TH96973B - How to produce catalysts for exhaust gas treatment and the vehicles in which they are used. - Google Patents

Abstract

DC60(03/06/13) Method for producing catalysts for exhaust gas treatment with (a) metal support preparation process. Oxide containing zirconium (b) the process of preparing a solution containing rhodium and (c) the process of bringing the metal oxide support containing zirconium from process (a) into the solution. Inside there is rhodium from process (b) and ammonium carbonate or ammonium hydrogen. Carbonate or ammonia solution used to adjust the pH value to be in the range of 3.07.5 down to which A rhodium-containing exhaust aftertreatment catalyst is mounted onto a metal oxide-containing support. Zirconium is mixed in highly dispersed microparticles. The picture used is picture 1. Method for producing catalysts for exhaust gas treatment using (a) metal support preparation process Oxide containing zirconium (b) the process of preparing a solution containing rhodium and (c) the process of bringing the metal oxide support containing zirconium from process (a) into the solution. Inside there is rhodium from process (b) and ammonium carbonate or ammonium hydrogen. Carbonate or ammonia solution is added to adjust the pH value to below 3.07.5, which results in a rhodium-containing exhaust gas treatment catalyst installed on a metal oxide support. Zirconium is mixed in highly dispersed microparticles. Selected picture: Picture 1

Claims (10)

1. Methods for producing catalysts for exhaust gas treatment comprising Step (a) of preparation of metal oxide support containing zirconium Step (b) of preparing a solution containing rhodium and Step (c) of adding a metal oxide support and ammonium carbonate or ammonium hydrogen carbonate or ammonia water to the solution to obtain a solution whose pH is adjusted to be in the range of 3.0 or higher and 7.5 or lower. Than where Any step of step (c) includes Sub-step (c-1A) of mixing metal oxide support in solution and Sub-step (c-2A) of adding ammonium carbonate, ammonium hydrogen carbonate or ammonia water to the rhodium-containing solution after sub-step (c-1A) to adjust the pH of the solution to be in the range of 3.0 or above and 7.5 or below or step (c) includes The sub-step (c-1B) involves adding ammonium carbonate, ammonium hydrogen carbonate or ammonia water to the rhodium-containing solution to adjust the pH of the solution to a predetermined range and sub-step (c-2B) of mixing the metal oxide support in solution after sub-step (c-1B) where The range that is defined in sub-step (c-1B) is set in such a way that the pH of the solution becomes in the range of 3.0 or higher and 7.5 or lower after sub-step (c-2B) is performed. 2. The method for producing a catalyst for exhaust gas treatment in claim 1, wherein the pH of the solution obtained in step (C) is in the range 4.0 or higher and 6.5 or lower. 3. A method for producing a catalyst for exhaust gas treatment in principle 1, wherein the metal oxide support prepared in step (a) has a sherconium content in the range of 50%. molar or higher and 95% molar or less when converted to oxide. 4. The method for producing a catalyst for exhaust gas treatment in claim 3, wherein the metal oxide support prepared in step (a) has a zirconium content in the range/0% mole or higher. and 90% by mole or less when converted to oxide. 5. The method for producing a catalyst for exhaust gas treatment in claim 1, wherein the metal oxide support prepared in step (a) has one of the selected metal materials from the group containing the element cerium. , Lanthanum and Neodymium 6. The method for producing a catalyst for treating ilea in claim 1, wherein the solution prepared in step (b) has an absorbance of 0.8 or less for the beam. with a wavelength of 300nm 7. The method for producing a catalyst for exhaust gas treatment in claim 1, wherein the solution prepared in step (b) has a chlorine content of 1000PPm or less. 8. The method for producing a catalyst for exhaust gas treatment in claim 1, comprising a W step (Cl) of drying and calcining the solution after step (C) to obtain a powder-like catalyst with Metal oxide and rhodium supports are supported on it. 9. The method for producing a catalyst for exhaust gas treatment in claim 8, further comprising step (e) of creating the catalyst stage using a powder catalyst on the surface of the base material. Has a honeycomb appearance. 10.A vehicle, consisting of: an internal combustion engine, an exhaust pipe for conveying exhaust gas from the internal combustion engine to the outside and a catalyst for treating the exhaust produced using a catalyst production method for for treating the ileus in claim 1 and is shortened to be present in the exhaust pipe.