Enhancing the removal of total dissolved solids from petroleum wastewater through electrocoagulation

Enhancing the removal of total dissolved solids from petroleum wastewater through electrocoagulation

This study aims to employ an electrocoagulation reactor to treat petroleum effluent from a local plant and reduce dissolved solids (TDS) to suitable levels for reuse. A continuous reactor configuration featured a finned stainless steel cathode tube positioned between two cylindrical aluminum anodes....

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Bibliographic Details
Main Authors: Muhammad Jasim, Forat AlJaberi, Saja Alardhi, Ali Salman, Mustafa Hathal, Igor Cretescu, Armando Vargas
Format: Article
Language:English
Published: Unviversity of Technology- Iraq 2025-03-01
Series:Engineering and Technology Journal
Subjects:
petroleum effluent
total dissolved solids
electrocoagulation process
electrodes consumption
finned cathode tube
Online Access:https://etj.uotechnology.edu.iq/article_186819_92f99d4875948bfdfad8c3e22b0ec0bb.pdf
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Summary:This study aims to employ an electrocoagulation reactor to treat petroleum effluent from a local plant and reduce dissolved solids (TDS) to suitable levels for reuse. A continuous reactor configuration featured a finned stainless steel cathode tube positioned between two cylindrical aluminum anodes. This study explored the influence of treatment duration (4–60 minutes), current density (0–6.0 mA.cm-2), and influent rate (50–150 ml/min) on the final TDS value. Flow rate increase correlated with increased final TDS values, while longer electrolysis durations and higher current densities led to decreased TDS levels. Optimized electrolysis conditions at 1 hour, 5 mA.cm-2, and 50 ml/min, with inner and outer anode consumptions of 0.18 g and 0.45 g, respectively, achieved a final TDS of 2000.45 mg/l, representing a reduction of 207.55 mg/l. The regression model, with a p-value of 0.0001, F-value of 219.37, and R2 of 99.75%, demonstrated the significance of the model components, indicating its robustness. The energy consumption was 3.65 kWh/m3, and the total operating cost was only 0.74 $ per m3. This study confirms the efficacy of the novel continuous reactor in managing petroleum wastewater under practical conditions with low consumption values of electrodes and electrical energy.
ISSN:1681-6900
2412-0758

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