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Partager le résultat de cette recherche Interroger des sources externesEfficacite photocatalytique des oxydes de fer (hematite) et des acides carboxyliques sur la degradation de derives phenoliques chlores en solution aqueuse / Wassila Remache
Titre : Efficacite photocatalytique des oxydes de fer (hematite) et des acides carboxyliques sur la degradation de derives phenoliques chlores en solution aqueuse Type de document : texte imprimé Auteurs : Wassila Remache, Auteur ; Tahar Sehili, Directeur de thèse Editeur : جامعة الإخوة منتوري قسنطينة Année de publication : 2018 Importance : 168 f. Format : 30 cm. Note générale : 2 copies imprimées disponibles
Langues : Français (fre) Tags : 2,4-dichlorophénol Photo-Fenton hétérogène Oxyde de fer naturel Fe(III) – carboxylate Acide oxalique Irradiation solaire Solution aqueuse Heterogeneous photo-Fenton Natural iron oxide Oxalic acid Solar radiation ????? ???????????? ????? ?????? ??????? ?????? ) -(III??????? ??? ????????? ???????
??????Index. décimale : 540 Chimie et sciences connexes Résumé : The degradation of 2,4-DCP photoinduced by natural iron oxide was studied in aqueous suspension up on irradiation at 365 nm and by solar light. The effects of various factors, such as photolysis, adsorption, effect of pH, temperature, wavelength and the degradation pathways were investigated.
The UV light has no considerable influence on the catalytic activity of the NIO, it is very important to note that there is a strong overlap between the absorption spectrum of NIO and the solar emission spectrum of the sun leading the capacity of this oxide to photoinduce the degradation of 2,4-DCP under solar light. 2,4-DCP was nearly completely removed in about 6 h.
The second part of the work of this thesis has demonstrated the significant impact that could have sunlight on the activation of iron-carboxylate complexes in the degradation of 2,4-DCP.
The complex iron-oxalate was found the most photocative for the degradation of 2,4-DCP in both systems (UV and solar irradiation). Photochemical behavior of iron released into solution, mostly influenced by pH, will monitor the effectiveness of the reaction disappearance of the pollutant.
Our results showed that photocatalysis in the iron-oxalate system is an effective technique for the degradation of 2,4-DCP where seven major by-products were identified and that this degradation mainly through hydroxyle radicals •OH. Mineralization of 2,4-DCP was achieved in 11h in our experimental conditions.
Furthermore, in the heterogeneous iron oxide /H2O2 system the method is effective only at acidic conditions and the disappearance of 2,4-DCP is strongly dependent on the concentration of H2O2 , substrate and catalyst dose. The photodegradation of 2,4-DCP can be directly attributed to the attack of •OH radicals. 2,4-DCP is totally degraded that after formation of various by-products can be completely mineralized to H2O, Cl- et CO2.
Our work shows that the activation of natural iron oxide by carboxylic acids and hydrogen peroxide could have a considerable impact on the fate of organic pollutants in aquatic environment.
Diplôme : Doctorat en sciences En ligne : ../theses/chimie/REM7256.pdf Format de la ressource électronique : Permalink : https://bu.umc.edu.dz/md/index.php?lvl=notice_display&id=10854 Efficacite photocatalytique des oxydes de fer (hematite) et des acides carboxyliques sur la degradation de derives phenoliques chlores en solution aqueuse [texte imprimé] / Wassila Remache, Auteur ; Tahar Sehili, Directeur de thèse . - [S.l.] : جامعة الإخوة منتوري قسنطينة, 2018 . - 168 f. ; 30 cm.
2 copies imprimées disponibles
Langues : Français (fre)
Tags : 2,4-dichlorophénol Photo-Fenton hétérogène Oxyde de fer naturel Fe(III) – carboxylate Acide oxalique Irradiation solaire Solution aqueuse Heterogeneous photo-Fenton Natural iron oxide Oxalic acid Solar radiation ????? ???????????? ????? ?????? ??????? ?????? ) -(III??????? ??? ????????? ???????
??????Index. décimale : 540 Chimie et sciences connexes Résumé : The degradation of 2,4-DCP photoinduced by natural iron oxide was studied in aqueous suspension up on irradiation at 365 nm and by solar light. The effects of various factors, such as photolysis, adsorption, effect of pH, temperature, wavelength and the degradation pathways were investigated.
The UV light has no considerable influence on the catalytic activity of the NIO, it is very important to note that there is a strong overlap between the absorption spectrum of NIO and the solar emission spectrum of the sun leading the capacity of this oxide to photoinduce the degradation of 2,4-DCP under solar light. 2,4-DCP was nearly completely removed in about 6 h.
The second part of the work of this thesis has demonstrated the significant impact that could have sunlight on the activation of iron-carboxylate complexes in the degradation of 2,4-DCP.
The complex iron-oxalate was found the most photocative for the degradation of 2,4-DCP in both systems (UV and solar irradiation). Photochemical behavior of iron released into solution, mostly influenced by pH, will monitor the effectiveness of the reaction disappearance of the pollutant.
Our results showed that photocatalysis in the iron-oxalate system is an effective technique for the degradation of 2,4-DCP where seven major by-products were identified and that this degradation mainly through hydroxyle radicals •OH. Mineralization of 2,4-DCP was achieved in 11h in our experimental conditions.
Furthermore, in the heterogeneous iron oxide /H2O2 system the method is effective only at acidic conditions and the disappearance of 2,4-DCP is strongly dependent on the concentration of H2O2 , substrate and catalyst dose. The photodegradation of 2,4-DCP can be directly attributed to the attack of •OH radicals. 2,4-DCP is totally degraded that after formation of various by-products can be completely mineralized to H2O, Cl- et CO2.
Our work shows that the activation of natural iron oxide by carboxylic acids and hydrogen peroxide could have a considerable impact on the fate of organic pollutants in aquatic environment.
Diplôme : Doctorat en sciences En ligne : ../theses/chimie/REM7256.pdf Format de la ressource électronique : Permalink : https://bu.umc.edu.dz/md/index.php?lvl=notice_display&id=10854 Exemplaires
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Titre : Degradation des dimethylphenols (XYLENOLS) par des chromophores photoinducteurs en solution aqueuse Type de document : texte imprimé Auteurs : Sihem Belaidi, Auteur ; T. Sehili, Directeur de thèse Editeur : Constantine : Université Mentouri Constantine Année de publication : 2015 Importance : 194 f. Format : 30 cm. Note générale : 2 copies imprimées disponibles
Langues : Français (fre) Tags : Chimie analytique physique et environnement Fenton photo-Fenton oxyde de fer naturel complexes Fe(III) – oxalate acide
oxalique DCO irradiation solaire natural iron oxide oxalic acid complex Fe (III) - oxalate COD sunlight ?????? ?????? ?????? ????? ?????? ??????? ??? ????????? ???? (??????
(III) – ?????????) DCO ??????? ??????Index. décimale : 540 Chimie et sciences connexes Résumé : In this study we have used dimethylphenols (xylenol) as models pollutants to show the effectiveness of the natural hematite (Fe2O3 natural) on the photocatalytic processes in heterogeneous environment.
The degradation of 3,5-dimethylphenol by Fenton and photo-Fenton processes was investigated, starting with the study of its photolysis at 254 nm and by H2O2/UV process.
Different physico-chemical parameters (concentrations of H2O2, Fe2+ and the pH) were tested in order to optimize the efficiency of Fenton process for degradation of 3,5-DMP. A Comparison of the performance of mineralization by different processes studied (Fenton and photo-Fenton) has shown that 70% and 80% of DOC removal was obtained after only 4 hours of photo-Fenton process at 365 nm and 254 nm respectively.
In the field of heterogeneous photocatalysis, a naturally occurring mineral was used. It was characterized by XRD, BET, IR and SEM. The XRD analysis showed the presence of 9 characteristic peaks attributed to hematite. Its photocatalytic efficiency was tested by the oxidation of 2,6-dimethylphenol (2,6-DMP). Photocatalysts based on iron (Fe2O3) have photocatalytic efficiency in the visible region. The results showed good efficiency under solar irradiation for the degradation of 2,6-DMP. Experiments carried at 365 nm required activation of the iron oxide with carboxylic acids. oxalic acid was the most effective carboxylic acid in terms of dissolution of natural iron oxide, and degradation of 2,6-DMP. Fe (III) - oxalate complex produce Fe2+ species by the photo-reduction of Fe3+ species and also lead to the
formation of hydrogen peroxide which reacts with Fe2+ to give •OH (Fenton reaction). We have optimized the experimental parameters affecting the degradation rate (oxalic acid concentration, pH, O2, temperature, inorganic ions ...) and propose a mechanism of degradation. The abatement rate of COD was 85% obtained for a treatment time of 14 hours in natural iron oxide - oxalate system under irradiation at 365 nm, demonstrating the ability of this technique to clean up effluents loaded with organic matter. The coupling of the system with the solar light has increased the rate of degradation of 2,6-DMP to 92% after 5 hours.
The use of natural iron oxide alone or in the presence of oxalic acid seems to be favored under solar irradiation which can reduce energy costs, especially in a country like Algeria.
Diplôme : Doctorat en sciences En ligne : ../theses/chimie/BEL6735.pdf Format de la ressource électronique : Permalink : https://bu.umc.edu.dz/md/index.php?lvl=notice_display&id=9888 Degradation des dimethylphenols (XYLENOLS) par des chromophores photoinducteurs en solution aqueuse [texte imprimé] / Sihem Belaidi, Auteur ; T. Sehili, Directeur de thèse . - Constantine : Université Mentouri Constantine, 2015 . - 194 f. ; 30 cm.
2 copies imprimées disponibles
Langues : Français (fre)
Tags : Chimie analytique physique et environnement Fenton photo-Fenton oxyde de fer naturel complexes Fe(III) – oxalate acide
oxalique DCO irradiation solaire natural iron oxide oxalic acid complex Fe (III) - oxalate COD sunlight ?????? ?????? ?????? ????? ?????? ??????? ??? ????????? ???? (??????
(III) – ?????????) DCO ??????? ??????Index. décimale : 540 Chimie et sciences connexes Résumé : In this study we have used dimethylphenols (xylenol) as models pollutants to show the effectiveness of the natural hematite (Fe2O3 natural) on the photocatalytic processes in heterogeneous environment.
The degradation of 3,5-dimethylphenol by Fenton and photo-Fenton processes was investigated, starting with the study of its photolysis at 254 nm and by H2O2/UV process.
Different physico-chemical parameters (concentrations of H2O2, Fe2+ and the pH) were tested in order to optimize the efficiency of Fenton process for degradation of 3,5-DMP. A Comparison of the performance of mineralization by different processes studied (Fenton and photo-Fenton) has shown that 70% and 80% of DOC removal was obtained after only 4 hours of photo-Fenton process at 365 nm and 254 nm respectively.
In the field of heterogeneous photocatalysis, a naturally occurring mineral was used. It was characterized by XRD, BET, IR and SEM. The XRD analysis showed the presence of 9 characteristic peaks attributed to hematite. Its photocatalytic efficiency was tested by the oxidation of 2,6-dimethylphenol (2,6-DMP). Photocatalysts based on iron (Fe2O3) have photocatalytic efficiency in the visible region. The results showed good efficiency under solar irradiation for the degradation of 2,6-DMP. Experiments carried at 365 nm required activation of the iron oxide with carboxylic acids. oxalic acid was the most effective carboxylic acid in terms of dissolution of natural iron oxide, and degradation of 2,6-DMP. Fe (III) - oxalate complex produce Fe2+ species by the photo-reduction of Fe3+ species and also lead to the
formation of hydrogen peroxide which reacts with Fe2+ to give •OH (Fenton reaction). We have optimized the experimental parameters affecting the degradation rate (oxalic acid concentration, pH, O2, temperature, inorganic ions ...) and propose a mechanism of degradation. The abatement rate of COD was 85% obtained for a treatment time of 14 hours in natural iron oxide - oxalate system under irradiation at 365 nm, demonstrating the ability of this technique to clean up effluents loaded with organic matter. The coupling of the system with the solar light has increased the rate of degradation of 2,6-DMP to 92% after 5 hours.
The use of natural iron oxide alone or in the presence of oxalic acid seems to be favored under solar irradiation which can reduce energy costs, especially in a country like Algeria.
Diplôme : Doctorat en sciences En ligne : ../theses/chimie/BEL6735.pdf Format de la ressource électronique : Permalink : https://bu.umc.edu.dz/md/index.php?lvl=notice_display&id=9888 Exemplaires
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Titre : Comportement d’un oxyhydroxyde de Fe(III) vis-à-vis d’un produit pharmaceutique en solution aqueuse en présence de lumières naturelle et simulée. Type de document : texte imprimé Auteurs : Mohamed el Mehdi Benacherine, Auteur ; Nadra Debbache, Directeur de thèse Editeur : جامعة الإخوة منتوري قسنطينة Année de publication : 2017 Importance : 167 f. Format : 30 cm. Note générale : 2 copies imprimées disponibles
Langues : Français (fre) Tags : Amoxicilline Photodégradation Radicaux hydroxyle Goethite Fenton Amoxicillin photodegradation hydroxyl radicals hydrogen peroxide oxalic acid ??????????? ?????? ?????? ?????? ????????????? •OH ?????? ???????? (GOE) (like Fenton) ????????? ?????? Index. décimale : 540 Chimie et sciences connexes Résumé : Our objectives in this thesis were to demonstrate the effectiveness of Goethite (GOE) in the
amoxicillin (AMX) photodegradation process under artificial and solar irradiation by different
systems, as well as the optimization of experimental parameters affecting the rate of the
degradation. Different analytical methods have been used in the characterization of AMX and
GOE. In the absence of light, the transformation of AMX was studied in different mixtures
(AMX-GOE, AMX-GOE-H2O2 and AMX-GOE-Carboxylic Acid). An interaction between
AMX and GOE was demonstrated; H2O2 significantly improved the degradation of AMX
while no effect was mentioned in the case of the presence of carboxylic acids. Under
irradiation and in the absence of GOE, AMX was found to be photolysed at 254 nm and
refractory to photolysis at 365 nm (monochromatic and polychromatic); this is due to the
overlap between the absorption spectrum of AMX and the light source.
The photodegradation of AMX by heterogeneous photocatalysis in the presence of GOE has
been studied. Results show that the photodegradation is dependent on several parameters such
as pH, substrate and catalyst concentration. The use of free radical inhibitors has shown that
the reaction mechanism is dominated by •OH radicals where oxygen plays an important role.
The addition of H2O2 to the solution improves the degradation of AMX and increases its rate
of mineralization in terms of chemical oxygen demand. The degradation is effected by the
contribution of the •OH radicals and also by oxidation on the surface of GOE. The AMXGOE-carboxylic acid system has been tested, among the used acids, oxalic acid was the only
one that showed a photo-activity. By comparing the degradation kinetics of AMX in natural
and artificial light in the three studied systems, it is found that the degradation rate is higher
under solar irradiation.
Diplôme : Doctorat En ligne : ../theses/chimie/BEN7137.pdf Format de la ressource électronique : Permalink : https://bu.umc.edu.dz/md/index.php?lvl=notice_display&id=10465 Comportement d’un oxyhydroxyde de Fe(III) vis-à-vis d’un produit pharmaceutique en solution aqueuse en présence de lumières naturelle et simulée. [texte imprimé] / Mohamed el Mehdi Benacherine, Auteur ; Nadra Debbache, Directeur de thèse . - [S.l.] : جامعة الإخوة منتوري قسنطينة, 2017 . - 167 f. ; 30 cm.
2 copies imprimées disponibles
Langues : Français (fre)
Tags : Amoxicilline Photodégradation Radicaux hydroxyle Goethite Fenton Amoxicillin photodegradation hydroxyl radicals hydrogen peroxide oxalic acid ??????????? ?????? ?????? ?????? ????????????? •OH ?????? ???????? (GOE) (like Fenton) ????????? ?????? Index. décimale : 540 Chimie et sciences connexes Résumé : Our objectives in this thesis were to demonstrate the effectiveness of Goethite (GOE) in the
amoxicillin (AMX) photodegradation process under artificial and solar irradiation by different
systems, as well as the optimization of experimental parameters affecting the rate of the
degradation. Different analytical methods have been used in the characterization of AMX and
GOE. In the absence of light, the transformation of AMX was studied in different mixtures
(AMX-GOE, AMX-GOE-H2O2 and AMX-GOE-Carboxylic Acid). An interaction between
AMX and GOE was demonstrated; H2O2 significantly improved the degradation of AMX
while no effect was mentioned in the case of the presence of carboxylic acids. Under
irradiation and in the absence of GOE, AMX was found to be photolysed at 254 nm and
refractory to photolysis at 365 nm (monochromatic and polychromatic); this is due to the
overlap between the absorption spectrum of AMX and the light source.
The photodegradation of AMX by heterogeneous photocatalysis in the presence of GOE has
been studied. Results show that the photodegradation is dependent on several parameters such
as pH, substrate and catalyst concentration. The use of free radical inhibitors has shown that
the reaction mechanism is dominated by •OH radicals where oxygen plays an important role.
The addition of H2O2 to the solution improves the degradation of AMX and increases its rate
of mineralization in terms of chemical oxygen demand. The degradation is effected by the
contribution of the •OH radicals and also by oxidation on the surface of GOE. The AMXGOE-carboxylic acid system has been tested, among the used acids, oxalic acid was the only
one that showed a photo-activity. By comparing the degradation kinetics of AMX in natural
and artificial light in the three studied systems, it is found that the degradation rate is higher
under solar irradiation.
Diplôme : Doctorat En ligne : ../theses/chimie/BEN7137.pdf Format de la ressource électronique : Permalink : https://bu.umc.edu.dz/md/index.php?lvl=notice_display&id=10465 Exemplaires
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Titre : Degradation photochimique des colorants cationiques sur des supports inorganiques chromophores en solution aqueuse Type de document : texte imprimé Auteurs : Karima Benhamouda, Auteur ; Tahar Sehili, Directeur de thèse Editeur : جامعة الإخوة منتوري قسنطينة Année de publication : 2017 Importance : 184 f. Format : 30 cm. Note générale : 2 copies imprimées disponibles
Langues : Français (fre) Tags : Acide oxalique oxyde de fer naturel minéralisation colorants Oxalic acid photo-like- Fenton natural oxide iron mineralization dyes ??? ????????? ?????? ?????? ?????????????????? ????? ???? Index. décimale : 540 Chimie et sciences connexes Résumé : The main objective of this study is to test the effectiveness of a natural miniral through
the study of the elimination of two polluting models "methylene blue and rhodamine B" in
aqueous solution.
In a homogeneous phase, various methods have been established to degrade the both
dyes; direct photolysis, photo-oxidation with hydrogen peroxide and persulfate as well as by
the Fenton reagent and photo-Fenton. The results showed that the photo-Fenton process at
254 nm is the most efficient.
The analyses by XRD, IR, Raman and X-ray fluorescence of the natural mineral,
which comes from Souk-Ehres North-East of Algeria, confirmed that this mineral consists of
89 % of hematite, this high content of iron lead us to use this support as a catalyst (source of
iron ions) to create the photo-Fenton-like process in the presence of carboxylic acids.
Among the carboxylic acids studied, oxalic acid is the most effective for the
dissolution of natural iron oxide, therefore for the photodegradation of the MB and RhB.
Indeed, under irradiation, oxalic acid forms a complex with iron oxide and leads to the release
of Fe(III) ions. In solution and by the photoreduction reaction, the Fe(III) ions are transformed
into Fe(II) and leads to the formation of hydrogen peroxide launching a photo-Fenton
reaction, leading to the formation of hydroxyl radicals.
The study of the influence of several physico-chemicals parameters (effect of acid
concentration, temperature, O2, pH, nature of radiation ...) on the efficiency of NIO/OA/UV
process yielded to the determination of optimal conditions for the dyes removal. The
abatement rates of COD for MB and RhB by this process were very reasonable, confirming
the effectiveness of the NIO in the treatments of wastewaters.
The use of natural iron in the presence of oxalic acid under solar irradiation reduces
energy costs, and required time for a total elimination of dyes.Diplôme : Doctorat En ligne : ../theses/chimie/BEN7114.pdf Format de la ressource électronique : Permalink : https://bu.umc.edu.dz/md/index.php?lvl=notice_display&id=10487 Degradation photochimique des colorants cationiques sur des supports inorganiques chromophores en solution aqueuse [texte imprimé] / Karima Benhamouda, Auteur ; Tahar Sehili, Directeur de thèse . - [S.l.] : جامعة الإخوة منتوري قسنطينة, 2017 . - 184 f. ; 30 cm.
2 copies imprimées disponibles
Langues : Français (fre)
Tags : Acide oxalique oxyde de fer naturel minéralisation colorants Oxalic acid photo-like- Fenton natural oxide iron mineralization dyes ??? ????????? ?????? ?????? ?????????????????? ????? ???? Index. décimale : 540 Chimie et sciences connexes Résumé : The main objective of this study is to test the effectiveness of a natural miniral through
the study of the elimination of two polluting models "methylene blue and rhodamine B" in
aqueous solution.
In a homogeneous phase, various methods have been established to degrade the both
dyes; direct photolysis, photo-oxidation with hydrogen peroxide and persulfate as well as by
the Fenton reagent and photo-Fenton. The results showed that the photo-Fenton process at
254 nm is the most efficient.
The analyses by XRD, IR, Raman and X-ray fluorescence of the natural mineral,
which comes from Souk-Ehres North-East of Algeria, confirmed that this mineral consists of
89 % of hematite, this high content of iron lead us to use this support as a catalyst (source of
iron ions) to create the photo-Fenton-like process in the presence of carboxylic acids.
Among the carboxylic acids studied, oxalic acid is the most effective for the
dissolution of natural iron oxide, therefore for the photodegradation of the MB and RhB.
Indeed, under irradiation, oxalic acid forms a complex with iron oxide and leads to the release
of Fe(III) ions. In solution and by the photoreduction reaction, the Fe(III) ions are transformed
into Fe(II) and leads to the formation of hydrogen peroxide launching a photo-Fenton
reaction, leading to the formation of hydroxyl radicals.
The study of the influence of several physico-chemicals parameters (effect of acid
concentration, temperature, O2, pH, nature of radiation ...) on the efficiency of NIO/OA/UV
process yielded to the determination of optimal conditions for the dyes removal. The
abatement rates of COD for MB and RhB by this process were very reasonable, confirming
the effectiveness of the NIO in the treatments of wastewaters.
The use of natural iron in the presence of oxalic acid under solar irradiation reduces
energy costs, and required time for a total elimination of dyes.Diplôme : Doctorat En ligne : ../theses/chimie/BEN7114.pdf Format de la ressource électronique : Permalink : https://bu.umc.edu.dz/md/index.php?lvl=notice_display&id=10487 Exemplaires
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