Nanostructured Porous High Surface Area Ceramics for Catalytic Applications

Krawiec, Piotr

30 January 2007

In the present work new methods were developed for preparation of novel nanosized and nanostructured ceramic materials. Ordered mesoporous silica SBA-15 was found to be useful as a hard template for the nanocasting of silicon carbide and allowed the preparation of high temperature stable mesoporous silicon carbide ceramics. Chemical vapor infiltration of SBA-15 with dimethyldichlorosilane at elevated temperatures yields SiC/SBA-15 nanocomposites. The subsequent HF treatment of those composites resulted in silica removal and preparation of mesoporous silicon carbide with surface areas between 410 and 830 m2g-1 and high mesopore volume (up to 0.9 cm3g-1). The pore size (between 3 and 7nm in diameter) and surface area of mesoporous silicon carbide were controlled by adjusting the infiltration conditions (time, atmosphere). The mesoporous silicon carbide prepared via this method showed high structural thermal stability at 1300 oC, exceeding that of the SBA-15 template. However, the ordering on the mesoscopic scale was low. Nevertheless, highly ordered mesoporous silicon carbide materials were obtained via polymer melt infiltration in SBA-15. The low molecular weight polycarbosilane used as a preceramic precursor was converted at 1300 oC to silicon carbide inside the SBA-15, and after subsequent silica removal by HF, a highly ordered mesoporous material was obtained. Ordered mesoporous silicon carbide prepared by the methods reported here, may be an interesting material as a support due to its high temperature stability, chemical inertness, high thermal conductivity and semiconductor properties. In contrast to the nanocasting approach, based on the complete pore filling, also a new in-situ procedure for the preparation of finely dispersed metal and metal oxide particles inside ordered mesoporous silica was developed. A swelling agent (toluene) was used to deliver a hydrophobic platinum precursor into the surfactant micelles before addition of silica source. Such an in-situ method resulted in very high platinum incorporation (80-100%), not achieved for any other in-situ preparation procedures. Additionally, the presence of platinum allowed to decrease the template removal temperatures. Moreover, the method was also extended to other metal or metal oxide/ordered mesoporous silica systems. This may be especially interesting for the preparation of ordered mesoporous materials with low melting points, where typically the structure collapses during the high temperature calcinations process. The in-situ synthesized V2O5/MCM-41 materials were used to prepare VN/MCM-41 composites via nitridation in ammonia at 800oC. This method allowed to prepare highly dispersed, X-ray amorphous vanadium nitride species, with high activity in the propane dehydrogenation. Compared to nitridation of supported vanadium oxide prepared via the ex-situ procedure, in-situ synthesized materials showed similar catalytic activity, in spite of having significantly lower vanadium loading. As an alternative for the preparation of supported nitride materials, a novel preparation procedure of bulk not supported nanocrystalline vanadium nitride with high surface area was presented. Instead of pure oxide powder (which was typically used in the preparation of high surface area vanadium nitride catalysts), a macroporous amine intercalated V2O5 was used as the starting material. The obtained nitride consisted of small crystallites and had a surface area up to 198 m2g-1. Moreover, this foam-derived VN showed significantly improved activity as a catalyst in propane dehydrogenation. This novel preparation method could also be extended to other systems such as ternary VMoxNy nitrides.

mesoporous

MCM

catalysts

SBA

nanomaterials

nanoparticles

silicon carbide

high surface area

mesoporos

Nanomaterialien

Nanopartikel

Siliciumkarbid

ddc:540

rvk:VE 9857

Nanoporöser Stoff

Nanostrukturiertes Material

Nanopartikel

Siliciumcarbid

Amine-Modified SBA-15 (Prepared by Co-condensation) for Adsorption of Copper from Aqueous Solutions

Da'na, Enshirah Azmi Mahmoud

25 January 2012

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.

Adsorption

Heavy metals

SBA-15

Mesoporous silica

Co-condensation

Adsorbent stability

Adsorbent regeneration

Packed bed modeling

Experimental design methodology

Adsorption equilibrium

Adsorption kinetics

Preparação dos catalisadores MoO3/MCM-41 e MoO3/SBA-15 com fontes alternativas de sílica destinados à reação de transesterificação do óleo de soja.

PAULA, Gustavo Medeiros de.

19 October 2018

Submitted by Maria Medeiros (maria.dilva1@ufcg.edu.br) on 2018-10-19T13:06:58Z No. of bitstreams: 1 GUSTAVO MEDEIROS DE PAULA - DISSERTAÇÃO (PPGEQ) 2017.pdf: 3627178 bytes, checksum: f30200badddb75701ea0fec49346e30e (MD5) / Made available in DSpace on 2018-10-19T13:06:58Z (GMT). No. of bitstreams: 1 GUSTAVO MEDEIROS DE PAULA - DISSERTAÇÃO (PPGEQ) 2017.pdf: 3627178 bytes, checksum: f30200badddb75701ea0fec49346e30e (MD5) Previous issue date: 2017-03-30 / Capes / Este trabalho teve como objetivo sintetizar as peneiras moleculares MCM-41 e SBA-15, utilizando fontes alternativas de sílica, e preparar os catalisadores MoO3/MCM-41 e MoO3/SBA-15 e avaliar seu potencial catalítico na reação de transesterificação de óleo de soja para produção de biodiesel. As peneiras moleculares MCM-41 e SBA-15 foram sintetizadas empregando TEOS, argila chocolate B, cinzas de casca de arroz e pó de vidro como fontes de sílica. As fontes alternativas de sílica foram previamente dissolvidas em solução de NaOH (1 mol.L-1) a 100ºC por 6 horas. Em seguida, as misturas foram filtradas, e os filtrados contendo sílica dissolvida foram armazenados para posterior utilização nas sínteses das peneiras moleculares. As sínteses da MCM-41 ocorreram em duas etapas, o envelhecimento térmico ocorreu a 28 ºC por 2 horas e as sínteses hidrotérmicas ocorreram a 150 ºC por 96 horas. As sínteses da SBA-15 foram realizadas em duas etapas, o envelhecimento térmico ocorreu a 35 ºC por 24 horas e as sínteses hidrotérmicas ocorreram a 100 ºC por 48 horas. Os produtos das sínteses foram, lavados com água destilada e secos a 60 ºC por 24 horas. A deposição do MoO3 sobre os suportes MCM-41 e SBA-15 foi realizada por meio de impregnação úmida utilizando-se solução aquosa de Heptamolibdato de Amónio (0,1 mol.L-1), seguida de calcinação. As matérias-primas, assim como as peneiras moleculares e os catalisadores foram caracterizadas por Difração de raios X (DRX), Espectroscopia de Fluorescência de Raios X por Energia Dispersiva (FRX-ED), Microscopia eletrônica de Varredura (MEV) e Espectroscopia na Região de Infravermelho por Transformada de Fourier (FTIR). Os catalisadores foram avaliados na reação de transesterificação do óleo de soja com etanol em reator batelada sem agitação, com temperatura de 100 ºC durante 3 horas. Os resultados de DRX e FRX-ED das fontes de sílica mostram que todas são compostas por sílica amorfa e cristalina, evidenciando o potencial dos materiais. Os resultados de DRX, MEV e FTIR das peneiras moleculares mostraram a eficácia dos processos de síntese da MCM-41 e SBA-15 e dos catalisadores MoO3/MCM-41 e MoO3/SBA-15 com todas as fontes de sílica. Os biodieseis obtidos foram caracterizados utilizando técnicas de determinação de massa específica, viscosidade cinemática e índice de acidez. Os produtos gerados evidenciaram o poder catalítico dos catalisadores, porém revelaram que as condições reacionais empregadas são insuficientes para produção de biodiesel B100. / The study aimed to synthesize the MCM-41 and SBA-15 molecular sieves, using alternative silica sources, and to prepare the MoO3/MCM-41 and MoO3/SBA-15 catalysts and to evaluate their catalytic potential in the transesterification reaction of soybean for biodiesel production. The MCM-41 and SBA-15 molecular sieves were synthesized using TEOS, chocolate B clay, rice husk ash and glass powder as silica sources. The molecular sieves were synthesized using a hydrothermal method. Alternative silica sources were previously dissolved in NaOH solution (1 mol.L-1), filtered and the filtrates containing silica in the liquid phase were stored for further use in the molecular sieve synthesis. The MCM-41 synthesis occurred in two steps, the thermal ageing occurred at 28 °C for 2 hours and the hydrothermal synthesis occurred at 150 °C for 96 hours. The SBA-15 synthesis occurred in two steps, the thermal ageing occurred at 35 °C for 24 hours and the hydrothermal synthesis occurred at 100 °C for 48 hours. The synthesis products were washed with distilled water, filtered, dried at 60 °C for 24 hours and calcined at 550 °C for 7 hours.The MoO3 deposition on MCM-41 and SBA-15 support was performed by means of wetness impregnation using an aqueous solution of 0,1 mol.L-1 Ammonium Heptamolybdate. After the impregnation process, the material was subjected to calcination. The samples were characterized by X-ray diffraction (XRD), Energy Dispersive X-Ray Fluorescence Spectroscopy (ED-XRF), Scanning Electron Microscopy (SEM) and Fourier Transform Infrared Spectroscopy (FTIR). The catalysts were evaluated in the transesterification reaction of soybean oil with ethanol in a batch reactor without stirring at 100 ° C for 3 hours. The results of XRD and ED-XRF of the silica sources show that all are composed of amorphous and crystalline silica, evidencing the potential of the materials. The results of XRD, SEM and FTIR of the molecular sieves showed the efficiency of the synthesis of MCM-41 and SBA-15 and MoO3/MCM-41 and MoO3/SBA-15 catalysts with all silica sources. The biodiesel were characterized using techniques for determining specific mass, kinematic viscosity and acid index. The products generated evidenced the catalytic power of the catalysts, but revealed that the reaction conditions employed are insufficient for the production of B100 biodiesel.

Engenharia Química

MCM-41

SBA-15

Cinzas de Casca de Arroz

Argila Chocolate

Pó de Vidro

Biodiesel

Chocolate Clay

Rice Husk Ash

Glass Powder

Biofuel

Qualitative study exploring Maternity Ward Attendants' perceptions of occupational (work related) stress and the coping methods they adopted within maternity care settings (hospital) in Nigeria

Kuforiji, Oluwatoyosi A.

January 2017

Background: Occupational stress is a global and complex phenomenon, and workers in developing countries can be affected by it (International Labour Organisation 2001). Staff within maternity settings have been identified as being at risk of suffering from stress, resulting in adverse health outcomes (Evenden and Sharpe, 2002). However, MWAs’ perceptions of stress have not been captured and are not reflected in the literature. Purpose: The aim of this study was to explore MWAs’ perceptions of occupational stress, possible cause(s), the impact and support available and the coping methods they adopted within maternity care settings (hospital) in Nigeria. Methodology: This study adopted a qualitative methodology. Husserl’s (1962) phenomenological approach was chosen as it enabled the researcher to collect rich, in-depth, descriptive accounts of the MWAs’ perceptions of the phenomenon under study through the use of semi-structured interviews. Findings: The major sources of stress for MWAs included work overload, long working hours, staff shortages, work exploitation and intensification and lack of support from senior staff. The stress levels MWAs experienced impacted on their health and well-being and resulted in related behavioural and physical reactions. Conclusion: This study confirmed that MWAs were exposed to similar stress factors experienced by other health workers and reported in the research literature. Additionally, it demonstrated the need for more qualitative studies to explore the perceptions of occupational stress among under-represented groups of healthcare workers. Importantly, this study created an opportunity to explore the experience of dedicated women facing challenging employment practices in hospital settings in Nigeria. Equally, it gave a voice to these unrecognised, almost invisible women, who were the MWAs that played a key role within the maternity services.

Estudo da encapsulação do óleo essencial e extratos de Rosmarinus officinalis L. em sílica nanoestruturada SBA-15 e avaliação de sua liberação controlada in vitro

Andrade, Ana Paula Amorim [UNIFESP]

January 2013

Made available in DSpace on 2015-12-06T23:46:20Z (GMT). No. of bitstreams: 0 Previous issue date: 2013 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Associação Fundo de Incentivo à Psicofarmacologia (AFIP) / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / Oleos essenciais e extratos de plantas possuem substancias ativas instaveis a presenca de ar, luz, calor e umidade; materiais nanotecnologicos podem oferecer protecao e estabilidade termica a estes compostos naturais. A silica mesoporosa ordenada SBA-15 e considerada promissora na liberacao controlada de farmacos demonstrando ser uma boa matriz devido as suas propriedades de superficie (grandes area superficial especifica e volume de poros) e estrutural, assim como, alta estabilidade termica, hidrotermica e mecanica. O Rosmarinus officinalis L. (Alecrim), possui propriedades farmacologicas, tais como: estimulante digestivo, diuretico, cardiotonico, entre outros. Estudos recentes tem evidenciado sua utilizacao como um potencial antidepressivo. No presente estudo foi avaliado a encapsulacao de oleo essencial (OERO) e extratos: aquoso (EARO), hidroalcoolico (EHRO) e etanolico (EERO) de Rosmarinus officinalis L. utilizando SBA-15 como matriz. Com base nos resultados obtidos pelas tecnicas de Microscopia Eletronica de Varredura (MEV), Espectroscopia de Absorcao na Regiao do Infravermelho com Transformada de Fourier (FTIR), Analise Elementar (AE), Medidas de Adsorcao-Dessorcao de Nitrogenio, Termogravimetria/Termogravimetria Derivada (TG/DTG) e Calorimetria Exploratoria Diferencial (DSC) foi possivel confirmar a presenca dos extratos e do oleo essencial na SBA-15. A cromatografia liquida de alta efiCiência (CLAE) possibilitou identificar o acido cafeico na composicao do EHRO puro, porem nao foi possivel quantificar o mesmo presente nessa amostra de EHRO encapsulada na silica SBA-15 em teste de liberacao, devido a baixa concentracao desse acido presente na composicao quimica dessa amostra. Essa explicacao condiz, tambem, com a nao identificacao do acido cafeico nas amostras de EARO e EERO puras. Com base nos resultados obtidos, comprovou-se que o processo de encapsulacao do oleo essencial e dos extratos na silica mesoporosa SBA-15 foi efetivo, oferecendo protecao e estabilidade termica a esses produtos naturais. / BV UNIFESP: Teses e dissertações

SBA-15

Rosmarinus officinalis

Óleos Voláteis

Microscopia Eletrônica de Varredura

Microscopia Eletrônica de Transmissão

Extratos Vegetais

Dióxido de Silício

Cromatografia

Medicamentos Fitoterápicos

Fitoterapia

Cápsulas

Amine-Modified SBA-15 (Prepared by Co-condensation) for Adsorption of Copper from Aqueous Solutions

Da'na, Enshirah Azmi Mahmoud

January 2012

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.

Adsorption

Heavy metals

SBA-15

Mesoporous silica

Co-condensation

Adsorbent stability

Adsorbent regeneration

Packed bed modeling

Experimental design methodology

Adsorption equilibrium

Adsorption kinetics

Nanostructured Porous High Surface Area Ceramics for Catalytic Applications

Krawiec, Piotr

20 December 2006

In the present work new methods were developed for preparation of novel nanosized and nanostructured ceramic materials. Ordered mesoporous silica SBA-15 was found to be useful as a hard template for the nanocasting of silicon carbide and allowed the preparation of high temperature stable mesoporous silicon carbide ceramics. Chemical vapor infiltration of SBA-15 with dimethyldichlorosilane at elevated temperatures yields SiC/SBA-15 nanocomposites. The subsequent HF treatment of those composites resulted in silica removal and preparation of mesoporous silicon carbide with surface areas between 410 and 830 m2g-1 and high mesopore volume (up to 0.9 cm3g-1). The pore size (between 3 and 7nm in diameter) and surface area of mesoporous silicon carbide were controlled by adjusting the infiltration conditions (time, atmosphere). The mesoporous silicon carbide prepared via this method showed high structural thermal stability at 1300 oC, exceeding that of the SBA-15 template. However, the ordering on the mesoscopic scale was low. Nevertheless, highly ordered mesoporous silicon carbide materials were obtained via polymer melt infiltration in SBA-15. The low molecular weight polycarbosilane used as a preceramic precursor was converted at 1300 oC to silicon carbide inside the SBA-15, and after subsequent silica removal by HF, a highly ordered mesoporous material was obtained. Ordered mesoporous silicon carbide prepared by the methods reported here, may be an interesting material as a support due to its high temperature stability, chemical inertness, high thermal conductivity and semiconductor properties. In contrast to the nanocasting approach, based on the complete pore filling, also a new in-situ procedure for the preparation of finely dispersed metal and metal oxide particles inside ordered mesoporous silica was developed. A swelling agent (toluene) was used to deliver a hydrophobic platinum precursor into the surfactant micelles before addition of silica source. Such an in-situ method resulted in very high platinum incorporation (80-100%), not achieved for any other in-situ preparation procedures. Additionally, the presence of platinum allowed to decrease the template removal temperatures. Moreover, the method was also extended to other metal or metal oxide/ordered mesoporous silica systems. This may be especially interesting for the preparation of ordered mesoporous materials with low melting points, where typically the structure collapses during the high temperature calcinations process. The in-situ synthesized V2O5/MCM-41 materials were used to prepare VN/MCM-41 composites via nitridation in ammonia at 800oC. This method allowed to prepare highly dispersed, X-ray amorphous vanadium nitride species, with high activity in the propane dehydrogenation. Compared to nitridation of supported vanadium oxide prepared via the ex-situ procedure, in-situ synthesized materials showed similar catalytic activity, in spite of having significantly lower vanadium loading. As an alternative for the preparation of supported nitride materials, a novel preparation procedure of bulk not supported nanocrystalline vanadium nitride with high surface area was presented. Instead of pure oxide powder (which was typically used in the preparation of high surface area vanadium nitride catalysts), a macroporous amine intercalated V2O5 was used as the starting material. The obtained nitride consisted of small crystallites and had a surface area up to 198 m2g-1. Moreover, this foam-derived VN showed significantly improved activity as a catalyst in propane dehydrogenation. This novel preparation method could also be extended to other systems such as ternary VMoxNy nitrides.

info:eu-repo/classification/ddc/540

ddc:540

Qualitative study exploring Maternity Ward Attendants’ perceptions of occupational (work related) stress and the coping methods they adopted within maternity care settings (hospital) in Nigeria

Kuforiji, Oluwatoyosi A.

January 2017

Background: Occupational stress is a global and complex phenomenon, and workers in developing countries can be affected by it (International Labour Organisation 2001). Staff within maternity settings have been identified as being at risk of suffering from stress, resulting in adverse health outcomes (Evenden and Sharpe, 2002). However, MWAs’ perceptions of stress have not been captured and are not reflected in the literature. Purpose: The aim of this study was to explore MWAs’ perceptions of occupational stress, possible cause(s), the impact and support available and the coping methods they adopted within maternity care settings (hospital) in Nigeria. Methodology: This study adopted a qualitative methodology. Husserl’s (1962) phenomenological approach was chosen as it enabled the researcher to collect rich, in-depth, descriptive accounts of the MWAs’ perceptions of the phenomenon under study through the use of semi-structured interviews. Findings: The major sources of stress for MWAs included work overload, long working hours, staff shortages, work exploitation and intensification and lack of support from senior staff. The stress levels MWAs experienced impacted on their health and well-being and resulted in related behavioural and physical reactions. Conclusion: This study confirmed that MWAs were exposed to similar stress factors experienced by other health workers and reported in the research literature. Additionally, it demonstrated the need for more qualitative studies to explore the perceptions of occupational stress among under-represented groups of healthcare workers. Importantly, this study created an opportunity to explore the experience of dedicated women facing challenging employment practices in hospital settings in Nigeria. Equally, it gave a voice to these unrecognised, almost invisible women, who were the MWAs that played a key role within the maternity services.

Coping

Health outcomes

Health and wellbeing

Maternity ward

Skilled birth attendant (SBA)

Nigeria

Occupational stress

Perceptions

Support

Workload

Work stressors

Maternity ward attendants (MWAs)

Synthesis, adsorption and structural properties of carbons with uniform and ordered mesopores

Gierszal, Kamil Piotr

09 April 2008

No description available.

Chemistry

mesoporous carbons

inverse replication

hard templating

OMC

CMK-3

CMK-5

mesoporous silicas

OMS

SBA-15

MCM-48

KIT-6

colloids

colloidal crystal

nanomaterials

gas adsorption

Applying an information system framework to the Army's simulation support plan process

Boerjan, Robert A.

01 April 2003

No description available.

Engineering

Industrial Engineering