"[DD634810FFB8]" . "DETERMINATION OF OSCILLATORY REACTION MECHANISMS BY USING STOICHIOMETRIC NETWORK ANALYSIS"@en . . "Schreiber, Igor" . "DETERMINATION OF OSCILLATORY REACTION MECHANISMS BY USING STOICHIOMETRIC NETWORK ANALYSIS"@en . "RIV/60461373:22340/05:00015305!RIV06-GA0-22340___" . . . . "RIV/60461373:22340/05:00015305" . "Popis mechanism\u016F oscila\u010Dn\u00EDch reakc\u00ED pomoc\u00ED anal\u00FDzy stechiometrick\u00FDch s\u00EDt\u00ED"@cs . . "DETERMINATION OF OSCILLATORY REACTION MECHANISMS BY USING STOICHIOMETRIC NETWORK ANALYSIS" . . . "Mechanisms of reactions displaying multiple steady states and/or oscillations can be categorized according to characteristic types of positive and negative feedback loops involved. These loops as well as conditions for the associated oscillatory instability are identified by using stoichiometric network analysis. Several types of experiments can be performed to classify reaction mechanisms and the role of species. Subsequently, main features of the mechanism can be deduced. Inorganic pH oscillators and catalytic oxidation of exhaust gases in converters are taken as examples of this kind of analysis."@en . . "P(GA203/03/0488), Z(MSM6046137306)" . "Mechanisms of reactions displaying multiple steady states and/or oscillations can be categorized according to characteristic types of positive and negative feedback loops involved. These loops as well as conditions for the associated oscillatory instability are identified by using stoichiometric network analysis. Several types of experiments can be performed to classify reaction mechanisms and the role of species. Subsequently, main features of the mechanism can be deduced. Inorganic pH oscillators and catalytic oxidation of exhaust gases in converters are taken as examples of this kind of analysis." . "Popis mechanism\u016F oscila\u010Dn\u00EDch reakc\u00ED pomoc\u00ED anal\u00FDzy stechiometrick\u00FDch s\u00EDt\u00ED"@cs . . . . . . "1"^^ . . . "Mechanismy reakc\u00ED, vykazuj\u00EDc\u00ED n\u00E1sobn\u00E9 stacion\u00E1rn\u00ED stavy a oscilace mohou b\u00FDt klasifikov\u00E1ny podle charakteristick\u00FDch typ\u016F kladn\u00FDch a z\u00E1porn\u00FDch zp\u011Btn\u00FDch vazeb. Tyto vazby a podm\u00EDnky pro souvisej\u00EDc\u00ED oscila\u010Dn\u00ED nestabilitu jsou identifikov\u00E1ny s pou\u017Eit\u00EDm anal\u00FDzy stechiometrick\u00FDch s\u00EDt\u00ED. N\u011Bkolik typ\u016F experiment\u016F m\u016F\u017Ee b\u00FDt pou\u017Eito pro klasifikaci reak\u010Dn\u00EDch mechanism\u016F a ur\u010Den\u00ED \u00FAlohy, kterou hraj\u00ED slo\u017Eky. V n\u00E1vaznosti mohou b\u00FDt ur\u010Deny hlavn\u00ED rysy mechanismu. Jako p\u0159\u00EDklady jsou uvedeny anorganick\u00E9 pH oscil\u00E1tory a katalytick\u00E1 oxidace v\u00FDfukov\u00FDch plyn\u016F v konvertorech."@cs . "1"^^ . "stoichiometric network analysis; reaction mechanism"@en . . "517630" . "DETERMINATION OF OSCILLATORY REACTION MECHANISMS BY USING STOICHIOMETRIC NETWORK ANALYSIS" . "22340" .