File:34. Каталитичка оксидација на амонијак.ogv

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Македонски: Во проточна комора се става концентриран воден раствор од амонијак (околу 20 mL). На долниот крај лево се наоѓа балон полн со воздух, што преку стаклена славина е приклучен на комората. Од горната страна комората се затвора со гумена затка низ која минува соодветен држач на кој e прицврстена платинска фолија (катализатор). Во U-цевката (десно горе) има раствор од дифениламин во концентрирана сулфурна киселина.

Низ растворот од амонијак се пропушта слаба струја воздух. Платинската фолија се усвитува на гасна греалка и се става во комората. Се дотерува струјата од воздух така што фолијата да остане усвитена (емитира портокалова светлина). Бргу потоа течноста во U-цевката се бои темносино, што е показател дека се формирани продукти што имаат оксидациони својства. Хемиските реакции може да се опишат со следниве равенки:

NH3(aq) = NH3(g) Воздухот барботира низ растворот и повлекува со себе дел од амонијакот

4NH3(g) + 5O2(g) = 4NO(g) + 6H2O(g) Реакција што се одвива на површината од катализаторот

2NO(g) + O2(g) = 2NO2(g) Се одвива со вишокот од кислород

NO2 е силно оксидационо средство и го оксидира растворот од дифениламин. Оксидационите продукти имаат интензивна темносина боја (реакција што се одвива во U-цевката).

Осмислено и изведено од Марина Стојановска, Миха Буклески и Владимир Петрушевски, Институт за хемија, ПМФ, УКИМ, Скопје.
English: A flow-chamber contains some 20 mL of NH3(aq, conc). An air-filled balloon is attached on the lower left part of the chamber via a glass tap. The chamber is stoppered from above with a rubber-stopper. A suitable holder passes through the rubber with a catalyst (a platinum foil). The U-tube contains a solution of diphenylamine in H2SO4(l).

A slow stream of air is passed through the aqueous ammonia. The foil is heated on a burner until it glows and is placed in the chamber. The stream of air is monitored so that the foil glows orange. After few seconds the liquid in the U-tube turns dark blue, a proof that a strong oxidation agent is being formed. The chemical reactions can be described by the following equations:

NH3(aq) = NH3(g) Air bubbles through the solution and carries some ammonia gas

4NH3(g) + 5O2(g) = 4NO(g) + 6H2O(g) A reaction that occurs at the surface of the catalyst

2NO(g) + O2(g) = 2NO2(g) With an excess of oxygen, NO2 is formed

NO2 is a strong oxidizer and oxidizes the diphenylamine solution. The oxidation products have deep blue color (the reaction in the U-tube).

Planned and performed by Marina Stojanovska, Miha Bukleski and Vladimir Petruševski, Department of Chemistry, FNSM, Ss. Cyril and Methodius University, Skopje, Macedonia.
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Author Карас Студио

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