Author
Listed:
- Jesús Fernando Martínez-Villafañe
(Faculty of Engineering, Autonomous University of Coahuila, Blvd. Fundadores km 13 University City, Arteaga 25350, Mexico)
- Juan Carlos Ortiz-Cuellar
(Faculty of Engineering, Autonomous University of Coahuila, Blvd. Fundadores km 13 University City, Arteaga 25350, Mexico)
- Jesús Salvador Galindo-Valdés
(Faculty of Engineering, Autonomous University of Coahuila, Blvd. Fundadores km 13 University City, Arteaga 25350, Mexico)
- Francisco Cepeda-Rodríguez
(Faculty of Engineering, Autonomous University of Coahuila, Blvd. Fundadores km 13 University City, Arteaga 25350, Mexico)
- Josué Gómez-Casas
(Faculty of Engineering, Autonomous University of Coahuila, Blvd. Fundadores km 13 University City, Arteaga 25350, Mexico)
- Nelly Abigaíl Rodríguez-Rosales
(Departamento de Metal Mecánica, Tecnologico Nacional de Mexico/I.T. Saltillo, Saltillo 25280, Mexico)
- Oziel Gómez-Casas
(Faculty of Engineering, Autonomous University of Coahuila, Blvd. Fundadores km 13 University City, Arteaga 25350, Mexico)
- Carlos Rodrigo Muñiz-Valdez
(Faculty of Engineering, Autonomous University of Coahuila, Blvd. Fundadores km 13 University City, Arteaga 25350, Mexico)
Abstract
In this research, the effect of the interelectrode distance (d) in the electrocoagulation (EC) reactor was studied. The experiments were carried out with varying d in values of 3, 5, and 9 mm during the treatment of water contaminated with fluoride (F − ). The response variables analyzed were the treatment time necessary to reduce the residual concentration of F − to 1.5 mg L −1 , the number of aluminum hydroxides formed, the potential drop in the reactor terminals, and the electric power consumption of the reactor. The software FLUENT version 6.3 was employed to simulate the liquid velocity profiles achieved in the reactor chamber. The results obtained show that the liquid velocity increases in the interelectrode spaces to 0.48, 0.65, and 0.86 m s −1 for interelectrode distances of 9, 5, and 3 mm, respectively, which favors not only the formation of flocs but also the elimination of fluoride. With a shorter interelectrode distance, the EC reactor not only consumes less electrical energy but also fewer electrodes, and the dispersion of generated flocs in the reactor chamber is major, which is more important than the quantity of flocs generated in it.
Suggested Citation
Jesús Fernando Martínez-Villafañe & Juan Carlos Ortiz-Cuellar & Jesús Salvador Galindo-Valdés & Francisco Cepeda-Rodríguez & Josué Gómez-Casas & Nelly Abigaíl Rodríguez-Rosales & Oziel Gómez-Casas & C, 2022.
"Interelectrode Distance Analysis in the Water Defluoridation by Electrocoagulation Reactor,"
Sustainability, MDPI, vol. 14(19), pages 1-8, September.
Handle:
RePEc:gam:jsusta:v:14:y:2022:i:19:p:12096-:d:924204
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References listed on IDEAS
- Rakhmania & Hesam Kamyab & Muhammad Ali Yuzir & Norhayati Abdullah & Le Minh Quan & Fatimah Azizah Riyadi & Riadh Marzouki, 2022.
"Recent Applications of the Electrocoagulation Process on Agro-Based Industrial Wastewater: A Review,"
Sustainability, MDPI, vol. 14(4), pages 1-19, February.
- D. Marmanis & C. Emmanouil & J. G. Fantidis & A. Thysiadou & K. Marmani, 2022.
"Description of a Fe/Al Electrocoagulation Method Powered by a Photovoltaic System, for the (Pre-)Treatment of Municipal Wastewater of a Small Community in Northern Greece,"
Sustainability, MDPI, vol. 14(7), pages 1-16, April.
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