KR20110108585A - Sludge drying apparatus and sludge drying system - Google Patents

Abstract

The present invention relates to a sludge drying apparatus and a sludge drying system having the same. According to the present invention, a heating plate is attached to an outer lower portion of the chamber of the sludge drying apparatus, and the heating plate directly heats the chamber to dry the sludge introduced into the chamber.
In the present invention, since the chamber is directly heated without using an indirect heating method using a heat medium, the sludge drying speed is high and the thermal efficiency is high. Thus, a large amount of sludge can be processed and energy waste can be reduced.

Description

Sludge drying apparatus and sludge drying system having same {Sludge drying apparatus and sludge drying system}

The present invention relates to a sludge drying apparatus and a sludge drying system having the same, and more particularly, a heating plate is attached to the lower side of the outside of the chamber of the sludge drying apparatus, and the heating plate directly heats the chamber to dry the sludge introduced into the chamber. A drying apparatus and a sludge drying system having the same.

In general, sludge is a waste produced by sewage, wastewater, food waste, livestock manure, etc., and is formed in a mixture of solid residue and water. When such sludge flows into a river, it pollutes not only rivers but also soil and groundwater, causing serious environmental pollution.

In order to minimize environmental pollution by sludge, the sludge is dried recently to separate the water and the sludge dry matter, and the water is separately purified and sent to the stream or the sewerage, and the sludge dry matter is also used for composting through reprocessing. The method of removing the harmful components and landfilling in landfill, etc. is used. In order to separate the sludge into water and sludge dry matter, a sludge drying apparatus is usually used.

In the conventional sludge drying apparatus, the sludge is introduced into the chamber, and the sludge in the chamber is heated to evaporate moisture, and the remaining sludge dried material is removed. At this time, a heating device is used for heating the sludge inside the chamber, and the heating device uses an indirect heating method, not a direct heating method for directly heating the chamber. That is, the conventional sludge drying apparatus dried the sludge using steam or a heat medium such as oil. This indirect heating method takes a long heating time, there is a problem that wastes energy due to poor thermal efficiency.

In addition, the moisture separated from the sludge contains a bad smell component and various bacteria, there is a problem that a very bad odor is generated in the place where the sludge drying device is installed. For this reason, the sludge drying system including the sludge drying apparatus is a social problem because it is not easy to find a place to be installed. In addition, there is a problem that can not be used for other purposes if odor occurs in the water.

It is an object of the present invention to provide a sludge drying apparatus which can be heated quickly and has good thermal efficiency and a sludge drying system including the same.

In addition, to provide a sludge drying apparatus and a sludge drying system including the same that can remove the odor generated from the water separated from the sludge.

In order to achieve the above object, the sludge drying apparatus according to an embodiment of the present invention includes a chamber, a stirring part, a heating plate, a deodorizing part. Sludge is introduced into the chamber, and inflow of external air is blocked. The stirring unit agitates the sludge introduced from the inside of the chamber. The heating plate is attached to the outer lower side of the chamber to directly heat the chamber to dry the sludge introduced into the chamber. The deodorizing unit is located at the top of the chamber to pass water vapor generated from the sludge. The deodorizing unit is equipped with a halogen high temperature lamp to remove odors.

In the sludge drying apparatus according to an embodiment of the present invention, the heating plate may be a heating panel generating heat using electricity. A plurality of heat generating panels are attached.

In the sludge drying apparatus according to the embodiment of the present invention, the stirring unit may have a spiral blade shape. At the end of the helical blade may be mounted a removal. The removal unit removes the sludge dry matter pressed to the inner wall of the chamber by heating the heating plate.

The sludge drying system according to the embodiment of the present invention includes a sludge drying apparatus and a deodorization cooling tower. The deodorization cooling tower has a main body, an injection unit, a steam inlet, a deodorization cooling unit, and an outlet. The main body is empty inside. The injection unit is located above the inside of the main body and sprays cold water. The steam inlet is connected to the deodorizing part of the sludge drying apparatus to introduce steam generated from the sludge into the main body part. The deodorization cooling unit is located below the spray unit, and the deodorizing material is embedded to remove odors while passing water vapor introduced into the steam inlet. There are a plurality of deodorizing cooling units. The discharge port is located below the main body to discharge water.

In the sludge drying apparatus of the present invention, the heating unit directly heats the chamber to dry the sludge introduced into the chamber. The direct heating method is faster sludge drying rate and higher thermal efficiency than the indirect heating method. Therefore, it is possible to treat a large amount of sludge and reduce energy waste.

In addition, the sludge drying system of the present invention includes a halogen high temperature lamp for removing the odor from the sludge drying apparatus, and the deodorization cooling tower includes a deodorization cooling unit incorporating a deodorant material, thereby removing odor generated from the water separated from the sludge. . This reduces people's objection to the installation of the sludge drying system and makes it easier to use the water separated from the sludge for other purposes.

1 is a view conceptually showing a sludge drying apparatus according to an embodiment of the present invention.
2 is a view showing the appearance of the sludge drying apparatus according to an embodiment of the present invention.
3 is a view showing that the stirring portion of the sludge drying apparatus according to the embodiment of the present invention is a spiral blade shape.
4 is a view showing the appearance of the deodorizing cooling tower according to an embodiment of the present invention.
5 is a view conceptually showing a deodorizing cooling tower according to an embodiment of the present invention.
6 is a view showing a sludge drying system according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. At this time, it is noted that the same components in the accompanying drawings are represented by the same reference numerals as possible. In addition, detailed descriptions of well-known functions and configurations that may blur the gist of the present invention will be omitted. For the same reason, some of the components in the drawings are exaggerated, omitted, or schematically illustrated.

1 is a view conceptually showing a sludge drying apparatus according to an embodiment of the present invention, Figure 2 is a view showing the appearance of the sludge drying apparatus according to an embodiment of the present invention, Figure 3 according to an embodiment of the present invention It is a figure which shows that the stirring part of a sludge drying apparatus is a spiral blade shape.

1 and 2, the sludge drying apparatus 100 according to an embodiment of the present invention includes a chamber 110, a stirring unit 120, a heating plate 130, deodorizing unit 140. The chamber 110, the stirring unit 120, the heating plate 130, and the deodorizing unit 140 may be located inside the case 101.

Sludge is introduced into the chamber 110. For this purpose, a sludge inlet 111 is formed in the chamber 110. The sludge discharge port 112 for discharging the sludge dry matter is formed in the lower portion of the chamber 110. The chamber 110 blocks the inflow of the outside air so that the pressure inside thereof is maintained at a pressure lower than the outside pressure. Maintaining the internal pressure of the chamber 110 below atmospheric pressure lowers the boiling point of the sludge, thereby allowing the sludge to heat up quickly and reduce the energy consumption used for the sludge heating. A device such as a vacuum pump may be used to lower the pressure inside the chamber 110.

The stirring unit 120 is mounted inside the chamber 110. The stirring unit 120 continuously stirs the sludge introduced into the chamber 110 to smoothly dry the sludge. The stirring unit 120 may be connected to a driving device such as a motor to stir the sludge while rotating. In the present embodiment, the stirring unit 120 includes a gear 121 outside the chamber 110 and is connected to a driving device such as a motor.

The heating plate 130 is attached to the outer lower side of the chamber 110. The heating plate 130 may be manufactured in a thin plate shape to be easily attached to the chamber 110. The heating plate 130 may be attached to the chamber 110 in a bolting manner. The heating plate 130 directly heats the chamber 110 to dry the sludge introduced into the chamber 110.

In the present embodiment, the heating plate 130 is a heating panel, but is not limited thereto and may be various members capable of directly heating the chamber 110. The heating panel is a device that generates heat when electricity is applied, and converts electrical energy directly into thermal energy. When the chamber 110 is heated by using a heating plate 130 that directly heats the chamber 110, such as a heating panel, the heating medium does not need to be heated, so that the sludge drying rate is higher than that of the conventional indirect heating method using the heating medium. Fast and low energy waste Therefore, a large amount of sludge can be processed at a low cost.

Deodorizing unit 140 is located above the chamber 110. The deodorizing unit 140 passes water vapor generated from the sludge heated in the chamber 110. Deodorizer 140 is mounted with a halogen high temperature lamp 141. The halogen high temperature lamp 141 thermally decomposes the odor component contained in the steam by reheating the steam generated in the sludge to a high temperature of 1000 ° C. or more. Therefore, odor can be prevented from occurring in the water vapor and the cooling water cooled by the same.

Deodorizing unit 140 may be a double wall 142 on the outside. The double wall 142 prevents heat generated from the halogen high temperature lamp 141 from being dissipated to the outside. Therefore, the odor component pyrolysis by the halogen high temperature lamp 141 is made better. It is also possible to prevent deformation of other components of the sludge drying apparatus 100 by the heat of the halogen high temperature lamp 141. Insulation may be inserted between the double walls 142 to increase the thermal insulation effect.

The sludge drying apparatus 100 may include a blower 143 in order to allow the water vapor generated in the chamber 110 to smoothly flow into the deodorizing unit 140. Due to the blower 143, the water vapor inside the chamber 110 is smoothly introduced into the deodorizing unit 140, and the water vapor inside the deodorizing unit 140 is smoothly discharged to the outside of the deodorizing unit 140.

In the present embodiment, the stirring unit 120 may have a spiral blade shape, as shown in FIG. 3. The helical blade may be plural and may be combined in an elliptic shape. The spiral blades rotate and agitate the sludge.

At the end of the helical blade, the removal part 122 is mounted. The end of the helical bled is the elliptical top apex portion adjacent to the inner wall of the chamber 110. In this embodiment, since the heating plate 130 directly heats the chamber 110, the sludge dry matter may be pressed onto the inner wall of the chamber 110. The remover 122 removes the sludge dried by pressing on the inner wall of the chamber 110. Even if the sludge dry matter does not stick, the removal part 122 may remove the debris in the space between the chamber 110 and the stirring part 120.

The removing unit 122 is formed of a material that is strong in heat and elastic, such as a heat resistant plastic. Therefore, the removal unit 122 is not damaged by the heat of the heating plate 130, and when the removal unit 122 scratches the inner wall of the chamber 110, the removal unit 122 is not damaged by elasticity.

4 is a view showing the appearance of the deodorizing cooling tower according to an embodiment of the present invention, Figure 5 is a view conceptually showing a deodorizing cooling tower according to an embodiment of the present invention.

As shown in Figure 4 and 5, the deodorizing cooling tower 200 according to an embodiment of the present invention is the main body 210, the injection unit 220, steam inlet 230, deodorization cooling unit 240, outlet 250.

The main body 210 is empty inside. The injection unit 220 and the deodorization cooling unit 240 are located inside the main body 210. One side of the main body 210 is formed with a gas outlet 211 for discharging the gas contained in the water vapor. The gas outlet 211 is equipped with a filter 212 to remove harmful pollutants. The main body 210 may be supported by the frame 213.

The spray unit 220 sprays cold water. Steam is cooled by the cold water injected from the injection unit 220 to form water. The injection unit 220 is located inside the main body 210. This is to allow the water vapor introduced into the deodorization cooling tower 200 to continuously contact the cold water while passing through the deodorization cooling unit 240. Cold water injected from the injection unit 220 may be supplied from the outside, it may be used by circulating a portion of the water discharged from the discharge port (250).

The steam inlet 230 is connected to the deodorizing portion of the sludge drying apparatus. Water vapor generated in the sludge is introduced into the body portion 210 through the steam inlet 230. More specifically, the steam inlet 230 is connected to the deodorization cooling unit 240 to allow water vapor to flow into the deodorization cooling unit 240.

Deodorization cooling unit 240 is built-in deodorant material. Deodorizing material is to remove the smell and sterilization, and may be a material such as charcoal, zeolite, photocatalyst and the like. Therefore, while the steam passes through the deodorization cooling unit 240, the smell is removed and sterilized.

Deodorization cooling unit 240 is located below the injection unit 220. When cold water is injected from the injection unit 220, the deodorization cooling unit 240 is cooled to form water vapor. Deodorization cooling unit 240 is a plurality, it is located with a different height from each other. Water vapor is sequentially moved downward from the deodorization cooling unit 240 located above. In this case, the plurality of deodorizing cooling parts 240 may be located in a zigzag. When the deodorization cooling unit 240 is located in a zigzag, the deodorization cooling unit 240 is also directly in contact with the cold water injected from the injection unit 220 is improved cooling effect.

Deodorization cooling unit 240 may be positioned such that one side is in contact with the main body 210. The main body 210 has a replacement hole 214 formed at a position in contact with the deodorization cooling unit 240. Deodorizing material embedded in the deodorizing cooling unit 240 does not properly perform the deodorizing and sterilizing function if used for a long time. In this case, the deodorizing material needs to be replaced, and the deodorizing material can be easily replaced through the replacement hole 214. When the deodorizing cooling tower 200 is operated, the replacement hole 214 is covered with a cover 215. The cover 215 may be attached to the main body 210 in a bolting manner. In another embodiment, the deodorization cooling unit 240 may be made into a drawer type, and the deodorization cooling unit 240 may be drawn out or inserted through the replacement hole 214.

The outlet 250 is located below the main body 210. The discharge port 250 discharges the water inside the main body 210 to the outside. The water discharged through the outlet 250 includes not only water sprayed from the spraying unit 220 but also water cooled through the deodorizing cooling unit 240 and changed in water vapor. The water discharged from the discharge port 250 may be stored in a storage tank or the like and used as agricultural water.

The present embodiment further includes a circulation unit 260 for circulating a portion of the water discharged from the discharge port 250 to the injection unit 220. In the present embodiment, the circulation unit 260 is a motor, but is not limited thereto.

6 is a view showing a sludge drying system according to an embodiment of the present invention.

As shown in FIG. 6, the sludge drying system 1000 according to an embodiment of the present invention includes a sludge drying apparatus 100 and a deodorization cooling tower 200. The sludge drying apparatus 100 and the deodorization cooling tower 200 are connected through a pipe 300.

The sludge drying apparatus 100 injects sludge into the chamber 110 through the sludge inlet 111. The sludge-injected chamber 110 is directly heated by the heating plate 130, whereby the sludge is heated while being stirred by the stirring unit 120. When the sludge is heated, moisture and various gases are introduced into the deodorizing unit 140 in the form of water vapor, and the sludge dry matter is discharged to the outside through the sludge outlet 112. Water vapor introduced into the deodorizing unit 140 is thermally decomposed by the odor component due to the high heat generated by the halogen high temperature lamp 141. Therefore, the smell is removed from the water vapor.

Water vapor passing through the deodorizing unit 140 is introduced into the steam inlet 230 of the deodorizing cooling tower 200 through the pipe 300. Water vapor introduced into the steam inlet 230 passes through the deodorizing material while sequentially passing through the plurality of deodorizing cooling units 240, and thus remains despite passing through the deodorizing unit 140 of the sludge drying apparatus 100. The bad smell is removed. The water vapor is converted into water by the cold water injected from the injection unit 220 while passing through the deodorization cooling unit 240. Water injected from the injection unit 220 and the water changed in the water vapor is discharged to the outside through the discharge port (250).

In the sludge drying system 1000 according to the present embodiment, as the sludge drying apparatus 100 uses a direct heating method, the sludge drying speed is high and thermal efficiency is high. In addition, while the water vapor generated in the sludge drying passes through the halogen high temperature lamp 141 and the deodorization cooling unit 240, the odor is removed and sterilized.

It should be noted that the embodiments of the present invention disclosed in the present specification and drawings are only illustrative of the present invention in order to facilitate description of the present invention and to facilitate understanding of the present invention and are not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention can be carried out in addition to the embodiments disclosed herein.

100: sludge drying apparatus 110: chamber
120: stirring section 122: removing section
130: heating plate 140: deodorizing unit
141 halogen high temperature lamp 200 deodorizing cooling tower
210: body portion 220: injection portion
230: steam inlet 240: deodorization cooling unit
250: outlet 260: circulation
1000: Sludge Drying System

Claims (4)

A chamber into which sludge is introduced, and inflow of external air is blocked;
An agitator for agitating sludge introduced into the chamber;
A heating plate attached to an outer lower side of the chamber to directly heat the chamber to dry the sludge introduced into the chamber; And
Sludge drying apparatus comprising a; deodorizing unit is located in the upper portion of the chamber is passed through the water vapor generated in the sludge, the halogen high temperature lamp for removing odor. The method of claim 1,
The heating plate is a heating panel (panel) that generates heat using electricity,
The sludge drying apparatus, characterized in that a plurality of the heating panel is attached. The method according to claim 1 or 2,
The stirring portion has a spiral blade shape,
And a removal unit for removing the sludge dried material pressed on the inner wall of the chamber by heating the heating plate at the end of the spiral blade. The sludge drying apparatus according to claim 1 or 2; And
A main body portion having an empty inside, a spraying portion located above the main body portion for injecting cold water, a steam inlet connected with a deodorizing portion of the sludge drying apparatus and introducing water vapor generated in the sludge into the main body portion; And a deodorization cooling tower having a plurality of deodorization cooling units disposed under the injection unit and having a deodorizing material therein to remove odors while passing water vapor introduced into the steam inlet, and a discharge port disposed under the main body to discharge water. Sludge drying system comprising a.

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