KR20190121502A - Drying and incineration of sludge using compressed air - Google Patents

Abstract

Disclosed is an apparatus for drying and incinerating sludge using compressed air. The apparatus of the present invention, as an apparatus for drying and incinerating sludge, includes: a first drying unit which is provided to dehydrate and powder sludge containing water injected sludge thereinto; a second drying unit which is provided to dry and scatter powder sludge supplied from the first drying unit by using a centrifugal force generated according to rotation of the second drying unit and air current caused by heating; a compressed air supply unit which is provided to supply light powder sludge scattered in the second drying unit to an incineration process by compressed air; and an incineration unit which is provided to incinerate the powder sludge supplied from the compressed air supply unit. According to the present invention, the apparatus can improve work efficiency through continuity of the processes of drying and incinerating sludge by allowing compressed air to move sludge and drying and incinerating the sludge in one apparatus. Further, according to the present invention, the apparatus can improve drying efficiency of sludge by allowing the first drying unit to dehydrate and powder the sludge containing water, allowing the powder sludge to be scattered and dried by the centrifugal force and heating in the second drying unit, and supplying dried light powder sludge to the incineration process by using compressed air.

Description

Drying and incineration apparatus of sludge using compressed air {DRYING AND INCINERATION OF SLUDGE USING COMPRESSED AIR}

The present invention relates to a sludge drying and incineration apparatus using compressed air, and more particularly, to a sludge drying and incineration apparatus using compressed air that can proceed with drying and incineration of sludge in one apparatus using compressed air. It is about.

In general, sludge generated during the treatment of industrial wastewater or domestic sewage is finally landfilled after removing water by mechanical dehydration. The sludge dewatered by mechanical method has a water content of about 75 to 85%. For the treatment of incineration or composting, a drying device that lowers the water content to about 40% or less is required.

On the other hand, a large amount of auxiliary fuel is added directly to incineration without drying the sludge, but this method consumes a large amount of unnecessary energy for heating and evaporating a large amount of moisture contained in the sludge. After sludge is first dried in the sludge drying device, many methods are applied to incinerate dry sludge into the sludge incineration device to minimize the amount of auxiliary fuel.The sludge drying device is mainly used as a multi-stage furnace or a rotary drying device. Sludge incinerators are widely used in fluidized bed incinerators in recent years.

However, since the sludge drying device and the incineration device used in the drying and incineration process of sludge are made separately, the work efficiency is reduced by the separate drying and incineration process of the sludge, and the individual operation and operation of the drying and incineration device are performed. There is a problem that not only increases the cost of installation, but also takes up a large amount of required area.

In addition, the multi-stage furnace or rotary type used as a conventional drying device does not have a large contact effect between the sludge and the hot air, and thus has a typical multi-energy consumption form in which a large amount of energy is consumed when the sludge is dried. There is.

Republic of Korea Patent Publication No. 10-1047876 (Registration Date: July 04, 2011) Republic of Korea Patent Publication No. 10-2014-0051659 (published: May 02, 2014)

The technical problem of the present invention is to dry and incinerate sludge using compressed air, which can improve work efficiency through the sequential drying and incineration of sludge by carrying out the drying and incineration of sludge in one apparatus using compressed air. To provide a device.

In addition, another technical problem of the present invention is to dehydrate and powder the sludge first, and to dry by scattering by centrifugal force and exotherm, and to supply the dried light powder sludge to the incineration process using compressed air. To provide a sludge drying and incineration apparatus using compressed air that can improve the drying efficiency of the sludge.

The technical problem to be achieved by the present invention is not limited to the technical problem mentioned above, and other technical problems not mentioned above may be clearly understood by those skilled in the art from the following description. There will be.

The technical problem is, in the drying and incineration apparatus of the sludge, the primary drying unit is provided to dewater and powder into the sludge containing water; A secondary drying unit provided to dry and scatter the powder sludge supplied from the primary drying unit by using centrifugal force generated by rotation and airflow due to heat generation; A compressed air supply unit configured to supply light powder sludge scattered from the secondary drying unit to the incineration process by compressed air; And an incinerator provided to incinerate the powder sludge supplied from the compressed air supply unit.

The primary drying unit includes a transfer screw into which the water-containing sludge is introduced and a first heat generating unit disposed around the transfer screw, and dewatering and powdering the sludge by a high temperature transfer method to dry the secondary. It is characterized by supplying by wealth.

The secondary drying unit, the rotating body for dispersing the powder sludge supplied from the primary drying unit by centrifugal force; And a second heat generating unit that generates heat to form an airflow capable of scattering the powder sludge dispersed outwardly of the rotating body into the air.

The compressed air supply unit is disposed on the secondary drying unit and connected to the sludge incineration unit, and generates compressed air to supply light powder sludge scattered from the secondary drying unit to the sludge incineration unit. It is done.

The incineration unit, the combustion device is formed to incinerate the powder sludge supplied from the compressed air supply unit; A discharge fan forcibly discharging the combustion gas generated during incineration of the powder sludge by the combustion device to the outside; And an ionizer installed in the discharge fan and removing odor contained in the combustion gas.

The incineration unit is connected to the compressed air supply unit and the Bernoulli conduit so as to increase the inflow rate of the powder sludge.

In addition, in the sludge drying and incineration apparatus, the technical problem is composed of a conveying screw into which the sludge containing moisture is introduced and a first heat generating portion arranged around the conveying screw, and the sludge is heated by a high temperature pressurization method. A primary drying unit provided to be dehydrated and powdered to supply the secondary drying process; It is composed of a rotating body for dispersing the powder sludge supplied from the primary drying unit by the centrifugal force generated during rotation and a second heat generating unit for generating a constant temperature, using the airflow by the dispersion and heat generation by the centrifugal force Secondary drying unit is provided to dry and scatter by; A compressed air supply unit connected to an upper portion of the secondary drying unit and configured to generate compressed air to supply light powder sludge scattered from the secondary drying unit to an incineration process; And a combustion device connected to the compressed air supply unit and the Bernoulli pipe and configured to incinerate the powder sludge supplied from the compressed air supply unit, and a combustion gas generated when the powder sludge is incinerated by the combustion device to the outside. And an incinerator configured to discharge the exhaust fan and an ionizer installed in the exhaust fan to remove odors contained in the combustion gas, and to incinerate the powder sludge and discharge the combustion gas.

According to the present invention, by moving the sludge by compressed air in one device to proceed drying and incineration, it has a useful effect that can improve the work efficiency through the sequential drying and incineration process of the sludge.

In addition, the water-containing sludge is dewatered and powdered by the primary drying unit, and the powder sludge is scattered by centrifugal force and heat generation in the secondary drying unit and dried, and the dried light powder sludge is incinerated by using compressed air. By supplying in a process, it also has an effect which can improve the drying efficiency of sludge.

1 is a view showing the configuration of the sludge drying and incineration apparatus according to the present invention.
2 is a view for explaining the principle of drying the sludge according to the present invention.
3 and 4 are views for explaining the incineration principle of the sludge according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in the following description of the present invention, a description of a known function or configuration will be omitted to clarify the gist of the present invention.

The sludge drying and incineration apparatus using compressed air according to the present invention, as shown in Figure 1, the primary drying unit 10, the secondary drying unit 20, the compressed air supply unit 30, And an incineration portion 40.

The primary drying unit 10 is provided to dehydrate and powder the sludge containing water, and includes a transfer screw 12 and a first heat generating unit 14.

The conveying screw 12 is rotatably installed inside the primary drying unit 10, and is formed to be powdered while conveying the sludge toward the secondary drying unit 20. That is, the conveying screw 12 is pulverized and powdered in the process of conveying the sludge containing water in the direction of the secondary drying unit 20.

The first heat generating unit 14 is installed in the primary drying unit 10 to be disposed along the circumference of the conveying screw 12. The first heat generating unit 14 is heated to generate a high temperature, and thus it is possible to separate the sludge and water in the process of being transferred by the transfer screw 12. In this case, the first heat generating unit 14 may be formed of hot wire or carbon fiber that generates heat according to the application of power.

As such, the primary drying unit 10 maintains a high temperature state by the heat generation of the first heat generating unit 14 to proceed with dehydration to separate the sludge and water, and at the same time contains moisture by the transfer screw 12. In the process of transporting the sludge in the direction of the secondary drying unit 20 it is a structure that is pulverized and powdered.

The secondary drying unit 20 is provided to dry and scatter the powder sludge supplied from the primary drying unit 10 by using a centrifugal force and an air flow by heat generation, the rotating body 22, and the second heating unit. (24).

The rotating body 22 is rotatably installed inside the secondary drying unit 20. On the surface of the rotating body 22, the primary dried powder sludge supplied from the primary drying unit 10 is seated. The rotor 22 is rotated by the drive motor, and thus powder sludge is dispersed outward of the rotor 22 by centrifugal force generated when the rotor 22 rotates.

The second heat generating unit 24 is installed to be disposed in the secondary drying unit 20. The second heat generating unit 24 generates a high air flow in the secondary drying unit 20 by generating a high temperature according to the heat generated, and thus the powder sludge dispersed in the outward direction of the rotating body is the secondary drying unit 20 As it dries inside, it is scattered into the air.

As such, the secondary drying unit 20 disperses the powder sludge outward by the centrifugal force generated when the rotating body 22 rotates, and at the same time, uses the high temperature airflow generated by the heat generated by the second heat generating unit 24. To disperse the dispersed sludge into the air.

The compressed air supply unit 30 is provided to supply light powder sludge scattered from the secondary drying unit 20 to the incineration process by compressed air. To this end, the compressed air supply unit 30 is formed above the secondary drying unit 20 is formed to be connected to the incineration unit (40). At this time, the compressed air supply unit 30 may be formed of a known compressed air supply device for generating and supplying compressed air.

As such, the compressed air supply unit 30 generates compressed air and flows in light powder sludge scattered from the secondary drying unit 20 by the flow of the compressed air, and supplies the compressed air to the sludge incinerator 40. It is.

In addition, the compressed air supply unit 30 may be applied to a structure that can control the pressure of the compressed air when the powder sludge is supplied to the incineration unit (40).

Herein, since the structure for adjusting the pressure of the compressed air applied to the compressed air supply unit 30 is a well-known configuration widely applied to the pressure air supply device before the application of the present invention, a description thereof will be omitted.

Incineration unit 40 is provided to incinerate the powder sludge supplied from the compressed air supply unit 30, Bernoulli pipeline 42, Bernoulli pipeline 42, discharge fan 46, and ionizer 48 It includes.

The Bernoulli duct 42 is formed to interconnect the compressed air supply 30 and the incineration 40. The Bernoulli conduit 42 serves to increase the inflow rate of the powder sludge supplied from the compressed air supply unit 30. That is, the Bernoulli channel 42 is a Bernoulli principle in which the fluid flowing in the Venturi tube flows in a large and small cross-sectional area, where the large cross-sectional area is slow in the flow of fluid, and the small cross-sectional area is fast in the fluid flow. As used, the powder sludge supplied from the compressed air supply unit 30 is rapidly increased in flow rate when passing through the Bernoulli conduit 42 can be quickly introduced into the incinerator (40).

The Bernoulli pipeline 42 is formed to incinerate the powder sludge introduced into the incineration portion 40 through the Bernoulli pipeline 42. That is, the Bernoulli duct 42 can incinerate powder sludge by generating a high temperature thermal power.

The discharge fan 46 is formed to forcibly discharge the combustion gas generated during incineration of the powder sludge to the outside. That is, the discharge fan 46 is installed on the upper portion of the incineration portion 40, thereby smoothly discharging the combustion gas scattered to the upper portion of the incineration portion 40 when the powder sludge is incinerated.

The ionizer 48 is formed to remove odor contained in the combustion gas. To this end, the ionizer 48 is installed in the discharge fan 46. Accordingly, it is possible to remove the odor in the exhaust gas discharge process.

Here, since the ionizer 48 is a well-known configuration widely applied to an air cleaner to purify the odor in the air before the present application, a description thereof will be omitted.

With reference to Figures 2 to 4, the drying and incineration process of the sludge according to the present invention will be described.

As shown in FIG. 2, after the sludge containing water is introduced into the primary drying unit 10, the sludge and water are separated according to the heat generated by the first heat generating unit 14, and the feed screw 12 is used. It is pulverized and powdered by a process transferred to the secondary drying unit 20.

That is, the primary drying unit 10 is maintained in a high temperature state according to the heat generated by the first heat generating unit 14 to proceed with dehydration to separate the sludge and water, and at the same time the transfer screw 12 is the secondary drying of the sludge Since it is pulverized while being conveyed in the direction of the portion 20, the sludge is powdered.

The powder sludge S dried by the primary drying unit 10 is supplied to the secondary drying unit 20 and seated on the rotating body 22, and the rotating body 22 exerts centrifugal force on the powder sludge S. Rotational operation by the motor to generate. Then, the powder sludge S is dispersed into the air by the air flow formed in the secondary drying unit 20 according to the heat generated by the second heat generating unit 24 while being dispersed outward of the rotor 22 by centrifugal force. .

That is, since the secondary drying unit 20 is maintained at a high temperature in accordance with the heat generated by the second heat generating unit 24 to form a constant air flow, the powder sludge S dispersed in the outward direction of the rotating body 22 is 2 In the car drying unit 20 is to be scattered into the air to be dried.

The compressed air supply unit 30 generates compressed air and supplies the compressed air to the incineration unit 40. The compressed air supply unit 30 sucks the light powder sludge S scattered from the secondary drying unit 20 by the flow of the compressed air, thereby incinerating the incineration unit. 40 to be supplied.

As shown in FIG. 3, the powder sludge S supplied together with the compressed air from the compressed air supply part 30 is introduced into the incineration part 40. At this time, the incineration unit 40 is connected to the compressed air supply unit 30 and the Bernoulli pipeline 42, so that the powder sludge S is rapidly increased when passing through the Bernoulli pipeline 42, the incineration portion It can be quickly introduced into 40.

The powder sludge S introduced into the incineration portion 40 is incinerated by the high temperature thermal power generated in the Bernoulli conduit 42. Here, the Bernoulli conduit 42 can easily adjust the thermal power by adjusting the pressure of the compressed air supplied from the compressed air supply unit 30. That is, since the amount of compressed air introduced into the incineration portion 40 is adjusted according to the pressure of the compressed air, the compressed power of the combustion device can be easily adjusted by such compressed air.

As shown in FIG. 4, the combustion gas generated in the incineration part 40 according to the incineration of the powder sludge S is forcibly discharged to the outside by the discharge fan 46. Odor generated when the combustion gas is discharged is purified by the ionizer 48, thereby it is possible to prevent the generation of odor when incineration of the powder sludge (S).

As described above, the sludge drying and incineration apparatus using the compressed air according to the present invention, through the sequential drying and incineration process of the sludge by moving the sludge by the compressed air in one device to proceed the drying and incineration Work efficiency can be improved.

In addition, the sludge drying and incineration apparatus using the compressed air according to the present invention, dewatering and powdering the sludge containing water by the primary drying unit 10, the powder sludge in the secondary drying unit 20 By drying by scattering by centrifugal force and heat generation, and supplying the dried light powder sludge to the incineration process using compressed air, the drying efficiency of the sludge can be improved.

While specific embodiments of the invention have been described and illustrated above, it is to be understood that the invention is not limited to the described embodiments, and that various modifications and changes can be made without departing from the spirit and scope of the invention. It is self-evident to those who have. Therefore, such modifications or variations are not to be understood individually from the technical spirit or point of view of the present invention, the modified embodiments will belong to the claims of the present invention.

10: primary drying unit
12: transfer screw
14: first heating unit
20: secondary drying unit
22: rotating body
24: second heating unit
30: compressed air supply unit
40: incinerator
42: Bernoulli pipeline
44: combustion apparatus
46: exhaust fan
48: ionizer

Claims (7)

In the sludge drying and incineration apparatus,
A primary drying unit provided to dehydrate and powder the sludge containing water;
A secondary drying unit provided to dry and scatter the powder sludge supplied from the primary drying unit by using centrifugal force generated by rotation and airflow due to heat generation;
A compressed air supply unit provided to supply light powder sludge scattered from the secondary drying unit to the incineration process by compressed air; And
Drying and incineration apparatus of the sludge using the compressed air comprising a; incineration portion provided to incinerate the powder sludge supplied from the compressed air supply. The method of claim 1,
The primary drying unit,
And a first heating unit disposed around the transfer screw into which the water-containing sludge is introduced and the transfer screw, wherein the sludge is dehydrated and powdered by a high temperature transfer method and supplied to the secondary drying unit. Sludge drying and incineration apparatus using compressed air. The method of claim 1,
The secondary drying unit,
A rotating body dispersing the powder sludge supplied from the primary drying unit by centrifugal force; And
And a second heat generating unit that generates heat to form an air stream capable of scattering the powder sludge dispersed outwardly of the rotor into air. 2. The method of claim 1,
The compressed air supply unit,
The compressed air is disposed on the secondary drying unit and connected to the sludge incineration unit, and compressed air is generated to supply compressed powder sludge scattered from the secondary drying unit to the sludge incineration unit. Sludge drying and incineration unit. The method of claim 1,
The incineration unit,
A combustion device formed to incinerate the powder sludge supplied from the compressed air supply unit;
A discharge fan forcibly discharging the combustion gas generated during incineration of the powder sludge by the combustion device to the outside; And
The sludge drying and incineration apparatus, comprising: an ionizer installed in the discharge fan, to remove the odor contained in the combustion gas. The method according to any one of claims 1 to 5,
The incineration unit,
Drying and incineration apparatus of the sludge using the compressed air, characterized in that connected to the compressed air supply through the Bernoulli conduit so as to increase the flow rate of the powder sludge. In the sludge drying and incineration apparatus,
It is composed of a conveying screw into which the water-containing sludge is introduced and a first heat generating unit disposed around the conveying screw, and is provided to dehydrate and powder the sludge by a high temperature pressurization method to be supplied to a secondary drying process. Drying section;
It is composed of a rotating body for dispersing the powder sludge supplied from the primary drying unit by the centrifugal force generated during rotation and a second heat generating unit for generating a constant temperature, using the airflow by the dispersion and heat generation by the centrifugal force Secondary drying unit is provided to dry and scatter by;
A compressed air supply unit connected to an upper portion of the secondary drying unit and configured to generate compressed air to supply light powder sludge scattered from the secondary drying unit to an incineration process; And
A combustion device connected to the compressed air supply unit and the Bernoulli pipeline and formed to incinerate the powder sludge supplied from the compressed air supply unit, and forcibly discharging the combustion gas generated when the powder sludge is incinerated by the combustion device to the outside. Compressed air comprising an exhaust fan and an ionizer installed in the discharge fan to remove the odor contained in the combustion gas, the incineration unit is provided to incinerate the powder sludge and discharge the combustion gas; Sludge drying and incineration apparatus.

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