Electro-oxidation and chemical oxidation treatment of sugar industry wastewater with ferrous material: An investigation of physicochemical characteristic of sludge

Electro-oxidation and chemical oxidation treatment of sugar industry wastewater with ferrous material: An investigation of physicochemical characteristic of sludge

The growth of any nation depends upon the contribution of industrialization. Sugarcane industry is among one of them. It required a large quantity of fresh water for processing and release the large quantity of wastewater. This discharge has a major effect on the Environment and receiving bodies. To...

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Main Author: Omprakash Sahu
Format: Article
Language:English
Published: Elsevier 2019-04-01
Series:South African Journal of Chemical Engineering
Online Access:http://www.sciencedirect.com/science/article/pii/S1026918517300641
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spelling doaj-9d435e7dbf6f4ea6b726997b954cc0d62020-11-25T00:53:13ZengElsevierSouth African Journal of Chemical Engineering1026-91852019-04-01282638Electro-oxidation and chemical oxidation treatment of sugar industry wastewater with ferrous material: An investigation of physicochemical characteristic of sludgeOmprakash Sahu0School of Civil Engineering, Mekelle University, Mekelle, EthiopiaThe growth of any nation depends upon the contribution of industrialization. Sugarcane industry is among one of them. It required a large quantity of fresh water for processing and release the large quantity of wastewater. This discharge has a major effect on the Environment and receiving bodies. To protect the surrounding environment an attempt has been made to treat the sugar industry wastewater by electrocoagulation and coagulation process. The result shows that treatment with electrocoagulation could achieve 85% chemical oxygen demand (COD) reduction and 89% color reduction at initial pH of sample 6.5, electrode distance 20 mm, current density 156 Am−2 and electrolyte concentration 0.5 M (NaCl). Addition of ferric salt as chemical coagulant after electrocoagulation treatment shows an overall 98% COD reduction and 99.7% color reduction at same pH with 5 mM coagulant mass loading. The sludge generated after treatments are found suitable for the alternative application. Keywords: Chemical oxygen demand, Dischargeable limit, Reduction, Settled sludge, Wastewaterhttp://www.sciencedirect.com/science/article/pii/S1026918517300641
collection DOAJ
language English
format Article
sources DOAJ
author Omprakash Sahu
spellingShingle Omprakash Sahu
Electro-oxidation and chemical oxidation treatment of sugar industry wastewater with ferrous material: An investigation of physicochemical characteristic of sludge
South African Journal of Chemical Engineering
author_facet Omprakash Sahu
author_sort Omprakash Sahu
title Electro-oxidation and chemical oxidation treatment of sugar industry wastewater with ferrous material: An investigation of physicochemical characteristic of sludge
title_short Electro-oxidation and chemical oxidation treatment of sugar industry wastewater with ferrous material: An investigation of physicochemical characteristic of sludge
title_full Electro-oxidation and chemical oxidation treatment of sugar industry wastewater with ferrous material: An investigation of physicochemical characteristic of sludge
title_fullStr Electro-oxidation and chemical oxidation treatment of sugar industry wastewater with ferrous material: An investigation of physicochemical characteristic of sludge
title_full_unstemmed Electro-oxidation and chemical oxidation treatment of sugar industry wastewater with ferrous material: An investigation of physicochemical characteristic of sludge
title_sort electro-oxidation and chemical oxidation treatment of sugar industry wastewater with ferrous material: an investigation of physicochemical characteristic of sludge
publisher Elsevier
series South African Journal of Chemical Engineering
issn 1026-9185
publishDate 2019-04-01
description The growth of any nation depends upon the contribution of industrialization. Sugarcane industry is among one of them. It required a large quantity of fresh water for processing and release the large quantity of wastewater. This discharge has a major effect on the Environment and receiving bodies. To protect the surrounding environment an attempt has been made to treat the sugar industry wastewater by electrocoagulation and coagulation process. The result shows that treatment with electrocoagulation could achieve 85% chemical oxygen demand (COD) reduction and 89% color reduction at initial pH of sample 6.5, electrode distance 20 mm, current density 156 Am−2 and electrolyte concentration 0.5 M (NaCl). Addition of ferric salt as chemical coagulant after electrocoagulation treatment shows an overall 98% COD reduction and 99.7% color reduction at same pH with 5 mM coagulant mass loading. The sludge generated after treatments are found suitable for the alternative application. Keywords: Chemical oxygen demand, Dischargeable limit, Reduction, Settled sludge, Wastewater
url http://www.sciencedirect.com/science/article/pii/S1026918517300641
work_keys_str_mv AT omprakashsahu electrooxidationandchemicaloxidationtreatmentofsugarindustrywastewaterwithferrousmaterialaninvestigationofphysicochemicalcharacteristicofsludge
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