CN112551633A - Method for carrying out resource treatment on incineration fly ash to adsorb heavy metals in wastewater - Google Patents

Abstract

The invention provides a method for carrying out resource treatment on incineration fly ash to adsorb heavy metals in wastewater, which comprises the following steps: step 1, mixing 1-6 mol/L sodium sulfide solution and incineration fly ash in a liquid-solid ratio of (1-3) mL:1g of the mixture is uniformly mixed to obtain a mixed system; step 2, heating the mixed system at 100-200 ℃ to obtain a reaction solution containing zeolite, separating the zeolite in the reaction solution, and drying to obtain zeolite; and 3, soaking zeolite in wastewater which has a pH value of 4-8 and contains heavy metals, carrying out constant-temperature oscillation adsorption at room temperature until adsorption is balanced, separating the adsorbed zeolite from the adsorbed wastewater, and removing the heavy metals in the wastewater, wherein the wastewater treatment amount is large, and the wastewater can be purified to a discharge water standard while the heavy metal ions in the incineration fly ash are solidified, so that the purpose of treating the wastewater with waste is achieved.

Description

Method for carrying out resource treatment on incineration fly ash to adsorb heavy metals in wastewater

Technical Field

The invention relates to the field of solid waste treatment and heavy metal removal from wastewater, in particular to a method for carrying out resource treatment on incineration fly ash to adsorb heavy metal in wastewater.

Background

The output and accumulation of solid wastes such as municipal solid wastes and industrial wastes in China are increasing year by year, the incineration method becomes one of the main modes of the waste treatment, the wastes form three parts after being incinerated in a waste incinerator, namely slag, fly ash and waste gas, and the fly ash is the solid waste which is taken out by the waste gas and captured by a dust collector. The fly ash contains a large amount of Al₂O₃、SiO₂、Na₂O、Cl^-In addition, a small amount of hazardous waste such as heavy metal ions of various types such as dioxin, mercury, lead, cadmium and the like is treated by a safe landfill method, a solidification stabilization method, a heavy metal extraction method and the like. In addition, the treatment of industrial wastewater and domestic wastewater also becomes a problem to be solved urgently after the modernization is intensified, and the higher requirements are provided for wastewater treatment due to the shortage of water resources and the deepened water pollution degree.

In the existing method, the dissolution of silicon and aluminum is accelerated by alkali eutectic heat treatment under nitrogen environment, and heavy metal is encapsulated to fix heavy metal ions in the process of sodalite assembly. However, the alkali eutectic heat treatment requires a higher heating temperature, which increases the energy consumption in the heat treatment process, and the heating in a nitrogen environment also increases the treatment cost.

The incineration fly ash can be used for preparing a novel heat-insulating material by adding fly ash and waste glass. The incineration fly ash contains a certain amount of silicon element, aluminum element and the like, and has great use value in the aspects of preparing adsorbing materials such as zeolite besides building materials. The zeolite has the advantages of large specific surface area and porosity, and can be used as an adsorbing material for purifying waste liquid containing heavy metal ions. Meanwhile, the adsorption of the zeolite has selectivity, and has the performances of acid resistance, high temperature resistance and radiation resistance, so that the zeolite can be well used for adsorbing heavy metal ions in industrial wastewater and can also be used for adsorbing ammonia ions in agricultural wastewater. Therefore, how to perform resource treatment on the incineration fly ash and further adsorb heavy metals in the wastewater is an urgent problem to be solved.

Disclosure of Invention

In order to solve the defects of the prior art, the invention provides a method for carrying out resource treatment on incineration fly ash to adsorb heavy metals in wastewater, the wastewater treatment amount is large, the heavy metal ions in the incineration fly ash are solidified, and simultaneously, the wastewater can be purified to the discharge water standard, so that the purpose of treating waste by waste is achieved.

The invention is realized by the following technical scheme:

a method for carrying out resource treatment on incineration fly ash to adsorb heavy metals in wastewater comprises the following steps:

step 1, mixing 1-6 mol/L sodium sulfide solution and incineration fly ash in a liquid-solid ratio of (1-3) mL:1g of the mixture is uniformly mixed to obtain a mixed system;

step 2, heating the mixed system at 100-200 ℃ to obtain a reaction solution containing zeolite, separating the zeolite in the reaction solution, and drying to obtain zeolite;

and 3, soaking the zeolite in wastewater which has a pH value of 4-8 and contains heavy metals, carrying out constant-temperature oscillation adsorption at room temperature until adsorption is balanced, separating the adsorbed zeolite from the adsorbed wastewater, and removing the heavy metals from the wastewater.

Preferably, the incineration fly ash in the step 1 is the incineration fly ash after drying treatment, the drying temperature is 100-110 ℃, and the drying time is 1-6 h.

Preferably, the incineration fly ash in the step 1 is one or two of incineration fly ash of domestic garbage and incineration fly ash of medical wastes.

Preferably, in the step 1, the sodium sulfide solution and the incineration fly ash are stirred for 2-10 min at a rotating speed of 30-60 r/min.

Preferably, in the step 2, the mixed system is heated by microwaves, the microwave power is 800-1200W, and the heating time is 10-20 min.

Preferably, in the step 3, the pH value of the wastewater containing the heavy metals is adjusted to 4-8 by using a sodium hydroxide solution or dilute nitric acid.

Preferably, the liquid-solid ratio of the wastewater to the zeolite in the step 3 is 3-12 ml/g.

Preferably, the oscillation in step 3 is horizontal reciprocating oscillation or rotary oscillation.

Preferably, the oscillation rate of the zeolite in the step 3 in the wastewater is 100-220 r/min, and the adsorption time is 50-200 min.

Preferably, in the step 3, the adsorbed zeolite is washed by a sodium chloride solution with the concentration of 0.5-3 mol/L, then the zeolite treated by the sodium chloride is filtered, and then the zeolite obtained by filtering is dried at the temperature of 55-65 ℃ and then is continuously recycled according to the step 3.

Compared with the prior art, the invention has the following beneficial technical effects:

the invention relates to a method for recycling incineration fly ash to adsorb heavy metals in wastewater, which takes sodium sulfide with low price as an additive, and prepares zeolite with a porous structure by mixing the incineration fly ash with a sodium sulfide solution, wherein S in the sodium sulfide solution^2-And a part of heavy metal ions (such as Cd) in incineration fly ash³⁺、Pd²⁺、Cr³⁺、Hg²⁺And the like) to react, a part of heavy metal ions in the incineration fly ash are solidified in a sulfide precipitation mode, the cost is lower compared with that of the traditional additive, such as sodium hydroxide, the synthesized zeolite is used for further solidifying the heavy metal in the incineration fly ash, the porous structure of the zeolite selectively adsorbs the heavy metal and impurities in the wastewater under the condition that the pH value is 4-8, and the heavy metal ions in the wastewater, such as Cu, are mainly adsorbed through the adsorption-ion exchange action of the zeolite²⁺、Pb²⁺、Zn²⁺、Cd²⁺、Hg²⁺The method takes the environment-friendly idea of treating waste with waste as guidance, recycles the incineration fly ash as a resource, realizes the purification treatment of the heavy metal wastewater, and has the advantages of high treatment speed, wide application range and good application prospect; at the same time, it is unnecessary to burnThe burnt fly ash is washed, so that water resources are saved, and the resource utilization rate is improved.

Furthermore, under the action of microwave-assisted heating, the heating speed is high, the heating is uniform, the synthesis speed of the zeolite is high, and S is promoted^2-The reaction with heavy metal ions in the incineration fly ash improves the crystallization speed and porosity of the zeolite, and the obtained zeolite has stronger adsorption capacity.

Furthermore, the adsorption capacity of the zeolite subjected to adsorption saturation is still in a higher range after slow release treatment, the zeolite can be recycled, the treatment cost is reduced, the resource utilization rate is improved, and the wastewater is directly discharged after reaching the discharge water standard.

Drawings

FIG. 1 is a schematic process flow diagram of the process of the present invention.

Detailed Description

The present invention will now be described in further detail with reference to specific examples, which are intended to be illustrative, but not limiting, of the invention.

The invention discloses a method for carrying out resource treatment on incineration fly ash to adsorb heavy metals in wastewater, which comprises the following steps of:

step (1), drying incineration fly ash;

the drying temperature is 105 +/-5 ℃, and the drying time is 1-6 h. The incineration fly ash comprises one or more of solid waste incineration fly ash such as domestic waste incineration fly ash, medical waste incineration fly ash and the like;

and (2) mixing a sodium sulfide solution with the dried incineration fly ash in a liquid-solid ratio of (1-3) mL:1g of the mixture is mixed and stirred evenly;

the concentration of the sodium sulfide solution can be adjusted according to the Si/Al molar ratio in the dried incineration fly ash, and the adjustment range is 1-6 mol/L, so that the synthesis of zeolite is facilitated;

the types of the prepared zeolite are different according to different silicon-aluminum ratios, but the zeolite can be used for treating heavy metal wastewater and is stirred for 2-10 min in a stirrer with the rotating speed of 30-60 r/min;

step (3), adding the mixture uniformly stirred in the step (2)Microwave heating is carried out in the reaction container, and then the zeolite with a porous structure is prepared by filtering and drying, so that the crystallization speed of the target product is improved; wherein sodium sulfide reacts with heavy metal in fly ash to solidify a part of heavy metal in fly ash in the form of sulfide precipitate, and microwave-assisted treatment can promote S^2-The zeolite generated by the reaction with the heavy metal ions in the fly ash can better fix the residual heavy metal ions in the fly ash;

the microwave power is 800-1200W, the heating temperature is 100-200 ℃, and the heating time is 10-20 min;

step (4), adjusting the pH value of the wastewater, detecting the pH value of the wastewater according to different taken wastewater, and adjusting the pH value to 4-8 by using sodium hydroxide or dilute nitric acid to enable zeolite to achieve the optimal adsorption effect; then mixing the zeolite prepared in the step (3) with a certain proportion, oscillating and adsorbing at constant temperature until the adsorption is balanced, and separating the adsorbed zeolite from the wastewater to finish the removal of heavy metals in the wastewater;

the liquid-solid ratio of the zeolite mixed with the wastewater is adjusted according to the heavy metal content in different wastewater, and the adjustment range is 3-12 ml/g. The oscillation mode adopts horizontal reciprocating oscillation or rotary oscillation. The oscillating adsorption time is 50-200 min, the oscillating speed is 100-220 r/min, and the adsorption is carried out at room temperature;

step (5), the zeolite with saturated adsorption can be recycled after being treated, or the zeolite with saturated adsorption can be directly used as a building material;

and (3) carrying out solid-liquid separation on the adsorbed zeolite and the wastewater, repeatedly washing and filtering the separated zeolite saturated in adsorption by using a sodium chloride solution with the concentration of 0.5-3 mol/L, and drying the filtered zeolite at 60 +/-5 ℃ until the weight of the zeolite is kept unchanged so as to be repeatedly recycled.

In the case of example 1, the following examples,

drying the household garbage incineration fly ash at 105 ℃ for 4h, then adjusting the concentration of a sodium sulfide solution to be 6mol/L, and mixing the solution and the dried household garbage incineration fly ash according to a liquid-solid ratio of 2 mL:1g of the mixture is stirred for 5min in a stirrer with the rotating speed of 50 r/min. Then adjusting the microwave power to 1000W, and uniformly stirring and mixingMicrowave heating at 125 deg.C for 10min to obtain zeolite. Ni is added to the mixture with the concentration of 100mol/L²⁺Adjusting the pH value of the wastewater in the laboratory to 7, adding 4ml/g of zeolite, oscillating horizontally and reciprocally at a constant temperature of 150r/min for 120min at room temperature until the adsorption is balanced, filtering and separating the adsorbed zeolite and the wastewater to remove heavy metals in the wastewater, and adsorbing Ni in the wastewater²⁺The removal rate is 97.67%, and the zeolite saturated in adsorption is repeatedly washed by 1mol/L sodium chloride solution and then dried to constant weight at 60 ℃ for recycling, and can be used for 6 times.

In the case of example 2, the following examples,

drying the medical waste incineration fly ash at 110 ℃ for 6h, then adjusting the concentration of a sodium sulfide solution to be 5mol/L, and stirring the sodium sulfide solution and the dried medical waste incineration fly ash in a stirrer with the rotating speed of 40r/min for 10min according to the liquid-solid ratio of 3mL to 1 g. Regulating microwave power to 1200W, and heating the uniformly stirred mixture at 150 deg.C for 20min to obtain zeolite. Cr is added with the concentration of 25mol/L⁶⁺The pH value of the electroplating wastewater is adjusted to 7, then 3ml/g zeolite is added into the wastewater, the wastewater is horizontally oscillated at constant temperature and in a reciprocating manner for 60min at the oscillating speed of 180r/min at room temperature until the adsorption is balanced, then the adsorbed zeolite and the wastewater are separated by sedimentation to complete the removal of heavy metals in the wastewater, and Cr in the wastewater after the adsorption is completed is removed⁶⁺The removal rate is 95.37%, and the zeolite saturated in adsorption can be used as a building material.

In the case of example 3, the following example was carried out,

drying the household garbage incineration fly ash at the temperature of 110 ℃ for 1h, then adjusting the concentration of a sodium sulfide solution to be 3mol/L, and stirring the sodium sulfide solution and the dried household garbage incineration fly ash in a stirrer with the rotating speed of 50r/min for 8min according to the liquid-solid ratio of 3mL to 1 g. Regulating microwave power to 1000W, and microwave heating the uniformly stirred mixture at 125 deg.C for 20min to obtain zeolite. Hg is contained in the solution with the concentration of 1mol/L²⁺Adjusting pH value of electroplating wastewater to 7, adding 12ml/g zeolite into the wastewater, and oscillating at room temperature at an oscillation rate of 200r/min for 60minUntil the adsorption is balanced, then the adsorbed zeolite and the wastewater are separated by sedimentation to remove heavy metals in the wastewater, and Hg in the wastewater after the adsorption is finished²⁺The removal rate is 94.53%, and the zeolite with saturated adsorption can be used as a building material.

In the case of example 4, the following examples,

drying the medical waste incineration fly ash at 110 ℃ for 6h, then adjusting the concentration of a sodium sulfide solution to be 1mol/L, and stirring the sodium sulfide solution and the dried medical waste incineration fly ash for 2min in a stirrer with the rotating speed of 60r/min according to the liquid-solid ratio of 1mL to 1 g. Regulating microwave power to 800W, and heating the uniformly stirred mixture at 100 deg.C for 18min to obtain zeolite. Cr is added with the concentration of 25mol/L⁶⁺The pH value of the electroplating wastewater is adjusted to 4, then 3ml/g zeolite is added into the wastewater, the wastewater is subjected to constant-temperature rotary oscillation for 50min at the oscillation rate of 220r/min at the room temperature until the adsorption is balanced, then the adsorbed zeolite and the wastewater are separated by sedimentation to remove heavy metals in the wastewater, and the adsorbed saturated zeolite is repeatedly cleaned by 0.5mol/L sodium chloride solution and then dried to constant weight at 55 ℃ for recycling.

In the case of example 5, the following examples were carried out,

drying the household garbage incineration fly ash at 105 ℃ for 4h, then adjusting the concentration of a sodium sulfide solution to be 6mol/L, and mixing the solution and the dried household garbage incineration fly ash according to a liquid-solid ratio of 2 mL:1g of the mixture is stirred for 5min in a stirrer with the rotating speed of 30 r/min. Then regulating the microwave power to 1000W, and carrying out microwave heating on the uniformly stirred mixture for 10min at the temperature of 200 ℃ to prepare the zeolite. Ni is added to the mixture with the concentration of 100mol/L²⁺Adjusting the pH value of the wastewater in the laboratory to 8, adding 4ml/g of zeolite, oscillating horizontally and reciprocally at a constant temperature of 100r/min for 200min at room temperature until the adsorption is balanced, filtering and separating the adsorbed zeolite from the wastewater to remove heavy metals in the wastewater, repeatedly cleaning the adsorbed saturated zeolite with 3mol/L sodium chloride solution, and drying the zeolite at 65 ℃ to a constant weight for recycling.

Claims (10)

1. A method for carrying out resource treatment on incineration fly ash to adsorb heavy metals in wastewater is characterized by comprising the following steps:

step 1, mixing 1-6 mol/L sodium sulfide solution and incineration fly ash in a liquid-solid ratio of (1-3) mL:1g of the mixture is uniformly mixed to obtain a mixed system;

step 2, heating the mixed system at 100-200 ℃ to obtain a reaction solution containing zeolite, separating the zeolite in the reaction solution, and drying to obtain zeolite;

and 3, soaking the zeolite in wastewater which has a pH value of 4-8 and contains heavy metals, carrying out constant-temperature oscillation adsorption at room temperature until adsorption is balanced, separating the adsorbed zeolite from the adsorbed wastewater, and removing the heavy metals from the wastewater.

2. The method for performing resource treatment on incineration fly ash to adsorb heavy metals in wastewater according to claim 1, wherein the incineration fly ash in the step 1 is dried incineration fly ash, the drying temperature is 100-110 ℃, and the drying time is 1-6 h.

3. The method for resource treatment of incineration fly ash to adsorb heavy metals in wastewater according to claim 1, wherein the incineration fly ash in step 1 is one or both of incineration fly ash of domestic garbage and incineration fly ash of medical waste.

4. The method for resource treatment and adsorption of heavy metals in wastewater by incineration fly ash according to claim 1, characterized in that in step 1, the sodium sulfide solution and incineration fly ash are stirred for 2-10 min at a rotation speed of 30-60 r/min.

5. The method for carrying out resource treatment on incineration fly ash to adsorb heavy metals in wastewater according to claim 1, wherein in the step 2, the mixed system is heated by microwaves, the microwave power is 800-1200W, and the heating time is 10-20 min.

6. The method for carrying out resource treatment on incineration fly ash to adsorb heavy metals in wastewater according to claim 1, wherein in the step 3, the pH value of the wastewater containing the heavy metals is adjusted to 4-8 by using a sodium hydroxide solution or dilute nitric acid.

7. The method for adsorbing the heavy metals in the wastewater through the resource treatment of the incineration fly ash as claimed in claim 1, wherein the liquid-solid ratio of the wastewater to the zeolite in the step 3 is 3-12 ml/g.

8. The method according to claim 1, wherein the oscillation in step 3 is horizontal reciprocating oscillation or rotary oscillation.

9. The method for carrying out resource treatment on incineration fly ash to adsorb heavy metals in wastewater according to claim 1, wherein the oscillation rate of the zeolite in the step 3 in the wastewater is 100-220 r/min, and the adsorption time is 50-200 min.

10. The method for carrying out resource treatment on incineration fly ash to adsorb heavy metals in wastewater according to claim 1, wherein in the step 3, the zeolite after adsorption is washed by a sodium chloride solution with the concentration of 0.5-3 mol/L, then the zeolite after sodium chloride treatment is filtered, and then the zeolite obtained by filtering is dried at 55-65 ℃ and then is recycled according to the step 3.

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