KR102089561B1 - Sludge drying apparatus - Google Patents

Abstract

The present invention is connected to a sludge storage hopper for storing the sludge to be dried, and a sludge extruder and a sludge extruder that are connected to a sludge storage hopper to receive the sludge to be dried from the sludge storage hopper and then discharge the sludge to be dried to a certain size. After being supplied with the sludge to be dried from the sludge extruder, it is connected to a high-temperature dryer and a high-temperature dryer to dry the sludge to be dried with heated air while moving the conveyor, and to the screw that rotates the sludge to be dried dried in the high-temperature dryer. After drying by the heater while moving to the pulverized state, it is connected to a screw dryer and a screw dryer to be discharged in the form of pellets, and dried with heated air while the pellet-type drying target sludge discharged from the screw dryer moves the conveyor. Low heat dryer, high temperature drying And connected to a low-heat dryer, a high-temperature dryer and a hot-air supply to supply heating air to the low-heat dryer, and a drying pallet storage tank connected to the low-heat dryer to store the sludge to be dried in the form of dried pellets discharged from the low heat dryer. A sludge drying device is provided.

Description

Sludge drying apparatus

The present invention relates to a sludge drying apparatus for drying the moisture contained in the sludge generated during the sewage treatment process.

In general, sludge (sludge) is also referred to as sludge generated from food or wastewater or sewage treatment, and sewage sludge contains about 50% of organic matter and water content is from 96 to 98% of the initial settling sludge and 99 to 99% of activated sludge. As it is high at 99.5%, there are many difficulties in processing.

When sludge is dumped into the ocean or buried in the soil as it is, it causes rapid contamination of seawater, soil, and groundwater, and it is difficult to secure a landfill site during direct landfill.

Therefore, a drying process is performed to lower the water content of the sludge. As a method for lowering the water content of the sludge, the method of rotating the sludge at a high speed or dehydrating it by pressing a press greatly reduces the effect of reducing the sludge containing a large amount of polymer flocculant. It cannot be increased, and the incineration treatment costs a lot of equipment and operations, and there is also a possibility of secondary pollution such as air pollution.

The related technology for such a sludge drying apparatus is presented in Korean Patent Publication No. 2008-0072151 (208.08.06).

An object of the present invention is to provide a sludge drying apparatus capable of stably lowering the water content of the sludge and minimizing environmental pollution during the drying treatment of the sludge.

The present invention, the sludge storage hopper for storing the sludge to be dried, connected to the sludge storage hopper, after receiving the sludge to be dried from the sludge storage hopper, the sludge extruder to discharge the sludge to be dried to a certain size, the sludge extruder Connected with, after receiving the sludge to be dried from the sludge extruder, the high-temperature dryer to be dried with heated air while the sludge to be dried moves the conveyor, and is connected to the high-temperature dryer to rotate the dried target sludge dried in the high-temperature dryer After moving to a crushed state by a screw to be dried by a heater, and then discharged in a pellet form, the screw dryer is connected to the screw dryer, while the pellet-type drying target sludge discharged from the screw dryer moves the conveyor. Low heat to dry with heated air The dryer, connected to the high-temperature dryer and the low-heat dryer, is connected to the high-temperature dryer and the low-heat dryer to supply hot air, and is connected to the low-heat dryer, to store the dried target sludge in the form of dried pellets discharged from the low-heat dryer It provides a sludge drying apparatus comprising a drying pallet storage tank.

In addition, the sludge extruder, an extruded sludge inlet to form a target sludge to be introduced at the top, a plurality of sludge extruded nozzles are spaced apart from each other in the form of a cylindrical extruded body, in the vertical direction inside the extruded body It is installed to be slidable and installed on the bottom surface of the extruding body with a plurality of extruded nozzle insertion protrusions formed to correspond to a sludge extruded nozzle, and the rod end is connected to the obstruction preventive so that the obstruction preventive part of the extruded body It may include a blockage preventing cylinder that generates a driving force to be moved in the vertical direction from the inside.

In addition, the high-temperature dryer and the low-heat dryer are formed with a hot-air inlet through which hot air is introduced from the hot-air supply and a hot-air outlet through which heated air that is heated after drying the sludge to be dried is discharged. Sludge drying inlet and sludge drying outlet to be introduced and discharged, a hot-air drying body having a tub structure is formed in a multi-stage inside the hot-air drying body, and the target sludge to be introduced through the sludge drying inlet is top of the hot-air drying body. It may include a plurality of conveyors to be moved in a zigzag direction in the lower direction.

In addition, the screw dryer, a screw-dried body having a cylindrical structure having a sludge screw inlet and a sludge screw outlet to allow the sludge to be introduced and discharged, is rotatably installed inside the screw-dried body, and the sludge screw inlet is provided. The screw to be moved to the sludge screw discharge port while crushing the sludge to be dried, which is introduced through the screw, is connected to the shaft end of the screw, and a screw drive motor that generates a driving force to rotate the screw, and is installed connected to the rear end of the screw, It may include a cutting knife that cuts the sludge to be dried to be moved to the sludge screw outlet to a predetermined length, and is installed inside the screw drying body, and may include a heater to heat and dry the sludge to be crushed by a screw.

In addition, the hot air supply is connected to the high-temperature dryer, and is supplied with external air to heat and then a high-temperature burner to supply heating air to the high-temperature dryer, and is connected to the low-temperature dryer, and receives external air to heat it, and then to a low heat dryer A low heat burner for supplying heating air to the furnace, a high temperature heat exchanger connected to the high temperature dryer and the high temperature burner, receiving the gas discharged after heating the sludge to be dried in the high temperature dryer, and heating the external air supplied to the high temperature burner, Connected to the low heat dryer and low heat burner, the low heat heat exchanger, which receives the gas discharged after heating the sludge to be dried in the low heat dryer, and heats the external air supplied to the low heat burner, is connected to the high heat heat exchanger and the low heat heat exchanger And electrolyzes harmful substances in the gas discharged from the high heat exchanger and the low heat exchanger. After filtered out by chemical treatment, it may comprise a phase-separated to cause the scrubber the gas is discharged into the atmosphere.

The sludge drying apparatus according to the present invention, after the sludge to be dried stored in the sludge storage hopper is molded and discharged from a sludge extruder into a plurality of fine-diameter rhythms, it is transferred to a high-temperature dryer provided with a multi-stage conveyor and is primary by heating air. Drying is done. Then, the sludge to be dried is formed in a pellet form in a screw dryer, and then transferred to a low-heat dryer provided with a multi-stage conveyor to be dried secondarily by heating air, thereby stably drying the sludge to be dried.

In addition, after the gas discharged from the high-temperature dryer and the low-heat dryer is transferred to the hot air supply, fuel consumption can be reduced through heat exchange and discharged to the outside through a phase separation scrubber to prevent environmental pollution.

1 is a block diagram of a sludge drying apparatus according to an embodiment of the present invention.
FIG. 2 is a detailed cross-sectional view of the sludge extruder shown in FIG. 1.
FIG. 3 is a detailed configuration cross-sectional view of the high heat dryer (low heat dryer) shown in FIG. 1.
4 is a detailed configuration cross-sectional view of the screw dryer shown in FIG. 1.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a sludge drying apparatus according to an embodiment of the present invention. Referring to Figure 1, the sludge drying apparatus of one embodiment, the sludge storage hopper 100, the sludge extruder 200, a high temperature dryer 300, a screw dryer 400, a low heat dryer 500, a hot air supply 600 , A drying pallet storage tank 700 is provided.

The sludge storage hopper 100 is a part that stores sludge to be dried after being generated in a sewage treatment process and processed through a dehydrator (not shown). This, the sludge storage hopper 100 is made of a barrel structure provided with a space inside to store the sludge to be dried, an inlet (not shown) and a sludge to be stored stored therein to allow the sludge to be dried. A discharge port (not shown) to be discharged to the sludge extruder 200 to be described later is formed.

Here, the sludge storage hopper 100 may be provided with a quantitative transfer pump 110 for mixing and quantitatively transferring the sludge to be discharged through the discharge port to the sludge extruder 200.

The sludge extruder 200 is supplied with the target sludge discharged from the sludge storage hopper 100, and more specifically, the target sludge to be dried after being supplied with the target sludge mixed and quantified through the quantitative transfer pump 110. Is a part that is molded and discharged by a plurality of fine diameter hem. As such, the sludge extruder 200 allows the sludge to be dried to be molded and discharged into a plurality of fine-diameter rhythms, thereby increasing the drying efficiency while increasing the contact area with the heated air supplied from the high-temperature dryer 300 to be described later. . This, the sludge extruder 200 is installed to be connected to the sludge storage hopper 100 and the high-temperature dryer 300 to be described later, more specifically, a state disposed between the quantitative transfer pump 110 and the high-temperature dryer 300 It is installed to be connected to the fixed-quantity transfer pump 110 and the high-temperature dryer 300. Referring to FIG. 2, the sludge extruder 200 includes an extruded body 210, a clogging block 220, and a clogging preventing cylinder 230.

The extruded body 210 has a cylindrical shape in which a space is provided to receive and store the sludge to be dried, which is transferred through the quantitative transfer pump 110. The extruded sludge inlet 211 is formed at the upper end of the extruded body 210 to allow the sludge to be dried to flow, and the sludge to be dried is discharged at the bottom of the extruded body 210 into a plurality of fine diameters. A plurality of sludge extrusion nozzles 212 are formed to be spaced apart from each other.

The blockage preventer 220 prevents the sludge extrusion nozzle 212 from being clogged while moving in the vertical direction by the blockage preventing cylinder 230, so that the sludge to be dried is continuously and uniformly formed through the sludge extrusion nozzle 212. Allows molding discharge. The blockage preventer 220 is connected to the extruding body 210 so as to slide in the vertical direction from the inside of the extruding body 210. In addition, a plurality of extrusion nozzle insertion protrusions 221 are formed to protrude downward to correspond to the sludge extrusion nozzle 212 on the bottom surface of the blockage prevention unit 220, so that the sludge extrusion is performed when the blocking prevention unit 220 moves downward. As it is inserted into the nozzle 212, the sludge extrusion nozzle 212 is maintained in a through state.

The blockage preventing cylinder 230 generates a driving force to move the blockage preventing block 220 in the vertical direction. The blockage preventing cylinder 230 is installed and connected to the extrusion body 210 so that the rod is disposed vertically, and the rod end of the blockage preventing cylinder 230 is fixed to the blockage preventing block 220 in a connected state.

The high-temperature dryer 300 is a part to be dried by heating air after receiving the sludge to be dried discharged from the sludge extruder 200. The high temperature dryer 300 is installed to be connected to the sludge extruder 200 and the screw dryer 400 and the hot air supply 600 in a state located between the sludge extruder 200 and the screw dryer 400. Here, the high-temperature dryer 300 is dried so that the water content of the sludge to be dried is 68 to 72% with heated air supplied from the outside through the hot air supplyer 600 to be described later. Referring to FIG. 3, the high-temperature dryer 300 includes a hot air drying body 310 and a conveyor 320.

The hot air drying body 310 is a tubular member that provides a space for drying of the target sludge by receiving heated air from the sludge to be discharged from the sludge extruder 200 and the hot air supply 600. A hot air inlet 311 and a hot air outlet 312 connected to the hot air supply 600 are formed at the top of the hot air drying body 310. Here, the hot air inlet 311 allows the heating air supplied from the hot air supply 600 to flow into the hot air drying body 310, and the hot air outlet 312 has heated air heated by heating the sludge to be dried. 310) It is discharged to the outside. At this time, the hot air outlet 312 is provided with a suction discharge fan 312a, so that the hot air inside the drying body 310 can be sucked, and then a stable discharge can be made to the hot air supply 600 again.

In addition, a sludge drying inlet 313 is formed at an upper end side of the hot air drying body 310 to allow the sludge to be dried discharged from the sludge extruder 200 into the inside. In addition, a sludge drying outlet 314 is formed on the lower side of the hot air drying body 310 to discharge the sludge to be dried by heating air supplied from the hot air supplyer 600 while moving through the conveyor 320.

The conveyor 320 is installed inside the hot air drying body 310, so that the sludge to be dried flowing through the sludge drying inlet 313 of the hot air drying body 310 is moved in the direction of the sludge drying outlet 314. . Such, the conveyor 320 is installed to be placed in multiple steps in the hot air drying body 310 to increase the drying efficiency by increasing the drying time of the drying target sludge inside the hot air drying body 310. As such, as the conveyor 320 is arranged in multiple stages, the sludge to be dried is moved in a zigzag manner when moving from the inner top to the bottom of the hot air drying body 310.

The screw dryer 400 is a part to be discharged in a pellet form while drying the sludge to be dried first dried in the high-temperature dryer 300 again. The screw dryer 400 is installed to be connected to the high heat dryer 300 and the low heat dryer 500 in a state located between the high heat dryer 300 and the low heat dryer 500 to be described later. 4, the screw dryer 400 includes a screw drying body 410, a screw 420, a screw drive motor 430, a cutting knife 440, a heater 450.

The screw drying main body 410 is supplied with the target sludge to be discharged through the sludge drying outlet 314 formed in the hot air drying main body 310 of the high-temperature dryer 300 to mix and dry the target sludge. It is a cylindrical member providing. The sludge screw inlet 411 is formed at the upper end of the screw drying body 410 to allow the sludge to be dried to flow, and the sludge to be mixed and dried after flowing into the rear end of the screw drying body 410 is introduced into the inside. Sludge screw discharge port 412 to be discharged is formed.

The screw 420 is mixed with the sludge to be dried through the sludge screw inlet 411 into the inside of the screw drying body 410 in a crushed state, while the rear end of the screw drying body 410, more specifically, the sludge screw outlet (412) to be discharged. The screw 420 is installed so that the shaft tip portion is connected to the tip of the screw drying body 410 so as to be rotatably located inside the screw drying body 410.

The screw driving motor 430 generates a driving force to rotate the screw 420. The drive shaft of the screw drive motor 430 is installed to be connected to the shaft end of the screw 420.

The cutting knife 440 is mixed in a crushed state by a screw 420, so that the sludge to be dried discharged through the sludge screw outlet 412 is cut into a pallet shape of a constant length. The cutting knife 440 is installed to be connected to the rear end portion of the screw 420 so as to be positioned adjacent to the sludge screw outlet 412. As such, while the cutting knife 440 rotates corresponding to the rotation of the screw 420, the sludge to be dried is cut into a pallet shape of a predetermined length before discharging through the sludge screw discharge port 412.

The heater 450 heats and drys the sludge to be dried, which is mixed and moved in the crushed state inside the screw drying body 410 by the screw 420. The heater 450 is fixedly installed inside the screw drying body 410 and is a heating element that generates heat by a current supplied from the outside.

The low heat dryer 500 is a part to be dried with heated air after receiving the sludge to be dried discharged in a pellet form from the screw dryer 400. The low heat dryer 500 is installed to be connected to the screw dryer 400 and the drying pallet storage tank 700 and the hot air supply 600 in a state located between the screw dryer 400 and the drying pallet storage tank 700. Here, the low heat dryer 500 is heated to be supplied from the outside through the hot air supply 600 to dry so that the water content of the sludge to be dried is 10% or less. The low heat dryer 500 has the same structure as the high temperature dryer 300 described above. Referring to FIG. 3, the low heat dryer 500 includes a hot air drying body 510 and a conveyor 520.

The hot air drying body 510 is a tubular member that provides a space for drying the sludge to be dried by receiving heated air from the sludge to be discharged from the screw dryer 400 and the hot air supply 600. A hot air inlet 511 and a hot air outlet 512 connected to the hot air supply 600 are formed at the top of the hot air drying body 510. Here, the hot air inlet 511 allows the heating air supplied from the hot air supply 600 to be introduced into the hot air drying body 510, and the hot air outlet 512 is heated air heated by heating the sludge to be dried. 510) It is discharged to the outside. At this time, the hot air outlet 512 is provided with a suction discharge fan 512a, so that the heated air inside the hot air drying body 510 can be sucked and stable discharge can be made to the hot air supply 600 again.

In addition, a sludge drying inlet 513 is formed on the upper side of the hot air drying body 510 to allow the sludge to be discharged from the screw dryer 400 to flow into the inside. In addition, a sludge drying outlet 514 is formed on the lower side of the hot air drying body 510 to discharge the sludge to be dried by heating air supplied from the hot air supplyer 600 while moving through the conveyor 520.

The conveyor 520 is installed inside the hot air drying body 510, so that the sludge to be dried flowing through the sludge drying inlet 513 of the hot air drying body 510 is moved toward the sludge drying outlet 514. . Such, the conveyor 520 is installed to be arranged in multiple stages in the hot air drying body 510 to increase the drying efficiency by increasing the drying time of the sludge to be dried inside the hot air drying body 510. As such, as the conveyor 520 is arranged in multiple stages, the sludge to be dried is moved in a zigzag manner when moving from the inner top to the bottom of the hot air drying body 510.

The hot air supply 600 is a portion to supply heating air to the high heat dryer 300 and the low heat dryer 400. More specifically, the hot air supply 600 is a hot air drying body (310,510) to supply / discharge heating air to the hot air drying body (310) of the high temperature dryer (300) and the hot air drying body (510) of the low heat dryer (500). ) Is installed to be connected to the hot air inlet (311,511) and hot air outlet (312,512). The hot air supply 600 includes a high heat burner 610, a low heat burner 620, a high heat heat exchanger 630, a low heat heat exchanger 640, and a phase separation scrubber 650.

The high-temperature burner 610 is a burner that supplies heated air to the high-temperature dryer 300 after being heated by receiving external air. The high temperature burner 610 is installed to be connected to the hot air inlet 311 formed in the hot air drying body 310 of the high temperature dryer 300.

The low heat burner 620 is a burner that supplies heating air to the low heat dryer 500 after being heated by receiving external air. The low heat burner 610 is installed to be connected to the hot air inlet 511 formed in the hot air drying body 510 of the low heat dryer 500.

The high-temperature heat exchanger 630 receives the gas discharged after heating the sludge to be dried inside the hot air drying body 310 of the high-temperature dryer 300, and then heats the external air supplied to the high-temperature burner 610. do. The high temperature heat exchanger 630 is installed to be connected to the hot air outlet 312 and the high temperature burner 610 and the phase separation scrubber 650 formed in the hot air drying body 310 of the high temperature dryer 300. As such, the high-temperature heat exchanger 630 allows the external air supplied to the high-temperature burner 610 to be heated with the gas discharged from the high-temperature dryer 300 while reducing fuel consumption when heating the air through the high-temperature burner 610. do.

The low heat heat exchanger 640 receives the gas discharged after heating the sludge to be dried inside the hot air drying body 510 of the low heat dryer 500, and then heats the external air supplied to the low heat burner 510. do. The low heat exchanger 640 is installed to be connected to the hot air outlet 512 formed on the hot air drying body 510 of the low heat dryer 500 and the low heat burner 620 and the phase separation scrubber 650. As such, the low heat heat exchanger 640 allows the external air supplied to the low heat burner 620 to be heated with gas discharged from the low heat dryer 500 while reducing fuel consumption when heating air through the low heat burner 620. do.
The phase separation scrubber 650 is connected to the high-temperature heat exchanger 630 and the low-heat heat exchanger 640 to electrolyze and chemically treat harmful substances in the gas discharged from the high-heat heat exchanger 630 and the low-heat heat exchanger 640. After being filtered, the gas is released into the atmosphere.

The drying pallet storage tank 700 is a tubular portion for storing dried pellet sludge to be discharged from the low heat dryer 500. The drying pallet storage tank 700 is installed to be connected to the sludge drying outlet 514 formed in the hot air drying body 510 of the low heat dryer 500. Here, in the drying pallet storage tank 700, the drying target sludge in the form of a pallet to be introduced into the drying target sludge dried in the form of a pellet is discharged from the sludge drying discharge port 514, and the drying target sludge in the form of a pallet stored therein is discharged to the outside. An outlet (not shown) may be formed.

As described above, the drying operation of the sludge to be dried using the sludge drying apparatus according to the exemplary embodiment will be described with reference to FIGS. 1 to 4 as follows.

First, the sludge to be dried after being generated in the sewage treatment process and treated to a water content of about 80% through a dehydrator is stored in the sludge storage hopper 100, and the sludge extruder 200 by the quantitative transfer pump 110 ) Is fed into the extruded body 210 and mixed and quantitatively.

The sludge to be dried supplied to the extruded body 210 of the sludge extruder 200 is formed and discharged through a plurality of slender diameter rhythms through the sludge extrusion nozzle 212. Thereafter, after the discharge of the sludge to be dried supplied to the extruded body 210 is completed, the clogging preventing cylinder 220 is operated to move the clogging preventing tube 220 downward, and the extrusion nozzle insertion protrusion 221 is sludged. After being inserted into the extrusion nozzle 212, the clogging preventing member 220 is moved upward, thereby maintaining the state in which the sludge extrusion nozzle 212 has penetrated.

In this way, the sludge to be discharged to be molded and discharged by a plurality of fine diameter rhythms is supplied to the hot air drying body 310 through the sludge drying inlet 313 of the high-temperature dryer 300. Then, the sludge to be dried is moved in a zigzag manner through the conveyor 320 inside the hot air drying body 310. At this time, the sludge to be dried through the heated air flowing into the hot air drying body 310 of the high temperature dryer 300 through the high temperature burner 610 of the hot air supply 600 while drying has a water content of 68 to 72% The furnace is discharged through a sludge drying outlet 314.

Thereafter, the sludge to be discharged from the high-temperature dryer 300 is supplied into the screw drying body 410 through the sludge screw inlet 411 formed in the screw drying body 410 of the screw dryer 400. In this way, the sludge to be dried supplied to the inside of the screw drying body 410 is evenly mixed again through the screw 420 rotated by the screw drive motor 430, and then moves to the sludge screw outlet 412. At this time, the heater 450 installed inside the screw drying body 410 is dried while heating the sludge to be dried.

Thus, after the sludge to be dried moved by the screw 420 is discharged through the sludge screw outlet 412 in the form of a pallet of a certain length by the cutting knife 440, the hot air drying body of the low heat dryer 500 ( 510) It is supplied to the inside.

As described above, the sludge to be dried supplied to the hot air drying body 510 of the low heat dryer 500 is moved in a zigzag manner through the conveyor 520 inside the hot air drying body 510. At this time, the sludge to be dried through the heated air flowing into the hot air drying body 510 of the low heat dryer 500 through the low heat burner 620 of the hot air supply 600 while being dried has a moisture content of 10% or less. It is discharged through the sludge drying outlet 514 of the low heat dryer 500.

The sludge to be dried after being dried in the low heat dryer 500 is supplied to the drying pallet storage tank 700 to be stored in the form of pellets.

In this way, the sludge drying apparatus according to an embodiment, after the sludge to be dried stored in the sludge storage hopper 100 is formed and discharged from the sludge extruder 200 into a plurality of fine-diameter rhythms, the multi-stage conveyor 320 Is delivered to the high-temperature dryer 300 is provided is primarily dried by heating air. Then, the sludge to be dried is formed in a pellet form in the screw dryer 400 and then transferred to the low heat dryer 500 provided with a multi-stage conveyor 520 to be dried secondarily by heating air, thereby drying the sludge to be dried. Stably.

In addition, after the gas discharged from the high-temperature dryer 300 and the low-heat dryer 500 is transferred to the hot air supplyer 600, fuel consumption can be reduced through heat exchange and discharged to the outside through a phase separation scrubber 650. By doing so, it is possible to prevent environmental pollution.

Although the present invention has been described with reference to the embodiments shown in the drawings, these are merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be defined by the technical spirit of the appended claims.

100: sludge storage hopper 110: quantitative transfer pump
200: sludge extruder 210: extruded body
220: blockage block 230: blockage preventing cylinder
300: high temperature dryer 310,510: hot air drying body
320,520: Conveyor 400: Screw dryer
410: screw drying body 420: screw
430: screw drive motor 440: cutting knife
450: heater 500: low heat dryer
600: hot air supply 610: high temperature burner
620: low heat burner 630: high temperature heat exchanger
640: low heat exchanger 650: phase separation scrubber
700: drying pallet storage tank

Claims (5)

A sludge storage hopper for storing sludge to be dried having a water content of 80%;
A sludge extruder connected to the sludge storage hopper, and after receiving the sludge to be dried from the sludge storage hopper, discharge the sludge to be dried to a certain size;
It is connected to the sludge extruder, after receiving the sludge to be dried from the sludge extruder, a high-temperature dryer to be dried with heated air while moving the conveyor so that the sludge to be dried has a water content of 68 to 72%;
A screw dryer connected to the high-temperature dryer to dry the sludge to be dried in the high-temperature dryer while being dried by a heater while being moved to a crushed state by a rotating screw, and then discharged in a pellet form;
A low heat dryer connected to the screw dryer and drying with heated air while moving the conveyor so that the sludge to be dried in the form of pellets discharged from the screw dryer has a water content of 10% or less;
A hot air supplyer connected to the high-temperature dryer and the low-heat dryer to supply heated air to the high-temperature dryer and the low-heat dryer; And
Included in connection with the low heat dryer, a drying pallet storage tank for storing the sludge to be dried in the form of dried pellets discharged from the low heat dryer.
The sludge extruder is formed with an extruded sludge inlet for introducing sludge to be dried at the top, and a cylindrical extruded body having a plurality of sludge extruded nozzles spaced apart from each other at the bottom, and sliding up and down inside the extruded body. It is installed to be movable, and the bottom face is provided with a plurality of extruded nozzle insertion protrusions corresponding to a sludge extruded nozzle, and is installed on the extruded body, and the rod end is connected to the clogged preventive body so that the clogged preventive body is connected to the extruded body. The sludge extrusion nozzle is continuously and uniformly dried through the sludge extrusion nozzle by preventing the sludge extrusion nozzle from being clogged while the clogging prevention block moves up and down by a clogging prevention cylinder, including a clogging prevention cylinder that generates a driving force to move in the vertical direction from the inside. To be discharged in one form,
The high-temperature dryer and the low-heat dryer are formed with a hot air inlet through which hot air is introduced from the hot air supply and a hot air outlet through which heated air that is heated after drying the sludge to be dried is discharged. A hot-air drying body having a barrel structure having a sludge drying inlet and a sludge drying outlet to be discharged, and a plurality of stages installed inside the hot-air drying body, the sludge to be dried flowing through the sludge drying inlet from the top of the hot-air drying body. It includes a plurality of conveyors to be moved in a downward direction zigzag,
The hot air supply unit is connected to the high-temperature dryer, and is supplied with external air to heat the high-temperature burner to supply heated air to the high-temperature dryer, and is connected to the low-temperature dryer to receive external air to heat the low-temperature dryer. A low-heat burner for supplying heating air, a high-temperature heat exchanger connected to the high-temperature dryer and the high-temperature burner, receiving the gas discharged after heating the sludge to be dried in the high-temperature dryer, and heating the external air supplied to the high-temperature burner, A low heat heat exchanger connected to the low heat dryer and a low heat burner, receiving the gas discharged after heating the sludge to be dried in the low heat dryer, and heating the external air supplied to the low heat burner, and the high heat heat exchanger and low heat heat exchanger Is connected, electrolyzes harmful substances in the gas discharged from the high heat exchanger and the low heat exchanger, and A sludge drying apparatus comprising a phase-separated scrubber that allows gas to be discharged into the atmosphere after being filtered by chemical treatment.


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