CN104761168B - Flying dust building materials reuse method - Google Patents
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- CN104761168B CN104761168B CN201510198100.4A CN201510198100A CN104761168B CN 104761168 B CN104761168 B CN 104761168B CN 201510198100 A CN201510198100 A CN 201510198100A CN 104761168 B CN104761168 B CN 104761168B
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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Abstract
The present invention provides a kind of flying dust building materials reuse method, it includes first time pulping process, agitating procedure, digestion process operation, break process operation, compound preparation section, second time pulping process and maintenance operation, interval time between described first time pulping process and described digestion process operation was less than 18 hours, final use according to product adopts different mould to carry out moulding, end article comprcssive strength >=10MPa that maintenance obtains, flying dust as hazardous waste can be carried out dechlorination and heavy metals immobilization stabilizing treatment by the flying dust building materials reuse method of the present invention simultaneously, flying dust is recycled as building materials, it is mainly used as the haydite of concrete aggregate and building materials.
Description
Technical field
The present invention relates to hazardous waste treatment technology, particularly relate to a kind of flying dust building materials reuse method, flying dust can be carried out dechlorination and heavy metals immobilization stabilisation by it simultaneously, is recycled as building materials by flying dust.
Background technology
China's house refuse is with landfill for mainly processing means, but due to the continuous growth of generation, fills these process means and be difficult to gradually meet growing process requirement, and then create a series of municipal administrations and environmental problems such as " garbage-surrounded cities ".
Incineration technology can well alleviate domestic rubbish disposal pressure, completing the minimizing of house refuse, waste incineration and generating electricity technology can also complete the resource of rubbish, and within 2010, Chinese garbage burning factory is 104, treating capacity is 23,170,000 tons, accounts for the 18.2% of garbage harmless amount.According to " planning of " 12 " application of city life garbage harmless treatment Facilities Construction ", by 2015, whole nation application of city life garbage burning disposal facility ability reaches more than the 35% of harmless treatment total capacity, calculates the whole nation accordingly by the newly-built garbage burning factory more than 210 1000t/d treatment scales.Producing a large amount of flying dust, especially fluidized combustion technology in Refuse Incineration Process, flying dust amount is the 10%~20% of garbage treatment quantity.Flying dust is put into " National Hazard refuse register " (HW18) because of dioxin of the heavy metal containing high leaching concentration and high toxicity equivalent etc..Environmental protection department requires that flying dust is undertaken storing, disposing by " hazardous waste storage Environmental capacity standard " (GB18597-2001) and " hazard waste landfill Environmental capacity standard " (GB18598-2001);Actively encourage the comprehensive utilization of flying ash, but technology used is it is ensured that effectively fixing of heavy metal, does not result in secondary pollution in the production process and use procedure of product.Therefore, the process of this hazardous waste of flying ash is increasingly becoming incineration technology end and is badly in need of break-through skill difficult point, also becomes the environment and social problem that currently need solve.
In order to control the leaching of heavy metal, reducing the toxicity of flying dust and the harm to environment, flying dust has to pass through the intermediate treatment processes such as solidification or stabilisation, could finally fill or recycling.At present, flying dust disposal technology mainly has: cement solidification technology, heat treatment technics, chemical agent stabilization technology etc..Cement solidification processing method has the advantages such as process equipment is ripe, simple to operate, processing cost is low, material source is wide.The commonly used this method of the country such as Japanese, American-European is as the final disposal method of some hazardous solid refuses in recent years, but it generally there is problems in that the addition of cement is easily caused the increase processing afterproduct volume;The solidification effect of part heavy metal (such as cadmium, Cr VI, molybdenum and zinc etc.) is not good enough;The production solidifying required cement is easily caused the discharge of great amount of carbon dioxide gas, and it runs counter to relevant carbon emission reduction policy.Flying dust high-temperature heat treatment technology generally has volume reduction, decrement, operation is simple and easy, heavy metal stabilizing is high and the advantage such as dioxin complete decomposition.But owing to this technology energy consumption is high, cost is big, in flying dust, readily volatilized separation of heavy metal element forms secondary flying ash and collection and difficult separation and recycling, is therefore also unfavorable for large-scale promotion.Chemical agent stabilizing flying ash from burn not only have innoxious, reduce the advantages such as perhaps not increase-volume, can also by improving the structure of chelating agen and performance makes in itself and flying dust the chemical chelation between hazard component be strengthened, and then the long-time stability of raising cured product, reduce the stabilisation product impact on environment in final disposal process.But chemical agent generally has certain selectivity, it is difficult to find the chemical agent of a kind of broad spectrum activity.
China's flyash curing stabilisation currently mainly relies on hydrated silicate system, but chlorinity high (mass percent is on average higher than 14%) in China's flying ash, directly hinder cement hydration process, reduce firming body intensity, cause that harmful substance leaching rate uprises, so when adopting hydrated silicate system solidification and stabilization flying dust, flying dust need to be carried out prewashing, remove chloride ion in flying dust.In resource, flying dust product is mainly for the production of building materials, chlorine is had strict control standard (not higher than 0.1%) by China's cement standard, because chlorine can cause serious electrochemical corrosion, bar construction in eroded reinforced concrete, meanwhile, chlorine also can reduce strength of cement, so, dechlorination is a bottleneck problem of flyash curing stabilisation and recycling.
Summary of the invention
It is an object of the invention to provide a kind of flying dust building materials reuse method, the flying dust as hazardous waste can be carried out dechlorination and heavy metals immobilization stabilizing treatment by it simultaneously, is recycled as building materials by flying dust.
For reaching above-mentioned goal of the invention, the present invention by the following technical solutions:
A kind of flying dust building materials reuse method, it can carry out dechlorination and heavy metals immobilization stabilisation for flying dust simultaneously, is recycled as building materials by flying dust, and this flying dust building materials reuse method is characterised by, including following operation:
(1) first time pulping process: add alkali metal hydroxide and/or the alkali silicate of mass percent 6~24% in flying dust, make a mud after adding water when 15~35 DEG C;
(2) agitating procedure: under isoperibol, to stir and/or to be sufficiently stirred for a mud in the way of jolt ramming, till no longer producing bubble;
(3) digestion process operation: when temperature 45~85 DEG C, relative humidity≤25%, the mud after being sufficiently stirred for carrying out digestion process, the digestion process time is 48~120 hours;
(4) break process operation: the flying dust product after completing digestion process is carried out break process and sieves;
(5) compound preparation section: the flying dust product after broken is mixed with blast furnace slag, flyash, metakaolin or the Powdered aluminosilicate refuse after high-temperature process, and adds the SiO of mass percent 2~5%2Powder or Al2O3Powder, is sufficiently stirred for mixing;
(6) second time pulping process: add alkali metal hydroxide and/or the alkali silicate of mass percent 6~15% in the compound being stirred, add water and make secondary mud under 15~35 DEG C of conditions;With
(7) maintenance operation: secondary mud is placed in 45~120 DEG C, relative humidity≤25% when carry out maintenance, curing time 24~120 hours, end article is obtained after Temperature fall, in this maintenance operation, final use according to product adopts different mould to carry out moulding, end article comprcssive strength >=10MPa that maintenance obtains
Wherein, the interval time between described first time pulping process and described digestion process operation less than 18 hours,
In described compound preparation section, the mass ratio between flying dust product and blast furnace slag, flyash, metakaolin or the Powdered aluminosilicate refuse after high-temperature process after break process is between the scope of 1:0.5~1:3.
Further, in the flying dust building materials reuse method of the present invention, in described first time pulping process and in described second time pulping process, the addition of water is between the scope of mass percent 50~150%.
Further, in the flying dust building materials reuse method of the present invention, the alkali metal hydroxide added in described first time pulping process and described second time pulping process is NaOH.
Further, in the flying dust building materials reuse method of the present invention, the alkali silicate added in described first time pulping process and described second time pulping process is Na2SiO3。
Flying dust as hazardous waste can be carried out dechlorination and heavy metals immobilization stabilizing treatment by the flying dust building materials reuse method of the present invention simultaneously.Flying dust being carried out on the basis of stabilization treatment, product produced by this flying dust building materials reuse method can be also used for production of construction materials, is mainly used as the haydite of concrete aggregate and building materials.
The present invention is with the recycling of flying dust for target, adopt polymerized soil system (nonhydratable silicate systems) that flying dust is carried out solidification and stabilization research, obtain flying dust dechlorination solidification and stabilization one body technique, by flying dust being carried out resolidification stabilisation after dechlorination, reduce the leaching concentration of heavy metal in firming body, it is ensured that the long-time stability of firming body.The flying dust building materials reuse method of the present invention is with strong points, and Technology is simple, constant product quality, while fundamentally solving flying dust Environmental security hidden danger, flying dust achieves comprehensive resource and utilizes, turn waste into wealth.
Accompanying drawing explanation
Fig. 1 is the production technological process of the flying dust building materials reuse method of the present invention.
Detailed description of the invention
Below in conjunction with accompanying drawing, the invention will be further elaborated.Fig. 1 is the production technological process of the flying dust building materials reuse method of the present invention.
As it is shown in figure 1, the flying dust building materials reuse method of the present invention includes first time pulping process, agitating procedure, digestion process operation, break process operation, compound preparation section, second time pulping process and maintenance operation successively.In first time pulping process, flying dust adds a certain proportion of alkali metal hydroxide and/or alkali silicate, after adding water, make a mud when 15~35 DEG C.In agitating procedure, under isoperibol, to stir and/or to be sufficiently stirred for a mud in the way of jolt ramming, till no longer producing bubble.In digestion process operation, when temperature 45~85 DEG C, relative humidity≤25%, the mud after being sufficiently stirred for carrying out digestion process, the digestion process time is 48~120 hours.In break process operation, the flying dust product after completing digestion process is carried out break process and sieves.In compound preparation section, the flying dust product after broken is mixed with blast furnace slag, flyash, metakaolin or the Powdered aluminosilicate refuse after high-temperature process, and adds the SiO of mass percent 2~5%2Powder or Al2O3Powder, is sufficiently stirred for mixing.
In second time pulping process, in the compound being stirred, add alkali metal hydroxide and/or alkali silicate, add water under 15~35 DEG C of conditions, make secondary mud.In maintenance operation, secondary mud is placed in 45~120 DEG C, relative humidity≤25% when carry out maintenance, curing time 24~120 hours, obtain end article after Temperature fall.
In addition, in first time pulping process, in flying dust, the addition of alkali metal hydroxide and/or alkali silicate is between the scope of mass percent 6~24%, wherein, alkali metal hydroxide and alkali silicate can add respectively to mix and add, mixed proportion can according to calcium in flying dust, silicon, aluminum mass ratio determine.In flying dust, the addition of water is between the scope of mass percent 50~150%.When flying dust adds water, occur without excreting water phenomenon when fully ensuring that slip fluidity.
And, the interval time between first time pulping process and digestion process operation was less than 18 hours.In compound preparation section, the mass ratio between flying dust product and blast furnace slag, flyash, metakaolin or the Powdered aluminosilicate refuse after high-temperature process after broken is between 1:0.5~1:3, this mass ratio can be determined according to the ratio of crystal thing phase and noncrystalline material phase in flying dust, it is also possible to according to calcium, silicon, aluminum mass ratio determine.
In second time pulping process, the addition of alkali metal hydroxide and/or alkali silicate accounts for the ratio scope between mass percent 6~15% of compound.The addition of alkali metal hydroxide and/or alkali silicate can be determined according to the combined amount of flying dust Yu the compound such as blast furnace slag, flyash.Alkali metal hydroxide and alkali silicate can add respectively to mix and add.Additionally, in maintenance operation, adopt different mould to carry out moulding according to the final use of product, goods comprcssive strength >=10MPa that maintenance obtains.When maintenance, it is common that alkali metal hydroxide and/or alkali silicate addition are more high, and curing time is more short, and curing temperature is more low.
The product quality obtained through the flying dust building materials reuse method of the present invention is high.Treated flying dust, has completed to wherein heavy metals immobilization stabilisation, and comprcssive strength is high.Additionally, due to there are Cl elimination and two steps of heavy metals immobilization in technique, therefore in flying dust, the release of Cl is limited significantly; when being used for producing as aggregate or haydite; such as pouring reinforcement concrete, it is possible to meet the release request to Cl when building materials use, to protect reinforcing bar not corroded.
The flying dust building materials reuse method of the present invention is further illustrated below by specific embodiment.
Embodiment 1
Flying dust sample is from Beijing garbage burning factory, and in sample, content of beary metal is in Table 1-1, measures 14.06% containing Cl.From table 1-2, in flying dust, the leaching concentration of Pb is higher, all beyond the standard limited value of Pb in " hazardous waste judging standard leaching concentration judging standard " (GB5085.3-2007), therefore flying dust is judged as the hazardous waste with Leaching feature.
The content (mg/kg) of heavy metal element in table 1-1 flying ash
The leaching characteristic of heavy metal element in table 1-2 flying ash
This flying dust building materials reuse method is as described below, it is possible to carry out dechlorination and heavy metals immobilization stabilisation simultaneously.
(1) in flying dust, add the NaOH of 15%, add the water that mass percent is 75%, make a mud when 25 DEG C.
(2) under 25 DEG C of environment, a mechanically mud 25min of stirring, with vibration table jolt ramming 15min.
(3) 65 DEG C, relative humidity≤25% when, to mud digestion process 72 hours.
(4) carry out break process to completing postdigestive product, cross 20 mesh sieves.
(5) being mixed with flyash (2 grades) by the flying dust product after broken, the mass ratio of mixing is 1:1.5, and interpolation mass percent is the SiO of 3%2Powder, is sufficiently mixed.
(6) adding mass percent in compound is the activator of 10%, and activator is by NaOH and Na2SiO3Composition, NaOH and Na2SiO3Combination quality ratio be 1:1, then add the water that mass percent is 150%, at room temperature make secondary mud, be placed in the mould of 40mm × 40mm × 160mm.
(7) secondary mud is placed in 60 DEG C, relative humidity≤25% when carry out maintenance, curing time 120 hours, obtain goods after Temperature fall, goods mean compressive strength >=15MPa.
Embodiment 2
Flying dust sample is from Chongqing garbage burning factory, and in sample, content of beary metal is in Table 2-1, measures 17.24% containing Cl.From table 2-2, in flying dust, the leaching concentration of Pb is higher, all beyond the standard limited value of Pb in " hazardous waste judging standard leaching concentration judging standard " (GB5085.3-2007), therefore flying dust is judged as the hazardous waste with Leaching feature.
The content (mg/kg) of heavy metal element in table 2-1 flying ash
The leaching characteristic of heavy metal element in table 2-2 flying ash
This flying dust building materials reuse method is as described below, it is possible to carry out dechlorination and heavy metals immobilization stabilisation simultaneously.
(1) in flying dust, add the NaOH of 20%, add the water that mass percent is 100%, make a mud when 25 DEG C.
(2) under 25 DEG C of environment, a mechanically mud 60min of stirring.
(3) 65 DEG C, relative humidity≤25% when, to mud digestion process 72 hours.
(4) carry out break process to completing postdigestive product, cross 20 mesh sieves.
(5) being mixed with blast furnace slag (ball mill crushing) by the flying dust product after broken, the mass ratio of mixing is 1:1, and interpolation mass percent is the Al of 2%2O3Powder, is sufficiently mixed.
(6) adding mass percent in compound is 10%NaOH, adds the water that mass percent is 120%, at room temperature makes secondary mud and be sufficiently stirred for, and stirring is placed in the mould of 40mm × 40mm × 160mm.
(7) secondary mud is placed in 80 DEG C, relative humidity≤25% when carry out maintenance, curing time 96 hours, obtain goods after Temperature fall, goods mean compressive strength >=10MPa.
Embodiment 3
Flying dust sample is from Beijing garbage burning factory, and in sample, content of beary metal is in Table 3-1, measures 14.06% containing Cl.From table 3-2, in flying dust, the leaching concentration of Pb is higher, all beyond the standard limited value of Pb in " hazardous waste judging standard leaching concentration judging standard " (GB5085.3-2007), therefore flying dust is judged as the hazardous waste with Leaching feature.
The content (mg/kg) of heavy metal element in table 3-1 flying ash
The leaching characteristic of heavy metal element in table 3-2 flying ash
This flying dust building materials reuse method is as described below, it is possible to carry out dechlorination and heavy metals immobilization stabilisation simultaneously.
(1) in flying dust, add the Na of 6%2SiO3, add the water that mass percent is 50%, make a mud when 25 DEG C.
(2) under 25 DEG C of environment, a mechanically mud 25min of stirring, with vibration table jolt ramming 15min.
(3) 65 DEG C, relative humidity≤25% when, to mud digestion process 72 hours.
(4) carry out break process to completing postdigestive product, cross 20 mesh sieves.
(5) being mixed with metakaolin by the flying dust product after broken, the mass ratio of mixing is 1:1.5, and interpolation mass percent is the SiO of 2%2Powder, is sufficiently mixed.
(6) adding mass percent in compound is the activator of 6%, and activator is by NaOH and Na2SiO3Composition, NaOH and Na2SiO3Combination quality ratio be 1:1, then add the water that mass percent is 150%, at room temperature make secondary mud, be placed in the mould of 40mm × 40mm × 160mm.
(7) secondary mud is placed in 60 DEG C, relative humidity≤25% when carry out maintenance, curing time 120 hours, obtain goods after Temperature fall, goods mean compressive strength >=15MPa.
Embodiment 4
Flying dust sample is from Chongqing garbage burning factory, and in sample, content of beary metal is in Table 4-1, measures 17.24% containing Cl.From table 4-2, in flying dust, the leaching concentration of Pb is higher, all beyond the standard limited value of Pb in " hazardous waste judging standard leaching concentration judging standard " (GB5085.3-2007), therefore flying dust is judged as the hazardous waste with Leaching feature.
The content (mg/kg) of heavy metal element in table 4-1 flying ash
The leaching characteristic of heavy metal element in table 4-2 flying ash
This flying dust building materials reuse method is as described below, it is possible to carry out dechlorination and heavy metals immobilization stabilisation simultaneously.
(1) in flying dust, add NaOH and the Na of 24%2SiO3, add the water that mass percent is 150%, make a mud when 25 DEG C.
(2) under 25 DEG C of environment, a mechanically mud 60min of stirring.
(3) 65 DEG C, relative humidity≤25% when, to mud digestion process 72 hours.
(4) carry out break process to completing postdigestive product, cross 20 mesh sieves.
(5) being mixed with flyash by the flying dust product after broken, the mass ratio of mixing is 1:1, and interpolation mass percent is the Al of 5%2O3Powder, is sufficiently mixed.
(6) adding mass percent in compound is 15%NaOH, adds the water that mass percent is 120%, at room temperature makes secondary mud and be sufficiently stirred for, and stirring is placed in the mould of 40mm × 40mm × 160mm.
(7) secondary mud is placed in 80 DEG C, relative humidity≤25% when carry out maintenance, curing time 96 hours, obtain goods after Temperature fall, goods mean compressive strength >=10MPa.
Embodiment 5
Flying dust sample is from Beijing garbage burning factory, and in sample, content of beary metal is in Table 5-1, measures 14.06% containing Cl.From table 5-2, in flying dust, the leaching concentration of Pb is higher, all beyond the standard limited value of Pb in " hazardous waste judging standard leaching concentration judging standard " (GB5085.3-2007), therefore flying dust is judged as the hazardous waste with Leaching feature.
The content (mg/kg) of heavy metal element in table 5-1 flying ash
The leaching characteristic of heavy metal element in table 5-2 flying ash
This flying dust building materials reuse method is as described below, it is possible to carry out dechlorination and heavy metals immobilization stabilisation simultaneously.
(1) in flying dust, add the Na of 10%2SiO3, add the water that mass percent is 150%, make a mud when 25 DEG C.
(2) under 25 DEG C of environment, a mechanically mud 25min of stirring, with vibration table jolt ramming 15min.
(3) 65 DEG C, relative humidity≤25% when, to mud digestion process 72 hours.
(4) carry out break process to completing postdigestive product, cross 20 mesh sieves.
(5) being mixed with the Powdered aluminosilicate after high-temperature process by the flying dust product after broken, the mass ratio of mixing is 1:1.5, and interpolation mass percent is the SiO of 3%2Powder, is sufficiently mixed.
(6) adding mass percent in compound is the Na of 6%2SiO3, then add the water that mass percent is 50%, at room temperature make secondary mud, be placed in the mould of 40mm × 40mm × 160mm.
(7) secondary mud is placed in 60 DEG C, relative humidity≤25% when carry out maintenance, curing time 120 hours, obtain goods after Temperature fall, goods mean compressive strength >=15MPa.
Embodiment 6
Flying dust sample is from Chongqing garbage burning factory, and in sample, content of beary metal is in Table 6-1, measures 17.24% containing Cl.From table 6-2, in flying dust, the leaching concentration of Pb is higher, all beyond the standard limited value of Pb in " hazardous waste judging standard leaching concentration judging standard " (GB5085.3-2007), therefore flying dust is judged as the hazardous waste with Leaching feature.
The content (mg/kg) of heavy metal element in table 6-1 flying ash
The leaching characteristic of heavy metal element in table 6-2 flying ash
This flying dust building materials reuse method is as described below, it is possible to carry out dechlorination and heavy metals immobilization stabilisation simultaneously.
(1) in flying dust, add NaOH and the Na of 20%2SiO3, add the water that mass percent is 100%, make a mud when 25 DEG C.
(2) under 25 DEG C of environment, a mechanically mud 60min of stirring.
(3) 65 DEG C, relative humidity≤25% when, to mud digestion process 72 hours.
(4) carry out break process to completing postdigestive product, cross 20 mesh sieves.
(5) being mixed with blast furnace slag (ball mill crushing) by the flying dust product after broken, the mass ratio of mixing is 1:1, and interpolation mass percent is the SiO of 4%2Powder, is sufficiently mixed.
(6) adding mass percent in compound is the activator of 15%, and activator is by NaOH and Na2SiO3Composition, NaOH and Na2SiO3Combination quality ratio be 1:1, then add the water that mass percent is 100%, at room temperature make secondary mud, be placed in the mould of 40mm × 40mm × 160mm.
(7) secondary mud is placed in 80 DEG C, relative humidity≤25% when carry out maintenance, curing time 96 hours, obtain goods after Temperature fall, goods mean compressive strength >=10MPa.
Flying dust building materials reuse method according to the present invention has the advantage that
1, broad spectrum activity is high.This flying dust building materials reuse method can obscure the characteristics such as content of beary metal in flying dust, kind, occurrence patterns, can be used for overwhelming majority flying dust.
2, technique is simple.The equipment that this flying dust building materials reuse method adopts mainly has needed temperature control and stirring, and other are without particular/special requirement, simple flow, reliably.
3, product quality is high.Treated flying dust, has completed to wherein heavy metals immobilization stabilisation, and comprcssive strength is high.Owing to technique existing chlorine elimination and two steps of heavy metals immobilization; therefore the release of Cl is limited significantly in flying dust, when being used for producing as aggregate or haydite, such as pouring reinforcement concrete; the release request to Cl when building materials use can be met, to protect reinforcing bar not corroded.
4, environmental benefit is good.Treated flying dust solves the environmental pollution that flying dust produces because of management lack of standardization.
5, social and economic benefits and good.Treated flying dust alleviates the burning enterprise pressure to the such dangerous waste disposal of flying dust, and completes the resource of material, it is possible to drive the development burning enterprise's location related industry.
Last it is noted that various embodiments above is only in order to illustrate technical scheme, it is not intended to limit;Although the present invention being described in detail with reference to foregoing embodiments, it will be understood by those within the art that: the technical scheme described in foregoing embodiments still can be modified by it, or wherein some or all of technical characteristic is carried out equivalent replacement;And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of various embodiments of the present invention technical scheme.
Claims (4)
1. a flying dust building materials reuse method, it can carry out dechlorination and heavy metals immobilization stabilisation for flying dust simultaneously, is recycled as building materials by flying dust, and this flying dust building materials reuse method is characterised by, including following operation:
(1) first time pulping process: add alkali metal hydroxide and/or the alkali silicate of mass percent 6~24% in flying dust, make a mud after adding water when 15~35 DEG C;
(2) agitating procedure: under isoperibol, to stir and/or to be sufficiently stirred for a mud in the way of jolt ramming, till no longer producing bubble;
(3) digestion process operation: when temperature 45~85 DEG C, relative humidity≤25%, the mud after being sufficiently stirred for carrying out digestion process, the digestion process time is 48~120 hours;
(4) break process operation: the flying dust product after completing digestion process is carried out break process and sieves;
(5) compound preparation section: the flying dust product after broken is mixed with blast furnace slag, flyash, metakaolin or the Powdered aluminosilicate refuse after high-temperature process, and adds the SiO of mass percent 2~5%2Powder or Al2O3Powder, is sufficiently stirred for mixing;
(6) second time pulping process: add alkali metal hydroxide and/or the alkali silicate of mass percent 6~15% in the compound being stirred, add water and make secondary mud under 15~35 DEG C of conditions;With
(7) maintenance operation: secondary mud is placed in 45~120 DEG C, relative humidity≤25% when carry out maintenance, curing time 24~120 hours, end article is obtained after Temperature fall, in this maintenance operation, final use according to product adopts different mould to carry out moulding, end article comprcssive strength >=10MPa that maintenance obtains
Wherein, interval time between described first time pulping process and described digestion process operation was less than 18 hours, in described compound preparation section, the mass ratio between flying dust product and blast furnace slag, flyash, metakaolin or the Powdered aluminosilicate refuse after high-temperature process after break process is between the scope of 1:0.5~1:3.
2. flying dust building materials reuse method according to claim 1, it is characterised in that: in described first time pulping process and in described second time pulping process, the addition of water is between the scope of mass percent 50~150%.
3. flying dust building materials reuse method according to claim 1 and 2, it is characterised in that: the alkali metal hydroxide added in described first time pulping process and described second time pulping process is NaOH.
4. flying dust building materials reuse method according to claim 1 and 2, it is characterised in that: the alkali silicate added in described first time pulping process and described second time pulping process is Na2SiO3。
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Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1810395A (en) * | 2006-02-17 | 2006-08-02 | 清华大学 | Chemical process of stabilizing fly ash from incinerating city garbage |
CN101716410A (en) * | 2009-11-26 | 2010-06-02 | 上海市环境工程设计科学研究院有限公司 | Flying ash processing method |
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JP2002018390A (en) * | 2000-06-30 | 2002-01-22 | Kumagai Gumi Co Ltd | Treating method for incineration ash and equipment the same |
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Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1810395A (en) * | 2006-02-17 | 2006-08-02 | 清华大学 | Chemical process of stabilizing fly ash from incinerating city garbage |
CN101716410A (en) * | 2009-11-26 | 2010-06-02 | 上海市环境工程设计科学研究院有限公司 | Flying ash processing method |
Non-Patent Citations (1)
Title |
---|
广东省典型生活垃圾焚烧飞灰的物化及固化特性;熊祖鸿、鲁敏、胡大为、范根育、郭华芳、陈勇;《环境科学》;20140731;第33卷(第7期);全文 * |
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