"The Measurement of Small Gas Flow"@en . . . "M\u011B\u0159en\u00ED mal\u00FDch pr\u016Ftok\u016F plyn\u016F"@cs . "1"^^ . "\"Problems with liquidation of used up plastic products are well known for long time. Very perspective method for these liquidation is appeared biodegradation of plastics by micro-organism, dissociation kynetics are studied by flow measurement of createdbio-gas. Objectives of proposed project is elaboration and verification of equipment useful for gas flow measurement. The operational range of preponderance of the commercial flowmeters is greater than actual flow of created bio-gas. The operationalrange of the designed flowmeter will be (20-500)mlph in normal atmospheric pressure. Derived gas flow measuring method will be verified by simulation program Femlab and practically implemented. The flow measurement will use temperature effect in gasflow, measurement principle is called \"\" Time - of - Flight Type Sensor\"\". The microcomputer will be very useful for practice design of the flow sensor. Designed gas flow sensor will be equipped with control software. The mathematic model will be verified\""@en . "16"^^ . . "16"^^ . . "661"^^ . . . "843"^^ . . "Dlouhou dobu jsou zn\u00E1my probl\u00E9my s\u00A0likvidac\u00ED plastov\u00FDch obal\u016F. Velmi perspektivn\u00ED metoda likvidace obalov\u00FDch materi\u00E1l\u016F se jev\u00ED biodegradace plast\u016F pomoc\u00ED mikroorganizm\u016F, p\u0159i\u010Dem\u017E kinetika rozkladu je studov\u00E1na m\u011B\u0159en\u00EDm pr\u016Ftoku vytv\u00E1\u0159en\u00E9ho bioplynu. C\u00EDlemnavrhovan\u00E9ho projektu je vypracov\u00E1n\u00ED a ov\u011B\u0159en\u00ED metody m\u011B\u0159en\u00ED mal\u00FDch pr\u016Ftok\u016F plynu s\u00A0vyu\u017Eit\u00EDm adaptivn\u00EDho \u0159\u00EDzen\u00ED. P\u0159ev\u00E1\u017En\u00E1 v\u011Bt\u0161ina komer\u010Dn\u00EDch pr\u016Ftokom\u011Br\u016F m\u00E1 pracovn\u00ED rozsah mimo aktu\u00E1ln\u00ED pr\u016Ftok vytv\u00E1\u0159en\u00E9ho bioplynu p\u0159i rozkladn\u00E9 reakci. Pracovn\u00ED rozsahpr\u016Ftokom\u011Bru navr\u017Een\u00FD pro laboratorn\u00ED m\u011B\u0159en\u00ED bude v\u00A0rozsahu (20 - 500) ml/h p\u0159i norm\u00E1ln\u00EDm atmosf\u00E9rick\u00E9m tlaku. Navr\u017Een\u00E1 metoda m\u011B\u0159en\u00ED mal\u00FDch pr\u016Ftok\u016F plynu bude jak simula\u010Dn\u011B ov\u011B\u0159ena, tak prakticky realizov\u00E1na. M\u011B\u0159en\u00ED pr\u016Ftoku bude zalo\u017Eeno na vyhodnocov\u00E1n\u00EDhmotnostn\u00EDho pr\u016Ftoku plynu s\u00A0vyu\u017Eit\u00EDm teplotn\u00EDch jev\u016F v\u00A0proud\u00EDc\u00EDm plynu. Pro konstrukci senzoru pr\u016Ftoku plynu bude vyu\u017Eita mikroprocesorov\u00E1 technika, nav\u00EDc pr\u016Ftokom\u011Br bude opat\u0159en i ovl\u00E1dac\u00EDm softwarem. Matematick\u00FD model popisuj\u00EDc\u00ED princip \u010Dinnosti"@cs . "Neuvedeno."@en . . . "0"^^ . . "0"^^ . .