. "\"Z\u00E1kladn\u00ED poznatky o reak\u010Dn\u00EDch syst\u00E9mech, d\u016Fle\u017Eit\u00FDch pro termickou oxidaci organick\u00FDch kapalin vs\u00E1kl\u00FDch do p\u00F3rovit\u00FDch, inertn\u00EDch \u010D\u00E1stic dosud chyb\u00ED. Hydrodynamick\u00E9 chov\u00E1n\u00ED \"\"g\"\"-\"\"s\"\" syst\u00E9m\u016F s modelov\u011B zne\u010Di\u0161t\u011Bn\u00FDmi (zvlh\u010Den\u00FDmi) a lepiv\u00FDmi \u010D\u00E1sticemi bude zkoum\u00E1no pomoc\u00ED tlakov\u00FDch fluktuac\u00ED t\u00E9\u017E se z\u0159etele ne\u017E\u00E1douc\u00ED tendence lepiv\u00FDch \u010D\u00E1stic se shlukovat a zaleh\u00E1vat ve fluidn\u00ED vrstv\u011B. \u010C\u00E1stice dosud neprozkouman\u00E9ho materi\u00E1lu, nas\u00E1knut\u00E9 modelov\u00FDmi palivy budou za dob\u0159e definovan\u00FDch podm\u00EDnek \u017E\u00EDh\u00E1ny v oxida\u010Dn\u00ED atmosf\u00E9\u0159e v laboratorn\u00EDm reaktoru, provozovan\u00E9m v r\u016Fzn\u00FDch tokov\u00FDch re\u017Eimech. C\u00EDlem experiment\u00E1ln\u00EDho a modelovac\u00EDho \u00FAsil\u00ED je popsat z\u00E1vislost spalovac\u00ED \u00FA\u010Dinnosti reaktoru jako funkci prosazen\u00ED, p\u0159ebytku vzduchu, teploty a velikosti \u010D\u00E1stic. Studie je zam\u011B\u0159ena na celkov\u00FD obraz tvorby a oxida\u010Dn\u00ED destrukce hlavn\u00EDch plynn\u00FDch (p\u0159\u00EDp. tuh\u00FDch) polutant\u016F (NO, NO2, N2O, CO, organick\u00FDch rezidu\u00ED, POP, SO2 a HCl) a na vztahy mezi nimi.\""@cs . "Fluidizace a dekontaminace zne\u010Di\u0161t\u011Bn\u00FDch sypk\u00FDch materi\u00E1l\u016F ve fluidn\u00EDm reaktoru"@cs . "\"A fundamental understanding of such viable reaction systems for the thermal oxidation of organic liquids entrapped (absorbed) within porous solids is still lacking. The hydrodynamic behavior of the \"\"g\"\"-\"\"s\"\" suspensions with such polluted (wet and sticky) particles will be explored with the aid of pressure fluctuations also with respect to their unwanted tendency to stick together and lie down. Hitherto unexplored, inert and porous particles soaked in model organic compounds will be fired in a bench-scale, fluid-bed reactor operated in different regimes. Experimental and modeling efforts seek to explain and describe the dependence of the reactor's combustion efficiency as a function of residence time, excess air, operating temperature and particle size. The study focuses on the overall picture of formation and oxidation destruction of main gaseous pollutants (NO, NO2, N2O, CO, organic residuals, persistent organic pollutants, SO2, and HCl) and their interrelationships.\""@en . "0"^^ . "1"^^ . . . . "13"^^ . "4025"^^ . "2011-12-31+01:00"^^ . "4025"^^ . "13"^^ . . "0"^^ . . "Fluidization and decontamination of organic-polluted solids in a fluid-bed reactor"@en . . . "2007-01-01+01:00"^^ . . . "Fluid-bed reactor; decontamination; particulate solids"@en . .