Effective degradation of oil pollutants in water by hydrodynamic cavitation combined with electrocatalytic membrane

Effective degradation of oil pollutants in water by hydrodynamic cavitation combined with electrocatalytic membrane

Hydrodynamic cavitation (HC) and electrocatalytic membrane (ECM) can be used in the oxidative degradation of oil pollutants, and a combined method with both techniques can improve the overall degradation efficiency. The results of this study show that HC could promote the dispersion and dissolution...

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Main Authors: Cheng Deng, Guiling Lu, Mengfu Zhu, Kui Li, Jun Ma, Hongbin Liu
Format: Article
Language:English
Published: AIP Publishing LLC 2018-12-01
Series:AIP Advances
Online Access:http://dx.doi.org/10.1063/1.5028152
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spelling doaj-f11c07d12fd44c92b098f50e068721b22020-11-24T22:10:08ZengAIP Publishing LLCAIP Advances2158-32262018-12-01812125308125308-1010.1063/1.5028152049808ADVEffective degradation of oil pollutants in water by hydrodynamic cavitation combined with electrocatalytic membraneCheng Deng0Guiling Lu1Mengfu Zhu2Kui Li3Jun Ma4Hongbin Liu5Institute of Medical Equipment, Academy of Military Medical Sciences, Tianjin 300161, ChinaInstitute of Medical Equipment, Academy of Military Medical Sciences, Tianjin 300161, ChinaInstitute of Medical Equipment, Academy of Military Medical Sciences, Tianjin 300161, ChinaInstitute of Medical Equipment, Academy of Military Medical Sciences, Tianjin 300161, ChinaInstitute of Medical Equipment, Academy of Military Medical Sciences, Tianjin 300161, ChinaInstitute of Medical Equipment, Academy of Military Medical Sciences, Tianjin 300161, ChinaHydrodynamic cavitation (HC) and electrocatalytic membrane (ECM) can be used in the oxidative degradation of oil pollutants, and a combined method with both techniques can improve the overall degradation efficiency. The results of this study show that HC could promote the dispersion and dissolution of oil in water at 35°C with an inlet pressure of 0.30 MPa and cavitation time of 2 h. Under these conditions, the oil concentration increased from initial 90 mg/L to 215 mg/L, at which point the effect of the degradation by HC could be clearly detected. Then, when the cavitation time was 5 h, the oil concentration decreased from maximal 215 mg/L to 139 mg/L. Subsequently, at a current density of 2 mA/cm2, pH 6, residence time of 3.8 min, electrode spacing of 40 mm and solution temperature of 30°C, the removal rate of oil pollutants reached up to 98.81%. Gas chromatography mass spectrometry (GC-MS) analysis shows that ECM could degrade oil pollutants more effectively. Therefore the combination of HC and ECM was demonstrated to be an efficient method for the removal of oil pollutants in water.http://dx.doi.org/10.1063/1.5028152
collection DOAJ
language English
format Article
sources DOAJ
author Cheng Deng
Guiling Lu
Mengfu Zhu
Kui Li
Jun Ma
Hongbin Liu
spellingShingle Cheng Deng
Guiling Lu
Mengfu Zhu
Kui Li
Jun Ma
Hongbin Liu
Effective degradation of oil pollutants in water by hydrodynamic cavitation combined with electrocatalytic membrane
AIP Advances
author_facet Cheng Deng
Guiling Lu
Mengfu Zhu
Kui Li
Jun Ma
Hongbin Liu
author_sort Cheng Deng
title Effective degradation of oil pollutants in water by hydrodynamic cavitation combined with electrocatalytic membrane
title_short Effective degradation of oil pollutants in water by hydrodynamic cavitation combined with electrocatalytic membrane
title_full Effective degradation of oil pollutants in water by hydrodynamic cavitation combined with electrocatalytic membrane
title_fullStr Effective degradation of oil pollutants in water by hydrodynamic cavitation combined with electrocatalytic membrane
title_full_unstemmed Effective degradation of oil pollutants in water by hydrodynamic cavitation combined with electrocatalytic membrane
title_sort effective degradation of oil pollutants in water by hydrodynamic cavitation combined with electrocatalytic membrane
publisher AIP Publishing LLC
series AIP Advances
issn 2158-3226
publishDate 2018-12-01
description Hydrodynamic cavitation (HC) and electrocatalytic membrane (ECM) can be used in the oxidative degradation of oil pollutants, and a combined method with both techniques can improve the overall degradation efficiency. The results of this study show that HC could promote the dispersion and dissolution of oil in water at 35°C with an inlet pressure of 0.30 MPa and cavitation time of 2 h. Under these conditions, the oil concentration increased from initial 90 mg/L to 215 mg/L, at which point the effect of the degradation by HC could be clearly detected. Then, when the cavitation time was 5 h, the oil concentration decreased from maximal 215 mg/L to 139 mg/L. Subsequently, at a current density of 2 mA/cm2, pH 6, residence time of 3.8 min, electrode spacing of 40 mm and solution temperature of 30°C, the removal rate of oil pollutants reached up to 98.81%. Gas chromatography mass spectrometry (GC-MS) analysis shows that ECM could degrade oil pollutants more effectively. Therefore the combination of HC and ECM was demonstrated to be an efficient method for the removal of oil pollutants in water.
url http://dx.doi.org/10.1063/1.5028152
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AT kuili effectivedegradationofoilpollutantsinwaterbyhydrodynamiccavitationcombinedwithelectrocatalyticmembrane
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