CN212652381U - Waste salt, waste acid, waste alkali, useless active carbon's coprocessing resourceful system - Google Patents

Abstract

The utility model relates to a resourceful system, application and method of dealing with in coordination of waste salt, spent acid, alkali waste, useless active carbon, the system includes pyrolysis unit, tail gas processing system, dissolves coagulating sedimentation system, one-level submergence formula ultrafiltration system, active carbon adsorption system, second grade submergence formula ultrafiltration system, evaporation unit, sheet frame filter-pressing system, mummification processing system, cement kiln in coordination with processing system, active carbon regeneration system and acid-base and evaporate salification system. Use the utility model discloses the system both can effectively reduce hazardous waste to the harm of environment and can the at utmost realize the cyclic utilization of resource again.

Description

Waste salt, waste acid, waste alkali, useless active carbon's coprocessing resourceful system

Technical Field

The utility model belongs to the technical field of the hazardous waste resourceization, a resource is dealt with in coordination to waste salt, spent acid, alkali waste, useless active carbon to application pyrolysis technology is related to, especially a resource system is dealt with in coordination of waste salt, spent acid, alkali waste, useless active carbon.

Background

Hazardous waste is an important pollution source harmful to human ecological environment and human health, if the hazardous waste is discharged at will without effective treatment, the hazardous waste not only causes serious influence and damage to water environment, air environment and soil environment, but also directly threatens the safety and health of human bodies, so that the harmless treatment and final safety treatment problems of hazardous waste have attracted high attention of all levels of governments and the whole society.

Solid waste salt produced in the industrial production process, such as hazardous waste salt produced in the industries of coal chemical industry, pesticide, chemical fertilizer, biochemical industry, medicine and the like and solid waste salt produced in the food industry, often contains a certain amount of organic matters or other impurities, so that the salt cannot be reused, and is classified as hazardous waste by national relevant legal documents.

In many chemical process systems, the treatment and disposal of waste acid is one of the issues that many enterprises are urgently solving. The spent acid, in addition to being acidic, also contains a large amount of impurities. According to the differences of waste acid and waste water compositions and treatment targets, the treatment methods adopted at home and abroad at present can be roughly divided into 3 types: recycling, comprehensive utilization and neutralization treatment. However, it has to be noticed that even the industrial waste acid which reaches the national and regional emission standards after being neutralized by acid and alkali still has the possibility of exceeding the standard of heavy metals.

The waste alkali is waste alkali liquor, solid alkali and caustic sludge (liquid alkali with pH value of 12.5) generated in the processes of industrial production, preparation and use. The main sources of the waste alkali include industrial chemical manufacturing, chemical analysis and test, rust removal and cleaning of metals and other products, wastewater treatment, textile printing and dyeing pretreatment, papermaking waste liquid and the like.

With the increasing use of activated carbon, the production of waste activated carbon is also increasing. After the activated carbon is saturated and replaced, the activated carbon is discarded, buried or burnt by a user, so that resource waste and environmental pollution are caused, and the most effective treatment method is to regenerate the waste activated carbon so as to reduce the operation cost of enterprises.

If a process and a system for carrying out resource treatment by taking the hazardous wastes as raw materials can be developed, resources can be saved, wastes can be changed into valuables, environmental pollution can be reduced, the national circular economy development requirement is met, and huge economic benefits and social benefits can be generated.

Through searching, the patent publication documents related to the patent application of the present invention have not been found.

Disclosure of Invention

The utility model aims to overcome the shortcomings of the prior art, and provides a system, application and method for the cooperative disposal and recycling of waste salt, waste acid, waste alkali and waste activated carbon.

The utility model provides a its technical problem take following technical scheme to realize:

the system comprises a pyrolysis unit, a tail gas treatment system, a dissolving coagulating sedimentation system, a primary immersion type ultrafiltration system, an activated carbon adsorption system, a secondary immersion type ultrafiltration system, an evaporation unit, a plate frame filter pressing system, a drying treatment system, a cement kiln cooperative treatment system, an activated carbon regeneration system and an acid-base neutralization evaporation salification system, wherein the input end of the pyrolysis unit can be connected with hazardous waste salt for setting, the output end of the pyrolysis unit comprises a pyrolysis gas output end and a waste salt output end, and the pyrolysis gas output end of the pyrolysis unit is connected with the input end of the tail gas treatment system; the input end of the dissolving coagulating sedimentation system comprises a waste salt input end, a filtrate input end and a condensate water input end, the waste salt output end of the pyrolysis unit is connected with the waste salt input end of the dissolving coagulating sedimentation system, the output end of the dissolving coagulating sedimentation system comprises a sludge output end and an upper solution output end, the sludge output end of the dissolving coagulating sedimentation system is connected with the input end of the plate-and-frame filter pressing system, the output end of the plate-and-frame filter pressing system comprises a filtrate output end and a filter cake output end, the filtrate output end of the plate-and-frame filter pressing system is connected with the filtrate input end of the dissolving coagulating sedimentation system, the filter cake output end of the plate-and-frame filter pressing system is connected with the input end of the drying treatment system, and the output end;

the upper solution output end of the dissolving coagulating sedimentation system is connected with the input end of a primary immersed ultrafiltration system, the output end of the primary immersed ultrafiltration system comprises a filtrate output end and a sludge output end, and the sludge output end of the primary immersed ultrafiltration system is also connected with the input end of a plate-and-frame filter pressing system;

the input end of the activated carbon adsorption system comprises a filtrate input end, an activated carbon input end and a regenerated carbon input end, the output end of the activated carbon adsorption system comprises a filtrate output end and a saturated carbon output end, the filtrate input end of the activated carbon adsorption system is connected with the filtrate output end of the primary immersed ultrafiltration system, and the filtrate output end of the activated carbon adsorption system is connected with the input end of the secondary immersed ultrafiltration system; the input end of the activated carbon regeneration system comprises a saturated carbon input end, a waste acid input end and a waste activated carbon input end, the output end of the activated carbon regeneration system comprises a regenerated carbon output end and a waste acid output end, the saturated carbon input end of the activated carbon regeneration system is connected with the saturated carbon output end of the activated carbon adsorption system, the regenerated carbon output end of the activated carbon regeneration system is connected with the regenerated carbon input end of the activated carbon adsorption system, the waste acid input end of the activated carbon regeneration system can be connected with waste acid, and the waste activated carbon input end of the activated carbon regeneration system can be connected with waste activated carbon;

the input end of the acid-alkali neutralization evaporation salt-forming system comprises a waste acid input end and a waste alkali input end, the waste acid input end of the acid-alkali neutralization evaporation salt-forming system is connected with the waste acid output end of the activated carbon regeneration system, the waste alkali input end of the acid-alkali neutralization evaporation salt-forming system can be connected with the waste alkali, and the output end of the acid-alkali neutralization evaporation salt-forming system is also connected with the input end of the pyrolysis unit;

the output end of the secondary immersed ultrafiltration system comprises a filtrate output end and an activated carbon output end, the input end of the evaporation unit comprises a filtrate input end and a steam input end, the activated carbon output end of the secondary immersed ultrafiltration system is connected with the activated carbon input end of the activated carbon adsorption system, and the filtrate output end of the secondary immersed ultrafiltration system is connected with the filtrate input end of the evaporation unit; the output of tail gas processing system includes the steam output, and this tail gas processing system's steam output is connected the setting with evaporation unit's steam input, and this evaporation unit's output includes finished product output and comdenstion water output, and this evaporation unit's finished product output can export the final product, and this evaporation unit's comdenstion water output is connected the setting with the comdenstion water input of dissolving coagulating sedimentation system.

Moreover, the plate-and-frame filter pressing system is a plate-and-frame filter press;

or, the pyrolysis unit is a rotary kiln pyrolysis system.

Furthermore, the pyrolysis unit consists of two sections of rotary kilns connected in series.

The operation temperature of the first-stage pyrolysis furnace is 200-500 ℃, and the operation temperature of the second-stage pyrolysis furnace is 500-800 ℃.

Moreover, the operation temperature of the first-stage pyrolysis furnace is 350-400 ℃, and the operation temperature of the second-stage pyrolysis furnace is 550-600 ℃.

Moreover, the activated carbon regeneration system is a rake furnace.

The utility model discloses the advantage that gains is with positive effect:

1. the utility model discloses the system includes the pyrolysis unit, tail gas processing system, dissolve coagulating sedimentation system, one-level submergence formula ultrafiltration system, activated carbon adsorption system, second grade submergence formula ultrafiltration system, the evaporation unit, plate frame filter-pressing system, mummification processing system, cement kiln handles the system in coordination, activated carbon regeneration system and acid-base neutralization evaporation salification system, wherein the activated carbon can adopt useless activated carbon regeneration reuse, the spent acid spent caustic soda that the regeneration process related also can be handled with original waste salt together with salification, produced vapour can regard as the evaporation crystallization heat source among the tail gas processing process, the produced vapour condensate water of evaporation crystallization also can regard as the solution salt. The utility model discloses the system both can effectively reduce the harm of hazardous waste to the environment and can the at utmost realize the cyclic utilization of resource again.

2. The utility model discloses the method combines the rotary kiln, dissolve and filter, the rake furnace, the acid-base neutralization, and techniques such as evaporation crystallization, realized that the cooperative disposition and the comprehensive utilization of waste salt, spent acid, waste alkali and useless active carbon, the gained product accords with GB/T5462-2015 industry dry salt second grade standard or wet salt second grade standard, the gained product accords with GB/T6009-2014 industry anhydrous sodium sulfate II class of certified products standard, the result of cooperative disposition both can effectively reduce hazardous waste to the harm of environment and can the at utmost realize the cyclic utilization of resource again.

Drawings

Fig. 1 is a schematic diagram of a structural connection of the system of the present invention.

Detailed Description

The present invention will be described in further detail with reference to specific examples, which are provided for illustrative purposes only and are not intended to be limiting, and the scope of the present invention should not be limited thereby.

The structures not described in detail in the present invention can be understood as the conventional structures in the art.

The utility model provides a coprocessing resource system of waste salt, spent acid, waste alkali, useless active carbon, as shown in figure 1, the system includes pyrolysis unit, tail gas processing system, dissolves coagulating sedimentation system, primary immersion formula ultrafiltration system, active carbon adsorption system, secondary immersion formula ultrafiltration system, evaporation unit, sheet frame filter-pressing system, mummification processing system, cement kiln coprocessing system, active carbon regeneration system and acid-base neutralization evaporation salification system, the input of pyrolysis unit can be connected with the dangerous waste salt and set up, and the output of this pyrolysis unit includes pyrolysis gas output and waste salt output, and the pyrolysis gas output of pyrolysis unit is connected with the input of tail gas processing system and sets up; the input end of the dissolving coagulating sedimentation system comprises a waste salt input end, a filtrate input end and a condensate water input end, the waste salt output end of the pyrolysis unit is connected with the waste salt input end of the dissolving coagulating sedimentation system, the output end of the dissolving coagulating sedimentation system comprises a sludge output end and an upper solution output end, the sludge output end of the dissolving coagulating sedimentation system is connected with the input end of the plate-and-frame filter pressing system, the output end of the plate-and-frame filter pressing system comprises a filtrate output end and a filter cake output end, the filtrate output end of the plate-and-frame filter pressing system is connected with the filtrate input end of the dissolving coagulating sedimentation system, the filter cake output end of the plate-and-frame filter pressing system is connected with the input end of the drying treatment system, and the output end;

the upper solution output end of the dissolving coagulating sedimentation system is connected with the input end of a primary immersed ultrafiltration system, the output end of the primary immersed ultrafiltration system comprises a filtrate output end and a sludge output end, and the sludge output end of the primary immersed ultrafiltration system is also connected with the input end of a plate-and-frame filter pressing system;

the input end of the activated carbon adsorption system comprises a filtrate input end, an activated carbon input end and a regenerated carbon input end, the output end of the activated carbon adsorption system comprises a filtrate output end and a saturated carbon output end, the filtrate input end of the activated carbon adsorption system is connected with the filtrate output end of the primary immersed ultrafiltration system, and the filtrate output end of the activated carbon adsorption system is connected with the input end of the secondary immersed ultrafiltration system; the input end of the activated carbon regeneration system comprises a saturated carbon input end, a waste acid input end and a waste activated carbon input end, the output end of the activated carbon regeneration system comprises a regenerated carbon output end and a waste acid output end, the saturated carbon input end of the activated carbon regeneration system is connected with the saturated carbon output end of the activated carbon adsorption system, the regenerated carbon output end of the activated carbon regeneration system is connected with the regenerated carbon input end of the activated carbon adsorption system, the waste acid input end of the activated carbon regeneration system can be connected with waste acid, and the waste activated carbon input end of the activated carbon regeneration system can be connected with waste activated carbon;

the input end of the acid-alkali neutralization evaporation salt-forming system comprises a waste acid input end and a waste alkali input end, the waste acid input end of the acid-alkali neutralization evaporation salt-forming system is connected with the waste acid output end of the activated carbon regeneration system, the waste alkali input end of the acid-alkali neutralization evaporation salt-forming system can be connected with the waste alkali, and the output end of the acid-alkali neutralization evaporation salt-forming system is also connected with the input end of the pyrolysis unit;

the output end of the secondary immersed ultrafiltration system comprises a filtrate output end and an activated carbon output end, the input end of the evaporation unit comprises a filtrate input end and a steam input end, the activated carbon output end of the secondary immersed ultrafiltration system is connected with the activated carbon input end of the activated carbon adsorption system, and the filtrate output end of the secondary immersed ultrafiltration system is connected with the filtrate input end of the evaporation unit; the output of tail gas processing system includes the steam output, and this tail gas processing system's steam output is connected the setting with evaporation unit's steam input, and this evaporation unit's output includes finished product output and comdenstion water output, and this evaporation unit's finished product output can export the final product, and this evaporation unit's comdenstion water output is connected the setting with the comdenstion water input of dissolving coagulating sedimentation system.

In this embodiment, the plate-and-frame filter press system is a plate-and-frame filter press.

In the embodiment, the pyrolysis unit consists of two sections of rotary kilns connected in series, and the operating temperature of the first section of the pyrolysis furnace is 200-500 ℃, preferably 350-400 ℃; the second stage operating temperature is 500 ℃ to 800 ℃, preferably 550 ℃ to 600 ℃.

In this embodiment, the pyrolysis unit is a rotary kiln pyrolysis system.

In this embodiment, the activated carbon regeneration system is a rake furnace.

A method for recycling waste salt, waste acid, waste alkali and waste activated carbon by cooperative treatment comprises the following steps:

A. sending the dangerous waste salt collected from an external unit into a pyrolysis unit for high-temperature pyrolysis to remove water and organic matters as far as possible, wherein the dangerous waste salt is sodium chloride or sodium sulfate waste salt; waste salt discharged by the pyrolysis unit enters a dissolving coagulating sedimentation system; the flue gas discharged by the pyrolysis unit enters a tail gas treatment system; the tail gas treatment system adopts a secondary combustion chamber, denitrification (SNCR or SCR, preferably SNCR), a waste heat boiler, flue gas quenching, activated carbon adsorption, semi-dry deacidification, cloth bag dust removal, wet deacidification and flue gas whitening treatment process; steam generated by the waste heat boiler is used as a heat source of the evaporative crystallization system;

B. steam condensate water obtained by the evaporative crystallization system is used as dissolving water of the dissolving coagulating sedimentation system, waste salt entering the dissolving coagulating sedimentation system is subjected to chemical adding coagulating sedimentation treatment, sludge at the bottom of the tank is conveyed into a plate frame filter pressing system, obtained filtrate returns to the dissolving coagulating sedimentation system, and obtained filter cakes are conveyed into an outer unit cement kiln for cooperative treatment after being dried; enabling the upper-layer solution in the dissolving coagulating sedimentation system to enter a primary immersed ultrafiltration system, filtering to obtain sediment, and enabling the sediment to enter a plate-frame filter pressing system; the obtained filtrate enters an activated carbon adsorption system;

C. the filtrate obtained by the primary immersed ultrafiltration system enters an activated carbon adsorption system to adsorb organic matters which are not decomposed by the pyrolysis process; the obtained saturated carbon and the waste activated carbon collected from an external unit are firstly subjected to acid cleaning, the used acid is waste acid collected from the external unit, and the waste activated carbon after acid cleaning enters an activated carbon regeneration system for regeneration; the regenerated active carbon enters an active carbon adsorption system for recycling; the waste acid after acid washing and the waste alkali collected from an external unit enter an acid-alkali neutralization evaporation salt-forming system, and the obtained dangerous waste salt and the dangerous waste salt collected from the external unit enter a pyrolysis unit together;

D. the filtrate obtained by the activated carbon adsorption system enters a secondary immersed ultrafiltration system, and the obtained filter precipitate is returned to the activated carbon adsorption device for recycling;

E. the filtrate obtained by the secondary immersed ultrafiltration system enters an evaporation unit; and the byproduct steam of the tail gas treatment system is used as a heat source of the evaporation unit, the obtained product meets the national industrial salt secondary standard and can be sold for sale, and the steam condensate water obtained by the evaporation crystallization system is used as water for dissolution.

In this embodiment, the denitrification process is SNCR or SCR, preferably SNCR;

in this embodiment, the waste acid is waste hydrochloric acid, and the concentration is 5% to 30%; or the waste acid is waste sulfuric acid with the concentration of 5-80 percent; the waste alkali is waste sodium hydroxide, preferably waste sodium hydroxide solution; the waste activated carbon is powdered carbon or granular carbon, and preferably granular carbon;

in this embodiment, the crystallization operation mode of the evaporation unit is single-effect evaporation crystallization or multi-effect evaporation crystallization or MVR evaporation crystallization, and multi-effect evaporation or MVR evaporation crystallization is preferred.

More specifically, the relevant preparations are as follows:

the treated waste salt is sodium chloride waste salt, the annual treatment capacity is 5 ten thousand tons, and the annual treatment time is 7200 hours.

Waste salt enters a pyrolysis unit, the pyrolysis unit consists of two sections of rotary kilns connected in series, and the operating temperature of a first section of pyrolysis furnace is 350-400 ℃; the second section operation temperature is 550-600 ℃; waste salt discharged by the second-stage pyrolysis furnace enters a dissolving coagulating sedimentation system; flue gas discharged by the two sections of pyrolysis furnaces enters a tail gas treatment system; the tail gas treatment system adopts a treatment process of a secondary combustion chamber, SNCR denitrification, a waste heat boiler, flue gas quenching, activated carbon adsorption, semi-dry deacidification, cloth bag dust removal, wet deacidification and flue gas whitening; the steam generated by the waste heat boiler is used as a heat source for the evaporation crystallization operation.

Waste salt discharged by the second-stage pyrolysis furnace enters a dissolving coagulating sedimentation system, and steam condensate water obtained by an evaporative crystallization system is used as dissolving water; adding the water to obtain a solution, carrying out chemical feeding, coagulating and precipitating treatment on the solution, conveying sludge at the bottom of the tank into a plate-frame filter press, and returning filtrate obtained by filter pressing to a dissolving, coagulating and precipitating system; enabling the upper solution in the coagulating sedimentation system to enter a primary immersion type ultrafiltration system, enabling the obtained filtrate to enter an activated carbon adsorption system, and enabling the obtained precipitate obtained by filtration and sludge at the bottom of a coagulating sedimentation tank to enter a plate-and-frame filter press together; and (3) conveying filter cakes obtained by the plate-and-frame filter press into an external unit cement kiln for cooperative treatment after drying treatment, wherein the dried filter cakes are about 1248 tons/year.

The filtrate obtained by the primary immersion type ultrafiltration enters an active carbon adsorption system to adsorb organic matters which are not decomposed by the pyrolysis process; the obtained saturated carbon and the waste activated carbon collected from an external unit are firstly subjected to acid cleaning, the used acid is waste acid collected from the external unit, the waste activated carbon after acid cleaning enters an activated carbon regeneration system for regeneration, and the used regeneration equipment is a rake furnace; the regenerated active carbon enters an active carbon adsorption system for recycling; and the waste acid after acid washing and the waste alkali collected from an external unit enter an acid-alkali neutralization evaporation salt-forming system, and the obtained dangerous waste salt and the dangerous waste salt collected from the external unit enter a rotary kiln pyrolysis system together. The waste active carbon collected from an external unit is 1 ten thousand tons/year; the waste acid is waste hydrochloric acid, 0.5 ten thousand tons per year, and the concentration is 20 percent; the waste alkali is waste sodium hydroxide solution, the concentration is 20 percent, and the concentration is 0.5 ten thousand tons/year; the waste activated carbon is granular carbon.

And (3) enabling filtrate obtained by the activated carbon adsorption system to enter a secondary immersed ultrafiltration system, and returning the obtained filter precipitate to the activated carbon adsorption device for recycling.

The filtrate obtained by the secondary immersed ultrafiltration system enters an evaporative crystallization unit, and the evaporative crystallization operation mode is MVR evaporative crystallization; and the byproduct steam of the tail gas treatment system is used as a heat source of the evaporative crystallization system, and after the operation is stable, the heat source required by the evaporative operation is the steam generated by the evaporative crystallizer after the pressure and the temperature of a compressor are increased.

Under the process operation, the finished salt product can be obtained at 4 ten thousand tons per year, and the obtained product meets the secondary standard of GB/T5462-2015 industrial dry salt and is sold; the steam condensate water obtained by the evaporative crystallization system can be returned to the salt dissolving pool to be used as dissolving water for recycling, and can also be returned to the waste heat boiler for recycling, so that the consumption of tap water can be greatly saved; the activated carbon required by the whole system is regenerated waste activated carbon, the acid solution for pickling is recovered waste acid solution, the alkali used for neutralization is recovered waste alkali solution, the required raw materials are dangerous wastes recovered from waste production enterprises, the raw material cost is zero, the treatment cost can be collected, and the total investment of recovery in two years after project operation is estimated.

Although the embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that: various substitutions, changes and modifications are possible without departing from the spirit and scope of the invention and the appended claims, and therefore, the scope of the invention is not limited to the embodiments disclosed.

Claims (4)

1. The utility model provides a coprocessing resource system of waste salt, spent acid, waste alkali, useless active carbon which characterized in that: the system comprises a pyrolysis unit, a tail gas treatment system, a dissolving coagulating sedimentation system, a primary immersed ultrafiltration system, an activated carbon adsorption system, a secondary immersed ultrafiltration system, an evaporation unit, a plate-frame filter pressing system, a drying treatment system, a cement kiln cooperative treatment system, an activated carbon regeneration system and an acid-base neutralization evaporation salt formation system, wherein the input end of the pyrolysis unit can be connected with hazardous waste salt, the output end of the pyrolysis unit comprises a pyrolysis gas output end and a waste salt output end, and the pyrolysis gas output end of the pyrolysis unit is connected with the input end of the tail gas treatment system; the input end of the dissolving coagulating sedimentation system comprises a waste salt input end, a filtrate input end and a condensate water input end, the waste salt output end of the pyrolysis unit is connected with the waste salt input end of the dissolving coagulating sedimentation system, the output end of the dissolving coagulating sedimentation system comprises a sludge output end and an upper solution output end, the sludge output end of the dissolving coagulating sedimentation system is connected with the input end of the plate-and-frame filter pressing system, the output end of the plate-and-frame filter pressing system comprises a filtrate output end and a filter cake output end, the filtrate output end of the plate-and-frame filter pressing system is connected with the filtrate input end of the dissolving coagulating sedimentation system, the filter cake output end of the plate-and-frame filter pressing system is connected with the input end of the drying treatment system, and the output end;

the upper solution output end of the dissolving coagulating sedimentation system is connected with the input end of a primary immersed ultrafiltration system, the output end of the primary immersed ultrafiltration system comprises a filtrate output end and a sludge output end, and the sludge output end of the primary immersed ultrafiltration system is also connected with the input end of a plate-and-frame filter pressing system;

the input end of the activated carbon adsorption system comprises a filtrate input end, an activated carbon input end and a regenerated carbon input end, the output end of the activated carbon adsorption system comprises a filtrate output end and a saturated carbon output end, the filtrate input end of the activated carbon adsorption system is connected with the filtrate output end of the primary immersed ultrafiltration system, and the filtrate output end of the activated carbon adsorption system is connected with the input end of the secondary immersed ultrafiltration system; the input end of the activated carbon regeneration system comprises a saturated carbon input end, a waste acid input end and a waste activated carbon input end, the output end of the activated carbon regeneration system comprises a regenerated carbon output end and a waste acid output end, the saturated carbon input end of the activated carbon regeneration system is connected with the saturated carbon output end of the activated carbon adsorption system, the regenerated carbon output end of the activated carbon regeneration system is connected with the regenerated carbon input end of the activated carbon adsorption system, the waste acid input end of the activated carbon regeneration system can be connected with waste acid, and the waste activated carbon input end of the activated carbon regeneration system can be connected with waste activated carbon;

the input end of the acid-alkali neutralization evaporation salt-forming system comprises a waste acid input end and a waste alkali input end, the waste acid input end of the acid-alkali neutralization evaporation salt-forming system is connected with the waste acid output end of the activated carbon regeneration system, the waste alkali input end of the acid-alkali neutralization evaporation salt-forming system can be connected with the waste alkali, and the output end of the acid-alkali neutralization evaporation salt-forming system is also connected with the input end of the pyrolysis unit;

the output end of the secondary immersed ultrafiltration system comprises a filtrate output end and an activated carbon output end, the input end of the evaporation unit comprises a filtrate input end and a steam input end, the activated carbon output end of the secondary immersed ultrafiltration system is connected with the activated carbon input end of the activated carbon adsorption system, and the filtrate output end of the secondary immersed ultrafiltration system is connected with the filtrate input end of the evaporation unit; the output of tail gas processing system includes the steam output, and this tail gas processing system's steam output is connected the setting with evaporation unit's steam input, and this evaporation unit's output includes finished product output and comdenstion water output, and this evaporation unit's finished product output can export the final product, and this evaporation unit's comdenstion water output is connected the setting with the comdenstion water input of dissolving coagulating sedimentation system.

2. The cooperative disposal and recycling system for waste salt, waste acid, waste alkali and waste activated carbon according to claim 1, which is characterized in that: the plate-frame filter pressing system is a plate-frame filter press;

or, the pyrolysis unit is a rotary kiln pyrolysis system.

3. The cooperative disposal resource system for waste salt, waste acid, waste alkali and waste activated carbon as claimed in claim 2, characterized in that: the pyrolysis unit consists of two sections of rotary kilns connected in series.

4. The cooperative disposal resource system for waste salt, waste acid, waste alkali and waste activated carbon according to any one of claims 1 to 3, characterized in that: the active carbon regeneration system is a rake furnace.

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