Raw landfill leachate treatment using an electrocoagulation process with a novel rotating electrode reactor

Naje, Ahmed Samir; Ajeel, Mohammed A.; Ali, Isam Mohamad; Al-Zubaidi, Hussein A. M.; Alaba, Peter Adeniyi

doi:10.2166/wst.2019.289

Cited by 23 publications

(10 citation statements)

References 20 publications

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“…Also, the passivation effect occurring on the electron's surface was improved or eliminated. 31 Naje et al 32 confirmed the previous results by using a rotating anode in a different configuration for the treatment of landfill leachate. The rotating anode consisted of a vertical aluminium rod with impellers, assembled with a cathode of rings, where each ring encapsulated one impeller.…”

Section: Initial Influent Concentrationmentioning

confidence: 60%

“…The anode rotation reduced the anode passivity, but the speed needed to be adjusted to a minimum optimum to avoid the formation of small particle flocs, which are hard to collect. 32 Hamdan and El-Naas 22 proposed a rod as the sacrificial anode along with a helical cathode for the treatment of brackish groundwater to reduce the concentrations of Cr (VI) within drinking water limits and they had promising results. Goren and Kobya 33 used an iron ball anode and a cylindrical titanium cathode in an aerated EC reactor, resulting in 98.6% arsenic removal at a quite competitive operating cost of about 0.08 € m −3 at the following optimum conditions: 1.0, 26.0, 651.5, 2.0, 9.9 mg L −1 , and 10.5 min for phosphate, silicate, bicarbonate, fluoride, boron, and operating time, respectively.…”

Section: Initial Influent Concentrationmentioning

confidence: 99%

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Electrocoagulation as a revived wastewater treatment method‐practical approaches: a review

Magnisali

Yan

Vayenas

2021

J of Chemical Tech & Biotech

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This review paper aims to demonstrate electrocoagulation (EC) as a revived technology and introduce recent steps of advanced configurations, along with hybrid approaches for the efficient electrochemical treatment of multi-sourced wastewaters. A brief theoretical background is also provided. Moreover, the practical applications of the process are presented, while no previous research has ever attempted to do so. Through online-based data research, it was found that there are 75 manufacturers of EC systems internationally. Industrial case studies reveal actual process conditions and economical data. America holds 33% of global EC systems' manufacturing share and it is considered the leader in EC innovative designs with a percentage of almost 59%. In America and Europe, composite schemes are nearly equivalent to EC autonomous systems, with respective percentages of 41% and 47%. The performance of a two-stage process combining electro-coagulation (EC) and electro-oxidation (EO) has been proven to be the most successful combination in industrial wastewater treatment, representing 54% of hybrid systems available globally. Most of the commercialized EC systems are of small-medium sizes, accounting for 88% of all systems available worldwide. The latest trends on new reactor and electrode configurations are also presented. EC has great potential for further improvement as there is strong academic background to support water treatment companies for industrial scale ups. Cylindrical type reactors tend to dominate due to the ease of their use and maintenance; meanwhile, hybrid systems of EC with EO, membranes and/or adsorption will continue to expand on the market due to the mature level of these technologies and their ease of adaptation.

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Section: Initial Influent Concentrationmentioning

confidence: 60%

Section: Initial Influent Concentrationmentioning

confidence: 99%

Electrocoagulation as a revived wastewater treatment method‐practical approaches: a review

Magnisali

Yan

Vayenas

2021

J of Chemical Tech & Biotech

View full text Add to dashboard Cite

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“…with several shortcomings (Hassani et al 2016). One example is adsorption, which requires a long precipitation process but is inefficient (Naje et al 2019). Electrocoagulation, on the other hand, faces a condition called sacrificial anodes phenomenon, whereby its soluble characteristic causes the need for frequent anode replacements.…”

Section: Introductionmentioning

confidence: 99%

“…In recent years, electroflotation has seen an increase in popularity due to several of its qualities, simplicity of implementation and automation (Mohtashami et al 2019), zero need for chemical addition, manageability of equipment, short retention time, low sludge generation, and longer life of electrodes (Naje et al 2019). Electroflotation works by the use of gas bubbles produced at electrodes during electrolysis of water.…”

Section: Introductionmentioning

confidence: 99%

Electroflotation treatment of stabilized landfill leachate using titanium-based electrode

Shadi

Kamaruddin

Niza

et al. 2020

Int. J. Environ. Sci. Technol.

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Landfill leachate is one of the most obstinate wastewaters to be treated due to its toxic organic and inorganic pollutants. The landfill leachate must be treated prior to discharge into a watercourse in order to preserve human health and ecosystem. Precharacterization of raw landfill leachate was done to identify the concentration of certain pollutants, in which the effluent concentration of chemical oxygen demand, ammoniacal nitrogen, and color was 1990 mg/L, 300 mg/L, and 1946 Pt-Co, respectively. The present study was conducted to treat raw landfill leachate using the electroflotation system with a designed titanium and coated titanium DSA electrodes. The experiments were conducted following the central composite design of experiments, and the design was analyzed using response surface methodology (RSM). The influence of current density, initial pH, and contact time was evaluated on the removal of COD, NH 3 -N, and color by ANOVA. It was found that current density and pH were the most effective parameters on COD and NH 3 -N removal; nevertheless, the color obtained the highest removal was up to 80%. The optimal experimental conditions were determined to be current density of 28 (A/m 2 ), initial pH 6.0, and processing time of 30 min. Under these experimental conditions, the maximum removal of COD, color, and NH 3 -H was 75%, 63%, and 83%, respectively. The findings of the present study reveal that the electroflotation technique could be utilized to treat landfill leachate as an effective pre-treatment process.

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“…Unfortunately, electrocoagulation with ZVI plate inevitably suffers passivation due to the formation of iron (oxyhydr)oxide passive layers on the surface of Fe(0) plates (Veluchamy et al 2017;Samir Naje et al 2019), resulting in a decrease in anodic interface potential favoring a larger faradaic current efficiency (Dubrawski et al 2015). The dissolution and passivation rate of iron were experimentally verified to strongly depend on the electrode potential, ionic strength, ionic type, and the solution pH (Lorenz et al 2002).…”

mentioning

confidence: 99%

Magnetically attracted iron scrap anode based electrocoagulation for phosphate removal

Zhu

Hong

Hui

2021

Water Science and Technology

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This study shows the effectiveness of a novel electrocoagulation process using magnetically attracted iron scrap anodes for phosphate removal from aqueous solution. The effect of contact time, reaction temperature, dose of iron scrap, initial phosphate concentration, applied voltage, pH, magnetic force, and the species of competing anions on the efficiency of phosphate removal and the reaction products has been investigated. The techniques of XRD, XPS, and VSM were used to characterize the elemental composition and the types of the reaction products in order to clarify the interaction between novel anode and phosphate ions. The removal of phosphate was fitted by a pseudo first-order reaction kinetic model. The results showed that magnetically attracted iron scrap anodes was electrodissoluted under an applied potential and reacted with phosphate into Fe-hydroxo-phosphate complexes. The work suggested that electrocoagulation using magnetically attracted iron scrap anodes had the potential to become a promising technique for phosphate precipitation.

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Raw landfill leachate treatment using an electrocoagulation process with a novel rotating electrode reactor

Cited by 23 publications

References 20 publications

Electrocoagulation as a revived wastewater treatment method‐practical approaches: a review

Electrocoagulation as a revived wastewater treatment method‐practical approaches: a review

Electroflotation treatment of stabilized landfill leachate using titanium-based electrode

Magnetically attracted iron scrap anode based electrocoagulation for phosphate removal

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