"EFFECT OF CO- AND COUNTER-CURRENT COOLING IN TUBULAR REACTOR" . "RIV/70883521:28140/06:63504352!RIV07-MSM-28140___" . . "Pardubice" . . "Dost\u00E1l, Petr" . "\u010Cl\u00E1nek se zab\u00FDv\u00E1 vlivem souproud\u00E9ho a protiproud\u00E9ho chlazen\u00ED v pl\u00E1\u0161ti trubkov\u00E9ho chemick\u00E9ho reaktoru. Simula\u010Dn\u00ED experimenty nab\u00FDvaj\u00ED v dne\u0161n\u00ED dob\u011B na v\u00FDznamu kv\u016Fli tomu, \u017Ee jsou bezpe\u010Dn\u00E9, m\u00E9n\u011B \u010Dasov\u011B n\u00E1ro\u010Dn\u00E9 a mnohdy i levn\u011Bj\u0161\u00ED ne\u017E experimenty na re\u00E1ln\u00E9m modelu. Postup p\u0159i tvorb\u011B simula\u010Dn\u00EDho modelu za\u010D\u00EDn\u00E1 tvorbou matematick\u00E9ho modelu, kter\u00FD je pot\u00E9 \u0159e\u0161en pomoc\u00ED vhodn\u00E9 numerick\u00E9 metody. Chov\u00E1n\u00ED syst\u00E9mu je pak pops\u00E1no statickou a dynamickou anal\u00FDzou. Statick\u00E1 anal\u00FDza n\u00E1m slou\u017E\u00ED obvykle pro volbu optim\u00E1ln\u00EDho pracovn\u00EDho bodu, kde\u017Eto dynamick\u00E1 anal\u00FDza je pou\u017Eita jako z\u00E1klad pro volbu vhodn\u00E9 metody \u0159\u00EDzen\u00ED. C\u00EDlem t\u00E9to pr\u00E1ce je porovn\u00E1n\u00ED v\u00FDsledku statick\u00E9 a dynamick\u00E9 anal\u00FDzy trubkov\u00E9ho chemick\u00E9ho reaktoru se souproud\u00FDm a protiproud\u00FDm chlazen\u00EDm v pl\u00E1\u0161ti."@cs . . "Matu\u0161\u016F, Radek" . "28140" . . "1-8" . . "Vojt\u011B\u0161ek, Ji\u0159\u00ED" . "EFFECT OF CO- AND COUNTER-CURRENT COOLING IN TUBULAR REACTOR" . "tubular chemical reactor; steady-state analysis; dynamic analysis; simulation"@en . "3"^^ . "Vliv souproud\u00E9ho a protiproud\u00E9ho chlazen\u00ED v trubkov\u00E9m chemick\u00E9m reaktoru"@cs . "EFFECT OF CO- AND COUNTER-CURRENT COOLING IN TUBULAR REACTOR"@en . "80-7194-860-8" . "EFFECT OF CO- AND COUNTER-CURRENT COOLING IN TUBULAR REACTOR"@en . . . . "Simulation is the technical discipline which shows the behavior and reactions of any system on its model. Computer simulation has a great importance today. It starts with creation of a mathematical model and the obtained equations are solved by using an appropriate calculation method. The most of the chemical processes have nonlinear properties and simulation is one way to examine this behaviour of the system. This behaviour is obtained by steady-state and dynamic analysis. Steady-state analysis results in optimal working point. On the contrary, dynamic analysis leads to e.g. the choosing of appropriate controller. The goal of this paper is to compare results of steady-state and dynamic analysis of tubular chemical reactor for co-current and countercurrent cooling in the jacket. This type of reactor belongs to the class of nonlinear systems with distributed parameters."@en . "Univerzita Pardubice" . "8"^^ . . "Z(MSM7088352101), Z(MSM7088352102)" . . "3"^^ . "Vliv souproud\u00E9ho a protiproud\u00E9ho chlazen\u00ED v trubkov\u00E9m chemick\u00E9m reaktoru"@cs . "RIV/70883521:28140/06:63504352" . . "Simulation is the technical discipline which shows the behavior and reactions of any system on its model. Computer simulation has a great importance today. It starts with creation of a mathematical model and the obtained equations are solved by using an appropriate calculation method. The most of the chemical processes have nonlinear properties and simulation is one way to examine this behaviour of the system. This behaviour is obtained by steady-state and dynamic analysis. Steady-state analysis results in optimal working point. On the contrary, dynamic analysis leads to e.g. the choosing of appropriate controller. The goal of this paper is to compare results of steady-state and dynamic analysis of tubular chemical reactor for co-current and countercurrent cooling in the jacket. This type of reactor belongs to the class of nonlinear systems with distributed parameters." . . . "[20650118D5D1]" . . . "472995" . . "7th International Scientific - Technical Conference Process Control 2006" . . . .