DocumentCode
2097667
Title
Notice of Retraction
The Research on the Surface Wave of Film under Supercritical Flowage
Author
Zheng Ren Wu ; Mei Liu
Author_Institution
North China Electr. Power Univ., Baoding, China
fYear
2010
fDate
28-31 March 2010
Firstpage
1
Lastpage
4
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.
The surface wave of the film with uneven boundary, under supercritical flowage, was analyzed. The control equation for the nonlinear surface wave was obtained by perturbation technique from the potential flow theory; the simulation has been made by pseudo-spectral method. The flow is an incompressible, inviscid fluid with surface tension and different boundary; the results show that the different supercritical flowage has different great effect on the film surface wave, and the simulations results was obviously different from the ones under the resonant case.
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.
The surface wave of the film with uneven boundary, under supercritical flowage, was analyzed. The control equation for the nonlinear surface wave was obtained by perturbation technique from the potential flow theory; the simulation has been made by pseudo-spectral method. The flow is an incompressible, inviscid fluid with surface tension and different boundary; the results show that the different supercritical flowage has different great effect on the film surface wave, and the simulations results was obviously different from the ones under the resonant case.
Keywords
film flow; flow simulation; liquid films; nonlinear differential equations; numerical analysis; perturbation theory; surface tension; surface waves (fluid); control equation; film surface wave; flow simulation; incompressible inviscid fluid; nonlinear surface wave; numerical simulations; perturbation technique; potential flow theory; pseudospectral method; supercritical flowage; surface tension; uneven boundary; Fluctuations; Fluid flow; Fluid flow control; Heat transfer; Laplace equations; Nonlinear equations; Optical films; Solids; Surface tension; Surface waves;
fLanguage
English
Publisher
ieee
Conference_Titel
Power and Energy Engineering Conference (APPEEC), 2010 Asia-Pacific
Conference_Location
Chengdu
Print_ISBN
978-1-4244-4812-8
Type
conf
DOI
10.1109/APPEEC.2010.5448593
Filename
5448593
Link To Document