Abstract:Background: The presence of pharmaceutical substances and their residual in water resources is an important environmental concern. Azithromycin, an antibiotic that is used for the treatment of infectious diseases, is a pollutant agent in the wastewater. The aim of this study was to investigate azithromycin degradation in aqueous solution through ultrasonic process in the presence of zinc oxide nanoparticles as catalysts. Methods: Sonocatalytic experiments were performed at variable conditions including pH (3-8… Show more
“… Yazdani and Sayadi (2018) , in studies using sonochemistry in AZI degradation, have shown that the pH has a significant effect on the AZI degradation, while temperature and contact time have a less significant effect. The experimental conditions in which 90.59% AZI degradation was achieved were temperature = 40 ⁰C, initial concentration of AZI = 20 mg L −1 , pH = 3, after 15 min and using low-frequency ultrasound (35 kHz), as shown in Fig.…”
Section: Photomediated and Advanced Oxidative Processes For Removing Drugs From The Kit-covidmentioning
confidence: 99%
“…The experimental conditions in which 90.59% AZI degradation was achieved were temperature = 40 ⁰C, initial concentration of AZI = 20 mg L −1 , pH = 3, after 15 min and using low-frequency ultrasound (35 kHz), as shown in Fig. 11 ( Yazdani and Sayadi, 2018 ). Figure 11 (a) Changes of HCQ with the applied electric charge during electrochemical oxidation (EO), sono-assisted electrochemical oxidation (SEO), photo-assisted electrochemical oxidation (PEO) of HCQ in aqueous solution using BDD anode ( Bensalah et al 2020 ).…”
Section: Photomediated and Advanced Oxidative Processes For Removing Drugs From The Kit-covidmentioning
confidence: 99%
“… AZI 100 ( De la Cruz et al, 2012 ) SC Anode = BDD; Cathode = Stainless steel; pH = 7.1; j = 20 mA cm −2 ; [Na 2 SO 4 ] = 0.05 mol L −1 ; [HCQ] = 250 mg L −1 ; Sonication power = 8.5 W. HCQ 26 ( Bensalah et al, 2020 ) SC Catalyst = 0.25 – 2 g L −1 ZnO nanoparticles; pH = 3 – 8; [H 2 O 2 ] = 15 – 100 mg L −1 ; [AZI] = 10 – 100 mg L −1 ; Ultrasonic device at a frequency of 35 kHz. AZI 98.4 ( Yazdani and Sayadi, 2018 ) Where: λ – wavelength (nm); BDD – boron doped diamond …”
Section: Photomediated and Advanced Oxidative Processes For Removing Drugs From The Kit-covidmentioning
confidence: 99%
“…The results obtained by the authors showed that degradation begins with the dealkylation of the aromatic ring and the formation of 7-chloro-4-quinoline amine (CQLA) in the first stage of oxidation, followed by the release of chloride ions. Figure 12 Effect of temperature on AZI degradation using low-frequency ultrasound (35 kHz) at contaminant concentration = 40 mg L −1 , catalyst concentration = 1 g L −1 , time = 15 min, and pH = 3 ( Yazdani and Sayadi, 2018 ). …”
Section: Photomediated and Advanced Oxidative Processes For Removing Drugs From The Kit-covidmentioning
“… Yazdani and Sayadi (2018) , in studies using sonochemistry in AZI degradation, have shown that the pH has a significant effect on the AZI degradation, while temperature and contact time have a less significant effect. The experimental conditions in which 90.59% AZI degradation was achieved were temperature = 40 ⁰C, initial concentration of AZI = 20 mg L −1 , pH = 3, after 15 min and using low-frequency ultrasound (35 kHz), as shown in Fig.…”
Section: Photomediated and Advanced Oxidative Processes For Removing Drugs From The Kit-covidmentioning
confidence: 99%
“…The experimental conditions in which 90.59% AZI degradation was achieved were temperature = 40 ⁰C, initial concentration of AZI = 20 mg L −1 , pH = 3, after 15 min and using low-frequency ultrasound (35 kHz), as shown in Fig. 11 ( Yazdani and Sayadi, 2018 ). Figure 11 (a) Changes of HCQ with the applied electric charge during electrochemical oxidation (EO), sono-assisted electrochemical oxidation (SEO), photo-assisted electrochemical oxidation (PEO) of HCQ in aqueous solution using BDD anode ( Bensalah et al 2020 ).…”
Section: Photomediated and Advanced Oxidative Processes For Removing Drugs From The Kit-covidmentioning
confidence: 99%
“… AZI 100 ( De la Cruz et al, 2012 ) SC Anode = BDD; Cathode = Stainless steel; pH = 7.1; j = 20 mA cm −2 ; [Na 2 SO 4 ] = 0.05 mol L −1 ; [HCQ] = 250 mg L −1 ; Sonication power = 8.5 W. HCQ 26 ( Bensalah et al, 2020 ) SC Catalyst = 0.25 – 2 g L −1 ZnO nanoparticles; pH = 3 – 8; [H 2 O 2 ] = 15 – 100 mg L −1 ; [AZI] = 10 – 100 mg L −1 ; Ultrasonic device at a frequency of 35 kHz. AZI 98.4 ( Yazdani and Sayadi, 2018 ) Where: λ – wavelength (nm); BDD – boron doped diamond …”
Section: Photomediated and Advanced Oxidative Processes For Removing Drugs From The Kit-covidmentioning
confidence: 99%
“…The results obtained by the authors showed that degradation begins with the dealkylation of the aromatic ring and the formation of 7-chloro-4-quinoline amine (CQLA) in the first stage of oxidation, followed by the release of chloride ions. Figure 12 Effect of temperature on AZI degradation using low-frequency ultrasound (35 kHz) at contaminant concentration = 40 mg L −1 , catalyst concentration = 1 g L −1 , time = 15 min, and pH = 3 ( Yazdani and Sayadi, 2018 ). …”
Section: Photomediated and Advanced Oxidative Processes For Removing Drugs From The Kit-covidmentioning
“…The pharmacological active compounds (PhACs) are an important, emerging group of organic contaminants that are persistent and show toxicity. They produce active metabolites when released into aquatic environments [ 1 , 2 ]. These compounds enter into the environment from the pharmaceutical industries, hospitals, and municipal wastewater treatment plants and after consumption in agriculture and aquaculture [ 3 ].…”
This study aimed to synthesize a new magnetic photocatalytic nanosystem composed of Ag-CuFe2O4@WO3 and to investigate its photodegradation efficiency for two drug pollutants of Gemfibrozil (GEM) and Tamoxifen (TAM) under Ultraviolet (UV) light irradiation. In this regard, the effect of pH, catalyst dosage, and drug concentration was thoroughly determined. The largest photodegradation level for GEM (81%) and TAM (83%) was achieved at pH 5, a photocatalyst dosage of 0.2 g/L, drug concentration of 5 mg/L, and contact time of 150 min. The drug photodegradation process followed the pseudo first-order kinetic model. In addition to the photodegradation effect, the nanocomposites were proved to be efficient in terms of antibacterial activity, proportional to the Ag doping level. The Ag-CuFe2O4@WO3 nanocomposite exhibited a stable, efficient performance without an obvious catalytic loss after five successive cycles. Taken together, the developed magnetic photocatalyst is able to simultaneously disinfect wastewater streams and to degrade pharmaceutical contaminants and thus shows a promising potential for purification of multi-contaminant water systems.
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