KR20180060002A - Sludge dehydrator having high dehydrating efficiency - Google Patents

Abstract

The present invention relates to a sludge dehydration apparatus comprising: a flow control tank which stores and agitates sludge raw water generated in a sewage treatment plant; an aeration tank which aerates the sludge agitated in the flow control tank; and a sludge reduction apparatus which dehydrates the sludge aerated in the aeration tank. In particular, the sludge reduction apparatus is comprised of a hollow fiber membrane filter having pores of a predetermined size; and a pressure pump which operates to forcibly supply the sludge supplied from the aeration tank to the hollow fiber membrane filter. In particular, by maintaining a diameter (D) of the pores of the hollow fiber membrane filter to be greater than a skin depth (A) of organic matters contained in the sludge and to be smaller than twice the skin depth (A), the organic matters are caused to pass through the pores of the filter in a destructed state. While the organic matters of sludge are passing through the pores of the hollow fiber membrane filter, the organic matters are destructed and discharge water therefrom, thereby improving sludge dehydration efficiency and thus reducing a water content of the sludge.

Description

TECHNICAL FIELD [0001] The present invention relates to a sludge dewatering apparatus,

The present invention relates to a sludge dewatering apparatus capable of reducing the water content of sludge, more particularly, to a method of sludge dewatering apparatus capable of reducing water content of sludge by discharging moisture contained in microorganisms by destroying organic matter contained in sludge To a sludge dewatering apparatus having high dewatering efficiency.

Generally, when water contained in the sludge generated in the sewage treatment plant and the industrial wastewater is removed, the water contained in the sludge is dehydrated from the sludge by using a dehydrator.

For example, wastewater generated at a residence or a factory site flows to a sewage pipe through drainage and is sent to an end-treatment plant for disposal. Such a sewage treatment method determines the degree of treatment according to the conditions of the effluent wastewater. In general, the activated sludge method (activated sludge method) or the fountain filtration method is used.

The sludge generated by the above-mentioned treatment is a remnant of microorganisms that occurs in the water treatment process of water, industrial water, industrial wastewater, sewage, and manure as main components, and contains organic materials as a main component. Material.

Conventional sludge is produced in the form of a dewatered cake having a water content of 80% or more, and the organic matter in the solid matter of the sludge except moisture is usually within a range of 40 to 80%.

With the above-mentioned treatment method, the water content of the cake-state sludge after the final dewatering is limited, and the water content reaches about 80%. When it is incinerated, a lot of energy is consumed. There is a problem that the processing cost burdened in proportion to the normal weight increases.

Recently, a law has been enacted that totally prohibits land dumping of marine dumping in order to join international efforts to protect the marine environment.

On the other hand, in order to recycle the wastes as fuel, the water content should usually be lowered to about 20% or less. In order to lower the water content to such a level that the water content of the sludge is about 80% This was attempted.

Korean Patent Registration No. 10-928543 discloses a light guiding structure comprising a plurality of guide portions formed on the front and rear sides of a frame, respectively; A drum portion rotatably supported on the guide portion and having three passes through which sludge flows; A driving unit installed on a front side of the drum unit to rotate the drum unit; And a hot air blower installed in the rear of the drum to receive hot air.

In such a dryer, a separate drying apparatus is used to dry the sludge so as to have a desired moisture content. In this case, the sludge must be dried with hot air of about 400 ° C or more.

A number of treatment methods using ultrasound have been proposed to reduce the water content of the sludge. For example, Korean Patent Laid-Open Nos. 10-2012-0024484, 57-32799, 54-56960, and 4-331000 disclose that sludge is activated by ultrasonic treatment before dehydration treatment Discloses a technique for crushing a cell membrane of a microorganism contained in a sludge.

On the other hand, Korean Patent Registration No. 10-0406191 discloses a conventional dehydrator comprising a gravity-gravity portion, a first dehydrating portion, a second dehydrating portion, and a third dehydrating portion (high-pressure dehydrating portion) And a discharge roller for discharging water by blowing out water, and a high-pressure vacuum roller is installed in the third dewatering unit. The high-pressure vacuum roller is installed in the third dewatering unit Thereby reducing the water content of the final sludge cake.

Korean Registered Patent No. 10-928543 Korean Patent Laid-Open Publication No. 10-2012-0024484 Japanese Unexamined Patent Application No. 57-32799 Japan Special Section 54-56960 Japanese Patent Laid-open No. 4-331000 Korean Patent Publication No. 10-0406191

The present invention is provided to solve the problem that a large amount of moisture is contained in sludge as described above, and it is an object of the present invention to provide a sludge dewatering apparatus capable of efficiently dewatering organic matters contained in sludge, The object of the present invention is to provide a high sludge dewatering apparatus.

Another object of the present invention is to maintain the diameter of the discharge port through which water contained in the sludge is discharged to be less than 2A when the thickness of the epidermis constituting the organic material is 'A', thereby forcibly passing the organic material through the filter in the dehydration process, Which is capable of reducing the water content of the sludge by reducing the water content of the sludge.

In order to achieve the above object, according to the present invention, there is provided a sludge treatment apparatus comprising: a flow rate adjustment tank for storing and stirring raw water generated in a sewage treatment plant; an aeration tank for aerating the agitation sludge in the flow rate adjustment tank; The sludge dewatering device according to claim 1, wherein the sludge reducing device is a sludge dewatering device. The sludge dewatering device comprises a hollow fiber membrane filter having pores of a predetermined size and sludge supplied from the aeration tank forcibly supplied to the hollow fiber membrane filter Wherein the diameter D of the pores of the hollow fiber membrane filter is larger than the skin thickness A of the organic matter contained in the sludge and less than twice the skin thickness A, And passes through the void of the hollow fiber membrane filter in a broken state.

Air hammering means is provided between the hollow fiber membrane filter and the pressure pump for periodically applying a force to the sludge forcibly supplied to the filter.

Between the pressure pump and the air hammer means, a high-frequency generating means for applying an electric shock to the microorganisms contained in the sludge is provided.

According to the present invention, by forcibly passing the organic matter of the sludge through the voids of the hollow fiber membrane filter, the organic matter is destroyed and the moisture constituting the organic matter is discharged, thereby improving the dewatering efficiency of the sludge and reducing the water content of the sludge.

FIG. 1 is a schematic view of a sludge dewatering apparatus according to the present invention.
FIG. 2 is a schematic view showing a sludge reduction apparatus of a sludge dewatering apparatus according to the present invention.
3 is a view schematically showing the skin thickness A of the microorganisms constituting the sludge.
4 is an explanatory diagram showing a state in which microorganisms are destroyed while the microorganism forcibly passes through the filter of the sludge reduction apparatus according to the present invention.

Hereinafter, the structure and operation of the sludge dewatering apparatus according to the present invention will be described with reference to the accompanying drawings.

First, sludge raw water generated by the activated sludge process or the like in the sewage treatment plant 10 is supplied to the flow rate adjustment tank 110 using gravity or using a pump. At this time, moisture of about 60% or more exists in the inside of the skin of organic matter such as microorganisms constituting the sludge. The skin of the organic material has a predetermined thickness. As shown in FIG. 3, for convenience of explanation, the skin thickness of the organic material is referred to as 'A' in this specification.

The sludge raw water supplied to the flow rate regulator 110 is agitated with the complex microorganism supplied from the outside by stirring operation of the stirrer. The complex microorganism may be composed of, for example, Lactobacilli, Yeast fungus, actinomyces, photosynthesis bacteria and the like.

The sludge raw water that has been stirred in the flow rate adjusting tank (110) is supplied to the aeration tank (120). In the aeration tank 120, air is supplied to the raw water of the sludge to reduce the concentration of heavy metals and volatile organic substances contained in the sludge. The aeration tank 120 may be composed of multiple stages. The aeration treated sludge in the aeration tank 120 is forcibly supplied to the sludge reduction device 130.

According to the present invention, the sludge reduction device 130 includes a hollow fiber membrane filter 132 having a predetermined size of voids formed thereon, and a sludge filter 130 for forcibly supplying the sludge supplied from the aeration tank 120 to the hollow fiber membrane filter 132 And a working pressure pump 134.

The diameter D of the cavity of the hollow fiber membrane filter 132 is larger than the skin thickness A of the organic matter contained in the sludge but smaller than twice the skin thickness A. That is, the diameter of the gap is formed so as to satisfy the relational expression A <D <2A. This is for the purpose of allowing the organic material to pass through the gap and to cause the skin of the organic material to be torn and the organic material to be destroyed as described below.

If the diameter D of the cavity is smaller than the skin thickness A of the organic substance, that is, if the diameter of the cavity is made small so as to satisfy the relation of D &lt; A, the organic substance will not pass through the cavity. If the diameter D of the cavity is larger than twice the skin thickness A of the organic substance, that is, if the diameter of the cavity is made large enough to satisfy the relation of 2A &lt; D, the organic substance passes through the cavity without being broken do.

Although the cavity has a structure in which the hollow fiber membrane filter 132 is linearly penetrated, it is preferable that the inlet of the cavity into which the organic matter of the sludge flows is formed larger than the outlet of the cavity through which the organic matter is discharged. This is to allow the organic matter of the sludge to flow easily into the pores of the filter 132.

4, when the sludge is forcibly supplied in the direction of the arrow at the bottom of the hollow fiber membrane filter 132 by the operation of the pressure pump 134, the organic matter forcibly passes the air gap of the filter 132 do.

That is, when the organic material enters the pores of the filter 132, the skin is kept in a collapsed state (A), and then the skin of the organic material is torn during forced passage through the air, State (B).

In order to increase the passing speed of the organic matter passing through the hollow fiber membrane filter 132, a hitting means (not shown) capable of repeatedly applying a force to the sludge periodically between the pressure pump 134 and the hollow fiber membrane filter 132, (Not shown). The hitting means may comprise air hammering means. The air hammer means periodically and repeatedly supplies air to the sludge so that the organic matter of the sludge can easily pass through the voids of the hollow fiber membrane filter 132.

Further, according to the present invention, high-frequency generating means (not shown) is provided between the pressure pump 134 and the air hammer means for applying an electric shock to the organic matter contained in the sludge. By the operation of the high-frequency generating means, the skin of the organic material becomes weak. As a result, the organic matter whose skin becomes fragile due to the operation of the high frequency generating means is easily torn while passing through the hollow fiber membrane filter 132, so that organic matter can easily pass through the pores of the filter 132.

As described above, since the organic matter contained in the sludge is destroyed and the moisture inside the sludge is discharged, the sludge reduction apparatus generates sludge with reduced water content.

It will be understood by those skilled in the art that the present invention is not limited to the details of the foregoing embodiment, but, on the contrary, it is intended to cover modifications and variations of the present invention without departing from the spirit and scope of the present invention as defined by the appended claims. .

110: Flow regulator
120: aeration tank
130: Sludge reduction device
132: Hollow fiber membrane filter
134: Pressure pump

Claims (3)

A sludge dewatering device comprising a sludge reducing device for dehydrating sludge aeration treatment in the aeration tank, a sludge dewatering device for sludge dewatering treatment in the aeration tank, In the apparatus,
Wherein the sludge reduction device comprises a hollow fiber membrane type filter having voids of a predetermined size and a pressure pump operative to forcibly supply sludge supplied from the aeration tank to the hollow fiber membrane filter,
Wherein a diameter D of a cavity of the hollow fiber membrane filter is larger than a skin thickness A of an organic substance contained in the sludge and is smaller than twice a skin thickness A, And passes through the pores of the filter.
The method according to claim 1,
Characterized in that air hammering means is provided between the hollow fiber membrane filter and the pressure pump for periodically applying a force to the sludge forcibly supplied to the filter.
3. The method of claim 2,
Wherein high frequency generating means is provided between the pressure pump and the air hammer means for applying an electric shock to the microorganisms contained in the sludge.

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