KR100236164B1 - Apparatus for treating waste water using adsorbent powder - Google Patents

Abstract

The present invention relates to an apparatus for treating wastewater using an adsorbent, wherein an inner space of an adsorption tower equipped with a discharge pipe and an adsorbent discharge pipe at one upper end portion and a lower end portion is separated from upper and lower spaces by a filter sand footer. The filter sand is located in the upper part of the filter sand walking body, the lower space is provided with a stirrer, and the lower space is characterized in that the waste water inlet pipe and the powder adsorbent inlet pipe connected to the powder adsorbent storage tank is connected, It is not necessary to manufacture the adsorbent to be granulated so that it is easy to manufacture, and the flow path of the wastewater treatment is smooth because the discharge paths of the clean water treated with the wastewater and the powder adsorbent adsorbing the contaminants from the wastewater are different from each other. In the regeneration process to reuse the powder adsorbent, there is no need to shape it to a certain shape. It provides a water treatment apparatus which can use a powdered adsorbent as possible.

Description

Wastewater Treatment System Using Powder Adsorbent

1 is a schematic configuration diagram showing a conventional wastewater treatment apparatus

2 is a cross-sectional view schematically showing a wastewater treatment apparatus that can use the powder adsorbent according to the present invention.

* Explanation of symbols for main parts of the drawings

2: adsorption tower 3: filter sand walking body

4: discharge pipe 5: powder adsorbent input pipe

6: wastewater inlet pipe 7: powder adsorbent reservoir

9: stirrer 32: filtration yarn

52, 62 ', 82: regulating valve

The present invention relates to a wastewater treatment apparatus using an adsorbent, and more particularly, it is not necessary to manufacture an adsorbent for treating wastewater in a granular form, and its manufacture is easy, and contaminants from the wastewater treated clean water and the wastewater. Since the discharge paths of the powder adsorbents adsorbed on the surface are different from each other, the flow of waste water treatment is smooth, and the powder adsorbents capable of reusing most of them can be reused because they do not need to be shaped to a certain shape during the regeneration process to reuse the powder adsorbents. It relates to a wastewater treatment apparatus that can be.

As a conventional adsorbent used to treat industrial wastewater and the like, activated carbon, zeolite, alumina and the like are known.

A method of treating wastewater using such an adsorbent is to use a plurality of adsorption towers, as shown in FIG.

That is, in more detail, the plurality of adsorption towers 102 and 102 'are installed side by side, and each of the adsorption towers 102 and 102' has an adsorbent such as activated carbon, zeolite, alumina, and the like. 104 and 104 ', and each of the adsorption towers 102 and 102' pumps wastewater through pipes 108 and 108 ', the lower side of which is equipped with valves 106 and 106'. The pump 110 is connected to a pump 110 for pumping, and the upper side is connected to a discharge pipe 112 for discharging the purified wastewater. In order to treat the wastewater, the pump 110 is operated to collect the wastewater. (102 ') is introduced into one side (at this time, a plurality of adsorption towers are installed and only one side is used for wastewater treatment. The wastewater treatment is carried out using the adsorption tower on either side and the adsorption tower is saturated, i.e., the lifetime of the adsorbent). After this, the wastewater is treated with other unused adsorption towers and used. In order to refill with new or regenerated adsorbent), and thus the introduced waste water is purified by the adsorbent within the adsorption tower it is discharged through the discharge tube 112.

In the case of treating wastewater by the conventional method described above, an adsorbent is produced in granular form. When the adsorbent is not produced in granular form, the adsorbent is not only discharged into the discharge water together with the wastewater from the adsorption tower, but also the wastewater is discharged. Since the pressure drop before and after the adsorption tower is not sufficient, there is a problem of causing the failure by overheating the pump 110, and a separate process of manufacturing the adsorbent into a certain shape using granular or caking agents is required. The manufacturing process of the adsorbent for the treatment was complicated, and in the regeneration process for reusing the adsorbent, a large portion of the adsorbent, which had been shaped into a certain shape, was destroyed, and thus a large amount of the adsorbent was impossible to reuse, thus causing a huge loss.

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems as described above. The object of the present invention is that the adsorbent for treating wastewater can be used in the form of a powder rather than in the form of granules. It is an object of the present invention to provide a wastewater treatment apparatus that can easily use a powder adsorbent.

As a technical configuration for achieving the above object, the present invention, the inner space of the adsorption tower equipped with the discharge pipe and the adsorbent discharge pipe respectively on one side upper end and the lower end is separated into upper and lower spaces by the filter sand walking body, An apparatus for treating wastewater by using an adsorbent by placing a filter sand at an upper portion of the filter sand walking body, and installing a stirrer in the lower space and a wastewater inlet pipe in the lower space thereof, wherein the powder is stored in the lower space of the absorption tower. By installing a powder adsorbent inlet pipe connected to the adsorbent reservoir, the powder adsorbent inlet pipe and the wastewater inlet pipe are connected to each other via a branch pipe having a control valve. All.

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

2 is a cross-sectional configuration diagram schematically showing a wastewater treatment apparatus 1 that can use a powder adsorbent according to the present invention, and has a cylindrical portion 21 having a substantially cylindrical shape and a lower end side formed in a cone shape. The adsorption tower 2 which has the cone part 22 is provided.

Filtration yarn walking body (3) is mounted on the upper side of the cylindrical portion 21 of the adsorption tower (2), and the filtrating sand (32) is stacked on the upper part of the filtering sand walking body (3) at an appropriate height. What is necessary is just to set the magnitude | size of the said filter sand 32 to the magnitude | size so that it does not exit to the lower side through the lower filter sand tread body 3.

The cylindrical portion 21 is equipped with a discharge pipe 4 for discharging the clean water treated with wastewater at a position higher than the upper side of the filter sand 32, and is directly below the filter sand walker 3 The powder adsorbent inlet tube 5 and the wastewater inlet tube 6 are mounted.

The powder adsorbent inlet tube 5 is connected to the powder adsorbent storage tank 7 installed at an appropriate height outside the adsorption tower 2 and has a control valve 52 for controlling the powder adsorbent flow. The powder adsorbent inlet pipe 5 is a branch pipe 62 branched from the wastewater inlet pipe 6 at a portion located between the control valve 52 and the adsorption tower 2, more preferably close to the control valve 52. A control valve 62 'is connected.

The shape of the inner portion of the adsorption tower 2 of the wastewater inlet pipe 6 extends to the center portion inside the adsorption tower 2 and is bent to the lower side, and the bent end is approximately the cylindrical portion 21 and the cone portion of the adsorption tower 2. It is formed so that it may be located in the boundary of 22.

In addition, the cone portion 22 of the adsorption tower 2 is equipped with an adsorbent discharge pipe 8 at the lower center thereof, and the adsorbent discharge pipe 8 has a control valve 82. And it is comprised by installing the stirrer 9 in the center upper side of the said cone part 22, and preferably in the lower side of the bending end of the said wastewater inflow pipe 6.

The effect of the present invention having the above configuration will be described.

The apparatus 1 of the present invention as shown in FIG. 2 is used for purifying wastewater introduced through the wastewater inlet pipe 6.

The wastewater contaminated by being used in factories or the like is introduced into the adsorption tower 2 through the wastewater inlet pipe 6, and part of the branch pipe 62 is opened by appropriately adjusting the control valve 62 ′. Through the powder adsorbent inlet pipe (5).

At this time, the powder adsorbent stored in the powder adsorbent storage tank 7 flows toward the adsorption tower 2 by opening the control valve 52 in the powder adsorbent input pipe 5, and thus, the powder adsorbent input pipe 5 is wastewater. And the powder adsorbent are mixed and flowed into the lower side of the filter sand trapping body 3 inside the adsorption tower 2. This is because the flow of the powder adsorbent with the waste water is superior to the case where the powder adsorbent flows into the powder adsorbent inlet pipe 5 alone, and the flow of the powder adsorbent is easy to flow into the adsorption tower 2. However, the pressure of the wastewater introduced through the wastewater inlet pipe should be greater than the water pressure of the wastewater treatment system.

In this case, the waste water and the powder adsorbent are mixed in the lower side of the filter sand step 3 inside the adsorption tower 2, and the mixture is mixed with the powder adsorbent and introduced without being mixed with the powder adsorbent. When the stirrer 9 is operated in order to mix the wastewater and the fluidity thereof, the powder adsorbent and the wastewater are mixed by the stirrer 9 inside the adsorption tower 2, and the powder adsorbent is generally porous, In the initial stage of mixing, it floats with the wastewater without sedimenting to the lower side, but when a certain time passes, that is, when the contaminants are absorbed from the wastewater and become heavier, it is precipitated to the lower side of the adsorption tower (2) to form the adsorbent discharge pipe (8). It is discharged to the outside and recycled.

In addition, the powder adsorbent that is adsorbed to the pollutants and discharged to the outside to be regenerated may be reused in its entirety due to the characteristics of the apparatus even if it is further broken during the regeneration process.

On the other hand, the clean water from which the contaminants have been removed by the powder adsorbent is moved to the upper side through the filtered water pawl 3 mounted on the cylindrical portion 21 of the adsorption tower 2, and again the upper of the filtered sand pail 3 It is discharged | emitted through the discharge pipe 4 connected to the adsorption tower 2 upper part through the filter sand 32 of the side.

As described above, according to the wastewater treatment apparatus which can use the adsorbent according to the present invention, it is not necessary to manufacture the adsorbent for treating the wastewater in the form of granules, so that the preparation is easy, and the pollutants are adsorbed from the wastewater treated clean water and the wastewater. Since the discharge paths of one powder adsorbent are different from each other, the flow of the waste water treatment is smooth, and the recycling process for reusing the powder adsorbent does not need to be shaped to a certain shape, and thus the majority of the powder adsorbents can be reused.

Claims (1)

The inner space of the adsorption tower (2) equipped with the discharge pipe (4) and the adsorbent discharge pipe (8) at one upper end and the lower end, respectively, is separated into upper and lower spaces by the filter sand filter body (3). In the upper part of the (3), the filter sand 32 is located, the lower space is provided with a stirrer (9) and the lower space is provided with a waste water inlet pipe (6) in the apparatus for wastewater treatment using an adsorbent In the lower space of the adsorption tower (2), a powder adsorbent inlet (5) connected to the powder adsorbent reservoir (7) is installed, and the powder adsorbent inlet (5) and the wastewater inlet (6) are control valves 62 '. Wastewater treatment apparatus that can use a powder adsorbent, characterized in that connected to each other via a branch pipe (62) having a).