Efficiency of Advanced H2O2/ZnO Oxidation Process in Ceftriaxone Antibiotic Removal from Aqueous Solutions

Q: How can I download an article?

To download an article from SID, first log in to the site, search for the article title, and click on the 'Download Article' option.

Q: How can I download an ISI article?

To download an ISI article on SID, enter the keyword or article title in the search bar, view the relevant results, click on the desired article, and select the 'Download Article' option.

Q: How can I access the SID database?

To access the SID database, visit SID.ir, create an account, and log in to access scientific resources.

Q: Is downloading articles from SID free?

Some articles on SID are available for free, while others require payment. Details are specified on the article's page.

Noroozi cholcheh Maryam; FADAEI ABDOLMAJID; MOHAMMADI MOGHADAM FAZEL; Mardani Goshtasb

مرکز اطلاعات علمی Scientific Information Database (SID) - Trusted Source for Research and Academic Resources

Journal Paper

Paper Information

Journal: WATER AND WASTEWATER Year:2017 | Volume:28 | Issue:5 Page(s): 39-47

Download Full-Text

Persian Verion

View:

694

Download:

Cites:

Information Journal Paper

Title

Efficiency of Advanced H2O2/ZnO Oxidation Process in Ceftriaxone Antibiotic Removal from Aqueous Solutions

Author(s)

Noroozi cholcheh Maryam | FADAEI ABDOLMAJID | MOHAMMADI MOGHADAM FAZEL | Mardani Goshtasb | Issue Writer Certificate

Keywords

Advance Oxidation ProcessesQ2

ZnOQ1

AntibioticQ1

CeftriaxoneQ1

Hydrogen peroxideQ3

Abstract

A major concern about pharmaceutical pollution is the presence of Antibiotics in water resources through their release into sewers where they cause bacterial resistance and enhanced drug-resistance in human-borne pathogens and growing microbial populations in the environment. The objective of this study was to investigate the efficiency of the advanced H2O2/ZnO oxidation process in removing Ceftriaxone from aqueous solutions. For this purpose, an experimental study was conducted in which the SEM, XRD, and TEM techniques were employed to determine the size of Zinc oxide nano-particles. Additionally, the oxidation process parameters of pH (3-11), molar ratio of H2O2/ZnO (1. 5-3), initial concentration of Ceftriaxone (5– 15 mg/L), and contact time (30-90 min) were investigated. Teh data thus obntained were subjected top statistical analysis using the SPSS (ANOVA test). XRD results revealeda hexagonal crystal structure for the nano-ZnO. TEM images confirmed the spherical shape of the nanoparticles. Finally, SEM images revealed that the Zn nanoparticles used in this study were less than 30 nanometers in diameter. Based on the results, an optimum pH of 11, a contact time of 90 minutes, and a H2O2/ZnO molar ratio equal to 1. 5 were the optimum conditions to achieve a Ceftriaxone removal efficiency of 92%. The advance H2O2/ZnO oxidation process may thus be claimed to be highly capable of removing Ceftriaxone from aqueous solutions.

Cites

Evaluation of the efficiency of a photocatalytic process using the magnetic nanocatalyst (Fe3O4@SiO2@TiO2) in the removal of ceftriaxone from aqueous solutions

References

Cite

APA: Copy

Noroozi cholcheh, Maryam, FADAEI, ABDOLMAJID, MOHAMMADI MOGHADAM, FAZEL, & Mardani, Goshtasb. (2017). Efficiency of Advanced H2O2/ZnO Oxidation Process in Ceftriaxone Antibiotic Removal from Aqueous Solutions. WATER AND WASTEWATER, 28(5 ), 39-47. SID. https://sid.ir/paper/103390/en

Vancouver: Copy

Noroozi cholcheh Maryam, FADAEI ABDOLMAJID, MOHAMMADI MOGHADAM FAZEL, Mardani Goshtasb. Efficiency of Advanced H2O2/ZnO Oxidation Process in Ceftriaxone Antibiotic Removal from Aqueous Solutions. WATER AND WASTEWATER[Internet]. 2017;28(5 ):39-47. Available from: https://sid.ir/paper/103390/en

IEEE: Copy

Maryam Noroozi cholcheh, ABDOLMAJID FADAEI, FAZEL MOHAMMADI MOGHADAM, and Goshtasb Mardani, “Efficiency of Advanced H2O2/ZnO Oxidation Process in Ceftriaxone Antibiotic Removal from Aqueous Solutions,” WATER AND WASTEWATER, vol. 28, no. 5 , pp. 39–47, 2017, [Online]. Available: https://sid.ir/paper/103390/en

Related Journal Papers