CN1457920A

CN1457920A - Honeycomb ceramic catalyst for simultaneously desulfurizing and denitrifying fume and its preparation and use

Info

Publication number: CN1457920A
Application number: CN 03122802
Authority: CN
Inventors: 刘振宇; 刘清雅; 牛宏贤
Original assignee: Shanxi Institute of Coal Chemistry of CAS
Current assignee: Shanxi Institute of Coal Chemistry of CAS
Priority date: 2003-04-14
Filing date: 2003-04-14
Publication date: 2003-11-26
Anticipated expiration: 2023-04-14
Also published as: CN1232347C

Abstract

The honeycomb ceramic catalyst has surface treated honeycomb iolite ceramic as carrier, coated active alumina film and coated active components CuO and Na2O; and is prepared through soaking process. It has a normal pressure fume denitrifying rate as high as 88 %, desulfurizing rate higher than 80 %, SO2 adsorbing amount of 62 mg each gram of the catalyst and small bed resistance; and is suitable for industrial application.

Description

Be used for ceramic honeycomb catalyst and the preparation and the application of flue gas and desulfurizing and denitrifying

Technical field:

The invention belongs to and remove flue gas SO simultaneously ₂And NO _xA kind of honeycombed catalyst and preparation and application.

Background technology:

Since the eighties, along with China's rapid economic development, the coal consumption amount increases day by day, coal-fired SO ₂And NO _xDischarge capacity constantly increases, and becomes the primary pollution source of atmospheric environment.According to coal conversion, 1998,21 (4): 7-11 report, SO ₂And NO _xA large amount of dischargings, cause environmental destruction, the acid rain phenomenon is serious.Because the acid rain sedimentation is caused agricultural, forestry and material damage economic loss every year is up to more than 200 hundred million yuan.According to China's strategy of sustainable development and China's Agenda 21, must be in the long run, be based on national conditions, exploitation adapts to the flue gases purification of different scales.

Flue gases purification is divided into independent desulphurization denitration and while desulphurization denitration, because the desulphurization denitration technology is saved manpower, financial resources and material resources simultaneously, enjoys the researcher to pay attention to.At present, being used for simultaneously, the technology of desulphurization denitration mainly contains Fuel and Energy Abstracts, 1997,38 (3): 189, the electronic beam method of 97/02388 report, Fuel and Energy Abstracts, 1998,39 (3): 216,98/02396 and Fuel, 1997,76 (6): the activated carbon method of 549-560 report, Ind.Eng.Chem.Res.2000, the CuO/ γ-Al of 39:3868-3874 report ₂O ₃Method.Although electronic beam method has been realized industrialization, because operating cost is high-leveled and difficult with large-scale promotion at home, and existing catalyst (comprises active carbon and CuO/ γ-Al ₂O ₃) because its graininess shape causes bed resistance big, be difficult to overcome dust and stop up, only rest on theoretical research and laboratory or pilot scale stage, so far none routine industrialization.Given this, a kind of bed resistance of necessary exploitation little, can overcome exhaust gas dust influence, desulphurization denitration catalyst when being suitable for industrial applications.

Honeycombed catalyst have pressure drop little, overcome advantage such as dust obstruction, be widely used in denitrating flue gas, but all do not had honeycombed catalyst to be used for the report of desulphurization denitration simultaneously so far both at home and abroad.

Summary of the invention:

It is little to the purpose of this invention is to provide a kind of bed resistance, is suitable for cellular while desulphurization denitration catalyst and the preparation and the application of industrial applications.

Catalyst of the present invention is first carrier with the surface-treated cordierite honeycomb ceramic, and the activated alumina film is second carrier, load active component CuO and Na ₂O, the consisting of of catalyst:

Pottery 70-81wt.%,

Activated alumina 19-30wt.%,

Carrier loaded 8.5-12.5 gram CuO of per 100 grams and 4.0-5.4 gram Na ₂O

Preparation of catalysts method of the present invention comprises the steps:

(1) with aluminum nitrate: distilled water=0.6～0.8: 1 mass ratio, aluminum nitrate is added in the distilled water, all the dissolving back adds urea, wherein urea: the mass ratio of distilled water is 0.3～0.5: 1, and the gained glue is a coating liquid;

(2) the surface-treated cordierite honeycomb ceramic is soaked in the above-mentioned glue, takes out behind placement 6～8h, in 50～110 ℃ of down dry 8～12h, then in 400～500 ℃ of calcining 6～12h, the ceramic monolith of promptly once being filmed;

(3) can to obtain ceramic content be 70-81wt.% to repeating step (2), and activated alumina content is the 19-30wt.% ceramic monolith of filming;

(4) be that adsorbent is made blank assay to the adsorbance of the ceramic monolith of filming with water, the volume adsorption that obtains 100 gram carriers is the X milliliter;

(5) by carrier loaded 8.5-12.5 gram CuO of per 100 grams and 4.0-5.4 gram Na ₂O, preparation CuO content are 8.5-12.5 gram CuO/Xml, Na ₂O content is 4.0-5.4 gram Na ₂Cu (the NO of O/Xml ₃) ₂And NaNO ₃Mixed liquor is coated with membrane carrier with mixed liquid dipping, takes out behind placement 6～10h, in 50～110 ℃ of down dry 8～12h, in 400～500 ℃ of calcining 6～10h, promptly gets catalyst then.

The aforesaid volume that is coated with the used mixed liquor of membrane carrier with mixed liquid dipping is for more than or equal to the X milliliter.

The method that the prepared catalyst of the present invention is applied to carry out simultaneously desulphurization denitration comprises the steps:

(1) with NH ₃Be reducing agent, press NH ₃: NO _xMol ratio is 1-1.2: 1 ratio is with NH ₃In the input flue gas;

(2) will contain NH ₃Flue gas enter fixed bed reactors, at atmospheric operation; Operating temperature is 400 ℃; The operation air speed is 1700～3000h ^-1Condition under carry out desulphurization denitration simultaneously.The present invention has following advantage:

1. desulphurization denitration catalyst when being preparing carriers with the cordierite honeycomb ceramic, bed resistance is little, is applicable to industrial applications.

2. this catalyst can overcome the clogging that dust causes.

3. this catalyst has higher denitration activity and well desulphurizing activated.

The specific embodiment:

Embodiment 1

Take by weighing 152gAl (NO ₃) ₃9H ₂O is dissolved in the 200ml distilled water, and heating all adds the 80g urea in the dissolving back, promptly gets coating liquid.With taking out behind the above-mentioned coating liquid immersion surface treatment pottery 8h, in 50 ℃ of dry 8h, 110 ℃ of dry 12h, 500 ℃ of calcining 6h.Repeat to film obtain that ceramic content is 81% for 5 times, activated alumina content is 19% the membrane carrier that is coated with.With water is that adsorbent is made blank assay to the adsorbance of the ceramic monolith of filming, and finds that the adsorbable water yield of 100 gram carriers is 36 milliliters.Preparation CuO content is 0.236gCuO/ml, Na ₂O content is 0.11gNa ₂Cu (the NO of O/ml ₃) ₂And NaNO ₃Mixed liquor, dipping is coated with membrane carrier, takes out behind the placement 6h, in 50 ℃ of dry 8h, 110 ℃ of dry 12h, 500 ℃ of calcining 6h obtain carrier loaded 8.5 gram CuO of per 100 grams and 4.0 gram Na ₂The catalyst of O.The catalyst of getting Φ 21 * 30mm places reaction tube (Φ 21mm), and the control reaction temperature is at 400 ℃, and air speed is 2300h ^-1, flue gas consists of 1500ppm SO ₂, 400ppmNO, 5.4%O ₂, 2.5%H ₂O, balance Ar is with 400ppm NH ₃Make reducing agent, stable state NO removal efficiency is 92% under this operating condition, SO ₂Conversion ratio is 6.0% greater than 80% Sulfur capacity.

Embodiment 2

Method for preparing catalyst is with embodiment 1.The catalyst of getting Φ 21 * 30mm places reaction tube (Φ 21mm), and the control reaction temperature is at 400 ℃, and air speed is 1800h ^-1, flue gas consists of 1800ppmSO ₂, 500ppm NO, 5.4%O ₂, 2.5%H ₂O, balance Ar is with 600ppm NH ₃Make reducing agent, stable state NO removal efficiency is 92% under this operating condition, SO ₂Conversion ratio is 6.2% greater than 80% Sulfur capacity.

Embodiment 3

Method for preparing catalyst is with embodiment 1.The catalyst of getting Φ 21 * 30mm places reaction tube (Φ 21mm), and the control reaction temperature is at 400 ℃, and air speed is 1500h ^-1, flue gas consists of 2200ppmSO ₂, 550ppm NO, 5.4%O ₂, 2.5%H ₂O, balance Ar is with 550ppm NH ₃Make reducing agent, stable state NO conversion ratio is 90% under this operating condition, SO ₂It is 6.6% that conversion ratio reaches 80% Sulfur capacity.

Embodiment 4

Take by weighing 160gAl (NO ₃) ₃9H ₂O is dissolved in the 200ml distilled water, and heating all adds the 100g urea in the dissolving back, promptly gets coating liquid.With taking out behind the above-mentioned coating liquid immersion surface treatment pottery 6h, in 50 ℃ of dry 10h, 110 ℃ of dry 12h are then in 400 ℃ of calcining 12h.Repeat to film obtain that ceramic content is 75% for 7 times, activated alumina content is 25% the membrane carrier that is coated with.With water is that adsorbent is made blank assay to the adsorbance of the ceramic monolith of filming, and finds that the adsorbable water yield of 100 gram carriers is 40 milliliters.Preparation CuO content is 0.265gCuO/ml, Na ₂O content is 0.14gNa ₂Cu (the NO of O/ml ₃) ₂And NaNO ₃Mixed liquor, dipping is coated with membrane carrier, takes out behind the placement 8h, in 50 ℃ of dry 8h, 110 ℃ of dry 12h, 450 ℃ of calcining 8h make carrier loaded 10.6 gram CuO of per 100 grams and 5.4 gram Na ₂The catalyst of O.The catalyst of getting Φ 21 * 30mm places reaction tube (Φ 21mm), and the control reaction temperature is at 400 ℃, and air speed is 2300h ^-1, flue gas consists of 1800ppmSO ₂, 450ppm NO, 5.4%O ₂, 2.5%H ₂O, balance Ar is with 500ppm NH ₃Make reducing agent, stable state NO removal efficiency is 85% under this operating condition, SO ₂It is 6.8% that conversion ratio reaches 80% Sulfur capacity.

Embodiment 5

Carrier coating method and blank assay are with embodiment 4.Preparation CuO content is 0.313gCuO/ml, Na ₂O content is 0.14gNa ₂Cu (the NO of O/ml ₃) ₂And NaNO ₃Mixed liquor, dipping is coated with membrane carrier, takes out behind the placement 10h, in 50 ℃ of dry 10h, 110 ℃ of dry 12h, 400 ℃ of calcining 10h obtain carrier loaded 12.5 gram CuO of per 100 grams and 5.4 gram Na ₂The catalyst of O.The catalyst of getting Φ 21 * 30mm places reaction tube (Φ 21mm), and the control reaction temperature is at 400 ℃, and air speed is 3000h ^-1, flue gas consists of 1500ppm SO ₂, 600ppm NO, 5.4%O ₂, 2.5%H ₂O, Ar is a balance gas, with 600ppmNH ₃Be reducing agent, the NO removal efficiency is 85% under this operating condition, SO ₂It is 6.5% that conversion ratio reaches 80% Sulfur capacity.

Embodiment 6

Take by weighing 155gAl (NO ₃) ₃9H ₂O is dissolved in the 200ml distilled water, and heating all adds the 100g urea in the dissolving back, promptly gets coating liquid., with taking out behind the above-mentioned coating liquid immersion surface treatment pottery 6h, in 50 ℃ of dry 10h, 110 ℃ of dry 12h are then in 400 ℃ of calcining 12h.Repeat to film obtain that ceramic content is 70% for 9 times, activated alumina content is 30% the membrane carrier that is coated with.With water is that adsorbent is made blank assay to the adsorbance of the ceramic monolith of filming, and finds that the adsorbable water yield of 100 gram carriers is 43 milliliters.Preparation CuO content is 0.247gCuO/ml, Na ₂O content is 0.1gNa ₂Cu (the NO of O/ml ₃) ₂And NaNO ₃Mixed liquor, dipping is coated with membrane carrier, takes out behind the placement 6h, in 50 ℃ of dry 8h, 110 ℃ of dry 12h, 500 ℃ of calcining 6h obtain carrier loaded 10.6 gram CuO of per 100 grams and 4.6 gram Na ₂The catalyst of O.The catalyst of getting Φ 21 * 30mm places reaction tube (Φ 21mm), and the control reaction temperature is at 400 ℃, and air speed is 2500h ^-1, flue gas consists of 1900ppm SO ₂, 500ppm NO, 5.4%O ₂, 2.5%H ₂O, balance Ar is with 550ppm NH ₃Make reducing agent, stable state NO removal efficiency is 88% under this operating condition, SO ₂Conversion ratio is 6.3% greater than 80% Sulfur capacity.

Claims

1. a ceramic honeycomb catalyst that is used for flue gas and desulfurizing and denitrifying is characterized in that catalyst is first carrier with the surface-treated cordierite honeycomb ceramic, and the activated alumina film is second carrier, load active component CuO and Na ₂O, the consisting of of catalyst:

Pottery 70-81wt.%,

Activated alumina 19-30wt.%,

Carrier loaded 8.5-12.5 gram CuO of per 100 grams and 4.0-5.4 gram Na ₂O

2. a kind of preparation method who is used for the ceramic honeycomb catalyst of flue gas and desulfurizing and denitrifying as claimed in claim 1 is characterized in that comprising the steps:

3. as the described a kind of preparation method who is used for the ceramic honeycomb catalyst of flue gas and desulfurizing and denitrifying of claim .2, it is characterized in that the described volume that is coated with the used mixed liquor of membrane carrier with mixed liquid dipping is for more than or equal to the X milliliter.

4. as the described a kind of application process that is used for the ceramic honeycomb catalyst of flue gas and desulfurizing and denitrifying of claim ..1, it is characterized in that comprising the steps:

(2) will contain NH ₃Flue gas enter fixed bed reactors, at atmospheric operation; Operating temperature is 400 ℃; The operation air speed is 1700～3000h ^-1Condition under carry out desulphurization denitration simultaneously.