KR102021731B1 - Sludge Dehydration and Drying Equipment - Google Patents

Abstract

The present invention includes a sludge dryer and a sludge dehydrator, wherein the sludge dehydrator is located in front of the sludge dryer, the sludge dewatering and drying apparatus for drying the dewatered sludge produced in the sludge dehydrator in the sludge dryer to produce dry sludge to provide. The sludge dewatering and drying apparatus of the present invention provides the advantages of minimizing the amount of energy used for sludge drying as well as the cost required for manufacturing the apparatus, compared to the conventional sludge dewatering and drying apparatus.

Description

Sludge Dehydration and Drying Equipment

The present invention relates to a sludge dewatering and drying apparatus, and more particularly includes a sludge dryer and a sludge dehydrator, the sludge dehydrator is located in front of the sludge dryer, the dewatered sludge is introduced into the sludge dryer to the upper side of the sludge dryer, the sludge The present invention relates to a sludge dewatering and drying apparatus for drying sludge by hot air injected upward from a lower side inside a dryer.

In general, sludges generated during the treatment of sewage (manure, livestock waste, food waste, industrial waste, etc.) are dehydrated with chemicals and contain approximately 80% of moisture, and the calorific value is usually 2,000 kcal / kg up to 4,000. It is reaching kcal / kg.

Emitted cakes require excessive energy costs for the operation of sludge intermediate treatment facilities such as drying, carbonization, and composting. However, there is no practical technology to install and operate facilities that are expensive.

Conventional sludge treatment technology mainly uses incineration or landfill while maintaining the sludge moisture content of about 60% through dehydration and drying equipment.

The flocculant contained in the sludge during the long-term operation of the drying apparatus is strongly adhered to the inner surface of the drying apparatus, and thus it is difficult to operate it normally and for a long time.

The current sludge drying equipment is used in various ways such as hot air drying and screw type drying equipment using steam, but the surface water and free water of sludge are dried quickly, but the drying time is not easy because the combined water and internal water of sludge are not evaporated smoothly. Most of the facilities are operated with low drying efficiency despite long time of about 60 minutes.

Due to the bad smell that occurs during sludge dewatering and drying, driving in the city is the main cause of complaints.

In order to solve the above-mentioned problem, KR Patent Application No. 10-2013-0127263 (name of the invention: sludge energyification device using oxidative dehydration and dry combustion) includes a sludge reduction facility for concentrating, oxidizing and dehydrating sludge; A dry fuelization plant for drying and crushing the sludge cake of the sludge reduction system to produce powdered fuel; A waste heat generating facility for producing heat and electricity by burning the powdered fuel produced by the dry fueling facility; Odor removal and combustion equipment for burning and treating odor generated in the drying process of the dry fuelization equipment together with powdered fuel; And it discloses a sludge energy conversion device comprising a waste gas treatment facility for removing harmful substances by treating the waste gas generated in the waste heat power generation equipment and the powder fuel combustion process of the odor removal and combustion equipment,

KR Patent Application No. 10-2013-0103054 (Invention name: organic waste treatment and energy conversion device) is a pretreatment facility that receives organic wastes, crushes, selects and dehydrates and separates them into contaminants, dehydrated cakes and dehydration liquids. ; A dry fueling facility for manufacturing powdered fuel which is an energy source of a combustion facility by receiving a dewatering cake from which contaminants are separated by the pretreatment facility; And a process water production facility for receiving the dewatered liquid from which the contaminants are separated by the pretreatment facility, and manufacturing the process water for flue gas treatment of the combustion facility through a reprocessing process.

However, in the case of the above-mentioned patent document, there exists a problem that the drying efficiency of the treated sludge falls.

Throughout this specification, many papers and patent documents are referenced and their citations are indicated. The disclosures of cited papers and patent documents are incorporated herein by reference in their entirety, and the level of the technical field to which the present invention belongs and the contents of the present invention are more clearly explained.

Prior art literature

New Technology Certificate No. 414

New Technology Certificate No. 423

Registration number (date) 101364491 (2014.02.12)

Registration number (date) 101370978 (2014.02.28)

Registration number (date) 101481947 (2015.01.06)

Registration number (date) 101281672 (2013.06.27)

Registration number (date) 101250757 (March 29, 2013)

The inventors of the present invention have studied diligently to develop a sludge dewatering and drying apparatus that can minimize the amount of energy used for sludge drying as well as significantly reduce the cost required to manufacture the device, compared to the conventional sludge dewatering and drying apparatus. I tried. As a result, it includes a sludge dryer and a sludge dehydrator, the sludge dehydrator is located in front of the sludge dryer, the dewatered sludge is introduced into the sludge dryer to the upper side of the sludge dryer, and then the sludge by hot air sprayed from the lower side inside the sludge dryer to the upper side The present invention has been completed by discovering that the above problems can be solved when dried.

Accordingly, an object of the present invention is to provide a sludge dewatering and drying apparatus.

Other objects and advantages of the present invention will become apparent from the following detailed description, claims and drawings.

The present invention provides a sludge dewatering and drying apparatus.

The inventors of the present invention have studied diligently to develop a sludge dewatering and drying apparatus that can minimize the amount of energy used for sludge drying as well as significantly reduce the cost required to manufacture the device, compared to the conventional sludge dewatering and drying apparatus. I tried. As a result, it includes a sludge dryer and a sludge dehydrator, the sludge dehydrator is located in front of the sludge dryer, the dewatered sludge is introduced into the sludge dryer to the upper side of the sludge dryer, and then the sludge by hot air sprayed from the lower side inside the sludge dryer to the upper side It has been confirmed that the problem can be solved when dried.

According to an aspect of the present invention, the present invention is a sludge drying case, a dewatered sludge inlet formed on the upper side of the sludge dry case, a dewatered sludge crushing unit for crushing the dewatered sludge injected into the dewatered sludge inlet to produce a crushed dewatered sludge, the sludge An exhaust gas outlet formed above the drying case to discharge dehydrated sludge dry gas, a hot air distribution unit formed inside the sludge drying case to supply and distribute hot air for drying the dewatered sludge, and a dry sludge outlet formed below the sludge drying case And it provides a sludge drying apparatus comprising a dry sludge discharge unit for discharging the dry sludge discharged from the dry sludge discharge port.

As used herein, the term 'sludge' may refer to sediments produced during sewage treatment or water purification.

As used herein, the term “dehydrated sludge” may refer to sludge that has undergone conventional physical and / or chemical dehydration.

As used herein, the term 'dry sludge' may refer to dewatered sludge that has undergone physical drying of a drying apparatus.

As used herein, the term “water content” may refer to a ratio of moisture in a specific material.

As used herein, the term “exhaust gas” may refer to a gas emitted from a specific engine.

In the present invention, it is very important to include a dewatered sludge inlet and a dewatered sludge crushing unit on the upper side of the sludge drying case, and a hot air distribution unit, a dry sludge outlet, and a dry sludge outlet on the lower side of the sludge drying case. This is because, when supplying dewatered sludge from above to below and supplying hot air from below, the installation cost of conveying means such as a conveyor for transporting dewatered sludge can be reduced, and the size of the sludge drying apparatus can be significantly reduced. to be.

According to a preferred embodiment of the present invention, the sludge dryer of the present invention may further include a sludge flat portion formed on the upper side of the sludge drying case to flatten the dewatered sludge loaded in the sludge drying case.

In the present invention, it is very important to include a sludge flat portion on the upper side inside the sludge drying case. This is because if the dewatered sludge accumulated on the upper side of the sludge drying case does not accumulate evenly, the hot air flowing upward from the lower side of the sludge drying case does not flow evenly inside the sludge drying case, and the degree of drying may vary depending on the location of the dewatered sludge. to be.

According to a preferred embodiment of the present invention, the hot air distribution unit of the present invention is preferably a hot air distribution port is formed on one side, the hot air distribution cylinder formed with a hot air discharge portion on the upper side; A hot air dispersion shade coupled to an upper side of the hot air distributor, dispersing hot air injected from the hot air discharge unit, and preventing crushed dewatered sludge from entering the hot air discharge unit; And it may include a dispersion shade support for supporting the hot air dispersion shade.

In the present invention, it is very important that the hot air distributor includes a hot air distributor and a hot air dispersion shade. If there is no hot air distributor and hot air dispersion shade, the hot air supplied into the sludge drying case is not evenly distributed in the sludge drying case, since the crushed sludge is not evenly dried and the sludge drying efficiency may be significantly reduced. to be.

According to a preferred aspect of the present invention, the sludge dryer of the present invention may preferably further include a heating unit for heating the sludge drying case outside the sludge drying case,

More preferably, it may further include a heating unit for heating the sludge drying case on the outer upper side of the sludge drying case,

Most preferably, it may further include a heating unit for heating the sludge drying case from the outer middle point of the sludge drying case to the upper end point.

In the present invention, it is very important to include a heating unit for heating the sludge drying case on the outer upper side of the sludge drying case. This is because the hot air sprayed from the lower side of the sludge drying case may have a problem that the temperature of the hot air decreases in the course of flowing into the upper side of the drying case and the humidity included in the hot air decreases the sludge drying efficiency. This is because the above problem can be solved by providing a new heat source on the upper side.

According to a preferred aspect of the present invention, the heating part of the present invention may preferably include a heating jacket and a heat insulating material covering the heating jacket.

According to a preferred aspect of the present invention, the dry sludge discharge part of the present invention may preferably include a dry sludge discharge conveyor and a door for opening and closing the dry sludge discharge port.

Including the dry sludge discharge conveyor and the door in the present invention is a very important configuration. Because, the dewatered sludge moves from the upper side of the sludge drying case to the lower side and proceeds with the drying process. The dried sludge is discharged to the outside of the case and the dehydrated sludge which is not dried is moved to the lower side of the sludge inside the case. To do this, a dry sludge discharge conveyor is required to move the sludge, and a hot air discharge prevention door is provided to prevent the hot hot air supplied for drying from being discharged to the outside of the dryer through the dry sludge conveying conveyor for a time other than the sludge discharge operation. Because it is necessary.

According to a preferred aspect of the present invention, the crushed portion of the present invention may preferably exhibit at least 80% of the unit crushed sludge in the resulting crushed dewatered sludge, which exhibits the following characteristics:

(a) thickness: 0.1-2.0 cm; And

(b) Volume: 1-100 cm 3.

In the present invention, it is very important to maintain the size of the unit crushed dewatered sludge in the above-described range. Because the hot air injected from the lower side of the sludge drying case flows to the upper side of the drying case along the space between the unit crushed dewatering sludge,

If the size of the unit crushed dewatered sludge is less than the above-mentioned range, there is a problem that the resistance to the circulation of the hot air injected into the dewatered sludge is severe,

This is because when the size of the unit crushed dewatered sludge exceeds the above-mentioned range, the sludge drying efficiency is deteriorated.

According to another aspect of the present invention, the present invention is a sludge dry case, a dewatered sludge inlet formed on the upper side of the sludge dry case, a dewatered sludge crushing unit for crushing the dewatered sludge injected into the dewatered sludge inlet to produce a crushed dewatered sludge, the sludge An exhaust gas outlet formed above the drying case to discharge dehydrated sludge dry gas, a hot air distribution unit formed inside the sludge drying case to supply and distribute hot air for drying the dewatered sludge, and a dry sludge outlet formed below the sludge drying case And a sludge drying apparatus and a sludge dehydrator including a dry sludge discharge unit for discharging dry sludge discharged from the dry sludge discharge port, wherein the sludge dehydrator supplies dewatered sludge to the dewatered sludge inlet of the sludge drying apparatus, and Provided is a sludge dewatering and drying apparatus for drying the dewatered sludge produced in the sludge dehydrator to produce a dry sludge.

According to a preferred embodiment of the present invention, the dewatered sludge of the present invention is preferably introduced into the sludge dryer to the upper side of the sludge dryer, and may be dried by hot air injected from the lower side inside the sludge dryer to the upper side.

According to a preferred aspect of the present invention, the sludge dehydrator of the present invention may preferably be a filter press sludge dehydrator,

More preferably, it may be a follicle filter filter press,

Even more preferably, it may be a follicle filter filter press including a sequential peeling filter plate,

Most preferably, it may be to produce a dewatered sludge cake having a thickness of 5-20 mm with a filter filter filter including a sequential peeling filter plate.

In the present invention, it is a very important configuration that the follicle filter press produces a dewatered sludge cake having a thickness of 5-20 mm. If the thickness of the dewatered sludge cake is less than 5 mm, the filter press operation efficiency is lowered, as well as the resulting dewatered sludge cake may be generated below the size range of the above-described unit shredded dewatered sludge, and the thickness of the dewatered sludge cake If it exceeds 20 mm, sludge drying efficiency may decrease.

According to a preferred embodiment of the present invention, the sludge dewatering and drying apparatus of the present invention may further include a dry sludge transport conveyor for transporting the final dried sludge under the dry sludge outlet.

The features and advantages of the present invention are summarized as follows:

(a) The present invention includes a sludge dryer and a sludge dehydrator, the sludge dehydrator is located in front of the sludge dryer, the sludge dewatering to dry the sludge dehydration produced in the sludge dehydrator in the sludge dryer to dry sludge and Provide a drying device.

(b) The sludge dewatering and drying apparatus of the present invention provides the advantages of minimizing the amount of energy used for sludge drying as well as the cost required for manufacturing the apparatus, as compared with the conventional sludge dewatering and drying apparatus. .

1 shows a sludge dehydrator which is a configuration included in the present invention.
Figure 2 shows a sludge dryer that is a configuration included in the present invention.
Figure 3 shows the sludge dewatering and drying apparatus of the present invention.
4 to 6 show a hot air distribution unit that is a configuration of the present invention.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all transformations, equivalents, and substitutes included in the spirit and scope of the present invention. In the following description of the present invention, if it is determined that the detailed description of the related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

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

1 to 3 show the main configuration of the sludge dehydrator 10, the sludge dryer 20 and the sludge dewatering and drying apparatus 1 according to an embodiment of the present invention.

1 to 3, the sludge dewatering and drying apparatus 1 according to an embodiment of the present invention includes a sludge dehydrator 10, a sludge dryer 20, and a dry sludge conveying conveyor 30.

Referring to Figure 1, the sludge dehydrator 10 according to an embodiment of the present invention is a filter plate 11, filter mounting cylinder 12, cleaning trap 13, dripping pan 14, dewatering sludge transport conveyor ( 15) and the washing water drain pipe (16).

Hereinafter, the sludge dehydrator 10 will be described in more detail.

The sludge introduced into the dehydration equipment is fed into the filter cloth inside the filter chamber, and the filtrate passed through the filter cloth by the sludge supply pressure is discharged to the outside through the outlet through the cleaning trap 13 installed under the filter plate 11 and passes through the filter cloth. Solids that do not have a primary dewatering process are left inside. In order to increase the drying efficiency of the rear stage, the input sludge amount is adjusted so that the cake thickness is 20 mm or less.

The cake collected inside the filter chamber is inflated using a high pressure compressed water and compressed by the expanded diaphragm. The dewatered and compressed sludge remains inside the filter cloth, and the desorption filtrate is discharged out of the dehydrator and undergoes a second dehydration process.

After the second dehydration is finished, the compressed water remaining in the diaphragm is discharged to the outside of the sludge dehydrator 10 while the sludge dehydrator 10 is pressed, and the filter plates 11 are all opened at regular intervals by pressing on the filter mounting cylinder 12 to compress the sludge. Sludge is discharged to the bottom. In order to exfoliate the remaining sludge remaining in the filter plate 11, the filter cloth moves downward and then upward again.

Dewatering sludge separated from the sludge dehydrator 10 filter plate 11 accumulates in the dripping pan 14 under the dehydrator, and after the dewatering sludge discharge process is completed, the dripping pan 14 is opened to release the dewatered sludge transport conveyor 15. To be discharged. After this, the conveyor is alternately transferred to the dewatered sludge inlet 22 of the sludge dryer 20 which will be described later.

2, the sludge dryer 20 according to an embodiment of the present invention is a sludge drying case 21, dewatered sludge inlet 22, dewatered sludge crushing unit 23, exhaust gas outlet 24, hot air supply Hot air distributor 25, including hot air distributor 25-2, hot air dispersion shade 25-3, dispersion shade support 25-4, dry sludge outlet 26, Includes a dry sludge discharge portion 27, a sludge flat portion 28, a heating jacket 29-1 and a heat insulating material 29-2 including a dry sludge discharge conveyor 27-1 and a door 27-2. It comprises a heating unit 29 to.

The sludge dryer 20 will be described in more detail below.

The dewatered sludge discharged through the sludge dehydrator 10 is crushed to a predetermined size by the dewatered sludge crushing unit 23 attached to the dewatered sludge inlet 22 and then introduced into the drying case 21 of the sludge dryer 20. By rotating the sludge flat portion 28 installed on the upper side of the drying case 21, the dehydration sludge does not accumulate in one direction in the drying facility so that hot air from the lower portion is evenly distributed.

The sludge dryer 20 composed of two series is always supplied with hot air to dry the process, and the hot air supplied from the external hot air supply device passes through a plurality of hot air supply ports 25-1 through a hot air supply pipe inside the drying facility. It is supplied to the lower part of the dryer through the supplied hot air is evenly distributed into the sludge dryer 20 through the hot air distributor 25-2 and hot air dispersion shade 25-3 and directly through the fine pores between the dewatered sludge Dry through warming.

In addition, the hot air dispersion shade 25-3 is made wider than the outlet of the hot air distributor 25-2, the end position is extended to a position lower than the outlet of the hot air distributor 25-2 to produce an upper portion The dewatering sludge moving to the lower part at the same time has a function of preventing the hot air distribution tank 25-2 from blocking the outlet and evenly distributing the supplied hot air to the entire lower part of the dryer.

The exhaust gas generated after drying the dewatered sludge is discharged to the atmosphere after being treated in a scrubber tower at a later stage via the exhaust gas outlet 24 at the top of the dryer.

In addition, the door 27-2 is installed in the dry sludge outlet 26 to prevent hot air from escaping to the outlet of the lower part of the drying equipment.

A certain amount of dried sludge dried in the sludge dryer 20 is alternately taken out to the outside according to the series. At the time of carrying out, it is carried out to the outside through the dry sludge discharge conveyor 27-1 and the dry sludge conveying conveyor 30 of the lower part, At this time, the door 27-2 is opened and hot air supply is stopped.

Sludge Dryer 20 The sludge drying case 21 includes a heating unit 29 including a heating jacket 29-1 and a heat insulating material 29-2, and hot air and hot water are generated together with an external heat source supply facility. In the case of hot water, the hot water is injected into the warming jacket outside the drying facility to allow heat transfer to the inside of the drying facility so that the complex drying is performed by direct heating by hot wind and indirect heating by hot water.

Sludge Dehydrator & Dryer 1 Sludge Dehydrator 10
Filter plate 11 Filter mounting cylinder 12
Cleaning trap 13 Dripping pan 14
Dewatering Sludge Conveyor 15 Rinsing Drain Pipe 16
Sludge Dryer 20 Sludge Drying Case 21
Dewatering Sludge Slot 22 Dewatering Sludge Shredding 23
Exhaust gas outlet 24 Hot air distributor 25
Hot Air Inlet 25-1 Hot Air Dispenser 25-2
Hot Air Dispersion Shade 25-3 Dispersion Shade Support 25-4
Dry Sludge Discharge Conveyor 27 Dry Sludge Discharge Conveyor 27-1
Door 27-2 Sludge Flat 28
Heating 29 Heating Jacket 29-1
Insulation 29-2 Dry sludge conveying conveyor 30

Claims (10)

Sludge dry case,
Dewatered sludge inlet formed on the sludge dry case,
Dehydrated sludge crushing unit for crushing dehydrated sludge injected into the dewatered sludge inlet to produce crushed dehydrated sludge,
An exhaust gas outlet formed at an upper side of the sludge drying case to discharge dehydrated sludge dry gas;
A hot air distribution unit formed inside the sludge drying case to supply and distribute hot air for drying the dewatered sludge;
A dry sludge outlet formed under the sludge dry case;
A dry sludge discharge part for discharging dry sludge discharged from the dry sludge discharge port,
The hot air distribution unit is formed with a hot air supply port on one side, hot air distribution cylinder formed with a hot air discharge portion on the upper side; A hot air dispersion shade coupled to an upper side of the hot air distributor, dispersing hot air injected from the hot air discharge unit, and preventing crushed dewatered sludge from entering the hot air discharge unit; And a dispersion shade supporter for supporting the hot air dispersion shade.
The hot air dispersion shade is made wider than the outlet of the hot air distributor, the end position is extended to a position lower than the outlet of the hot air distributor
Sludge drying equipment.
The method of claim 1,
The sludge drying apparatus further includes a sludge flat portion formed above the sludge drying case to flatten the dewatered sludge loaded in the sludge drying case.
The method of claim 1,
The sludge drying apparatus further includes a heating unit for heating the sludge drying case outside of the sludge drying case, and the heating unit includes a heating jacket and a heat insulating material covering the heating jacket. .
delete The method of claim 1,
The sludge drying unit comprises a sludge discharge conveyor and a door for opening and closing the dry sludge discharge port.
The method of claim 1,
Sludge drying apparatus, characterized in that the shredding unit has the following characteristics of more than 80% unit crushed dewatered sludge of the generated unit crushed dewatered sludge:
(a) thickness: 0.1-2.0 cm; And
(b) Volume: 1-100 cm 3.
Sludge dry case,
Dewatered sludge inlet formed on the sludge dry case,
Dehydrated sludge crushing unit for crushing dehydrated sludge injected into the dewatered sludge inlet to produce crushed dehydrated sludge,
An exhaust gas outlet formed at an upper side of the sludge drying case to discharge dehydrated sludge dry gas;
A hot air distribution unit formed inside the sludge drying case to supply and distribute hot air for drying the dewatered sludge;
A dry sludge outlet formed under the sludge dry case;
Dry sludge discharge unit for discharging the dry sludge discharged from the dry sludge discharge port
Including a sludge drying apparatus and a sludge dehydrator,
The sludge dehydrator supplies dewatered sludge to the dewatered sludge inlet of the sludge drying apparatus,
Dehydration sludge produced in the sludge dehydrator is dried in the sludge drying apparatus to produce a dry sludge,
The hot air distribution unit is formed with a hot air supply port on one side, hot air distribution cylinder formed with a hot air discharge portion on the upper side; A hot air dispersion shade coupled to an upper side of the hot air distributor, dispersing hot air injected from the hot air discharge unit, and preventing crushed dewatered sludge from entering the hot air discharge unit; And a dispersion shade supporter for supporting the hot air dispersion shade.
The hot air dispersion shade is made wider than the outlet of the hot air distributor, the end position is extended to a position lower than the outlet of the hot air distributor
Sludge dewatering and drying equipment.
The method of claim 7, wherein
The sludge dewatering and drying apparatus is characterized in that the dewatered sludge is introduced into the sludge drying apparatus to the upper side of the sludge drying apparatus, and then dried by hot air sprayed upward from the lower side of the sludge drying apparatus.

The method of claim 7, wherein
The sludge dehydrator is a sludge dewatering and drying apparatus, characterized in that the filter press (Filter Press) sludge dehydrator.
The method of claim 7, wherein
The sludge dewatering and drying apparatus further comprises a dry sludge conveying conveyor for transporting the finally dried dry sludge under the dry sludge outlet.

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