Mécanismes d’élimination du phosphore dans un réacteur garni d’un mélange de limaille de fer et de sable / Study of the mechanism of phosphate removal using bed reactor filled with a mixture of Zero valent iron and sand

Sleiman, Nathalie

22 March 2016

La présence excessive des phosphates est la cause de l’apparition du problème d’eutrophisation dans les eaux douces et responsable de la détérioration des écosystèmes aquatiques. Différents procédés de traitement des eaux (biologique, physico-chimique) permettent l’élimination des phosphates. L’objectif global de cette thèse est l’étude des mécanismes physico chimiques associés à la rétention des phosphates par sorption sur des produits d’oxydation de la limaille de fer micrométrique et le développement du procédé correspondant. Le choix de ce matériau réside dans sa disponibilité, son faible coût et l’absence de toxicité dans les conditions mises en oeuvre. Afin de pouvoir par la suite proposer un système de traitement opérationnel, dans un premier temps des séries d’expériences en batch ont été menées pour évaluer l’efficacité de la limaille de fer et ces sous-produits synthétisés pour l’élimination des phosphates. L’influence des conditions expérimentales (vieillissement ou phase de pré-conditionnement, concentrations en oxygène dissous, en nitrates, sulfates, matière organique, pH initial, force ionique, vitesse d’agitation) a été évaluée. En parallèle des caractérisations physico chimiques des solides ont été menées dans le but de déterminer la nature et les caractéristiques des sous-produits synthétisés. Dans un second temps, des études en réacteur continu ont été réalisées dans une démarche de complexité croissante pour comprendre le fonctionnement des colonnes garnies de sable/limaille de fer. Les sous-produits synthétisés et relargués en solution en conditions contrôlées (teneur en oxygène dissous ; vieillissement de 40h et 6j) ont montré une plus faible capacité de piégeage pour l’élimination des phosphates (2,3 à 3,8 mgP/gFe) en comparaison avec la capacité retenue par la totalité du système Fe0/sous-produits, dont les capacités ont pu atteindre 35 mgP/gFe. La durée de l’oxydation avant contact avec les phosphates (vieillissement) a une influence remarquable sur l’efficacité de la limaille de fer. Au-delà de 24h, plus le temps de vieillissement est grand, plus l’efficacité des sous-produits diminue, ce qui est expliqué par l’augmentation de la cristallinité des sous-produits de la limaille de fer, ces derniers étant moins réactifs que les formes amorphes. Cependant, une phase de pré-conditionnement d’une durée comprise entre 2h et 24h améliore nettement la rétention des phosphates par la limaille de fer car elle permet la génération d’une couche d’oxydes active en fonction du temps à la surface. Le contact direct de la limaille avec les phosphates, étant donné leur rôle dans la passivation, conduit à limiter la corrosion par la formation d’une couche de passivation compacte à la surface de la limaille de fer. La couche d’oxydes à la surface de la limaille de fer et les sous-produits relargués en solution sont formés par un mélange de lépidocrocite, maghémtite et /ou magnétite et des traces de goethite. Le mécanisme d’élimination des phosphates à la surface des sous-produits se base sur une adsorption spécifique par formation d’un complexe de sphère interne. La distribution des phosphates le long de la colonne a montré une forte dépendance de la concentration en oxygène dissous; elle évolue au cours du temps, elle est hétérogène en début d’expérimentation, puis devient homogène à saturation, avec une capacité maximale de 152 mgP/gFe dans les conditions opératoires appliquées ([P] = 20mg/L, [NaCl] = 0,01M, T° = 22°C, v = 0,12m/h). L’analyse du support solide a confirmé les résultats relatifs à la distribution des phosphates dans les réacteurs et a montré que les phosphates sont majoritairement associés aux fractions amorphes du fer. L’ensemble des résultats obtenus confirme l’intérêt d’utiliser la limaille de fer pour le traitement des phosphates dans les eaux. / The excessive presence of phosphate in water is the cause of the occurrence of the problem of eutrophication in freshwater represented by the deterioration of the aquatic ecosystem. Various water treatment processes allow the removal of phosphate (biological and physico-chemical). The global objective of this thesis is the study of the physico-chemical mechanisms associated with phosphate removal from water using iron byproducts synthesized from the oxidation of micrometric zero valent iron and the development of corresponding process. Zero valent iron was chosen for its availability, low cost, and the absence of toxicity under the conditions applied. In order to subsequently propose an operational processing system, firstly a series of batch experiments were conducted to evaluate the efficacy of iron filings and its by-products synthesized for the elimination of phosphate. The influence of experimental conditions (aging or pre-conditioning phase, dissolved oxygen, nitrates, sulfates, organic matter, initial pH, ionic strength, stirring rate) was studied. In parallel physico-chemical characterizations of the solid were conducted in order to determine the nature and characteristics of synthesized byproducts. Secondly, continuous reactor studies were conducted in an increasingly complex approach in order to understand the behavior and performance of the columns packed with sand/ZVI. The synthesized byproducts flaked into the solution (under controlled conditions of oxygen and aging time 40h, 6g) showed a lower capacity trapping for phosphate removal (2.3 to 3.8 mgP/gFe) compared to phosphate removal capacity of the entire system Fe0/by-products, whose capacity can reach 35 mgP/gFe. The oxidation phase prior to the contact with phosphate (aging time) has a remarkable influence on the efficiency of iron filings. Beyond the preconditioning phase of 24 hours, as aging time increases, the efficiency of the byproducts decreases, which is explained by the increases of the crystallinity of the by-products over time, as being less reactive than amorphous forms. However, the pre-conditioning time between 2h and 24 hours improves clearly the retention of phosphate by ZVI as this phase allows the synthesis of an active oxide layer. Direct contact between the iron fillings and phosphate, taking into account their role in the passivation, leads to a limitation of the corrosion by forming a compact passive layer at the surface of ZVI. The oxide layer at the surface of ZVI and the byproducts flaked off to the solution are formed by a mixture of lepidocrocite, maghemtite and/or magnetite and traces of goethite. The phosphate removal on the surface of the byproducts is based on a specific adsorption by forming an inner sphere complex. The reactivity in the columns showed a strong dependence on the presence and the concentration of oxygen; the decrease in phosphate retention along the column, evolves over time from heterogeneous towards a homogeneous trapping of P with a maximum capacity of 152 mgP/gFe in the applied process conditions ([P] = 20mg / L, [NaCl] = 0.01 M, T = 22 ° C, v = 0.12M / h). The solid support analysis also confirmed the results related to the distribution of phosphate along the reactors, and showed that phosphate are predominantly associated with amorphous iron fractions.The overall results confirm the interest of using iron filings for the treatment of phosphate in water.

Phosphate

Limaille de fer

Sorption

Mécanismes

Réacteurs batch et colonne

Phosphate

Zero valent iron

Sorption

Mechanism

Batch and column reactors

628.5

Mapping of the Chromium and Iron Pyrazolate Landscape

Lopez, Jessica Maria

17 October 2018

The main objective of this project is to synthesize the first family of polynuclear chromium pyrazolate complexes. Complexity in analysis of the experimental magnetic data of multinuclear complexes arises from their (2S +1)N microstates, where S is the spin of each metal center and N is the number of metal centers. For example, high-spin (HS)-FeIII3 has 216 microstates and HS-FeIII8 ≈ 1.7x106 microstates (S= 5/2). However, complexes with chromium(III) S = 3/2 will have a noticeable reduction of microstates. Mononuclear complexes with formula [mer-CrCl3(pzH*)3] (pz*H = pyrazole, 3-Me-pzH, 4-Me-pzH, 4-Cl-pzH, 4-I-pzH, 4-Br-pzH) and [trans-CrCl2(pzH*)4]Cl (pzH* = pyrazole and 3-Me-pzH) were synthesized and thoroughly characterized. Polynuclear iron pyrazolate complexes are prepared by the addition of base to [mer-FeCl3(pzH*)3] and [trans-FeCl2(pzH*)4]Cl complexes; the path is not paralleled by mononuclear chromium(III) pyrazole complexes. There is a challenging situation with these reactions, caused by the attainment of equilibrium, where the stable mononuclear complexes and traces of dinuclear species coexist in solution. Microwave assisted reaction of Cr(NO3)3·9H2O and pyrazole ligand in dimethylformamide (DMF) solution afforded redox inactive trinuclear formate-pyrazolate mixed-ligand complexes with formula [Cr3(μ3-O)(μ-O2CH)3(μ-4-R-pz)3(DMF)3]+ (pz = pyrazolate anion; R= H, Me, Cl). Thermally assisted synthesis with non-hydrolysable solvent yielded an electrochemically active all-pyrazolate complex. Complex with formula (Ph4P)2[Cr3(μ3-O)(μ-4-Cl-pz)6Cl3] and (Ph4P)2[Cr3(μ3-O)(μ-4-Cl-pz)6Br3] have an oxidation process at 0.502 V at 0.332 V, respectively. The latter has a second accessed oxidation process at 0.584 V. These systems are the first example of electrochemically amendable trinuclear pyrazolate complex with {Cr3O} core. The all-ferric complexes [Fe3(μ3-O)(μ-4-NO2-pz)6(L)3]2- (L = NCO-, N3) were synthesized from reaction of [Fe3(μ3-O)(μ-4-NO2-pz)6Cl3]2- with NaNCO and NaN3. Expected reversible reduction processes were observed for both complexes at more negative potential, -0.70 V, compared to the thiocyanate complex (-0.36 V). The 57Fe Mössbauer of the reduced [Fe3(μ3-O)(μ-4-NO2-pz)6(N3)3]3- is suggestive of a HS-to-LS electronic reorganization, as seen for the [Fe3(μ3-O)(μ-4-NO2-pz)6(SCN)3]3- complex. Furthermore, compound [Fe3(μ3-O)(μ-4-NO2-pz)6(N3)3]2-, shows a unique reversible oxidation process at 0.82 V (vs. Fc+/Fc) to a mixed-valent, formally Fe3+2/Fe4+ species.

Pyrazole

Pyrazolate

Chromium

Iron

Trinuclear Complexes

Ferric Compounds

Mixed-valent iron

Crystallography

X-Ray

Electrochemistry

EPR

Dynamic NMR

Inorganic Chemistry

Effect of biotic degradation of halogenated aliphatic compounds on zero-valent iron

Sfeir, Hala A.

01 April 2003

No description available.

Civil and Environmental Engineering

Engineering

Análise do impacto na redução de pneumonia adquirida na comunidade em crianças após a introdução da vacina antipneumocócica 10-valente no Programa Nacional de Imunização / Impact Analysis in reducing pneumonia acquired in the community in children after the introduction of 10-valent pneumococcal vaccine in the National Immunization Program

Silva, Sandra Rodrigues da

31 March 2015

O Streptococcus pneumoniae (pneumococo) constitui um dos mais importantes patógenos bacterianos do trato respiratório, podendo causar infecções invasivas e não invasivas, levando a altas taxas de morbimortalidade, particularmente em crianças menores de cinco anos de idade. A bactéria ganha acesso ao hospedeiro através da colonização da nasofaringe, que representa um importante reservatório para a transmissão deste patógeno na comunidade, contribuindo para a disseminação horizontal de pneumococo entre os indivíduos de uma população. As doenças respiratórias causadas por pneumococo constituem em uma das prioridades atuais em Saúde Pública, recebendo atenção destacada das organizações internacionais da área da saúde, como a Organização Mundial da Saúde. No presente trabalho procura-se conhecer e avaliar a ocorrência da pneumonia adquirida na comunidade (PAC) antes e após a implantação no Calendário Vacinal da Vacina Pneumocócica-10 Valente Conjugada em 2010, na área de abrangência da Superintendência Regional de Saúde (SRS) de Alfenas/MG. Foi realizado um estudo ecológico com componente temporal que incluiu registros de crianças menores que um ano de idade, vacinadas e não vacinadas com a vacina antipneumocócica 10-valente conjugada, no período pré e pós inclusão da vacina no PNI nos municípios da Superintendência Regional de Saúde (SRS) de Alfenas/MG, sendo a vacinação o fator de exposição e a ocorrência de PAC o desfecho, utilizando dados anuais secundários por município para cálculo da cobertura vacinal e das taxas de morbidade por pneumonia em menores de um ano no período de 2007 a 2013. Considerando se os 26 municípios da SRS de Alfenas, houve redução significativa do número de casos de PAC em crianças abaixo de um ano de idade, cuja Razão de Prevalência foi de 0,81 (IC95%: 0,74 0,89; p<0,05). Mesmo com um tempo reduzido de uso, a vacina pneumocócica conjugada 10 valente apresentou um impacto relevante na redução de PAC em crianças, ajustada por cobertura vacinal no período pós vacinação (2011-2013), sendo estatisticamente significativa na maioria dos municípios, o que sugere a efetividade da vacina PCV-10 na prevenção de casos da doença em crianças menores de um ano de idade. / The Streptococcus pneumoniae (pneumococcus) is one of the most important bacterial pathogens of the respiratory tract, may cause invasive and non-invasive infections, leading to high morbidity and mortality rates, particularly in children under five years of age. The bacteria gain access to the host through the nasopharyngeal colonization, which is an important reservoir for the transmission of this pathogen in the community, contributing to the horizontal spread among individuals in a population. Respiratory diseases caused by pneumococcus are in one of the current priorities in Public Health, receiving outstanding attention of international organizations in the health field, such as the World Health Organization. In the present study we aimed to understand and evaluate the occurrence of community acquired pneumonia (CAP) before and after implantation in 10- valent pneumococcal conjugate vaccine in 2010, on the coverage area of the Regional Health Service (SRS) of Alfenas / MG. An ecological study with temporal component was conducted which included records of children under one year old, vaccinated and not vaccinated with 10-valent pneumococcal conjugate vaccine, before and after period inclusion of the vaccine in PNI, in the municipalities of SRS of Alfenas / MG, with vaccination the exposure factor and the occurrence of CAP the outcome, using annual data side by municipality to calculate vaccination coverage and pneumonia morbidity in children under one year old, in the period 2007 to 2013. Considering the 26 municipalities of SRS Alfenas, there was a significant reduction in the number of CAP cases in children under one year old. The prevalence ratio was 0.81 (95%CI: 0.74 - 0.89; p<0.05). Even with a short period of use, the 10-valent pneumococcal conjugate vaccine had a significant impact on the reduction of CAP in children, adjusted for immunization coverage in the post vaccination period (2011-2013) and was statistically significant in most municipalities, which suggests the effectiveness of PCV-10 vaccine in preventing cases of the disease in children under one year of age.

10-valent pneumococcal conjugate vaccine

Community Acquired Pneumonia

Immunization

Imunização

Pneumonia adquirida na comunidade

Streptococcus pneumoniae

Streptococcus pneumoniae

Análise do impacto na redução de pneumonia adquirida na comunidade em crianças após a introdução da vacina antipneumocócica 10-valente no Programa Nacional de Imunização / Impact Analysis in reducing pneumonia acquired in the community in children after the introduction of 10-valent pneumococcal vaccine in the National Immunization Program

Sandra Rodrigues da Silva

31 March 2015

O Streptococcus pneumoniae (pneumococo) constitui um dos mais importantes patógenos bacterianos do trato respiratório, podendo causar infecções invasivas e não invasivas, levando a altas taxas de morbimortalidade, particularmente em crianças menores de cinco anos de idade. A bactéria ganha acesso ao hospedeiro através da colonização da nasofaringe, que representa um importante reservatório para a transmissão deste patógeno na comunidade, contribuindo para a disseminação horizontal de pneumococo entre os indivíduos de uma população. As doenças respiratórias causadas por pneumococo constituem em uma das prioridades atuais em Saúde Pública, recebendo atenção destacada das organizações internacionais da área da saúde, como a Organização Mundial da Saúde. No presente trabalho procura-se conhecer e avaliar a ocorrência da pneumonia adquirida na comunidade (PAC) antes e após a implantação no Calendário Vacinal da Vacina Pneumocócica-10 Valente Conjugada em 2010, na área de abrangência da Superintendência Regional de Saúde (SRS) de Alfenas/MG. Foi realizado um estudo ecológico com componente temporal que incluiu registros de crianças menores que um ano de idade, vacinadas e não vacinadas com a vacina antipneumocócica 10-valente conjugada, no período pré e pós inclusão da vacina no PNI nos municípios da Superintendência Regional de Saúde (SRS) de Alfenas/MG, sendo a vacinação o fator de exposição e a ocorrência de PAC o desfecho, utilizando dados anuais secundários por município para cálculo da cobertura vacinal e das taxas de morbidade por pneumonia em menores de um ano no período de 2007 a 2013. Considerando se os 26 municípios da SRS de Alfenas, houve redução significativa do número de casos de PAC em crianças abaixo de um ano de idade, cuja Razão de Prevalência foi de 0,81 (IC95%: 0,74 0,89; p<0,05). Mesmo com um tempo reduzido de uso, a vacina pneumocócica conjugada 10 valente apresentou um impacto relevante na redução de PAC em crianças, ajustada por cobertura vacinal no período pós vacinação (2011-2013), sendo estatisticamente significativa na maioria dos municípios, o que sugere a efetividade da vacina PCV-10 na prevenção de casos da doença em crianças menores de um ano de idade. / The Streptococcus pneumoniae (pneumococcus) is one of the most important bacterial pathogens of the respiratory tract, may cause invasive and non-invasive infections, leading to high morbidity and mortality rates, particularly in children under five years of age. The bacteria gain access to the host through the nasopharyngeal colonization, which is an important reservoir for the transmission of this pathogen in the community, contributing to the horizontal spread among individuals in a population. Respiratory diseases caused by pneumococcus are in one of the current priorities in Public Health, receiving outstanding attention of international organizations in the health field, such as the World Health Organization. In the present study we aimed to understand and evaluate the occurrence of community acquired pneumonia (CAP) before and after implantation in 10- valent pneumococcal conjugate vaccine in 2010, on the coverage area of the Regional Health Service (SRS) of Alfenas / MG. An ecological study with temporal component was conducted which included records of children under one year old, vaccinated and not vaccinated with 10-valent pneumococcal conjugate vaccine, before and after period inclusion of the vaccine in PNI, in the municipalities of SRS of Alfenas / MG, with vaccination the exposure factor and the occurrence of CAP the outcome, using annual data side by municipality to calculate vaccination coverage and pneumonia morbidity in children under one year old, in the period 2007 to 2013. Considering the 26 municipalities of SRS Alfenas, there was a significant reduction in the number of CAP cases in children under one year old. The prevalence ratio was 0.81 (95%CI: 0.74 - 0.89; p<0.05). Even with a short period of use, the 10-valent pneumococcal conjugate vaccine had a significant impact on the reduction of CAP in children, adjusted for immunization coverage in the post vaccination period (2011-2013) and was statistically significant in most municipalities, which suggests the effectiveness of PCV-10 vaccine in preventing cases of the disease in children under one year of age.

Imunização

Pneumonia adquirida na comunidade

Streptococcus pneumoniae

10-valent pneumococcal conjugate vaccine

Community Acquired Pneumonia

Immunization

Streptococcus pneumoniae

Some Aspects of Arsenic and Antimony Geochemistry in High Temperature Granitic Melt – Aqueous Fluid System and in Low Temperature Permeable Reactive Barrier – Groundwater System

Guo, Qiang

30 January 2008

Arsenic and antimony are important trace elements in magmatic-hydrothermal systems, geothermal systems and epithermal deposits, but their partitioning behavior between melt and aqueous fluid is not well understood. The partitioning of arsenic and antimony between aqueous fluid and granitic melt has been studied in the system SiO2-Al2O3-Na2O-K2O-H2O at 800 degree C and 200 MPa. The partition coefficients of As and Sb between aqueous fluid and melt, are 1.4 +- 0.5 and 0.8 +- 0.5, respectively. The partitioning of As is not affected by aluminum saturation index (ASI) or SiO2 content of the melt, or by oxygen fugacity under oxidized conditions (log fO2 > the nickel-nickel oxide buffer, NNO). The partitioning of Sb is independent of and SiO2 content of the melt. However, aluminum saturation index (ASI) does affect Sb partitioning and Sb partition coefficient for peralkaline melt (0.1 +- 0.01) is much smaller than that for metaluminous melts (0.8 +- 0.4) and that for peraluminous melts (1.3 +- 0.7). Thermodynamic calculations show that As(III) is dominant in aqueous fluid at 800 degree C and 200 MPa and XPS analysis of run product glass indicate that only As(III) exists in melt, which confirms the finding that does not affect As partitioning between fluid and melt. XPS analysis of run product glass show that Sb(V) is dominant in melt at oxidized conditions (log fO2 > -10). The peralkaline effect only exhibits on Sb partitioning, not on As partitioning at oxidized conditions, which is consistent with the x-ray photoelectron spectroscopy (XPS) measurements that As(III) and Sb(V) are dominant oxidation states in melt under oxidized conditions, because the peralkaline effect is stronger for pentavalent than trivalent cations. Permeable reactive barriers (PRBs) are an alternative technology to treat mine drainage containing sulfate and heavy metals. Two column experiments were conducted to assess the suitability of an organic carbon (OC) based reactive mixture and an Fe0-bearing organic carbon (FeOC) based reactive mixture, under controlled groundwater flow conditions. The organic carbon (OC) column showed an initial sulfate reduction rate of 0.4 μmol g(oc)-1 d-1 and exhausted its capacity to promote sulfate reduction after 30 pore volumes (PVs), or 9 months of flow. The Fe0-bearing organic carbon (FeOC) column sustained a relative constant sulfate reduction rate of 0.9 μmol g(oc)-1 d-1 for at least 65 PVs (17 months). The microbial enumerations and isotopic measurements indicate that the sulfate reduction was mediated by sulfate reducing bacteria (SRB). The cathodic production of H2 by anaerobic corrosion of Fe probably is the cause of the difference in sulfate reduction rates between the two reactive mixtures. Zero-valent iron can be used to provide an electron donor in sulfate reducing PRBs and Fe0-bearing organic carbon reactive mixture has a potential to improve the performance of organic carbon PRBs. The δ34S values can be used to determine the extent of sulfate reduction, but the fractionation is not consistent between reactive materials. The δ13C values indicate that methanogenesis is occurring in the front part of both columns. Arsenic and antimony in groundwater are great threats to human health. The PRB technology potentially is an efficient and cost-effective approach to remediate organic and inorganic contamination in groundwater. Two column experiments were conducted to assess the rates and capacities of organic carbon (OC) PRB and Fe-bearing organic carbon (FeOC) PRB to remove As and Sb under controlled groundwater flow conditions. The average As removal rate for the OC column was 13 nmole day-1 g-1 (dry weight of organic carbon) and its removal capacity was 11 μmole g-1 (dry weight of organic carbon). The remove rate of the FeOC material was 165 nmole day-1 g-1 (dry weight of organic carbon) and its minimum removal capacity was 105 mole g-1 (dry weight of organic carbon). Antimony removal rate of the OC material decreases from 8.2 to 1.4 nmole day-1 g-1 (dry weight of organic carbon) and its removal capacity is 2.4 μmole g-1 (dry weight of organic carbon). The minimum removal rate of FeOC material is 13 nmole day-1 g-1 (dry weight of organic carbon) and its minimum removal capacity is 8.4 μmole g-1 (dry weight of organic carbon). The As(III) : [As(III)+As(V)] ratio increased from 1% in the influent to 50% at 5.5 cm from the influent end, and to 80% at 15.5 cm from the influent end of the OC column. X-ray absorption near edge spectroscopy (XANES) shows As(III)-sulfide species on solid samples. These results suggest that As(V) is reduced to As(III) both in pore water and precipitate as As sulfides or coprecipitate with iron sulfides. The arsenic reduction rate suggests that As(V) reduction is mediated by bacterial activity in the OC column and that both abiotic reduction and bacterial reduction could be important in FeOC.

arsenic

antimony

partition coefficient

granitic melt

aqueous fluid

permeable reactive barrier

zero valent iron

organic carbon

sulfate reducing bacteria

delta 34S

delta 13C

remediation

Earth Sciences

Some Aspects of Arsenic and Antimony Geochemistry in High Temperature Granitic Melt – Aqueous Fluid System and in Low Temperature Permeable Reactive Barrier – Groundwater System

Guo, Qiang

30 January 2008

Arsenic and antimony are important trace elements in magmatic-hydrothermal systems, geothermal systems and epithermal deposits, but their partitioning behavior between melt and aqueous fluid is not well understood. The partitioning of arsenic and antimony between aqueous fluid and granitic melt has been studied in the system SiO2-Al2O3-Na2O-K2O-H2O at 800 degree C and 200 MPa. The partition coefficients of As and Sb between aqueous fluid and melt, are 1.4 +- 0.5 and 0.8 +- 0.5, respectively. The partitioning of As is not affected by aluminum saturation index (ASI) or SiO2 content of the melt, or by oxygen fugacity under oxidized conditions (log fO2 > the nickel-nickel oxide buffer, NNO). The partitioning of Sb is independent of and SiO2 content of the melt. However, aluminum saturation index (ASI) does affect Sb partitioning and Sb partition coefficient for peralkaline melt (0.1 +- 0.01) is much smaller than that for metaluminous melts (0.8 +- 0.4) and that for peraluminous melts (1.3 +- 0.7). Thermodynamic calculations show that As(III) is dominant in aqueous fluid at 800 degree C and 200 MPa and XPS analysis of run product glass indicate that only As(III) exists in melt, which confirms the finding that does not affect As partitioning between fluid and melt. XPS analysis of run product glass show that Sb(V) is dominant in melt at oxidized conditions (log fO2 > -10). The peralkaline effect only exhibits on Sb partitioning, not on As partitioning at oxidized conditions, which is consistent with the x-ray photoelectron spectroscopy (XPS) measurements that As(III) and Sb(V) are dominant oxidation states in melt under oxidized conditions, because the peralkaline effect is stronger for pentavalent than trivalent cations. Permeable reactive barriers (PRBs) are an alternative technology to treat mine drainage containing sulfate and heavy metals. Two column experiments were conducted to assess the suitability of an organic carbon (OC) based reactive mixture and an Fe0-bearing organic carbon (FeOC) based reactive mixture, under controlled groundwater flow conditions. The organic carbon (OC) column showed an initial sulfate reduction rate of 0.4 μmol g(oc)-1 d-1 and exhausted its capacity to promote sulfate reduction after 30 pore volumes (PVs), or 9 months of flow. The Fe0-bearing organic carbon (FeOC) column sustained a relative constant sulfate reduction rate of 0.9 μmol g(oc)-1 d-1 for at least 65 PVs (17 months). The microbial enumerations and isotopic measurements indicate that the sulfate reduction was mediated by sulfate reducing bacteria (SRB). The cathodic production of H2 by anaerobic corrosion of Fe probably is the cause of the difference in sulfate reduction rates between the two reactive mixtures. Zero-valent iron can be used to provide an electron donor in sulfate reducing PRBs and Fe0-bearing organic carbon reactive mixture has a potential to improve the performance of organic carbon PRBs. The δ34S values can be used to determine the extent of sulfate reduction, but the fractionation is not consistent between reactive materials. The δ13C values indicate that methanogenesis is occurring in the front part of both columns. Arsenic and antimony in groundwater are great threats to human health. The PRB technology potentially is an efficient and cost-effective approach to remediate organic and inorganic contamination in groundwater. Two column experiments were conducted to assess the rates and capacities of organic carbon (OC) PRB and Fe-bearing organic carbon (FeOC) PRB to remove As and Sb under controlled groundwater flow conditions. The average As removal rate for the OC column was 13 nmole day-1 g-1 (dry weight of organic carbon) and its removal capacity was 11 μmole g-1 (dry weight of organic carbon). The remove rate of the FeOC material was 165 nmole day-1 g-1 (dry weight of organic carbon) and its minimum removal capacity was 105 mole g-1 (dry weight of organic carbon). Antimony removal rate of the OC material decreases from 8.2 to 1.4 nmole day-1 g-1 (dry weight of organic carbon) and its removal capacity is 2.4 μmole g-1 (dry weight of organic carbon). The minimum removal rate of FeOC material is 13 nmole day-1 g-1 (dry weight of organic carbon) and its minimum removal capacity is 8.4 μmole g-1 (dry weight of organic carbon). The As(III) : [As(III)+As(V)] ratio increased from 1% in the influent to 50% at 5.5 cm from the influent end, and to 80% at 15.5 cm from the influent end of the OC column. X-ray absorption near edge spectroscopy (XANES) shows As(III)-sulfide species on solid samples. These results suggest that As(V) is reduced to As(III) both in pore water and precipitate as As sulfides or coprecipitate with iron sulfides. The arsenic reduction rate suggests that As(V) reduction is mediated by bacterial activity in the OC column and that both abiotic reduction and bacterial reduction could be important in FeOC.

arsenic

antimony

partition coefficient

granitic melt

aqueous fluid

permeable reactive barrier

zero valent iron

organic carbon

sulfate reducing bacteria

delta 34S

delta 13C

remediation

Earth Sciences

Neue kovalent und ionogen aufgebaute Alkinylderivate mit Elementen der 13. Gruppe des Periodensystems / New neutral and ionic ethynyl derivatives with elements of the 13th group of the periodic system

Schiefer, Marcus

31 October 2002

No description available.

000 Allgemeines

Wissenschaft

Mathematics and Computer Science

Aluminium

Gallium

Indium

Alkinyl

niedervalentes Aluminium

Aluminum

Gallium

Indium

Ethynyl

low valent Aluminum

35.40

35.42

35.43

35.60

ST

New mixtures to be used in permeable reactive barrier for heavy-metals contaminated groundwater remediation : long-term removal efficiency and hydraulic behavior / Nouveaux mélanges à utiliser dans les barrières réactives perméables pour la dépollution des eaux souterraines contaminées par métaux lourds : efficacité de dépollution et comportement hydraulique à long terme

Madaffari, Maria Grazia

23 March 2015

La dépollution des eaux souterraines est actuellement une des principaux défis environnementaux, considérant le nombre de sites contaminés et le risque posé à la santé humaine et à l'environnement par l'exposition à la contamination des eaux souterraines. La barrière réactive perméable (PRB) est une technologie in situ passive pour la remédiation des eaux souterraines contaminées. Il se compose d'une barrière placée perpendiculairement à l'écoulement des contaminants et constituée d'un matériau réactif qui traite la panache de contaminants le traversant sous le gradient hydraulique naturel. C’est la technologie de remédiation des eaux souterraines la plus rentable ; elle permet l'utilisation des terres de surface et réduit l'exposition des travailleurs aux polluants. Le matériau réactif le plus utilisé est le fer à valence zéro (ZVI), qui peut dépolluer l'eau souterraine contaminée par une large gamme de contaminants au moyen de mécanismes chimiques et physiques différents. Le problème principal de l'utilisation de ZVI granulaire est la réduction de la porosité du milieu poreux, en raison de la nature expansive de produits de corrosion, des précipités et la formation de gaz. Pour surmonter ce problème, des mélanges de matériaux granulaires et ZVI ont été testés afin de déterminer leur efficacité de dépollution et le comportement hydraulique à long terme. L'utilisation de Lapillus volcaniques à mélanger avec ZVI pour dépolluer les eaux souterraines contaminées par métaux lourds est proposée dans ce travail. Des essais sur Lapillus ont montré une efficacité d'élimination de métaux lourds non négligeable, tandis que les tests en colonne effectuée en utilisant des mélanges n’ont pas montré une réduction élevée de la conductivité hydraulique au cours du temps.La modélisation des essais batch et colonne en tant qu’outil pour la compréhension des mécanismes impliqués dans les milieux poreux réactifs a été mis en place. L’étude de la sensibilité des paramètres des modèles sur leurs réponses a également été explorée. / Groundwater remediation is currently one of the major environmental challenges, considering the number of contaminated sites and the risk posed to human health and to the environment by exposure to groundwater contamination. Permeable reactive barrier (PRB) is a passive in situ technology for the remediation of contaminated groundwater. It consists of a barrier placed perpendicularly to the contaminant flow and made of reactive material that treats contaminant plume flowing through it under the natural hydraulic gradient. It is the most cost-effective groundwater remediation technology; it allows the use of surface land and reduces the exposure of workers to contaminants. The most used reactive material is Zero Valent Iron (ZVI), which is able to remediate groundwater contaminated by a large range of contaminants by means of different chemical and physical mechanisms. The main issue of granular ZVI use regards the reduction of the porous medium porosity, because of the expansive nature of corrosion products, precipitates and gas formation. To overcome this problem, mixtures of ZVI and granular materials were tested to investigate their long-term removal efficiency and hydraulic behavior. The use of volcanic Lapillus to be mixed with ZVI to remediate heavy-metals contaminated groundwater is proposed in this work. Tests on Lapillus showed a not negligible heavy metal removal efficiency of the volcanic material, while the hydraulic monitoring of column tests performed using mixtures showed a not high reduction of hydraulic conductivity over time.Modelling batch and column tests as a tool for understanding the mechanisms involved in the reactive porous media has been set up. The analysis of the sensitivity of the models response with respect to the input parameters has also been explored.

Dépollution des eaux souterraines

Lapillus

Barrière Réactive Perméable (BRP)

Fer à valence zéro

Groundwater remediation

Lapillus

Permeable Reactive Barrier (PRB)

Zero Valent Iron (ZVI)

Impacto da vacinação com a PCV10 na morbidade hospitalar por pneumonia no Brasil: análise de série temporal interrompida / Impact of vaccination with PCV10 in hospital morbidity due to pneumonia in Brazil: interrupted time series analysis

Afonso, Eliane Terezinha

19 August 2015

Submitted by Marlene Santos (marlene.bc.ufg@gmail.com) on 2016-04-20T19:18:23Z No. of bitstreams: 2 Tese - Eliane Terezinha Afonso - 2015.pdf: 3480407 bytes, checksum: db146d8884a4aedac166a73ef268d89d (MD5) license_rdf: 19874 bytes, checksum: 38cb62ef53e6f513db2fb7e337df6485 (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2016-04-25T15:00:31Z (GMT) No. of bitstreams: 2 Tese - Eliane Terezinha Afonso - 2015.pdf: 3480407 bytes, checksum: db146d8884a4aedac166a73ef268d89d (MD5) license_rdf: 19874 bytes, checksum: 38cb62ef53e6f513db2fb7e337df6485 (MD5) / Made available in DSpace on 2016-04-25T15:00:31Z (GMT). No. of bitstreams: 2 Tese - Eliane Terezinha Afonso - 2015.pdf: 3480407 bytes, checksum: db146d8884a4aedac166a73ef268d89d (MD5) license_rdf: 19874 bytes, checksum: 38cb62ef53e6f513db2fb7e337df6485 (MD5) Previous issue date: 2015-08-19 / BACKGROUND: Pneumonia causes substantial morbidity and mortality in all age groups around the world. The 10-valent pneumococcal conjugate vaccine (PCV10) was introduced into the routine infant immunization in Brazil, free of charge, in March 2010. The aim of this study was to evaluate the impact PCV10 vaccination on rates of all cause pneumonia hospitalizations one year and three years after its introduction in Brazil. METHODS: We conducted two interrupted time series analysis studies. The first evaluated only the direct effect of PCV10 vaccination, in five Brazilian cities (Belo Horizonte, Curitiba, Porto Alegre, São Paulo and Recife), and was conducted one year after starting the vaccination. The second study evaluated the direct and indirect impact (individuals not vaccinated) of PCV10 vaccination in Brazil, and was conducted three years after vaccination. We used data from the Brazilian Hospitalization System from 2005-2013. The main outcome was monthly rates of all-cause pneumonia hospitalizations identified by ICD-10 codes J12-J18. We used hospitalization rates for congenital malformations and non-respiratory causes as a comparison groups. The time-series analysis was based on a generalized linear model. Pneumonia rates observed in the pre-vaccination period were used to estimate the hospitalization rates in the post-vaccination period of each study, adjusting for seasonality and secular trends. To estimate the direct (2-23 months of age) and indirect (≥5 years of age) impact of PCV10 vaccination, we calculated the percentage change in hospitalization rates, as the observed divided by the predicted rates of hospitalization in the post-intervention period minus one, with respective 95% CI and p values. The number of all-cause pneumonia hospitalizations averted by vaccination was calculated taking into account the difference between the predicted and observed number in the PCV10 post vaccination period. RESULTS: One year after introduction of PCV10 in Brazil, significant declines in hospitalizations for pneumonia in children aged 2-23 months were noted in Belo Horizonte (28.7%), Curitiba (23.3%), and Recife (27.4%). After three years of the introduction of PCV10, 461,519 pneumonia hospitalizations were averted in Brazil, and a significant decrease in rates of pneumonia hospitalization was observed in unvaccinated individuals aged 5-39 years, ranging from 14.1-17.4% (p<0.05). In contrast, an increased trend in pneumonia hospitalizations (p=0·004) was observed for elderly (≥ 65 years). CONCLUSION: Vaccination with PCV10 in Brazil was associated with reduction of pneumonia hospitalizations in vaccinated individuals. Herd effect was observed in individuals aged 5-39 years after three years of vaccination. Potential reasons for the increased trend in pneumonia hospitalization rates in the elderly should be investigated. / INTRODUÇÃO: As pneumonias contribuem com alta carga de morbimortalidades em todo mundo. No Brasil, a vacina pneumocócica conjugada 10 valente (PCV10) foi introduzida na rotina de imunização da infância em março de 2010. Este estudo teve como objetivo avaliar o impacto da vacinação nas taxas de hospitalizações por pneumonia no Brasil no curto e médio prazo do início da vacinação. METODOLOGIA: Dois estudos de séries temporais interrompidas foram conduzidos. O primeiro avaliou o efeito direto da vacinação em cinco capitais brasileiras (Belo Horizonte, Curitiba, Porto Alegre, São Paulo e Recife) e foi conduzido após um ano de introdução da PCV10 no país. O segundo estudo avaliou o impacto direto e indireto (população não vacinada) da vacinação em todo país e foi conduzido três anos após sua introdução. Os dados de hospitalizações foram obtidos do Sistema de Informações Hospitalares (SIH-SUS) de 2005 a 2013. O desfecho principal foi a taxa mensal de hospitalização por pneumonia definida pelos códigos J12-J18 da CID10. As taxas de hospitalizações por malformações congênitas e causas não respiratórias foram utilizadas como grupos de comparações. A análise de série temporal utilizou um modelo de regressão linear generalizado. As taxas de hospitalizações por pneumonia observadas no período pré-PCV10, ajustadas por tendência secular e sazonalidade, foram utilizadas para estimar as taxas no período pós-PCV10. O impacto da vacinação para cada faixa etária foi calculado como o percentual de mudança nas taxas de hospitalizações, dividindo-se as taxas observadas pelas taxas preditas do período pós PCV10, menos um. Os respectivos IC95% e os valores de p foram apresentados. O número de hospitalizações por pneumonia evitadas após três anos de vacinação foi estimado pela diferença entre os números de hospitalizações por pneumonia preditos e observados no período pós-vacinação. RESULTADOS: Após um ano de introdução da PCV10 no Brasil, observou-se significativo declínio nas taxas de hospitalizações por pneumonia em crianças de 2 a 23 meses em três das cinco capitais estudadas: Belo Horizonte (28,7%), Curitiba (23,3%), e Recife (27,4%). Após três anos da introdução da PCV10, 461.519 hospitalizações por pneumonia foram evitadas no Brasil e um significativo declínio nas taxas de pneumonia foi observado em indivíduos não vacinados de 5 a 39 anos variando de 14,1% a 17,4% (p<0,05). No entanto, observou-se um aumento significativo (9,9%, p=0,004) nas taxas de hospitalizações por pneumonia para idosos ≥65 anos. CONCLUSÕES: A vacinação com a PCV10 foi associada à significativa redução das hospitalizações por pneumonia na infância. Adicionalmente, o estudo evidenciou importante redução das hospitalizações por pneumonia em grupos etários não vacinados, sinalizando efeito indireto conferida pela vacina. A tendência de aumento das hospitalizações por pneumonias em idosos necessita de investigações para elucidação dos fatores envolvidos nesse fenômeno.

Vacina pneumocócica 10 valente

Hospitalização

Pneumonia

Análise de série temporal interrompida

Vacinação

Efeito de rebanho.

10 valent pneumococcal vaccine

Hospitalization

interrupted time-series analysis

Vaccination

Herd effect

SAUDE COLETIVA::EPIDEMIOLOGIA