CN208857128U - A kind of air energy thermal solution sludge dehydration device - Google Patents
A kind of air energy thermal solution sludge dehydration device Download PDFInfo
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- CN208857128U CN208857128U CN201821542086.0U CN201821542086U CN208857128U CN 208857128 U CN208857128 U CN 208857128U CN 201821542086 U CN201821542086 U CN 201821542086U CN 208857128 U CN208857128 U CN 208857128U
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- Prior art keywords
- sludge
- water
- broken wall
- pyrolysis
- hot steam
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W10/00—Technologies for wastewater treatment
- Y02W10/40—Valorisation of by-products of wastewater, sewage or sludge processing
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- Treatment Of Sludge (AREA)
Abstract
The utility model discloses a kind of air energy thermal solution sludge dehydration devices, and the pyrolysis broken wall mechanism including pedestal, on pedestal, the water for providing hot steam to pyrolysis broken wall mechanism set on pedestal side recycle hot steam organization of supply and the emulsification mechanism below pyrolysis broken wall mechanism;Pyrolysis broken wall mechanism is passed sequentially through to carry out pyrolysis brokenly bubble to sludge and be demulsified to the sludge after pyrolysis by emulsifying mechanism, it is pyrolyzed broken wall mechanism and provides hot steam by water circulation hot steam organization of supply, using the condensed water and hot wind progress heat exchange generation hot steam in water tank, and recycle the recycling of the water in drum.The utility model, which can be realized, carries out systematization processing to sludge, realizes the recycling of water resource, reduces production cost, saves water resource.
Description
Technical field
The utility model relates to technical field of sludge treatment, and in particular to a kind of air energy thermal solution sludge dehydration device.
Background technique
Urban wastewater treatment firm annual produced sludge quantity in China's has broken through 30,000,000 tons.The status of sludge treatment is filled out for 63%
It buries;Aerobic fermentation agricultural about 13.5%;Burning accounts for about 1.8%;Remaining is nature desiccation air storage etc., 80% or more sludge
Do not disposed properly.The secondary pollution of sludge has become environmental problem and social concern urgently to be resolved, and at present
Perplex a serious and urgent problem of city healthy and rapid development.
Pyrolyzing sludge is a kind of emerging sludge hot disposing technique, utilizes the thermal instability of organic matter, in anaerobic or
It is thermally decomposed under anoxia condition, forms the process of gas, liquid and solid residue.Use traditional pyrolyzing sludge processing mode
Inefficient, high pollution can not carry out the processing of systematization to sludge.
Therefore, how providing a kind of can be this to the air energy thermal solution sludge dehydration device of sludge progress systematization processing
One of field technical staff technical problem to be solved.
Summary of the invention
The goal of the invention of the utility model is to provide a kind of air energy thermal solution sludge dehydration device, to solve the prior art
The technical issues of sludge heat treatment process can not carry out systematization processing to sludge.
To achieve the above object of the invention, the technical solution adopted in the utility model is: a kind of air energy thermal solution sludge dewatering
Device, being pyrolyzed broken wall mechanism, providing hot steam to pyrolysis broken wall mechanism set on pedestal side including pedestal, on pedestal
Water circulation hot steam organization of supply and set on pyrolysis broken wall mechanism below emulsification mechanism;
The pyrolysis broken wall mechanism includes pyrolyzing sludge broken wall chamber on its interior and is located at outside pyrolyzing sludge broken wall chamber
The preheater enclosed, the top of the pyrolysis broken wall mechanism is equipped with one and is connected to the intracavitary sludge import of pyrolyzing sludge broken wall, described
The lower section of pyrolysis broken wall mechanism is equipped with one and is connected to the intracavitary sludge outlet of pyrolyzing sludge broken wall, described to be pyrolyzed the one of broken wall mechanism
Side is equipped with the hot steam entrance that is connected in preheater, and the pyrolyzing sludge broken wall is intracavitary to be interspersed with a hot steam conduit, described
The other end of hot steam conduit is pierced by the outside of pyrolysis broken wall mechanism, and the hot steam entrance and hot steam conduit are all connected to heat
Steam suppling tube road;
The side of the top of the emulsification mechanism is equipped with pyrolysis sludge inlet, and the lower section of the emulsification mechanism is dirty far from pyrolysis
The side of mud entrance is equipped with demulsification sludge outlet, and the pyrolysis sludge inlet is connected with sludge outlet, and the demulsification sludge goes out
The external dewatering device of mouth;
The side of the separate hot steam entrance of the pyrolysis broken wall mechanism is equipped with the first condensed water being connected in preheater
Outlet, the lower section of the pyrolysis broken wall mechanism are equipped at least one and are connected to intracavitary second condensation-water drain of pyrolyzing sludge broken wall,
The lower section of the emulsification mechanism is equipped at least one and is connected to emulsification third condensation-water drain within the organization, first condensed water
Outlet, the second condensation-water drain and third condensation-water drain are delivered to a water tank through a condensed water conveyance conduit;
The hot steam outlet of the water circulation hot steam organization of supply is connected to hot steam feeding pipe, the water cycling hot
The water inlet of steam organization of supply is connected in water tank through an automatic water supplement mechanism.
In above-mentioned technical proposal, the hot steam conduit is located at the intracavitary one end of pyrolyzing sludge broken wall equipped with a spherical hair
Mechanism is dissipated, so that hot steam dissipates around.
In above-mentioned technical proposal, one side of emulsification mechanism self-pyrolysis sludge inlet dips down to demulsification sludge outlet side
Tiltedly.
In above-mentioned technical proposal, set that there are two be connected to pyrolyzing sludge broken wall intracavitary the below the pyrolysis broken wall mechanism
Two condensation-water drains, two the second condensation-water drains are respectively arranged on the two sides below pyrolysis broken wall mechanism.
In above-mentioned technical proposal, set that there are two be connected to emulsification third condensed water within the organization below the emulsification mechanism
Outlet, two third condensation-water drains are respectively arranged on the two sides below emulsification mechanism.
In above-mentioned technical proposal, the water tank is set on the left of pyrolysis broken wall mechanism, and the condensed water conveyance conduit is from base
It passes through and is connected on water tank below frame.
In above-mentioned technical proposal, the condensed water conveyance conduit is equipped with a valve.
In above-mentioned technical proposal, the water circulation hot steam organization of supply includes shell, and the top of the shell is equipped with heat
Wind inlet and carbonated drink outlet, the lower section of the shell are equipped with hot-blast outlet and water inlet, and the interior of shell is equipped with connection hot wind
Import and the hot air duct of hot-blast outlet and the carbonated drink for being connected to carbonated drink outlet and water inlet generate pipeline, the hot air duct and
Carbonated drink generates pipeline and constitutes heat-exchange system inside the shell, and the water inlet is connected in water tank through being automatically replenished mechanism;
It further include a drum, the top of the drum is equipped with the hot steam outlet connecting with hot steam feeding pipe, side
Equipped with the carbonated drink entrance with carbonated drink outlet, lower section is equipped with the water out being connected to water inlet.
In above-mentioned technical proposal, the automatic water supplement mechanism is automatic water pump.
Since above-mentioned technical proposal is used, the utility model has the advantage that compared with prior art
1. the utility model recycles hot steam organization of supply in hot steam feeding pipe side setting water, hot wind and storage are utilized
Condensed water in water pot carries out heat exchange type into steam water interface, then forms hot steam through drum and be transported to pyrolysis broken wall mechanism
In, the water generated in drum flows back into carbonated drink and generates pipeline realization recycling, realizes condensed water and middle water recycling and reusing, drops
Low cost, has saved water resource;
2. the utility model carries out pyrolysis brokenly bubble to sludge by pyrolysis broken wall mechanism, then by emulsification mechanism to brokenly bubble after
Sludge carry out demulsification processing, can be realized to sludge carry out systematization processing;
3. preheater is arranged in pyrolyzing sludge broken wall chamber periphery in the pyrolysis broken wall mechanism of the utility model, external by introducing
Hot steam carries out cavity preheating, and is added by the way that the intracavitary hot steam conduit importing hot steam of pyrolyzing sludge broken wall is arranged in
Heat realizes the pyrolysis brokenly bubble of sludge, not only accelerates efficiency of sludge treatment, but also reduce investment and operating cost.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model embodiment one.
Wherein: 1, pedestal;2, it is pyrolyzed broken wall mechanism;3, water recycles hot steam organization of supply;4, mechanism is emulsified;5, sludge hot
Solve broken wall chamber;6, preheater;7, sludge import;8, sludge outlet;9, hot steam entrance;10, hot steam conduit;11, pyrolysis is dirty
Mud entrance;12, be demulsified sludge outlet;13, the first condensation-water drain;14, the second condensation-water drain;15, third condensation-water drain;
16, water tank;17, it is automatically replenished mechanism;18, spherical diverging mechanism;19, valve;20, shell;21, hot wind inlet;22, carbonated drink
Outlet;23, hot-blast outlet;24, water inlet;25, drum.
Specific embodiment
The utility model is further described with reference to the accompanying drawings and embodiments:
Embodiment one:
It is shown in Figure 1, a kind of air energy thermal solution sludge dehydration device, the pyrolysis broken wall including pedestal 1, on pedestal
Mechanism 2 provides the water circulation hot steam organization of supply 3 of hot steam to pyrolysis broken wall mechanism and set on heat set on pedestal side
Solve the emulsification mechanism 4 below broken wall mechanism;
The pyrolysis broken wall mechanism includes pyrolyzing sludge broken wall chamber 5 on its interior and is located at outside pyrolyzing sludge broken wall chamber
The preheater 6 enclosed, the top of the pyrolysis broken wall mechanism are equipped with one and are connected to the intracavitary sludge import 7 of pyrolyzing sludge broken wall, institute
The lower section for stating pyrolysis broken wall mechanism is equipped with one and is connected to the intracavitary sludge outlet 8 of pyrolyzing sludge broken wall, the pyrolysis broken wall mechanism
Side be equipped with the hot steam entrance 9 that is connected in preheater, the pyrolyzing sludge broken wall is intracavitary to be interspersed with a hot steam conduit
10, the other end of the hot steam conduit is pierced by the outside of pyrolysis broken wall mechanism, and the hot steam entrance and hot steam conduit are equal
It is connected to hot steam feeding pipe;
The side of the top of the emulsification mechanism is equipped with pyrolysis sludge inlet 11, and the lower section of the emulsification mechanism is far from pyrolysis
The side of sludge inlet is equipped with demulsification sludge outlet 12, and the pyrolysis sludge inlet is connected with sludge outlet, and the demulsification is dirty
Mud exports external dewatering device;
The side of the separate hot steam entrance of the pyrolysis broken wall mechanism is equipped with the first condensed water being connected in preheater
Outlet 13, the lower section of the pyrolysis broken wall mechanism are equipped at least one and are connected to intracavitary second condensation-water drain of pyrolyzing sludge broken wall
14, the lower section of the emulsification mechanism is connected to equipped at least one emulsifies third condensation-water drain 15 within the organization, and described first
Condensation-water drain, the second condensation-water drain and third condensation-water drain are delivered to a water tank 16 through a condensed water conveyance conduit;
The hot steam outlet of the water circulation hot steam organization of supply is connected to hot steam feeding pipe, the water cycling hot
The water inlet of steam organization of supply is connected in water tank through an automatic water supplement mechanism 17.
Above, the settable blade being driven by motor carries out in the cavity of the pyrolysis broken wall mechanism and emulsification mechanism
Stirring.
In the present embodiment, the hot steam conduit is located at the intracavitary one end of pyrolyzing sludge broken wall equipped with a spherical transmitter
Structure 18 is uniformly densely covered with multiple divergence holes thereon, so that hot steam dissipates around, convenient for the intracavitary sludge of pyrolyzing sludge broken wall
It is heated evenly.
In the present embodiment, one side of emulsification mechanism self-pyrolysis sludge inlet is sloped downwardly to demulsification sludge outlet one.
In the present embodiment, the water tank is set on the left of pyrolysis broken wall mechanism, and the condensed water conveyance conduit is under pedestal
Side passes through and is connected on water tank, and a suction pump can be set in water tank, and condensed water is pumped into water tank.
In the present embodiment, the condensed water conveyance conduit is equipped with a valve 19, can control condensed water conveyance conduit
On-off.
In the present embodiment, the water circulation hot steam organization of supply includes shell 20, and the top of the shell is equipped with hot wind
Import 21 and carbonated drink outlet 22, the lower section of the shell are equipped with hot-blast outlet 23 and water inlet 24, and the interior of shell, which is equipped with, to be connected
Lead to hot wind inlet and the hot air duct of hot-blast outlet and the carbonated drink generation pipeline for being connected to carbonated drink outlet with water inlet, the hot wind
Pipeline and carbonated drink generate pipeline and constitute heat-exchange system inside the shell, and the water inlet is connected to water tank through being automatically replenished mechanism
In;
It further include a drum 25, the top of the drum is equipped with the hot steam outlet connecting with hot steam feeding pipe, side
Face is equipped with the carbonated drink entrance with carbonated drink outlet, and lower section is equipped with the water out being connected to water inlet.Wherein, hot wind inlet and vapour
Water out is located at the two sides of shell, and hot-blast outlet and water inlet are located at the two sides of shell.
In the present embodiment, the automatic water supplement mechanism is automatic water pump, and the condensed water in water tank is pumped into carbonated drink and is produced
Raw pipeline forms gas-vapor mix.
The foregoing description of the disclosed embodiments can be realized professional and technical personnel in the field or using originally practical new
Type.A variety of modifications of above-described embodiment will be readily apparent to those skilled in the art, determine herein
The General Principle of justice can be realized in other embodiments without departing from the spirit or scope of the present utility model.Cause
This, the utility model is not intended to be limited to above-described embodiment shown in this article, and is to fit to and principles disclosed herein
The widest scope consistent with features of novelty.
Claims (9)
1. a kind of air energy thermal solution sludge dehydration device, it is characterised in that: the pyrolysis wall-breaking machine including pedestal, on pedestal
Structure is broken set on pedestal side to the water circulation hot steam organization of supply for being pyrolyzed broken wall mechanism offer hot steam and set on pyrolysis
Emulsification mechanism below wall mechanism;
The pyrolysis broken wall mechanism includes pyrolyzing sludge broken wall chamber on its interior and positioned at pyrolyzing sludge broken wall chamber periphery
Preheater, the top of the pyrolysis broken wall mechanism are equipped with one and are connected to the intracavitary sludge import of pyrolyzing sludge broken wall, the pyrolysis
The lower section of broken wall mechanism is equipped with one and is connected to the intracavitary sludge outlet of pyrolyzing sludge broken wall, and the side of the pyrolysis broken wall mechanism is set
There is the hot steam entrance being connected in preheater, the pyrolyzing sludge broken wall is intracavitary to be interspersed with a hot steam conduit, and the heat is steamed
The other end of vapour conduit is pierced by the outside of pyrolysis broken wall mechanism, and the hot steam entrance and hot steam conduit are all connected to hot steam
Feeding pipe;
The side of the top of the emulsification mechanism is equipped with pyrolysis sludge inlet, and the lower section of the emulsification mechanism enters far from pyrolysis sludge
The side of mouth is equipped with demulsification sludge outlet, and the pyrolysis sludge inlet is connected with sludge outlet, outside the demulsification sludge outlet
Connect dewatering device;
The side of the separate hot steam entrance of the pyrolysis broken wall mechanism is equipped with the first condensation-water drain being connected in preheater,
The lower section of the pyrolysis broken wall mechanism is equipped at least one and is connected to intracavitary second condensation-water drain of pyrolyzing sludge broken wall, the cream
The lower section for changing mechanism is connected to equipped at least one emulsifies third condensation-water drain within the organization, first condensation-water drain,
Second condensation-water drain and third condensation-water drain are delivered to a water tank through a condensed water conveyance conduit;
The hot steam outlet of the water circulation hot steam organization of supply is connected to hot steam feeding pipe, and the water recycles hot steam
The water inlet of organization of supply is connected in water tank through an automatic water supplement mechanism.
2. air energy thermal solution sludge dehydration device according to claim 1, it is characterised in that: the hot steam conduit is located at
The intracavitary one end of pyrolyzing sludge broken wall is equipped with a spherical diverging mechanism, so that hot steam dissipates around.
3. air energy thermal solution sludge dehydration device according to claim 1, it is characterised in that: emulsification mechanism self-pyrolysis
One side of sludge inlet is sloped downwardly to demulsification sludge outlet one.
4. air energy thermal solution sludge dehydration device according to claim 1, it is characterised in that: the pyrolysis broken wall mechanism
Lower section is set there are two intracavitary second condensation-water drain of pyrolyzing sludge broken wall is connected to, and two the second condensation-water drains are respectively arranged on heat
Solve the two sides below broken wall mechanism.
5. air energy thermal solution sludge dehydration device according to claim 1, it is characterised in that: the lower section of the emulsification mechanism
If there are two emulsification third condensation-water drain within the organization is connected to, two third condensation-water drains are respectively arranged under emulsification mechanism
The two sides of side.
6. air energy thermal solution sludge dehydration device according to claim 1, it is characterised in that: the water tank is set to pyrolysis
On the left of broken wall mechanism, the condensed water conveyance conduit is passed through below pedestal and is connected on water tank.
7. air energy thermal solution sludge dehydration device according to claim 6, it is characterised in that: the condensed water conveyance conduit
It is equipped with a valve.
8. air energy thermal solution sludge dehydration device according to claim 1, it is characterised in that: the water circulation hot steam supplies
Answering mechanism includes shell, and the top of the shell is equipped with hot wind inlet and carbonated drink exports, and the lower section of the shell goes out equipped with hot wind
Mouthful and water inlet, the interior of shell be equipped with connection hot wind inlet and the hot air duct of hot-blast outlet and be connected to carbonated drink outlet with
The carbonated drink of water inlet generates pipeline, and the hot air duct and carbonated drink generate pipeline and constitutes heat-exchange system, the water inside the shell
Import is connected in water tank through being automatically replenished mechanism;
It further include a drum, the top of the drum is equipped with the hot steam outlet connecting with hot steam feeding pipe, and side is equipped with
With the carbonated drink entrance of carbonated drink outlet, lower section is equipped with the water out being connected to water inlet.
9. air energy thermal solution sludge dehydration device according to claim 1 or 8, it is characterised in that: the automatic water supplement machine
Structure is automatic water pump.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821542086.0U CN208857128U (en) | 2018-09-20 | 2018-09-20 | A kind of air energy thermal solution sludge dehydration device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821542086.0U CN208857128U (en) | 2018-09-20 | 2018-09-20 | A kind of air energy thermal solution sludge dehydration device |
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CN208857128U true CN208857128U (en) | 2019-05-14 |
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ID=66418721
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CN201821542086.0U Expired - Fee Related CN208857128U (en) | 2018-09-20 | 2018-09-20 | A kind of air energy thermal solution sludge dehydration device |
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CN (1) | CN208857128U (en) |
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2018
- 2018-09-20 CN CN201821542086.0U patent/CN208857128U/en not_active Expired - Fee Related
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190514 Termination date: 20200920 |
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CF01 | Termination of patent right due to non-payment of annual fee |