Statistical Evaluation and Optimization of Factors Affecting the Leaching Performance of Copper Flotation Waste

Statistical Evaluation and Optimization of Factors Affecting the Leaching Performance of Copper Flotation Waste

Copper flotation waste is an industrial by-product material produced from the process of manufacturing copper. The main concern with respect to landfilling of copper flotation waste is the release of elements (e.g., salts and heavy metals) when in contact with water, that is, leaching. Copper flotat...

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Main Authors: Semra Çoruh, Sermin Elevli, Feza Geyikçi
Format: Article
Language:English
Published: Hindawi Limited 2012-01-01
Series:The Scientific World Journal
Online Access:http://dx.doi.org/10.1100/2012/758719
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spelling doaj-992494431e9547a586608d2b39a29b312020-11-25T02:52:36ZengHindawi LimitedThe Scientific World Journal1537-744X2012-01-01201210.1100/2012/758719758719Statistical Evaluation and Optimization of Factors Affecting the Leaching Performance of Copper Flotation WasteSemra Çoruh0Sermin Elevli1Feza Geyikçi2Department of Environmental Engineering, Ondokuz Mayıs University, 55139 Samsun, TurkeyDepartment of Industrial Engineering, Ondokuz Mayıs University, 55139 Samsun, TurkeyDepartment of Chemical Engineering, Ondokuz Mayıs University, 55139 Samsun, TurkeyCopper flotation waste is an industrial by-product material produced from the process of manufacturing copper. The main concern with respect to landfilling of copper flotation waste is the release of elements (e.g., salts and heavy metals) when in contact with water, that is, leaching. Copper flotation waste generally contains a significant amount of Cu together with trace elements of other toxic metals, such as Zn, Co, and Pb. The release of heavy metals into the environment has resulted in a number of environmental problems. The aim of this study is to investigate the leaching characteristics of copper flotation waste by use of the Box-Behnken experimental design approach. In order to obtain the optimized condition of leachability, a second-order model was examined. The best leaching conditions achieved were as follows: pH = 9, stirring time = 5 min, and temperature = 41.5°C.http://dx.doi.org/10.1100/2012/758719
collection DOAJ
language English
format Article
sources DOAJ
author Semra Çoruh
Sermin Elevli
Feza Geyikçi
spellingShingle Semra Çoruh
Sermin Elevli
Feza Geyikçi
Statistical Evaluation and Optimization of Factors Affecting the Leaching Performance of Copper Flotation Waste
The Scientific World Journal
author_facet Semra Çoruh
Sermin Elevli
Feza Geyikçi
author_sort Semra Çoruh
title Statistical Evaluation and Optimization of Factors Affecting the Leaching Performance of Copper Flotation Waste
title_short Statistical Evaluation and Optimization of Factors Affecting the Leaching Performance of Copper Flotation Waste
title_full Statistical Evaluation and Optimization of Factors Affecting the Leaching Performance of Copper Flotation Waste
title_fullStr Statistical Evaluation and Optimization of Factors Affecting the Leaching Performance of Copper Flotation Waste
title_full_unstemmed Statistical Evaluation and Optimization of Factors Affecting the Leaching Performance of Copper Flotation Waste
title_sort statistical evaluation and optimization of factors affecting the leaching performance of copper flotation waste
publisher Hindawi Limited
series The Scientific World Journal
issn 1537-744X
publishDate 2012-01-01
description Copper flotation waste is an industrial by-product material produced from the process of manufacturing copper. The main concern with respect to landfilling of copper flotation waste is the release of elements (e.g., salts and heavy metals) when in contact with water, that is, leaching. Copper flotation waste generally contains a significant amount of Cu together with trace elements of other toxic metals, such as Zn, Co, and Pb. The release of heavy metals into the environment has resulted in a number of environmental problems. The aim of this study is to investigate the leaching characteristics of copper flotation waste by use of the Box-Behnken experimental design approach. In order to obtain the optimized condition of leachability, a second-order model was examined. The best leaching conditions achieved were as follows: pH = 9, stirring time = 5 min, and temperature = 41.5°C.
url http://dx.doi.org/10.1100/2012/758719
work_keys_str_mv AT semracoruh statisticalevaluationandoptimizationoffactorsaffectingtheleachingperformanceofcopperflotationwaste
AT serminelevli statisticalevaluationandoptimizationoffactorsaffectingtheleachingperformanceofcopperflotationwaste
AT fezageyikci statisticalevaluationandoptimizationoffactorsaffectingtheleachingperformanceofcopperflotationwaste
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