KR100962170B1 - sludge drying system - Google Patents

Abstract

The present invention relates to a sludge drying system, comprising: a drying chamber having inlets and outlets formed at both sides in a longitudinal direction thereof; Sludge supply means for supplying sludge to the inlet; A conveying conveyor installed in the drying chamber and transferring the sludge introduced into the inlet to the outlet; At least one sludge drying means having an oscillator for generating a microwave and a waveguide for guiding the microwave generated from the oscillator onto a conveyor belt of the transfer conveyor; Hot air supply means for supplying hot air into the drying chamber; It includes an odor removing means for discharging the air inside the drying chamber to the outside, wherein the oscillator is provided in plurality in the longitudinal direction corresponding to the conveyor belt in the outer side of the drying chamber, a plurality of waveguides It further comprises extending from the oscillator into the drying chamber and disposed on the conveyor belt at a predetermined interval.

As a result, the sludge drying efficiency is significantly increased, and a sludge drying system in which the odor generated in the sludge drying process is effectively removed is provided.

Sludge, Drying, Oscillator, Waveguide, Microwave, Deodorization, Hot Air

Description

Sludge drying system

The present invention relates to a sludge drying system, and more particularly to a sludge drying system that can improve the sludge drying efficiency and prevent the occurrence of odor.

Sludge generated from a wastewater treatment plant, sewage treatment plant, and food waste treatment apparatus contains polluted water, so if dumped in the ocean or buried underground, the natural environment is seriously damaged.

In recent years, technologies for drying sludge and recycling dried sludge as compost have been continuously developed. These technologies are the key to drying the contaminated water in the sludge quickly and completely, and recently, a technique for drying the sludge using microwaves has been in the spotlight.

The sludge drying system for drying sludge using general microwaves transfers the microwaves generated from the microwave oscillator to the sludge on the conveying conveyor through the waveguide while transferring the sludge in an appropriate amount on the conveying conveyor to dry the contaminated water in the sludge. I'm taking the way.

However, the conventional sludge drying system has a problem in that the sludge drying efficiency is limited because it has a structure in which the sludge conveyed by the conveying conveyor is simply dried by microwaves.

In addition, since the evaporation gas is discharged into the air while the polluted water is evaporated during the sludge drying process, there is a problem that a bad smell occurs seriously around the sludge drying system.

Accordingly, an object of the present invention is to provide a sludge drying system capable of significantly increasing the sludge drying efficiency and effectively removing odor generated in the sludge drying process.

According to the present invention, in the sludge drying system,
A drying chamber in which an inlet and an outlet are formed at both sides in the longitudinal direction; Sludge supply means for supplying sludge to the inlet; A conveying conveyor installed in the drying chamber and transferring the sludge introduced into the inlet to the outlet; At least one sludge drying means having an oscillator for generating a microwave and a waveguide for guiding the microwave generated from the oscillator onto a conveyor belt of the transfer conveyor; Hot air supply means for supplying hot air into the drying chamber; It includes a odor removing means for discharging the air inside the drying chamber to the outside, wherein the oscillator is provided in plurality in a longitudinal direction corresponding to the conveyor belt in the outer side of the drying chamber, a plurality of waveguides It is achieved by a sludge drying system, characterized in that it further extends from each oscillator into the drying chamber and is disposed at predetermined intervals on the conveyor belt.

Here, the sludge supply means accommodates the sludge and the sludge hopper which is formed in the lower extrudate communicating with the inlet of the drying chamber, and the sludge installed in the extruder to accommodate the sludge hopper to a predetermined thickness It is preferable to have an extruder for discharging onto the conveyor belt through the inlet.

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In this case, the waveguide is more preferably formed in a U-shape to cross the conveyor belt in the width direction from the oscillator and then bend to cross the conveyor belt in the width direction in the opposite direction.

In particular, the conveyor belt is more effective to penetrate the waveguide.

The hot air supply means includes a heater for generating hot air, a hot air supply duct for guiding hot air generated from the heater into the drying chamber, and a hot air generated from the heater to the drying chamber through the hot air supply duct. It is preferable to have a hot air supply fan for blowing.

The odor removing means includes at least one exhaust hood installed in communication with an upper portion of the drying chamber, an exhaust duct extending outwardly from the exhaust hood, and exhausting air inside the drying chamber through the exhaust duct. It is effective to have an exhaust fan.

In addition, it is more preferable that the malodor removing means further includes a malodor filtration filter installed in one region of the exhaust passage of the exhaust duct.

As a result, the sludge drying efficiency is significantly increased, and a sludge drying system in which the odor generated in the sludge drying process is effectively removed is provided.

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

1 is a front sectional view of a sludge drying system according to the present invention, FIG. 2 is a plan sectional view of a sludge drying system according to line II-II of FIG. 1, FIG. 3 is a plan view taken along line III-III of FIG. 4 is a schematic perspective view of the inside of the drying chamber of the sludge drying system of FIG.

As shown in these figures, the sludge drying system 1 according to the present invention is a drying chamber 10 for forming a sludge drying space, and a sludge supply means 20 for supplying sludge to one side of the drying chamber 10. And, the sludge drying means (40) for drying the sludge supplied to the conveying conveyor 30, the conveying conveyor 30 for feeding the sludge provided in the drying chamber 10 from one side of the drying chamber to the other side, the microwave 30 ), Hot air supply means 50 for supplying hot air into the drying chamber 10, and odor removing means 60 for removing odor generated during the sludge drying process inside the drying chamber 10.

The drying chamber 10 is formed as a closed drying space in which the inlet 11 and the outlet 13 are formed at both sides in the longitudinal direction. Sludge is introduced into the drying chamber 10 from the sludge supply means 20 through the inlet 11 of the drying chamber 10, the introduced sludge is conveyed conveyor 30 is installed in the drying chamber 10 in the longitudinal direction By being discharged toward the outlet 13 by the discharge to the outside.

The sludge supply means 20 is a sludge hopper 21 for accommodating sludge containing contaminated water and an extruder 25 for supplying sludge contained in the sludge hopper 21 to the inlet 11 of the drying chamber 10. Have

The lower end region of the sludge hopper 21 is formed with an extruded port 23 communicating with the inlet 11 of the drying chamber 10, the lower region of the sludge hopper 21 is extruded smoothly due to the sludge It is preferable that the inclined surface inclined toward the extrusion port 23 is formed so as to be able to move downward to 23. In addition, the extruder 25 is provided in the extruded port 23 of the sludge hopper 21 to extrude the sludge contained in the sludge hopper 21 to a predetermined thickness, and the inlet 11 of the extruder 23 and the drying chamber 10. Discharge onto the conveyor belt 31 of the transfer conveyor 30 installed in the drying chamber (10).

The conveying conveyor 30 is a conveyor belt 31 installed to circulate in the drying chamber 10 from the inlet 11 to the outlet 13 on the closed loop, and the conveyor driving unit 33 circulating the conveyor belt. It consists of). At this time, the conveyor belt 31 of the conveying conveyor 30 is installed to circulate through the waveguide 43 of the sludge drying means 40 to be described later.

The conveying conveyor (30) passes through the waveguide (43) of the sludge drying means (40) for the sludges loaded on the conveyor belt (31) through the inlet (11) of the drying chamber (10). To the outlet (13).

On the other hand, the sludge drying means 40 is an oscillator 41 for generating a microwave, and the waveguide 43 for guiding the microwave generated from the oscillator 41 onto the conveyor belt 31 of the transfer conveyor 30. Have

A plurality of oscillators 41 are provided at predetermined intervals in the longitudinal direction of the drying chamber 10 from the outside of the drying chamber 10, the waveguide 43 is inside the drying chamber 10 from each oscillator 41 It extends to the conveyor belt 31 has a structure in which a plurality is arranged at a predetermined interval.

At this time, each of the waveguides 43 is formed in a U-shape to cross the conveyor belt 31 in the width direction from the oscillator 41 in the width direction and then bend to cross the conveyor belt 31 in the width direction in the opposite direction. Do. As a result, the plurality of waveguides 43 are arranged at intervals in the longitudinal direction of the conveyor belt 31.

In addition, the conveyor belt passing holes 45 are formed on both side surfaces of each of the waveguides 43 crossing the conveyor belt 31 in the width direction. The conveyor belt through hole 45 is formed to a height that can be smoothly transported without the sludge to be transported on the conveyor. As a result, the conveyor belt 31 moves through the waveguide 43, and the sludge loaded on the conveyor belt 31 moves from the inlet 11 region of the drying chamber 10 to the outlet 13 region. The drying efficiency is increased step by step while passing through each waveguide 43.

Meanwhile, the hot air supply means 50 includes a heater 51 for generating hot air, a hot air supply duct 53 for guiding the hot air generated in the heater 51 into the drying chamber 10, and the heater 51. It has a hot air supply fan 55 for blowing the generated hot air to the drying chamber 10 through the hot air supply duct (53).

The hot wind supply means 50 supplies hot air into the drying chamber 10, thereby always drying the interior of the drying chamber 10 and forming a predetermined high temperature environment. When the sludge is dried by the microwave of the sludge drying means 40, the contaminated water contained in the sludge is suppressed to increase the humidity inside the drying chamber 10 while evaporating, thereby further improving the sludge drying efficiency. to be.

On the other hand, a plurality of exhaust hood 61 is installed in communication with the upper portion of the odor removing means 60, the drying chamber 10, the exhaust duct 63 extending from the exhaust hood 61 to the outside, and the exhaust duct ( An exhaust fan 65 for discharging the air inside the drying chamber 10 through the 63 and an odor filtration filter 67 provided on the exhaust flow path of the exhaust duct 63.

Exhaust hood 61 is provided at a predetermined interval along the longitudinal direction on top of the drying chamber 10, these exhaust hood 61 is in the upper region of the drying chamber 10 corresponding to each waveguide 43. It is preferable to install. This is to effectively discharge the odor generated while contaminated water evaporates in the process of drying the sludge while passing through the waveguide 43, and to uniformly remove the odor from the entire space inside the drying chamber 10.

In addition, the odor filtration filter 67 is used to filter odors discharged to the outside through the exhaust duct 63, and a filtration filter such as an antibacterial filter and a biofilter, which are generally widely used for removing odors, may be used.

The process of drying the sludge using the sludge drying system 1 according to the present invention having such a configuration will be described with reference to FIG. 5.

The sludge A accommodated in the sludge hopper 21 is extruded to a predetermined thickness by the extruder 25 and the drying chamber through the injection port 23 of the sludge hopper 21 and the inlet 11 of the drying chamber 10. 10 is loaded on the conveyor belt 31 inside.

And, the sludge A loaded on the conveyor belt 31 is transferred toward the outlet 13 of the drying chamber 10 along the conveyor belt 31, in which the sludge A is sludge drying means ( After drying stepwise while passing through the waveguides 43 of 40, it is discharged to the outside through the discharge port 13 of the drying chamber 10 is recycled as compost.

On the other hand, while the sludge A passes through the waveguide 43 and is dried by microwaves, contaminated moisture contained in the sludge A may evaporate to reduce the dryness in the drying chamber 10. This is solved by continuously supplying hot air into the drying chamber 10 by the hot air supply means 50 to maintain the inside of the drying chamber 10 at a predetermined high temperature and dryness. As a result, the sludge drying efficiency is further improved.

In addition, the odor generated as the contaminated water evaporates in the process of drying the sludge A is discharged to the outside through the exhaust hood 61, the exhaust duct 63 and the odor filtration filter 67, thereby, the sludge drying system 1 And odors are prevented from occurring in and around it.

In this way, the sludge drying system according to the present invention is provided with a sludge drying means and hot air supply means, the sludge drying efficiency is significantly increased, the odor generated in the sludge drying process by the odor removing means is effectively removed.

1 is a front sectional view of a sludge drying system according to the present invention;

FIG. 2 is a plan sectional view of the sludge drying system according to line II-II of FIG. 1;

3 is a plan view taken along line III-III of FIG. 1;

Figure 4 is a schematic perspective view of the inside of the drying chamber of the sludge drying system of Figure 1,

Figure 5 is a front sectional view for explaining the sludge drying process of the sludge drying system according to the present invention.

* Explanation of symbols for the main parts of the drawings

10: drying chamber 20: sludge supply means

21: Sludge Hopper 30: Transfer Conveyor

40: sludge drying means 41: oscillator

43: waveguide 50: hot air supply means

51: heater 60: odor removal means

Claims (8)

In the sludge drying system, A drying chamber in which an inlet and an outlet are formed at both sides in the longitudinal direction; Sludge supply means for supplying sludge to the inlet; A conveying conveyor installed in the drying chamber and transferring the sludge introduced into the inlet to the outlet; At least one sludge drying means having an oscillator for generating a microwave and a waveguide for guiding the microwave generated from the oscillator onto a conveyor belt of the transfer conveyor; Hot air supply means for supplying hot air into the drying chamber; Including the odor removing means for discharging the air inside the drying chamber to the outside, The oscillator is installed in plural at predetermined intervals in the longitudinal direction corresponding to the conveyor belt on the outside of the drying chamber, And the waveguide extends from each oscillator into the drying chamber and is disposed on the conveyor belt at predetermined intervals. The method of claim 1, The sludge supply means A sludge hopper accommodating sludge and having an extruded outlet communicating with an inlet of the drying chamber at a lower portion thereof; Sludge drying system, characterized in that having an extruder installed in the extrusion port to extrude the sludge accommodated in the sludge hopper to a predetermined thickness to discharge onto the conveyor belt through the inlet. delete The method of claim 1, And the waveguide is formed in a U-shape that crosses the conveyor belt in the width direction from the oscillator and then is bent to cross the conveyor belt in the width direction in the opposite direction. The method of claim 4, wherein And the conveyor belt penetrates the waveguide. The method of claim 1, The hot air supply means Heater to generate hot air, Hot air supply duct for guiding the hot air generated in the heater into the drying chamber; And a hot air supply fan for blowing hot air generated by the heater to the drying chamber through the hot air supply duct. The method of claim 1, The odor removing means At least one exhaust hood installed in communication with an upper portion of the drying chamber; An exhaust duct extending outwardly from the exhaust hood, And an exhaust fan for discharging air in the drying chamber through the exhaust duct. The method of claim 7, wherein The odor removing means And a odor filtration filter installed in one region of the exhaust duct of the exhaust duct.

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