RU2000110740A - METHOD AND DEVICE FOR REDUCING THE CONCENTRATION OF CARBON MONOXIDE, AND THE CATALYST FOR THE SELECTIVE OXIDATION OF CARBON MONOXIDE - Google Patents

Claims (18)

1. A device for reducing the concentration of carbon monoxide contained in a hydrogen-rich gas by oxidizing it, including a source of hydrogen-rich gas, which provides the flow of hydrogen-rich gas; an oxidizing gas source that provides oxygen-containing oxidizing gas used to oxidize carbon monoxide; and a block for the selective oxidation of carbon monoxide, which contains a catalyst for the selective oxidation of carbon monoxide and to which hydrogen-rich gas is supplied from a source of hydrogen-rich gas and an oxidizing gas from a source of oxidizing gas, wherein said block oxidizes the hydrogen-rich carbon monoxide in the reaction of selective oxidation of carbon monoxide, while the catalyst for the selective oxidation of carbon monoxide, which contains as primary component ruthenium and accelerates the carbon monoxide selective oxidation reaction, characterized in that the catalyst for selective oxidation of carbon monoxide further includes an alkali or alkaline earth metal, which in combination with ruthenium extends the effective temperature range, in which the reaction is accelerated selective carbon monoxide oxidation.  2. A device for reducing the concentration of carbon monoxide according to claim 1, characterized in that the alkali or alkaline earth metal is obtained by reduction from an alkali or alkaline earth metal salt.  3. A device for reducing the concentration of carbon monoxide according to claim 1, characterized in that the alkali metal is lithium or potassium.  4. A device for reducing the concentration of carbon monoxide according to claim 1, characterized in that the alkaline earth metal is barium.  5. A device for reducing the concentration of carbon monoxide due to the oxidation of carbon monoxide contained in a hydrogen-rich gas, including a source of hydrogen-rich gas, which provides the flow of hydrogen-rich gas; an oxidizing gas source that provides oxygen-containing oxidizing gas used to oxidize carbon monoxide; and a block for the selective oxidation of carbon monoxide, which contains a catalyst for the selective oxidation of carbon monoxide and to which hydrogen-rich gas is supplied from a source of hydrogen-rich gas and an oxidizing gas from a source of oxidizing gas, wherein said block oxidizes the hydrogen-rich carbon monoxide in the reaction of selective oxidation of carbon monoxide, while the catalyst for the selective oxidation of carbon monoxide, which accelerates the reaction and biratelnogo carbon monoxide oxidation contains ruthenium as a primary component, characterized in that the catalyst for selectively oxidizing the carbon monoxide further comprises nickel.  6. A device for reducing the concentration of carbon monoxide due to the oxidation of carbon monoxide contained in a hydrogen-rich gas, including a source of hydrogen-rich gas, which provides the flow of hydrogen-rich gas; an oxidizing gas source that provides oxygen-containing oxidizing gas used to oxidize carbon monoxide; and a block for the selective oxidation of carbon monoxide, which contains a catalyst for the selective oxidation of carbon monoxide and to which hydrogen-rich gas is supplied from a source of hydrogen-rich gas and an oxidizing gas from a source of oxidizing gas, wherein said block oxidizes the hydrogen-rich carbon monoxide in the reaction of selective oxidation of carbon monoxide, while the catalyst for the selective oxidation of carbon monoxide, which accelerates the reaction and biratelnogo carbon monoxide oxidation contains ruthenium as a primary component, characterized in that the catalyst for selectively oxidizing the carbon monoxide further comprises zinc.  7. A method of reducing the concentration of carbon monoxide contained in a hydrogen-rich gas by oxidizing it, comprising mixing a hydrogen-rich gas with oxygen-containing oxidizing gas used to oxidize carbon monoxide; and the oxidation of carbon monoxide, which is contained in a hydrogen-rich gas mixed with an oxidizing gas, by the selective oxidation of carbon monoxide, using a catalyst for the selective oxidation of carbon monoxide, which contains ruthenium as a primary component and accelerates the selective oxidation of carbon monoxide, which differs the fact that the specified catalyst further comprises a simple mass of alkali or alkaline earth metal, which extends the range of effective t temperature at which the selective oxidation of carbon monoxide is accelerated.  8. The method according to p. 7, characterized in that the alkali metal is lithium or potassium.  9. The method according to p. 7, characterized in that the alkaline earth metal is barium.  10. A method of reducing the concentration of carbon monoxide contained in a hydrogen-rich gas by oxidizing it, comprising mixing a hydrogen-rich gas with oxygen-containing oxidizing gas used to oxidize carbon monoxide; and reducing the concentration of carbon monoxide contained in the hydrogen-rich gas mixed with the oxidizing gas by the selective oxidation of carbon monoxide using a catalyst for the selective oxidation of carbon monoxide, which contains ruthenium as the primary component and accelerates the selective oxidation of carbon monoxide, characterized in that said catalyst further comprises nickel.  11. A method of reducing the concentration of carbon monoxide contained in a hydrogen-rich gas by oxidizing it, comprising mixing a hydrogen-rich gas with oxygen-containing oxidizing gas used to oxidize carbon monoxide; and reducing the concentration of carbon monoxide contained in the hydrogen-rich gas mixed with the oxidizing gas by the selective oxidation of carbon monoxide using a catalyst for the selective oxidation of carbon monoxide, which contains ruthenium as the primary component and accelerates the selective oxidation of carbon monoxide, characterized in that said catalyst further comprises zinc.  12. A catalyst for the selective oxidation of carbon monoxide contained in a hydrogen-rich gas containing ruthenium as a primary component supported on a suitable substrate, characterized in that it further comprises a simple mass of alkali or alkaline earth metal, which together with ruthenium extends the effective temperature range, in which the selective oxidation of carbon monoxide is accelerated.  13. The catalyst according to p. 12, characterized in that the alkaline or alkaline earth metal and ruthenium are deposited on the substrate in the form of an alloy.  14. The catalyst according to claim 12 or 13, characterized in that the alkali metal is lithium or potassium.  15. The catalyst according to claim 12 or 13, characterized in that the alkaline earth metal is barium.  16. The catalyst according to p. 12 or 13, characterized in that the alkali or alkaline earth metals are obtained by reduction from a salt of an alkaline or alkaline earth metal.  17. A catalyst for the selective oxidation of carbon monoxide contained in a hydrogen-rich gas containing ruthenium as a primary component supported on an appropriate substrate, characterized in that it further comprises nickel.  18. A catalyst for the selective oxidation of carbon monoxide contained in a hydrogen-rich gas containing ruthenium as a primary component supported on a suitable substrate, characterized in that it further comprises zinc.