaneously. It is noted that surface tension phenomena are often dynamic, in particular when the surface under consideration is perturbed. With the newly discovered importance of adsorption from both sides of a vapor/liquid interface, one may have to ask the question: how dynamic surface tension is influenced and responding to the surface perturbation and environment changes, and whether both sides of the interface play a role in surface tension responses.
In this research, axisymmetric drop shape analysis-profile (ADSA-P) is used for surface tension measurement. The experiments are performed in a closed chamber where the effects of surfactant concentrations of both liquid and vapor phases on the surface tension can be studied. The partial vapor pressure of surfactant is controlled with an environment solution containing the same surfactant as the sample solution. The environment solution is to facilitate adsorption from the vapor side of the interface by creating a surfactant vapor phase. The effects of surface perturbation, environment condition (i.e., temperature and pressure) and carbon chain length on the surface tension and adsorption kinetics are studied in detail.
The surface tension response of 1-octanol aqueous solution to surface area perturbation is investigated. Upon surface compression, the surface tension decreases followed by a gradual increase back to the value prior to compression. On surface expansion, two categories of surface tension response are observed: First, when the change in surface area is smaller than 5%, the behavior similar to that of conventional surfactants is observed. The surface tension increases followed by a gradual decrease back to the value prior to expansion. Second, when the change in surface area is greater than 5%, and the drop concentration is sufficiently larger than the environment concentration, the surface tension initially slightly increases, but after a time delay, it sharply decreases, followed by a gradual increase back to the value prior to expansion. Previous studies showed that at steady-state condition a network of hydrogen bonding between surfactant and water molecules near the surface is created. The unique surface tension response after large expansion might be related to the momentarily destruction of this hydrogen bonding network and gradually making a new one.
The effect of temperature on the surface tension and adsorption kinetics of 1-octanol, 1-hexanol and 1-butanol aqueous solutions is studied. The steady-state surface tension is found to decrease upon an increase in temperature, and a linear relationship is observed between them. The modified Langmuir equation of state and the modified kinetic transfer equation are used to model the experimental data of the steady-state and dynamic (time-dependent) surface tension, respectively. The equilibrium constants and adsorption rate constants are evaluated through a minimization procedure for temperatures ranging from 10°C to 35°C. From the steady-state modelling, the equilibrium constants for adsorption from vapor phase and liquid phase are found to increase with temperature. From the dynamic modelling, the adsorption rate constants for adsorption from vapor phase and liquid phase are found to increase with temperature too.
The influence of carbon dioxide pressure on the surface tension and adsorption kinetics of the aforementioned surfactant aqueous solutions is investigated. To consider the effect of adsorption/desorption of the two species (surfactant and carbon dioxide) from both sides of a vapor/liquid interface on the surface tension, the modified Langmuir equation of state and the modified kinetic transfer equation are derived. The steady-state and dynamic surface tension data are modelled using the modified Langmuir equation of state and the modified kinetic transfer equation, respectively. The equilibrium constants and adsorption rate constants of surfactant and carbon dioxide are evaluated through a minimization procedure for CO2 pressures ranging from 0 to 690 KPa. From the steady-state modelling, the equilibrium parameters for surfactant and carbon dioxide adsorption from vapor phase and liquid phase are found unchanged for different pressures of carbon dioxide. From the dynamic modelling, the adsorption rate constants for surfactant and carbon dioxide are found to decrease with carbon dioxide pressure.
The role of carbon chain length of amphiphiles in aqueous solution is also studied. It is illustrated that the equilibrium constants for adsorption from both sides of a vapor/liquid interface increase from 1-butanol to 1-octanol. The modelling results show that the ratio of the equilibrium constant for adsorption from vapor phase to the equilibrium constant for adsorption from liquid phase declines from 260 to 26 as the chain length is increased from 1-butanol to 1-octanol. Therefore, the contribution to adsorption from liquid phase augments as the chain length is increased. The adsorption kinetics for this group of short carbon chain surfactants is modelled using a kinetic transfer equation. The modelling results show that the adsorption rate constants from vapor phase and liquid phase (kag and kal) increase from 1-butanol to 1-octanol. Steady-state and dynamic modelling also reveals that the maximum surface concentration increases with carbon chain length. These results may be due to the higher hydrophobicity character of a surfactant molecule at longer carbon chain length.
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Polyelectrolyte adsorption on oppositely charged surfaces - Conformation and adsorption kineticsEnarsson, Lars-Erik January 2006 (has links)
<p>Denna avhandling presenterar experimentella studier av polyelektrolytadsorption på motsatt laddade ytor, där substrat av både kiseloxid och blekt barrsulfatmassa har använts. Ett huvudsakligt syfte med denna forskning var att karaktärisera konformationen hos adsorberade skikt av katjonisk polyakrylamid (CPAM) i jämförelse med katjonisk dextran (Cdextran) och relatera denna information till inbindningskapaciteten av kolloidal kiselsyra. Ett andra syfte i denna avhandling var att studera kinetiken för sekventiell adsorption av polyamidamin epiklorhydrin (PAE) och karboxymetyl cellulosa (CMC) på massafibrer och att bestämma adsorptionsisotermer för deponering av polyelektrolyter skikt för skikt på massafibrer.</p><p>Adsorptionen av CPAM på kiseloxidytor studeras med stagnationspunkts-reflektometri och kvartskristalls-mikrogravimetri för att bestämma adsorptionskinetiken och mättnadsadsorptionens beroende av polyelektrolytens laddningstäthet, pH och NaCl koncentration. Konformationen hos adsorberade skikt av CPAM och Cdextran bestämdes både före och efter sekundär tillsats av kolloidal kiselsyra (CS) och adsorptionen av CS kvantifierades också som funktion av yttäckningen av polyelektrolyt.</p><p>Resultaten indikerar att laddningstätheten hos CPAM kontrollerar den adsorberade mängden på kiseloxidytor vid låga NaCl koncentrationer. Både adsorptionen av CPAM och Cdextran på kiseloxid visades vara effektiv i NaCl koncentrationer upp till 1 M, vilket indikerar ett signifikant bidrag av icke-jonisk interaktion mellan polyelektrolyterna och kiseloxid. Adsorptionen av CS var högre på föradsorberad CPAM än Cdextran. Konformationen hos de adsorberade skikten efter tillsats av CS sågs expandera signifikant för skikt baserade på CPAM medan skikt av Cdextran vid låga salthalter verkade återta sin konformation efter en temporär expansion.</p><p>I den andra delen av avhandlingen studerades sekventiell adsorption av PAE och CMC på massafibrer. Adsorptionsisotermer skikt för skikt på avkryllad massa visade att PAE adsorberade i större mängd än CMC, både i hänseende av massa och laddning. Adsorptionen av PAE var signifikant långsammare än CMC och adsorptionstiden till 90% av mättnadsadsorptionen bestämdes till 3 respektive 1 minut. Zetapotentialen för kryll bestämdes för adsorption av de två första polyelektrolytskikten och resultaten tydde på att kryllmaterialet omladdade inom en minut efter tillsatserna av polyelektrolyt. Reflektometriförsök inom sekventiell adsorption av PAE och CMC på kiseloxid antydde att den låga molekylviktsfraktionen av PAE störde uppbyggnaden av polyelektrolyt-multiskikten.</p> / <p>This thesis presents experimental studies of polyelectrolyte adsorption on oppositely charged surfaces, where substrates of both silica and bleached softwood kraft pulp were used. A major aim of this research was to characterise the conformation of adsorbed layers of cationic polyacrylamide (CPAM), in comparison to cationic dextran (Cdextran), and relate this information to the binding capacity of colloidal silica. A second aim in this thesis was to study the kinetics of the sequential adsorption of polyamide epichlorohydrine (PAE) and carboxymethyl cellulose (CMC) on pulp fibres, and to determine the adsorption isotherms for the layer-by-layer deposition of polyelectrolytes on pulp fibres.</p><p>The adsorption of CPAM on silica surfaces was studied using stagnation point adsorption reflectometry and quartz crystal microgravimetry to determine its adsorption kinetics as well as the dependencies of polyelectrolyte charge densities, pH, and NaCl concentration on saturation adsorption. The conformation of adsorbed layers of CPAM and Cdextran, analysed in terms of amount of water and layer thickness, was determined both before and after the secondary adsorption of colloidal silica (CS), and the adsorption of CS was also quantified as a function of the surface coverage of the polyelectrolyte.</p><p>Results indicate that the charge density of CPAM controlled the amount of the polyelectrolyte adsorbed on silica surfaces at low NaCl concentrations. The adsorption of both CPAM and Cdextran on silica was shown to be effective at up to 1 M NaCl concentrations, which indicates that non-ionic interactions between the polyelectrolytes and silica contribute significantly. CS adsorption was higher on pre-adsorbed CPAM than on Cdextran. The conformation of the adsorbed layer after CS addition was seen to expand significantly in CPAM-based layers, while the Cdextran layer appeared to restore its conformation after a temporary expansion at low salt concentrations.</p><p>In the second part of the thesis, the sequential adsorption of PAE and CMC on pulp fibres was determined using the polyelectrolyte titration technique. Layer-by-layer adsorption isotherms derived on fractionated pulp showed that PAE adsorbed in higher amounts than CMC did, both in terms of adsorbed mass and adsorbed charge. The adsorption of PAE was significantly slower compared to CMC, and the adsorption times required to reach 90% of the saturation adsorption were 3 and 1 min, respectively. The zeta potential of pulp fines was determined for the adsorption of the two first polyelectrolyte layers, and data indicated that the fines recharge within one minute after the polyelectrolyte additions. Reflectometry experiments regarding the sequential adsorption of PAE and CMC on silica indicated that the low-molecular-weight fraction of PAE disturbed the formation of polyelectrolyte multilayers.</p>
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Amine-Modified SBA-15 (Prepared by Co-condensation) for Adsorption of Copper from Aqueous SolutionsDa'na, Enshirah Azmi Mahmoud 25 January 2012 (has links)
During the last few decades, concerns about water shortages and pollution have increased. Consequently, environmental legislations and regulations for wastewater discharge have been issued. The objective of this work was to contribute in developing an efficient dsorbent for removing heavy metal ions from wastewater. The thesis focused on evaluating amine-modified SBA-15 as copper and other heavy metal ions adsorbent, by determining a variety of adsorptive properties with the aim of gaining a deep understanding of its behavior and to outline its advantages and limitations.
The influence of synthesis conditions on the mesostructural stability of the resultant materials after different water treatments was
systematically investigated. N2 adsorption results indicated that the material prepared via co-condensation and aged at 100 ºC was not stable and lost its ordered mesoporous structure after contacting water even at room temperature. Aging at 130 ºC and addition of inorganic salts resulted in materials that maintained their mesporous structure under
different water treatments. The material synthesized in the presence of KCl was used as adsorbent for the rest of the thesis work. It was shown that the structural collapse observed in amine-modified SBA-15 prepared
by conventional method when contacted with aqueous solutions is associated with the drying process, and not the treatment itself. This structural collapse was avoided by replacing water with more volatile liquids such as acetone, before drying.
Amino-functionalized SBA-15 was tested for the removal of copper ions from aqueous solutions under different temperatures, pH, initial
concentrations and agitation speeds. The obtained results indicated that the amino-functionalized SBA-15 was very efficient and equilibrium was achieved in less than 30 min at room temperature. The adsorption capacity
increased dramatically with increasing temperature, initial copper concentration and pH. Under suitable conditions, the material exhibited high adsorption capacity even at very low copper concentration.
To further investigate the effect of dsorption parameters, a 24 factorial design experiments were used to screen the factors affecting the copper removal efficiency. All the parameters main effects were significant within a 95 % confidence level. Surface composite design was used to develop a reliable model representing the adsorption process. The statistical tests used proved the adequacy of the second order model. Optimization of the factors levels was carried out and the recommended optimum conditions are: copper concentration of 20 mg/L, adsorbent/solution ratio of 1.57 g/L, pH of 6.5, and T = 294 K with 95% copper removal.
The effect of regeneration conditions was investigated after three adsorption–desorption cycles, under different batchwise regeneration
conditions. Using a composite surface design methodology, the effect of the regeneration conditions on the performance of the adsorbent was investigated. It was found that all the studied parameters have a statistically significant influence on the working dsorption capacity.
With respect to structural properties and amine content, none of the factors was found to be significant. Regeneration using EDTA was found to be more efficient than acid treatment.
Amino-functionalized SBA-15 was studied as potential absorbent for Cd2 +, Co2 +, Cu2 +, Zn2 +, Pb2 +, Ni2 +, Al3+ and Cr3 +. The adsorption capacity and selectivity of the material were investigated in single and
multi-metal solutions. Using very dilute solutions, i.e., 10 ppm, more than 95% of cations were removed, except for Co2+ and Cr3 +, indicatingthe high sensitivity of the current adsorbent. The adsorption capacities
in multi-metal solutions were lower than in single-metal ones because of competition between metallic elements for the amine groups. The adsorbent was not affected in the presence of sodium, potassium, and calcium,
indicating that the ionic strength does not affect the adsorption properties. Application of this material to remove copper in tap water,
river water, and electroplating wastewater was shown to be successful. Dynamic experiments were carried out on the adsorption of copper ions in a laboratory packed-bed of amine-modified SBA-15. Breakthrough curves were
analyzed at different flowrates and after two adsorption-desorption cycles. Furthermore, a model based on mass balance was developed and tested for predicting the breakthrough curves under different experimental conditions used. The results suggested that the developed model was in
good agreement with the experimental data. Bed regeneration was performed by circulating 0.2 M EDTA solution through the column for 30 min.
Résumé
Durant les quelques dernières décennies, les préoccupations concernant les
pénuries d'eau et la pollution en général ont augmenté. Par conséquent,
des législations et des réglementations environnementales pour les rejets
d'eaux usées ont été introduites. L'objectif de ce travail était de
contribuer au développement d'un adsorbant efficace pour éliminer les ions
de métaux lourds des eaux usées. Cette thèse porte sur l'évaluation de
SBA-15 modifiée avec des amines comme adsorbant pour le cuivre et d'autres
ions de métaux lourds par la détermination d'une multitude de propriétés
d'adsorption dans le but d'acquérir une profonde compréhension de son
comportement et d’identifier ses avantages et ses limites.
L'influence des conditions de synthèse sur la stabilité des matériaux
mésoporeux obtenus après différents traitements a été étudié de façon
systématique. Les résultats d'adsorption de N2 ont indiqué que le matériel
préparé par co-condensation et vieilli à 100 °C n'était pas stable et a
perdu sa structure mésoporeuse ordonnée après avoir été en contact avec
l'eau même à température ambiante. Le vieillissement à 130 °C, avec ajout
de sels inorganiques, a abouti à des matériaux qui ont maintenu leur
structure mésoporeuse sous différents traitements en présence d'eau. Le
matériau synthétisé en présence de KCl a été utilisé comme adsorbant pour
le reste du travail de cette thèse. Il a été démontré que l'effondrement
de la structure observé dans la SBA-15 modifiée aux amines, préparée par
la méthode conventionnelle en contact avec des solutions aqueuses est
associé avec le processus de séchage, et non le traitement lui-même. Cet
effondrement de structure a été évité en remplaçant l'eau avec des
liquides plus volatils tels que l'acétone, avant le séchage.
La SBA-15 amino-fonctionnalisée a été testée pour l'élimination des ions
de cuivre des solutions aqueuses à différentes températures, pH,
concentrations initiales et vitesses d'agitation. Les résultats obtenus
ont indiqué que la SBA-15 amino-fonctionnalisée était très efficace et
l'équilibre a été atteint en moins de 30 min à température ambiante. La
capacité d'adsorption a considérablement augmenté avec la température, la
concentration initiale de cuivre et le pH. Sous des conditions
appropriées, le matériau a manifesté une grande capacité d'adsorption,
même à des concentrations très faibles en cuivre.
Afin d’étudier l'effet des paramètres d'adsorption, un plan factoriel de
24 expériences a été utilisé pour dépister les facteurs affectant
l'efficacité d'élimination du cuivre. Tous les effets principaux des
paramètres étaient importants à 95% de niveau de confiance. La
méthodologie de la surface composite a été utilisée pour développer un
modèle fiable qui représente le processus d'adsorption. Les tests
statistiques utilisés ont prouvé la pertinence du modèle de second ordre.
L’optimisation des niveaux des facteurs a été effectuée et les conditions
optimales recommandées sont: la concentration en cuivre de 20 mg/L, le
rapport adsorbant/solution de 1.57 g/L, pH de 6.5 et T = 294 K pour
l'élimination de 95% de cuivre.
L'effet des conditions de régénération a été étudié après trois cycles
d'adsorption-désorption, sous différentes conditions de régénération. En
utilisant la méthodologie de la surface composite, l'effet des conditions
de régénération sur la performance de l'adsorbant a été étudié. Il a été
constaté que tous les paramètres étudiés ont une influence statistiquement
significative sur la capacité de travail d'adsorption. En ce qui concerne
les propriétés structurelles et la teneur en amine, aucun des facteurs n’a
été jugé significatif. La régénération à l'aide d'EDTA a été jugée plus
efficace que le traitement acide.
La SBA-15 amino-fonctionnalisée a été étudiée comme absorbant potentiel de
Cd2+, Co2+, Cu2+, Zn2+, Pb2+, Ni2+, Al3+ and Cr3+. La capacité
d'adsorption et la sélectivité du matériau ont été étudiées dans des
solutions mono- et multi-métalliques. En utilisant des solutions très
diluées, soit 10 ppm, plus de 95% de cations ont été enlevés, sauf pour le
Co2+ et Cr3+, indiquant la forte sensibilité de l'adsorbant. Les capacités
d'adsorption dans les solutions multi-métalliques étaient inférieures à
celles des solutions mono-métalliques en raison de la concurrence entre
les éléments métalliques pour les groupes amine. L'adsorbant n'a pas été
affecté par la présence de sodium, de potassium et de calcium, ce qui
indique que la force ionique n'affecte pas les propriétés d'adsorption.
L’usage avec succès de ce matériau pour éliminer le cuivre dans l'eau de
robinet, l’eau de rivière et les eaux usées de galvanoplastie a été
démontré.
Des expériences dynamiques ont été réalisées sur l'adsorption des ions de
cuivre par la SBA-15 amine-modifiée sur une colonne à lit fixe de
laboratoire. Les courbes de perçage ont été analysées à des débits
différents et après deux cycles d'adsorption-désorption. De plus, un
modèle basé sur le bilan de matière a été développé et testé pour prédire
les courbes de perçage sous les différentes conditions expérimentales
utilisées. Les résultats suggèrent que le modèle développé est en bon
accord avec les données expérimentales. La régénération du lit a été
réalisée en faisant circuler une solution EDTA à 0.2 M à travers la
colonne pendant 30 min.
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Surface Tension and Adsorption Kinetics of Volatile Organic Amphiphiles in Aqueous SolutionFirooz, Abdolhamid January 2011 (has links)
Amphiphiles that possess a dual character, hydrophobic and hydrophilic, are employed in many chemical, pharmaceutical and biological applications. Amphiphile molecules that include a hydrophilic head and a hydrophobic tail can easily adsorb at a liquid/vapour interface, to reach to a minimum free energy and hence a most thermodynamically stable state. Surface tension is a key parameter for understanding such behavior of an amphiphile, or a surfactant. This thesis represents a comprehensive study on adsorption and surface tension of slightly volatile, organic amphiphiles in aqueous solution.
Although for a vapor-liquid interface, adsorption from both liquid and vapor phases should be considered, they have been almost always considered exclusive of one another. When a volatile surfactant is dissolved in the liquid phase, it also applies a finite partial pressure in the vapor phase. Recently, dynamic surface tension experiments showed that adsorption from both sides of a vapor/liquid interface must be studied simultaneously. It is noted that surface tension phenomena are often dynamic, in particular when the surface under consideration is perturbed. With the newly discovered importance of adsorption from both sides of a vapor/liquid interface, one may have to ask the question: how dynamic surface tension is influenced and responding to the surface perturbation and environment changes, and whether both sides of the interface play a role in surface tension responses.
In this research, axisymmetric drop shape analysis-profile (ADSA-P) is used for surface tension measurement. The experiments are performed in a closed chamber where the effects of surfactant concentrations of both liquid and vapor phases on the surface tension can be studied. The partial vapor pressure of surfactant is controlled with an environment solution containing the same surfactant as the sample solution. The environment solution is to facilitate adsorption from the vapor side of the interface by creating a surfactant vapor phase. The effects of surface perturbation, environment condition (i.e., temperature and pressure) and carbon chain length on the surface tension and adsorption kinetics are studied in detail.
The surface tension response of 1-octanol aqueous solution to surface area perturbation is investigated. Upon surface compression, the surface tension decreases followed by a gradual increase back to the value prior to compression. On surface expansion, two categories of surface tension response are observed: First, when the change in surface area is smaller than 5%, the behavior similar to that of conventional surfactants is observed. The surface tension increases followed by a gradual decrease back to the value prior to expansion. Second, when the change in surface area is greater than 5%, and the drop concentration is sufficiently larger than the environment concentration, the surface tension initially slightly increases, but after a time delay, it sharply decreases, followed by a gradual increase back to the value prior to expansion. Previous studies showed that at steady-state condition a network of hydrogen bonding between surfactant and water molecules near the surface is created. The unique surface tension response after large expansion might be related to the momentarily destruction of this hydrogen bonding network and gradually making a new one.
The effect of temperature on the surface tension and adsorption kinetics of 1-octanol, 1-hexanol and 1-butanol aqueous solutions is studied. The steady-state surface tension is found to decrease upon an increase in temperature, and a linear relationship is observed between them. The modified Langmuir equation of state and the modified kinetic transfer equation are used to model the experimental data of the steady-state and dynamic (time-dependent) surface tension, respectively. The equilibrium constants and adsorption rate constants are evaluated through a minimization procedure for temperatures ranging from 10°C to 35°C. From the steady-state modelling, the equilibrium constants for adsorption from vapor phase and liquid phase are found to increase with temperature. From the dynamic modelling, the adsorption rate constants for adsorption from vapor phase and liquid phase are found to increase with temperature too.
The influence of carbon dioxide pressure on the surface tension and adsorption kinetics of the aforementioned surfactant aqueous solutions is investigated. To consider the effect of adsorption/desorption of the two species (surfactant and carbon dioxide) from both sides of a vapor/liquid interface on the surface tension, the modified Langmuir equation of state and the modified kinetic transfer equation are derived. The steady-state and dynamic surface tension data are modelled using the modified Langmuir equation of state and the modified kinetic transfer equation, respectively. The equilibrium constants and adsorption rate constants of surfactant and carbon dioxide are evaluated through a minimization procedure for CO2 pressures ranging from 0 to 690 KPa. From the steady-state modelling, the equilibrium parameters for surfactant and carbon dioxide adsorption from vapor phase and liquid phase are found unchanged for different pressures of carbon dioxide. From the dynamic modelling, the adsorption rate constants for surfactant and carbon dioxide are found to decrease with carbon dioxide pressure.
The role of carbon chain length of amphiphiles in aqueous solution is also studied. It is illustrated that the equilibrium constants for adsorption from both sides of a vapor/liquid interface increase from 1-butanol to 1-octanol. The modelling results show that the ratio of the equilibrium constant for adsorption from vapor phase to the equilibrium constant for adsorption from liquid phase declines from 260 to 26 as the chain length is increased from 1-butanol to 1-octanol. Therefore, the contribution to adsorption from liquid phase augments as the chain length is increased. The adsorption kinetics for this group of short carbon chain surfactants is modelled using a kinetic transfer equation. The modelling results show that the adsorption rate constants from vapor phase and liquid phase (kag and kal) increase from 1-butanol to 1-octanol. Steady-state and dynamic modelling also reveals that the maximum surface concentration increases with carbon chain length. These results may be due to the higher hydrophobicity character of a surfactant molecule at longer carbon chain length.
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Tensiometrische Stofftransportuntersuchungen der Zinkextraktion mit dem Kationenaustauscher Di(2-ethylhexyl)phosphorsäureKlapper, Peter 28 June 2010 (has links) (PDF)
Es werden die Gleichgewichtskonstanten der Zinkextraktion ermittelt. Das Wilson-Modell und das erweiterte Debye-Hückel-Gesetz werden zur Beschreibung der Aktivitäten verwendet. Die tensiometrischen Untersuchungen erfolgen am hängenden Tropfen. Die Modellauswahl zur Beschreibung der Gleichgewichtsgrenzflächenspannung erfolgt im submizellaren Konzentrationsbereich. Die pseudo-nichtionische Modellierung auf der Basis der Langmuir-Isothermen der Mehrkomponentenadsorption bei Verwendung der Stern-Isothermen für die Gegenionenanreicherung liefert die beste Datenanpassung. Durch ein einfaches Modell zur Mizell- und Aggregatbildung gelingt die Modellerweiterung. Die gemessenen dynamischen Grenzflächenspannungskurven werden sorptionskinetisch und durch diffusive Approximationen angepasst. Es zeigt sich, dass der Stofftransport diffusionsdirigiert ist. Am oszillierenden Tropfen werden die Ergebnisse bestätigt. Für das Kationenaustauscheranion wird die Gültigkeit des Maxwell-Modells zur Beschreibung der Grenzflächendilatationsrheologie nachgewiesen.
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Amine-Modified SBA-15 (Prepared by Co-condensation) for Adsorption of Copper from Aqueous SolutionsDa'na, Enshirah Azmi Mahmoud January 2012 (has links)
During the last few decades, concerns about water shortages and pollution have increased. Consequently, environmental legislations and regulations for wastewater discharge have been issued. The objective of this work was to contribute in developing an efficient dsorbent for removing heavy metal ions from wastewater. The thesis focused on evaluating amine-modified SBA-15 as copper and other heavy metal ions adsorbent, by determining a variety of adsorptive properties with the aim of gaining a deep understanding of its behavior and to outline its advantages and limitations.
The influence of synthesis conditions on the mesostructural stability of the resultant materials after different water treatments was
systematically investigated. N2 adsorption results indicated that the material prepared via co-condensation and aged at 100 ºC was not stable and lost its ordered mesoporous structure after contacting water even at room temperature. Aging at 130 ºC and addition of inorganic salts resulted in materials that maintained their mesporous structure under
different water treatments. The material synthesized in the presence of KCl was used as adsorbent for the rest of the thesis work. It was shown that the structural collapse observed in amine-modified SBA-15 prepared
by conventional method when contacted with aqueous solutions is associated with the drying process, and not the treatment itself. This structural collapse was avoided by replacing water with more volatile liquids such as acetone, before drying.
Amino-functionalized SBA-15 was tested for the removal of copper ions from aqueous solutions under different temperatures, pH, initial
concentrations and agitation speeds. The obtained results indicated that the amino-functionalized SBA-15 was very efficient and equilibrium was achieved in less than 30 min at room temperature. The adsorption capacity
increased dramatically with increasing temperature, initial copper concentration and pH. Under suitable conditions, the material exhibited high adsorption capacity even at very low copper concentration.
To further investigate the effect of dsorption parameters, a 24 factorial design experiments were used to screen the factors affecting the copper removal efficiency. All the parameters main effects were significant within a 95 % confidence level. Surface composite design was used to develop a reliable model representing the adsorption process. The statistical tests used proved the adequacy of the second order model. Optimization of the factors levels was carried out and the recommended optimum conditions are: copper concentration of 20 mg/L, adsorbent/solution ratio of 1.57 g/L, pH of 6.5, and T = 294 K with 95% copper removal.
The effect of regeneration conditions was investigated after three adsorption–desorption cycles, under different batchwise regeneration
conditions. Using a composite surface design methodology, the effect of the regeneration conditions on the performance of the adsorbent was investigated. It was found that all the studied parameters have a statistically significant influence on the working dsorption capacity.
With respect to structural properties and amine content, none of the factors was found to be significant. Regeneration using EDTA was found to be more efficient than acid treatment.
Amino-functionalized SBA-15 was studied as potential absorbent for Cd2 +, Co2 +, Cu2 +, Zn2 +, Pb2 +, Ni2 +, Al3+ and Cr3 +. The adsorption capacity and selectivity of the material were investigated in single and
multi-metal solutions. Using very dilute solutions, i.e., 10 ppm, more than 95% of cations were removed, except for Co2+ and Cr3 +, indicatingthe high sensitivity of the current adsorbent. The adsorption capacities
in multi-metal solutions were lower than in single-metal ones because of competition between metallic elements for the amine groups. The adsorbent was not affected in the presence of sodium, potassium, and calcium,
indicating that the ionic strength does not affect the adsorption properties. Application of this material to remove copper in tap water,
river water, and electroplating wastewater was shown to be successful. Dynamic experiments were carried out on the adsorption of copper ions in a laboratory packed-bed of amine-modified SBA-15. Breakthrough curves were
analyzed at different flowrates and after two adsorption-desorption cycles. Furthermore, a model based on mass balance was developed and tested for predicting the breakthrough curves under different experimental conditions used. The results suggested that the developed model was in
good agreement with the experimental data. Bed regeneration was performed by circulating 0.2 M EDTA solution through the column for 30 min.
Résumé
Durant les quelques dernières décennies, les préoccupations concernant les
pénuries d'eau et la pollution en général ont augmenté. Par conséquent,
des législations et des réglementations environnementales pour les rejets
d'eaux usées ont été introduites. L'objectif de ce travail était de
contribuer au développement d'un adsorbant efficace pour éliminer les ions
de métaux lourds des eaux usées. Cette thèse porte sur l'évaluation de
SBA-15 modifiée avec des amines comme adsorbant pour le cuivre et d'autres
ions de métaux lourds par la détermination d'une multitude de propriétés
d'adsorption dans le but d'acquérir une profonde compréhension de son
comportement et d’identifier ses avantages et ses limites.
L'influence des conditions de synthèse sur la stabilité des matériaux
mésoporeux obtenus après différents traitements a été étudié de façon
systématique. Les résultats d'adsorption de N2 ont indiqué que le matériel
préparé par co-condensation et vieilli à 100 °C n'était pas stable et a
perdu sa structure mésoporeuse ordonnée après avoir été en contact avec
l'eau même à température ambiante. Le vieillissement à 130 °C, avec ajout
de sels inorganiques, a abouti à des matériaux qui ont maintenu leur
structure mésoporeuse sous différents traitements en présence d'eau. Le
matériau synthétisé en présence de KCl a été utilisé comme adsorbant pour
le reste du travail de cette thèse. Il a été démontré que l'effondrement
de la structure observé dans la SBA-15 modifiée aux amines, préparée par
la méthode conventionnelle en contact avec des solutions aqueuses est
associé avec le processus de séchage, et non le traitement lui-même. Cet
effondrement de structure a été évité en remplaçant l'eau avec des
liquides plus volatils tels que l'acétone, avant le séchage.
La SBA-15 amino-fonctionnalisée a été testée pour l'élimination des ions
de cuivre des solutions aqueuses à différentes températures, pH,
concentrations initiales et vitesses d'agitation. Les résultats obtenus
ont indiqué que la SBA-15 amino-fonctionnalisée était très efficace et
l'équilibre a été atteint en moins de 30 min à température ambiante. La
capacité d'adsorption a considérablement augmenté avec la température, la
concentration initiale de cuivre et le pH. Sous des conditions
appropriées, le matériau a manifesté une grande capacité d'adsorption,
même à des concentrations très faibles en cuivre.
Afin d’étudier l'effet des paramètres d'adsorption, un plan factoriel de
24 expériences a été utilisé pour dépister les facteurs affectant
l'efficacité d'élimination du cuivre. Tous les effets principaux des
paramètres étaient importants à 95% de niveau de confiance. La
méthodologie de la surface composite a été utilisée pour développer un
modèle fiable qui représente le processus d'adsorption. Les tests
statistiques utilisés ont prouvé la pertinence du modèle de second ordre.
L’optimisation des niveaux des facteurs a été effectuée et les conditions
optimales recommandées sont: la concentration en cuivre de 20 mg/L, le
rapport adsorbant/solution de 1.57 g/L, pH de 6.5 et T = 294 K pour
l'élimination de 95% de cuivre.
L'effet des conditions de régénération a été étudié après trois cycles
d'adsorption-désorption, sous différentes conditions de régénération. En
utilisant la méthodologie de la surface composite, l'effet des conditions
de régénération sur la performance de l'adsorbant a été étudié. Il a été
constaté que tous les paramètres étudiés ont une influence statistiquement
significative sur la capacité de travail d'adsorption. En ce qui concerne
les propriétés structurelles et la teneur en amine, aucun des facteurs n’a
été jugé significatif. La régénération à l'aide d'EDTA a été jugée plus
efficace que le traitement acide.
La SBA-15 amino-fonctionnalisée a été étudiée comme absorbant potentiel de
Cd2+, Co2+, Cu2+, Zn2+, Pb2+, Ni2+, Al3+ and Cr3+. La capacité
d'adsorption et la sélectivité du matériau ont été étudiées dans des
solutions mono- et multi-métalliques. En utilisant des solutions très
diluées, soit 10 ppm, plus de 95% de cations ont été enlevés, sauf pour le
Co2+ et Cr3+, indiquant la forte sensibilité de l'adsorbant. Les capacités
d'adsorption dans les solutions multi-métalliques étaient inférieures à
celles des solutions mono-métalliques en raison de la concurrence entre
les éléments métalliques pour les groupes amine. L'adsorbant n'a pas été
affecté par la présence de sodium, de potassium et de calcium, ce qui
indique que la force ionique n'affecte pas les propriétés d'adsorption.
L’usage avec succès de ce matériau pour éliminer le cuivre dans l'eau de
robinet, l’eau de rivière et les eaux usées de galvanoplastie a été
démontré.
Des expériences dynamiques ont été réalisées sur l'adsorption des ions de
cuivre par la SBA-15 amine-modifiée sur une colonne à lit fixe de
laboratoire. Les courbes de perçage ont été analysées à des débits
différents et après deux cycles d'adsorption-désorption. De plus, un
modèle basé sur le bilan de matière a été développé et testé pour prédire
les courbes de perçage sous les différentes conditions expérimentales
utilisées. Les résultats suggèrent que le modèle développé est en bon
accord avec les données expérimentales. La régénération du lit a été
réalisée en faisant circuler une solution EDTA à 0.2 M à travers la
colonne pendant 30 min.
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Ispitivanje uticaja odabranih amida na adsorpciju nitro derivata fenola iz vodene sredine na aktivnom uglju / Investigation of selected amide influence on adsorption of nitro derivatives of phenol on activated carbon from waterKordić Branko 18 September 2019 (has links)
<p>U radu je ispitan uticaj amida kao modela AOM-a (Algalne organske materije) na adsorpciju nitrofenola iz vodene sredine na aktivnom uglju. Istraţivanje se sastojalo iz tri faze: ispitivanje uticaja karateristika amida na adsorpciju nitrofenola, ispitivanje uticaja granulacije na adsorpciju nitrofenola u prisustvu amida i ispitvanje karakterisitka samih nitrofenola na adsorpciju u prisustvu amida. Pre ispitivanja adsorpcije u dvokomponentnim sistemima ispitana je adsorpcija jednokomponentnih sistema 4-nitrofenola, 2,4-dinitrofenola i 2,4,6-trinitrofenola, kao i amida Nmetilbenzamid, nikotinamida i N-benzilbenzamida na komercijalnim aktivnim ugljevima NORIT SA2 i dve granulacije aktivnog uglja DARCO. Aktivni ugljevi su ispitani metodom FTIR spektroskopije, SEM analizom, analizom površine adsorpcijom azota na niskoj temperaturi i određivanjem taĉke nultog naelektrisanja. Urađena je geometrijska optimizacija modela molekula ispitivanih nitrofenola i amida i izraĉunati su molekulski parametri. Uticaj amida kao modela AOM-a je ispitan korišćenjem razliĉitih ravnotežnih i difuzionih adsorpcionih modela. Kao kriterijum za određivanje najsporije adsorpcione faze korišćen je Biotov broj.<br />Adsorpcioni parametri dobijeni u eksperimentima sa dvokomponentnim sistemima su upoređivani sa parametrima dobijenim za adsorpciju samih nitrofenola.</p> / <p>In this research influence of selected amides, as a model of AOM (Algal organic matter), on adsorption of nitrophenols from water on activated carbon has been<br />investigated. Research is divided in three phases: investigation of influence of amide molecule characteristics on the adsorption of nitrophenols, investigation of granulation influence on nitrophenol adsorption in the presence of amide and investigation of nitrophenol characteristics that can influence adsorption in the presence of amides. Adsorption of nitrophenols and amides in single- component systems has also been carried out. Adsorption kinetics of 4-nitrophenol, 2,4-dinitrophenol, 2,4,6-trinitrophenol, N-methylbenzamide,<br />nicotinamide and N-benzylbenzamide has also been investigated. Commercial activated carbons NORIT SA2 and two granulations of DARCO were used. Activated carbons were characterized using FTIR spectroscopy, SEM analysis, internal surface analysis using nitrogen adsorption on low temperature and determination of point of zero charge. Geometry optimization of nitrophenol and amide molecules has been carried out and different molecular parameters have been calculated. Influence of amides as AOM model has been investigated by using diffusion and equilibrium models. Biot number has been obtained in order to establish the limiting step in adsorption process. Adsorption parameters obtained in two-component adsorption systems were compared to parameters obtained for adsorption of nitrophenols alone.</p>
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Tensiometrische Stofftransportuntersuchungen der Zinkextraktion mit dem Kationenaustauscher Di(2-ethylhexyl)phosphorsäure: Tensiometrische Stofftransportuntersuchungen der Zinkextraktion mit dem Kationenaustauscher Di(2-ethylhexyl)phosphorsäureKlapper, Peter 09 June 2010 (has links)
Es werden die Gleichgewichtskonstanten der Zinkextraktion ermittelt. Das Wilson-Modell und das erweiterte Debye-Hückel-Gesetz werden zur Beschreibung der Aktivitäten verwendet. Die tensiometrischen Untersuchungen erfolgen am hängenden Tropfen. Die Modellauswahl zur Beschreibung der Gleichgewichtsgrenzflächenspannung erfolgt im submizellaren Konzentrationsbereich. Die pseudo-nichtionische Modellierung auf der Basis der Langmuir-Isothermen der Mehrkomponentenadsorption bei Verwendung der Stern-Isothermen für die Gegenionenanreicherung liefert die beste Datenanpassung. Durch ein einfaches Modell zur Mizell- und Aggregatbildung gelingt die Modellerweiterung. Die gemessenen dynamischen Grenzflächenspannungskurven werden sorptionskinetisch und durch diffusive Approximationen angepasst. Es zeigt sich, dass der Stofftransport diffusionsdirigiert ist. Am oszillierenden Tropfen werden die Ergebnisse bestätigt. Für das Kationenaustauscheranion wird die Gültigkeit des Maxwell-Modells zur Beschreibung der Grenzflächendilatationsrheologie nachgewiesen.
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Estudos de adsor??o de tetraciclina e cromoglicato em part?culas de quitosanaLima, Camila Renata Machado de 25 January 2013 (has links)
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Previous issue date: 2013-01-25 / Universidade Federal do Rio Grande do Norte / Among the polymers that stand out most in recent decades, chitosan, a
biopolymer with physico-chemical and biological promising properties has been the
subject of a broad field of research. Chitosan comes as a great choice in the field of
adsorption, due to their adsorbents properties, low cost and abundance. The presence of
amino groups in its chain govern the majority of their properties and define which
application a sample of chitosan may be used, so it is essential to determine their
average degree of deacetylation. In this work we developed kinetic and equilibrium
studies to monitor and characterize the adsorption process of two drugs, tetracycline
hydrochloride and sodium cromoglycate, in chitosan particles. Kinetic models and the
adsorption isotherms were applied to the experimental data. For both studies, the zeta
potential analyzes were also performed. The adsorption of each drug showed distinct
aspects. Through the studies developed in this work was possible to describe a kinetic
model for the adsorption of tetracycline on chitosan particles, thus demonstrating that it
can be described by two kinetics of adsorption, one for protonated tetracycline and
another one for unprotonated tetracycline. In the adsorption of sodium cromoglycate on
chitosan particles, equilibrium studies were developed at different temperatures,
allowing the determination of thermodynamic parameters / Dentre os pol?meros que mais se destacam nas ?ltimas d?cadas, a quitosana, um
biopol?mero com propriedades f?sico-qu?micas e biol?gicas promissoras, tem sido alvo
de um campo amplo de pesquisa. A quitosana se apresenta como uma ?tima escolha no
campo de adsor??o, devido a suas propriedades adsorventes, baixo custo e abund?ncia.
A presen?a de grupos aminos em sua cadeia governam a maioria das suas propriedades
e definem em qual aplica??o dada amostra de quitosana poder? ser utilizada, assim
torna-se imprescind?vel a determina??o do seu grau de desacetila??o m?dio. Neste
trabalho foram desenvolvidos estudos cin?ticos e de equil?brio a fim de monitorar e
caracterizar o processo de adsor??o de dois f?rmacos, o cloridrato de tetraciclina e o
cromoglicato de s?dio, em part?culas de quitosana. Modelos cin?ticos e de isotermas de
adsor??o foram aplicados nos dados experimentais. Para ambos os estudos, an?lises no
potencial zeta tamb?m foram realizadas. A adsor??o de cada f?rmaco apresentou
aspectos distintos. Atrav?s dos estudos desenvolvidos neste trabalho foi poss?vel
descrever um modelo cin?tico para a adsor??o de tetraciclina em part?culas de
quitosana, demonstrando que o mesmo pode ser descrito por duas cin?ticas de adsor??o,
uma para a tetraciclina protonada e outra para a tetraciclina n?o protonada. Na adsor??o
de cromoglicato de s?dio em part?culas de quitosana, estudos de equil?brio foram
desenvolvidos a diferentes temperaturas, permitindo a determina??o de par?metros
termodin?micos
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