CN105823050B - A kind of energy-saving refuse disposal system - Google Patents

Abstract

The invention discloses the energy-saving refuse disposal system of kind, including：Garbage disposal furnace, the first air-introduced machine, water treatment plant, air blower, the second air-introduced machine, slag collection case, vacuum cleaner, dust dissolving tank and tail gas clean-up mechanism.In the present invention, by the ashes produced in garbage disposal furnace and clinker separating treatment, and tail gas make use of to carry out the dust separation in clinker to clinker, reduce the cost of dust separation in clinker, the processing of dust in flue dust in tail gas and clinker is combined into one again, both cost has been saved, has been improved efficiency.

Description

A kind of energy-saving refuse disposal system

Technical field

The present invention relates to technical field of waste treatment, more particularly to a kind of energy-saving refuse disposal system.

Background technology

Rubbish is the solid waste produced in mankind's daily life and production, and since discharge rate is big, complicated component is various, And with pollution, resource and social, it cannot such as deal carefully with, just pollute the environment, influence environmental sanitation, waste money Source, destroys production and living safety, destroys social harmony.Garbage disposal seeks to a rubbish and removes rapidly, and carries out innoxious place Reason, is finally reasonably utilized.

As environmental problem is gradually taken seriously, energy-saving and environmental protection become the development topic of various countries, have begun to as garbage disposal The chance of industry development is provided.Whole world rubbish average annual growth is 8.42%, and Chinese rubbish growth rate reach 10% with On.The whole world produces 4.9 hundred million tons of rubbish every year, and only China just produces nearly 1.5 hundred million tons of municipal refuses every year.Chinese city life rubbish Rubbish accumulates volume of cargo in storage up to 7,000,000,000 tons.Under so huge rubbish pressure, it is reason to believe that, MSW processing industry can become not Carry out domestic star's industry.

At present, mainly by the way of burning, the tail gas and waste residue that are produced in combustion process all include greatly for garbage disposal The flue dust and dust of amount, in order to avoid atmosphere pollution, it is necessary to which processing heel row is carried out to the dust in the flue dust and waste residue in tail gas Put, it is with high costs, it is complicated.

The content of the invention

Based on technical problem existing for background technology, the present invention proposes a kind of energy-saving refuse disposal system.

A kind of energy-saving refuse disposal system proposed by the present invention, including：Incineration furnace garbage treatment furnace, the first air-introduced machine, Water treatment plant, air blower, the second air-introduced machine, slag collection case, vacuum cleaner, dust dissolving tank and tail gas clean-up mechanism；

Incineration furnace garbage treatment furnace is equipped with feed inlet, air inlet, the first gas outlet, the second gas outlet and slag-drip opening；Into Gas port has preset distance apart from incineration furnace garbage processing furnace bottom, and the second gas outlet is arranged on above air inlet, the first gas outlet It is arranged on above the second gas outlet；

First gas outlet is connected by the first air-introduced machine and water treatment plant with air inlet, passes through one at blower outlet Ajutage is connected with incineration furnace garbage processing furnace bottom；

Slag-drip opening is connected by default ground-slag separating mechanism with the clinker input port of slag collection case, and the second gas outlet leads to The second air-introduced machine is crossed to connect with the tail gas input port of slag collection case；The tail gas delivery outlet of slag collection case and the input of vacuum cleaner Mouthful connection, the equipped at outlet port of vacuum cleaner are provided with dust removing tube, dust removing tube other end insertion dust dissolving tank and to be submerged in dust molten In Xie Chi in the liquid of filling；

The gas outlet of dust dissolving tank is connected with the input terminal of tail gas clean-up mechanism；

Incineration furnace garbage treatment furnace bottom can be by pouring into incineration furnace garbage treatment furnace, air blower after lighting flame by rubbish To incineration furnace garbage treatment furnace bottom input oxygen-containing gas, rubbish is from base burning；Rubbish in incineration furnace garbage treatment furnace by Burning position is up divided into oxide layer, reduction zone and destructive distillation layer according to temperature change；Reduction zone is by the decomposable asymmetric choice net material in rubbish Decompose, destructive distillation layer is evaporated the moisture in rubbish, and the first air-introduced machine produces reduction zone in incineration furnace garbage treatment furnace The mixed gas that the vapor that gas and destructive distillation layer produce is formed is drawn into water treatment plant imports oxide layer, oxide layer after water removal Discharged after the harmful substance high-temperature oxydation in mixed gas as tail gas；Clinker in incineration furnace garbage treatment furnace passes through deslagging Mouth is discharged into slag collection case；Tail gas is imported into slag collection case and under vacuum cleaner effect, carries the dust in slag collection case Into dust dissolving tank, the pure gaseous state tail gas of dust dissolving tank output is discharged after the purification of tail gas clean-up mechanism.

Preferably, water treatment plant includes cooler bin and gas-guide tube, and gas-guide tube is installed in cooler bin, its first end and first Gas outlet connects, its second end is connected with air inlet, filled with cooling medium in cooler bin.

Preferably, gas-guide tube is helix tube.

Preferably, the second gas outlet is connected by exhaust pipe with slag collection case, and the second air-introduced machine is installed on tail gas In delivery pipe, exhaust pipe is looped around incineration furnace garbage treatment furnace periphery.

Preferably, incineration furnace garbage processing furnace sidewall is equipped with observation window, and observation window is close to incineration furnace garbage treatment furnace Bottom is set.

Preferably, the clinker input port of slag collection case and tail gas delivery outlet are arranged on top, the tail gas of slag collection case Input port is arranged on bottom.

Preferably, crush box and utility box are further included, is both provided with tail gas delivery outlet on crush box and utility box, and with The input port connection of vacuum cleaner；Reducing mechanism, the clinker delivery outlet of slag collection case and the input of crush box are equipped with crush box Mouth connection, the delivery outlet of crush box are connected with the input port of utility box.

Preferably, the sorting mechanism classified through clinker according to diameter is equipped with utility box.

Preferably, sorting mechanism for helical duct or is obliquely installed and the material-dropping hole of different pore size is distributed with different zones Sieve plate.

Preferably, ajutage is looped around garbage disposal furnace periphery.

Energy-saving refuse disposal system proposed by the present invention, the decomposable asymmetric choice net material in rubbish are adequately broken in reduction zone, The intractability of harmful substance in rubbish is reduced, the tail gas that garbage processing procedure produces have passed through high temperature in oxide layer Oxidation, can avoid polluting air comprising harmful substance in tail gas.

In the present invention, by the ashes produced in garbage disposal furnace and clinker separating treatment, and the tail gas that oxide layer is exported Dust dissolving tank is imported after slag collection case, tail gas, with clinker collision impact, will include in slag collection case in clinker Dust raise, then carry dust after enter dust dissolving tank.Tail gas is because be to be discharged from oxide layer, inevitably in oxygen Change layer contamination flue dust, in of the invention, the residual dust included in clinker is carried out using the tail gas for originally carrying a small amount of flue dust Separation, then imports dust dissolving tank by the tail gas for carrying dust, disposably the dust and flue dust that are included in tail gas is carried out molten Solution.

The present invention make use of tail gas to carry out the dust separation in clinker to clinker, reduce dust separation in clinker into This, and the processing of dust in flue dust in tail gas and clinker is combined into one, cost has both been saved, has been improved efficiency.

Brief description of the drawings

Fig. 1 is a kind of energy-saving refuse disposal system structure diagram proposed by the present invention.

Embodiment

Reference Fig. 1, a kind of energy-saving refuse disposal system proposed by the present invention, including：Incineration furnace garbage treatment furnace 1, the One air-introduced machine 2, water treatment plant 3, air blower 4, the second air-introduced machine 5, slag collection case 6, crush box 13, utility box 14, vacuum cleaner 7th, dust dissolving tank 8 and tail gas clean-up mechanism A.

Incineration furnace garbage treatment furnace 1 is equipped with feed inlet, air inlet, the first gas outlet, the second gas outlet and slag-drip opening.Into Gas port has preset distance apart from 1 bottom of incineration furnace garbage treatment furnace, and the second gas outlet is arranged on above air inlet, the first gas outlet It is arranged on above the second gas outlet.

Rubbish can be poured into incineration furnace garbage treatment furnace by 1 bottom of incineration furnace garbage treatment furnace after lighting flame by feed inlet 1, the rubbish in incineration furnace garbage treatment furnace 1 is up divided into oxide layer, reduction zone and destructive distillation by burning position according to temperature change Layer.Oxide layer temperature highest, can aoxidize harmful substance, and reduction zone is decomposed the decomposable asymmetric choice net material in rubbish, destructive distillation layer Moisture in rubbish is evaporated to form vapor.In present embodiment, since rubbish is directly overlayed on flame, so burning It is not in fierce combustion system to burn in stove garbage disposal furnace 1, safe.Pass through an air-supply at 4 air outlet of air blower Pipe 9 is connected with 1 bottom of incineration furnace garbage treatment furnace, and air blower 4 is by ajutage 9 to 1 internal oxidation layer of incineration furnace garbage treatment furnace Bottom input oxygen-containing gas, to ensure that the sustained combustion of oxide layer rubbish provides high temperature, and ensures the harmful substance quilt in oxide layer It is fully oxidized.

In present embodiment, ajutage 9 is looped around garbage disposal furnace periphery, so as to oxygen-containing gas in ajutage 9 by rubbish Enter oxide layer after the preheating of 1 outer wall of rubbish treatment furnace, so as to avoid oxygen-containing gas low temperature input oxide layer from reducing oxide layer temperature.

First gas outlet is connected by the first air-introduced machine 2 and water treatment plant 3 with air inlet.In present embodiment, first goes out Gas port is located above destructive distillation layer, and the first air-introduced machine 2 is by the first gas outlet by the decomposition gas produced comprising reduction zone and destructive distillation The mixed gas for the vapor that layer produces is drawn into water treatment plant 3, after mixed gas is filtered out vapor in water treatment plant 3 Oxide layer is imported into by air inlet, so that the fuel gas in mixed gas burns in oxide layer, to improve oxide layer rubbish The speed of burning and abundant degree, the pernicious gas in mixed gas is in oxide layer complete oxidation.After oxide layer complete oxidation Tail gas is discharged under the effect of the second air-introduced machine 5 by the second gas outlet.

Water treatment plant 3 includes cooler bin 301 and gas-guide tube 302, and gas-guide tube 302 is installed in cooler bin 301, its first end Connected with the first gas outlet, its second end is connected with air inlet, filled with cooling medium in cooler bin 301.Mixed gas passes through After gas-guide tube 302, vapor therein condenses to the cold, so as to be separated.The mixed gas for isolating vapor enters oxygen After changing layer, the excessive adverse effect to combustion reaction of water content can be avoided.In present embodiment, in order to improve water rem oval, lead Tracheae 302 uses helix tube.

In present embodiment, air inlet is corresponding with oxide layer bottom, and the second gas outlet and oxide layer temperature highest point are for example Oxide layer top layer corresponds to, and so that the tail gas of the second gas outlet discharge has all been aoxidized completely in oxide layer, prevents pernicious gas Discharge.

In order to ensure air inlet, the second gas outlet and the stabilization of oxide layer relative position, it is necessary to which the clinker of furnace bottom is carried out Discharge in time, avoids oxide layer from moving up excessively.In present embodiment, 1 side wall of incineration furnace garbage treatment furnace is equipped with observation window, and Observation window 12 is set close to 1 bottom of incineration furnace garbage treatment furnace, in this way, the accumulation feelings of furnace bottom clinker can be observed by observation window Condition, so as to be discharged in time to clinker.In present embodiment, in order to avoid oxide layer temperature is scattered and disappeared from furnace bottom, it should keep Furnace bottom tiling has one layer of clinker or ashes to be kept the temperature.

In present embodiment, the power of the second air-introduced machine 5 is more than the power of the first air-introduced machine 2, i.e. incineration furnace garbage is handled It is big that the input flow velocity of oxygen-containing gas under velocity ratio air blower 4 acts on is discharged in stove 1 by the tail gas of the second gas outlet, in this way, protecting Hold 1 internal clock of incineration furnace garbage treatment furnace and maintain negative pressure state, avoid the pernicious gas high temperature in incineration furnace garbage treatment furnace 1 Overflowed after expansion and cause atmosphere pollution, and avoid explosives burning in incineration furnace garbage treatment furnace 1 from producing explosion.

Slag-drip opening is connected by the clinker input port of default ground-slag separating mechanism such as cyclone separator and slag collection case 6 Logical, the second gas outlet is connected by the second air-introduced machine 5 with the tail gas input port of slag collection case 6.In garbage disposal furnace 1, rubbish The ashes of dust-like and the clinker of solid granular are produced after burning, ashes and clinker enter ground-slag seperator by slag-drip opening Structure, ashes and clinker separate in ground-slag separating mechanism, and ashes are collected separately, clinker enter slag collection case 6 in into Row subsequent treatment.

The tail gas delivery outlet of the tail gas delivery outlet of slag collection case 6, the tail gas delivery outlet of crush box 13 and utility box 14 is equal Connected with the input port of vacuum cleaner 7, the equipped at outlet port of vacuum cleaner 7 is provided with dust removing tube 10,10 other end of dust removing tube insertion dust Dissolving tank 8 is simultaneously submerged in dust dissolving tank 8 in the liquid of filling.The gas outlet of dust dissolving tank 8 is with tail gas clean-up mechanism A's Input terminal connects；

Tail gas is imported into slag collection case 6 and under the effect of vacuum cleaner 7, carries and is remained in the clinker in slag collection case 6 Ashes, that is, dust enter dust dissolving tank 8, after the pure gaseous state tail gas that dust dissolving tank 8 exports is purified by tail gas clean-up mechanism A Discharge.

Reducing mechanism is equipped with crush box 13, the clinker delivery outlet of slag collection case 6 is connected with the input port of crush box 13, The delivery outlet of crush box 13 is connected with the input port of utility box 14.Clinker is in slag collection case 6 by most dust separation After going out, into crush box 13, the big clinker of diameter is crushed, and the dust produced in crush box 13 is equally led by vacuum cleaner 7 Enter in dust dissolving tank 8.

The sorting mechanism classified through clinker according to diameter is equipped with utility box 14, sorting mechanism can be helical duct, Clinker is on spirality channel in rolling process, and the clinker of different size diameter is influenced difference be subject to effect of inertia, so that right It is classified；Alternatively, sorting mechanism be arranged to be obliquely installed and different zones be distributed with different pore size material-dropping hole sieve plate, Such as the sieve aperture on sieve plate is sequentially increased from top to bottom, so as to different-diameter clinker in different zones blanking so as to separating.Point Dust in class case 14 is imported in dust dissolving tank 8 again by vacuum cleaner 7, fully to be divided the dust in clinker From.

Liquid in dust dissolving tank 8 dissolves dust, and it is net that tail gas overflows into tail gas clean-up mechanism A from liquid Discharged after change.Tail gas clean-up mechanism A can use high efficiency particulate air filter, or be filled using by drying device, adsorbent equipment, acid-base neutralization The composition such as put.

In present embodiment, the clinker input port of slag collection case 6 and tail gas delivery outlet are arranged on top, slag collection case 6 tail gas input port is arranged on bottom.In this way, in clinker dropping process, the abundant oxygen of dust, tail gas is so that bottom input is more right Dust is impacted, and is conducive to strengthen dust separation efficiency.Similarly, the tail gas of the tail gas delivery outlet of crush box 13 and utility box 14 Delivery outlet is also arranged at top.

In present embodiment, the second gas outlet is connected by exhaust pipe 11 with slag collection case 6, the second air-introduced machine 5 On exhaust pipe 11, exhaust pipe 11 is looped around 1 periphery of incineration furnace garbage treatment furnace.In this way, utilize high temperature tail Gas keeps the temperature incineration furnace garbage treatment furnace 1, can improve high temperature utilization rate, is conducive to reduction zone in incineration furnace garbage treatment furnace Decomposition reaction and oxide layer oxidation reaction.

The foregoing is only a preferred embodiment of the present invention, but protection scope of the present invention be not limited thereto, Any one skilled in the art the invention discloses technical scope in, technique according to the invention scheme and its Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims (9)

1. A kind of 1. energy-saving refuse disposal system, it is characterised in that including：Incineration furnace garbage treatment furnace (1), the first air-introduced machine (2), water treatment plant (3), air blower (4), the second air-introduced machine (5), slag collection case (6), vacuum cleaner (7), dust dissolving tank (8) With tail gas clean-up mechanism (A)；

   Incineration furnace garbage treatment furnace (1) is equipped with feed inlet, air inlet, the first gas outlet, the second gas outlet and slag-drip opening；Air inlet Mouth has preset distance apart from incineration furnace garbage treatment furnace (1) bottom, and the second gas outlet is arranged on above air inlet, the first gas outlet It is arranged on above the second gas outlet；

   First gas outlet is connected by the first air-introduced machine (2) and water treatment plant (3) with air inlet, is led at air blower (4) air outlet An ajutage (9) is crossed to connect with incineration furnace garbage treatment furnace (1) bottom；

   Slag-drip opening is connected by default ground-slag separating mechanism with the clinker input port of slag collection case (6), and the second gas outlet leads to The tail gas input port that the second air-introduced machine (5) is crossed with slag collection case (6) connects；The tail gas delivery outlet of slag collection case (6) is with inhaling The input port connection of dirt machine (7), the equipped at outlet port of vacuum cleaner (7) are provided with dust removing tube (10), the insertion of dust removing tube (10) other end Dust dissolving tank (8) is simultaneously submerged in dust dissolving tank (8) in the liquid of filling；

   The gas outlet of dust dissolving tank (8) is connected with the input terminal of tail gas clean-up mechanism (A)；

   Second gas outlet is connected by exhaust pipe (11) with slag collection case (6), and it is defeated that the second air-introduced machine (5) is installed on tail gas Send on pipe (11), exhaust pipe (11) is looped around incineration furnace garbage treatment furnace (1) periphery.
2. 2. energy-saving refuse disposal system as claimed in claim 1, it is characterised in that water treatment plant (3) includes cooler bin (301) it is installed on gas-guide tube (302), gas-guide tube (302) in cooler bin (301), its first end is connected with the first gas outlet, its Second end is connected with air inlet, filled with cooling medium in cooler bin (301).
3. 3. energy-saving refuse disposal system as claimed in claim 2, it is characterised in that gas-guide tube (302) is helix tube.
4. 4. energy-saving refuse disposal system as claimed in claim 1, it is characterised in that incineration furnace garbage treatment furnace (1) side wall Observation window is equipped with, and observation window (12) is set close to incineration furnace garbage treatment furnace (1) bottom.
5. 5. energy-saving refuse disposal system as claimed in claim 1, it is characterised in that the clinker input of slag collection case (6) Mouth and tail gas delivery outlet are arranged on top, and the tail gas input port of slag collection case (6) is arranged on bottom.
6. 6. energy-saving refuse disposal system as claimed in claim 1, it is characterised in that further include crush box (13) and utility box (14), tail gas delivery outlet is both provided with crush box (13) and utility box (14), and the input port with vacuum cleaner (7) connects； Reducing mechanism is equipped with crush box (13), the clinker delivery outlet of slag collection case (6) is connected with the input port of crush box (13), powder The delivery outlet of broken case (13) is connected with the input port of utility box (14).
7. 7. energy-saving refuse disposal system as claimed in claim 6, it is characterised in that be equipped with utility box (14) and pressed through clinker The directly sorting mechanism of footpath magnitude classification.
8. 8. energy-saving refuse disposal system as claimed in claim 7, it is characterised in that sorting mechanism is helical duct or inclines Tiltedly the sieve plate of the material-dropping hole of different pore size is distributed with setting and different zones.
9. 9. energy-saving refuse disposal system as claimed in claim 1, it is characterised in that ajutage (9) is looped around garbage disposal Stove periphery.