Contraction et filamentation des decharges micro-ondes entretenues a la pression atmospherique
- 语种:fre ; eng
- 页数:243 p. :
- 第一责任说明:Yassine Kabouzi.
- 分类号:a135 ; a260 ; a141.4
- ISBN:0612849880(ebk.) :
MARC全文
62h0020800 20140522144526.0 cr un||||||||| 101019s2003 xx ||||f|||d||||||||eng | 0612849880(ebk.) : CNY371.35 (UnM)AAINQ84988 UnM UnM NGL fre ; eng a135 ; a260 ; a141.4 Kabouzi, Yassine. Contraction et filamentation des decharges micro-ondes entretenues a la pression atmospherique [electronic resource] : application a la detoxication des gaz a effet de serre (French and English text) / Yassine Kabouzi. 243 p. : digital, PDF file. Source: Dissertation Abstracts International, Volume: 64-10, Section: B, page: 5011. ; Directeur: Michel Moisan. Thesis (Ph.D.a) -- Universite de Montreal (Canada), 2003. The remediation of greenhouse gases, such as perfluorinated compounds (PFCs), constitutes a major environmental concern. Plasmas operating at atmospheric pressure offer an efficient technology for the control of toxic and greenhouse gas emission. The two main objectives of the thesis were to investigate the mechanisms of contraction and filamentation in atmospheric-pressure microwave discharges, and to examine their influence on the plasma abatement process of PFC gases in these discharges.;The finite thermal conductivity of the gas discharge is responsible for the gas nonuniform heating leading to a contracted discharge column. The gas thermal conductivity and the penetration depth of the microwave electric field in the plasma are shown to set the value of the plasma radius. The degree of contraction and filamentation of microwave discharges can be controlled, and even reduced, by modulating adequately the incident microwave power. The relaxation times of heat conduction and heat release are actually observed to be of the same magnitude, and correspond to the modulation period for which the discharge shows less contraction.;PFC molecules are eliminated through their fragmentation by inelastic collisions with electrons and the subsequent oxidation of these fragments. Reformation of PFC molecules is the main process limiting the abatement efficiency in atmospheric-pressure microwave discharges. As a result of discharge radial contraction, a relative “colder” space between the plasma filament and the discharge tube wall favors PFC reformation and, therefore, lowers the destruction efficiency. The PFC destruction efficiency is found to increase with absorbed microwave power. Surface-wave microwave discharges sustained at atmospheric pressure prove to be an efficient and ecological solution for emission reduction of greenhouse gases. French and English text. Physics, Fluid and Plasma. ; Geophysics. ; Physics, Atmospheric Science. ; Engineering, Environmental. aMoisan, Michel. aCN bNGL http://pqdt.bjzhongke.com.cn/Detail.aspx?pid=8748WWZ9RcM%3d NGL Bs661 rCNY371.35 ; h1 xhbs1003