KR20190120580A - Solidification device of wastewater sludge for increasing density - Google Patents

Abstract

Disclosed is an apparatus for wastewater sludge solidification for density improvement. The apparatus of the present invention, as a wastewater sludge solidifying apparatus for solidifying wastewater sludge dried and powdered by a sludge drying device, includes: a main body which includes a tapered pipeline installed in a horizontal direction so that the sludge powder is injected into the tapered pipeline and a discharge pipeline provided in the tapered pipeline; a sludge forming unit which is provided to compress the sludge powder injected into the tapered pipeline and form the sludge powder into a sludge solidified material by using high temperatures; and a low temperature cooling unit which is installed on the discharge pipeline and provided to cool the sludge solidified material to low temperatures. According to the present invention, the apparatus can rapidly perform a sludge solidification process by compressing the sludge powder, forming the compressed sludge powder into the sludge solidified material by high temperature, and rapidly cooling the formed sludge solidified material to low temperature, and can reduce transportation cost while improving heating efficiency in an incineration process by increasing density of the sludge solidified material.

Description

SOLIDIFICATION DEVICE OF WASTEWATER SLUDGE FOR INCREASING DENSITY

The present invention relates to an apparatus for solidifying wastewater sludge for improving the density, and more particularly, to an apparatus for solidifying wastewater sludge for improving the density whose structure is improved to solidify the dried sludge.

Currently, the amount of sludge containing sewage sludge generated from sewage treatment plants or wastewater sludge generated from wastewater treatment plants, swine wastewater sludge, condensed sludge, process sludge and other organic substances including sludge is increasing day by day.

In this situation, the sludge is largely treated by landfill, ocean dumping, incineration or fueling, and many technologies have been developed to treat sludge and recycle it into solid fuel.

In other words, in recent years, attempts and researches on waste resources such as sewage sludge have been conducted in various forms, and as part of this, the sewage sludge is reduced to soil, used as building materials, active ingredients are decomposed, reduced or reused as solid fuel. Various methods have been devised, and among them, the method of reusing waste solid fuel (RDF) as refrigerated waste fuel (RDF) is compression-molded sewage sludge into pellets, cubes, briquettes, and the like. It can be used as an alternative fuel for gas and oil, and has the advantage of simultaneously treating sludge and recycling of resources.

On the other hand, sewage sludge is very diverse depending on the source or regional characteristics, but 70 ~ 85wt% is water, the remainder is combustible ash and ash, and the combustible ash occupies about 10 ~ 14wt% of the total amount. In addition, the calorific value of the dry solid itself is 3000 ~ 5000kcal / kg-waste, it is reported that does not exceed the CO, sulfur oxides (SOx), nitrogen oxides (NOx) environmental standard value when completely burned, it has a value as a substitute fuel.

However, since the sewage sludge is 70 to 85 wt% of water, a process for removing water is essential for use as a fuel, and the water removal process occupies 30 to 40% of the energy input to the entire process. As it has a decisive influence on the productivity and production cost of sewage sludge solid fuel, the efficiency of water removal process is a very important task in the production of sewage sludge solid fuel.

That is, the conventional sewage sludge is manufactured and recycled through a solid fuel through a solidification process of the sludge solidification apparatus after the dehydration process of removing water by the sludge dewatering apparatus.

However, the conventional sewage sludge solidification apparatus has a problem that the solid state of the solid fuelized sludge is not solid when molding the sludge.

In addition, the solid fuel, which is not solid as described above, has a problem of aeration due to odor or harmful gas when combustion or pyrolysis gasification occurs, and the expected energy efficiency is lowered because it is released to the lower part of the combustion chamber without debris burning. There is a problem that is difficult to achieve. For example, if 10% of the solid fuel is released to the debris, the energy efficiency is lowered by 10% or more since the debris is discharged together with the ash to the lower part of the combustion chamber before the combustion or pyrolysis gasification reaction.

Republic of Korea Patent Publication No. 10-1481947 (Registration date January 06, 2015) Republic of Korea Patent Publication No. 10-1656838 (Registration Date: September 06, 2016)

The technical problem of the present invention is to provide a solidification apparatus for wastewater sludge for improving the density which can rapidly carry out solidification of the sludge by molding by compression high temperature at the time of solidification of the dried sludge and rapidly cooling to a low temperature. .

Another technical problem of the present invention is to provide a wastewater sludge solidification apparatus for improving the density which can solidify the sludge at a high density.

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 a wastewater sludge solidifying apparatus for solidifying powdered wastewater sludge dried by a sludge drying apparatus, the taper pipe line is installed in a horizontal direction so that the sludge powder is injected, and the discharge pipe line in the tapered pipe line A main body provided; And a sludge forming part provided to mold the sludge powder injected into the tapered pipe into a sludge solid material using compression and high temperature. And a low temperature cooling unit installed in the discharge line and provided to cool the sludge solids at low temperature.

The sludge forming unit is rotatably installed in the tapered pipe, the compression screw of a straight shape for compressing the sludge powder in the horizontal direction in accordance with the rotation to form a sludge solids; And a high temperature heat generating unit installed outside the tapered pipe line and generating heat to remove residual water of the sludge powder when the compression screw is formed.

In addition, the technical problem is a wastewater sludge solidifying apparatus for solidifying the wastewater sludge powdered by the sludge drying apparatus, the taper pipe line is installed in the vertical direction so that the sludge powder is injected, and the discharge pipe line in the tapered pipe line A main body provided; And a sludge forming part provided to mold the sludge powder injected into the tapered pipe into a sludge solid material using compression and high temperature. And a low temperature cooling unit installed in the discharge line and provided to cool the sludge solids at low temperature.

The sludge forming part is rotatably installed in the tapered conduit and is formed to have a taper corresponding to the tapered conduit, and compresses the sludge powder in a vertical direction according to rotation to form a sludge solid. screw; And a high temperature heat generating unit installed outside the tapered pipe line and generating heat to remove residual water of the sludge powder when the compression screw is formed.

The thermoelectric circuit breaker may further include a thermoelectric circuit breaker provided to block the heat of the taper pipe from being transferred to the discharge pipe when the sludge solid material is formed.

Further, characterized in that it further comprises a steam discharge fan provided to discharge the steam generated in the tapered pipe to the outside during the molding of the sludge solids.

According to the present invention, the sludge powder is compacted into a sludge solid by compression and high temperature, and then rapidly cooled to a low temperature, so that the sludge solidification process can be performed quickly, and the density of the sludge solid is increased to improve the exothermic efficiency in the incineration process. It has a useful effect to reduce the transportation cost.

1 is a block diagram showing an apparatus for solidifying wastewater sludge according to a first embodiment of the present invention.
2 is a block diagram showing an apparatus for solidifying wastewater sludge according to a second embodiment of 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.

First Example

Solidification apparatus for wastewater sludge for improving the density according to the present invention, as shown in Figure 1, the main body 10, the sludge forming portion 20, the low temperature cooling unit 30, the thermoelectric shield 40 ), And a steam discharge fan (50).

The main body 10 is provided to be solidified and discharged after the sludge powder is input, and includes a tapered conduit 12 and a discharge conduit 14.

The tapered pipe line 12 presented in this embodiment has a structure that is installed in the horizontal direction and tapered in the discharge pipe line 14 direction. The tapered conduit 12 is formed to provide a space that can be solidified by the sludge forming unit 20 after the sludge powder is injected, the inlet 121 for the sludge powder is formed.

The discharge conduit 14 is formed so that the sludge powder introduced into the tapered conduit 12 may be molded to be solidified by the sludge forming unit 20 and then discharged.

The sludge forming part 20 is provided to shape the sludge powder introduced into the tapered pipe line 12 into sludge solids using compression and high temperature, and includes a straight compression screw 22 and a high temperature heat generating part 24. do.

The straight compression screw 22 is rotatably installed in the tapered conduit 12. The compression screw 22 has a structure in which the sludge powder introduced into the tapered conduit 12 is compressed in a horizontal direction to form a sludge solid material.

The high temperature heat generating unit 24 is formed to generate heat during molding of the compression screw to remove residual moisture of the sludge powder. To this end, the high temperature heat generating unit 24 may be configured as a heater installed outside the tapered conduit 12.

The high temperature heating part 24 provides high heat to the sludge powder to remove residual moisture, and thus the sludge powder may be dried in the process of being compression molded into sludge solid by the compression screw 22.

The low temperature cooling unit 30 is installed in the discharge conduit 14 of the main body 10 and is provided to cool the sludge solids at low temperature.

The low temperature cooling unit 30 cools the sludge solids in the discharge conduit 14, thereby increasing the density of the sludge solids.

The thermoelectric breaker 40 is provided to block heat generated during molding of the sludge forming part from being transferred to the discharge conduit 14. To this end, the thermoelectric breaker 40 is provided at the boundary between the tapered conduit 12 and the discharge conduit 14.

The thermoelectric shield 40 blocks the heat generated from the high temperature heat generating unit 24 of the sludge forming unit 20 so as not to be transferred to the discharge conduit 14, and thus the sludge solid material cooled at a low temperature in the discharge conduit 14. It is possible to ensure the cooling state of the.

The steam discharge fan 50 is provided to discharge water vapor generated in the tapered pipe line 12 when the sludge solids are molded. The steam discharge fan 50 quickly discharges the water vapor in the tapered conduit 12 generated when the residual water of the sludge powder is removed to the outside, thereby preventing the occurrence of moisture in the tapered conduit 12 while ensuring rapid drying of the sludge powder. You can do it.

Hereinafter, the solidification process of wastewater sludge for improving the density according to the present invention.

First, the solidification apparatus of the wastewater sludge according to the present invention has a structure in which the sludge powder dried and powdered by the sludge drying apparatus can be solidified.

The sludge powder is injected into the tapered conduit 12 of the main body 10 (arrow direction) and then compressed in the horizontal direction by the compression screw 22 of the sludge forming unit 20 to be formed into a sludge solids, Residual water of the sludge powder during molding is removed by the heat of the high temperature heat generating portion (24). That is, the sludge powder is dried to remove residual moisture in the process of being formed into a sludge solid by the sludge forming part 20.

The sludge solid formed by the sludge forming part 20 is cooled by the low temperature cooling part 30 in the process of being discharged (arrow direction) into the discharge conduit 14. That is, the sludge solids are rapidly cooled by the low temperature cooling unit 30 in the discharge conduit 14, thereby increasing the density of the sludge solids.

As described above, the wastewater sludge solidification apparatus for improving the density according to the present embodiment, after the sludge powder is formed into sludge solids by compression and high temperature, and then rapidly cooled to low temperature, the sludge solidification process can be performed quickly. It can increase the density of the sludge solids, while reducing the transportation cost while improving the heat generation efficiency during the incineration process.

2nd Example

In the wastewater sludge solidification apparatus for improving the density according to the present invention, as shown in FIG. 2, a tapered conduit 12 provided in the main body 10 is installed in a vertical direction, and a conical shape is formed in the tapered conduit 12. Compression screw 22A is rotatably installed, except for this structure is the same as the above-described embodiment.

That is, the tapered pipe 12 presented in this embodiment has a structure that is installed in the vertical direction unlike the above-described embodiment.

In addition, the cone-shaped compression screw 22A is formed to have a taper corresponding to the tapered conduit 12, and is rotatably installed in the tapered conduit 12. As shown in FIG.

According to this structure, the sludge powder introduced into the tapered conduit 12 is increased by the compression screw 22A during the downward movement (arrow direction).

That is, the sludge powder is injected into the tapered pipe line 12 and then the compression ratio is increased in the process of moving downward to the compression screw 22A, it is possible to ensure a high density when forming a sludge solid.

As described above, in the wastewater sludge solidification apparatus according to the present embodiment, the taper conduit 12 is installed in the vertical direction, and a cone-shaped compression screw 22A is installed therein to compress the sludge powder. By increasing the it is possible to ensure the high density of the sludge solids, except for this action and effect is the same as the above-described embodiment.

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: main body
12: Taper Pipeline
14: discharge pipe
20: sludge forming part
22: compression screw
24: high temperature heating unit
30: low temperature cooling unit
40: thermoelectric breaker
50: steam exhaust fan

Claims (6)

A solidifying apparatus for wastewater sludge which solidifies powdered wastewater sludge dried by a sludge drying apparatus,
A main body provided with a tapered pipe line installed in a horizontal direction so that the sludge powder is injected, and a discharge pipe line provided in the tapered pipe line; And
A sludge forming part provided to form the sludge powder injected into the tapered pipe into a sludge solid material using compression and high temperature; And
And a low temperature cooling unit installed in the discharge conduit to cool the sludge solids at a low temperature. The method of claim 1,
The molding unit,
A linear compression screw rotatably installed in the tapered conduit and compressing the sludge powder in a horizontal direction according to rotation to form sludge solids; And
And a high temperature heat generating unit installed outside the taper pipe and generating heat to remove residual water of the sludge powder when the compression screw is formed. 2. A solidifying apparatus for wastewater sludge which solidifies powdered wastewater sludge dried by a sludge drying apparatus,
A main body provided with a tapered pipe line installed in a vertical direction so that the sludge powder is injected, and a discharge pipe line provided in the tapered pipe line; And
A sludge forming part provided to form the sludge powder injected into the tapered pipe into a sludge solid material using compression and high temperature; And
And a low temperature cooling unit installed in the discharge conduit to cool the sludge solids at a low temperature. The method of claim 3,
The molding unit,
A cone-shaped compression screw rotatably installed in the tapered conduit and formed to have a taper corresponding to the tapered conduit, and compressing the sludge powder in a vertical direction according to rotation to form a sludge solid material; And
And a high temperature heat generating unit installed outside the taper pipe and generating heat to remove residual water of the sludge powder when the compression screw is formed. 2. The method according to any one of claims 1 to 4,
And a thermoelectric circuit breaker provided to block the heat of the tapered pipe from being transferred to the discharge pipe when the sludge solids are formed. The method according to any one of claims 1 to 4,
The apparatus for solidifying wastewater sludge for density improvement further comprising a steam discharge fan provided to discharge water vapor generated in the tapered pipe to the outside when the sludge solid material is formed.

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