FIELD: chemical or physical processes.
SUBSTANCE: present invention relates to a method of producing a carrier material composition for use in a catalyst for treating exhaust gases in order to reduce content of NOx. Method includes the following steps: i) preparing an aqueous suspension of a precursor of mixed oxide Mg/AI; ii) preparing an aqueous solution of a cerium salt; iii) preparing an aqueous solution of a salt or salts of one or more rare-earth elements other than cerium salts; iv) combining, in any order, at least the aqueous suspension from step i) with the aqueous solution from step ii) and the aqueous solution from step iii) to obtain an aqueous mixture; v) drying the aqueous mixture to obtain a dried granular material and vi) calcining the dried granular material, wherein the content of salts of one or more rare-earth elements, different from cerium, is in range of 5 wt. % up to 50 wt. %, in terms of the sum of weights of cerium salts from the aqueous solution from step ii) and salts of rare-earth elements different from cerium salts from the aqueous solution from step iii), wherein the weight of all salts is converted to the weight of their oxides. Obtained composition contains two phases: a first phase containing a mixed oxide Mg/Al, and a second phase, containing a cerium oxide and an oxide based on a rare earth element (or elements), different from cerium oxide, wherein the second phase is a solid solution. Invention also relates to versions of a carrier material composition and to use of the carrier material composition as a component for accumulating nitrogen oxides in a catalyst for treating exhaust gases.
EFFECT: present invention enables to provide a method of producing a composition of a carrier material and a composition of a carrier material, which could be used in NOx accumulation catalysts with high thermal stability and high ability to accumulate nitrogen oxides, in particular at high temperatures.
16 cl, 1 dwg, 2 tbl, 7 ex
| Title | Year | Author | Number |
|---|---|---|---|
| TRAPPING NO CATALYST SUPPORT MATERIAL WITH IMPROVED STABILITY AGAINST FORMATION OF BaAlO | 2016 |
|
RU2706060C2 |
| INORGANIC OXIDE MATERIAL | 2014 |
|
RU2698675C2 |
| CATALYST DESIGNED TO REDUCE AMOUNT OF NITROGEN OXIDES IN EXHAUST GASES OF ENGINES COMBUSTING THIN FUEL MIXTURE | 2002 |
|
RU2292236C2 |
| COMPOSITE MATERIAL BASED ON RARE-EARTH METAL PHOSPHATES AND ALUMINIUM OXIDE FOR APPLICATION IN CATALYSTS FOR EXHAUST GAS EMISSION CONTROL AND METHOD FOR ITS PRODUCTION | 2019 |
|
RU2797344C2 |
| CRACKING CATALYST ADDITIVE TO REDUCE SULFUR OXIDE EMISSIONS AND METHOD OF ITS PREPARATION | 2023 |
|
RU2818952C1 |
| COMPOSITION CAPABLE OF REDUCING CO AND NOEMISSIONS, ITS PRODUCTION METHOD AND USE, AND METHOD FOR CATALYTIC CRACKING IN FLUIDIZED LAYER | 2018 |
|
RU2772281C2 |
| POROUS INORGANIC COMPOSITE OXIDE | 2011 |
|
RU2606505C2 |
| COATED COMPOSITE CONTAINING AlO-CeO/ZrO, AND METHOD FOR PRODUCTION THEREOF | 2015 |
|
RU2699652C2 |
| CATALYST FOR CLEANING INTERNAL COMBUSTION ENGINE EXHAUST GAS AND METHOD OF CLEANING EXHAUST GAS USING SAID CATALYST | 2009 |
|
RU2457901C2 |
| COMPOSITION BASED ON OXIDES OF ZIRCONIUM, CERIUM, NIOBIUM AND TIN, PREPARATION METHODS AND USE IN CATALYSIS | 2014 |
|
RU2673295C2 |
