引用本文:
Xiao Long Hao, Lu Yi Zou, Guang Sheng Zhang, Yi Bo Zhang. Magnetic field assisted Fenton reactions for the enhanced degradation of methyl blue[J]. Chinese Chemical Letters,
2009, 20(1): 99-101.
doi:
10.1016/j.cclet.2008.09.058
Citation: Xiao Long Hao, Lu Yi Zou, Guang Sheng Zhang, Yi Bo Zhang. Magnetic field assisted Fenton reactions for the enhanced degradation of methyl blue[J]. Chinese Chemical Letters, 2009, 20(1): 99-101. doi: 10.1016/j.cclet.2008.09.058
Citation: Xiao Long Hao, Lu Yi Zou, Guang Sheng Zhang, Yi Bo Zhang. Magnetic field assisted Fenton reactions for the enhanced degradation of methyl blue[J]. Chinese Chemical Letters, 2009, 20(1): 99-101. doi: 10.1016/j.cclet.2008.09.058
Magnetic field assisted Fenton reactions for the enhanced degradation of methyl blue
摘要:
Magnetic field was tentatively introduced into Fenton reactions system for the degradation and discoloration of methyl blue as the represent of organic chemical dye, which was a bio-refractory organic pollutant in industry wastewater. It was found that under optimal Fenton reaction conditions, with the assistant of magnetic field in Fenton reactions, the degradation rate of methyl blue, the decomposition rate of H2O2 and the conversion rate of Fe2+ were accelerated, the extent of them would be improved by the increase of magnetic field intensity. Meanwhile, the mineralization of methyl blue (CODcr) was improved by over 10% with magnetic field.
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关键词:
- Magnetic field
- / Fenton reactions
- / Methyl blue
- / Dye
English
Magnetic field assisted Fenton reactions for the enhanced degradation of methyl blue
Abstract:
Magnetic field was tentatively introduced into Fenton reactions system for the degradation and discoloration of methyl blue as the represent of organic chemical dye, which was a bio-refractory organic pollutant in industry wastewater. It was found that under optimal Fenton reaction conditions, with the assistant of magnetic field in Fenton reactions, the degradation rate of methyl blue, the decomposition rate of H2O2 and the conversion rate of Fe2+ were accelerated, the extent of them would be improved by the increase of magnetic field intensity. Meanwhile, the mineralization of methyl blue (CODcr) was improved by over 10% with magnetic field.
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Key words:
- Magnetic field
- / Fenton reactions
- / Methyl blue
- / Dye
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