CN113134502A - Harmless treatment method for decomposed materials on removed clean surface - Google Patents

Abstract

The invention discloses a harmless treatment method for rotten matters on a removed clean surface, which comprises the following steps: step A: separating the plastic and the silk screen from the surface garbage by a wind power vibrating screen, conveying the plastic and the silk screen into a plastic recycling bin for recycling, and then transporting the plastic and the silk screen outside for treatment by a municipal department; and B: and (3) magnetically separating out metal iron wires from the residual surface garbage through a magnetic separator, sending the metal iron wires into an ironwork recovery barrel for recovery, separating out non-ferrous metals from the residual surface garbage through an eddy current separator, sending the non-ferrous metals into the non-ferrous metal recovery barrel for recovery, and treating the non-ferrous metals through a renewable resource company. The invention has the advantages of near treatment, saving the cost of garbage cleaning and landfill, reducing omission in the cleaning and landfill process and dust pollution to the surrounding environment, solving the problem of large landfill occupied area, greatly reducing the garbage after treatment, and solving the problem of harm caused by difficult cleaning and stacking of the garbage on the ground surface.

Description

Harmless treatment method for decomposed materials on removed clean surface

Technical Field

The invention relates to the technical field of harmless treatment, in particular to a method for harmless treatment of decomposed materials on a removed clean surface.

Background

Innocent treatment, environmental science academic parlance means: the method is characterized in that the garbage is not polluted any more, the garbage can be utilized and changed into valuable things, the landfill is an effective method for consuming a large amount of municipal domestic garbage and is also a final treatment method for all garbage treatment process residues, currently, a direct landfill method is generally adopted in China, and the direct landfill method is characterized in that the garbage is filled into a prepared pit and is covered and compacted, so that the garbage generates biological, physical and chemical changes, organic matters are decomposed, and the purposes of reduction and harmlessness are achieved.

However, most of the garbage in many cities in China is piled in the open air without any protective measures, each garbage piling place becomes a pollution source, mosquitoes and flies are rotten, mice are damaged, odor is diffused to the sky, a large amount of garbage and sewage seeps into the ground from the ground surface, and serious pollution is caused to the urban environment and underground water sources.

Disclosure of Invention

The invention aims to provide a harmless treatment method for decomposable substances on a removed clean table, which has the advantage of convenient use of the harmless treatment method and solves the problem of inconvenient use of the harmless treatment method.

In order to achieve the purpose, the invention provides the following technical scheme: a method for harmless treatment of decomposed substances on a removed clean surface comprises the following steps:

step A: separating the plastic and the silk screen from the surface garbage by a wind power vibrating screen, conveying the plastic and the silk screen into a plastic recycling bin for recycling, and then transporting the plastic and the silk screen outside for treatment by a municipal department;

and B: the residual surface garbage is subjected to magnetic separation to obtain metal iron wires by a magnetic separator, the metal iron wires are sent into an ironwork recovery barrel to be recovered, the residual surface garbage is subjected to sorting to obtain nonferrous metals by an eddy current separator, the nonferrous metals are sent into a nonferrous metal recovery barrel to be recovered, and the nonferrous metals are treated by a renewable resource company;

and C: screening the residual surface garbage by rolling to obtain construction garbage, conveying the construction garbage into a construction garbage recycling bin for recycling, and treating by a construction recycled aggregate company;

step D: adding water into the residual ground garbage for dilution, performing spiral deslagging treatment after dilution to remove rotten matters in the ground surface, removing floating matters on the water surface through a grating, conveying the rotten matters into a rotten matter recycling bin for recycling, conveying the rotten matters to a treatment point through a vehicle, conveying the rotten matters to a crushing system through a feeding machine for cracking, conveying crushed organic matter raw materials to a screening system, screening out raw materials suitable for manufacturing organic matter coverings and organic fertilizers, directly conveying the raw materials to a shipping vehicle, conveying the raw materials to a renewable resource using unit, and performing secondary crushing on products with unqualified sizes;

step E: the method comprises the steps of mechanically concentrating surface garbage, carrying out high-speed centrifugal dehydration treatment, diluting the concentrated and dehydrated surface garbage, and carrying out in-situ treatment on the obtained soil.

Preferably, in the step E, the surface garbage is dehydrated by using a semi-drying belt press, and the moisture content of the surface garbage is reduced by using longitudinal, transverse and vertical three-dimensional shear forces of the surface garbage.

Preferably, the wind power vibrating screen in the step A is a Hi-bolt wind power screening machine, and plastics and silk screens which cannot be treated in the surface garbage can be thoroughly separated.

Preferably, the magnetic separator in the step B is a WD series electromagnetic high gradient magnetic separator, and the novel multi-spine non-embroidery magnetic conductive magnetic steel wool material technology, the solid-liquid-gas three-phase flow film separation technology, the high-power low-voltage high-current rectification technology, the PLC electric control technology, the flow, temperature, pressure and other testing technologies are adopted, so that metal products in the surface garbage can be adsorbed.

Preferably, the rolling screen in the step C is a GTS roller vibrating screen which is suitable for screening various solid materials with the particle size of less than 300 mm.

Compared with the prior art, the invention has the following beneficial effects: the invention has the advantages of near treatment, saving the cost of garbage cleaning and landfill, reducing omission in the cleaning and landfill process and dust pollution to the surrounding environment, solving the problem of large landfill occupied area, greatly reducing the garbage after treatment, and solving the problem of harm caused by difficult cleaning and stacking of the garbage on the ground surface.

Drawings

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

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a method for harmless treatment of putrescible matter in a detached list includes the following steps:

step A: separating the plastic and the silk screen from the surface garbage by a wind power vibrating screen, conveying the plastic and the silk screen into a plastic recycling bin for recycling, and then transporting the plastic and the silk screen outside for treatment by a municipal department;

and B: the residual surface garbage is subjected to magnetic separation to obtain metal iron wires by a magnetic separator, the metal iron wires are sent into an ironwork recovery barrel to be recovered, the residual surface garbage is subjected to sorting to obtain nonferrous metals by an eddy current separator, the nonferrous metals are sent into a nonferrous metal recovery barrel to be recovered, and the nonferrous metals are treated by a renewable resource company;

and C: screening the residual surface garbage by rolling to obtain construction garbage, conveying the construction garbage into a construction garbage recycling bin for recycling, and treating by a construction recycled aggregate company;

step D: adding water into the residual ground garbage for dilution, performing spiral deslagging treatment after dilution to remove rotten matters in the ground surface, removing floating matters on the water surface through a grating, conveying the rotten matters into a rotten matter recycling bin for recycling, conveying the rotten matters to a treatment point through a vehicle, conveying the rotten matters to a crushing system through a feeding machine for cracking, conveying crushed organic matter raw materials to a screening system, screening out raw materials suitable for manufacturing organic matter coverings and organic fertilizers, directly conveying the raw materials to a shipping vehicle, conveying the raw materials to a renewable resource using unit, and performing secondary crushing on products with unqualified sizes;

step E: the method comprises the steps of mechanically concentrating surface garbage, carrying out high-speed centrifugal dehydration treatment, diluting the concentrated and dehydrated surface garbage, and carrying out in-situ treatment on the obtained soil.

Example 1

A method for harmless treatment of decomposed substances on a removed clean surface comprises the following steps: step A: separating the plastic and the silk screen from the surface garbage by a wind power vibrating screen, conveying the plastic and the silk screen into a plastic recycling bin for recycling, and then transporting the plastic and the silk screen outside for treatment by a municipal department; and B: the residual surface garbage is subjected to magnetic separation to obtain metal iron wires by a magnetic separator, the metal iron wires are sent into an ironwork recovery barrel to be recovered, the residual surface garbage is subjected to sorting to obtain nonferrous metals by an eddy current separator, the nonferrous metals are sent into a nonferrous metal recovery barrel to be recovered, and the nonferrous metals are treated by a renewable resource company; and C: screening the residual surface garbage by rolling to obtain construction garbage, conveying the construction garbage into a construction garbage recycling bin for recycling, and treating by a construction recycled aggregate company; step D: adding water into the residual ground garbage for dilution, performing spiral deslagging treatment after dilution to remove rotten matters in the ground surface, removing floating matters on the water surface through a grating, conveying the rotten matters into a rotten matter recycling bin for recycling, conveying the rotten matters to a treatment point through a vehicle, conveying the rotten matters to a crushing system through a feeding machine for cracking, conveying crushed organic matter raw materials to a screening system, screening out raw materials suitable for manufacturing organic matter coverings and organic fertilizers, directly conveying the raw materials to a shipping vehicle, conveying the raw materials to a renewable resource using unit, and performing secondary crushing on products with unqualified sizes; step E: the method comprises the steps of mechanically concentrating surface garbage, carrying out high-speed centrifugal dehydration treatment, diluting the concentrated and dehydrated surface garbage, and carrying out in-situ treatment on the obtained soil.

Example 2

In example 1, the following steps were added:

and E, dehydrating the surface garbage by adopting a semi-drying belt press, and respectively performing longitudinal, transverse and vertical three-dimensional shearing force on the surface garbage to reduce the water content of the surface garbage.

A method for harmless treatment of decomposed substances on a removed clean surface comprises the following steps: step A: separating the plastic and the silk screen from the surface garbage by a wind power vibrating screen, conveying the plastic and the silk screen into a plastic recycling bin for recycling, and then transporting the plastic and the silk screen outside for treatment by a municipal department; and B: the residual surface garbage is subjected to magnetic separation to obtain metal iron wires by a magnetic separator, the metal iron wires are sent into an ironwork recovery barrel to be recovered, the residual surface garbage is subjected to sorting to obtain nonferrous metals by an eddy current separator, the nonferrous metals are sent into a nonferrous metal recovery barrel to be recovered, and the nonferrous metals are treated by a renewable resource company; and C: screening the residual surface garbage by rolling to obtain construction garbage, conveying the construction garbage into a construction garbage recycling bin for recycling, and treating by a construction recycled aggregate company; step D: adding water into the residual ground garbage for dilution, performing spiral deslagging treatment after dilution to remove rotten matters in the ground surface, removing floating matters on the water surface through a grating, conveying the rotten matters into a rotten matter recycling bin for recycling, conveying the rotten matters to a treatment point through a vehicle, conveying the rotten matters to a crushing system through a feeding machine for cracking, conveying crushed organic matter raw materials to a screening system, screening out raw materials suitable for manufacturing organic matter coverings and organic fertilizers, directly conveying the raw materials to a shipping vehicle, conveying the raw materials to a renewable resource using unit, and performing secondary crushing on products with unqualified sizes; step E: the method comprises the steps of mechanically concentrating surface garbage, carrying out high-speed centrifugal dehydration treatment, diluting the concentrated and dehydrated surface garbage, and carrying out in-situ treatment on the obtained soil.

Example 3

In example 2, the following steps were added:

and C, the wind power vibration screen in the step A is a Hi-BOLTER wind power screening machine, and plastics and silk screens which cannot be treated in the surface garbage can be thoroughly separated.

A method for harmless treatment of decomposed substances on a removed clean surface comprises the following steps: step A: separating the plastic and the silk screen from the surface garbage by a wind power vibrating screen, conveying the plastic and the silk screen into a plastic recycling bin for recycling, and then transporting the plastic and the silk screen outside for treatment by a municipal department; and B: the residual surface garbage is subjected to magnetic separation to obtain metal iron wires by a magnetic separator, the metal iron wires are sent into an ironwork recovery barrel to be recovered, the residual surface garbage is subjected to sorting to obtain nonferrous metals by an eddy current separator, the nonferrous metals are sent into a nonferrous metal recovery barrel to be recovered, and the nonferrous metals are treated by a renewable resource company; and C: screening the residual surface garbage by rolling to obtain construction garbage, conveying the construction garbage into a construction garbage recycling bin for recycling, and treating by a construction recycled aggregate company; step D: adding water into the residual ground garbage for dilution, performing spiral deslagging treatment after dilution to remove rotten matters in the ground surface, removing floating matters on the water surface through a grating, conveying the rotten matters into a rotten matter recycling bin for recycling, conveying the rotten matters to a treatment point through a vehicle, conveying the rotten matters to a crushing system through a feeding machine for cracking, conveying crushed organic matter raw materials to a screening system, screening out raw materials suitable for manufacturing organic matter coverings and organic fertilizers, directly conveying the raw materials to a shipping vehicle, conveying the raw materials to a renewable resource using unit, and performing secondary crushing on products with unqualified sizes; step E: the method comprises the steps of mechanically concentrating surface garbage, carrying out high-speed centrifugal dehydration treatment, diluting the concentrated and dehydrated surface garbage, and carrying out in-situ treatment on the obtained soil.

Example 4

In example 3, the following steps were added:

the magnetic separator in the step B is a WD series electromagnetic high-gradient magnetic separator, and can adsorb metal products in surface garbage by adopting a novel multi-spine non-embroidery magnetic conduction magnetic gathering steel wool material technology, a solid-liquid-gas three-phase flow film separation technology, a high-power low-voltage high-current rectification technology, a PLC (programmable logic controller) electric control technology, a flow, temperature, pressure test technology and the like.

A method for harmless treatment of decomposed substances on a removed clean surface comprises the following steps: step A: separating the plastic and the silk screen from the surface garbage by a wind power vibrating screen, conveying the plastic and the silk screen into a plastic recycling bin for recycling, and then transporting the plastic and the silk screen outside for treatment by a municipal department; and B: the residual surface garbage is subjected to magnetic separation to obtain metal iron wires by a magnetic separator, the metal iron wires are sent into an ironwork recovery barrel to be recovered, the residual surface garbage is subjected to sorting to obtain nonferrous metals by an eddy current separator, the nonferrous metals are sent into a nonferrous metal recovery barrel to be recovered, and the nonferrous metals are treated by a renewable resource company; and C: screening the residual surface garbage by rolling to obtain construction garbage, conveying the construction garbage into a construction garbage recycling bin for recycling, and treating by a construction recycled aggregate company; step D: adding water into the residual ground garbage for dilution, performing spiral deslagging treatment after dilution to remove rotten matters in the ground surface, removing floating matters on the water surface through a grating, conveying the rotten matters into a rotten matter recycling bin for recycling, conveying the rotten matters to a treatment point through a vehicle, conveying the rotten matters to a crushing system through a feeding machine for cracking, conveying crushed organic matter raw materials to a screening system, screening out raw materials suitable for manufacturing organic matter coverings and organic fertilizers, directly conveying the raw materials to a shipping vehicle, conveying the raw materials to a renewable resource using unit, and performing secondary crushing on products with unqualified sizes; step E: the method comprises the steps of mechanically concentrating surface garbage, carrying out high-speed centrifugal dehydration treatment, diluting the concentrated and dehydrated surface garbage, and carrying out in-situ treatment on the obtained soil.

Example 5

In example 4, the following steps were added:

and the rolling sieve in the step C is a GTS roller vibrating sieve, and is suitable for sieving various solid materials with the particle size of less than 300 mm.

A method for harmless treatment of decomposed substances on a removed clean surface comprises the following steps: step A: separating the plastic and the silk screen from the surface garbage by a wind power vibrating screen, conveying the plastic and the silk screen into a plastic recycling bin for recycling, and then transporting the plastic and the silk screen outside for treatment by a municipal department; and B: the residual surface garbage is subjected to magnetic separation to obtain metal iron wires by a magnetic separator, the metal iron wires are sent into an ironwork recovery barrel to be recovered, the residual surface garbage is subjected to sorting to obtain nonferrous metals by an eddy current separator, the nonferrous metals are sent into a nonferrous metal recovery barrel to be recovered, and the nonferrous metals are treated by a renewable resource company; and C: screening the residual surface garbage by rolling to obtain construction garbage, conveying the construction garbage into a construction garbage recycling bin for recycling, and treating by a construction recycled aggregate company; step D: adding water into the residual ground garbage for dilution, performing spiral deslagging treatment after dilution to remove rotten matters in the ground surface, removing floating matters on the water surface through a grating, conveying the rotten matters into a rotten matter recycling bin for recycling, conveying the rotten matters to a treatment point through a vehicle, conveying the rotten matters to a crushing system through a feeding machine for cracking, conveying crushed organic matter raw materials to a screening system, screening out raw materials suitable for manufacturing organic matter coverings and organic fertilizers, directly conveying the raw materials to a shipping vehicle, conveying the raw materials to a renewable resource using unit, and performing secondary crushing on products with unqualified sizes; step E: the method comprises the steps of mechanically concentrating surface garbage, carrying out high-speed centrifugal dehydration treatment, diluting the concentrated and dehydrated surface garbage, and carrying out in-situ treatment on the obtained soil.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. A method for harmless treatment of rotten matters on a removed clean surface is characterized by comprising the following steps: the method comprises the following steps:

step A: separating the plastic and the silk screen from the surface garbage by a wind power vibrating screen, conveying the plastic and the silk screen into a plastic recycling bin for recycling, and then transporting the plastic and the silk screen outside for treatment by a municipal department;

and B: the residual surface garbage is subjected to magnetic separation to obtain metal iron wires by a magnetic separator, the metal iron wires are sent into an ironwork recovery barrel to be recovered, the residual surface garbage is subjected to sorting to obtain nonferrous metals by an eddy current separator, the nonferrous metals are sent into a nonferrous metal recovery barrel to be recovered, and the nonferrous metals are treated by a renewable resource company;

and C: screening the residual surface garbage by rolling to obtain construction garbage, conveying the construction garbage into a construction garbage recycling bin for recycling, and treating by a construction recycled aggregate company;

step D: adding water into the residual ground garbage for dilution, performing spiral deslagging treatment after dilution to remove rotten matters in the ground surface, removing floating matters on the water surface through a grating, conveying the rotten matters into a rotten matter recycling bin for recycling, conveying the rotten matters to a treatment point through a vehicle, conveying the rotten matters to a crushing system through a feeding machine for cracking, conveying crushed organic matter raw materials to a screening system, screening out raw materials suitable for manufacturing organic matter coverings and organic fertilizers, directly conveying the raw materials to a shipping vehicle, conveying the raw materials to a renewable resource using unit, and performing secondary crushing on products with unqualified sizes;

step E: the method comprises the steps of mechanically concentrating surface garbage, carrying out high-speed centrifugal dehydration treatment, diluting the concentrated and dehydrated surface garbage, and carrying out in-situ treatment on the obtained soil.

2. The method for harmless treatment of decomposed materials on a removed clean surface as claimed in claim 1, wherein: and E, dehydrating the surface garbage by using a semi-drying belt press, and reducing the moisture content of the surface garbage by respectively performing longitudinal, transverse and vertical three-dimensional shearing force on the surface garbage.

3. The method for harmless treatment of decomposed materials on a removed clean surface as claimed in claim 1, wherein: and the wind power vibrating screen in the step A is a Hi-BOLTER wind power screening machine, and plastics and silk screens which cannot be treated in the surface garbage can be thoroughly separated.

4. The method for harmless treatment of decomposed materials on a removed clean surface as claimed in claim 1, wherein: the magnetic separator in the step B is a WD series electromagnetic high-gradient magnetic separator, and metal products in surface garbage can be adsorbed by adopting a novel multi-point thorn non-embroidery magnetic conduction magnetic gathering steel wool material technology, a solid-liquid-gas three-phase flow film separation technology, a high-power low-voltage high-current rectification technology, a PLC (programmable logic controller) electric control technology, a flow, temperature, pressure and other testing technologies.

5. The method for harmless treatment of decomposed materials on a removed clean surface as claimed in claim 1, wherein: and the rolling sieve in the step C is a GTS roller vibrating sieve, and is suitable for sieving various solid materials with the particle size of less than 300 mm.

Images