Analysis of the factors controlling the performance of a photoelectrocatalytic cell separated by UF membrane in degradin
- PDF / 739,662 Bytes
- 10 Pages / 595.276 x 790.866 pts Page_size
- 25 Downloads / 139 Views
RESEARCH
Analysis of the factors controlling the performance of a photoelectrocatalytic cell separated by UF membrane in degrading methylene blue Seyed Ali Rahmaninezhad 1
&
Nasser Mehrdadi 1 & Zaynab Mahzari 1
Received: 9 January 2020 / Revised: 14 July 2020 / Accepted: 18 September 2020 # Australian Ceramic Society 2020
Abstract Methylene blue (MB) is a toxic and colorful organic matter that exists in the wastewater of textile industries. Difficult biodegradability of MB causes biological treatment methods that cannot sufficiently biodegrade it. In photoelectrocatalytic (PEC) methods, by converting the radiation energy to the electricity, MB is degraded efficiently in the anolyte chamber. Using the ultrafiltration (UF) membrane rather than a high-priced cation exchange membrane (CEM) decreases the cost of the PEC pilot. Therefore, in this study, different dependent and independent variables that affect the performance of the PEC are investigated to evaluate the technical feasibility of using ultra-filtration membrane as a separator of anode and cathode chambers. The results demonstrate an increase in the anolyte MB concentration up to 15 mg/l augments the PEC performance. In the best condition, the MB, turbidity, and color removal percent are 51.56%, 65.62%, and 64.19%, respectively, and produced power is 1.075 μW when the anolyte MB concentration, the pH, and the illumination density are 15 mg/l, 3, and 12 W, respectively. Also, the results indicate the removal percentage of the MB, turbidity, and color in either anolyte or catholyte rises in the anolyte acidic conditions and higher illumination densities. Besides, the changes in the EC and pH of anode and cathode chambers during the experiment are investigated, and finally, the relations between MB, color, and turbidity removal percentage are evaluated. As a result, it is found that the UF membrane is a suitable candidate to be used in PEC pilots. Keywords Methylene blue . Organic matters . Photoelectrocatalytic degradation . Textile industries . Ultrafiltration membrane
Introduction The wastewater of textile industries, like painting, contains dangerous organic pollutants [1, 2]. Methylene blue (MB) as one of the dye compounds is highly colored, toxic, carcinogenic, and hardly biodegradable with heterocyclic, aromatic, and cationic structures [1, 3, 4] used in wool, cotton, and silk painting that are potentially harmful to human in direct contact [2]. Therefore, they should be adequately treated before discharge to the environment [2]. Photoelectrocatalytic (PEC) method is a kind of advanced oxidation process (AOPs) which could effectively and efficiently degrade organic pollutants [1–12] during anodic and cathodic
* Seyed Ali Rahmaninezhad [email protected]; [email protected] 1
School of Environment, College of Engineering, University of Tehran, Tehran, Iran
half-reactions [10, 11]. PEC technology has a variety of advantages in comparison with other AOPs. High organic removal efficiency [1–3, 7–9, 11, 13], no need for post-treatment to
Data Loading...
