CN211232879U - Green building materials circulation industrial park system - Google Patents

Abstract

The utility model relates to a green building materials circulation industry garden system relies on cement kiln, handle unit, kitchen garbage processing unit, dangerous waste processing unit and mud processing unit including domestic waste, building garbage, but building garbage sends fuel to domestic waste processing unit through building garbage processing unit, and the finished product material after handling sends into cement kiln as cement raw materials, kitchen garbage processing unit links to each other with domestic waste processing unit and cement kiln respectively, dangerous waste processing unit links to each other with cement kiln, mud processing unit links to each other with cement kiln. After the structure is adopted, the municipal domestic waste, the construction waste, the kitchen waste, the dangerous waste and the sludge are completely harmlessly reduced and recycled to the cement kiln line by establishing the green building material circulation industrial park, and the treatment and the comprehensive utilization of various wastes are performed to the maximum extent.

Description

Green building materials circulation industrial park system

Technical Field

The utility model relates to an energy environmental protection field especially relates to a green building materials circulation industrial park system.

Background

In recent years, with the continuous promotion of industrialization and urbanization processes in China, the living standard of people is increasingly improved, more and more urban garbage is continuously generated, and the urban garbage is an important problem which puzzles urban development. Secondly, the utilization rate of municipal refuse in China is low, the utilization form is simple and extensive, the generation of a large amount of municipal refuse seriously threatens the sustainable development of the economy and the society, and if the domestic refuse is mainly buried in a sanitary way, the domestic refuse can not bear the increasing municipal domestic refuse at present. The construction waste heap mountain landscaping utilization mode needs to occupy a large amount of land and has no durability. A large amount of kitchen waste is not utilized basically, or enters the illegal feeding field, or is discharged directly. Industrial hazardous solid waste poses great harm to the environment and needs to be properly and safely disposed. The sludge causes the blockage of the river channel and the water quality is reduced. A green building material recycling industrial park is built, urban garbage is treated in a centralized mode, recycling and gradient utilization of resource and energy are achieved, the environmental problem is solved, recycling of waste is achieved, and the method becomes an important way for solving urban solid waste.

The currently established circular industrial park in China breaks through the traditional solid waste disposal industrial mode and provides effective demonstration in the aspects of park construction, park treatment and comprehensive energy utilization. Taking the environment-friendly industrial park of the south China Foshan sea for solid wastes as an example, the park takes waste incineration as a center, a complete industrial chain from source to terminal is formed, and the solid wastes are subjected to 100% synergistic treatment. The cement kiln cooperative treatment has a strong development trend in recent years due to the advantages of low investment, large treatment capacity, good treatment effect and the like. It can be seen from the market promotion degree that the combination of the solid waste industry and the cement kiln has no barrier in the aspects of technical maturity and implementation feasibility. The domestic green building material circulation industrial park taking the cement kiln as the center has been partially researched, but the production mode is not comprehensive. If the green building material recycling industrial park is effectively implemented and popularized, the method can bring remarkable effects to the development of regional economy and social environmental benefits.

SUMMERY OF THE UTILITY MODEL

For solving current technical problem, the utility model provides a green building materials circulation industrial garden system.

The specific contents of the utility model are as follows: the utility model provides a green building materials circulation industry garden system, this green building materials circulation industry garden system relies on cement kiln, handle unit, kitchen garbage processing unit, hazardous waste processing unit and mud processing unit including domestic waste, but building garbage sends fuel to domestic waste processing unit through building garbage processing unit, and the finished product material after handling sends into cement kiln as cement raw materials, kitchen garbage processing unit links to each other with domestic waste processing unit and cement kiln respectively, hazardous waste processing unit links to each other with cement kiln, mud processing unit links to each other with cement kiln and domestic waste processing unit.

Further, domestic waste handles the unit and includes rubbish warehouse, mechanical grate furnace, exhaust-heat boiler, filtration liquid processing system, odor treatment system and turbo generator, the rubbish warehouse links to each other with filtration liquid processing system, mechanical grate furnace, odor treatment system, kitchen garbage processing unit and building rubbish processing unit respectively, filtration liquid processing system still handles unit, cement kiln with kitchen garbage and links to each other, mechanical grate furnace still links to each other with exhaust-heat boiler, exhaust-heat boiler still links to each other with turbo generator and cement kiln.

Further, building rubbish disposes the unit including receiving factory building, bar sieve, air separator, bounce sieve, jaw breaker, de-ironing separator and reaction breaker, and building rubbish connects gradually bar sieve, air separator, jaw breaker, de-ironing separator and reaction breaker after receiving the factory building, bar sieve, air separator and jaw breaker all link to each other with the bounce sieve, the bounce sieve still links to each other with the rubbish storage storehouse of domestic waste disposal unit.

Further, kitchen garbage handles unit is including receiving hopper, screw dehydrator, inertia separator, thick liquid slagging-off machine, thick liquids heating tank, hot oil charge pump and three-phase oil extractor, and kitchen, kitchen garbage receive the hopper through receiving behind the hopper in proper order through screw dehydrator, inertia separator, thick liquid slagging-off machine, thick liquids heating tank, hot oil charge pump and three-phase oil extractor, it links to each other with rubbish storage bin to receive hopper and screw dehydrator, inertia separator, thick liquid slagging-off machine and three-phase oil extractor link to each other with the cement kiln, it still links to each other with filtration liquid processing system to receive hopper and three-phase oil extractor.

Further, the hazardous waste disposal unit comprises a liquid hazardous waste disposal subunit, a semi-solid hazardous waste disposal subunit and a solid hazardous waste disposal subunit, the liquid hazardous waste disposal subunit, the semi-solid hazardous waste disposal subunit and the solid hazardous waste disposal subunit are all connected with the cement kiln, the solid hazardous waste disposal subunit comprises a mixer, and the mixer is connected with the liquid hazardous waste disposal subunit and the semi-solid hazardous waste disposal subunit.

Further, the liquid hazardous waste disposal subunit comprises a waste liquid storage tank, a pneumatic diaphragm pump and a first valve, wherein the waste liquid storage tank is connected with the pneumatic diaphragm pump, and the pneumatic diaphragm pump is switched by the first valve and is respectively connected with the cement kiln and the mixer.

Further, the semi-solid hazardous waste disposal subunit comprises a feeding grid, a first storage bin, a screw conveyor, a first plunger pump and a second valve, the semi-solid hazardous waste sequentially passes through the first storage bin, the screw conveyor and the first plunger pump, the feeding grid is arranged in the first storage bin, blocked solid waste of the feeding grid enters a mixer, and waste falling from the feeding grid enters the screw conveyor; the waste passing through the first plunger pump is respectively sent to the cement kiln and the mixer through a second valve.

Further, solid-state hazardous waste handles subelement includes second warehouse, lifting machine, explosion-proof sealed cabin and first breaker, first breaker links to each other with the blender, and first breaker still links to each other with solid-state storehouse, and solid-state storehouse links to each other with the cement kiln, and solid-state hazardous waste passes through second warehouse, lifting machine, explosion-proof sealed cabin and first breaker in proper order, and the discarded object that advances first breaker is sent into solid-state storehouse and blender respectively, and the discarded object in the solid-state storehouse is sent to the cement kiln.

Furthermore, the sludge disposal unit comprises a wet sludge disposal subunit and a dry sludge disposal subunit, the wet sludge disposal subunit is connected with the cement kiln, and the dry sludge disposal subunit is connected with the mechanical grate furnace of the domestic garbage disposal unit.

Further, the wet sludge disposal subunit comprises a wet sludge bin, a first hydraulic sliding frame, a double-screw feeder and a second plunger pump, wet sludge enters the cement kiln after sequentially passing through the wet sludge bin, the first hydraulic sliding frame, the double-screw feeder and the second plunger pump, the dry sludge disposal subunit comprises a dry sludge bin, a second hydraulic sliding frame, a second crusher and a front-furnace sludge bin, and dry sludge enters the mechanical grate furnace of the domestic waste disposal unit after sequentially passing through the dry sludge bin, the second hydraulic sliding frame, the second crusher and the front-furnace sludge bin.

Further, the green building materials circulation industrial park handles unit, building rubbish processing unit, kitchen garbage processing unit, hazardous waste processing unit and sludge processing unit coupling with cement kiln and domestic waste, the combustible material is sent to domestic waste processing unit in the coprocessing process, building rubbish is incombustible as the cement raw materials, cement kiln and domestic waste processing unit are sent into respectively to the kitchen garbage after the processing, send cement kiln after the hazardous waste processing, send cement kiln and domestic waste processing unit respectively after the sludge processing, the processing unit both can independently operate in each processing unit in industrial park, also can the coprocessing operation, realize solid useless closed loop processing such as domestic waste, building rubbish, kitchen garbage, hazardous waste and sludge, realize the zero release.

The utility model has the advantages that: after the structure is adopted, the municipal domestic waste, the construction waste, the kitchen waste, the dangerous waste and the sludge are completely harmlessly reduced and recycled to the cement kiln line by establishing the green building material circulation industrial park, and the treatment and the comprehensive utilization of various wastes are performed to the maximum extent. The substances in the garden realize closed-loop treatment, and no wastewater or waste residue is discharged in the whole process except a small amount of finished product leaving areas with additional values, so that zero discharge and no secondary pollution are completely realized. A benign and healthy circulation system is formed through a green building material circulation industrial park, the cyclic utilization and the cascade utilization of resource and energy are realized, and the environmental problem is solved.

Drawings

The following further explains the embodiments of the present invention with reference to the drawings.

Fig. 1 is a schematic view of the green building material circulation industrial park system of the present invention.

Detailed Description

Combine fig. 1, the utility model discloses a green building materials circulation industry garden system, this green building materials circulation industry garden system relies on cement kiln 1, including domestic waste processing unit 2, building waste processing unit 3, kitchen garbage processing unit 4, hazardous waste processing unit 5 and sludge disposal unit 6, building waste handles unit 3 through building waste and delivers to domestic waste processing unit 2 combustible fuel, the finished product material after handling sends into cement kiln 1 as cement raw materials, kitchen garbage processing unit 4 links to each other with domestic waste processing unit 2 and cement kiln 1 respectively, hazardous waste processing unit 5 links to each other with cement kiln 1, it links to each other with cement kiln 1 and domestic waste processing unit 2 to handle sludge unit 6.

In the embodiment, the household garbage and other combustible garbage are incinerated by the household garbage disposal unit 2, and waste gas and ash generated by incineration are sent to the cement kiln 1 for harmless treatment; the combustible fuel of the construction waste is sent to the domestic waste disposal unit 2 through the construction waste disposal unit 3, and the disposed finished product materials are sent to the cement kiln 1 as cement raw materials; solid-phase materials of the kitchen waste are sent to a domestic waste disposal unit for incineration through a kitchen waste disposal unit 4, waste water is sent to a leachate treatment system of the domestic waste disposal unit 2, and separated sediments are sent to a cement kiln 1; the hazardous waste is adjusted to a safe and proper conveying state by the hazardous waste disposal unit 5 and then is respectively conveyed into the cement kiln 1 for incineration; the dry and wet sludge is conveyed to the cement kiln 1 and the household garbage disposal unit 2 for incineration through the sludge disposal unit.

This embodiment is preferred, domestic waste handles unit 2 and includes the rubbish warehouse, the mechanical grate stove, exhaust-heat boiler, filtration liquid processing system, odor treatment system and turbo generator, the rubbish warehouse respectively with filtration liquid processing system, the mechanical grate stove, odor treatment system, kitchen garbage handles unit 4 and building rubbish and handles unit 3 and link to each other, filtration liquid processing system still handles unit 4 with kitchen garbage, cement kiln 1 links to each other, the mechanical grate stove still links to each other with exhaust-heat boiler, exhaust-heat boiler still links to each other with turbo generator and cement kiln 1.

The garbage in the garbage storage bin is sent into a mechanical grate furnace for combustion, high-temperature flue gas generated by incineration is sent into a grate cooler high-temperature section of a cement kiln system after heat exchange with a waste heat boiler, and is sent into a decomposing furnace of the cement kiln system after heat exchange with cement clinker, and steam generated in the waste heat boiler drags a turbine generator to generate electricity through a steam turbine; leachate generated by the garbage stockpiling is treated by a leachate treatment system, effluent is used as industrial water in a plant area, and membrane concentrated solution is sent to a cement kiln 1 for atomization and incineration; and the residues after the garbage combustion are sent to a cement kiln raw material batching station to participate in batching and grinding to form raw material powder.

The preferred of this embodiment, building rubbish disposes unit 3 is including receiving factory building, bar sieve, air separator, bounce sieve, jaw breaker, de-ironing separator and counterattack formula breaker, and building rubbish connects gradually bar sieve, air separator, jaw breaker, de-ironing separator and counterattack formula breaker after receiving the factory building, and bar sieve, air separator and jaw breaker all link to each other with the bounce sieve, and the bounce sieve still links to each other with the rubbish storage storehouse of domestic waste disposal unit 2.

Building garbage of a receiving factory building is sent into a bar screen for screening, then oversize materials are sent into a winnowing machine for separating large light materials, residual aggregate enters a jaw crusher, undersize materials of the bar screen and the large light materials separated by wind enter a bouncing screen for separating, the materials separated by the bouncing screen are small light materials, small heavy materials and finished products, the separated small heavy materials and the large heavy materials separated by the winnowing machine are conveyed to a finished product stacking area through processing equipment such as the jaw crusher, an iron remover, a counterattack crusher and the like, and the separated small light materials (combustible materials) and the large combustible materials removed when entering the factory are directly conveyed to a garbage storage bin of a household garbage disposal unit 2.

Preferably, the kitchen waste disposal unit 4 comprises a receiving hopper, a spiral dehydrator, an inert separation device, a slurry slag remover, a slurry heating tank, a hot oil feed pump and a three-phase oil extraction machine, the kitchen waste receiving hopper and the kitchen waste receiving hopper sequentially pass through the spiral dehydrator after passing through the receiving hopper, the inert separation device, the slurry slag remover, the slurry heating tank, the hot oil feed pump and the three-phase oil extraction machine, the receiving hopper and the spiral dehydrator are connected with a waste storage bin, the inert separation device, the slurry slag remover and the three-phase oil extraction machine are connected with the cement kiln 1, and the receiving hopper and the three-phase oil extraction machine are further connected with a leachate treatment system.

Inorganic impurities in the kitchen waste received by the hopper are separated and then enter a waste storage bin of the household waste disposal unit 2, solid-liquid rough separation of the rest waste is realized through a spiral dehydrator, a solid phase (extruded solid materials generated by the spiral dehydrator) is sent to the waste storage bin of the household waste disposal unit 2, a liquid phase realizes separation of organic matters and inorganic matters through an inert separation device (such as an oil-water separator), after sandy soil is separated from organic slurry through a slurry slag remover, grease with additional values is separated through a slurry heating tank and a three-phase oil extractor and stored and sold, sediments such as sandy soil generated by the inert separation device, the slurry slag remover and the three-phase oil extractor are sent to a cement kiln, and waste water separated by the three-phase oil extractor and hopper draining generated by the receiving hopper are sent to a percolate treatment system of the household waste disposal unit 2 for further treatment.

Preferably, the hazardous waste disposal unit includes a liquid hazardous waste disposal subunit, a semi-solid hazardous waste disposal subunit and a solid hazardous waste disposal subunit, the liquid hazardous waste disposal subunit, the semi-solid hazardous waste disposal subunit and the solid hazardous waste disposal subunit are all connected to the cement kiln 1, and the solid hazardous waste disposal subunit includes a mixer connected to the liquid hazardous waste disposal subunit and the semi-solid hazardous waste disposal subunit.

The preferred, liquid hazardous waste handles subunit includes waste liquid storage tank, pneumatic diaphragm pump and first valve, and the waste liquid storage tank links to each other with pneumatic diaphragm pump, and pneumatic diaphragm pump switches through first valve and links to each other with cement kiln 1 and blender respectively.

The liquid hazardous waste is divided into high-calorific-value waste liquid and low-calorific-value waste liquid, the high-calorific-value waste liquid is directly atomized by a pneumatic diaphragm pump and is sent into the cement kiln 1 for incineration, and the low-calorific-value waste liquid is pumped into the solid hazardous waste disposal subunit mixer through a switching valve.

In this embodiment, the semisolid hazardous waste disposal subunit preferably includes a feeding grid, a first storage bin, a screw conveyor, a first plunger pump and a second valve, the semisolid hazardous waste sequentially passes through the first storage bin, the screw conveyor and the first plunger pump, the feeding grid is arranged in the first storage bin, the blocked solid waste of the feeding grid enters a mixer, and the waste material falling from the feeding grid enters the screw conveyor; the waste passing through the plunger pump is sent to the cement kiln 1 and the mixer through the second valve, respectively.

The semi-solid dangerous waste is directly conveyed into a storage bin by a special vehicle, a feeding grid is arranged in the storage bin to prevent large sundries from entering, the waste below the grid enters a screw conveyor from a discharging port, one path of the waste enters a cement kiln 1 to be incinerated after being conveyed to a plunger pump, and the other path of the waste and the large sundries are conveyed into a solid dangerous waste disposal subunit mixer.

The preferred of this embodiment, solid-state hazardous waste handles subelement includes second storage bin, the lifting machine, explosion-proof sealed cabin and first breaker, first breaker links to each other with the blender, first breaker still links to each other with solid-state storehouse, solid-state storehouse links to each other with cement kiln 1, solid-state hazardous waste passes through second storage bin, lifting machine, explosion-proof sealed cabin and first breaker in proper order, solid-state storehouse and blender are sent into respectively to the discarded object through first breaker, the discarded object in the solid-state storehouse is sent to cement kiln 1.

The solid hazardous waste is conveyed to an explosion-proof sealed bin by a lifter, is crushed in a first crusher, is conveyed to a solid bin and then is conveyed into a cement kiln 1 for incineration, and is conveyed to a mixer to be mixed with the liquid and semi-solid hazardous waste and then is sprayed into the cement kiln 1 for incineration.

Preferably, the sludge disposal unit 6 comprises a wet sludge disposal sub-unit and a dry sludge disposal sub-unit; the wet sludge treatment subunit is connected with the cement kiln, and the dry sludge subunit is connected with a mechanical grate furnace of the household garbage treatment unit; the wet sludge disposal subunit comprises a wet sludge bin, a first hydraulic sliding frame, a double-screw feeder and a second plunger pump; the dry sludge disposal subunit comprises a dry sludge bin, a second hydraulic sliding frame, a second crusher and a furnace front sludge bin.

After wet sludge sent into wet sludge storehouse, prevent mud siltation at the bottom of the storehouse through the reciprocating motion of first hydraulic pressure balladeur train, mud gets into the discharge opening under the effect of first hydraulic pressure balladeur train, goes to cement kiln 1 and burns in the double helix batcher carries to second plunger pump (being the horizontal bar floodgate plunger pump in this embodiment). After the dry sludge enters the dry sludge bin, the sludge in the bin is driven to slide into the second crusher through the second hydraulic sliding frame to be crushed, the crushed sludge is conveyed to the stokehole sludge bin, the sludge in the stokehole sludge bin is conveyed into the mechanical fire grate furnace, and the mixed incineration of the sludge and the garbage is realized.

The green building material circulation industrial park couples a cement kiln 1 with a household garbage disposal unit 2, a construction garbage disposal unit 3, a kitchen garbage disposal unit 4, a dangerous waste disposal unit 5 and a sludge disposal unit 6, combustible materials are sent to the household garbage disposal unit 2 in the cooperative disposal process, the construction garbage is incombustible and serves as a cement raw material, the disposed kitchen garbage is sent into the cement kiln 1 and the household garbage disposal unit 2 respectively, the dangerous waste is sent into the cement kiln 1 after disposal, the sludge is sent into the cement kiln 1 and the household garbage disposal unit 2 respectively after disposal, the units in the industrial park can be operated independently or cooperatively, the solid waste closed loop disposal of the household garbage, the construction garbage, the kitchen garbage, the dangerous waste and the sludge is realized, and zero emission is realized.

Through the green building materials circulation industry garden system of this embodiment, on the basis that relies on the cement kiln, through domestic waste processing unit, building waste processing unit, kitchen garbage processing unit, dangerous waste processing unit and sludge disposal unit respectively handle different types of rubbish, each rubbish processing unit both can independently operate according to income garden waste and kiln line input volume, also can function in coordination, realize domestic waste, building waste, kitchen waste, dangerous waste and sludge closed loop and handle, the processing process does not produce the intermediate product, except that a small amount of finished products that have the added value leave the garden, all obtain innocent treatment and utilization, both solved the environmental problem, the utilization of the resourceful of wastes material has been realized again.

In the previous description, numerous specific details were set forth in order to provide a thorough understanding of the invention. The foregoing description is only illustrative of the preferred embodiments of the invention, which can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. All the contents that do not depart from the technical solution of the present invention, any simple modification, equivalent change and modification made to the above embodiments according to the technical substance of the present invention all still belong to the protection scope of the technical solution of the present invention.

Claims (11)

1. The utility model provides a green building materials circulation industrial park system which characterized in that: this green building materials circulation industrial park system relies on cement kiln, handle unit, kitchen garbage including domestic waste and handle unit, building garbage and handle unit, hazardous waste handles unit and mud and handles the unit, and building garbage handles the unit and handles unit and cement kiln with domestic waste and links to each other, and the finished product material after handling sends into the cement kiln as cement raw materials, kitchen garbage handles the unit and handles unit and cement kiln with domestic waste respectively and links to each other, hazardous waste handles the unit and links to each other with the cement kiln, mud is handled the unit and is linked to each other with cement kiln and domestic waste handle unit.

2. The green building materials recycling industry park system of claim 1, wherein: domestic waste handles the unit and includes rubbish warehouse, mechanical grate furnace, exhaust-heat boiler, filtration liquid processing system, odor treatment system and turbo generator, the rubbish warehouse links to each other with filtration liquid processing system, mechanical grate furnace, odor treatment system, kitchen garbage processing unit and building rubbish processing unit respectively, filtration liquid processing system still handles unit, cement kiln with kitchen garbage and links to each other, mechanical grate furnace still links to each other with exhaust-heat boiler, exhaust-heat boiler still links to each other with turbo generator and cement kiln.

3. The green building materials recycling industry park system of claim 1, wherein: building rubbish disposes unit is including receiving factory building, bar sieve, air separator, bounce sieve, jaw breaker, de-ironing separator and reaction breaker, and building rubbish connects gradually bar sieve, air separator, jaw breaker, de-ironing separator and reaction breaker after receiving the factory building, bar sieve, air separator and jaw breaker all link to each other with the bounce sieve, the bounce sieve still stores up the storehouse with domestic waste disposal unit's rubbish and links to each other.

4. The green building materials recycling industry park system of claim 1, wherein: kitchen garbage processing unit is including receiving hopper, screw dehydrator, inertia separator, thick liquid slagging-off machine, thick liquids heating tank, hot oil charge pump and three-phase oil extractor, and kitchen, kitchen garbage are received the hopper and are passed through screw dehydrator, inertia separator, thick liquid slagging-off machine, thick liquids heating tank, hot oil charge pump and three-phase oil extractor in proper order after receiving the hopper, it links to each other with rubbish storage bin to receive hopper and screw dehydrator, inertia separator, thick liquid slagging-off machine and three-phase oil extractor link to each other with the cement kiln, it still links to each other with filtration liquid processing system to receive hopper and three-phase oil extractor.

5. The green building materials recycling industry park system of claim 1, wherein: the hazardous waste disposal unit comprises a liquid hazardous waste disposal subunit, a semi-solid hazardous waste disposal subunit and a solid hazardous waste disposal subunit, wherein the liquid hazardous waste disposal subunit, the semi-solid hazardous waste disposal subunit and the solid hazardous waste disposal subunit are all connected with the cement kiln, the solid hazardous waste disposal subunit comprises a mixer, and the mixer is connected with the liquid hazardous waste disposal subunit and the semi-solid hazardous waste disposal subunit.

6. The green building materials recycling industry park system of claim 5, wherein: the liquid hazardous waste disposal subunit comprises a waste liquid storage tank, a pneumatic diaphragm pump and a first valve, wherein the waste liquid storage tank is connected with the pneumatic diaphragm pump, and the pneumatic diaphragm pump is switched by the first valve and is respectively connected with the cement kiln and the mixer.

7. The green building materials recycling industry park system of claim 5, wherein: the semi-solid hazardous waste disposal sub-unit comprises a feeding grid, a first storage bin, a screw conveyor, a first plunger pump and a second valve, the semi-solid hazardous waste sequentially passes through the first storage bin, the screw conveyor and the first plunger pump, the feeding grid is arranged in the first storage bin, blocked solid waste of the feeding grid enters a mixer, and waste falling from the feeding grid enters the screw conveyor; the waste passing through the first plunger pump is respectively sent to the cement kiln and the mixer through a second valve.

8. The green building materials recycling industry park system of claim 5, wherein: solid-state hazardous waste handles subelement includes second warehouse, lifting machine, explosion-proof sealed cabin and first breaker, first breaker links to each other with the blender, and first breaker still links to each other with solid-state storehouse, and solid-state storehouse links to each other with the cement kiln, and solid-state hazardous waste passes through second warehouse, lifting machine, explosion-proof sealed cabin and first breaker in proper order, and the discarded object that advances first breaker sends into solid-state storehouse and blender respectively, and the discarded object in the solid-state storehouse is sent to the cement kiln.

9. The green building materials recycling industry park system of claim 1, wherein: the sludge disposal unit comprises a wet sludge disposal subunit and a dry sludge disposal subunit, the wet sludge disposal subunit is connected with the cement kiln, and the dry sludge disposal subunit is connected with the mechanical grate furnace of the domestic garbage disposal unit.

10. The green building materials recycling industry park system of claim 9, wherein: wet sludge handles subelement and includes wet sludge bin, first hydraulic pressure balladeur train, double screw feeder and second plunger pump, and wet sludge gets into the cement kiln behind wet sludge bin, first hydraulic pressure balladeur train, double screw feeder and the second plunger pump in proper order, dry sludge handles subelement and includes dry sludge bin, second hydraulic pressure balladeur train, second breaker and stokehold sludge bin, and dry sludge gets into the mechanical grate stoker of domestic waste processing unit behind dry sludge bin, second hydraulic pressure balladeur train, second breaker and the stokehold sludge bin in proper order.

11. The green building material recycling industrial park system according to claim 1, wherein the green building material recycling industrial park couples the cement kiln with the household garbage disposal unit, the building garbage disposal unit, the kitchen garbage disposal unit, the hazardous waste disposal unit and the sludge disposal unit, the combustible material is sent to the household garbage disposal unit in the cooperative disposal process, the building garbage is incombustible and serves as a cement raw material, the disposed kitchen garbage is sent to the cement kiln and the household garbage disposal unit respectively, the hazardous waste is sent to the cement kiln after disposal, the sludge is sent to the cement kiln and the household garbage disposal unit respectively after disposal, the disposal units in the industrial park can operate independently or cooperatively, the closed loop of solid waste disposal such as the household garbage, the building garbage, the kitchen garbage, the hazardous waste and the sludge is realized, and zero emission is realized.

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