DocumentCode
2022580
Title
Notice of Retraction
Volatilization mechanism of BTEX on different underlying materials
Author
Li Zhi-ping ; Liang Ke ; Ma Yan ; Liu Ming-zhu
Author_Institution
Sch. of Resources & Environ., North China Inst. of Water Conservancy & Electr. Power, Zhengzhou, China
Volume
2
fYear
2010
fDate
17-18 July 2010
Firstpage
697
Lastpage
700
Abstract
Notice of Retraction
After careful and considered review of the content of this paper by a duly constituted expert committee, this paper has been found to be in violation of IEEE´s Publication Principles.
We hereby retract the content of this paper. Reasonable effort should be made to remove all past references to this paper.
The presenting author of this paper has the option to appeal this decision by contacting TPII@ieee.org.
Silt and fine sand taken from Huanyuankou Yellow River in Zhengzhou and pure water was chosen as three kinds of typical underlying materials, volatile behavior of BETX were studied on these. The study include volatilization dynamic curves of BTEX compounds and mixture and the optimized simulation formulas for them on the base of volatilization kinetics model. The results indicate that, on the same underlying materials, volatility speed of BTEX compounds and mixture is different. On the three underlying materials, volatility speed was pure water, sand and soil in sequence. There existed linear relationships between volatility rate and evapor pressure. Volatile area of underlying surface and pore diffusion flux in the process of volatile are main influence factors for the benzene evaporation.
After careful and considered review of the content of this paper by a duly constituted expert committee, this paper has been found to be in violation of IEEE´s Publication Principles.
We hereby retract the content of this paper. Reasonable effort should be made to remove all past references to this paper.
The presenting author of this paper has the option to appeal this decision by contacting TPII@ieee.org.
Silt and fine sand taken from Huanyuankou Yellow River in Zhengzhou and pure water was chosen as three kinds of typical underlying materials, volatile behavior of BETX were studied on these. The study include volatilization dynamic curves of BTEX compounds and mixture and the optimized simulation formulas for them on the base of volatilization kinetics model. The results indicate that, on the same underlying materials, volatility speed of BTEX compounds and mixture is different. On the three underlying materials, volatility speed was pure water, sand and soil in sequence. There existed linear relationships between volatility rate and evapor pressure. Volatile area of underlying surface and pore diffusion flux in the process of volatile are main influence factors for the benzene evaporation.
Keywords
chemical engineering; vaporisation; water pollution; BTEX compound; BTEX mixture; benzene evaporation; optimized simulation formula; pore diffusion flux; volatile behavior; volatility rate; volatility speed; volatilization dynamic curves; volatilization kinetics model; volatilization mechanism; Educational institutions; Fitting; Lakes; Soil; benzene; ethylb-enzene and xylene (BTEX); toluene; underlying materials; volatilization mechanism;
fLanguage
English
Publisher
ieee
Conference_Titel
Environmental Science and Information Application Technology (ESIAT), 2010 International Conference on
Conference_Location
Wuhan
Print_ISBN
978-1-4244-7387-8
Type
conf
DOI
10.1109/ESIAT.2010.5568980
Filename
5568980
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