7 research outputs found
Formulation, caractĂ©risation et mise en Ćuvre des barriĂšres permĂ©ables rĂ©actives Ă base de phosphate de calcium, utilisation pour la fixation de polluants
Get PDFL'objectif principal de cette thĂšse est la formulation des mĂ©langes stables contenant l'hydroxyapatite gel synthĂ©tisĂ©e (Ca-HAGel). Le comportement rhĂ©ologique des mĂ©langes Eau/(sulfate de calcium) et hydroxyapatite/(sulfate de calcium) a Ă©tĂ© Ă©tudiĂ©. Les rĂ©sultats ont montrĂ© que tout les mĂ©langes sont caractĂ©risĂ©s par un comportement rhĂ©ologique rhefluidifiant et thixotrope. Le potentiel zeta a Ă©tĂ© utilisĂ© dans cette Ă©tude pour mieux apprĂ©hender les interactions entre les particules et leur effet sur le comportement des mĂ©langes. La fixation de sulfate sur la surface de Ca- HA favorise la stabilitĂ© de la structure du Ca-HAGel. Les analyses de caractĂ©risation effectuĂ©es sur les formulations ont montrĂ© la formation de nouveaux composĂ©s tels que le sulfate-phosphate de calcium hydrate et l'Ardealite. Les tests de lixiviation et de percolation ont rĂ©vĂ©lĂ© que le taux de relargage de soufre et strontium Ă partir des sous-produits de gypse Ă©tait nĂ©gligeable pour les mĂ©langes contenant Ca-HAGel. Ca- HAGel stabilise les mĂ©taux lourds relarguĂ©s Ă partir du gypse et plĂątre. Les particules du gypse amĂ©liorent les performances hydrauliques de Ca-HAGel et le plĂątre hydratĂ© stabilise la structure de Ca-HAGel par la formation des particules agglomĂ©rĂ©es. Le test colonne effectuĂ© sur la formulation AWPG2 a montrĂ© une grande performance Ă retenir le plomb et le cadmium avec des capacitĂ©s de rĂ©tention de plus de 99% et 88% respectivement. Le traitement des mĂ©taux lourds Ă©tait liĂ© aux particules de Ca-HA et aux phosphate et calcium libres. La formulation AWPG2 peut ĂȘtre utilisĂ©e dans les barriĂšres permĂ©ables rĂ©actives pour traiter les eaux souterraines contaminĂ©es. ABSTRACT : The main purpose of this thesis was the formulation of stable blends based on synthesized hydroxyapatite-gel (Ca-HAGel). The rheological behavior of waterâcalcium sulfates and hydroxyapatiteâcalcium sulfates blends was considered in this study. The results show that all blends and formulations exhibit a shearthinning effect and thixotropic behavior. The ζ potential was used in this study to understand the interaction between particles and its effect on the global behavior of the blends. Fixation of sulfate on Ca-HA surface promotes the stability of Ca-HAGel suspension. Characterization analysis of formulation shown the presence of new compounds such as calcium sulfate-phosphate hydrate and Ardealite. Leaching and percolation tests revealed that the release rate of sulfur and strontium from gypsum by-product was negligible in blends based on Ca- Agel. Ca-HAGel was stabilized the heavy metals released from plaster and gypsum. Gypsum particles enhanced hydraulic performances of Ca-HAGel and hydrated plaster stabilized Ca-HAGel structure by the formation of agglomerated particles. Column test carried out on AWPG2 blend revealed high removal performances for lead and cadmium with retention capacity of 99% and 88% respectively. The reactivity was related to Ca-HA and free calcium and phosphate contained in the selected formulation. AWPG2 blend is to be used as permeable reactive barrier for in-situ contaminated groundwater remediatio
Formulation, caractĂ©risation et mise en Ćuvre des barriĂšres permĂ©ables rĂ©actives Ă base de phosphate de calcium, utilisation pour la fixation de polluants
Get PDFL'objectif principal de cette thĂšse est la formulation des mĂ©langes stables contenant l'hydroxyapatite gel synthĂ©tisĂ©e (Ca-HAGel). Le comportement rhĂ©ologique des mĂ©langes Eau/(sulfate de calcium) et hydroxyapatite/(sulfate de calcium) a Ă©tĂ© Ă©tudiĂ©. Les rĂ©sultats ont montrĂ© que tout les mĂ©langes sont caractĂ©risĂ©s par un comportement rhĂ©ologique rhefluidifiant et thixotrope. Le potentiel zeta a Ă©tĂ© utilisĂ© dans cette Ă©tude pour mieux apprĂ©hender les interactions entre les particules et leur effet sur le comportement des mĂ©langes. La fixation de sulfate sur la surface de Ca- HA favorise la stabilitĂ© de la structure du Ca-HAGel. Les analyses de caractĂ©risation effectuĂ©es sur les formulations ont montrĂ© la formation de nouveaux composĂ©s tels que le sulfate-phosphate de calcium hydrate et l'Ardealite. Les tests de lixiviation et de percolation ont rĂ©vĂ©lĂ© que le taux de relargage de soufre et strontium Ă partir des sous-produits de gypse Ă©tait nĂ©gligeable pour les mĂ©langes contenant Ca-HAGel. Ca- HAGel stabilise les mĂ©taux lourds relarguĂ©s Ă partir du gypse et plĂątre. Les particules du gypse amĂ©liorent les performances hydrauliques de Ca-HAGel et le plĂątre hydratĂ© stabilise la structure de Ca-HAGel par la formation des particules agglomĂ©rĂ©es. Le test colonne effectuĂ© sur la formulation AWPG2 a montrĂ© une grande performance Ă retenir le plomb et le cadmium avec des capacitĂ©s de rĂ©tention de plus de 99% et 88% respectivement. Le traitement des mĂ©taux lourds Ă©tait liĂ© aux particules de Ca-HA et aux phosphate et calcium libres. La formulation AWPG2 peut ĂȘtre utilisĂ©e dans les barriĂšres permĂ©ables rĂ©actives pour traiter les eaux souterraines contaminĂ©es.The main purpose of this thesis was the formulation of stable blends based on synthesized hydroxyapatite-gel (Ca-HAGel). The rheological behavior of water calcium sulfates and hydroxyapatite calcium sulfates blends was considered in this study. The results show that all blends and formulations exhibit a shearthinning effect and thixotropic behavior. The potential was used in this study to understand the interaction between particles and its effect on the global behavior of the blends. Fixation of sulfate on Ca-HA surface promotes the stability of Ca-HAGel suspension. Characterization analysis of formulation shown the presence of new compounds such as calcium sulfate-phosphate hydrate and Ardealite. Leaching and percolation tests revealed that the release rate of sulfur and strontium from gypsum by-product was negligible in blends based on Ca- Agel. Ca-HAGel was stabilized the heavy metals released from plaster and gypsum. Gypsum particles enhanced hydraulic performances of Ca-HAGel and hydrated plaster stabilized Ca-HAGel structure by the formation of agglomerated particles. Column test carried out on AWPG2 blend revealed high removal performances for lead and cadmium with retention capacity of 99% and 88% respectively. The reactivity was related to Ca-HA and free calcium and phosphate contained in the selected formulation. AWPG2 blend is to be used as permeable reactive barrier for in-situ contaminated groundwater remediationTOULOUSE-INP (315552154) / SudocSudocFranceF
Formulation, caracterization and implementation of permeable reactive barriers based on calcium phosphate
No full textL'objectif principal de cette thĂšse est la formulation des mĂ©langes stables contenant l'hydroxyapatite gel synthĂ©tisĂ©e (Ca-HAGel). Le comportement rhĂ©ologique des mĂ©langes Eau/(sulfate de calcium) et hydroxyapatite/(sulfate de calcium) a Ă©tĂ© Ă©tudiĂ©. Les rĂ©sultats ont montrĂ© que tout les mĂ©langes sont caractĂ©risĂ©s par un comportement rhĂ©ologique rhefluidifiant et thixotrope. Le potentiel zeta a Ă©tĂ© utilisĂ© dans cette Ă©tude pour mieux apprĂ©hender les interactions entre les particules et leur effet sur le comportement des mĂ©langes. La fixation de sulfate sur la surface de Ca- HA favorise la stabilitĂ© de la structure du Ca-HAGel. Les analyses de caractĂ©risation effectuĂ©es sur les formulations ont montrĂ© la formation de nouveaux composĂ©s tels que le sulfate-phosphate de calcium hydrate et l'Ardealite. Les tests de lixiviation et de percolation ont rĂ©vĂ©lĂ© que le taux de relargage de soufre et strontium Ă partir des sous-produits de gypse Ă©tait nĂ©gligeable pour les mĂ©langes contenant Ca-HAGel. Ca- HAGel stabilise les mĂ©taux lourds relarguĂ©s Ă partir du gypse et plĂątre. Les particules du gypse amĂ©liorent les performances hydrauliques de Ca-HAGel et le plĂątre hydratĂ© stabilise la structure de Ca-HAGel par la formation des particules agglomĂ©rĂ©es. Le test colonne effectuĂ© sur la formulation AWPG2 a montrĂ© une grande performance Ă retenir le plomb et le cadmium avec des capacitĂ©s de rĂ©tention de plus de 99% et 88% respectivement. Le traitement des mĂ©taux lourds Ă©tait liĂ© aux particules de Ca-HA et aux phosphate et calcium libres. La formulation AWPG2 peut ĂȘtre utilisĂ©e dans les barriĂšres permĂ©ables rĂ©actives pour traiter les eaux souterraines contaminĂ©es.The main purpose of this thesis was the formulation of stable blends based on synthesized hydroxyapatite-gel (Ca-HAGel). The rheological behavior of waterâcalcium sulfates and hydroxyapatiteâcalcium sulfates blends was considered in this study. The results show that all blends and formulations exhibit a shearthinning effect and thixotropic behavior. The ζ potential was used in this study to understand the interaction between particles and its effect on the global behavior of the blends. Fixation of sulfate on Ca-HA surface promotes the stability of Ca-HAGel suspension. Characterization analysis of formulation shown the presence of new compounds such as calcium sulfate-phosphate hydrate and Ardealite. Leaching and percolation tests revealed that the release rate of sulfur and strontium from gypsum by-product was negligible in blends based on Ca- Agel. Ca-HAGel was stabilized the heavy metals released from plaster and gypsum. Gypsum particles enhanced hydraulic performances of Ca-HAGel and hydrated plaster stabilized Ca-HAGel structure by the formation of agglomerated particles. Column test carried out on AWPG2 blend revealed high removal performances for lead and cadmium with retention capacity of 99% and 88% respectively. The reactivity was related to Ca-HA and free calcium and phosphate contained in the selected formulation. AWPG2 blend is to be used as permeable reactive barrier for in-situ contaminated groundwater remediatio
