KR102084611B1 - Apparatus for treating organic sludge - Google Patents

Abstract

The present invention relates to a sludge processing apparatus which can reduce the amount of sludge while processing the sludge, can reduce energy consumption, and can provide powdered sludge. In particular, the sludge processing apparatus comprises: a first sludge storage hopper for drying a first sludge, which is organic waste such as sewage/wastewater and food wastes; a first dryer for drying the first sludge discharged from the sludge storage hopper by means of microwaves, to produce a second sludge; a second dryer for drying, for a second time, the second sludge dried by the first dryer by means of hot air, to produce a third sludge; a contamination prevention device including a cleaning scrubber and an adsorption-type deodorizer, and eliminating moisture and contaminants generated in the first dryer and the second dryer, to release the same into the atmosphere; and a third dryer for grinding and drying the third sludge. Thus, the sludge processing apparatus can reduce the amount of sludge and minimize energy consumption.

Description

Sludge treatment device {APPARATUS FOR TREATING ORGANIC SLUDGE}

The present invention relates to an apparatus for treating sludge, which is organic waste such as wastewater and food waste, and in particular, it is possible to reduce the amount of sludge during the treatment of sludge, reduce energy consumption, and provide powdered sludge. It relates to a sludge treatment device.

Recently, as the economy has developed, the penetration rate of water and sewage has been increasing, and sludge treatment has become a social problem due to the large amount of sludge generated in waterworks and related businesses. The treatment of sludge is mostly dependent on landfill or ocean dumping, but in the situation where ocean dumping is prohibited according to the international environmental agreement and reclamation is prohibited by strengthening domestic environmental laws, it is required to supplement the sludge treatment method.

The conventional general method of dewatering sewage sludge and reclaiming it together with general waste is that it is difficult to enter a working vehicle due to high water content of sewage sludge and organic matter, etc., and general waste due to changes in living standards, etc. There is a problem in that mixing and landfilling is becoming difficult due to property changes. In addition, when relying on incineration methods, there are problems such as heavy operation costs due to the strong repulsion of local residents and high water content of sludge (70 ~ 85%) for the construction of incinerators.

Therefore, a drying system that uses a variety of energy, such as microwaves and hot air, to escape the incineration method to dry the sludge has become the mainstream.

Such a sludge drying system is an apparatus for efficiently drying sludge by narrowly arranging a disk pitch, a source of heat, to a point at which a certain function is dried by receiving sludge having a high initial water content.

Referring to FIG. 1, the state of the sludge in the indirect heat drying process of sewage sludge in the sludge drying system is section A: water content is 80 to 65%, or the state of the paste is soft, section B: 65 to 55% is viscous. Strong semi-solid state, C section: 55 ~ 50% changes to a large lump shape, D section: 50% or less changes to a small lump shape.

Looking at the dry state of the sludge in each section, in the AB section, it is easily spread over the heat transfer surfaces (disks and jackets), where the heat transfer and moisture evaporation are rapidly caused by vigorous stirring / mixing (constant rate drying section). In the section where the water evaporation rate gradually decreases due to heat exchange / drying with the heat transfer surface (decreasing drying section), in the D section, the water content of the sludge is dried and granulated by the stirring blade and the heat transfer surface as the water content of the sludge is low. Is lowered.

Therefore, in the above-described sludge drying system, the sludge is not quickly dried at the initial stage, and thus the drying efficiency is notably reduced, and there is a problem that the sludge having strong adhesion is not dried at all.

An example of a technique for solving this problem is disclosed in documents 1 to 3 below.

For example, in Patent Document 1 below, a pulverizer for pulverizing sludge to form crushed sludge, a quicklime input means for adding quicklime to the crushed sludge to obtain a quicklime input sludge, and mixing the quicklime input sludge to obtain a quicklime input mixed sludge Mixer and quicklime input provided by the mixer comprises a moisture evaporation means for evaporating the moisture of the mixed sludge to obtain a moisture evaporation sludge, wherein the quicklime input means prevents re-agglomeration of the pulverized sludge and evenly deposits the quicklime In order to mix, the quicklime, which accounts for 4 to 8% by weight of the total weight of the crushed sludge, is first introduced first, and then the quicklime, which accounts for 20 to 40% by weight, based on the total weight of the crushed sludge to reduce the moisture of the crushed sludge 2 Disclosed is a sludge treatment device for injecting tea.

In addition, Patent Document 2 includes a dryer for drying sludge with steam and a sludge supply device for supplying the sludge to the dryer, wherein the sludge supply device is a screw for moving the sludge supplied from the outside toward the dryer, from the dryer. It includes an air distribution unit that receives a discharged air and provides a path through which air can flow, and a discharge unit that discharges sludge moved by the screw to the dryer, and the sludge dryer discharges by a screw of the sludge supply device. Sludge input unit for receiving the sludge to be input, a disk unit for heating the sludge while rotating in the sludge input through the sludge input unit, located at the rear end of the disk unit, the sludge heated by the disk unit is below the dryer And move up Disclosed is a sludge drying apparatus comprising a sludge filling section to heat and a microwave supply section to generate microwaves.

On the other hand, in the following Patent Document 3, a dewatering sludge storage tank in which dewatered sludge is stored, a sludge mixing tank in which a part of the dried sludge discharged from the dryer below is mixed with the dewatered sludge discharged from the dewatered sludge storage tank to form a mixed sludge, and the sludge mixing Disclosed is a water content-controlled sludge drying apparatus including a dryer for blowing dry sludge by blowing high-temperature dry air into a mixed sludge discharged from a tank, and a cyclone dust collector in which dry sludge in the impregnated gas discharged from the dryer is collected.

Republic of Korea Registered Patent Publication No. 10-1301122 (2013.08.22 registered) Republic of Korea Registered Patent Publication No. 10-0955269 (registered on April 21, 2010) Republic of Korea Registered Patent Publication No. 10-0375819 (2003.02.23 registered)

In the technology disclosed in the patent document as described above, in order to reduce the water content and the bacterial content of the sludge, energy costs are increased when the sludge is heated and dried. Since it is an alumina-based cement, there is a problem that the material cost increases.

That is, if the sludge solidifies in the process of lowering the water content of the sludge, there is a problem that the load is excessively used due to the load in the process of frictional contact of the hardened sludge inside a mechanical device such as a dryer.

In addition, in the technology disclosed in Patent Document 3, sawdust is used as a moisture control agent, and the water content is lowered by mixing sludge and sawdust having a water content of about 80%, thereby increasing the total amount of sludge according to the mixing of sludge and sawdust. There was a problem that the manufacturing cost increases with the addition.

An object of the present invention is to solve the problems as described above, it is to provide a sludge treatment apparatus that can reduce energy consumption by drying the sludge in multiple stages.

Another object of the present invention is to provide a sludge treatment apparatus capable of reducing the amount of sludge produced by pulverizing sludge without using sawdust or quicklime.

Another object of the present invention is to provide a sludge treatment apparatus capable of preventing the failure of the apparatus by removing the solidification section of the sludge.

In order to achieve the above object, the sludge treatment apparatus according to the present invention includes a first sludge storage hopper for storing a first sludge which maintains a water content of 85 to 65%, which is organic waste such as waste water and food waste, and the sludge. A first dryer that raises the temperature of the first sludge discharged from the storage hopper to 70 ° C. to 80 ° C. in a microwave to dry it to produce a second sludge with a water content of 60 to 70%, and the product dried in the first dryer. 2 The inspection hopper temporarily storing sludge, the second sludge with a water content of 60 to 70% dried in the first dryer, and the sludge with a water content of around 20% at a ratio of 1: 2 are mixed at a ratio of 1: 2 to a third with a water content of 40% or less. The second dryer for generating sludge, and the first dryer and the second dryer are connected by piping, and provided with a cleaning scrubber and an adsorption deodorizer to generate moisture in the first dryer and the second dryer. Pollution preventer that removes contaminants and releases it into the air, and supplies a third sludge storage hopper for temporarily storing the third sludge generated in the second dryer, and a third sludge stored in the third sludge storage hopper to be crushed. A third dryer for drying, wherein the first dryer includes a first hot air shaft for supplying hot air to the first sludge, a screw mounted on the first hot air shaft to transfer the first sludge while drying, and the For generating a second sludge by irradiating microwaves to a first sludge moving by a screw, a microwave generating part, and a first heat insulating jacket to prevent heat dissipation in the first dryer using heat oil and an electric heater, and for rapid heating Consisting of a boiler, the second dryer is mounted on the second hot air shaft and the second hot air shaft that supplies hot air to the second sludge. A pair of stirrers for stirring the second sludge, a second heat insulating jacket to prevent heat dissipation in the second dryer using heat oil and an electric heater, and a hot air supply provided on the second heat insulating jacket, and the second It is composed of a bag filter for blocking dust generated during secondary drying of the sludge, and a boiler for rapid heating, wherein the third dryer includes a pulverizer for pulverizing the third sludge in the form of particles, and a pulverized agent 3 A drying tank that discharges and dries the internal water of the sludge, a pump that sprays the third sludge crushed by the grinder into the drying tank, and a heater that dries the third sludge in the form of particles sprayed by a pump in the drying tank. Wow, a discharge hole is formed in a motor for rotating the third sludge in the shape of a particle, a rotating blade rotated by a motor, and a V-shaped protrusion plate rotated by a motor. Characterized in that it consists of a rotating plate.

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In addition, in order to achieve the above object, the sludge treatment process according to the present invention is a process of treating organic wastes such as waste water and food waste, (a) storing the first sludge in a sludge storage hopper, (b) Generating a second sludge by drying the first sludge discharged from the sludge storage hopper with microwaves and hot air in a first dryer, and (c) drying the second sludge with hot air in a second dryer to produce a third sludge. And (d) crushing and drying the third sludge in a third dryer, and moisture and contamination generated in the second sludge generation and the third sludge generation in steps (b) and (c). The material is removed from a pollution preventer equipped with a cleaning scrubber and an adsorptive deodorizer and released into the atmosphere. In step (b), the first sludge is moved with a screw and the microwave and Drying with hot air to produce a second sludge with a water content of 60 to 70%, and in step (c), mixing the second sludge with a water content of 60 to 70% with a water content of about 20% and sludge at a ratio of 1: 2 to a water content of 40% The following third sludge is produced, only a portion of the third sludge is discharged, and in the step (d), the third sludge is crushed and sprayed with a pump, followed by drying.

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As described above, according to the sludge treatment apparatus according to the present invention, in the first dryer, the temperature of the first sludge is raised to 70 ° C to 80 ° C to generate the second sludge with a water content of 60 to 70%, and the second By mixing the second sludge with a water content of 60 to 70% and the sludge with a water content of around 20% at a ratio of 1: 2 in the dryer, the third sludge is produced with a water content of 40% or less, preventing solidification of the sludge and The effect that the obstacle can be eliminated and the amount of sludge produced can be reduced.

In addition, according to the sludge treatment apparatus according to the present invention, when the sludge in which the water content of the sludge is about 37% in the second sludge generation process in the second dryer 500 is injected into the interior of the second dryer 500 that is heated hot , Since the sludge particles to be sprayed become small, it can be easier to dry than a bulky lump, so that an effect of operating about 10% of the conventional energy consumption is also obtained.

1 is a graph showing the sludge state according to the water content change in the sludge dryer,
Figure 2 is a perspective view of a sludge treatment apparatus having a first dryer and a second dryer according to the present invention,
Figure 3 is a side view of the sludge treatment apparatus shown in Figure 2,
Figure 4 is a plan view of the sludge treatment apparatus shown in Figure 2,
5 is a view showing the structure of the first dryer shown in FIG. 2,
6 is a view showing the structure of the second dryer shown in FIG. 2,
7 is a cross-sectional view of a third dryer applied to a sludge treatment apparatus according to the present invention,
8 is a process diagram for explaining a sludge treatment process according to the present invention.

The above and other objects and new features of the present invention will become more apparent through the description and accompanying drawings of the present specification.

As used herein, the term "first sludge" means organic wastes such as waste water and food waste of 85 to 65% of water content collected in a non-processed state by the sludge treatment apparatus according to the present invention. "2 sludge" means that the above-described first sludge is treated with a water content of 60 to 70%, and "third sludge" means that the above-described second sludge is treated with a water content of 40% or less.

First, an outline of the sludge treatment apparatus according to the present invention will be described.

Various sludges due to waste water, food waste, etc. have a water content of about 80% and are soft like porridge. When sludge is 85 ~ 65%, the sludge is usually soft, and when it is 65 ~ 40%, it becomes solid like a stone and becomes powdered when the water content is below 40%.

In the present invention, after drying the sludge having a water content of 80 to 85% using microwaves so that the water content is 60 to 65%, the dried sludge having a water content of 60 to 65% and a water content of 20% sludge dried. Moisture control agent) is put into an exothermic dryer and mixed to make it dry secondly so that the water content is 37%, and further dry as desired to further lower the water content.

The dried sludge is finally powdered to become a feedstock, compost, germ-killing products such as foot and mouth disease, and fuel.

Hereinafter, embodiments according to the present invention will be described according to the drawings.

2 is a perspective view of a sludge treatment apparatus having a first dryer and a second dryer according to the present invention, FIG. 3 is a side view of the sludge treatment apparatus shown in FIG. 2, and FIG. 4 is a sludge treatment apparatus shown in FIG. It is a top view.

Sludge treatment apparatus according to the present invention, as shown in Figures 2 to 4, the first sludge storage hopper 100 for storing organic waste, such as waste water and food waste, the first sludge 100, the sludge storage hopper ( 100) a first dryer 200 to generate a second sludge by drying the first sludge discharged from microwaves, a check hopper 300 temporarily storing the second sludge dried in the first dryer, a cleaning scrubber and an adsorption type Contamination preventer 400 equipped with a deodorizer, a second dryer to generate a third sludge by second drying with hot air by introducing a second sludge into the inspection hopper 300 in which the second sludge dried in the first dryer is stored (500), a third dryer (700) for crushing and drying the third sludge stored in the third sludge storage hopper (600) temporarily storing the third sludge produced by the second dryer (500) .

The pollution preventer 400 removes moisture and contaminants generated in the first dryer 200 and the second dryer 500 connected by piping and discharges them into the atmosphere.

The mechanical configuration of the first sludge storage hopper 100 to the third sludge storage hopper 600 is interlocked to enable continuous operation, as illustrated in FIGS. 2 to 4.

The first sludge storage hopper 100 is a conventional storage hopper, for example, it can be installed in an existing sewage treatment plant and utilize a running hopper, and is reduced to a water content of 85 to 65% through a dehydrator. The sludge is transported, supplied and stored by a conveyor, and the first sludge may be configured to be supplied to the first dryer 200 in a quantitative manner by a quantitative supply device formed at an outlet of the first sludge storage hopper 100.

Next, the first dryer 200 will be described according to FIG. 5.

5 is a view showing the structure of the first dryer shown in FIG. 2, FIG. 5 (a) is a cross-sectional view of the first dryer 200, and FIG. 5 (b) is a side view of the first dryer 200 to be.

As shown in FIG. 5, the first dryer 200 is mounted on the first hot air shaft 210 and the first hot air shaft 210 that supplies hot air to the first sludge, and the first sludge Screw 220 for conveying while drying, microwave generating unit 230 for irradiating microwaves to the first sludge moved by the screw 220 to generate a second sludge, using the oil and electric heater 1 includes a first thermal insulation jacket 240 to prevent heat dissipation in the dryer 200, and a boiler 250 for rapid heating.

That is, the inside of the first dryer 200 is formed in a substantially cylindrical shape, as shown in Fig. 5 (a), maintaining the temperature of the thermal insulation jacket 240 as a heating oil and electric heater and boiler 250 Prevents heat dissipated from the first dryer 200 to the outside by rapid heating to increase thermal efficiency.

In addition, the water content of the first sludge is adjusted to about 60 to 70%, preferably 65%, with the electromagnetic wave from the microwave generator 230 and the hot air from the first hot air shaft 210, and the temperature of the first sludge is 70 The second sludge is produced by increasing the temperature from 80 ° C to 80 ° C. The moisture evaporated from the first dryer 200 is discharged to the pollution preventer 400.

The microwave generator 230 may be a magnetron in a general form, and as illustrated in FIG. 5B, is provided on the first hot air shaft 210. In addition, the hot air emitted from the first hot air shaft 210 may be discharged omnidirectionally with the rotation of the screw 220.

The first dryer 200 is a device for preheating and drying the first sludge to minimize energy consumption by dispersing and supplying a small amount of energy for 24 hours.

That is, the first dryer 200 according to the present invention compensates for the problem that the amount of sludge to be reduced is further increased by using a moisture regulator such as sawdust in order to adjust the first sludge having a water content of about 85% to about 65%. It is provided to, and the second sludge in which the water content of the first sludge is adjusted to about 65% by a preheating device composed of the microwave generator 230 and the first hot air shaft 210 may be provided.

As described above, the second sludge whose water content is adjusted is discharged from the first dryer 200 to the inspection hopper 300 through the screw 220. Subsequently, the second sludge temporarily stored in the inspection hopper 300 is supplied to the second dryer 500.

The pollution preventer 400 may apply, for example, a cleaning scrubber.

The cleaning scrubber sprays water on a gaseous substance, so that gas and water are reacted in contact with each other on the surface of the filling to absorb and remove it and release clean air to the atmosphere. This cleaning scrubber washes the exhaust exhausted by droplets, liquid films, bubbles, and the like to adhere to the particles and promote aggregation between particles to separate particles. The liquid used is usually water, but in special cases, surfactants may be mixed, and once recycled water may be recycled.

Next, the second dryer 500 will be described with reference to FIG. 6.

6 is a view showing the structure of the second dryer shown in FIG. 2, FIG. 6 (a) is a side view of the second dryer 500, and FIG. 6 (b) is a cross-sectional view of the second dryer 500 6 (c) is an internal configuration diagram of the second dryer 500.

The second sludge supplied from the inspection hopper 300 is introduced into the inlet 501 shown in FIG. 6.

The second dryer 500 is mounted on the second hot air shaft 510 and the second hot air shaft 510 to supply hot air to the second sludge, as shown in FIG. A pair of stirrers 520 for stirring the second sludge, a second heat insulating jacket 530 to prevent heat dissipation in the second dryer 500 using heat oil and an electric heater, and the second heat insulating jacket 530 ), A hot air supply 540, a boiler 570 for rapid heating, and a bag filter 550 for blocking dust generated during secondary drying of the second sludge, and the pair of agitators 520 ) Is operated by a motor 511 as shown in FIG. 6 (a) and a rotary joint 512 coupled to the motor 511.

The inside of the second dryer 500 is also formed in a substantially cylindrical shape, as shown in Fig. 6 (c), in the second dryer 500 with a second insulating jacket 530 using a heating oil and an electric heater It prevents heat dissipated to the outside and increases the thermal efficiency.

In addition, in the second dryer 500 according to the present invention, a bag filter 550 is provided to initially block dust generated during drying to prevent dust and the like accumulated in the piping in advance, so that the air from which the dust has been removed is a bag filter 550. And discharged through the exhaust port 560. The discharged air and moisture are discharged to the pollution preventer 400.

In the second dryer 500 according to the present invention, the second sludge with the hot water of the second hot air shaft 510 and the hot air supply 540 may provide the third sludge having a water content of 40% or less. The third sludge is dried so that the water content can be adjusted according to the required use. That is, depending on the application, it can be made into a powder form or dried with a molding machine to allow pellet fuel.

Generally, due to the characteristics of sludge, granulation (solidification) occurs from about 60% to about 40% water content.

In the second dryer 500 according to the present invention, a second sludge having a water content of about 65% and a sludge of about 20% with a water content of 1: 2 are mixed using a pair of agitators 520 to achieve a combined water content of 40% or less. 3 Sludge is generated to prevent the solidification section as shown in FIG. 1.

Therefore, in the second dryer 500, there are always 20% of sludge at a rate of 2, and 65% of the second sludge is 1 at a rate.

The second sludge stirred in the second dryer 500 may supply a small amount of energy by dispersing it for 24 hours to minimize the energy required. The second dryer 500 discharges the third sludge dried after 24 hours by a ratio of 1, and inputs the second sludge of about 65% by a ratio of 1.

The third sludge discharged from the second dryer 500 is stored in the third sludge storage hopper 600.

Next, as applied to the sludge treatment apparatus according to the present invention, a third dryer 700 for receiving and crushing and drying the third sludge stored in the hopper 600 will be described according to FIG. 7.

7 is a cross-sectional view of a third dryer applied to a sludge treatment apparatus according to the present invention.

The third sludge stored in the third sludge storage hopper 600 is injected quantitatively through the inlet 701 shown in FIG. 7.

The third dryer 700 is formed in a substantially funnel shape, a pulverizer 710 for pulverizing the third sludge introduced into the inlet 701 into a particle shape, and drying the third sludge crushed by the grinder 710 It includes a drying tank 730, a pump 720 for spraying the third sludge crushed in the grinder 710 into the drying tank 730. A pair of crushing rollers 711 are provided at an upper portion in the pulverizer 710, and the third sludge crushed into a particle shape by the crushing roller 711 is dropped toward the pump 720,

In the drying tank 730, a heater 731 for drying the third sludge in the form of particles sprayed by the pump 720, and a rotating member for rotating the third in form of sludge are provided, and the rotating member Includes a motor 740, a rotating blade 741 rotating by the motor 740, a rotating plate 750 rotated by the motor 740, and formed in a V-shape and provided with a protrusion plate 751. A discharge hole for discharging particles is formed in the concave portion of the rotating plate 750.

The heater 731 is provided in a direction opposite to the pump 720 as shown in FIG. 7 to heat and dry the particles of the injected third sludge. That is, the above-described particles are dried in the process of being injected in the drying tank 730 heated by the heater 731, and dried again while hitting the inner wall surface of the drying tank 730. In addition, in the drying process, the particles described above temporarily exist in the air in the drying tank 730 by the rotation of the rotating blade 741 and then fall to the rotating plate 750, and the protrusion plate 751 according to the rotation of the rotating plate 750 After repeating the process of going up and down by), it is discharged to the discharge hole.

Next, the sludge treatment process according to the present invention will be described with reference to FIG. 8.

8 is a process diagram for explaining a sludge treatment process according to the present invention.

The sludge treatment process according to the present invention is a process of treating organic wastes such as waste water and food waste, and first, as shown in FIG. 8, the first sludge is stored in the first sludge storage hopper 100 (S10) ).

Next, the first sludge discharged quantitatively from the first sludge storage hopper 100 is dried in a first dryer 200 by microwaves and hot air to generate a second sludge (S20). In the step (S20) of generating the second sludge, the first sludge is moved with a screw and dried with microwaves and hot air to generate a second sludge having a water content of 60 to 70%, preferably 65%.

Subsequently, the second sludge is dried by hot air in the second dryer 500 to generate a third sludge (S30), and then the third sludge is crushed and dried in the third dryer 700 (S40).

The water and contaminants generated in the second sludge generation and the third sludge generation in the second sludge generation (S20) and the third sludge generation (S30) are contaminated with a cleaning scrubber and an adsorption deodorizer. It is removed from the preventer 40 and released into the atmosphere.

In the step of generating the third sludge (S30), a second sludge having a water content of 60 to 70% and a sludge having a water content of about 20% or more are mixed at a 1: 2 ratio to generate a third sludge having a water content of 40% or less, 3 Only a portion of the sludge is discharged, and in the step of crushing and drying the third sludge (S40), the third sludge is crushed and sprayed with a pump, followed by drying.

That is, in the present invention, when the sludge in which the water content of the sludge is about 37% in the process of generating the third sludge in the second dryer 500 is injected into the inside of the third dryer 700 that is heated hot, the injected sludge particles are small. It can be easier to dry than a lumpy, bulky mass.

As described above, since the sludge treatment apparatus according to the present invention does not use sawdust or the like, the amount of sludge is reduced and energy consumption can be minimized by recycling the sludge dried in the third dryer.

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The reference numeral "580" in the reference numeral is a heat oil pipe.

By using the sludge treatment apparatus according to the present invention, the amount of sludge is reduced, and energy consumption can be minimized.

200: first dryer
400: pollution preventer
500: second dryer
700: third dryer

Claims (8)

A first sludge storage hopper for storing the first sludge maintained in a state of 85-65% water content, which is organic waste,
A first dryer to increase the temperature of the first sludge discharged from the sludge storage hopper to 70 ° C to 80 ° C in a microwave and dry it to generate a second sludge with a water content of 60 to 70%,
Inspection hopper temporarily storing the second sludge dried in the first dryer,
A second dryer for mixing the second sludge with a water content of 60 to 70% and sludge having a water content of about 20% at a ratio of 1: 2 dried in the first dryer to produce a third sludge with a water content of 40% or less;
The first dryer and the second dryer are connected by a pipe, and a cleaning scrubber and an adsorption type deodorizer are provided to remove moisture and contaminants generated in the first dryer and the second dryer and release them into the air.
A third sludge storage hopper for temporarily storing the third sludge generated in the second dryer,
And a third dryer for receiving and crushing and drying the third sludge stored in the third sludge storage hopper,
The first dryer includes a first hot air shaft for supplying hot air to the first sludge, a screw mounted on the first hot air shaft to transport the first sludge while drying, and a first sludge moved by the screw. It is composed of a microwave generating unit that irradiates microwaves to generate a second sludge, a first thermal insulation jacket that prevents heat dissipation in the first dryer using a heating oil and an electric heater, and a boiler for rapid heating,
The second dryer includes a second hot air shaft for supplying hot air to the second sludge, a pair of agitators mounted on the second hot air shaft to stir the second sludge, and heating oil and electric heater. A second thermal insulation jacket to prevent heat dissipation in the second dryer, a hot air supply provided on the second thermal insulation jacket, a bag filter to block dust generated during secondary drying of the second sludge, and a boiler for rapid heating It consists of,
The third dryer includes a pulverizer for pulverizing the third sludge into a particle shape, a drying tank for discharging and drying the internal water of the third sludge pulverized by the pulverizer, and a third sludge crushed by the grinder into a drying tank. A pump to spray, a heater to dry the third sludge in the form of particles sprayed by a pump in the drying tank, a motor to rotate the third sludge in the form of particles, a rotating blade to be rotated by the motor, and a motor Sludge treatment apparatus, characterized in that it consists of a rotating plate having a discharge hole is formed in the V-shaped protrusion plate rotated by. delete delete delete delete delete delete delete

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