CN113877930A - Production process of novel polymeric material - Google Patents

Abstract

The invention relates to a production process of a novel polymeric material, which comprises the following steps: collecting domestic garbage by a community garbage can; recycling the household garbage to a garbage disposal place; mixing zymophyte into the garbage; stacking, sealing and fermenting the garbage; the garbage is fermented and dried to be aged garbage; shredding the aged garbage by a shredder; screening the aged garbage by using a roller screen; shredding the aged garbage again by using a shredder; screening the aged garbage again by using a roller screen; screening out dust, fine plastics and small iron blocks in the aged garbage; adsorbing small iron blocks by using an electromagnet; residual dust and fine plastics are reserved after the electromagnet adsorbs the small iron blocks; adding the dust and the fine plastics into a stirrer; adding a proper amount of clay and water into the stirrer, and fully stirring to obtain a semi-finished product; taking out the semi-finished product, cutting into blocks with proper size, and air drying to obtain the final product; the invention has the beneficial effects that: the garbage degradation time is short, and fine iron products are recycled.

Description

Production process of novel polymeric material

Technical Field

The invention relates to a production process of a material, in particular to a production process of a novel polymeric material.

Background

In the present life, people throw into the garbage bin after classifying rubbish, transport rubbish to the garbage station through the garbage truck, then transport rubbish from the garbage station and bury the processing, and the rubbish degradation time of burying is longer and polluted environment, tiny ironwork in the rubbish along with the garbage buries, and ironwork can not recycle, has increased the demand of society to iron ore.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the production process of the novel polymeric material is provided, and the problems that the existing garbage is long in degradation time and pollutes the environment, tiny ironworks in the garbage are buried along with the garbage, the ironworks cannot be recycled, and the social demand for iron ores is increased are solved.

The technical scheme adopted by the invention for solving the problems is as follows:

a process for the production of a novel polymeric material, the process comprising the steps of:

the method comprises the following steps: collecting domestic garbage by a community garbage can;

step two: recycling the household garbage from the garbage can to a garbage disposal place;

step three: mixing zymophyte into the garbage;

step four: stacking, sealing and fermenting the garbage;

step five: the garbage is fermented and dried to be aged garbage;

step six: shredding the aged garbage by a shredder;

step seven: screening the aged garbage by using a roller screen;

step eight: shredding the aged garbage again by using a shredder;

step nine: screening the aged garbage again by using a roller screen;

step ten: screening out dust, fine plastics and small iron blocks in the aged garbage;

step eleven: adsorbing small iron blocks by using an electromagnet;

step twelve: selling the small iron blocks to a recycling bin;

step thirteen: residual dust and fine plastics are reserved after the electromagnet adsorbs the small iron blocks;

fourteen steps: adding the dust and the fine plastics into a stirrer;

step fifteen: adding a proper amount of clay and water into the stirrer, and fully stirring to obtain a semi-finished product;

sixthly, the steps are as follows: taking out the semi-finished product, cutting into blocks with proper size, and air drying to obtain the final product;

seventeen steps: transporting the finished products to a power plant for combustion and power generation;

the fermentation bacteria are thermophilic bacteria, so that organic matters in the garbage can be rapidly fermented conveniently through the thermophilic bacteria.

The garbage sealing fermentation time is 60-80 days, and the optimal time for the rapid fermentation of the organic garbage is provided.

And fifteen, adding a proper amount of clay and water into the stirrer and simultaneously adding a proper amount of sawdust, so that the garbage can be quickly molded through the clay and the water.

A proper amount of quicklime is added into the stirrer, so that garbage can be sterilized through the quicklime.

And fourteen, 8-10 parts of dust and fine plastics are added into the stirrer.

And fifteen, adding 2-3 parts of clay into the stirrer.

1-2 parts of sawdust added into the stirrer.

And 1-2 parts of quicklime is added into the stirrer.

3-5 parts of water is added into the stirrer.

The invention has the beneficial effects that: 1. the garbage degradation time is short, the pollution of the garbage to the environment is reduced, and fine iron products are recycled. 2. The fermentation bacteria are thermophilic bacteria, so that the organic matters in the garbage can be rapidly fermented by the thermophilic bacteria. 3. The garbage sealing fermentation time is 60-80 days, and the optimal time for the rapid fermentation of the organic garbage is provided. 4. And adding a proper amount of clay and water into the fifteen-step stirring machine, and simultaneously adding a proper amount of sawdust, so that the garbage can be quickly molded through the clay and the water. 5. A proper amount of quicklime is added into the stirrer, so that garbage can be sterilized through the quicklime.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Detailed Description

Embodiments of the present invention are further described below with reference to the accompanying drawings.

Referring to fig. 1, the process for producing a novel polymeric material according to the present embodiment comprises the following steps:

the method comprises the following steps: collecting domestic garbage by a community garbage can;

step two: recycling the household garbage from the garbage can to a garbage disposal place;

step three: mixing zymophyte into the garbage;

step four: stacking, sealing and fermenting the garbage;

step five: the garbage is fermented and dried to be aged garbage;

step six: shredding the aged garbage by a shredder;

step seven: screening the aged garbage by using a roller screen;

step eight: shredding the aged garbage again by using a shredder;

step nine: screening the aged garbage again by using a roller screen;

step ten: screening out dust, fine plastics and small iron blocks in the aged garbage;

step eleven: adsorbing small iron blocks by using an electromagnet;

step twelve: selling the small iron blocks to a recycling bin;

step thirteen: residual dust and fine plastics are reserved after the electromagnet adsorbs the small iron blocks;

fourteen steps: adding the dust and the fine plastics into a stirrer;

step fifteen: adding a proper amount of clay and water into the stirrer, and fully stirring to obtain a semi-finished product;

sixthly, the steps are as follows: taking out the semi-finished product, cutting into blocks with proper size, and air drying to obtain the final product;

seventeen steps: transporting the finished products to a power plant for combustion and power generation;

the fermentation bacteria are thermophilic bacteria, so that organic matters in the garbage can be rapidly fermented conveniently through the thermophilic bacteria.

The garbage sealing and fermenting time is 70 days, and the optimal time for the rapid fermentation of the organic garbage is provided.

And fifteen, adding a proper amount of clay and water into the stirrer and simultaneously adding a proper amount of sawdust, so that the garbage can be quickly molded through the clay and the water.

A proper amount of quicklime is added into the stirrer, so that garbage can be sterilized through the quicklime.

And adding 9 parts of dust and fine plastics into the stirrer.

And fifteen, adding 2 parts of clay into the stirrer.

The amount of the sawdust added into the stirrer is 1 part.

And 1 part of quicklime is added into the stirrer.

And 3 parts of water is added into the stirrer.

The invention has the beneficial effects that: 1. the garbage degradation time is short, the pollution of the garbage to the environment is reduced, and fine iron products are recycled. 2. The fermentation bacteria are thermophilic bacteria, so that the organic matters in the garbage can be rapidly fermented by the thermophilic bacteria. 3. The garbage sealing fermentation time is 70 days, and the optimal time for the rapid fermentation of the organic garbage is provided. 4. And adding a proper amount of clay and water into the fifteen-step stirring machine, and simultaneously adding a proper amount of sawdust, so that the garbage can be quickly molded through the clay and the water. 5. A proper amount of quicklime is added into the stirrer, so that garbage can be sterilized through the quicklime.

The specific embodiments of the present invention should not be construed as limiting the invention, and all similar constructions and modifications utilizing the same are intended to be included within the scope of the present invention.

Claims (10)

1. The production process of the polymeric material is characterized by comprising the following steps: the process comprises the following steps:

the method comprises the following steps: collecting domestic garbage by a community garbage can;

step two: recycling the household garbage from the garbage can to a garbage disposal place;

step three: mixing zymophyte into the garbage;

step four: stacking, sealing and fermenting the garbage;

step five: the garbage is fermented and dried to be aged garbage;

step six: shredding the aged garbage by a shredder;

step seven: screening the aged garbage by using a roller screen;

step eight: shredding the aged garbage again by using a shredder;

step nine: screening the aged garbage again by using a roller screen;

step ten: screening out dust, fine plastics and small iron blocks in the aged garbage;

step eleven: adsorbing small iron blocks by using an electromagnet;

step twelve: selling the small iron blocks to a recycling bin;

step thirteen: residual dust and fine plastics are reserved after the electromagnet adsorbs the small iron blocks;

fourteen steps: adding the dust and the fine plastics into a stirrer;

step fifteen: adding a proper amount of clay and water into the stirrer, and fully stirring to obtain a semi-finished product;

sixthly, the steps are as follows: taking out the semi-finished product, cutting into blocks with proper size, and air drying to obtain the final product;

seventeen steps: and (5) transporting the finished product to a power plant for combustion and power generation.

2. The process for producing a polymeric material of the present invention as defined in claim 1, wherein: the zymocyte is thermophilic bacteria.

3. The process for producing a polymeric material of the present invention as defined in claim 1, wherein: the time for sealing and fermenting the garbage is 60-80 days.

4. The process for producing a polymeric material of the present invention as defined in claim 1, wherein: and fifteen, adding a proper amount of clay and water into the stirrer and simultaneously adding a proper amount of sawdust.

5. The process for producing a polymeric material of the present invention as defined in claim 4, wherein: and adding a proper amount of quicklime into the stirrer.

6. The process for producing a polymeric material of the present invention as defined in claim 1, wherein: and fourteen, 8-10 parts of dust and fine plastics are added into the stirrer.

7. The process for producing a polymeric material of the present invention as defined in claim 1, wherein: and fifteen, adding 2-3 parts of clay into the stirrer.

8. The process for producing a polymeric material of the present invention as defined in claim 4, wherein: 1-2 parts of sawdust added into the stirrer.

9. The process for producing a polymeric material of the present invention as set forth in claim 5, wherein: and 1-2 parts of quicklime is added into the stirrer.

10. The process for producing a polymeric material of the present invention as defined in claim 1, wherein: 3-5 parts of water is added into the stirrer.

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