Catalyst for purification of exhaust gas, regeneration method for the catalyst, and apparatus and method for purification of exhaust gas using the catalyst
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A catalyst for purification of exhaust gas in which a noble metal is supported on a metal-oxide support wherein, in a oxidation atmosphere, the noble metal exists on the surface of the support in high oxidation state, and the noble metal binds with a cation of the support via an oxygen atom on the s
A catalyst for purification of exhaust gas in which a noble metal is supported on a metal-oxide support wherein, in a oxidation atmosphere, the noble metal exists on the surface of the support in high oxidation state, and the noble metal binds with a cation of the support via an oxygen atom on the surface of the support to form a surface oxide layer and, in a reduction atmosphere, the noble metal exists on the surface of the support in a metal state, and an amount of noble metal exposed at the surface of the support, measured by CO chemisorption, is 10% or more in atomic ratio to a whole amount of the noble metal supported on the support.
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1. A catalyst for purification of exhaust gas in which a noble metal is supported on a metal-oxide support, wherein the support contains a composite oxide of zirconia and/or alumina, and at least one element selected from the group consisting of alkaline earth metal elements, rare earth elements and
1. A catalyst for purification of exhaust gas in which a noble metal is supported on a metal-oxide support, wherein the support contains a composite oxide of zirconia and/or alumina, and at least one element selected from the group consisting of alkaline earth metal elements, rare earth elements and 3A group elements,an addition component supported on the support, and containing at least one element selected from the group consisting of alkaline earth metal elements, rare earth elements and 3A group elements,an amount of the noble metal supported on the support ranges from 0.05% to 2% by mass to the mass of the catalyst, and a molar ratio (amount of addition component/amount of noble metal) of an amount of the addition component supported on the support to the amount of the noble metal ranges from 0.5 to 20 in terms of metal,in an oxidation atmosphere, the noble metal exists on the surface of the support in high oxidation state, and the noble metal binds with a cation of the support via an oxygen atom on the surface of the support to form a surface oxide layer, andin a reduction atmosphere, the noble metal exists on the surface of the support in a metal state, and an amount of noble metal exposed at the surface of the support, measured by CO chemisorption, is 10% or more in atomic ratio to a whole amount of the noble metal supported on the support. 2. The catalyst for purification of exhaust gas according to claim 1, wherein the noble metal is at least one element selected from the group consisting of platinum, palladium and rhodium. 3. The catalyst for purification of exhaust gas according to claim 1, wherein a value of the binding energy of the 1s orbital of an oxygen atom within the support indicates a value of 531 eV or less. 4. The catalyst for purification of exhaust gas according to claim 1, wherein an electronegativity of at least one cation among cations in the support is lower than the electronegativity of zirconium. 5. The catalyst for purification of exhaust gas according to claim 1, wherein a molar ratio of a cation to the noble metal (cation/noble metal) is 1.5 or more, the cation being exposed at the surface of the support and having an electronegativity lower than the electronegativity of zirconium. 6. The catalyst for purification of exhaust gas according to claim 1, wherein the support contains a composite oxide of zirconia and/or alumina, and at least one element selected from the group consisting of magnesium, calcium, barium, lanthanum, cerium, neodymium, praseodymium, yttrium and scandium. 7. The catalyst for purification of exhaust gas according to claim 1, wherein the addition component contains at least one element selected from the group consisting of magnesium, calcium, neodymium, praseodymium, barium, lanthanum, cerium, yttrium and scandium. 8. The catalyst for purification of exhaust gas according to claim 1, further comprising iron supported on the support, wherein a molar ratio (amount of iron/amount of noble metal) of an amount of the iron supported on the support to the amount of the noble metal ranges from 0.8 to 12 in terms of metal. 9. The catalyst for purification of exhaust gas according to claim 1; wherein the support is a support having a fluorite structure and containing a composite oxide of zirconium and at least one metal element including cerium and selected from the group consisting of rare earth elements and alkaline earth metal elements; andan amount of the metal element contained in the support ranges from 51 mol % to 75 mol % in terms of metal relative to the support; an amount of cerium contained in the metal element is in a range of 90 mol % or higher in terms of metal relative to the metal element; and an amount of the noble metal supported on 100 g of the support is less than or equal to twice the standard value X and ranges from 0.01 g to 0.8 g, the standard value X being calculated by Equation (1): X=(σ/100)×S/s÷N×Mnm×100 (1) where X represents the standard value (unit: g) of the amount of the noble metal for 100 g of the support; σ represents a probability (unit: %) in which the metal element is surrounded by the metal element, the probability σ being calculated by Equation (2) σ=M−50 (2)where M represents the ratio (units: mol %) of the metal element contained in the support; S represents a specific surface area (units: m2/g) of the support; s represents a unit area (units: Å2/number) per one cation, the unit area s being calculated by Equation (3) [Formula 1]s={a2+(√2)×a2+(√3/2)×a2}/3÷2 (3)where a represents a lattice constant (unit: Å); N represents Avogadro's number (6.02×1023 (unit: number); and Mnm represents the atomic weight of the noble metal supported on the support. 10. A regeneration method for a catalyst for purification of exhaust gas, wherein oxidation treatment of heating in an oxidation atmosphere containing oxygen and reduction treatment are applied to the catalyst for purification of exhaust gas according to claim 1. 11. The regeneration method according to claim 10, wherein the temperature in the oxidation treatment is from 500° C. to 1000° C. 12. The regeneration method according to claim 10, wherein the oxygen concentration in the oxidation atmosphere is 1% by volume or higher. 13. The regeneration method according to claim 10, wherein the oxidation treatment and the reduction treatment are applied in a state in which the catalyst for purification of exhaust gas is installed in an exhaust system of an internal combustion engine. 14. The regeneration method according to claim 10, comprising: a step of mounting a temperature sensor on the catalyst for purification of exhaust gas and then determining the extent of deterioration of the catalyst for purification of exhaust gas on the basis of an operation time and a temperature detected by the temperature sensor; anda step of initiating the regeneration processing after the catalyst is determined to be in a deterioration state. 15. The regeneration method according to claim 10, comprising: a step of determining a deterioration state of the catalyst for purification of exhaust gas by using a catalyst deterioration diagnosing device for determining the deterioration state of the catalyst for purification of exhaust gas; anda step of initiating the regeneration processing after the catalyst is determined to be in a deterioration state. 16. An apparatus for purification of exhaust gas, comprising: an exhaust gas feeding tube,a catalyst for purification of exhaust gas according to claim 1, the catalyst being placed inside the exhaust gas feeding tube,a temperature sensor mounted on the catalyst for purification of exhaust gas, anda control means for determining the extent of deterioration of the catalyst for purification of exhaust gas on the basis of an operation time and a temperature detected by the temperature sensor and controlling so as to initiate regeneration processing of applying oxidation treatment of heating in an oxidation atmosphere containing oxygen, and reduction treatment, after the catalyst is determined to be in a deterioration state. 17. An apparatus for purification of exhaust gas, comprising: an exhaust gas feeding tube,a catalyst for purification of exhaust gas according to claim 1, the catalyst being placed inside the exhaust gas feeding tube,a catalyst deterioration diagnosing device for determining the deterioration state of the catalyst for purification of exhaust gas, anda control means for controlling so as to initiate regeneration processing of applying, to the catalyst, oxidation treatment of heating in an oxidation atmosphere containing oxygen, and reduction treatment, after the deterioration state of the catalyst for purification of exhaust gas is determined by means of the catalyst deterioration diagnosing device. 18. A method for purification of exhaust gas, comprising purifying exhaust gas by bringing the exhaust gas into contact with a catalyst for purification of exhaust gas according to claim 1.
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