Exhaust gas purifying catalyst
Abstract
The present invention provides an exhaust gas purifying catalyst that is capable of substantially reducing the degree of deterioration in an exhaust gas purifying capability, which results from dissipation of an absorbent agent. Accordingly, an exhaust gas purifying catalyst, which includes a carrier and a catalyst layer, and to which at least one material selected from a group of alkali metals and alkali earth metals is added as an absorbent agent, is characterized in that acid material with a high affinity with respect to the absorbent agent is mixed in the catalyst layer so as to fix the absorbent agent, and an inhibiting layer is formed between the catalyst layer and the carrier so as to inhibit the movement of the absorbent agent toward the carrier.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . An exhaust gas purifying catalyst comprising:
a carrier; a catalyst layer; and an inhibiting layer formed between said catalyst layer and said carrier; wherein at least one material selected from a group consisting of alkali metals and alkali earth metals is added to the catalyst layer as an absorbent agent wherein acid material with a high affinity with respect to said absorbent agent is mixed in said catalyst layer; and wherein the inhibiting layer inhibits movement of said absorbent agent toward said carrier.
2 . An exhaust gas purifying catalyst according to claim 1 , further comprising:
a second catalyst layer formed on an external surface of said catalyst layer; and wherein at least one material selected from a group consisting of alkali metals and alkali earth metals is added to the second catalyst layer as an absorbent agent.
3 . An exhaust gas purifying catalyst according to claim 1 , further comprising:
a second catalyst layer formed between said catalyst layer and said inhibiting layer; and wherein at least one material selected from a group consisting of alkali metals and alkali earth metals is added to the second catalyst layer as an absorbent agent.
4 . An exhaust gas purifying catalyst according to claim 1 ,
wherein said acid material or said inhibiting layer is composed of at least one of the following materials:
an acid oxide including at least one acid substance selected from GroupIV, Group-V and Group-VI transition elements and Group-IV, Group-V and Group-VI typical elements;
a complex oxide including said at least one acid substance; a material that never inhibits reaction of a nitrogen oxide and said absorbent agent; and
a material that absorbs a reduced substance.
5 . An exhaust gas purifying catalyst according to claim 1 ,
wherein said acid material is composed of zeolite; and wherein said inhibiting layer is composed of silica (SiO2).
6 . An exhaust gas purifying catalyst according to claim 1 ,
wherein said inhibiting layer is composed of at least one of the following materials:
a layer with a high acidity,
a layer with a large specific surface area,
a layer with a small crystal lattice,
a layer composed of an element compound, and
a layer with a high alkalinity.
7 . An exhaust gas purifying catalyst according to claim 1 ,
wherein said absorbent agent includes potassium (K); and wherein said carrier is composed of a porous carrier.
8 . A method of manufacturing an exhaust gas purifying catalyst comprising:
forming a carrier; forming an inhibiting layer on the carrier; and forming a catalyst layer on the inhibiting layer; wherein at least one material selected from a group consisting of alkali metals and alkali earth metals is added to the catalyst layer as an absorbent agent wherein acid material with a high affinity with respect to said absorbent agent is mixed in said catalyst layer; and wherein the inhibiting layer inhibits movement of said absorbent agent toward said carrier.
9 . A method of manufacturing an exhaust gas purifying catalyst according to claim 8 , further comprising:
forming a second catalyst layer on an external surface of said catalyst layer; and wherein at least one material selected from a group consisting of alkali metals and alkali earth metals is added to the second catalyst layer as an absorbent agent.
10 . A method of manufacturing an exhaust gas purifying catalyst according to claim 8 , further comprising:
forming a second catalyst layer between said catalyst layer and said inhibiting layer; and wherein at least one material selected from a group consisting of alkali metals and alkali earth metals is added to the second catalyst layer as an absorbent agent.
11 . A method of manufacturing an exhaust gas purifying catalyst according to claim 8 ,
wherein said acid material or said inhibiting layer is composed of at least one of the following materials:
an acid oxide including at least one acid substance selected from GroupIV, Group-V and Group-VI transition elements and Group-IV, Group-V and Group-VI typical elements;
a complex oxide including said at least one acid substance; a material that never inhibits reaction of a nitrogen oxide and said absorbent agent; and
a material that absorbs a reduced substance.
12 . A method of manufacturing an exhaust gas purifying catalyst according to claim 8 ,
wherein said acid material is composed of zeolite; and wherein said inhibiting layer is composed of silica (SiO 2 ).
13 . A method of manufacturing an exhaust gas purifying catalyst according to claim 8 ,
wherein said inhibiting layer is composed of at least one of the following materials:
a layer with a high acidity,
a layer with a large specific surface area,
a layer with a small crystal lattice,
a layer composed of an element compound, and
a layer with a high alkalinity.
14 . A method of manufacturing an exhaust gas purifying catalyst according to claim 8 ,
wherein said absorbent agent includes potassium (K); and wherein said carrier is composed of a porous carrier.Join the waitlist — get patent alerts
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