RU2010143448A

RU2010143448A - APPLICATION OF EXCHANGE RECEIVED IN ALKALINE CONDITIONS OF MATERIALS FOR STORING OXYGEN FOR THE LOW-TEMPERATURE CATALYTIC OXIDATION OF SOLID PARTICLES

Info

Publication number: RU2010143448A
Application number: RU2010143448/04A
Authority: RU
Inventors: Барри У.Л. САУТУОРД (US); Барри У.Л. САУТУОРД; Керт ЭЛЛИС (US); Керт ЭЛЛИС
Original assignee: Умикоре Аг Унд Ко. Кг (De); Умикоре Аг Унд Ко. Кг
Priority date: 2008-03-27
Filing date: 2009-03-27
Publication date: 2012-05-10
Also published as: RU2010143441A

Abstract

1. Модифицированный неблагородным металлом смешанный оксид/твердый раствор, полученный при контактировании активного в окислении-восстановлении материала с раствором предшественника растворенных катионов при условиях высокого рН/низкого содержания иона гидроксония (Н3О+)/низкого содержания протона (Н+); причем оксидный носитель представляет собой термостойкий оксид; термостойкий оксид/смешанный оксид содержит оксид церия; кроме того, неблагородный металл вводят в активный в окислении-восстановлении материал в виде одного или нескольких соединений, выбранных из группы, включающей: ! - гидроксид аммония/аммиачный комплекс катионов металла; !- органический аминовый комплекс катионов металла; и !- гидроксидное соединение катионов металла; и ! причем смешанный оксид прокаливают при температуре выше 350°С. ! 2. Модифицированный неблагородным металлом смешанный оксид/твердый раствор по п.1, в котором оксид церия представляет собой твердый раствор оксидов церия и циркония (оксид Ce-Zr). ! 3. Модифицированный неблагородным металлом смешанный оксид/твердый раствор по п.2, в котором оксид Ce-Zr представляет собой по существу фазу чистого твердого раствора, обладающего способностью к ионной проводимости кислорода и включающую: ! (а) до примерно 95% циркония; ! (б) до примерно 95% церия; ! (в) до примерно 20% стабилизатора, выбранного из группы, включающей редкоземельные элементы, иттрий и их смеси. ! 4. Модифицированный неблагородным металлом смешанный оксид/твердый раствор по п.1, содержащий один или более вид частиц модифицирующих металлов, выбранных из группы, включающей переходный металл, щелочной металл, щелочно-земельный мета� 1. Base metal-modified mixed oxide / solid solution obtained by contacting a material active in redox with a solution of a dissolved cation precursor under conditions of high pH / low content of hydroxonium ion (H3O +) / low proton content (H +); moreover, the oxide carrier is a heat-resistant oxide; heat resistant oxide / mixed oxide contains cerium oxide; in addition, a base metal is introduced into the oxidation-reduction active material in the form of one or more compounds selected from the group including:! - ammonium hydroxide / ammonia complex of metal cations; ! - Organic amine complex of metal cations; and! - hydroxide compound of metal cations; and! moreover, the mixed oxide is calcined at a temperature above 350 ° C. ! 2. The base metal-modified mixed oxide / solid solution according to claim 1, wherein the cerium oxide is a solid solution of cerium and zirconium oxides (Ce-Zr oxide). ! 3. The base metal-modified mixed oxide / solid solution according to claim 2, wherein the Ce-Zr oxide is essentially a phase of a pure solid solution having oxygen ion conductivity and comprising:! (a) up to about 95% zirconium; ! (b) up to about 95% cerium; ! (c) up to about 20% of a stabilizer selected from the group consisting of rare earth elements, yttrium, and mixtures thereof. ! 4. Base metal-modified mixed oxide / solid solution according to claim 1, containing one or more particles of modifying metals selected from the group consisting of a transition metal, alkali metal, alkaline-earth meta

Claims

1. A base metal-modified mixed oxide / solid solution obtained by contacting a material active in redox with a solution of a dissolved cation precursor under conditions of high pH / low content of hydroxonium ion (H ₃ O ⁺ ) / low proton content (H ⁺ ); moreover, the oxide carrier is a heat-resistant oxide; heat resistant oxide / mixed oxide contains cerium oxide; in addition, the base metal is introduced into the oxidation-reduction active material in the form of one or more compounds selected from the group including:

- ammonium hydroxide / ammonia complex of metal cations;

- organic amine complex of metal cations; and

- hydroxide compound of metal cations; and

moreover, the mixed oxide is calcined at a temperature above 350 ° C.

2. The base metal-modified mixed oxide / solid solution according to claim 1, wherein the cerium oxide is a solid solution of cerium and zirconium oxides (Ce-Zr oxide).

3. The base metal-modified mixed oxide / solid solution according to claim 2, wherein the Ce-Zr oxide is essentially a phase of a pure solid solution having oxygen ion conductivity and comprising:

(a) up to about 95% zirconium;

(b) up to about 95% cerium;

(c) up to about 20% of a stabilizer selected from the group consisting of rare earth elements, yttrium, and mixtures thereof.

4. The base metal-modified mixed oxide / solid solution according to claim 1, containing one or more particles of modifying metals selected from the group consisting of a transition metal, alkali metal, alkaline earth metal, group IIIb metal, and mixtures thereof.

5. The base metal modified mixed oxide / solid solution according to claim 4, wherein the concentration of the introduced metal particles is from about 0.01 to about 10 wt.%.

6. The modified base metal mixed oxide / solid solution according to claim 4, in which the concentration of the introduced metal particles is from 0.1 to about 2.5 wt.%.

7. A mixed oxide / solid solution modified by a base metal according to one or more of the preceding claims, containing a finely dispersed metal in its final form, so that phase analysis by conventional X-ray diffraction methods shows the preservation of a substantially pure cubic fluorite phase (more than 95%) and the content of the bulk phase of the metal oxide is below 5%, when the particle size of the modifying metal oxide is from about 30 to about 100 Å, according to the method of line broadening analysis / Scherer equation.

8. The base oxide / solid solution modified by a base metal according to claim 7, in the final form containing a metal in a high degree of dispersion, so that a phase analysis by XRD confirms that the promoted material retains at least 95% of the cubic phase of the fluorite type after hydrothermal oxidative aging at 1100 ° C.

9. A device with a particle filter for trapping and catalytic oxidative removal of solid material, which is formed as a by-product in an internal combustion engine, including a particle filter, including a substrate containing material active in oxidation-reduction, and material active in oxidation-reduction represents a modified base metal mixed oxide / solid solution according to one or more of claims 1 to 8.

10. The device with a particle filter according to claim 9, in which the particulate filter is a filter with permeable walls.

11. The device with a particle filter according to claim 9, for which the removal temperature is from about 250 to about 650 ° C.

12. The device with a particle filter according to claim 9, for which the removal temperature is from about 350 to about 550 ° C.

13. A device with a particle filter according to one or more of claims 9-12, wherein the particle filter does not contain a platinum group metal.

14. A device with a particle filter according to one or more of the preceding claims 9-12, wherein the particle filter further comprises a platinum group metal.

15. The device with a particle filter according to 14, in which the metal of the platinum group is selected from the group including platinum, palladium, rhodium and mixtures thereof.

16. A method of treating exhaust gases, including passing exhaust gas through a particle filter according to one or more of the preceding claims 9-15.