Oily Wastewater Treatment by Using Fe3O4/Bentonite in Fixed-Bed Adsorption Column

Mohammed A. Sarran; Adnan A. AbdulRazak; Mohammed F. Abid; Alaa Dhari Jawad Al-Bayati; Khalid T. Rashid; Mohammed Ahmed Shehab; Haidar Hasan Mohammed; Saad Alsarayefi; Mahmood Alhafadhi; Mohammed Alktranee

doi:10.3390/chemengineering8050092

ChemEngineering (Sep 2024)

Oily Wastewater Treatment by Using Fe3O4/Bentonite in Fixed-Bed Adsorption Column

Mohammed A. Sarran,
Adnan A. AbdulRazak,
Mohammed F. Abid,
Alaa Dhari Jawad Al-Bayati,
Khalid T. Rashid,
Mohammed Ahmed Shehab,
Haidar Hasan Mohammed,
Saad Alsarayefi,
Mahmood Alhafadhi,
Mohammed Alktranee

Affiliations

Mohammed A. Sarran: Department of Chemical Engineering, University of Technology, Baghdad 10066, Iraq
Adnan A. AbdulRazak: Department of Chemical Engineering, University of Technology, Baghdad 10066, Iraq
Mohammed F. Abid: Department of Petroleum & Gas Refining Engineering, Al-Turath University, Baghdad 27134, Iraq
Alaa Dhari Jawad Al-Bayati: Chemical Engineering & Petroleum Industries Department, College of Engineering & Engineering Technologies, Al-Mustaqbal University, Hilla 51001, Iraq
Khalid T. Rashid: Department of Chemical Engineering, University of Technology, Baghdad 10066, Iraq
Mohammed Ahmed Shehab: Faculty of Materials and Chemical Engineering, University of Miskolc, H-3515 Miskolc, Hungary
Haidar Hasan Mohammed: Thermodynamics and Mathematical Physics Unit, Faculty of Engineering, University of Mons, 7000 Mons, Belgium
Saad Alsarayefi: Petroleum & Gas Engineering Department, University of Thi-Qar, Nasiriyah 64001, Iraq
Mahmood Alhafadhi: Department of Mechanical Engineering, University of Sumer, Al Rifaee 64005, Iraq
Mohammed Alktranee: Department of Mechanical Techniques, Technical Institute of Basra, Southern Technical University, Basra 61006, Iraq

DOI: https://doi.org/10.3390/chemengineering8050092
Journal volume & issue: Vol. 8, no. 5
p. 92

Abstract

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Oily wastewater is a major environmental issue resulting from different industrial and manufacturing activities. Contaminated water with oil represents a significant environmental hazard that can harm numerous life forms. Several methodologies have been tested for the removal of oily wastewater from aqueous solutions, and adsorption in a flow-through reactor is an effective mechanism to reduce these effluents. This study focuses on evaluating the ability of Fe3O4/Bent material to adsorb gasoline emulsion from a solution using a fixed-bed column, and it involves analyzing the resulting breakthrough curves. The FT-IR, SEM, EDX, and XRD techniques were used to characterize Fe3O4/Bent. Various ranges of variables were examined, including bed height (2–4 cm), flow rate (3–3.8 mL/min), and initial concentration (200–1000 mg/L), to determine their impacts on the mass transfer zone (MTZ) length and the adsorption capacity (qe). It was shown that a higher bed height and a lower flow rate contributed to a longer time of breakthrough and exhaustion. At the same time, it was noted that under high initial gasoline concentrations, the fixed-bed system rapidly reached breakthrough and exhaustion. Models like the Yoon–Nelson and Thomas kinetic column models were employed to predict the breakthrough curves. Thomas and Yoon–Nelson’s breakthrough models provided a good fit for the breakthrough curves with a correlation coefficient of R2 > 0.95. Furthermore, with a fixed-bed system, the Thomas and Yoon–Nelson models best describe the breakthrough curves for gasoline removal.

Published in ChemEngineering

ISSN: 2305-7084 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science: Chemistry
Website: http://www.mdpi.com/journal/ChemEngineering

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