Investigation of ozone and coagulant material’s (aluminum sulfate, ferric chloride, poly aluminum chloride and lime) efficiency in “Kerman Kork” industry wastewater treatment

Background: Entry of untreated wastewater of wool scouring factories has been associated with many environmental hazards because of high rate of pollution. Presently effective treatment methods and reducing the costs of operation and maintenance from treatment units have always been under the attent...

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Main Authors: Amir Hussein Javid, Mohammad Malakootian, Mohsen Mehdipour
Format: Article
Language:English
Published: Kerman University of Medical Sciences 2015-01-01
Series:Environmental Health Engineering and Management
Subjects:
COD
Online Access:http://ehemj.com/browse.php?a_id=47&sid=1&slc_lang=en
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spelling doaj-b15e83149dbc48cd964739254432e5712020-11-24T21:01:31ZengKerman University of Medical SciencesEnvironmental Health Engineering and Management2423-37652423-43112015-01-012116Investigation of ozone and coagulant material’s (aluminum sulfate, ferric chloride, poly aluminum chloride and lime) efficiency in “Kerman Kork” industry wastewater treatmentAmir Hussein Javid0Mohammad Malakootian1Mohsen Mehdipour2Associate Professor of Environmental Engineering, Graduate School of Marine Science and Technology, Science and Research Branch, Islamic Azad University, Tehran, IranProfessor of Environmental Health Engineering Research Center and Department of Environmental Health, Kerman University of Medical Sciences, Kerman, IranPhD Student of Environmental Health in SBMU, Member of Environmental Health Engineering Research Center, Kerman University of Medical Sciences, Kerman, IranBackground: Entry of untreated wastewater of wool scouring factories has been associated with many environmental hazards because of high rate of pollution. Presently effective treatment methods and reducing the costs of operation and maintenance from treatment units have always been under the attention of this industry owners. The aim of this survey is to present a suitable method for the treatment of wool scouring. Methods: In this study, chemical coagulant is used for wastewater treatment (aluminum sulfate, ferric chloride, poly aluminum chloride and lime). And then these materials with “ozone” as a strong oxidative in reduction of the amount of Chemical Oxygen Demand (COD) in wastewater effluent has been surveyed. Results: The results of this work showed that only ferric chloride and aluminum sulfate among the above chemical coagulant had a high efficiency in the turbidity removal. Productivity of turbidity removal using ferric chloride with the pH of 4 to 5 was 99%, and turbidity was reduced from 166 Nephelometric Turbidity Units (NTU) to 1.5 NTU, and productivity of turbidity removal using aluminum sulfate within the pH 4.5 to 5 was 99.33% that reduced turbidity from 166 to 1.1 NTU. Results of ozonation with 5 g/hour and the oxygen flow of 2.5 litter per min with the pH assess of 15, 30, 45, 60, 90, 120, and 150 min to wastewater from chemical treatment with ferric chloride showed that the rate of COD was reduced from 24700 mg/L to 2940 mg/L. In ozonation to wastewater of chemical treatment with aluminum sulfate within the above rang of time, the rate of COD was reduced from 22500 mg/l to 4800 mg/l. Conclusion: We can be hopeful that in near future, getting the cheap technology of ozone production in industrial scale, one can use this technology for the propose of removal of pollutants having removal preferable by help of advanced treatment approaches. http://ehemj.com/browse.php?a_id=47&sid=1&slc_lang=enIndustrial wastewaterCODWool scouringChemical treatmentFerric chlorideAluminum sulfateOzonationTurbidity
collection DOAJ
language English
format Article
sources DOAJ
author Amir Hussein Javid
Mohammad Malakootian
Mohsen Mehdipour
spellingShingle Amir Hussein Javid
Mohammad Malakootian
Mohsen Mehdipour
Investigation of ozone and coagulant material’s (aluminum sulfate, ferric chloride, poly aluminum chloride and lime) efficiency in “Kerman Kork” industry wastewater treatment
Environmental Health Engineering and Management
Industrial wastewater
COD
Wool scouring
Chemical treatment
Ferric chloride
Aluminum sulfate
Ozonation
Turbidity
author_facet Amir Hussein Javid
Mohammad Malakootian
Mohsen Mehdipour
author_sort Amir Hussein Javid
title Investigation of ozone and coagulant material’s (aluminum sulfate, ferric chloride, poly aluminum chloride and lime) efficiency in “Kerman Kork” industry wastewater treatment
title_short Investigation of ozone and coagulant material’s (aluminum sulfate, ferric chloride, poly aluminum chloride and lime) efficiency in “Kerman Kork” industry wastewater treatment
title_full Investigation of ozone and coagulant material’s (aluminum sulfate, ferric chloride, poly aluminum chloride and lime) efficiency in “Kerman Kork” industry wastewater treatment
title_fullStr Investigation of ozone and coagulant material’s (aluminum sulfate, ferric chloride, poly aluminum chloride and lime) efficiency in “Kerman Kork” industry wastewater treatment
title_full_unstemmed Investigation of ozone and coagulant material’s (aluminum sulfate, ferric chloride, poly aluminum chloride and lime) efficiency in “Kerman Kork” industry wastewater treatment
title_sort investigation of ozone and coagulant material’s (aluminum sulfate, ferric chloride, poly aluminum chloride and lime) efficiency in “kerman kork” industry wastewater treatment
publisher Kerman University of Medical Sciences
series Environmental Health Engineering and Management
issn 2423-3765
2423-4311
publishDate 2015-01-01
description Background: Entry of untreated wastewater of wool scouring factories has been associated with many environmental hazards because of high rate of pollution. Presently effective treatment methods and reducing the costs of operation and maintenance from treatment units have always been under the attention of this industry owners. The aim of this survey is to present a suitable method for the treatment of wool scouring. Methods: In this study, chemical coagulant is used for wastewater treatment (aluminum sulfate, ferric chloride, poly aluminum chloride and lime). And then these materials with “ozone” as a strong oxidative in reduction of the amount of Chemical Oxygen Demand (COD) in wastewater effluent has been surveyed. Results: The results of this work showed that only ferric chloride and aluminum sulfate among the above chemical coagulant had a high efficiency in the turbidity removal. Productivity of turbidity removal using ferric chloride with the pH of 4 to 5 was 99%, and turbidity was reduced from 166 Nephelometric Turbidity Units (NTU) to 1.5 NTU, and productivity of turbidity removal using aluminum sulfate within the pH 4.5 to 5 was 99.33% that reduced turbidity from 166 to 1.1 NTU. Results of ozonation with 5 g/hour and the oxygen flow of 2.5 litter per min with the pH assess of 15, 30, 45, 60, 90, 120, and 150 min to wastewater from chemical treatment with ferric chloride showed that the rate of COD was reduced from 24700 mg/L to 2940 mg/L. In ozonation to wastewater of chemical treatment with aluminum sulfate within the above rang of time, the rate of COD was reduced from 22500 mg/l to 4800 mg/l. Conclusion: We can be hopeful that in near future, getting the cheap technology of ozone production in industrial scale, one can use this technology for the propose of removal of pollutants having removal preferable by help of advanced treatment approaches.
topic Industrial wastewater
COD
Wool scouring
Chemical treatment
Ferric chloride
Aluminum sulfate
Ozonation
Turbidity
url http://ehemj.com/browse.php?a_id=47&sid=1&slc_lang=en
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AT mohsenmehdipour investigationofozoneandcoagulantmaterialsaluminumsulfateferricchloridepolyaluminumchlorideandlimeefficiencyinkermankorkindustrywastewatertreatment
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