Abstract The Efficiency of Photocatalytic Process ZnO Nanoparticles Embedded on the Synthetic Activated Carbon in Presence of CeO2 for the Removal of Cefazolin Antibiotic from Aqueous Solutions
Background: Antibiotics to treat an illness or as a growth promoter, to be consumed. A pharmaceutical composition in the form of original or metabolized in the aquatic environment, due to increased bacterial resistance is a concern. Various methods have been used to remove it. The advanced oxidation...
Ausführliche Beschreibung
Autor*in: |
Mohammad Reza Samarghandi1 [verfasserIn] Dargahi Abdollah [verfasserIn] Alireza Rahmani [verfasserIn] Ghorban Asgari [verfasserIn] Ghobad Ahmadidoust [verfasserIn] |
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2018 |
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In: Muhandisī-i Bihdāsht-i Muḥīṭ - Alborz University of Medical Sciences, 2017, 5(2018), 2, Seite 133-146 |
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Übergeordnetes Werk: |
volume:5 ; year:2018 ; number:2 ; pages:133-146 |
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DOAJ036243531 |
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520 | |a Background: Antibiotics to treat an illness or as a growth promoter, to be consumed. A pharmaceutical composition in the form of original or metabolized in the aquatic environment, due to increased bacterial resistance is a concern. Various methods have been used to remove it. The advanced oxidation process due to the ease of use, economical and high performance have attracted a lot of attention. The purpose of this study was to investigate the role of cerium dioxide on process efficiency combined UV/AC+ZnO as an advanced oxidation process is the removal of cefazolin in the aquatic environment. Methods: This experimental study was done in batch reactor that has a one Liter volume. In this study effect of parameters such as initial pH (3-9), initial concentration of Cefazolin (20-200 mg/L), Modified photocatalyst concentration (20-100 mg/L), reaction time (10-60 min) and CeO2 dose (20-200 mg/L) was investigated. In this study use of low-pressure mercury lamp with a power of 55 watts in stainless case. The kinetic of process according to zero order, first order and second order kinetic was evaluated. Results: The results showed that the highest removal efficiency of antibiotics cefazolin in the process at the pH = 3, concentration 0.1 mg/L of Modified photocatalyst, Retention time of 60 min and Cefazolin concentrations of 100 mg/L was 96%. When you change any of the parameters of about optimization, process efficiency was renamed. The results also showed that by increasing the concentration of CeO2, the antibiotic removal efficiency decreased, so that by increasing the concentration of CeO2 from 20 to 200 mg/L, the antibiotic removal efficiency of cefazolin decreased from 91 to 76%. Conclusion: This process has shown high efficiency in removal cefazolin and the ability of this process to reduce the burden on hospital sewage and pollution-producing industries before entering the units and final discharge effluent also contains conventional treatment or used for cefazolin. This process, because of the lack of production waste such as sludge, a process persistent organic pollutants and significant in the treatment process is environmentally friendly. | ||
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(DE-627)DOAJ036243531 (DE-599)DOAJ2e1c491bdd3449d085d89d49a41466a8 DE-627 ger DE-627 rakwb per TD1-1066 Mohammad Reza Samarghandi1 verfasserin aut Abstract The Efficiency of Photocatalytic Process ZnO Nanoparticles Embedded on the Synthetic Activated Carbon in Presence of CeO2 for the Removal of Cefazolin Antibiotic from Aqueous Solutions 2018 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Background: Antibiotics to treat an illness or as a growth promoter, to be consumed. A pharmaceutical composition in the form of original or metabolized in the aquatic environment, due to increased bacterial resistance is a concern. Various methods have been used to remove it. The advanced oxidation process due to the ease of use, economical and high performance have attracted a lot of attention. The purpose of this study was to investigate the role of cerium dioxide on process efficiency combined UV/AC+ZnO as an advanced oxidation process is the removal of cefazolin in the aquatic environment. Methods: This experimental study was done in batch reactor that has a one Liter volume. In this study effect of parameters such as initial pH (3-9), initial concentration of Cefazolin (20-200 mg/L), Modified photocatalyst concentration (20-100 mg/L), reaction time (10-60 min) and CeO2 dose (20-200 mg/L) was investigated. In this study use of low-pressure mercury lamp with a power of 55 watts in stainless case. The kinetic of process according to zero order, first order and second order kinetic was evaluated. Results: The results showed that the highest removal efficiency of antibiotics cefazolin in the process at the pH = 3, concentration 0.1 mg/L of Modified photocatalyst, Retention time of 60 min and Cefazolin concentrations of 100 mg/L was 96%. When you change any of the parameters of about optimization, process efficiency was renamed. The results also showed that by increasing the concentration of CeO2, the antibiotic removal efficiency decreased, so that by increasing the concentration of CeO2 from 20 to 200 mg/L, the antibiotic removal efficiency of cefazolin decreased from 91 to 76%. Conclusion: This process has shown high efficiency in removal cefazolin and the ability of this process to reduce the burden on hospital sewage and pollution-producing industries before entering the units and final discharge effluent also contains conventional treatment or used for cefazolin. This process, because of the lack of production waste such as sludge, a process persistent organic pollutants and significant in the treatment process is environmentally friendly. Photocatalytic Degradation Antibiotic CeO2 Activated Carbon Zinc Oxide Aqueous Solutions. Environmental technology. Sanitary engineering Dargahi Abdollah verfasserin aut Alireza Rahmani verfasserin aut Ghorban Asgari verfasserin aut Ghobad Ahmadidoust verfasserin aut In Muhandisī-i Bihdāsht-i Muḥīṭ Alborz University of Medical Sciences, 2017 5(2018), 2, Seite 133-146 (DE-627)1760601349 25884239 nnns volume:5 year:2018 number:2 pages:133-146 https://doaj.org/article/2e1c491bdd3449d085d89d49a41466a8 kostenfrei http://jehe.abzums.ac.ir/browse.php?a_code=A-10-25-65&slc_lang=en&sid=1 kostenfrei https://doaj.org/toc/2383-3211 Journal toc kostenfrei GBV_USEFLAG_A SYSFLAG_A GBV_DOAJ SSG-OLC-PHA AR 5 2018 2 133-146 |
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(DE-627)DOAJ036243531 (DE-599)DOAJ2e1c491bdd3449d085d89d49a41466a8 DE-627 ger DE-627 rakwb per TD1-1066 Mohammad Reza Samarghandi1 verfasserin aut Abstract The Efficiency of Photocatalytic Process ZnO Nanoparticles Embedded on the Synthetic Activated Carbon in Presence of CeO2 for the Removal of Cefazolin Antibiotic from Aqueous Solutions 2018 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Background: Antibiotics to treat an illness or as a growth promoter, to be consumed. A pharmaceutical composition in the form of original or metabolized in the aquatic environment, due to increased bacterial resistance is a concern. Various methods have been used to remove it. The advanced oxidation process due to the ease of use, economical and high performance have attracted a lot of attention. The purpose of this study was to investigate the role of cerium dioxide on process efficiency combined UV/AC+ZnO as an advanced oxidation process is the removal of cefazolin in the aquatic environment. Methods: This experimental study was done in batch reactor that has a one Liter volume. In this study effect of parameters such as initial pH (3-9), initial concentration of Cefazolin (20-200 mg/L), Modified photocatalyst concentration (20-100 mg/L), reaction time (10-60 min) and CeO2 dose (20-200 mg/L) was investigated. In this study use of low-pressure mercury lamp with a power of 55 watts in stainless case. The kinetic of process according to zero order, first order and second order kinetic was evaluated. Results: The results showed that the highest removal efficiency of antibiotics cefazolin in the process at the pH = 3, concentration 0.1 mg/L of Modified photocatalyst, Retention time of 60 min and Cefazolin concentrations of 100 mg/L was 96%. When you change any of the parameters of about optimization, process efficiency was renamed. The results also showed that by increasing the concentration of CeO2, the antibiotic removal efficiency decreased, so that by increasing the concentration of CeO2 from 20 to 200 mg/L, the antibiotic removal efficiency of cefazolin decreased from 91 to 76%. Conclusion: This process has shown high efficiency in removal cefazolin and the ability of this process to reduce the burden on hospital sewage and pollution-producing industries before entering the units and final discharge effluent also contains conventional treatment or used for cefazolin. This process, because of the lack of production waste such as sludge, a process persistent organic pollutants and significant in the treatment process is environmentally friendly. Photocatalytic Degradation Antibiotic CeO2 Activated Carbon Zinc Oxide Aqueous Solutions. Environmental technology. Sanitary engineering Dargahi Abdollah verfasserin aut Alireza Rahmani verfasserin aut Ghorban Asgari verfasserin aut Ghobad Ahmadidoust verfasserin aut In Muhandisī-i Bihdāsht-i Muḥīṭ Alborz University of Medical Sciences, 2017 5(2018), 2, Seite 133-146 (DE-627)1760601349 25884239 nnns volume:5 year:2018 number:2 pages:133-146 https://doaj.org/article/2e1c491bdd3449d085d89d49a41466a8 kostenfrei http://jehe.abzums.ac.ir/browse.php?a_code=A-10-25-65&slc_lang=en&sid=1 kostenfrei https://doaj.org/toc/2383-3211 Journal toc kostenfrei GBV_USEFLAG_A SYSFLAG_A GBV_DOAJ SSG-OLC-PHA AR 5 2018 2 133-146 |
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(DE-627)DOAJ036243531 (DE-599)DOAJ2e1c491bdd3449d085d89d49a41466a8 DE-627 ger DE-627 rakwb per TD1-1066 Mohammad Reza Samarghandi1 verfasserin aut Abstract The Efficiency of Photocatalytic Process ZnO Nanoparticles Embedded on the Synthetic Activated Carbon in Presence of CeO2 for the Removal of Cefazolin Antibiotic from Aqueous Solutions 2018 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Background: Antibiotics to treat an illness or as a growth promoter, to be consumed. A pharmaceutical composition in the form of original or metabolized in the aquatic environment, due to increased bacterial resistance is a concern. Various methods have been used to remove it. The advanced oxidation process due to the ease of use, economical and high performance have attracted a lot of attention. The purpose of this study was to investigate the role of cerium dioxide on process efficiency combined UV/AC+ZnO as an advanced oxidation process is the removal of cefazolin in the aquatic environment. Methods: This experimental study was done in batch reactor that has a one Liter volume. In this study effect of parameters such as initial pH (3-9), initial concentration of Cefazolin (20-200 mg/L), Modified photocatalyst concentration (20-100 mg/L), reaction time (10-60 min) and CeO2 dose (20-200 mg/L) was investigated. In this study use of low-pressure mercury lamp with a power of 55 watts in stainless case. The kinetic of process according to zero order, first order and second order kinetic was evaluated. Results: The results showed that the highest removal efficiency of antibiotics cefazolin in the process at the pH = 3, concentration 0.1 mg/L of Modified photocatalyst, Retention time of 60 min and Cefazolin concentrations of 100 mg/L was 96%. When you change any of the parameters of about optimization, process efficiency was renamed. The results also showed that by increasing the concentration of CeO2, the antibiotic removal efficiency decreased, so that by increasing the concentration of CeO2 from 20 to 200 mg/L, the antibiotic removal efficiency of cefazolin decreased from 91 to 76%. Conclusion: This process has shown high efficiency in removal cefazolin and the ability of this process to reduce the burden on hospital sewage and pollution-producing industries before entering the units and final discharge effluent also contains conventional treatment or used for cefazolin. This process, because of the lack of production waste such as sludge, a process persistent organic pollutants and significant in the treatment process is environmentally friendly. Photocatalytic Degradation Antibiotic CeO2 Activated Carbon Zinc Oxide Aqueous Solutions. Environmental technology. Sanitary engineering Dargahi Abdollah verfasserin aut Alireza Rahmani verfasserin aut Ghorban Asgari verfasserin aut Ghobad Ahmadidoust verfasserin aut In Muhandisī-i Bihdāsht-i Muḥīṭ Alborz University of Medical Sciences, 2017 5(2018), 2, Seite 133-146 (DE-627)1760601349 25884239 nnns volume:5 year:2018 number:2 pages:133-146 https://doaj.org/article/2e1c491bdd3449d085d89d49a41466a8 kostenfrei http://jehe.abzums.ac.ir/browse.php?a_code=A-10-25-65&slc_lang=en&sid=1 kostenfrei https://doaj.org/toc/2383-3211 Journal toc kostenfrei GBV_USEFLAG_A SYSFLAG_A GBV_DOAJ SSG-OLC-PHA AR 5 2018 2 133-146 |
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(DE-627)DOAJ036243531 (DE-599)DOAJ2e1c491bdd3449d085d89d49a41466a8 DE-627 ger DE-627 rakwb per TD1-1066 Mohammad Reza Samarghandi1 verfasserin aut Abstract The Efficiency of Photocatalytic Process ZnO Nanoparticles Embedded on the Synthetic Activated Carbon in Presence of CeO2 for the Removal of Cefazolin Antibiotic from Aqueous Solutions 2018 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Background: Antibiotics to treat an illness or as a growth promoter, to be consumed. A pharmaceutical composition in the form of original or metabolized in the aquatic environment, due to increased bacterial resistance is a concern. Various methods have been used to remove it. The advanced oxidation process due to the ease of use, economical and high performance have attracted a lot of attention. The purpose of this study was to investigate the role of cerium dioxide on process efficiency combined UV/AC+ZnO as an advanced oxidation process is the removal of cefazolin in the aquatic environment. Methods: This experimental study was done in batch reactor that has a one Liter volume. In this study effect of parameters such as initial pH (3-9), initial concentration of Cefazolin (20-200 mg/L), Modified photocatalyst concentration (20-100 mg/L), reaction time (10-60 min) and CeO2 dose (20-200 mg/L) was investigated. In this study use of low-pressure mercury lamp with a power of 55 watts in stainless case. The kinetic of process according to zero order, first order and second order kinetic was evaluated. Results: The results showed that the highest removal efficiency of antibiotics cefazolin in the process at the pH = 3, concentration 0.1 mg/L of Modified photocatalyst, Retention time of 60 min and Cefazolin concentrations of 100 mg/L was 96%. When you change any of the parameters of about optimization, process efficiency was renamed. The results also showed that by increasing the concentration of CeO2, the antibiotic removal efficiency decreased, so that by increasing the concentration of CeO2 from 20 to 200 mg/L, the antibiotic removal efficiency of cefazolin decreased from 91 to 76%. Conclusion: This process has shown high efficiency in removal cefazolin and the ability of this process to reduce the burden on hospital sewage and pollution-producing industries before entering the units and final discharge effluent also contains conventional treatment or used for cefazolin. This process, because of the lack of production waste such as sludge, a process persistent organic pollutants and significant in the treatment process is environmentally friendly. Photocatalytic Degradation Antibiotic CeO2 Activated Carbon Zinc Oxide Aqueous Solutions. Environmental technology. Sanitary engineering Dargahi Abdollah verfasserin aut Alireza Rahmani verfasserin aut Ghorban Asgari verfasserin aut Ghobad Ahmadidoust verfasserin aut In Muhandisī-i Bihdāsht-i Muḥīṭ Alborz University of Medical Sciences, 2017 5(2018), 2, Seite 133-146 (DE-627)1760601349 25884239 nnns volume:5 year:2018 number:2 pages:133-146 https://doaj.org/article/2e1c491bdd3449d085d89d49a41466a8 kostenfrei http://jehe.abzums.ac.ir/browse.php?a_code=A-10-25-65&slc_lang=en&sid=1 kostenfrei https://doaj.org/toc/2383-3211 Journal toc kostenfrei GBV_USEFLAG_A SYSFLAG_A GBV_DOAJ SSG-OLC-PHA AR 5 2018 2 133-146 |
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(DE-627)DOAJ036243531 (DE-599)DOAJ2e1c491bdd3449d085d89d49a41466a8 DE-627 ger DE-627 rakwb per TD1-1066 Mohammad Reza Samarghandi1 verfasserin aut Abstract The Efficiency of Photocatalytic Process ZnO Nanoparticles Embedded on the Synthetic Activated Carbon in Presence of CeO2 for the Removal of Cefazolin Antibiotic from Aqueous Solutions 2018 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Background: Antibiotics to treat an illness or as a growth promoter, to be consumed. A pharmaceutical composition in the form of original or metabolized in the aquatic environment, due to increased bacterial resistance is a concern. Various methods have been used to remove it. The advanced oxidation process due to the ease of use, economical and high performance have attracted a lot of attention. The purpose of this study was to investigate the role of cerium dioxide on process efficiency combined UV/AC+ZnO as an advanced oxidation process is the removal of cefazolin in the aquatic environment. Methods: This experimental study was done in batch reactor that has a one Liter volume. In this study effect of parameters such as initial pH (3-9), initial concentration of Cefazolin (20-200 mg/L), Modified photocatalyst concentration (20-100 mg/L), reaction time (10-60 min) and CeO2 dose (20-200 mg/L) was investigated. In this study use of low-pressure mercury lamp with a power of 55 watts in stainless case. The kinetic of process according to zero order, first order and second order kinetic was evaluated. Results: The results showed that the highest removal efficiency of antibiotics cefazolin in the process at the pH = 3, concentration 0.1 mg/L of Modified photocatalyst, Retention time of 60 min and Cefazolin concentrations of 100 mg/L was 96%. When you change any of the parameters of about optimization, process efficiency was renamed. The results also showed that by increasing the concentration of CeO2, the antibiotic removal efficiency decreased, so that by increasing the concentration of CeO2 from 20 to 200 mg/L, the antibiotic removal efficiency of cefazolin decreased from 91 to 76%. Conclusion: This process has shown high efficiency in removal cefazolin and the ability of this process to reduce the burden on hospital sewage and pollution-producing industries before entering the units and final discharge effluent also contains conventional treatment or used for cefazolin. This process, because of the lack of production waste such as sludge, a process persistent organic pollutants and significant in the treatment process is environmentally friendly. Photocatalytic Degradation Antibiotic CeO2 Activated Carbon Zinc Oxide Aqueous Solutions. Environmental technology. Sanitary engineering Dargahi Abdollah verfasserin aut Alireza Rahmani verfasserin aut Ghorban Asgari verfasserin aut Ghobad Ahmadidoust verfasserin aut In Muhandisī-i Bihdāsht-i Muḥīṭ Alborz University of Medical Sciences, 2017 5(2018), 2, Seite 133-146 (DE-627)1760601349 25884239 nnns volume:5 year:2018 number:2 pages:133-146 https://doaj.org/article/2e1c491bdd3449d085d89d49a41466a8 kostenfrei http://jehe.abzums.ac.ir/browse.php?a_code=A-10-25-65&slc_lang=en&sid=1 kostenfrei https://doaj.org/toc/2383-3211 Journal toc kostenfrei GBV_USEFLAG_A SYSFLAG_A GBV_DOAJ SSG-OLC-PHA AR 5 2018 2 133-146 |
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TD1-1066 Abstract The Efficiency of Photocatalytic Process ZnO Nanoparticles Embedded on the Synthetic Activated Carbon in Presence of CeO2 for the Removal of Cefazolin Antibiotic from Aqueous Solutions Photocatalytic Degradation Antibiotic CeO2 Activated Carbon Zinc Oxide Aqueous Solutions |
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abstract the efficiency of photocatalytic process zno nanoparticles embedded on the synthetic activated carbon in presence of ceo2 for the removal of cefazolin antibiotic from aqueous solutions |
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Abstract The Efficiency of Photocatalytic Process ZnO Nanoparticles Embedded on the Synthetic Activated Carbon in Presence of CeO2 for the Removal of Cefazolin Antibiotic from Aqueous Solutions |
abstract |
Background: Antibiotics to treat an illness or as a growth promoter, to be consumed. A pharmaceutical composition in the form of original or metabolized in the aquatic environment, due to increased bacterial resistance is a concern. Various methods have been used to remove it. The advanced oxidation process due to the ease of use, economical and high performance have attracted a lot of attention. The purpose of this study was to investigate the role of cerium dioxide on process efficiency combined UV/AC+ZnO as an advanced oxidation process is the removal of cefazolin in the aquatic environment. Methods: This experimental study was done in batch reactor that has a one Liter volume. In this study effect of parameters such as initial pH (3-9), initial concentration of Cefazolin (20-200 mg/L), Modified photocatalyst concentration (20-100 mg/L), reaction time (10-60 min) and CeO2 dose (20-200 mg/L) was investigated. In this study use of low-pressure mercury lamp with a power of 55 watts in stainless case. The kinetic of process according to zero order, first order and second order kinetic was evaluated. Results: The results showed that the highest removal efficiency of antibiotics cefazolin in the process at the pH = 3, concentration 0.1 mg/L of Modified photocatalyst, Retention time of 60 min and Cefazolin concentrations of 100 mg/L was 96%. When you change any of the parameters of about optimization, process efficiency was renamed. The results also showed that by increasing the concentration of CeO2, the antibiotic removal efficiency decreased, so that by increasing the concentration of CeO2 from 20 to 200 mg/L, the antibiotic removal efficiency of cefazolin decreased from 91 to 76%. Conclusion: This process has shown high efficiency in removal cefazolin and the ability of this process to reduce the burden on hospital sewage and pollution-producing industries before entering the units and final discharge effluent also contains conventional treatment or used for cefazolin. This process, because of the lack of production waste such as sludge, a process persistent organic pollutants and significant in the treatment process is environmentally friendly. |
abstractGer |
Background: Antibiotics to treat an illness or as a growth promoter, to be consumed. A pharmaceutical composition in the form of original or metabolized in the aquatic environment, due to increased bacterial resistance is a concern. Various methods have been used to remove it. The advanced oxidation process due to the ease of use, economical and high performance have attracted a lot of attention. The purpose of this study was to investigate the role of cerium dioxide on process efficiency combined UV/AC+ZnO as an advanced oxidation process is the removal of cefazolin in the aquatic environment. Methods: This experimental study was done in batch reactor that has a one Liter volume. In this study effect of parameters such as initial pH (3-9), initial concentration of Cefazolin (20-200 mg/L), Modified photocatalyst concentration (20-100 mg/L), reaction time (10-60 min) and CeO2 dose (20-200 mg/L) was investigated. In this study use of low-pressure mercury lamp with a power of 55 watts in stainless case. The kinetic of process according to zero order, first order and second order kinetic was evaluated. Results: The results showed that the highest removal efficiency of antibiotics cefazolin in the process at the pH = 3, concentration 0.1 mg/L of Modified photocatalyst, Retention time of 60 min and Cefazolin concentrations of 100 mg/L was 96%. When you change any of the parameters of about optimization, process efficiency was renamed. The results also showed that by increasing the concentration of CeO2, the antibiotic removal efficiency decreased, so that by increasing the concentration of CeO2 from 20 to 200 mg/L, the antibiotic removal efficiency of cefazolin decreased from 91 to 76%. Conclusion: This process has shown high efficiency in removal cefazolin and the ability of this process to reduce the burden on hospital sewage and pollution-producing industries before entering the units and final discharge effluent also contains conventional treatment or used for cefazolin. This process, because of the lack of production waste such as sludge, a process persistent organic pollutants and significant in the treatment process is environmentally friendly. |
abstract_unstemmed |
Background: Antibiotics to treat an illness or as a growth promoter, to be consumed. A pharmaceutical composition in the form of original or metabolized in the aquatic environment, due to increased bacterial resistance is a concern. Various methods have been used to remove it. The advanced oxidation process due to the ease of use, economical and high performance have attracted a lot of attention. The purpose of this study was to investigate the role of cerium dioxide on process efficiency combined UV/AC+ZnO as an advanced oxidation process is the removal of cefazolin in the aquatic environment. Methods: This experimental study was done in batch reactor that has a one Liter volume. In this study effect of parameters such as initial pH (3-9), initial concentration of Cefazolin (20-200 mg/L), Modified photocatalyst concentration (20-100 mg/L), reaction time (10-60 min) and CeO2 dose (20-200 mg/L) was investigated. In this study use of low-pressure mercury lamp with a power of 55 watts in stainless case. The kinetic of process according to zero order, first order and second order kinetic was evaluated. Results: The results showed that the highest removal efficiency of antibiotics cefazolin in the process at the pH = 3, concentration 0.1 mg/L of Modified photocatalyst, Retention time of 60 min and Cefazolin concentrations of 100 mg/L was 96%. When you change any of the parameters of about optimization, process efficiency was renamed. The results also showed that by increasing the concentration of CeO2, the antibiotic removal efficiency decreased, so that by increasing the concentration of CeO2 from 20 to 200 mg/L, the antibiotic removal efficiency of cefazolin decreased from 91 to 76%. Conclusion: This process has shown high efficiency in removal cefazolin and the ability of this process to reduce the burden on hospital sewage and pollution-producing industries before entering the units and final discharge effluent also contains conventional treatment or used for cefazolin. This process, because of the lack of production waste such as sludge, a process persistent organic pollutants and significant in the treatment process is environmentally friendly. |
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Abstract The Efficiency of Photocatalytic Process ZnO Nanoparticles Embedded on the Synthetic Activated Carbon in Presence of CeO2 for the Removal of Cefazolin Antibiotic from Aqueous Solutions |
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