KR101958600B1 - A low-temperature drying apparatus equipped with a hot wind reflector - Google Patents

Abstract

The present invention relates to a low-temperature drying apparatus equipped with a hot air reflector, and more specifically, to a low-temperature drying apparatus equipped with a hot air reflector, which is able to put a variety of sludge including sewage and food wastes into a drying chamber, to drive a cross fan, which heats air by a hot air heater to generate hot air, not by a motor as in the conventional method but by spraying air to an air fan, to discharge a low-temperature hot air of 80-150 deg. C, to rapidly discharge steam, which is generated by drying the sludge from the surface towards the interior, to simultaneously penetrate by hot air rapidly and deeply into the sludge, reduce the drying time, prevent water drops, which are made as the steam, which is not discharged to the outside yet, is condensed, from settling on the bottom of the sludge thanks to the drying method at a low temperature for the sludge, prevent dew condensation, provide an optimal drying condition, and improve drying efficiency.

Description

[0001] The present invention relates to a low-temperature drying apparatus equipped with a hot wind reflector,

In the present invention, a cross fan for generating hot air by heating air by a hot air heater after putting various kinds of sludge including water, sewage, food waste and the like into a drying chamber is not driven by a motor as in the prior art, When the low temperature hot air of 80 ° C to 150 ° C is discharged to the sludge by driving in a spraying manner, the sludge quickly discharges steam generated in the course of drying from the surface to the inside, and the hot air quickly and deeply flows into the sludge It can penetrate and shorten the drying time as well as drying the sludge at low temperature. Therefore, water vapor which is not discharged to the outside is prevented from sinking condensed water droplets into sludge and prevents condensation, The present invention relates to a low-temperature drying apparatus equipped with a hot-air reflecting plate for improving the temperature.

In general, many resources are needed according to the development of industry, and many resources that can not reach the content in the process of producing them are not classified as waste, so they must be disposed of as waste.

In particular, fossil fuels are the fuel that uses underground resources such as coal, oil, and natural gas, which is the majority of the energy currently used by humankind.

Such fossil fuels have been used for a long time due to industrial development, and the amount of fossil fuels has been rapidly increased due to the increase in the amount of used fuels.

Accordingly, a sludge drying conveyor for collecting and drying various types of sludge such as food waste, paper, and fabric, which are generated in the sewage and sewage, has been developed for use as fuel for replacing the existing fuel.

That is, a microwave and a fan are installed on the upper side of the sludge drying conveyor, a heat is installed on the lower side of the conveyor, and the sludge is dried while being conveyed on the conveying conveyor by using the microwave generated from the microwave and the heat generated by the heater .

The sludge drying conveyor simultaneously operates the microwave and the heater to simultaneously heat the microwave generated in the microwave and the heat generated in the heater.

However, the sludge drying conveyor simultaneously operates the microwave and the heater at a high temperature of about 250 DEG C, which causes a waste of energy unnecessarily compared with the drying efficiency, resulting in an economical problem.

In addition, in order to solve the above-described problem, a blocking plate is provided at the lower end of the drying conveyor for conveying the sludge so that the microwaves are reflected after being passed through the sludge to heat the sludge again.

In the sludge drying apparatus, a heater and a microwave are installed at the same time, and a reflective plate is installed at the lower end of the conveying conveyor. Thus, the microwave is simply reflected, and energy is wasted compared with the drying efficiency of the sludge.

Therefore, in order to solve the above-mentioned problems, the applicant of the present invention has proposed a mixer for mixing a dehydrated sludge having a moisture content of 80% and a dried sludge having a moisture content of 20% and a mixed sludge having a moisture content of 60% A drying chamber in which a plurality of discharge ports for discharging steam generated from the mixed sludge are formed and the outer circumferential surface of which is protected by a heat insulating material to dry the mixed sludge formed in the form of pellets through the pellet molding machine; A three-stage belt conveyor for sequentially moving the mixed sludge having a moisture content of 60% supplied through the hopper from the first stage to the second stage and the third stage, the third stage being arranged on the belt conveyor installed in the first stage; And a number of heaters are built in the internal passage, and a six-pole motor is mounted on one side And a heater for driving the fan to blow hot air into the discharge port, and a heat exchanger installed on the belt conveyor installed in the second and third stages, and a six-pole motor is mounted on one side of the fan, And a hot air blower for injecting the introduced air to the discharge port.

However, in the conventional drying apparatus including the present invention, the drying efficiency is improved in the process of drying the sludge, but the fan installed in the drying chamber is driven by the motor, and the hot air supplied from the hot air is injected into the sludge, The internal temperature of the drying chamber is maintained at a high temperature of about 250 ° C. As a result, the motor that drives the fan is easily damaged due to the high temperature and the life of the motor is shortened. The operation of the drying apparatus is frequently interrupted and the productivity is lowered.

That is, in the conventional high-temperature drying apparatus, only the maximum temperature of the drying chamber is maximized, so that the sludge is dried in a short time when the temperature inside the drying chamber is high.

However, in order to dry the sludge in a short time, the inside temperature of the drying chamber is maintained at about 250 ° C. In this process, the life of the motor driving the fan is shortened by heating to a high temperature. In order to maintain the temperature of the drying chamber at a high temperature The steam generated in the course of drying the sludge must be rapidly discharged to the outside of the drying chamber, but since the temperature of the drying chamber is lowered, it is discharged to the discharge port for discharging the sludge, so that the inside of the drying chamber is kept expanded due to steam and high temperature, Is lowered.

In addition, in the conventional high-temperature drying apparatus, the temperature inside the drying chamber is raised to a high temperature, which is disadvantageous in terms of energy waste and economic cost.

Also, there is a problem that condensation occurs in the inside of the drying chamber and sludge adheres to the inner peripheral surface of the drying chamber.

Korean Patent Publication No. 10-2011-0066050, June 16, 2011 Korean Patent Publication No. 10-2013-0140348, December 24, 2013 Korean Patent Publication No. 10-2011-0070930, June 27, 2011 Disclosure

In order to solve the above problems, the low temperature drying apparatus of the present invention aims at drying in the order of treating wind, heat, and moisture in a drying condition unlike the conventional high temperature drying apparatus.

Therefore, in the present invention, the air fan built in the cross fan is not driven by a motor, but it is intended to blow air supplied from an air compressor to drive an air fan to dry by wind generated.

Another object of the present invention is to prevent condensation from occurring in the inside of a drying chamber and prevent water droplets from being deposited again on the sludge by condensation of unreacted water vapor

In order to dry various kinds of sludge including water and sewage, food waste, etc., a belt conveyor is installed in a multi-stage in a drying chamber, and a cross fan is installed in a row on the belt conveyor. Then, air supplied from an air compressor is passed through a cross fan The air is supplied to the air heater through the air heater by the rotational force generated by the air blown by the air fan disposed inside the induction cover, and the hot air generated in the process of passing through the air heater is supplied to the induction cover And the steam exhaust hood for supplying the hot air for preventing condensation to both sides of the belt conveyor and for sucking and discharging steam generated in the drying process to the upper part of the drying chamber Installed to increase the drying efficiency of the sludge It provides a low-temperature drying system that can.

As described above, according to the present invention,

1. The low-temperature drying apparatus of the present invention is characterized in that when air is injected into an air fan built in a cross fan and is driven, if hot air at a temperature of 80 to 150 캜, which is heated when it is passed through a heater, is discharged to sludge, And it is also effective to reduce the drying time because the hot air penetrates into the sludge.

2. The low temperature drying apparatus according to the present invention supplies hot air to both sides of the belt conveyor to prevent water droplets condensed in water vapor that have not been discharged to the outside of the drying room from sinking on the sludge and to prevent condensation, It has the effect of improving.

3. The low temperature drying apparatus of the present invention has an effect of economizing because it does not waste energy and has excellent thermal efficiency than a high temperature drying apparatus because it dries sludge at a low temperature.

4. The hot air discharged from the cross fan repeatedly collides with the hot wind reflector and travels to the waveform shape at low speed, and the time for discharging to sludge is prolonged, shortening the drying time.

1 is a perspective view showing a low temperature drying apparatus of the present invention.
2 is an enlarged perspective view showing a state where a cross fan is connected in the low temperature drying apparatus of the present invention.
3 is a front view of the low temperature drying apparatus of the present invention.
4 is a side view showing a low temperature drying apparatus of the present invention.
FIG. 5 is an exemplary view showing the progress of hot air in a cross fan in the low temperature drying apparatus of the present invention. FIG.
6 is a front view of the low temperature drying apparatus according to the present invention, which is composed of a 12-stage belt conveyor.
FIG. 7 is an exemplary view showing a state where an electrolytic dehydrator and a pellet molding machine are combined with a low-temperature drying apparatus according to the present invention. FIG.
8 is a perspective view showing a state where a mixer and a pellet molding machine are combined with a low temperature drying apparatus of the present invention.

In order to achieve the above objects and effects, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a low temperature drying apparatus of the present invention, and FIG. 2 is an enlarged perspective view showing a cross fan connected in a low temperature drying apparatus according to the present invention. FIG. 3 is a front view showing the low temperature drying apparatus of the present invention, and FIG. 4 is a side view showing the low temperature drying apparatus of the present invention.

The low temperature drying apparatus 100 according to the present invention takes the order of wind, heat, and moisture treatment at a low temperature as a drying condition for drying various sludges 250 including a water supply and drainage, food waste, and the like at a low temperature.

Therefore, the low temperature drying apparatus 100 mainly comprises a drying chamber 110, a belt conveyor 150, a cross fan 160, a condensation preventing heat fan 400, and a cross fan 160.

The drying chamber 110 is for drying various kinds of sludge 250 including the upper and the sewage, food waste and the like at a low temperature. The drying chamber 110 has a sludge supply hopper 280 for supplying the sludge 250 to the upper side, A sludge discharge port 290 for discharging the sludge is formed.

The upper surface of the drying chamber 110 is provided with a steam exhaust hood 380 with an exhaust fan installed therein at a predetermined interval to suck and discharge water vapor generated in the drying process to the outside, Inside the drying chamber 110, moisture is minimized to induce the drying time to be shortened.

A belt conveyor 150 is installed in the drying chamber 110 so as to discharge the dried sludge 250 through the sludge supply hopper 280 and then discharge the sludge to the sludge discharge port 290.

The multistage belt conveyor 150 is installed in a zigzag manner so that the belt conveyor 150 located at the upper end of the belt conveyor 150 transports the sludge 250 and then drops the sludge 250 to the belt conveyor 150 located at the lower end The sludge 250 is transferred and discharged to the sludge discharge port 290.

The cross fan 160 is positioned close to the belt conveyor 150 to dry the sludge 250 conveyed to the belt conveyor 150 and then the cross fan 160 is placed on the inner peripheral surface of the drying chamber 110 by the cross fan fixing bracket 180 Fixed.

The cross fans 160 are arranged at regular intervals along the longitudinal direction of the belt conveyor 150 and installed in multiple stages corresponding to the belt conveyor 150 installed in multiple stages.

On the other hand, the distance between the cross fan 160 and the belt conveyor 150 is preferably 15 cm or less.

The cross fan 160 includes a cross fan housing 170, a heater housing chamber 190, an induction cover 240, and an air supply chamber 350.

The cross fan housing 170 is opened to discharge the air, and one side of the cross fan housing 170 is partially opened, and then the air supply chamber 350 is attached to the open side.

A heater housing chamber 190 having front and rear holes is attached to the front of the cross fan housing 170. An induction cover 240 having a bottom face is attached to an upper surface of the heater housing chamber 190, As shown in FIG.

The heater housing chamber 190 is attached to the front face of the cross fan housing 170 with both sides thereof being perforated so as to discharge hot air 410 heated by the hot air heater 200 toward the induction cover 240, A stagnant induction piece 210 is formed facing the stagnant induction piece 10 in a state of being separated in the upper and lower directions and a hot air discharge port 220 is formed between the stagnant induction pieces 10 to discharge the hot air 410.

The stagnant induction piece 210 has a hot air discharge port 220 formed at an end of the heater storage chamber 190 that extends obliquely to allow the hot air to be discharged from the induction cover 240, To the belt conveyor (150).

The induction cover 240 having one end on the upper portion of the heater housing chamber 190 is formed into a tubular shape having left and right and bottom holes.

The hot wind reflector 230 is arranged on the inner circumferential surface of the induction cover 240 at regular intervals along the longitudinal direction, and is then obliquely attached.

The hot air reflecting plate 230 is formed to be inclined toward the hot air discharge port 220 so that the hot air 410 discharged from the hot air discharge port 220 is discharged in a diagonal direction toward the belt conveyor 150 and the sludge 250, And is guided to proceed in a wave shape in such a manner as to be reflected by the reflection plate 230.

Thus, after the air fan 370 is inserted into the cross fan housing 170, one side of the air fan 370 is partially inserted into the air supply chamber 350, and the heater storage chamber 190 is provided with a hot- (200) is inserted

An air supply compressor 120 is installed under the drying chamber 110 to supply high pressure air to the main air supply pipe 130.

The main air supply pipe 130 connected to the air supply compressor 120 supplies air to the sub air supply pipe 140.

The sub air supply pipe 140 is branched vertically along the longitudinal direction of the main air supply pipe 130 in correspondence with the positions of the cross fans 160 arranged in a line, ).

The air injection pipe 360 is branched from the sub air supply pipe 140 so as to correspond to the position of the crossover fan 160 located at a multi-stage, one side is connected to the sub air supply pipe 140 and the other side is connected to the air supply chamber 350 Air supply pipe 140 to the air fan 370 to drive the air fan 370. [

The sub air supply pipe 140 is provided with a pressure regulator 300 so as to adjust the air supply amount supplied to the air spray pipe 360 of the cross fan 160 installed in a multi-stage.

A condensation preventing hot air supply pipe 390 is provided outside the bottom of the drying chamber 110 to supply condensation preventing hot air to both sides of the belt conveyor 150 installed in the drying chamber 110, And a condensation preventing heat exchanger (400) for supplying condensation preventing hot air.

The dew condensation preventing blower 400 is connected to the dew condensation preventing heater 260 connected to the dew condensation preventing hot air supply pipe 390 and the dew condensation preventing heater 260 are connected to the dew condensation preventing air compressor 270 to provide the hot air 410.

The dew condensation preventing wind fan 400 supplies the hot wind 410 to both sides of the belt conveyor 150 to block water droplets condensed in the drying chamber 110 from flowing into the sludge, Provides optimal drying conditions to improve drying efficiency.

In order to maintain the temperature of the drying chamber 110 in the range of 80 ° C. to 150 ° C., the hot air heater 200 and the condensation preventing heater 260 are operated at a temperature of 80 ° C. to 150 ° C. It is heated and maintained at low temperature.

Even if the air is heated at a low temperature and discharged to the sludge as described above, the drying efficiency is increased even if the wind, steam, and moisture at appropriate temperatures are quickly discharged to the outside.

FIG. 5 is an exemplary view showing the progress of hot air in a cross fan in the low temperature drying apparatus of the present invention.

The cross fan 160 supplies the air supplied from the air supply compressor 120 to the sub air supply pipe 140 through the main air supply pipe 130. The sub air supply pipe 140 is connected to the air injection pipe 360, The air injection pipe 360 injects air into the air supply chamber 350 so that the air fan 370 inserted into the air supply chamber 350 is supplied to the air 360 injected from the air injection pipe 360 The air supplied to the inside of the cross fan housing 170 is supplied toward the hot air heater 200 by the rotational force generated by the rotation of the rotary fan housing 170.

The air supplied to the inside of the cross fan housing 170 by the air fan 370 is heated while passing through the hot air heater 200 and the heated hot air 410 is heated by the hot air outlet 220 of the heater housing chamber 190, The hot air 410 is discharged in a diagonal direction toward the sludge 250 conveyed from the belt conveyor 150 without being discharged in a straight line by the congestion induction piece 210. [

The hot air 410 discharged in the direction of the belt conveyor 150 is repeatedly reflected by the hot wind reflecting plate 230 attached to the guide cover 240 in the oblique direction to form a wave shape and the sludge 250 is dried do.

As described above, since the hot air 410 generated by the cross fan 160 travels due to the low temperature at the low temperature, the contact time with the sludge 250 is prolonged and the drying time is shortened.

6 shows that the low temperature drying apparatus according to the present invention is constructed by a twelve-stage belt conveyor, which is the same as the one in which the belt conveyor 150 is installed in eight stages in FIG. And the drying efficiency is increased.

An embodiment of the low temperature drying apparatus 100 of the present invention will be described with reference to FIG.

The low temperature drying apparatus 100 of the present invention supplies various sludges 250 including sewage and food waste through the sludge supply hopper 280 and drops into the eight-stage belt conveyor 150 located at the top, The conveyor 150 repeats the method of transferring the sludge 250 in the direction opposite to the sludge supply hopper 280 and dropping the sludge 250 to the lower 7-stage belt conveyor 150 to discharge the sludge discharge port 290 And then discharged.

The first, third, fifth, and seventh belt conveyor 150 of the eight-stage belt conveyor 150 is formed to protrude rightward and the belt conveyor 150 of the second, fourth, And the sludge 250 is conveyed sequentially from the eighth stage to the first stage.

In addition, the cross fans 160 are horizontally arranged at regular intervals along the longitudinal direction of the belt conveyor 150 from the first stage to the 8th stage, and are arranged in the same line in the vertical direction as well.

Accordingly, the air supply compressor 120 installed outside the drying chamber 110 is connected to the main air supply pipe 130 installed at the bottom of the drying chamber 110, The sub air supply pipe 140 is branched in the direction of the sub air supply pipe 140 and the air injection pipe 360 is branched so as to correspond to the height of the cross fan 160 vertically installed in the sub air supply pipe 140, And is connected to the air supply chamber 350.

The dew condensation preventing heat exchanger 400 is connected to the condensation preventing hot air supply pipe 390 provided at the bottom of the drying chamber 110 and is connected to both sides of the belt conveyor 150 Hot air is discharged.

A steam exhaust hood 380 with an exhaust fan installed therein is installed at an upper portion of the drying chamber 110 to suck and discharge steam generated therein.

When sludge including sewerage or food waste is supplied through the sludge supply hopper 280, the sludge is dropped to the upper portion of the 8-stage belt conveyor 150 and is transferred to the other end portion and falls to the 7-stage belt conveyor 150 The first stage belt conveyor 150 located at the bottom discharges the sludge 250 to the sludge discharge port 290.

The air compressor 120 generates air and supplies the air to the sub air supply pipe 140 through the main air supply pipe 130 and then to the air injection pipe 360 so as to dry the sludge while conveying the sludge by the belt conveyor 150. [ When the air is supplied to the air supply chamber 350 through the air supply port 350 and the air is blown into the air fan 370 built in the cross fan 160, The hot air heater 200 discharges the hot air 410 heated at a temperature of 80 to 100 ° C. to the hot air outlet 220 through the stagnation induction piece 220 The hot air 410 discharged to the sludge 250 is reflected in an oblique direction toward the upper side and attached to the induction cover 250. The hot air 410 is discharged to the sludge 250, And then the belt conveyor 150 is moved back to the hot wind reflecting plate 230, It is repeatedly reflected by the way the hot air 410 to enhance drying efficiency by extending the amount of time that is in progress at a low speed due to the wave shape in contact with the sludge 250.

The steam generated in the process of drying the sludge 250 discharging the hot air 410 from the cross fan 160 is rapidly discharged from the steam exhaust hood 380 installed in the upper part of the drying chamber 110, By minimizing the moisture content, optimum drying conditions are maintained to shorten the drying time.

As described above, if hot air 410 having a low temperature of 80 to 150 캜 is discharged to the sludge 250, water vapor generated in the course of drying from the surface to the inside can be quickly discharged, So that the drying time can be shortened.

When hot air 410 heated to a temperature of 80 ° C to 150 ° C is supplied to both sides of the belt conveyor 150 by the dew condensation preventing wind fan 400, water droplets generated by condensation of water vapor not discharged to the outside of the drying chamber 110 The sludge is prevented from sinking into the sludge 250 to prevent the condensation phenomenon from occurring, thereby providing the optimum drying condition to improve the drying efficiency.

7 is a diagram illustrating a state where an electrolytic dehydrator and a pellet molding machine are coupled to a low temperature drying apparatus of the present invention. The low temperature drying apparatus 100 includes a mixer 340 for mixing dried sludge 250, A pellet molding machine 320 connected to the mixer 340 for molding the mixed sludge 250 into a pellet and a pellet molded in the pellet molding machine 320 are connected to a low temperature drying apparatus 10 by a corrugated conveyor 330 It can be installed to supply.

FIG. 8 is a perspective view illustrating a state where a mixer and a pellet molding machine are combined with a low temperature drying apparatus of the present invention. The low temperature drying apparatus 100 includes an electrolytic dehydrator 310 for electrolyzing the sludge 250, And the pellets formed by the pellet molding machine 320 may be supplied to the low temperature drying apparatus 100 by the pleated neck conveyor 330. [

100: low temperature drying apparatus 110: drying chamber
120: Air supply compressor 130: Main air supply pipe
140: Sub air supply pipe 150: Belt conveyor
160: Cross fan 170: Cross fan housing
180: Cross fan fixing bracket 190: Heater compartment
200: hot air heater 210:
220: hot air outlet 230: hot air reflector
240: induction cover 250: sludge
260: condensation prevention heater 270: condensation prevention air compressor
280: sludge supply hopper 290: sludge discharge port
300: pressure regulator 310: electrolysis dehydrator
320: Pellet milling machine 330: Conveyor conveyor
340: Mixer 350: Air supply chamber
360: Air spray tube 370: Air fan
380: steam exhaust hood 390: condensation-preventing hot air supply pipe
400: Anti-condensation hot air blower 410: Hot air

Claims (7)

A drying chamber 110 for drying various kinds of sludge including a top, a drain, food waste, etc. at a low temperature; and
A plurality of water vapor evacuation hoods 380 installed at the upper part of the drying chamber 110 to suck and discharge water vapor generated in the drying process to the outside; Wow
A belt conveyor 150 installed in the drying chamber 110 to discharge the sludge 250 supplied through the sludge supply hopper 280 to the sludge discharging port 290 after being dried; Wow
In the state where the air fan 370 for supplying air to the hot air heater 200 for drying the sludge 250 which is placed on the upper part of the belt conveyor 150 is installed in the drying chamber by the cross fan fixing bracket, A cross fan housing 170 attached to one side of the cross fan housing 170 and an air supply chamber 350 having a part of the air fan 370 inserted into the cross fan housing 170, The two sides of the cross fan housing 170 are attached to the front face of the cross fan housing 170 so as to be separated from each other in the upper and lower directions so as to discharge hot air 410 heated by the hot air heater 200 in the direction of the induction cover 240 A heater housing chamber 190 in which a hot air discharge port 220 is formed to discharge hot air 410 between the stagnant induction pieces 210,
The heater housing chamber 190 is provided with a hot air heater 200 for heating air passing through the air fan 370 by driving the air fan 370, And an induction cover 240 formed in a tubular shape having a lower portion through which the hot wind 410 is wound and a hot wind reflector 230 attached to the bottom surface of the induction cover 240, The belt conveyor 150 is disposed at a predetermined interval in the state of being spaced apart from the belt conveyor 150 along the longitudinal direction of the belt conveyor 150. The belt conveyor 150 is provided with a plurality of cross fans 160 ); and
An air supply compressor (120) installed at a lower portion of the drying chamber (110) to supply high pressure air to the main air supply pipe (130); Wow
A main air supply pipe 130 connected to the air supply compressor 120 to supply air to the sub air supply pipe 140; and
The sub air supply pipe 130 is connected to the sub air supply pipe 130. The main air supply pipe 130 is connected to the sub air supply pipe 130, (140); and
Air supply pipe 140 and the other end is connected to the air supply chamber 350 to supply the air supplied through the sub air supply pipe 140 to the sub- An air spray pipe 360 for spraying air to the air fan 370 to drive the air fan 370; and
A condensation preventing hot air supply pipe 390 is provided outside the bottom of the drying chamber 110 to supply condensation preventing hot air to both sides of the belt conveyor 150 installed in the drying chamber 110, And a dew condensation preventing heat exchanger (400) for supplying condensation preventing hot air to the dew condensation preventing heat exchanger (400).
The method according to claim 1,
Wherein the stagnant induction piece (210) has a hot air discharge opening (220) formed at an end of the heater storage chamber (190) which extends obliquely.
The low temperature drying apparatus as claimed in claim 1, wherein a hot wind reflector (230) is arranged at an interval on the inner circumferential surface of the induction cover (240) at predetermined intervals along the longitudinal direction.
The method according to claim 1,
Wherein the low temperature drying apparatus 100 dries the sludge 250 at a temperature of 80 to 150 占 폚 in the drying chamber 110. [
The method according to claim 1,
And a pressure regulator 300 is installed in the sub air supply pipe 140 so as to adjust the air supplied to the air spray pipe 360 of the cross fan 160 installed at each of the multi- Drying device.
The method according to claim 1,
The low temperature drying apparatus 100 includes a mixer 340 for mixing the dried sludge 250 and a pellet molding machine 320 for pelletizing the sludge mixed with the mixer 340, Is installed to supply the molded pellets to the low temperature drying apparatus (10) by a pleated neck conveyor (330).
The method according to claim 1,
The low temperature drying apparatus 100 includes an electrolytic dehydrator 310 for electrolyzing the sludge 250, a pellet molding machine 320 for molding the dehydrated sludge into pellets, a pellet molding machine 320 for molding the pellets, Temperature drying apparatus (100) by a conveyor (330).

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