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Treatment of re-refining effluent from lubricating oils by combining electrocoagulation and coagulation-flocculation processes

Favero, Ana Carolina / Favero, Bruno Matheus / Souza, Fernanda Siqueira / Taffarel, Silvio Roberto

A combination of electrocoagulation and coagulation-flocculation processes was used for re-refining effluent from lubricating oils. The efficiency of the process was evaluated based on the chemical oxygen demand (COD), color, and turbidity of the refined effluent. Electrocoagulation (EC) and coagulation-flocculation parameters, such as the initial pH (3.00, 4.41, and 9.00), and current density (4, 9, and 16 A/m²), and the use of aluminum polychloride coagulant and superfloc A300 flocculant were studied. EC performed at pH 9, with a current density of 16 A/m² and 7 V, resulted in removal efficiencies of 85.14%, 99.81%, and 99.85%, for COD, color, and turbidity, respectively. The removal efficiencies increased to 96%, 99.87%, and 99.94% for COD, color, and turbidity, respectively, by the further coagulation-flocculation treatment in the presence of 13.8 mg/L aluminum polychloride coagulant and 80 mg/L Superfloc A300 flocculant.

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Treatment of re-refining effluent from lubricating oils by combining electrocoagulation and coagulation-flocculation processes

Favero, Ana Carolina / Favero, Bruno Matheus / Souza, Fernanda Siqueira / Taffarel, Silvio Roberto

A combination of electrocoagulation and coagulation-flocculation processes was used for re-refining effluent from lubricating oils. The efficiency of the process was evaluated based on the chemical oxygen demand (COD), color, and turbidity of the refined effluent. Electrocoagulation (EC) and coagulation-flocculation parameters, such as the initial pH (3.00, 4.41, and 9.00), and current density (4, 9, and 16 A/m²), and the use of aluminum polychloride coagulant and superfloc A300 flocculant were studied. EC performed at pH 9, with a current density of 16 A/m² and 7 V, resulted in removal efficiencies of 85.14%, 99.81%, and 99.85%, for COD, color, and turbidity, respectively. The removal efficiencies increased to 96%, 99.87%, and 99.94% for COD, color, and turbidity, respectively, by the further coagulation-flocculation treatment in the presence of 13.8 mg/L aluminum polychloride coagulant and 80 mg/L Superfloc A300 flocculant.

Treatment of re-refining effluent from lubricating oils by combining electrocoagulation and coagulation-flocculation processes

Favero, Ana Carolina / Favero, Bruno Matheus / Souza, Fernanda Siqueira / Taffarel, Silvio Roberto

A combination of electrocoagulation and coagulation-flocculation processes was used for re-refining effluent from lubricating oils. The efficiency of the process was evaluated based on the chemical oxygen demand (COD), color, and turbidity of the refined effluent. Electrocoagulation (EC) and coagulation-flocculation parameters, such as the initial pH (3.00, 4.41, and 9.00), and current density (4, 9, and 16 A/m²), and the use of aluminum polychloride coagulant and superfloc A300 flocculant were studied. EC performed at pH 9, with a current density of 16 A/m² and 7 V, resulted in removal efficiencies of 85.14%, 99.81%, and 99.85%, for COD, color, and turbidity, respectively. The removal efficiencies increased to 96%, 99.87%, and 99.94% for COD, color, and turbidity, respectively, by the further coagulation-flocculation treatment in the presence of 13.8 mg/L aluminum polychloride coagulant and 80 mg/L Superfloc A300 flocculant.

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Title:

Treatment of re-refining effluent from lubricating oils by combining electrocoagulation and coagulation-flocculation processes

Contributors:

Favero, Ana Carolina (author) / Favero, Bruno Matheus (author) / Souza, Fernanda Siqueira (author) / Taffarel, Silvio Roberto (author)

Published in:

Journal of Environmental Science and Health, Part A ; 55 ; 402-410

Publication date:

2020-03-20

Size:

9 pages

ISSN:

1093-4529 , 1532-4117

DOI:

https://doi.org/10.1080/10934529.2019.1702407

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

Coagulation-flocculation , COD/color/turbidity removal , electrocoagulation , iron electrodes , oily effluent

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