. "Experimental and modelling studies leading ot onhanced generation and de-NOx processes in non-equilibrium, atmopsheric-pressure discharges"@en . "0"^^ . . "3195"^^ . . "2"^^ . "Projekt navazuje na p\u0159edchoz\u00ED v\u00FDsledky dosa\u017Een\u00E9 v \u00DAFP a FEL \u010CVUT, a p\u0159edstavuje komlexn\u00ED v\u00FDzkumn\u00FD program zam\u011B\u0159en\u00FD na mechanismy generace oz\u00F3nu a de-NOx proces\u016F ve streamerov\u00FDch v\u00FDboj\u00EDch. Zvl\u00E1\u0161tn\u00ED pozornost bude v\u011Bnov\u00E1na:1. Studiu z\u00E1kladn\u00EDch fyzik\u00E1ln\u00EDch a chemick\u00FDch proces\u016F, kter\u00E9 limituj\u00ED (a) \u00FA\u010Dinnost plasmochemick\u00E9 syst\u00E9zy oz\u00F3nu a (b) \u00FA\u010Dinnost de-NOx proces\u016F ve streamerov\u00FDch v\u00FDboj\u00EDch. 2.Optimalizaci (a)elektronov\u00E9ho syst\u00E9mu st\u00E1vaj\u00EDc\u00EDch reaktor\u016F, (b) disipace elektrick\u00E9 energie a (c) dynamiky proud\u011Bn\u00ED plynu s c\u00EDlem zv\u00FD\u0161en\u00ED produkce a koncentrace generovan\u00E9ho oz\u00F3nu a \u00FA\u010Dinnosti de-NOx proces\u016F. 3. V\u00FDvoji meodelu streamerem indukovan\u00E9 plasmochemie zahrnuj\u00EDc\u00EDho experiment\u00E1ln\u011B z\u00EDskan\u00E1 data"@cs . "Experiment\u00E1ln\u00ED a teoretick\u00E9 studium optimalizace generace oz\u00F3nu a \u00FA\u010Dinnosti de-NOx proces\u016F v nerovnov\u00E1\u017En\u00FDch v\u00FDboj\u00EDch za atmosf\u00E9rick\u00E9ho tlaku"@cs . . . . "The project is based upon recent experimental research performed by the Dept. of Pulse Plasma systems group at IPP Prague and the Dept. of Physics at FEE CTU. It will provide a comprehensive scientific research programme into the mechanisms for the formation of ozone and de-NOx processes in various streamer gas discharges. In particular we intend:1. To study the basic physical and chemical processes that limit (a) the efficiency of plasmachemical ozone synthesis and )b) the efficiency of de-NOx processes in a streamer discharge. 2. To optimise (a) the electrode geometry of existing reactors, (b) the dissipation of electrical energy and (c) the gas-flow dynamics to improve the rate and concentration of ozone production and the efficiency of de-NOx processes. 3. To develop a model of the streamer-induced chemistry with refined data inputs from the experiments described above."@en . "non-equilibrium plasma; electrical discharges; ozone generation; de-NOx processes; streamer physics; plasma spectroscopy; energy transfer"@en . "23"^^ . . . "1695"^^ . "23"^^ . . . . "1"^^ .