CN111302594A - Sludge dewatering treatment equipment and treatment method - Google Patents
Sludge dewatering treatment equipment and treatment method Download PDFInfo
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- CN111302594A CN111302594A CN201911296586.XA CN201911296586A CN111302594A CN 111302594 A CN111302594 A CN 111302594A CN 201911296586 A CN201911296586 A CN 201911296586A CN 111302594 A CN111302594 A CN 111302594A
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- sludge
- shell
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- heating cavity
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- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F11/00—Treatment of sludge; Devices therefor
- C02F11/12—Treatment of sludge; Devices therefor by de-watering, drying or thickening
- C02F11/13—Treatment of sludge; Devices therefor by de-watering, drying or thickening by heating
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23G—CREMATION FURNACES; CONSUMING WASTE PRODUCTS BY COMBUSTION
- F23G7/00—Incinerators or other apparatus for consuming industrial waste, e.g. chemicals
- F23G7/001—Incinerators or other apparatus for consuming industrial waste, e.g. chemicals for sludges or waste products from water treatment installations
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23G—CREMATION FURNACES; CONSUMING WASTE PRODUCTS BY COMBUSTION
- F23G2209/00—Specific waste
- F23G2209/12—Sludge, slurries or mixtures of liquids
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- Engineering & Computer Science (AREA)
- Environmental & Geological Engineering (AREA)
- Water Supply & Treatment (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Life Sciences & Earth Sciences (AREA)
- Hydrology & Water Resources (AREA)
- Chemical & Material Sciences (AREA)
- Organic Chemistry (AREA)
- Treatment Of Sludge (AREA)
Abstract
The invention discloses sludge dewatering treatment equipment and a sludge dewatering treatment method, wherein the treatment equipment comprises a conveying mechanism, the conveying mechanism comprises a packing auger, the diameter of the end part of the packing auger is gradually reduced to form an extrusion part, and the end part of the extrusion part is provided with a sludge nozzle; the conveying mechanism is connected with a sludge ball rolling mechanism, the sludge ball rolling mechanism comprises a cylindrical shell, an extrusion part extends into the shell, and the projection of the axis of the sludge nozzle is positioned on the eccentric chord of the projection of the shell; the side wall of the shell is provided with a hot air nozzle, and the outlet of the hot air nozzle is positioned below the sludge nozzle; the heating cavity connected with the shell is arranged around the outer portion of the packing auger, a first fan is arranged at the top end of the shell, the first fan is connected with an air guide pipe, and the air guide pipe 14 is communicated with the heating cavity. The beneficial effects of this scheme can learn according to the statement to above-mentioned scheme, simple structure, reasonable in design not only makes mud obtain the stoving, makes the smoke and dust of the heat energy equipment of stoving mud obtain purifying moreover, makes the germ in the mud eliminate again.
Description
The scheme is a divisional application, and the original application name is as follows: the utility model provides a sludge dewatering device, the application date of former application is: 2017-05-17, and the application number of the original application is as follows: 201710345959.2.
Technical Field
The invention relates to sludge treatment equipment, in particular to sludge dehydration treatment equipment and a treatment method.
Background
The sludge is a product in the sewage treatment process, and the sludge has large volume due to high water content (generally 96-99.8 percent), thereby bringing great difficulty to transportation, treatment and utilization; the water content of the sludge has great influence on the volume of the sludge, for example, when the water content of the sludge is reduced from 99% to 96%, the volume of the sludge can be reduced to 1/4 of the original volume, and when the water content is reduced from 95% to 90%, the volume is reduced by half; 1m3 domestic sewage sludge with water content above 95% has volume of about 1000L, and the volume is rapidly reduced with the reduction of the water content, such as the water content is reduced to 85%, and the volume is only 1/3 (about 333L); reduced to 65% and had a volume of only 1/7 (about 143L); further down to 20% leaving only 1/16 (about 62.5L). At present, the mainstream sludge dewatering method comprises spiral extrusion and drying, but the dewatering of the spiral extrusion can only reach about 20 percent of water content, and a drying method generates a large amount of smoke dust.
Disclosure of Invention
Aiming at the defects in the prior art, the invention provides the sludge dewatering device which has simple structure and reasonable design, not only dries the sludge, but also purifies the smoke dust of the heat energy equipment for drying the sludge and eliminates the germs in the sludge.
In order to achieve the purpose, the invention provides a sludge conveying mechanism which comprises an auger with an extrusion part and a sludge nozzle, wherein a heating cavity is arranged outside the auger, so that the sludge is exploded into sparse particles due to sudden evaporation of steam from the sludge nozzle; a sludge ball rolling mechanism is also provided, so that the sparse granular particles are adhered and rolled into sparse regular blocks; an incinerator is also provided, and the smoke and dust are filtered by the water vapor through the sludge ball rolling mechanism and the heating cavity.
The sludge dewatering device comprises a conveying mechanism, wherein the conveying mechanism comprises an auger, the diameter of the end part of the auger is gradually reduced to form an extrusion part, and the end part of the extrusion part is provided with a sludge nozzle;
the conveying mechanism is connected with a sludge ball rolling mechanism, the sludge ball rolling mechanism comprises a cylindrical shell, the extrusion part extends into the shell, and the projection of the axis of the sludge nozzle is positioned on the eccentric chord of the projection of the shell;
a spiral slideway is arranged in the shell, and the top end of the spiral slideway is positioned below the sludge nozzle and close to the sludge nozzle;
the side wall of the shell is provided with a hot air nozzle which is communicated with an incinerator through a hot air pipe, the outlet of the hot air nozzle is positioned below the sludge nozzle, the hot air nozzle is horizontal or slightly upward, and the projection of the axis of the hot air nozzle is positioned on the projection line of the axis of the sludge nozzle;
the outer portion of the auger is provided with a heating cavity connected with the shell in a surrounding mode, the top end of the shell is provided with a first fan, the first fan is connected with a wind guide pipe, the wind guide pipe is communicated with the heating cavity, the heating cavity is further provided with a gas outlet and a condensate water outlet, and the caliber of the gas outlet is smaller than that of the wind guide pipe.
The bottom of the shell is provided with a dry sludge channel, the dry sludge channel comprises two through holes arranged on the side wall of the shell, straight slideways are arranged between the through holes and outside the shell, and the through holes are positioned in the shell and connected with straight sealing plates;
the dry sludge channel is provided with a plurality of dry sludge boxes which sequentially pass through, sealing materials are arranged on the upper portion, the lower portion and two sides of each dry sludge box, and the length of each dry sludge box is smaller than that of each straight sealing plate.
And a second fan is arranged at the air inlet of the incinerator, and the power of the second fan is smaller than that of the first fan.
And the draught pipe extends into the lower half part of the shell from the top to the bottom of the shell axis.
When the sludge drying machine works, the conveying mechanism conveys and extrudes sludge, and the sludge is burst into sparse irregular blocks due to sudden evaporation of water at the position of a sludge nozzle after being heated by the heating cavity; then the sludge rolls into a more regular block shape along a spiral slideway under the blowing of hot air, and the block falls into a sludge tank; the dry sludge tanks are transported out one by one. Meanwhile, the hot gas for heating the sludge passes through the sludge rolling pill mechanism and the heating cavity and is filled with the space of water vapor, and the smoke dust is purified. The dry sludge directly enters the incinerator to further kill bacteria and provide certain heat for the whole system.
The beneficial effects of this scheme can learn according to the statement to above-mentioned scheme, simple structure, and reasonable in design not only makes mud obtain drying, makes the smoke and dust of the heat energy equipment of drying mud obtain purifying moreover, steps up when heating again, through sudden decompression, makes the germ in the mud eliminate. The existing form of water in the sludge is as follows: interstitial water, capillary water, surface adsorbed water and internally bound water, wherein interstitial water, i.e. free water in the interstitial spaces of the particles, is about 70% of the water that is most easily removed; capillary water, which is about 20%, is free water subjected to the action of surface tension at the interface of water and air, the formation process of the free water is usually explained by capillary phenomenon in physics, and mutually communicated pores distributed inside soil particles can be regarded as a plurality of capillaries with different shapes and diameters and communicated with one another; the surface adsorbed water is about 5 percent of water attached to the surface of sludge particles, the adhesive force is strong, the water is often present on the surfaces of colloidal particles, biological sludge and other solid, a coagulation method is adopted, the water attached to the surfaces is eliminated through mutual flocculation of the colloidal particles, a physical method is difficult to remove, and the water can be removed through a biological separation or thermal method; the internally bound water, about 5%, is the moisture bound inside the sludge particles, such as the moisture inside cells in biological sludge, crystal water carried by metal compounds in inorganic sludge, and the like, and can be removed by bioseparation or a thermal method. In the auger interior, under the high-temperature and high-pressure environment, the organic matters in the sludge are chemically decomposed, including hydrolysis of organic colloid and cell destruction of bacteria and the like, so that part of the surface adsorbed water and most of the internal combined water which are difficult to remove form other existing forms. The conveying mechanism comprises an auger, the diameter of the end part of the auger is gradually reduced to form an extrusion part, so that the sludge is subjected to increasingly greater pressure in the auger; and the outer part of the packing auger is provided with a heating cavity which is connected with the shell in a surrounding way, so that water in the sludge also reaches a boiling point, and the packing auger can burst once passing through the sludge nozzle under the pressure state, so that the sludge becomes sparse dry sludge and is convenient to burn in the incinerator. The projection of the axis of the sludge nozzle is positioned on the eccentric chord of the projection of the shell, and the spiral slideway is arranged in the shell, so that sparse irregular blocks form regular blocks, and the sludge nozzle is convenient to collect and arrange. The side wall of the shell is provided with a hot air nozzle which is communicated with the incinerator through a hot air pipe, the outlet of the hot air nozzle is positioned below the sludge nozzle, the hot air nozzle is horizontal or slightly upward, and the projection of the axis of the hot air nozzle is positioned on the projection line of the axis of the sludge nozzle, so that the sprayed sludge is blown, the sludge is not adhered to the shell and the spiral slideway, the rolling of the sludge is accelerated, and the sludge is further dried by hot air discharged from the incinerator. A heating cavity connected with the shell is arranged around the outer part of the packing auger to enable the sludge to reach the boiling point under normal pressure; the top end of the shell is provided with a first fan, the first fan is connected with an air guide pipe, the air guide pipe is communicated with the heating cavity, the caliber of an air outlet is smaller than that of the air guide pipe, the pressure in the heating cavity can be increased, the temperature in the heating cavity can be increased, the moisture of the sludge in the auger can reach the boiling point more easily, and part of steam can be condensed more easily. The casing bottom is provided with dry sludge channel, and dry sludge channel includes two through-holes of setting on the casing lateral wall, between the through-hole and the casing outside is provided with the straight slide, and the through-hole is located the internal connection of casing has straight shrouding to and be provided with a plurality of dry sludge case that loop through on the dry sludge channel, dry sludge case upper portion, lower part and both sides are provided with sealing material, and dry sludge case length is less than the length of straight shrouding, and such structure can be in the condition that does not influence hot-air here escape as far as possible, takes out dry mud. The power of the second fan is smaller than that of the first fan, so that the water vapor in the shell is less prone to condensation. The induced draft pipe extends into the lower half part of the shell from top to bottom along the axis of the shell, so that hot air of the hot air nozzle can form spiral airflow in the shell from top to bottom along with the spiral slideway, water vapor at the bottom of the shell can be taken away quickly, and a lower-temperature area is prevented from being formed at the bottom of the shell.
Drawings
FIG. 1 is a schematic structural diagram of an embodiment of the present invention;
FIG. 2 is a schematic top sectional view of a portion of the present invention;
in the figure, 1, a conveying mechanism; 2. a packing auger; 3. a pressing section; 4. a sludge nozzle; 5. a sludge pill rolling mechanism; 6. a housing; 7. a spiral slideway; 8. a hot air nozzle; 9. an incinerator; 10. heating the cavity; 11. a first fan; 12. an air outlet; 13. a water outlet; 14. an air guide pipe; 15. an induced draft pipe; 16. a dry sludge channel; 17. a straight slideway; 18. a through hole; 19. a straight sealing plate; 20. a dry sludge tank; 21. and a second fan.
Detailed Description
In order to clearly illustrate the technical features of the present solution, the present solution is explained below by way of specific embodiments.
As shown in fig. 1-2, the present embodiment is a sludge dewatering device, which includes a conveying mechanism 1, the conveying mechanism 1 includes an auger 2, the diameter of the end of the auger 2 is gradually reduced to form an extrusion portion 3, and a sludge nozzle 4 is disposed at the end of the extrusion portion 3.
The conveying mechanism 1 is connected with a sludge ball rolling mechanism 5, the sludge ball rolling mechanism 5 comprises a cylindrical shell 6, the extrusion part 3 extends into the shell 6, and the projection of the axis of the sludge nozzle 4 is positioned on the eccentric chord of the projection of the shell 6; the inside of casing 6 is provided with spiral slideway 7, and the top of spiral slideway 7 is located the position of mud nozzle 4 below and being close to mud nozzle 4.
The side wall of the shell 6 is provided with a hot air nozzle 8, the hot air nozzle 8 is communicated with an incinerator 9 through a hot air pipe, the outlet of the hot air nozzle 8 is positioned below the sludge nozzle 4, the hot air nozzle 8 is horizontal or slightly upward, and the projection of the axis of the hot air nozzle 8 is positioned on the projection line of the axis of the sludge nozzle 4.
The outer part of the packing auger 2 is provided with a heating cavity 10 which is connected with the shell 6 in a surrounding way, the top end of the shell 6 is provided with a first fan 11, the first fan 11 is connected with a wind guide pipe 14, the wind guide pipe 14 is communicated with the heating cavity 10, the heating cavity 10 is also provided with a gas outlet 12 and a condensed water outlet 13, and the caliber of the gas outlet 12 is smaller than that of the wind guide pipe 14. The first fan 11 is connected with an induced draft pipe 15, and the induced draft pipe 15 extends into the lower half part of the shell 6 from top to bottom from the axis of the shell 6.
A dry sludge channel 16 is arranged at the bottom of the shell 6, the dry sludge channel 16 comprises two through holes 18 arranged on the side wall of the shell 6, straight slideways 17 are arranged between the through holes 18 and on the outer side of the shell 6, and straight sealing plates 19 are connected to the through holes 18 positioned in the shell 6; the dry sludge channel 16 is provided with a plurality of dry sludge boxes 20 which sequentially pass through, sealing materials are arranged on the upper part, the lower part and two sides of each dry sludge box 20, and the length of each dry sludge box 20 is smaller than that of the straight sealing plate 19.
An air inlet of the incinerator 9 is provided with a second fan 21, and the power of the second fan 21 is smaller than that of the first fan 11.
When the sludge treatment device works, the conveying mechanism 1 conveys and extrudes sludge, and the sludge is heated by the heating cavity 10 to the position of the sludge nozzle 4 and burst into sparse irregular blocks due to sudden evaporation of water; then the sludge rolls into a more regular block shape along the spiral slideway 7 under the blowing of hot air and falls into a dry sludge tank 16; the dry sludge tanks 16 are transported out one by one. Meanwhile, the hot gas for heating the sludge is filled with the space of water vapor through the sludge rolling pill mechanism 5 and the heating cavity 10, and the smoke dust is purified. The dry sludge directly enters the incinerator 9 to further kill bacteria and provide certain heat for the whole system.
The technical features of the present invention, which are not described in the present application, can be implemented by or using the prior art, and are not described herein again, of course, the above description is not limited to the above examples, and the present invention is not limited to the above examples, and variations, modifications, additions or substitutions that can be made by a person skilled in the art within the spirit of the present invention also belong to the protection scope of the present invention.
Claims (9)
1. The sludge dewatering treatment equipment comprises a conveying mechanism and is characterized in that the conveying mechanism comprises an auger, the diameter of the end part of the auger is gradually reduced to form an extrusion part, and a sludge nozzle is arranged at the end part of the extrusion part; the conveying mechanism is connected with a sludge ball rolling mechanism.
2. The apparatus of claim 1, wherein the sludge tumbling mechanism comprises a cylindrical housing, the extrusion portion extends into the interior of the housing, and a projection of an axis of the sludge nozzle is located on an eccentric chord of a projection of the housing;
a spiral slideway is arranged in the shell, and the top end of the spiral slideway is positioned below the sludge nozzle and close to the sludge nozzle;
the side wall of the shell is provided with a hot air nozzle which is communicated with an incinerator through a hot air pipe, and the outlet of the hot air nozzle is positioned below the sludge nozzle.
3. The apparatus according to claim 2, characterized in that the hot blast nozzles are horizontal or slightly upwards and the projection of their axes is located on the projection line of the sludge nozzle axes.
4. The device according to any one of claims 1 to 3, wherein a heating cavity connected with the shell is arranged around the outer part of the packing auger, a first fan is arranged at the top end of the shell, the first fan is connected with a wind guide pipe, the wind guide pipe is communicated with the heating cavity, a gas outlet and a condensed water outlet are further arranged on the heating cavity, and the caliber of the gas outlet is smaller than that of the wind guide pipe.
5. The equipment according to any one of claims 1 to 4, wherein a dry sludge channel is arranged at the bottom of the shell, the dry sludge channel comprises two through holes arranged on the side wall of the shell, straight slide ways are arranged between the through holes and on the outer side of the shell, and straight sealing plates are connected to the through holes positioned in the shell;
the dry sludge channel is provided with a plurality of dry sludge boxes which sequentially pass through, sealing materials are arranged on the upper portion, the lower portion and two sides of each dry sludge box, and the length of each dry sludge box is smaller than that of each straight sealing plate.
6. The apparatus according to any one of claims 1 to 4, wherein the air inlet of the incinerator is provided with a second fan, and the power of the second fan is smaller than that of the first fan.
7. The apparatus as claimed in any one of claims 1 to 4, wherein a draft tube is connected to the blower, and the draft tube extends from the axis of the housing into the lower half of the housing from top to bottom.
8. The apparatus according to any one of claims 1 to 7, characterized in that the method of operation of the apparatus comprises: the conveying mechanism conveys and extrudes the sludge, and the sludge is burst into sparse irregular blocks due to sudden evaporation of water at the position of a sludge nozzle after being heated by the heating cavity; then the sludge rolls into a more regular block shape along a spiral slideway under the blowing of hot air, and the block falls into a sludge tank; the dry sludge boxes are conveyed out one by one; meanwhile, the hot gas for heating the sludge passes through the sludge ball rolling mechanism and the heating cavity and is filled with the space of water vapor, and the smoke dust is purified; the dry sludge directly enters the incinerator to further kill bacteria and provide certain heat for the whole system.
9. A method of sludge dewatering treatment in an apparatus according to any one of claims 1 to 8, characterised in that the method of operation of the apparatus includes: the conveying mechanism conveys and extrudes the sludge, and the sludge is burst into sparse irregular blocks due to sudden evaporation of water at the position of a sludge nozzle after being heated by the heating cavity; then the sludge rolls into a more regular block shape along a spiral slideway under the blowing of hot air, and the block falls into a sludge tank; the dry sludge boxes are conveyed out one by one; meanwhile, the hot gas for heating the sludge passes through the sludge ball rolling mechanism and the heating cavity and is filled with the space of water vapor, and the smoke dust is purified; the dry sludge directly enters the incinerator to further kill bacteria and provide certain heat for the whole system.
Priority Applications (1)
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CN201911296586.XA CN111302594A (en) | 2017-05-17 | 2017-05-17 | Sludge dewatering treatment equipment and treatment method |
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CN201710345959.2A CN106966564B (en) | 2017-05-17 | 2017-05-17 | Sludge dewatering device |
CN201911296586.XA CN111302594A (en) | 2017-05-17 | 2017-05-17 | Sludge dewatering treatment equipment and treatment method |
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CN201710345959.2A Division CN106966564B (en) | 2017-05-17 | 2017-05-17 | Sludge dewatering device |
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CN201911296586.XA Pending CN111302594A (en) | 2017-05-17 | 2017-05-17 | Sludge dewatering treatment equipment and treatment method |
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Families Citing this family (7)
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CN108033662B (en) * | 2017-12-29 | 2023-11-17 | 浙江宜可欧环保科技有限公司 | Sludge pyrolysis desorption furnace |
CN109896718B (en) * | 2019-03-12 | 2022-03-01 | 合肥工业大学 | Sludge combined drying device |
CN110357395B (en) * | 2019-07-25 | 2022-03-01 | 华北水利水电大学 | Multistage dewatering device of town mud |
CN112094033A (en) * | 2020-10-26 | 2020-12-18 | 东营市万睿环保科技有限公司 | Intelligent oil silt and municipal sludge dewatering furnace |
CN112696693A (en) * | 2021-01-26 | 2021-04-23 | 贵州欧玛陶瓷有限责任公司 | Sludge calcining system |
CN117247210B (en) * | 2023-11-17 | 2024-04-02 | 威海华友节能科技有限公司 | Sludge pyrolysis device and method |
CN117532941B (en) * | 2024-01-10 | 2024-03-22 | 湖南清源华建环境科技有限公司 | Strip extruder |
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