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Modeling of photodegradation process to remove the higher concentration of environmental pollution


Citation

Abdollahi, Yadollah and Zakaria, Azmi and Mohd Said, Suhana and Mohd Sabri, Mohd Faizul and Sairi, Nor Asrina and Rezayi, Majid and Abouzari-Lotf, Ebrahim and Dorraj, Masoumeh and Islam, Aminul (2016) Modeling of photodegradation process to remove the higher concentration of environmental pollution. Desalination and Water Treatment, 57 (1). pp. 191-201. ISSN 1944-3994; ESSN: 1944-3986

Abstract / Synopsis

Environmental organic pollutants are mineralized to harmless final-products such H2O and CO2 by photocatalytic advanced oxidation processes (AOPs). In photocatalytic-AOPs, an appropriate concentration of p-Cresol was mixed with certain amount of ZnO in 500 mL deionized water according to an experimental-design. Then the mixture was irradiated by UV-A lamp at different pH for 6 h. At specific time intervals, the sampling was carried out to calculate the efficiency of the photodegradation. Therefore, the photodegradation as a system consists of four input variables such irradiation time, pH, amount of ZnO and p-Cresol’s concentration while the only output was the efficiency. In this work, the system was modeled and optimized by semi-empirical response surface methodology. To obtain the empirical responses, the design was performed in laboratory. Then observed responses were fitted with several well-known models by regression process to suggest a provisional model. The suggested model which was validated by several statistical evidence, predicted the desirable condition with higher efficiency. The predicted condition consisted of irradiation time (280 min), pH (7.9), photocatalyst (1.5 g L−1), p-Cresol (95 mg L−1) and efficiency (95%) which confirmed by further experiments. The closed confirmation results has presented the removal (efficiency = 94.7%) of higher p-Cresol concentration (95 mg L−1) at shorter irradiation time in comparison with the normal photodegradation efficiency (97%) which included irradiation time (300 min), pH (7.5), photocatalyst amount (1.5 g L−1) and p-Cresol (75 mg L−1). As a conclusion, the modeling which is able to industrial scale up succeeded to remove higher concentration of environmental organic pollutants with ignorable reduction of efficiency.


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Additional Metadata

Item Type: Article
Divisions: Faculty of Science
Institute of Advanced Technology
DOI Number: https://doi.org/10.1080/19443994.2015.1043497
Publisher: Taylor & Francis
Keywords: AOPs; Environment; Multivariate-modeling; Optimization; Organic-pollutant; Photocatalyst; Photodegradation; RSM; Water treatment; ZnO
Depositing User: Nurul Ainie Mokhtar
Date Deposited: 08 Jun 2016 16:56
Last Modified: 08 Jun 2016 16:56
Altmetrics: http://www.altmetric.com/details.php?domain=psasir.upm.edu.my&doi=10.1080/19443994.2015.1043497
URI: http://psasir.upm.edu.my/id/eprint/26997
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