CN1470328A - Loaded nitrogen oxide purifying catalyst and its preparation - Google Patents
Loaded nitrogen oxide purifying catalyst and its preparation Download PDFInfo
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- CN1470328A CN1470328A CNA031125352A CN03112535A CN1470328A CN 1470328 A CN1470328 A CN 1470328A CN A031125352 A CNA031125352 A CN A031125352A CN 03112535 A CN03112535 A CN 03112535A CN 1470328 A CN1470328 A CN 1470328A
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Abstract
The invention is load nitrogen oxide clarifying catalyst and the manufacturing method. The character lies in that: it is special for clarifying nitrogen oxide of tail gas of diesel engine and rare combustion gasoline engine which load molybdenum and copper oxide on HZSM-5. the molecular expressing formula is: Cu-Mo/ZSM-5. the invention has following advantages: (1) initiative. (2) high activity. (3) the activity temperature region is wide. (4) high stability. (5) the method is simple and the cost is low.
Description
Technical field:
Support type catalyst for purification of nitrogen oxides of the present invention and preparation belong to heterogeneous catalysis technology and field of environment protection thereof, specifically are a kind of control atmosphere pollution, particularly administer the Catalysts and its preparation method that diesel vehicle and lean-burn gasoline motorcycle tail gas pollute.
Technical background:
As everyone knows, motor-vehicle tail-gas has become the primary pollution source of current urban road atmosphere pollution, thereby tail gas pollution of motor-driven vehicle improvement research, particularly to the research of catalytic conversion technique, has become global research focus.The three-way catalyst technology of tail-gas from gasoline automobiles has been tending towards perfect at present.Certainly along with the improving constantly of motor vehicles exhaust emission standard, and commercial needs, need the problem of research also a lot.
The existing many bibliographical informations of SCR research about nitrogen oxide, in the nitrous oxides selectivity catalytic reduction catalysts of being reported, exist following problem: some is intended to character of studying by reaction mechanism, catalyst etc., and its conversion ratio is lower, as Pt/Al
2O
3, its NO conversion ratio of Cu/ZSM-5 is 38%~62% and 33% (R.Burch, J.Catal., 176 (1998): 204; B.Ganemi, Appl.Catal.B.17 (1998): 293); Though some is active higher, life of catalyst is relatively poor.As Pt/CM-41, its NO conversion ratio is up to more than 65%, but its less stable (A.Jentys, Catalysis Today, 59 (2000): 313); Another problem is that to have the temperature range of greater activity narrower, and this also is a key factor that influences the catalyst practicality.
The research work that China administers motor-vehicle tail-gas also is at the early-stage in recent years, wherein more work is to lay particular emphasis on the three-way catalyst Study on Technology exploitation that is used for gasoline locomotive tail gas nitrogen oxide and the processing of other harmful substance, what report was more in patent also is this type of work, and wherein some lays particular emphasis on motor-vehicle tail-gas purifying device (F01N3/28; B01D53/94F01N3/20), some be the research denitrification catalyst such as a kind of on the porous metals alloy material catalyst of load ZSM-5 and other transition metal ion, the advantage of this catalyst is heat endurance height (B01J29/46), and Hao Jiming etc. have reported a kind of Ag/Al
2O
3Catalyst is used to handle the waste gas and the methanol mixture (B01D53/54) of nitrogen-containing oxide.
Because diesel vehicle has high air-fuel ratio and different fuel performances with the lean-burn gasoline rolling stock, the NO in institute's discharging waste gas
xThe content height, difficulty of governance is big, and is even more serious to the harm of environment.Purification techniques research to nitrogen oxide in diesel vehicle and the lean-burn gasoline motorcycle tail gas still is hot subject at present.And also rare about the system research work of diesel vehicle and lean-burn gasoline motorcycle tail gas nitrogen oxide catalyst in China, and it is also very few to be specifically designed to the patent report of diesel vehicle and lean-burn gasoline motorcycle tail gas catalyst for purification of nitrogen oxides.Our front has been done some research work about the nitrogen oxide catalyzed conversion (catalysis journal, 2002,23 (6): 535; Journal of Molecular Catalysis, 2000,14 (5): 354), and applied for a national inventing patent about the Fe-Mo/ZSM-5 catalyst, this catalyst is to active high, the good stability of the catalyzed conversion of nitrogen oxide, and the problem of existence is that catalytic activity is on the low side under cryogenic conditions.No matter this is applied for a patent composition from catalyst, or the Preparation of catalysts technology all has bigger difference with it.Not only under hot conditions, has excellent catalytic performance, its NO
xAlmost reached 100%, under lower temperature conditions, still can obtain better catalytic activity simultaneously.
Summary of the invention:
The purpose of load type nitrogen oxygenate conversion catalyst of the present invention and preparation is to overcome the existing weak point of catalyst of existing bibliographical information, develop a kind of in the applied temps scope of broad, have a high catalytic activity be used for new catalyst that removes diesel vehicle and lean-burn gasoline tail gas nitrogen oxide and preparation method thereof.
Support type catalyst for purification of nitrogen oxides of the present invention, it is characterized in that be a kind of on HZSM-5 load the catalyst that is specifically designed to diesel vehicle and lean-burn gasoline motorcycle tail gas purification of nitrogen oxides that contains molybdenum and copper bi-metal oxide is arranged, the developed by molecule formula is: Cu-Mo/ZSM-5.Each constituent content is: Cu 0.5%~20%, Mo are 0.1~15%, Cu/Mo=0.1~5, SiO
2/ Al
2O
3=50~80.
Preparing the used raw material of this catalyst is: HZSM-5 (Si/Al=50~80), ammonium molybdate (NH
4)
6Mo
7O
244H
2O (analyzing pure), Cu (NO
3)
2.3H
2O (analyzing pure), copper chloride (CuCl
2.2H
2O), deionized water, hydrogen peroxide (H
2O
2, analyze pure), ammoniacal liquor etc.
Preparation method: adopt infusion process to be characterised in that and in a certain amount of deionized water, add ammonium molybdate 1~10 gram, add an amount of ammoniacal liquor after the stirring and dissolving, the HZSM-5 that adds 10~100 grams again, in thermostatical water bath, keep 50~80 ℃ of temperature, electronic stirring, up to the moisture distilled-to-dryness, put into 110~130 ℃ of baking ovens dry 12,500 ℃~700 ℃ roastings 3~6 hours in muffle furnace then, at last the Mo/ZSM-5 sample is immersed in the copper nitrate solution of desired concn 500 ℃~700 ℃ calcinings 3~6 hours in muffle furnace again.After perhaps will flooding the sample drying behind the Mo element, continue copper solution dipping, pass through steps such as evaporating water similar to the above, drying, roasting again, can obtain the Cu-Mo/ZSM-5 catalyst sample with desired concn.
Advantage and purposes: the present invention has following advantage: (1) is initiative.Cu-Mo/ZSM-5 does not see document and patent report, (2) high activity as yet as a kind of novel diesel vehicle and lean-burn gasoline motorcycle tail gas catalyst for purification of nitrogen oxides of being used for.In air speed is 60000h
-1~80000h
-1Deng near under the practical condition, repeatedly different Cu/Mo are tested its NO than the catalytic activity of sample
xConversion ratio all reaches more than 96%, has been up to 99.6%; (3) the active temperature interval is wide.In temperature range is 300 ℃~550 ℃ its NO
xConversion ratio remains on more than 91%, especially at 360 ℃~470 ℃ scopes, NO
xConversion ratio all reaches more than 99.0%; (4) high stability.The Cu-Mo/ZSM-5 catalyst is subjected to O in the system hardly
2The influence of concentration.Better heat stability under experiment condition, uses this catalyst more than 50 hours, and its catalytic activity is not fallen as follows; (5) method for preparing catalyst is simple, and is with low cost.
The purposes of this Catalysts Cu-Mo/ZSM-5 mainly is the catalyzed conversion that is used for diesel vehicle and lean-burn gasoline motorcycle tail gas nitrogen oxide, purifies and prevent air pollution thereby reach.
The specific embodiment
Embodiment 1
In the deionized water of 100ml, add ammonium molybdate 1.95 grams, add an amount of ammoniacal liquor after the stirring and dissolving, the HZSM-5 that adds 20 grams again, in thermostatical water bath, keep 50 ℃ of temperature, electronic stirring, up to the moisture distilled-to-dryness, put into 120 ℃ of baking ovens dry 12 hours, then in muffle furnace 550 ℃ the calcining 4 hours, at last the Mo/ZSM-5 sample is immersed in the copper nitrate solution that contains 2.51 grams, pass through steps such as evaporating water similar to the above, drying, roasting again, can obtain Cu-Mo/ZSM-5 (1) catalyst sample of Cu/Mo=1.
Cu-Mo/ZSM-5 (1) is at reaction condition: NO
xBe 500ppm, NH
3Be 500ppm, O
2Being 2%, is 380~450 ℃ in temperature, its NO
xConversion ratio has reached 99.6%.
Embodiment 2
In the deionized water of 150ml, add ammonium molybdate 1.95 grams, add an amount of ammoniacal liquor after the stirring and dissolving, the HZSM-5 that adds 20 grams again, in thermostatical water bath, keep 60 ℃ of temperature, electronic stirring, up to the moisture distilled-to-dryness, put into 120 ℃ of baking ovens dry 12 hours, the sample that will flood at last behind the Mo element immerses in the copper nitrate solutions that contain 2.52 grams, through evaporating water similar to the above, drying, 550 ℃ of calcinings 4 hours in muffle furnace at last, can obtain Cu-Mo/ZSM-5 (2) catalyst sample again.
Cu-Mo/ZSM-5 (2) is at reaction condition: NO
xBe 500ppm, NH
3Be 500ppm, O
2Be 4%, temperature is 400 ℃, its NO
xConversion ratio has reached 99.5%.
Embodiment 3
Change the content of Cu element with above-mentioned preparation method, make Cu-Mo/ZSM-5 (3) and Cu-Mo/ZSM-5 (4) catalyst sample of Cu/Mo=1.5 and Cu/Mo=2 respectively, under the experiment condition identical, obtained catalytic activity similar, NO with it with embodiment 1
xThe conversion ratio best result has not reached 98.15% and 97.81%, and especially in the medium and low temperature section, its catalytic activity also increases to some extent.
Embodiment 4
Cu-Mo/ZSM-5 (1) catalyst sample is under the constant situation of other condition, respectively to 1%, 2% and 5% O
2Catalytic activity under the concentration conditions is measured.Experiment shows, three kinds of O
2Catalytic activity result under the concentration conditions is roughly similar, O
2The size of concentration is not obvious to the influence of its catalytic performance, and this is a notable feature different with other catalyst.Its NO of while
xConversion ratio has all reached the result of embodiment 1.
Embodiment 5
Cu-Mo/ZSM-5 (1) catalyst sample under the constant situation of other condition, is measured its catalytic activity under the differential responses temperature conditions.Experiment shows that the Cu-Mo/ZSM-5 catalyst has very high NO
xCatalytic reduction activity 300~550 ℃ of temperature ranges, all has high catalytic activity, its NO
xConversion ratio remains on more than 91%, especially at 360 ℃~470 ℃ intervals, NO
xConversion ratio has all reached more than 99.0%, and maximum conversion has almost reached 100%.
Claims (2)
1. support type catalyst for purification of nitrogen oxides, it is characterized in that be a kind of on HZSM-5 load the catalyst that is specifically designed to diesel vehicle and lean-burn gasoline motorcycle tail gas purification of nitrogen oxides that contains molybdenum and copper bi-metal oxide is arranged, the developed by molecule formula is: Cu-Mo/ZSM-5.Each constituent content is: Cu0.5%~20%, Mo are 0.1~15%, Cu/Mo=0.1~5, SiO
2/ Al
2O
3=50~80.
2. prepare the method for the described support type catalyst for purification of nitrogen oxides of claim 1, it is characterized in that, the used raw material of catalyst is: HZSM-5 (Si/Al=50~80), ammonium molybdate (NH
4)
6Mo
7O
244H
2O (analyzing pure), Cu (NO
3)
2.3H
2O (analyzing pure), copper chloride (CuCl
2.2H
2O), deionized water, hydrogen peroxide (H
2O
2Analyze pure), ammoniacal liquor, its concrete preparation technology's method: adopt infusion process to be characterised in that and in a certain amount of deionized water, add ammonium molybdate 1~10 gram, add an amount of ammoniacal liquor after the stirring and dissolving, the HZSM-5 that adds 10~100 grams again, in thermostatical water bath, keep 50~80 ℃ of temperature, electronic stirring, up to the moisture distilled-to-dryness, put into 110~130 ℃ of baking ovens dry 12,500 ℃~700 ℃ roastings 3~6 hours in muffle furnace are then immersed the Mo/ZSM-5 sample in the copper nitrate solution of desired concn at last, 500 ℃~700 ℃ calcinings 3~6 hours in muffle furnace again.After perhaps will flooding the sample drying behind the Mo element, continue copper solution dipping, pass through steps such as evaporating water similar to the above, drying, roasting again, can obtain the Cu-Mo/ZSM-5 catalyst sample with desired concn.
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CNB031125352A CN1293940C (en) | 2003-06-10 | 2003-06-10 | Loaded nitrogen oxide purifying catalyst and its preparation |
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CN1470328A true CN1470328A (en) | 2004-01-28 |
CN1293940C CN1293940C (en) | 2007-01-10 |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1327961C (en) * | 2004-06-02 | 2007-07-25 | 华东师范大学 | Loaded catalyst, preparation and use thereof |
CN101433803B (en) * | 2008-11-20 | 2011-03-30 | 太原理工大学 | Process for preparing honeycomb-shaped SCR catalyst for purifying diesel car tail gas |
CN106466620A (en) * | 2015-08-20 | 2017-03-01 | 中国石油化工股份有限公司 | The catalyst of catalysis reduction removing nitrogen oxides under carbon monoxide under low temperature |
Family Cites Families (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CA2024154C (en) * | 1989-08-31 | 1995-02-14 | Senshi Kasahara | Catalyst for reducing nitrogen oxides from exhaust gas |
JPH07106300B2 (en) * | 1989-12-08 | 1995-11-15 | 財団法人産業創造研究所 | Method for removing nitrogen oxides in combustion exhaust gas |
DE4003515A1 (en) * | 1990-02-06 | 1991-08-08 | Bayer Ag | METHOD FOR REDUCING NITROGEN OXIDS CONTAINED IN EXHAUST GAS |
JP2618319B2 (en) * | 1992-12-14 | 1997-06-11 | 財団法人石油産業活性化センター | Catalyst structure for catalytic reduction of nitrogen oxides |
CN1054315C (en) * | 1996-06-14 | 2000-07-12 | 杭州大学 | Double component catalyst for directly synthesizing armoatic hydrocarbon by using methane as row material |
CN1132696C (en) * | 1999-06-23 | 2003-12-31 | 中国石油化工集团公司 | Catalyst containing ZSM-5 zeolite for removing nitrogen oxide and its preparing process |
CN1166438C (en) * | 2002-09-28 | 2004-09-15 | 太原理工大学 | Nitrogen oxide purifying catalyst and preparation thereof |
-
2003
- 2003-06-10 CN CNB031125352A patent/CN1293940C/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1327961C (en) * | 2004-06-02 | 2007-07-25 | 华东师范大学 | Loaded catalyst, preparation and use thereof |
CN101433803B (en) * | 2008-11-20 | 2011-03-30 | 太原理工大学 | Process for preparing honeycomb-shaped SCR catalyst for purifying diesel car tail gas |
CN106466620A (en) * | 2015-08-20 | 2017-03-01 | 中国石油化工股份有限公司 | The catalyst of catalysis reduction removing nitrogen oxides under carbon monoxide under low temperature |
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