Heavy metal removal from simulated wastewater using electrochemical technology: optimization of copper electrodeposition in a membraneless fluidized bed electrode

Tonini, George André; Ruotolo, Luís A.M.

doi:10.1007/s10098-016-1226-8

Cited by 20 publications

(11 citation statements)

References 38 publications

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“…Consequently, the energy consumption per unit volume of treated wastewater is reduced as shown in Eq. (14).…”

Section: Operating Parametersmentioning

confidence: 99%

“…With the strict environmental regulations on wastewater discharge, there is a need to develop efficient technologies and approaches at large scale for the treatment and management of industrial wastewater so that clean water quality can be maintained and amount increased while environmental protection and sustainability are achieved [1-5, 8, 11-13]. There has been an increasing interest in the use of electrochemical wastewater treatment technologies, such as electrodeposition [14], electrodisinfection [15], electro-Fenton [16], electrosorption [17], EOx [4] and EC [1] and their sequential [8,18], and simultaneous [19,20] combinations for the treatment of industrial wastewaters in recent years.…”

Section: Introductionmentioning

confidence: 99%

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Applications of Combined Electrocoagulation and Electrooxidation Treatment to Industrial Wastewaters

Özyurt¹,

Camcıoğlu²

2018

Wastewater and Water Quality

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In recent years, it is aimed to reuse wastewater to form an economical input and to manage it sustainably without threatening human life and ecosystem. High pollutant removal yield from wastewaters was achieved using electrocoagulation method without adding any chemical coagulant or flocculants, thus reducing the amount of sludge. However, electrocoagulation (EC) is an inefficient method for the removal of stable and dissolved organic pollutants. Electrooxidation (EOx), which was evaluated as one of the most promising technologies for the treatment of wastewater containing soluble organic compounds, can directly and indirectly oxidize small organic pollutants. Although electrooxidation provides full mineralization of the organic matter, if suspended solids are present, energy consumption is increased. Since EC is a fast but incomplete process and EOx is a complete but slow process, combining the two processes offers a practical hybrid. In this chapter, mechanisms and applications of EC, EOx, and their combinations will be widely discussed.

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“…Consequently, the energy consumption per unit volume of treated wastewater is reduced as shown in Eq. (14).…”

Section: Operating Parametersmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Applications of Combined Electrocoagulation and Electrooxidation Treatment to Industrial Wastewaters

Özyurt¹,

Camcıoğlu²

2018

Wastewater and Water Quality

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“…This process allows metal ions to deposit on the electrode surface in their neutral state. Electrochemical methods have been employed in several applications, such as battery recycling [9], water desalination [10], and treatment of various industrial wastewaters [11][12][13]. While this method has proven to be efficient in reducing the concentration of metal ions in solution, it can be difficult to separate individual metals deposited due to coelectrodeposition or inhibition.…”

Section: Introductionmentioning

confidence: 99%

Alternating Current for the Selective Electrodeposition of Cadmium, Iron, and Chromium Method Development for Simulated Industrial Wastewater Sludge

JM¹,

BR²,

Boyer³

2022

Int J Water Wastewater Treat

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A preliminary study of the selective electrodeposition of Cadmium (Cd), Iron (Fe), and Chromium (Cr) from industrial wastewater sludge using alternating current. There are no large-scale methods for recovering the metals contained in the sludge resulting from industrial wastewater treatment. This study expanded on a method for using Alternating Current (AC) and a Graphene-Oxide-Modified Carbon Felt Electrode (CF-GO) by using a larger volume than previously used in literature and optimizing AC settings for the selected metals. Cd concentration in solution was reduced by 5-10% over five hours using an AC setting of 4 MHz, 2 Vpp, and -5 VOffset. Fe had five AC settings that had regression line slopes less than -4 ppm/ hr, and Cr had one AC setting with regression line slope less than -4 ppm/hr. As the Cr AC setting of 1 Hz, 1 Vpp, and -8 VOffset also was efficient for the electrodeposition of Fe, the Fe would need to be removed from solution before Cr. Future work outlined includes further AC optimization, additional metals also found in industrial wastewater sludge, optimization of the order of metals electrodeposited, and testing the method on industrial wastewater sludge.

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“…In recent years, various methods for heavy metal removal from wastewater have been extensively proposed, including but not limited to chemical precipitation, ion exchange, adsorption, membrane filtration, and electrochemical technologies. − Among these techniques, the adsorption method has been extensively researched because of its high removal efficiency and adsorption capacity, and simple and convenient processes . It has become a popular method for heavy metal removal from wastewater .…”

Section: Introductionmentioning

confidence: 99%

Preparation and Modification of Mullite Whiskers/Cordierite Porous Ceramics for Cu²⁺ Adsorption and Removing

Zhang

Wei

et al. 2020

ACS Omega

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In this paper, mullite whiskers were prepared by a molten salt reaction method based on a porous cordierite ceramic substrate (MC), and the modified mullite whiskers/ cordierite ceramic sample (MCK) was obtained via the silane coupling reaction with γaminopropyl triethoxysilane (KH550). The structural morphology and phase compositions of the MC were characterized by X-ray diffraction and scanning electron microscopy. The surface functional groups of MCK were characterized using Fourier transform infrared spectroscopy, and the result showed that the amino group (−NH 2 ) was successfully grafted onto the surface of cordierite ceramic. X-ray photoelectron spectroscopy analysis successfully showed inclusion of the amino and Cu 2+ adsorption mechanism onto MCK. The adsorption properties of MCK were investigated using Cu 2+ as the target pollutant by varying the experimental conditions such as pH, time, temperature, and initial Cu 2+ concentration. The adsorption was found to be spontaneous, endothermic, and feasible, as indicated by the study of thermodynamic parameters. The adsorption kinetic analysis suggested that the pseudo-second-order kinetic model was best fitted for Cu 2+ adsorption. The adsorption isotherm studies showed that the results of the Freundlich model are more suitable for experimental adsorption data than the Langmuir model. The adsorption−desorption cycle indicated that MCK had good reusability and stability. A novel porous ceramic-based adsorbent with high Cu 2+ adsorption and removal efficiency was fabricated and has potential applications for the metal ion removing field.

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Heavy metal removal from simulated wastewater using electrochemical technology: optimization of copper electrodeposition in a membraneless fluidized bed electrode

Cited by 20 publications

References 38 publications

Applications of Combined Electrocoagulation and Electrooxidation Treatment to Industrial Wastewaters

Applications of Combined Electrocoagulation and Electrooxidation Treatment to Industrial Wastewaters

Alternating Current for the Selective Electrodeposition of Cadmium, Iron, and Chromium Method Development for Simulated Industrial Wastewater Sludge

Preparation and Modification of Mullite Whiskers/Cordierite Porous Ceramics for Cu²⁺ Adsorption and Removing

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Heavy metal removal from simulated wastewater using electrochemical technology: optimization of copper electrodeposition in a membraneless fluidized bed electrode

Cited by 20 publications

References 38 publications

Applications of Combined Electrocoagulation and Electrooxidation Treatment to Industrial Wastewaters

Applications of Combined Electrocoagulation and Electrooxidation Treatment to Industrial Wastewaters

Alternating Current for the Selective Electrodeposition of Cadmium, Iron, and Chromium Method Development for Simulated Industrial Wastewater Sludge

Preparation and Modification of Mullite Whiskers/Cordierite Porous Ceramics for Cu2+ Adsorption and Removing

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Product

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Preparation and Modification of Mullite Whiskers/Cordierite Porous Ceramics for Cu²⁺ Adsorption and Removing