WO2016110213A1 - 污泥干化系统和方法 - Google Patents
污泥干化系统和方法 Download PDFInfo
- Publication number
- WO2016110213A1 WO2016110213A1 PCT/CN2015/099793 CN2015099793W WO2016110213A1 WO 2016110213 A1 WO2016110213 A1 WO 2016110213A1 CN 2015099793 W CN2015099793 W CN 2015099793W WO 2016110213 A1 WO2016110213 A1 WO 2016110213A1
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- WIPO (PCT)
- Prior art keywords
- sludge
- drying
- drying chamber
- flipping
- communication port
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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
- F26—DRYING
- F26B—DRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
- F26B17/00—Machines or apparatus for drying materials in loose, plastic, or fluidised form, e.g. granules, staple fibres, with progressive movement
- F26B17/10—Machines or apparatus for drying materials in loose, plastic, or fluidised form, e.g. granules, staple fibres, with progressive movement with movement performed by fluid currents, e.g. issuing from a nozzle, e.g. pneumatic, flash, vortex or entrainment dryers
Definitions
- the present invention relates to the field of sludge drying, and in particular to a sludge drying system for drying sludge having a water content of about 70-85%, thereby obtaining sludge having a moisture content of 40% or less, and a sludge.
- a method of sludge drying using the sludge drying system is a method of sludge drying using the sludge drying system.
- the treatment of sewage in modern cities is indispensable, and a large amount of sludge is produced as the sewage is treated.
- the sewage treatment plant generally adopts the method of concentration or dehydration to pre-treatment the sludge to reduce the water content of the sludge from above 90% to 70-85%, and then the landfill and solidification of the treated sludge. Or dry processing. Landfilling is easy to ferment sludge and cause secondary pollution.
- existing curing or drying equipment usually has low drying efficiency and high energy consumption, and it is difficult to achieve a large amount of sludge moisture content. Sludge.
- Chinese invention patent CN101186422A proposes a closed multi-chamber fluidized bed sludge drying method.
- the fluidized bed used in this method not only consumes energy but is also inefficient, making it difficult to achieve continuous and large-scale sludge drying.
- the Chinese utility model patent CN203319838U proposes a sludge solidification treatment mixer.
- the mixer mixes the sludge with the additive by stirring to achieve solidification of the sludge. This process not only does not remove the moisture in the sludge, but also increases the volume of the sludge and causes the solidified sludge to be reused. .
- the existing sludge drying equipment is difficult to achieve large-scale drying treatment of such sludge to reduce sludge.
- the moisture content, and no equipment or system can carry out the pre-treatment of the sludge and can be dried. Accordingly, it is desirable to provide a sludge drying system and method that combines a sludge treatment process with a drying process to provide a moisture content of about 70-85% from a sewage treatment plant.
- the sludge is directly converted into sludge with a moisture content of less than 40%.
- the present invention proposes a sludge drying system and a method for sludge drying using the system, which can reduce the moisture content of sludge from a sewage treatment plant. It is directly reduced from about 70-85% to less than 40%, thereby improving the drying efficiency of the sludge.
- the sludge drying system of the present invention comprises a conveying device, a drying device and a blowing device, and through which the semi-solid sludge can be transformed from agglomerates or blocks to powder granulation, so that the dried The sludge will not be polluted by flooding after landfill.
- the sludge drying system of the present invention may include a tempering agent feeding device or a tempering device to allow the sludge to enter a quenching and tempering treatment before the drying device or before entering the drying device to improve the looseness and flow of the sludge. Sex.
- the sludge drying system of the present invention may include an air introducing device, a heating device, and a heat exchange device to improve drying efficiency and save energy.
- the sludge drying system of the present invention further includes a drying device having a first drying chamber and a second drying chamber.
- the turning device provided in the first drying chamber cuts, breaks and turns the sludge and the front end of the blade or ratchet thereof is scraped off at the communication port for separating the first drying chamber and the second drying chamber.
- the sludge near the side opening formed between the bridge member and the partition plate located above the communication port so that the drying gas can smoothly enter from the second drying chamber to the first drying chamber and be in sufficient contact with the sludge, thereby
- the problem of uneven inner and outer drying of the sludge existing in the drying process is solved.
- the sludge drying system of the invention has the characteristics of high drying efficiency, low energy consumption, small floor space and strong adaptability, and the user can use the sludge treatment device in the sludge drying system of the invention as needed.
- the existing sludge treatment plants in the wastewater treatment plant are combined to reduce costs.
- the sludge drying method of the sludge drying system of the present invention can significantly reduce the moisture content of the sludge by quenching and tempering the sludge.
- the drying gas can be passed through the communication port or the side opening by continuously turning, shearing and crushing the sludge and scraping the sludge near the communication port or the side opening by the flipping assembly of the turning device provided in the first drying chamber of the drying device.
- the second drying chamber smoothly enters the first drying chamber to make full and frequent contact with the sludge, thereby improving the drying efficiency of the sludge and reducing the energy consumption, and solving the problem that the sludge is sticky, easy to agglomerate, and difficult to solve.
- the problem of drying difficult due to crushing or the like can significantly reduce the moisture content of the sludge by quenching and tempering the sludge.
- the drying gas can be passed through the communication port or the side opening by continuously turning, shearing and crushing the sludge and scraping the
- Figure 1 is a schematic view of a sludge drying system of the present invention
- Figure 2 is a longitudinal cross-sectional view of the drying device in the sludge drying system shown in Figure 1;
- Figure 3 is a transverse cross-sectional view of the drying device of Figure 2;
- Figure 4 is a perspective view showing the provision of a flipping device in the first drying chamber of the drying device
- FIG. 5 is a perspective view showing a communication port formed on a part of a curved surface partition plate and a bridge member disposed above the communication port;
- Figure 6 is an enlarged plan view of the portion A circled in Figure 2;
- Figure 7 is a cross-sectional view of the partition wall of Figure 6 taken in a longitudinal direction transverse to the housing;
- Figure 8 is a flow chart of the sludge drying process of the sludge drying system
- Figure 9 is a flow chart showing the sludge drying process of the drying device of the sludge drying system.
- the sludge drying system 1 shows a preferred embodiment of the sludge drying system of the present invention, wherein the sludge drying system 1 can reduce the moisture content of the sludge from about 70-85% to less than 40%, thereby obtaining a granular shape. sludge.
- the sludge drying system 1 generally includes a conveying device, a drying device, and an air blowing device, and may further include a tempering device, an air guiding device, a heating device, and a heat exchange device.
- the existing sewage treatment equipment produces a semi-solid sludge having a water content of 70-85% after the sewage treatment.
- the conveying device 101 can send the sludge to the drying device 105 located downstream of the conveying device 101 through a pipe, a funnel or a conveyor belt or the like in a conveying path in the direction indicated by the arrow. Since the semi-solid sludge has the characteristics of strong viscosity, easy to agglomerate, and difficult to be broken, it is difficult to contact the inside of the drying gas during the drying process to achieve uniform drying of the sludge.
- a tempering agent may be placed in the first drying chamber of the drying device 105 so that the semi-solid sludge can be fed to the group. Block or block conversion.
- the tumbling device provided in the first drying chamber in the drying device 105 turns, shears, and breaks the sludge.
- the drying device 105 is a bottom-type sludge drying device in a monomer form, and includes a first drying chamber, a second drying chamber, and a partition wall for separating the first drying chamber and the second drying chamber.
- a communication port communicating with the first drying chamber and the second drying chamber is formed on the partition wall 4 to allow the drying gas to enter the first drying chamber from the second drying chamber through the communication port and to dry the sludge therein. Due to the turning, shearing and breaking of the turning device, the intervention of the tempering agent and the continuous action of the drying gas on the shearing and crushing sludge, the sludge gradually changes from agglomerate or block to a fragment or granule until Powdery. Therefore, the present invention may include a conditioning agent And a feeding device for feeding the tempering agent to the first drying chamber through the feeding port of the upper portion of the first drying chamber of the drying device 105.
- FIG. 2 shows a preferred embodiment of the bottom dry sludge drying apparatus of the present invention
- Figure 3 is a transverse cross-sectional view of the sludge drying apparatus of Figure 2, schematically showing a single form Sludge drying device.
- the bottom dry sludge drying device 105 includes a casing, and the casing includes an upper casing 2, a lower casing 4a, and an upper cover (or cover) 3.
- the bottom of the upper casing 2 serves as a partition wall 4 that partitions the internal space of the casing into the first drying chamber 6a and the second drying chamber 6b.
- the upper casing 2 and the upper cover 3 constitute a first drying chamber 6a
- the lower casing 4a and the bottom of the upper casing 2, that is, the partition wall constitute a second drying chamber 6b.
- a communication port 5 for communicating the first drying chamber 6a and the second drying chamber 6b is formed on the partition wall 4 to enable the drying gas to enter the first drying chamber 6a from the second drying chamber 6b.
- the first drying chamber 6a and the second drying chamber 6b are arranged one above the other, other arrangements are possible.
- the housing may be constructed of a plurality of components or a plurality of ways, for example, the illustrated side wall of the upper casing 2 may be separately manufactured from the partition wall 4, wherein the plate member may be used as the partition plate Instead of the partition wall and mounting the partition plate on the side wall, it is also possible to assemble the side wall, the partition plate and the lower casing 4a together. Further, it is also possible to integrally form the lower casing 4a with the partition wall 4, and to cancel the bottom of the lower casing, to provide the lower casing 4a on the ground, and the like.
- the shape of the housing is rectangular, but it can also be square, polygonal, elliptical or other shapes.
- a feed port 8 for allowing the sludge to be dried or dried to enter the first drying chamber and an exhaust gas or a drying gas for discharging the dried sludge are respectively provided on the upper cover 3 of the casing.
- the exhaust port 10 is provided with a discharge port 9 for the dried sludge on the end wall of the upper casing 2 in the vicinity of the partition wall 4 remote from the feed port 8.
- the feed port 8 and the exhaust port 10 for the first drying chamber may be disposed at any position on one of the upper casing 2 and the upper cover 3 as needed, that is, the first drying Any position of the upper portion of the chamber 6a.
- the discharge opening 9 can be provided at any position of the circumferential wall of the upper casing 2 including the side walls and the end walls, that is, any position of the circumferential wall of the first drying chamber 6a.
- Fig. 4 shows the internal configuration of the sludge drying device of Fig. 2.
- Two rows of communication ports 5 are formed at the bottom of the first drying chamber 6a, that is, the partition wall 4, and a plurality of spaced-apart communication ports 5 are arranged in each row, but each of the plurality of communication ports in one of the rows is connected.
- a bridge 401 is provided above.
- the communication port 5 can have various shapes such as a trapezoid, a rectangle, a triangle, an arch, a circle, and the like.
- the longitudinal direction X of each of the communication ports 5 intersects with the longitudinal direction G of the casing, preferably perpendicular to each other, and therefore, the plurality of communication ports 5 in a row and the longitudinal direction G of the casing Cross or roughly parallel.
- the flipping device 7a has a rotating shaft 701a and a flipping assembly 702a fixed to the rotating shaft 701a for turning the sludge.
- the flip assembly 702a includes four vanes or ratchets 703a, and each vane or ratchet 703a extends radially outward from the rotational axis 701a.
- the length of the plurality of blades or ratchets 703a of each flipping member 702a extending from the rotating shaft 701a may be different from each other, and at least one of the plurality of flipping assemblies 702a may have longer length blades or ratchets Other flipping components may have shorter length blades or ratchets.
- each of the flipping assemblies 702a on the rotating shaft 701a respectively correspond to each of the plurality of communicating ports 5, and generally the tip of the blade or ratchet 703a on the flipping member faces The communication port 5, and the length of the blade or the ratchet 703a is formed such that its front end or the top end can scrape the sludge in or near the communication port, so that the dry gas in the second drying chamber 6b can smoothly enter the first through the communication port 5. Drying chamber 6a.
- the drying gas enters the first drying chamber 6a from the second drying chamber 6b through the communication port 5 on the partition wall 4, the chance of the dry gas coming into contact with the sludge is increased, and after interacting with the sludge Exhausted from the vent 10, however, after the sludge to be dried is discharged into the first drying chamber 6a through the feed port 8 and stacked on the partition wall 4, with the flipping assemblies 702a, 702b of the flipping devices 7a, 7b The turning and the action of the drying gas, a part of the sludge may fall from the first drying chamber 6a or leak into the second drying chamber 6b through the communication port 5.
- the bridge member 401 is disposed above the communication port 5 to block the leakage of the sludge through the communication port to the second drying chamber 6b by the bridge member 401.
- a bridge 401 is provided above each of the plurality of communication ports of the other row.
- the bridge 401 is disposed to straddle the communication port 5 in the longitudinal direction X of the communication port and is substantially parallel to the longitudinal direction of the communication port 5.
- the length of the bridge member 401 is longer than the length of the communication port 5, so that the bridge member 401 can be spanned over the communication port 5 in the longitudinal direction of the communication port 5 like a bridge, and the two ends thereof are respectively fixed to the communication port.
- a side opening 402 is formed between the bridge 401 and the partition wall 4, and a side opening 402 may be formed on one side of the bridge 401 or in each of them.
- One side opening 402 is formed on one side. Therefore, the opening direction of the side opening 402 is substantially parallel to the axial direction of the rotating shaft or the longitudinal direction G of the casing.
- the bridge 401 above the communication port 5 is advantageous for reducing the sludge from falling or leaking from the first drying chamber 6a to the second The drying chamber 6b, but the sludge accumulated in the vicinity of the side opening also interferes with the entry of the drying gas from the second drying chamber 6b into the first drying chamber 6a.
- each of the flipping assemblies 702b of the flipping device 7b is configured such that the leading or leading side edges of its blades or ratchets 703b can scrape the sludge near the side opening 402 of the bridge 401.
- the spacing of the flipping assemblies 702a, 702b of the flipping devices 7a, 7b on the rotating shafts 701a, 701b can be determined in accordance with the distance between the plurality of communicating ports or the bridges in each row on the partition wall 4 to rotate on the rotating shaft The sludge near each communication port or bridge can be scraped off by the tips of the blades or ratchets of the flip assembly.
- the position of the communication port or the bridge on the partition wall is associated with the position of the flipping assembly on the rotating shaft, but the number of the flipping assemblies 702a, 702b and the number of the communicating ports 5 or the bridges 401 thereon need not be one. A correspondence.
- the partition wall 4 between the first drying chamber 6a and the second drying chamber 6b has a concave upper surface.
- the upper surface of the partition wall 4 has a concave shape when viewed in a direction transverse to the longitudinal direction G of the casing, that is, a curved section of the concave surface is directed downward from the first drying chamber 6a toward the second drying chamber 6b.
- the first drying chamber 6a has a concave bottom. Therefore, the partition wall is shown as a recessed area in the longitudinal direction G of the casing.
- each recessed area corresponds to the flipping assembly 702a or 702b, and the recessed area It can be rounded.
- the bridge member disposed above the communication port may be a plate member including a flat plate, a curved plate, a herringbone plate, or the like.
- Figure 5 shows a preferred embodiment of the bridge on the dividing wall.
- the bridge 401 of the flat plate is located above the communication port 5 and is parallel to the communication port in the longitudinal direction, thereby forming a side opening 402 between the bridge 401 and the partition wall 4. If the depressed area of the partition wall 4 is a circular arc shape, the shape of the side opening 402 assumes a crescent shape. Therefore, the shape of the side opening 402 depends on the shape of the bridge 401 and the depressed area of the partition wall.
- Figure 6 shows an enlarged cross-sectional view of the portion A circled in Figure 2, wherein the flipping assembly of the flipping device is shown adjacent a side opening.
- the bridge member 401 of the flat plate is located above the communication port 5 and has two side openings 402 formed on both sides thereof with the partition wall.
- the drying gas as indicated by the arrow enters the communication port 5 from below the partition wall 4, that is, the second drying chamber 6b, and needs to be turned to pass through the left or right opening 402 to reach the first drying chamber 6a. Therefore, there is at least one curved path from the communication port to the side opening between the first drying chamber and the second drying chamber in order to reduce leakage of sludge from the first drying chamber to the second drying chamber.
- the flipping assembly 702b of the flipping device 7b is positioned such that the leading end of its blade or ratchet can be scraped off one of the sides between the bridge 401 and the dividing wall 4
- the sludge near the mouth 402, and the scraping of the sludge near the opposite side opening is not only advantageous for reducing the leakage of the sludge, but also contributes to the flow of the drying gas from the first drying chamber to the second drying chamber.
- a scrapable component can be mounted on the blade or ratchet of the flip assembly to scrape the sludge near the side opening with the front end of the scrapable component.
- a side baffle may be provided on one side of the bridge 401 to block one of the side openings, while leaving only the other side opening to allow the drying gas to enter the first drying chamber 6a in one direction .
- the side dam is disposed in the side opening 402 along the length of the bridge 401 to prevent dry gas from passing therethrough, so that the flipping assembly 702 of the flipping device 7 can only scrape the sludge near the other side opening 402.
- This arrangement of the baffles is such that the drying gas flows out of the side opening 402 into the first drying chamber 6a in only one direction, while preventing the drying gas from entering the first drying chamber from the opposite direction to prevent the sludge from leaking therefrom.
- the scraping front end of the blade or ratchet of the first flipping assembly 702a on the first rotating shaft 701a is adjacent to the second rotational axis.
- 701b is located between two adjacent second flipping assemblies 702b, and vice versa. This shortens the spacing between the first rotational axis 701a and the second rotational axis 701b and also avoids interference between the first flipping assembly 702a and the second flipping component 702b.
- the partition wall 4 may be configured to form only a plurality of communication ports 5 thereon, and the plurality of flipping assemblies 702a, 702b of each of the flipping devices 7a, 7b respectively correspond to the plurality of communication ports 5
- the scrapable front end of the blades or ratchets 703a, 703b of the flipping assemblies 702a, 702b can scrape the sludge in or near the communication port 5.
- the plurality of flipping assemblies 702a, 702b of each of the flipping devices 7a, 7b respectively correspond to the plurality of bridge members 401 so as to flip the blades of the components 702a, 702b or
- the side edges of the scrapable front ends of the ratchet teeth 703a, 703b can scrape the sludge in the vicinity of the side opening 402 to smoothly flow the dry gas into the first drying chamber 6a.
- the blades or ratchets 703a, 703b of the flipping assemblies 702a, 702b also function to shear, break and flip the sludge.
- the scrapable member can be mounted on the blade or ratchet so that the front end of the scrapable member can scrape the sludge near the communication port or side opening.
- one end of the rotating shafts 701a, 701b of the two flipping devices 7a, 7b may be respectively provided with a power input member.
- the transmission is driven by an external power unit, and the transmission sequentially drives the rotation shafts 701a, 701b to rotate such that a power input member such as a gear or pulley 18b on the rotation shafts 701a, 701b drives one of the two rotation shafts 701a, 701b, thereby The other rotating shaft rotates.
- the first rotating shaft 701a and the second rotating shaft 701b may face each other Rotating in the opposite direction can also be rotated together in the same direction.
- Figure 7 shows a preferred embodiment of the rotational trajectory at the concave portion of the dividing wall 4 of the curved surface of the blade or ratchet on the flipping assembly of the flipping device.
- the blade or ratchet 703b has a circular rotational trajectory, and when the tip end of the blade or ratchet 703b is swept along the curved surface of the partition wall 4, the tip of the blade or ratchet 703b is adjacent to the partition wall 4 near the communication port 5.
- the distances of the surfaces are approximately equal.
- Such an arcuate shape facilitates sweeping the side opening 402 at the side edge of the front end of the blade or ratchet of the flipping assembly or the scraping member mounted on the blade or ratchet to clear the vicinity thereof After the sludge, the scraped and turned-up sludge is more likely to fall back along the concave curved contour of the partition wall to a lower position in the first drying chamber 6a, thereby increasing the contact frequency of the drying gas with the sludge. .
- the contour of the inner surface of the recessed area of the partition wall 4 in the lateral direction and the scrapable top end of the blade or ratchet 703a, 703b of the flipping assembly 702a, 702b of each of the flipping devices 7a, 7b or thereon is similar, that is, the radius R of the curved partition plate facing the concave arcuate region of the flipping device is slightly larger than the distance r from the axis of the rotating shaft to the tip end of the flipping assembly.
- the second drying chamber 6b includes an air inlet 15 disposed on a side wall of the lower casing 4a, that is, the air inlet 15 is located on the side wall of the second drying chamber 6b for use in waiting
- the drying gas of the dried sludge enters the second drying chamber 6b, and the air inlet may be one or more.
- the scraping front end of the blade or ratchet 703a, 703b of the flipping assembly 702a, 702b or the front end of the scrapable member fixed to the blade or ratchet is open to the side of the communication port 5 or the bridge 401 above the communication port
- the scraping of the sludge near 402 helps to reduce the sludge in the first drying chamber 6a from falling into the second drying chamber 6b, but there may still be some sludge passing through the communication port 5 or from the side opening to the communication port.
- the curved path leaks into the second drying chamber 6b.
- a cleaning port 15a is provided on the end wall of the lower casing 4a, wherein the cleaning port 15a serves to discharge the sludge deposited in the second drying chamber 6b.
- a discharge device may be provided at a position near the bottom in the second drying chamber 6b to convey the sludge to the cleaning port 15a at one end of the second drying chamber 6b and to discharge the casing.
- the second drying chamber 6b is substantially funnel-shaped in the lateral direction, and the side wall thereof, that is, the side wall of the lower casing 4a is gradually narrowed from the partition wall toward the bottom portion, and the shape at the narrowed portion, that is, at the bottom portion is curved or half.
- the sludge leaking from the first drying chamber 6a by the curved path from the side opening to the communication port may be collected into the longitudinal passage of the curved section so as to be conveniently discharged outside the casing by the discharge device provided in the longitudinal passage .
- the sludge leaking into the second drying chamber 6b may be dried or twice dried by the dry gas entering the second drying chamber 6b to further Step to reduce the moisture content of the sludge.
- a movable baffle may be provided at the cleaning port 15a so that the drying gas does not leak, and the movable baffle is opened when the sludge is discharged.
- the sludge drying system 1 further includes an air blowing device 12.
- the drying device 105 communicates with the air blowing device 12 via the air inlet 15 through a connecting pipe indicated by a double line, wherein the air blowing device 12 can blow the drying gas to be dried sludge in the direction of the arrow to the second of the drying device 105. Drying chamber 6b.
- the sludge drying system 1 may further include an air guiding device 13, a heating device 108, or a heat exchange device 103. As shown in FIG. 1, if it is necessary to blow the hot dry gas into the second drying chamber 6b, a heating device 108 may be provided at a position downstream of the air blowing device 12 to supply the drying device 105 with the heated drying gas.
- the air guiding device 13 may be disposed at a position downstream of the drying device 105 to allow the exhaust gas or the drying gas after the drying sludge to flow out from the first drying chamber 6a as quickly as possible.
- the heat exchange device 103 can be associated with the air blowing device 12 and the air guiding device 13, wherein the hot end of the heat exchange device 103 is connected to the air blowing device 12 and the cold end thereof is connected to the air guiding device 13.
- the exhaust gas from the air introducing means 13 passes through the cold end of the heat exchange means 103, and the drying gas which is to enter the outside of the air blowing means 12 passes through the hot end of the heat exchange means 103, so that the heat exchange means 103 recovers the exhaust gas through the heat exchange means
- the heat in the heat is transferred to the drying gas for the sludge to be dried to enter the air blowing device 12 to improve the heat efficiency.
- the air blowing device 12 communicates with the second drying chamber 6b via a duct and an air inlet 15 to blow dry gas into the second drying chamber 6b.
- the air guiding device 13 communicates with the first drying chamber 6a via a duct and an exhaust port 10.
- the drying gas delivered into the second drying chamber 6b may be a drying medium such as a hot gas, a chemical-containing gas, hot air, a normal temperature gas or a freezing gas, or a specially prepared drying medium.
- the air blowing means 12 can be used to increase the speed at which the drying gas flows into the second drying chamber 6b, and the air guiding means 13 can accelerate the outflow of the exhaust gas from the first drying chamber 6a.
- the air blowing device may be a blower or a fan, and the air guiding device may be an induced draft fan.
- the air blowing device 12 may be replaced with a supercharging device to deliver the drying gas to the second drying chamber 6b at a certain pressure, so that the drying gas is accelerated to flow into the first drying chamber 6a.
- the air guiding device 13 can be replaced with a pressure reducing device to speed up the flow of the exhaust gas, thereby improving the sludge drying efficiency.
- the heating device can be provided separately or integrated with the air blowing device. Further, the heated drying gas is sent to the second drying chamber 6b by the air blowing device or the charging device to re-dry the sludge therein.
- the heated drying gas is subjected to secondary drying of the sludge dropped or leaked into the second drying chamber 6b, a part of the heat may also pass through the gold.
- the upper casing 2 and the partition wall 4 made of the genus material are transferred to the sludge laid on the partition wall 4 to assist the drying of the sludge in the first drying chamber 6a.
- the sludge drying system 1 may further include a tempering device 102, wherein the tempering device 102 may replace the tempering agent in the drying device 105.
- the tempering agent and the sludge are mixed in the tempering device 102 to promote the sludge to become a mass or a block, wherein The tempering agent may be placed in the tempering device 102 in advance, or may be placed at the same time as or after the sludge enters the tempering device 102.
- the tempered sludge is sent to a drying device 105 located downstream of the tempering device 102 by, for example, a pipe, a funnel or a conveyor belt.
- the drying device 105 the agglomerates or blocks of the sludge are gradually converted into pieces and particles by shearing, crushing and turning of the turning device and sufficient contact with the drying gas, thereby finally becoming a powder having a moisture content of 40% or less.
- Granular sludge The dried sludge is discharged through a discharge port 9 provided in the drying device.
- the dried sludge does not have secondary pollution to the environment after landfill, and it can also be reused if it is used for fertilizer production and building materials.
- Figure 8 illustrates a sludge drying process or process of the present invention.
- the sludge drying system 1 of the present invention can directly obtain sludge having a moisture content of 40% or less after the sludge having a moisture content of 70-85% is subjected to a drying treatment.
- the sludge drying method using the sludge drying system 1 can be applied to the treatment of semi-solid sludge having a water content of 70-85%.
- the conveying step 101a is performed, and the conveying device 101 can be utilized.
- the sludge is transported to the downstream dewatering device 105 or to the quenching and tempering device 102 for quenching and tempering treatment.
- the quenching agent is mixed with the sludge to convert the semi-solid sludge into a dough or
- the lumps and the tempered sludge are sent to a drying device 105 for drying.
- the drying step 105a the slug or block sludge is transported to the first drying chamber of the drying device 105, and the sludge is turned, sheared and broken by the turning assembly of the turning device, and passed through the communication port or the side opening.
- the drying chamber of the second drying chamber entering the first drying chamber is in contact with the sludge, and the scraping front end of the blade or ratchet of the flipping assembly scrapes off the sludge near the communication port or the side opening, and the sludge is sufficiently dried. .
- the dried sludge is discharged to the drying device 105 by performing the discharging step 9a. Further, in the drying process of the sludge, it is necessary to carry out the blasting step 12b in which the drying gas is introduced into the air blowing device 12, and the drying gas is blown by the air blowing device 12 to the air inlet 15 of the second drying chamber 6b.
- a draft step 13b may be implemented by which the exhaust gas is recovered from the exhaust port 10 of the first drying chamber for delivery to a subsequent processing facility.
- a heating step 104a can also be implemented to cause an external drying gas to flow through the heating device 104 to heat the drying gas to a desired temperature.
- the heat exchange step 103a may be performed to deliver the tail gas recovered by the air introducing device 13 to the cold end of the heat exchange device 103, and the heat in the exhaust gas is transferred to the drying gas of the hot end of the heat exchange device 103 through the heat exchange process, thereby improving Utilization of waste heat.
- FIG. 9 shows a flow of a sludge drying process or method using a drying device 105.
- the sludge drying process can be carried out by means of the various devices illustrated.
- the semi-solid sludge or tempered sludge enters the first drying chamber 6a of the drying device 105 (shown in the dashed line portion) at the feeding step 8a.
- an external power unit (not shown) drives the rotating shafts 701a, 701b to rotate by a transmission and a power input member such as the power input member 18b, thereby driving the flipping assemblies 702a, 702b to rotate.
- the scraping front end of the blades or ratchets 702a, 702b of the flipping assemblies 701a, 701b while the flipping assemblies 702a, 702b are continually flipping the sludge and the individual blades or ratchet teeth 703a, 703b of the flipping assembly are continuously sheared and broken.
- the front end of the scrapable member mounted on the blade or the ratchet or the side edge thereof scrapes the sludge in the vicinity of the communication port 5 or the side opening 402 at a certain time interval.
- the intake step 15a is carried out, and the drying gas is supplied from the air blowing device 12 through the duct and the air inlet 15 to the second drying chamber 6b of the drying device 105.
- the flow rate of the drying gas into the second drying chamber 6b is associated with the blowing speed.
- the front end of the blade or ratchet 702a, 702b of the flipping assembly or the front end of the scrapable member mounted on the blade or the ratchet scrapes off the sludge in the vicinity of the communication port or side opening 402 so that the dry gas smoothly flows into the first drying Room 6a.
- the blades or ratchets 702a, 702b of the flipping assembly in the first drying chamber 6a shear, crush and tumbling the sludge and the drying of the drying gas to the sludge, the granularity of the sludge gradually becomes smaller and the powder is granulated.
- the degree of drying of the sludge is also continuously increased.
- the drying gas is transported to the atmosphere or the heat exchange device 103 by the air introducing means 13 through the exhaust port 10 located at the upper portion of the first drying chamber 6a and the duct in the exhausting step 10a.
- the dried sludge discharge port 9 is discharged.
- the dried sludge can be conveyed to the sludge collection device through the discharge port 9 of the first drying chamber in the discharge step 9a.
- the drying gas delivered into the second drying chamber 6b by the air blowing device 12 leaks to the curved path through the communication port 5 or from the communication port to the side opening to the second
- the sludge in the drying chamber is subjected to re-drying or secondary drying to further reduce the moisture content of the sludge.
- the feeding step 8a, the tumbling and scraping step 105a1, the intake step 15a, the venting step 10a, and the secondary drying step 105a2 may be carried out sequentially or simultaneously.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Life Sciences & Earth Sciences (AREA)
- Hydrology & Water Resources (AREA)
- Environmental & Geological Engineering (AREA)
- Water Supply & Treatment (AREA)
- Chemical & Material Sciences (AREA)
- Organic Chemistry (AREA)
- General Engineering & Computer Science (AREA)
- Drying Of Solid Materials (AREA)
- Treatment Of Sludge (AREA)
Abstract
Description
Claims (21)
- 一种污泥干化系统,所述污泥干化系统包括:输送装置,所述输送装置用于接收和输送污泥到下游的干化装置;以及干化装置,所述干化装置包括:壳体,其中,在所述壳体内设有分隔板,以将所述壳体内的空间分隔成第一干燥室和第二干燥室,且在所述分隔板上形成用于连通所述第一干燥室和所述第二干燥室的至少一个连通口;设置在所述第一干燥室的上部的用于待干燥的污泥的进料口和用于排放干燥污泥后的干燥气体的排气口,和设置在所述第一干燥室的周向壁上的用于干燥后的污泥的出料口;设置在所述第二干燥室的侧壁上的至少一个用于要干燥污泥的干燥气体的进气口;设置在所述第一干燥室内的用于翻动污泥的至少一个翻动装置,所述至少一个翻动装置包括转动轴和设置在所述转动轴上的至少一个翻动组件,其中,所述至少一个翻动组件可刮除所述至少一个连通口附近的污泥;以及鼓风装置,其中,所述鼓风装置经过所述至少一个进气口与所述第二干燥室连通。
- 根据权利要求1所述的污泥干化系统,其特征在于,其还包括位于输送装置下游的调质装置,其中,所述调质装置用于使调质剂与污泥进行混合,以改变污泥的粘稠性和亲水性。
- 根据权利要求1或2所述的污泥干化系统,其特征在于,其还包括在所述干化装置的所述第二干燥室的周向壁或底部上设置至少一个清理口。
- 根据权利要求1-3中任一项所述的污泥干化装置,其特征在于,其还包括用于加热干燥气体的加热装置,其中,所述加热装置位于所述鼓风装置的上游或下游。
- 根据权利要求1-4中任一项所述的污泥干化装置,其特征在于,其还包括引风装置,其中,所述引风装置经过所述排气口与所述第一干燥室连通。
- 根据权利要求1-5中任一项所述的污泥干化系统,其特征在于,其还包括热交换装置,所述热交换装置的冷端与所述引风装置连接,且其热端与所述鼓风装置连接,用以回收从所述排气口出来的尾气中的热量。
- 根据权利要求1-6中任一项所述的污泥干化系统,其特征在于,其还包括调质剂给送装置,其中,所述调质剂给送装置将调质剂给送到所述干化装置的第一干燥室内。
- 根据权利要求1-7中任一项所述的污泥干化系统,其特征在于,所述至少一个污泥翻动装置的所述至少一个翻动组件具有从所述转动轴径向向外延伸的至少一个叶片或棘齿,其中,在所述转动轴旋转时所述至少一个翻动组件的所述至少一个叶片或棘齿的前端或者安装在叶片或棘齿上的可刮除部件的前端可以刮除或部分刮除所述至少一个连通口内或附近的污泥。
- 根据权利要求1-8中任一项所述的污泥干化系统,其特征在于,其还包括设置在所述至少一个连通口上方的桥形件,其中,所述桥形件与所述分隔壁之间形成侧开口,以形成从所述至少一个连通口到所述侧开口的弯曲路径。
- 根据权利要求1-9中任一项所述的污泥干化系统,其特征在于,所述至少一个翻动组件与所述桥形件相对应,以便所述至少一个翻动组件的所述至少一个叶片或棘齿的前端或者安装在叶片或棘齿上的刮除部件的前端的侧边缘可以刮除或部分刮除所述侧开口附近的污泥。
- 根据权利要求1-10中任一项所述的污泥干化系统,其特征在于,所述分隔壁具有下凹的上表面。
- 根据权利要求1-11中任一项所述的污泥干化系统,其特征在于,所述至少一个包括至少两个污泥翻动装置,其中每个污泥翻动装置包括多个翻动组件,且所述多个翻动组件中的每个的所述至少一个叶片或棘齿的前端或安装在所述至少一个叶片或棘齿的前端的刮除部件可刮除所述至少一个连通口内或附近的污泥,其中,所述至少两个污泥翻动装置中的其中一个污泥翻动装置的所述多个翻动组件与另一个的所述多个翻动组件彼此交错布置。
- 根据权利要求1-12中任一项所述的污泥干化系统,其特征在于,其还包括设置在所述第二干燥室内的排料装置,用于将从所述第一干燥室泄漏到所述第二干燥室内的再干燥的污泥排出所述清理口。
- 一种采用上述权利要求中任一项所述的污泥干化系统进行污泥干化的方法,所述方法包括以下步骤:通过输送装置将污泥输送到干化装置的进料口并使污泥进入所述干化装置的第一干燥室内;使设置在所述第一干燥室内的至少一个污泥翻动装置运行,其中,所述至少一个污泥翻动装置上的转动轴带动至少一个翻动组件转动,从而所述至少一个翻动组件的至少一个叶片或棘齿的前端可刮除在所述第一干燥室和第二干燥室的分隔板上形成的至少一个连通口附近的污泥;和通过鼓风装置使干燥气体进入所述第二干燥室内并通过所述至少一个连通口进入所述第一干燥室与污泥接触。
- 根据权利要求14所述的方法,其特征在于,其还包括:向所述干化装置中投放调质剂,以使所述调质剂与污泥进行混合。
- 根据权利要求14或15所述的方法,其特征在于,其还包括调质步骤,其中,通过输送装置将污泥输送到调质装置中,以使污泥与调质剂进行混合,并且将调质的污泥输送到下游的干化装置。
- 根据权利要求14-16中任一项所述的方法,其特征在于,其还包括加热步骤:利用所述加热装置对离开或进入所述鼓风装置的干燥气体加热。
- 根据权利要求14-17中任一项所述的污泥干化装置,其特征在于,其还包括引风装置,其中,所述引风装置经过所述排气口与所述第一干燥室连通。
- 根据权利要求14-18中任一项所述的方法,其特征在于,其还包括热交换步骤:通过热交换装置将由所述引风装置从所述第一干燥室抽取的尾气中的热量传递给要进入所述鼓风装置的干燥气体。
- 根据权利要求14-19中任一项所述的方法,其特征在于,其还包括刮除污泥步骤:在所述转动轴旋转时使所述至少一个污泥翻动装置的所述至少一个翻动组件的至少一个叶片或棘齿的前端或其上安装的可刮除部件刮除所述至少一个连通口附近的污泥。
- 根据权利要求14-20中任一项所述的方法,其特征在于,其还包括刮除步骤:在所述转动轴旋转时使所述至少一个污泥翻动装置的所述至少一个翻动组件上的至少一个叶片或棘齿的前端或其上安装的可刮除部 件可刮除设置在所述至少一个连通口上方的至少一个桥形件与所述分隔板之间形成的侧开口附近的污泥。
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CN107702502A (zh) * | 2017-10-17 | 2018-02-16 | 佛山市金凯地过滤设备有限公司 | 一种具有排潮功能的带式干燥装置 |
CN107973517A (zh) * | 2017-12-27 | 2018-05-01 | 中运建设控股有限公司 | 一种污泥干化装置 |
CN113548784A (zh) * | 2021-08-26 | 2021-10-26 | 北京中科国通环保工程技术股份有限公司 | 一种高效污泥热干化处理的方法和装置 |
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CN106477643A (zh) * | 2016-10-27 | 2017-03-08 | 浙江荣凯科技发展股份有限公司 | 一种高效率化学废水废渣处理设备 |
CN107445446B (zh) * | 2017-09-22 | 2019-03-26 | 西安吉利电子化工有限公司 | 一种塔板式干燥发酵装置 |
CN110002708A (zh) * | 2019-04-18 | 2019-07-12 | 苏州草宝能源科技有限公司 | 一种污泥热解脱水干化处理燃烧处置工艺 |
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