CN104275178A - Method for recycling waste SCR denitration catalyst and regenerated SCR catalyst carrier - Google Patents
Method for recycling waste SCR denitration catalyst and regenerated SCR catalyst carrier Download PDFInfo
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- CN104275178A CN104275178A CN201410483299.0A CN201410483299A CN104275178A CN 104275178 A CN104275178 A CN 104275178A CN 201410483299 A CN201410483299 A CN 201410483299A CN 104275178 A CN104275178 A CN 104275178A
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Abstract
The invention discloses a method for recycling a waste SCR denitration catalyst and a regenerated SCR catalyst carrier. The method for recycling the waste SCR denitration catalyst is a low-cost and environmental-friendly recycling method and comprises the following steps: primarily treating the catalyst, adding the treated catalyst into a production process for producing titanium dioxide by metatitanic acid, removing harmful components in the waste catalyst and retaining effective components in the catalyst. All the performances and effects of the regenerated catalyst carrier can reach the standard of preparation of a SCR catalyst; the regenerated catalyst carrier has excellent performance.
Description
Technical field
The invention belongs to recovery and the regeneration field of denitrating catalyst, particularly, a kind of low-cost environmental-protecting reclaiming method relating to discarded SCR denitration and the regeneration SCR catalyst carrier obtained by it.
Background technology
Along with the impact of PM 2.5 on environment is more and more serious, people also more and more pay close attention to the factor such as flue gas, vehicle exhaust producing PM 2.5, since 12, the control that China discharges nitrogen oxide (NOx) is more and more stricter, and SCR (SCR) denitration technology is widely used in the denitrating system of coal-burning power plant because having efficient, reliable denitration performance.The principle of SCR denitration technology sprays into NH in boiler emission flue gas
3deng reducing agent, these reducing agents react with the NOx in flue gas and generate harmless nitrogen and water under the effect of catalyst.The core of SCR denitration technology is SCR catalyst, and typical commercial SCR catalyst is with TiO
2for carrier, with V
2o
5-WO
3(MoO
3) etc. metal oxide containing precious metals be active component.The mode of appearance of SCR denitration has honeycomb fashion, flat and corrugated plate dst.
SCR catalyst in use, can due to 1) be in the hot conditions of more than 300 DEG C for a long time under, cause growing up of photocatalyst crystals size, specific area reduces, and reduces catalytic effect until inefficacy; 2) the long-term attachment of the harmful element such as alkali metal, alkaline-earth metal, arsenic, causes catalyst poisoning; 3) catalyst is in running, duct of cigarette ash blocking catalyst etc. reason, all can cause the inefficacy of SCR catalyst and scrap, and makes the service life of catalyst generally at 2-4; And discarded catalyst is not if carried out effective recycling, on the contrary can be harmful and secondary pollution is caused to environment; Along with the extensive application of SCR catalyst, China is about to the peak welcoming superseded waste catalyst; Therefore the discarded SCR denitration of research regeneration with recycle that have reality with meaning that is economy.
A large amount of document displays, China, to the research of discarded SCR catalyst, mainly concentrates on the recycling of following two aspects: the 1. on-line regeneration of catalyst, that is, simply wash catalyst or after pickling, again put into production in line; 2. the complete separation and recovery of waste catalyst utilizes, that is, by the metal ion in waste catalyst as after the compositions such as vanadium, tungsten, molybdenum separately separating-purifying, again recycle.These methods are high if it were not for cost, and be exactly that experimental technique is tediously long, actual value is not high; And inventor is devoted to the PRODUCTION TRAITS of catalysis titanium white, from the angle of manufacturing enterprise, propose the active ingredient retained in waste catalyst, and be only separated the recycling new method of a kind of environmental protection low cost of the harmful substance in waste catalyst, achieve good effect.
Application number is a kind of reclaiming method disclosing discarded SCR catalyst in the patent application of CN201410084780.2, the method by discarded SCR catalyst after blowing ash, cleaning and dry pretreatment, be ground into powder, and mix with calcium carbonate, then carry out roasting.Roasting material adds dilution heat of sulfuric acid after again pulverizing, and uses ammoniacal liquor adjust ph to 8-11, filters to isolate titaniferous filter residue, and be recycled liquid.By the SCR catalyst block of inactivation after blowing ash, cleaning and dry pretreatment, be soaked in Ethylene recov, the block after immersion, through super-dry, puts into the Muffle furnace roasting of 400-600 DEG C, then obtains the regeneration SCR catalyst having recovered denitration activity.This patent and difference of the present invention: after just waste catalyst being removed harmful ion in Ethylene recov, simply pass through the temperature calcination of 400-600 degree, recovered part specific area, the powder specific-surface area detection that usual the method obtains can not be very high, particle diameter is comparatively large, thus catalytic performance is not high; And the present invention will, by waste catalyst after preliminary treatment, after nanometer superfine sand mill porphyrize to nanoscale, add in the production technology of metatitanic acid, fully separate harmful ion, and through washing together with metatitanic acid, bleaching, making beating, press filtration, the links such as calcining, effectively ensure diameter of particle D
50more useful with performances such as specific surface levels, more can meet the appendix of catalyst active component.
Application number is a kind of reclaiming method disclosing discarded SCR catalyst in the patent application of CN201210492800.0, the method is just through over-blowing ash, after ball milling, add metal oxide isoreactivity material and make catalyst, wherein harmful substance such as sodium, potassium plasma cannot remove, and ball milling can not reach effective particle diameter, the catalyst causing this method to make is short for service life, and catalytic capability can reduce fast; The present invention then efficiently solves the problems referred to above.
Application number is a kind of reclaiming method disclosing discarded SCR catalyst in the patent application of CN201310434204.1, the method has 3 kinds of approach: 1 is be separated completely by catalyst components, again independent titanium dioxide is obtained, the materials such as tungstic acid, this route is tediously long, complicated operation, cost is high, and economic worth is low; 2 is through blowing ash, drying waits on-line regeneration, the catalyst activity recovery capability of regeneration is low, and fouled catalyst can only be there is no for just blocking, 3 is regeneration technologies of production rutile pigment titanium dioxide, and about discarded SCR catalyst is crushed to 300 orders, (about 44 μm) obtain product by overpickling, washing, press filtration, concentrated, hydrolysis, suction filtration, bleaching, calcining etc.; But this rutile type titanium white can only for pigment, and can not as the carrier of SCR catalyst.
Summary of the invention
Technical problem to be solved by this invention is to provide a kind of reclaiming method of discarded SCR denitration of low cost, environmental protection, the catalyst of this method reclaiming, except effectively can improving the denitrification percent of catalyst, effectively can also improve the properties such as the pore volume of catalyst, extrusion molding rate, scasoning check rate.
The present invention's adopted technical scheme that solves the problem is:
A reclaiming method for discarded SCR catalyst, comprises the following steps:
A. preliminary treatment: by discarded SCR catalyst through pulverizing, sieving, wash, stand-by after pickling;
B. slurrying process: by above-mentioned catalyst after preliminary treatment through wet pulverizing, grinding, obtain catalyst slurry;
C. mixed serum: above-mentioned catalyst slurry is mixed with metatitanic acid slurries, obtains mixed serum;
D. washing and bleaching: by above-mentioned mixed serum after washing, filter, dewater, regulating PH, add Bleached;
E. finished product preparation: added water, regulate PH by the slurries after above-mentioned process, add ammonium paratungstate and white carbon, stirs, filters, dewaters, calcines, pulverizes, obtain WO
3-SiO
2-TiO
2composite powder.
A reclaiming method for discarded SCR catalyst, comprises the following steps:
A. preliminary treatment: by discarded SCR catalyst through pulverizing, sieving, wash, stand-by after pickling;
B. slurrying process: by above-mentioned catalyst after preliminary treatment through wet pulverizing, grinding, obtain catalyst slurry, in this slurry, the diameter of catalyst is 20-100nm;
C. mixed serum: above-mentioned catalyst slurry is mixed with metatitanic acid slurries, obtains mixed serum;
D. washing and bleaching: by above-mentioned mixed serum after wash, filtering means dehydration obtains filter cake, and adjustment PH to 1.5-2.0, adds water, titanous reducing agent, reacts to after completing, be cooled to room temperature under the condition of 90 DEG C;
E. finished product preparation: the slurries after above-mentioned process are added water to the 23wt% that titanium dioxide accounts for slurries, regulates PH to 7.5-8.0, adds ammonium paratungstate to WO
3content be 5wt%, add white carbon to SiO
2content be 5wt%, stir, filter, dehydration, calcining, pulverize, obtain WO
3-SiO
2-TiO
2composite powder, wherein, described WO
3content refer to described WO
3quality account for WO
3-SiO
2-TiO
2the ratio of composite powder quality, described SiO
2content refer to described SiO
2quality account for WO
3-SiO
2-TiO
2the ratio of composite powder quality.
Wherein, in described a. initial processing step, certain methods well-known to those skilled in the art is adopted to carry out preliminary cleaning to discarded SCR catalyst, more specifically can comprise the following steps: 1. pulverize: with blade type or hammer crushing crusher machine catalyst, obtain the fragment that diameter is about 0.5-1cm; 2. sieve: the fragment after above-mentioned pulverizing is crossed 50-80 object sieve; 3. wash: add water the catalyst after sieving flushings, filtration, to remove the cigarette ash such as carbon deposit, metal deposit of catalyst surface; 4. pickling: the catalyst after washing is soaked in 1-2 hour in acid solution, and wherein, this acid solution can be sulfuric acid or nitric acid, and concentration is 0.5-1M.Alkali metal, alkaline-earth metal, arsenic or phosphorus etc. that pickling can be removed infiltration or is attached in discarded SCR catalyst.
Wherein, in described b. slurrying treatment step, the concentration of described catalyst slurry is 26-30wt%.
Wherein, in described b. slurrying treatment step, catalyst being ground to diameter is 20-100nm, the size of this catalyst is made to need the crystalline size of the metatitanic acid in the metatitanic acid slurries mixed to be close with following c. mixed serum step, thus described catalyst slurry and metatitanic acid slurries are merged completely, make the better processing effect of follow-up d. washing and blanching step and e. finished product preparation process, final obtained SCR catalyst carrier property is excellent, and the catalyst obtained by this carrier also has good performance.This catalyst particle size can also be ground to 30-80nm, further preferred 30-50nm.
Wherein, in described c. mixed serum step, in metatitanic acid slurries, the content of titanium dioxide is 190-230g/l.
Wherein, in described c. mixed serum step, the mass ratio that catalyst slurry mixes with metatitanic acid slurries is 1:9-1:1.
Wherein, described d. washing is with blanching step, and described mixed serum is through following twice washing: once wash 1.5 hours; Carry out intermediate water after press filtration to wash, wash 3 hours, until by mixed serum ferrous ion cleaning complete till.
Wherein, described d. washing, with blanching step, can add sulfuric acid and regulate PH to 1.5-2.0.This sulfuric acid, except can be used for regulating except PH, can also remove the sodium ion, potassium ion etc. in catalyst further.
Wherein, described d. washing, with blanching step, regulates the concentration of mixed serum to be 30wt% after adding water.
Wherein, described d. washing includes but not limited to titanium sulfate with the titanous reducing agent in blanching step.
Wherein, in described e. finished product preparation process, ammoniacal liquor can be added and regulate PH to 7.5-8.0.
Wherein, in described e. finished product preparation process, slurries obtain filter cake after filtering means dehydration, and in this filter cake, the content of titanium dioxide is 44-46wt%.
Wherein, in described e. finished product preparation process, the calcining of filter cake is calcined being no more than under 550 DEG C of temperature conditions.
A kind of regeneration SCR catalyst carrier obtained by the reclaiming method of above-mentioned discarded SCR catalyst.That is, the WO that this reclaiming method is obtained
3-SiO
2-TiO
2composite powder can be used as the carrier of SCR catalyst, and the pore volume of the SCR catalyst obtained by this carrier, extrusion molding rate, horizontal mechanical strength, longitudinal mechanical strength, scasoning check rate and wear rate all can reach good level.
Wherein, the SCR catalyst carrier that the method for the invention is obtained, SCR catalyst will be discarded after preliminary treatment, adding metatitanic acid produces in the production technology of titanium dioxide, continue on the one hand to remove the objectionable impurities in waste catalyst, on the other hand waste catalyst is crushed to 20-100nm(namely, be close with the crystalline size of metatitanic acid), catalyst slurry and metatitanic acid slurries are merged completely, subsequent step is made to obtain better effect, add active ingredient, the SCR catalyst that SCR catalyst carrier obtained by this method and this carrier obtain, crystalline size, specific area, scasoning check rate, longitudinal mechanical strength, horizontal mechanical strength, wear rate, the function admirables such as denitrification percent.
To sum up, the reclaiming method of discarded SCR catalyst of the present invention has following beneficial effect:
1. particle diameter is that the catalyst slurry of 20-100nm is mixed to after in metatitanic acid slurries, through washing step, again effectively can be separated free acid and other impurity of waste catalyst, effectively can meet every technical requirement of catalyst carrier titanium dioxide through techniques such as bleaching, calcinings;
2. this waste catalyst reclaiming method, does not need the various compositions of complete separating catalyst, just removes the harmful substance of catalyst, and remain active ingredient titanium dioxide and active component WO
3, V
2o
5deng, as a part for raw materials for production, both recycle waste catalyst, additionally reduced production cost, do not produce the new three wastes; Therefore, the new method of discarded SCR catalyst is recycled in can yet be regarded as a kind of environmental protection of high efficiency, low cost of this method;
3. laser particle D50 and the specific area of the SCR catalyst carrier obtained by reclaiming method of the present invention all meet standard-required, and the catalyst obtained by this carrier effectively can not only improve denitrification percent, outside the indices meeting catalyst, effectively can also improve the pore volume of catalyst, extrusion molding rate, horizontal mechanical strength, longitudinal mechanical strength, reduce scasoning check rate and wear rate.
Detailed description of the invention
Below in conjunction with embodiment, to the detailed description further of the present invention's do, but embodiments of the present invention are not limited thereto.
The properties test of catalyst obtained in following examples of the present invention and comparative example and carrier thereof all adopts standard to carry out performance test, concrete as adopted professional standard HG/T4525-2013; Catalyst titanium dioxide.
Embodiment 1
Take waste catalyst 25 kilograms, be broken into the fractionlet of 0.5-1cm through plastic breaker, cross 50 order reciprocating sieves, and the flushing dust that adds water, by the catalyst debris rinsed well, putting into 60 kilograms of concentration is that the dust technology of 1M soaks 1-2 hour, after filtration, through pulverizer wet pulverizing, add water 50 kilograms, catalyst slurry bulk concentration controls at 26wt%, enters sand mill ultra-fine grinding, and it is qualified at 20-50nm that sampling detects particle diameter; Defective secondary making beating;
Catalyst slurry after particle diameter is qualified mixes according to the ratio that mass ratio is 1:1 with metatitanic acid slurries, TiO in these metatitanic acid slurries
2content is 190g/l, once washes 1.5 hours, carries out intermediate water and wash after press filtration, washes after 3 hours, and the filtrate that takes a morsel is detected with 1% potassium ferricyanide solution, represents cleaned in time yellow; Cleaned filter cake is put into Bellmer, adds about 60 liters, sulfuric acid and the pH value of slurries is adjusted to 1.5, add pure water 30 kilograms, adjust slurry concentration to be about 30wt%, add titanous reducing agent (titanium sulfate) about 1 kilogram, control reduction temperature 90 DEG C, be incubated 1 hour, be cooled to room temperature;
Above-mentioned slurries are added tank of sizing mixing, adds about the 23wt% that pure water to titanium dioxide accounts for total slurries, add ammoniacal liquor and adjust PH to be 7.5, add para-tungstic acid amine and White Carbon black, addition meets following requirement respectively: WO
3content accounts for the 5wt% of titanium tungsten composite powder, SiO
2content accounts for the 5wt% of titanium tungsten composite powder; Stir 30min, opening press filter filters, and filter cake is containing titanium dioxide 44wt%, and enter rotary kiln calcining, high-temperature region temperature controls be no more than 550 DEG C, calcines complete, enters pulverizer and pulverizes, obtain titanium tungsten composite powder (that is, WO
3-SiO
2-TiO
2composite powder), test the present embodiment use waste catalyst and titanium tungsten composite powder properties and be recorded in table 1.
This titanium tungsten composite powder is prepared into catalyst, arbitrary method titanium tungsten composite powder being prepared into catalyst in prior art can be adopted, be prepared by the mode shown in embodiment in the patent application of CN201210243571 5, titanium tungsten powder being prepared into SCR catalyst with reference to application number in the present embodiment, and detect catalyst properties and be recorded in table 2.
Embodiment 2
Take waste catalyst 25 kilograms, the fractionlet of 0.5-1cm is broken into through plastic breaker, cross 50 order reciprocating sieves, and the flushing dust that adds water, by the catalyst debris rinsed well, putting into 60 kilograms of concentration is that the dust technology of 1M soaks 1-2 hour, after filtration, through pulverizer wet pulverizing, add water and regulate catalyst slurry bulk concentration to control at 30wt%, enter sand mill ultra-fine grinding, it is qualified at 50-100nm that sampling detects particle diameter; Defective secondary making beating;
Catalyst slurry after particle diameter is qualified mixes according to the ratio that mass ratio is 1:9 with metatitanic acid slurries, TiO in these metatitanic acid slurries
2content is 230g/l, once washes 1.5 hours, carries out intermediate water and wash after press filtration, washes after 3 hours, and the filtrate that takes a morsel is detected with 1% potassium ferricyanide solution, represents cleaned in time yellow; Cleaned filter cake is put into Bellmer, adds the pH value to 2.0 that sulfuric acid regulates slurries, add pure water 30 kilograms, adjust slurry concentration to be about 30wt%, add titanous reducing agent (titanium sulfate) about 1 kilogram, control reduction temperature 90 DEG C, be incubated 1 hour, be cooled to room temperature;
Above-mentioned slurries are added tank of sizing mixing, adds about the 23wt% that pure water to titanium dioxide accounts for total slurries, add ammoniacal liquor and adjust PH to be 8.0, add para-tungstic acid amine and White Carbon black, addition meets following requirement respectively: WO
3content accounts for the 5wt% of titanium tungsten composite powder, SiO
2content accounts for the 5wt% of titanium tungsten composite powder; Stir 30min, opening press filter filters, filter cake is containing titanium dioxide 46wt%, enter rotary kiln calcining, high-temperature region temperature controls be no more than 550 DEG C, calcines complete, enters pulverizer and pulverizes, obtain titanium tungsten composite powder and be prepared into SCR catalyst according to the mode of embodiment 1, detection carrier titanium tungsten composite powder and catalyst properties are also recorded in table 1 and table 2 respectively.
Comparative example 1
Adopt the raw material identical with embodiment 1 and processing method to carry out reclaiming to waste catalyst, this comparative example 1 is only with the difference of embodiment 1, and in catalyst slurry, the diameter of catalyst particle is 450nm.
Comparative example 2
Adopt the raw material identical with embodiment 1 and processing method to carry out reclaiming to waste catalyst, this comparative example 1 is only with the difference of embodiment 1, and in catalyst slurry, the diameter of catalyst particle is 260nm.
Wherein, " agreement " in upper table 1 represents that this specific area there is no its critical field clear and definite, and normally, the value of this specific area is larger, and the performance of catalyst carrier is better.
By the embodiment 1-2 in upper table 1-2, can find out, adopt SCR catalyst carrier prepared by this method, objectionable impurities content is effectively rejected, and meets the demands, and the index such as crystalline size and specific area reaches the requirement of SCR catalyst carrier; The catalyst Deitrogenatin efficiency prepared with this, intensity etc. can meet the requirement of SCR catalyst, and this method be can yet be regarded as a kind of good method recycled of discarded SCR catalyst economical and efficient.
Compared with comparative example 1-2 by embodiment 1, can find out, catalyst is ground in scope of the present invention, namely, after 20-100nm, be mixed with titanium tungsten composite powder with metatitanic acid slurries again, its laser particle D50 and specific area all comparatively comparative example 1-2(catalyst particle size not within the scope of 20-100nm) titanium tungsten composite powder good.And adopt identical method to obtain SCR catalyst on the basis of this carrier, the properties of the SCR catalyst obtained by embodiment 1 is also obviously better than the properties of the SCR catalyst that comparative example 1-2 obtains.
And after usually preliminary treatment being carried out to discarded SCR catalyst in prior art, 1 is directly obtain catalyst by means such as bleaching, calcinings, 2 is the activity recovering catalyst by soaking the means such as Ethylene recov, roasting, the former is normally broken to hundreds of object degree to catalyst powder, namely usually micron level is crushed to, and harmful ion directly removed by catalyst by the latter in Ethylene recov, there is not the pulverizing of catalyst.
And the present inventor finds catalyst slurry after treatment and metatitanic acid slurries being mixed with in the process of titanium tungsten composite powder, the performance of the particle diameter of catalyst when mixing with metatitanic acid to Kaolinite Preparation of Catalyst carrier and catalyst has considerable influence, as above the data display of table shown in 1-2 is the same, be the titanium tungsten composite powder that is mixed with of catalyst slurry within the scope of 20-100nm and metatitanic acid slurries and catalyst at particle diameter, its properties just can reach optimum.
As mentioned above, the present invention can be realized preferably.
The above; it is only preferred embodiment of the present invention; not any pro forma restriction is done to the present invention; according to technical spirit of the present invention; within the spirit and principles in the present invention; the any simple amendment that above embodiment is done, equivalently replace and improve, within the protection domain all still belonging to technical solution of the present invention.
Claims (10)
1. a reclaiming method for discarded SCR catalyst, is characterized in that, comprise the following steps:
A. preliminary treatment: by discarded SCR catalyst through pulverizing, sieving, wash, stand-by after pickling;
B. slurrying process: by above-mentioned catalyst after preliminary treatment through wet pulverizing, grinding, obtain catalyst slurry;
C. mixed serum: above-mentioned catalyst slurry is mixed with metatitanic acid slurries, obtains mixed serum;
D. washing and bleaching: by above-mentioned mixed serum after washing, filter, dewater, regulating PH, add Bleached;
E. finished product preparation: added water, regulate PH by the slurries after above-mentioned process, add ammonium paratungstate and white carbon, through stirring, filtering, dewater, calcine, pulverize, obtains WO
3-SiO
2-TiO
2composite powder.
2. a reclaiming method for discarded SCR catalyst, is characterized in that, comprise the following steps:
A. preliminary treatment: by discarded SCR catalyst through pulverizing, sieving, wash, stand-by after pickling;
B. slurrying process: by above-mentioned catalyst after preliminary treatment through wet pulverizing, grinding, obtain catalyst slurry, in this slurry, the diameter of catalyst is 20-100nm;
C. mixed serum: above-mentioned catalyst slurry is mixed with metatitanic acid slurries, obtains mixed serum;
D. washing and bleaching: by above-mentioned mixed serum after wash, filtering means dehydration obtains filter cake, and adjustment PH to 1.5-2.0, adds water, titanous reducing agent, reacts to after completing, be cooled to room temperature under the condition of 90 DEG C;
E. finished product preparation: the slurries after above-mentioned process are added water to the 23wt% that titanium dioxide accounts for slurries, regulates PH to 7.5-8.0, adds ammonium paratungstate to WO
3content be 5wt%, add white carbon to SiO
2content be 5wt%, through stir, filter, dehydration, calcining, pulverize, obtain WO
3-SiO
2-TiO
2composite powder, wherein, described WO
3content refer to described WO
3quality account for WO
3-SiO
2-TiO
2the ratio of composite powder quality, described SiO
2content refer to described SiO
2quality account for WO
3-SiO
2-TiO
2the ratio of composite powder quality.
3. the reclaiming method of discarded SCR catalyst according to claim 2, is characterized in that, in described b. slurrying treatment step, the concentration of described catalyst slurry is 26-30wt%.
4. the reclaiming method of discarded SCR catalyst according to claim 3, is characterized in that, in described c. mixed serum step, in metatitanic acid slurries, the content of titanium dioxide is 190-230g/l.
5. the reclaiming method of discarded SCR catalyst according to claim 4, is characterized in that, in described c. mixed serum step, the mass ratio that catalyst slurry mixes with metatitanic acid slurries is 1:9-1:1.
6. the reclaiming method of the discarded SCR catalyst according to any one of claim 2 to 4, is characterized in that, described d. washing, with blanching step, regulates the concentration of mixed serum to be 30wt% after adding water.
7. the reclaiming method of the discarded SCR catalyst according to any one of claim 2 to 4, is characterized in that, described d. washing is with blanching step, and titanous reducing agent includes but not limited to titanium sulfate.
8. the reclaiming method of the discarded SCR catalyst according to any one of claim 2 to 4, is characterized in that, in described e. finished product preparation process, slurries obtain filter cake after filtering means dehydration, and in this filter cake, the content of titanium dioxide is 44-46wt%.
9. the reclaiming method of the discarded SCR catalyst according to any one of claim 2 to 4, is characterized in that, described a. initial processing step is specially: the fragment of to be diameter by catalyst breakage be 0.5-1cm; Cross 50-80 object sieve; Add water flushing, filtration; Catalyst after washing is soaked in 1-2 hour in acid solution, and wherein, this acid solution can be sulfuric acid or nitric acid, and concentration is 0.5-1M.
10. the regeneration SCR catalyst carrier that the reclaiming method of the discarded SCR catalyst according to any one of claim 1 to 9 is obtained.
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CN106319223A (en) * | 2015-06-29 | 2017-01-11 | 马鞍山艺诚机电有限公司 | Processing method of SCR denitration catalyst |
CN106607106A (en) * | 2015-10-26 | 2017-05-03 | 浙江浙能技术研究院有限公司 | Activity regenerating and performance optimizing method of SCR catalyst for sulfur, arsenic and phosphorus poisoning |
CN108525709A (en) * | 2018-03-30 | 2018-09-14 | 国家电投集团远达环保催化剂有限公司 | The method and regeneration SCR denitration carrier powder of SCR denitration are discarded in a kind of recycling |
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CN112279299A (en) * | 2020-10-30 | 2021-01-29 | 甘肃盈华环保科技有限公司 | Method for increasing titanium dioxide content in titanium dioxide |
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