KR101158898B1 - Water treatment apparatus and water treatment method - Google Patents

Abstract

PURPOSE: A water treating apparatus and a water treating method are provided to facilitate the maintenance and the repair of an absorbing member by easily discharging the absorbing member to be replaced. CONSTITUTION: Sewage and wastewater are introduced into the upper cap of a water treating apparatus(1). Absorbing members are embedded in the water treating apparatus, and harmful materials are absorbed on the absorbing members to discharge purified water through the lower cap of the water treating apparatus(2). The regenerating timing of the absorbing members is monitored(3). If a absorbing member is at a regenerating timing, the introduction of the sewage and the wastewater is stopped(4). Overheated vapor is supplied to the water treating apparatus(5). The harmful materials are eliminated from the absorbing member to be regenerated(6).

Description

Water treatment apparatus and water treatment method

The present invention relates to a water treatment apparatus and a water treatment method, and more particularly, an injection nozzle provided to spray superheated steam for regeneration of waste water treatment adsorbent for branching in the water treatment vessel to be sprayed in various directions to absorb the adsorbent. The present invention relates to a water treatment apparatus and a water treatment method for regenerating adsorbents sequentially by a plurality of water treatment vessels while greatly improving the regeneration efficiency thereof, thereby minimizing the disconnection of the water treatment process to improve the speed and efficiency of the process.

In general, a water treatment apparatus for wastewater treatment is a facility that allows wastewater to pass through an adsorbent-filled water treatment vessel while allowing harmful components contained in the wastewater to be adsorbed onto the adsorption material so that the purified water can be reused.

The most costly part of such a water treatment apparatus is the regeneration of the adsorbent.

In other words, in the industrial water treatment system, the adsorbent composed of granular activated carbon is rapidly filled with organic matter by filling the pores formed on the surface of the activated carbon, and thus the water treatment capacity is drastically reduced. However, the replacement of these adsorbents is costly, so it is necessary to regenerate and use them. For this purpose, previously, the adsorbents are removed from the water treatment vessel and moved to a place equipped with a separate regeneration facility, and then regenerated.

However, this conventional adsorbent regeneration is not only costly as it takes a long time for a series of regeneration operations in which the adsorbent is removed from the vessel, moved to a remote location, regenerated, and then moved back to the original position, and the operation of the water treatment vessel is increased. The downtime was delayed too long, and the loss rate of the adsorbent was particularly high during regeneration, resulting in more economic losses.

In recent years, Japanese Patent No. 4335292 (name: water treatment apparatus and water treatment method) registered in Japan has been known a technology that can be easily and quickly regenerated by itself without removing the adsorbent from the water treatment vessel.

In other words, the pre-registered patent first injects high-temperature, high-pressure air into the water treatment vessel to dehydrate the adsorbent, and re-injects superheated steam to bring the interior of the water treatment vessel into a high-temperature and high-pressure state so that various organic substances filled in the pores on the surface of the adsorbent are filled. They are thermally decomposed and gasified to be removed.

At this time, when the waste water is supplied through the bottom of the container as a pair, the water treatment vessel is filled to a certain level up to a height close to the upper end of the adsorbent contained therein. It is delivered to the container side of the other side through the connecting pipe connecting the period, and the water supplied from the upper side of the container is discharged through the lower end of the container through the adsorbent filled in the inside of the other side container.

Therefore, in the pre-registered patent, the water treatment vessel must be provided with at least two sets of two vessels in one pair, and when one pair of water treatment is carried out, the other vessel performs the adsorbent regeneration process and the regeneration process is performed. Even if it is completed, the vessel of the one side is suspended until the adsorbent regeneration process is in standby state.

However, the pre-registered patent requires that the injection nozzle provided to inject the superheated steam in the water treatment vessel is installed in the form of a vertical pipe at the center of the water treatment vessel, so that the injection pressure of the superheated steam injected through these injection nozzles gradually increases to the outside. There is a problem that a deviation occurs in the reproduction efficiency while being lowered.

In addition, when replenishing or replacing the adsorbent in the water treatment vessel, the water treatment vessel must be disassembled as a whole.

In addition, the pre-registered patent requires a pair of vessels to perform the water treatment process and a pair of vessels to perform the regeneration process or to stand by in an idle state, and the container to inject waste water for the first time with a decrease in the efficiency of the water treatment process. In addition to the inlet and outlet must be provided at the same time to discharge the water filled inside before regenerating the adsorbent there is a very complex configuration and there is an inevitable closure of the process.

Accordingly, the present invention is to solve the above problems and closed ends, the present invention is to diverge each branch pipe in the radial direction while allowing a plurality of injection nozzles for injecting superheated water vapor into the interior of the container body in the radial direction The main objective is to provide a water treatment apparatus which allows the nozzle tip to be formed vertically at an intermediate position and to protrude downwardly from each branch pipe at various angles so that uniform regeneration can be performed evenly on the absorbents filled therein. have.

In addition, the present invention to protrude to the upper end of the outer peripheral surface of the container body to be inclined upward at an angle to form a tubular adsorption material supply port, the lower end of the outer peripheral surface to form a tubular adsorption material outlet so as to horizontally protrude outwards to replenish and replace the adsorption material Another object is to provide such a water treatment apparatus.

In particular, it is another object of the present invention to provide a water treatment method that enables continuous water treatment while continuously operating at least two vessels except for the regeneration time of the adsorbent while allowing the water treatment vessel to be used alone.

In order to achieve the above object, the water treatment apparatus of the present invention has an inner cylindrical shape that allows a predetermined amount of granular adsorbent to be filled in, and an upper end and a lower end form a flange surface extending outwardly, A container body having an upper end portion formed with an adsorbent supply port so as to protrude upwardly a predetermined length outwardly, and a lower end portion formed with an adsorbent outlet port protruding outward a predetermined length; Covering the upper end of the container body while the lower end extends to the outside to seal the upper end side flange surface of the container body to be coupled to the flange by a bolting fastening, one side of the outer peripheral surface is provided with an injection port for injecting waste water An upper cap; A plurality of through-holes on the plate surface is fixed in close contact with the flange surface of the container body and the upper cap, so that the waste water injected through the inlet of the upper cap is guided to the container body while preventing upward departure of the adsorbent contained in the container body. An upper plate formed at regular intervals; It is coupled to the lower end of the container body, the bottom of the protruding downward diameter in the center of the downward dome shape while protruding the lower end branched on both sides so that the purified water passes through one side, the superheated water vapor is discharged to the other side A lower cap; Sealing is made on the flange surface of the container body and the lower cap while the outer circumferential surface is fixed, and the plate surface prevents the detachment of the adsorbent filled in the container body while preventing water from being purified and the superheated steam passing through the adsorbent. A lower plate having a plurality of through holes formed at predetermined intervals to guide the caps; And a superheated steam induction tube passing through a boiler and a line heater simultaneously passes through the center of the upper cap and the upper diaphragm, and a plurality of lower ends of the superheated steam induction tube on the lower side of the upper diaphragm branch at a predetermined angle in a radial direction. The outwardly branched end is bent vertically downward at an intermediate position of the radius so that the branch pipe is provided so that the lower end is close to the lower diaphragm, and the branch pipes are inclined downward by a predetermined angle at various inclination angles from the outer circumferential surface at a predetermined height. It is a structure provided as an injection nozzle which forms a some nozzle tip so that it may protrude.

In addition, the outer end of the adsorbent supply port and the adsorbent discharge port in the above configuration is to be provided with a cover to enable the opening and closing.

In the above configuration, it is more preferable that the nozzle tip provided at the uppermost side of the branch pipe of the injection nozzle is positioned above the height of the upper end of the absorbent material accommodated in the container body.

Particularly, the present invention allows the plurality of branch pipes to branch at a predetermined angle in the radial direction at the lower end of the superheated steam induction pipe which penetrates the center of the upper cap and the upper partition at the same time, and the lower end is located at the lower portion of the upper partition. The end of the branch pipe is bent vertically downward in the middle position of the radius so that the branch pipe is provided so that the lower end is close to the lower plate coupled between the container body and the lower cap, the branch pipe has an outer circumferential surface every predetermined height In the configuration comprising a plurality of water treatment apparatus containing therein a plurality of injection nozzles to form a plurality of nozzle tips to protrude inclined downward at a predetermined angle from a variety of inclination angles, waste water is injected simultaneously into one side of the upper cap of each water treatment apparatus Making a step; Allowing the harmful substances to be adsorbed to the adsorbents while passing through the adsorbents embedded in the respective water treatment apparatuses so that the purified water is discharged through the lower caps: checking the water treatment apparatuses when the time for regeneration of the water treatment apparatuses has arrived. Making a step; Closing the wastewater inlet of the water treatment apparatus, which has reached the time of regeneration, to stop the wastewater injection; The pipeline to the induction tube side of the injection nozzle of the water treatment device has been automatically opened so that the saturated steam generated through the boiler passes through the line heater and is supplied to the water treatment device when the superheated steam has arrived. Making a step; Regenerating the adsorbent by injecting superheated water vapor into the adsorbent in the container body through the spray nozzle of the water treatment apparatus when the time for regeneration arrives to remove harmful substances adsorbed on the adsorbent; Checking whether the reproducing step is completed by performing the above step for a predetermined time; Switching to the water treatment mode to block the pipeline of the water treatment device-side induction pipe that has reached the time of regeneration and automatically opening the waste water inlet so that harmful substances are removed while passing the regenerated adsorbent; It is characterized by allowing the water treatment to be carried out continuously with the adsorbent regeneration treatment by the water treatment device that has come.

The water treatment apparatus of the present invention according to the above configuration allows self-cleaning of the adsorbents uniformly by superheated water vapor injected into the adsorbent in the regeneration mode of the adsorbent, thereby minimizing the regeneration time of the adsorbent while maximizing the regeneration efficiency, in particular the adsorbent. There is an advantage that can significantly reduce the cost of the regeneration of the.

In addition, the present invention provides an easy maintenance and repair of the adsorbent by making it easier to discharge for the replacement and replacement of the adsorbent through the adsorbent supply port and the adsorbent outlet formed on the upper and lower end portions of the outer peripheral surface of the container body.

1 is an exploded perspective view showing a specific embodiment configuration according to the present invention,
2 is a vertical cross-sectional view of the combination of FIG.
3 is an enlarged perspective view showing an embodiment of the spray nozzle according to the present invention;
4 is a front view of FIG. 3;
5 is a plan view of FIG. 4;
6 is a perspective view showing a coupling configuration of a water treatment device according to the present invention;
7 is a front view of FIG. 6,
8 is a perspective view of a state of use showing a specific application of the water treatment apparatus according to the present invention,
9 is a process flowchart sequentially showing a water treatment process using the water treatment apparatus of the present invention.

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

1 is an exploded perspective view showing a specific embodiment configuration according to the present invention, Figure 2 is a vertical cross-sectional view combined with FIG.

As shown in the drawing, the water treatment apparatus of the present invention is composed of a container body 10, an upper cap 20, an upper plate 30, a lower cap 40, a lower plate 50, and a spray nozzle 60. .

That is, the container main body 10 of this invention is a structure which consists of a cylindrical shape penetrating vertically of a predetermined length.

The inside is filled with a certain amount of granular adsorbent 11, wherein the adsorbent 11 is made of granular activated carbon.

In the upper and lower ends of the container body 10, the outer circumferential surface thereof is extended outward so that flange surfaces 12 and 13 forming an edge are formed.

In addition, the outer circumferential surface of the container body 10 is formed so that the adsorbent supply port 14 is formed in a tubular shape of a predetermined diameter so as to protrude outward in a predetermined length to the outside of the upper end of one side, and protrudes a predetermined length horizontally to the lower end of the outer circumferential surface Adsorbent outlet 15 is formed in a tubular shape of a predetermined diameter so as to.

Ends of the tubular adsorbent supply port 14 and the adsorbent discharge port 15 allow the covers 16 and 17 to be opened and closed.

And the upper cap 20 of the present invention is a cap-shaped configuration having a predetermined space inward to cover the upper portion of the container body 10 to guide the waste water from the outside.

At this time, the upper cap 20 is more preferably made of a curved upward dome shape, the lower end portion to the outer peripheral surface to extend horizontally to form a flange surface 21, the flange surface 21 is the container body ( While the sealing is made with the flange surface 12 of the upper end side of 10) to be in close contact between the surfaces to be firmly fixed by bolting fastening.

The outer circumferential surface of the upper cap 20 is provided with an inlet 22 for injecting wastewater, and the curved paper is formed so that the vent valve 23 is opened at one side of the upper surface to open when the pressure inside the upper cap rises above a certain level. do.

In addition, the upper plate 30 of the present invention is a configuration of a flat plate to be closely fixed between the container body 10 and the flange face (12, 21) of the upper cap 20.

A plurality of through holes 31 are formed on the plate surface of the upper plate 30 at regular intervals, and the through holes 31 do not pass through the absorbent material 11 accommodated in the container body 10, but the upper portion of the upper plate 30 does not pass. Waste water injected through the inlet 22 of the cap 20 is configured to smoothly guide the container body 10 of the lower portion.

The lower cap 40 is provided with a lower end portion of the container body 10 opposite to the upper cap 20 of the present invention.

The lower cap 40 is configured to be flange-coupled by mutually close contact and bolting with the flange surface 13 formed at the lower end of the container body 10 so that the flange surface 41 is formed at the upper end.

The lower cap 40 is most preferably such that the downward curved paper is formed in a dome shape, the curved paper is formed in the center of the bottom surface to form a discharge port 42 to protrude downwards a certain diameter, the discharge port 42 is the lower portion To branch to both sides so that the purified water is discharged to one side, the superheated water is discharged to the other side.

Corresponding to the upper plate 30 provided in the upper portion of the present invention is a configuration provided in the connection portion between the container body 10 and the lower cap 40 is the lower plate 50.

In other words, the lower plate 50 is a configuration of a flat plate so that the outer peripheral surface is fixed while the sealing is made between the flange body (13,41) of the container body 10 and the lower cap 40.

The lower plate 50, like the upper plate 30, prevents the detachment of the adsorbent 11, which is filled in the container body 10, on the plate surface while preventing water from being purified while passing through the adsorbent 11. The plurality of through holes 51 are formed at regular intervals so as to be guided smoothly to the cap 40.

On the other hand, the spray nozzle 60 of the present invention is configured to supply and spray superheated steam for regenerating the adsorbent 11.

3 is an enlarged perspective view showing an embodiment of a spray nozzle according to the present invention, FIG. 4 is a front view of FIG. 3, and FIG. 5 is a plan view of FIG. 4.

The injection nozzle 60 is composed of an induction pipe 61, a branch pipe 62, and a nozzle tip 63. First, superheated water vapor is guided from the outside to the container body 10 in which the adsorbent 11 is accommodated. The configuration so that it is the induction pipe 61 is.

Therefore, the guide tube 61 is fixed to pass through the center of the upper surface and the upper plate 30 of the upper cap 20 at the same time.

And the branch pipe 62 is connected to the lower end of the guide pipe 61 to be branched as a plurality in radial direction, that is, radially constant angle of the container body 10, the radial end portion is perpendicular to the middle position of the radius The lower portion is configured to reach a height close to the lower plate 50 to be bent downward.

Branch pipe 62 may be formed as a bent pipe in the L-shape, as shown in the drawing may be provided with a configuration that is screwed to enable the separation of the upper end of the vertical pipe 62, vertical The branch pipe 62 may be provided in a structure in which two sections are screwed together.

On the other hand, the nozzle tip 63 is configured to protrude inclined downward at a predetermined angle at a plurality of positions on the same horizontal line from the outer circumferential surface at each predetermined height of each branch pipe 62.

At this time, the nozzle tip 63 is connected to the outer circumferential surface of the branch pipe 62 by welding, the end of the nozzle tip 63 so that the strainer 630 is screwed to prevent separation by the holder 631. More preferred.

However, the superheated steam sprayed through the nozzle tip 63 of the present invention is formed so that the spray blind spot is evenly sprayed on the absorbent material 11, and is formed inside and outside from the branch pipe 62 through the nozzle tip 63. As a result, the superheated water vapor can be injected by the uniform blowing force.

In particular, the nozzle tip 63 on the uppermost side of the branch pipe 62 of the injection nozzle 60 is positioned above the height of the upper end of the absorbent material 11 accommodated in the container body 10, and thus through the nozzle tip 63. Most preferably, there is no adsorbent 11 deviating from the superheated water vapor being injected.

In this way, the water treatment apparatus of the present invention allows the superheated water vapor to be uniformly sprayed by the branched spray nozzle 60 in the regeneration mode without drawing the adsorbent 11 contained therein to the outside, thereby regenerating the adsorbent for a predetermined time. Easier and faster adsorbent regeneration can be performed.

For the water treatment to be carried out through the water treatment device of such a configuration, first the inner space between the container body 10 and the upper cap 20 together with the upper cap 20 provided to cover the upper portion of the container body 10 A plurality of branch pipes 62 are radially branched to a lower end of the guide pipe 61 positioned at the lower portion of the upper plate 30 through the center of the upper plate 30 to be separated at a predetermined angle. A water treatment apparatus provided with 60 is used.

The horizontal end of the branch pipe 62 branched outwardly is bent vertically downward in the middle position of the radius, and the lower end of the branch pipe 62 is brought into close proximity to the lower plate 50, and the branch pipes 62 There are a plurality of radially formed every predetermined height.

In particular, a plurality of nozzle tips 63 are formed on the outer circumferential surface of the branch pipe 62 so as to protrude downward at a predetermined angle at various inclination angles.

6 is a perspective view showing a coupling configuration of the water treatment apparatus according to the present invention, Figure 7 is a front view of FIG.

In the drawings, reference numerals 32 and 52 are rubber seals for sealing.

Hereinafter, with reference to the accompanying drawings, the process of performing the water treatment and the adsorbent regeneration using the water treatment apparatus according to the above configuration will be described in detail.

8 is a perspective view of a state of use showing a specific application of the water treatment apparatus according to the present invention, Figure 9 is a process flow diagram sequentially showing a water treatment process using the water treatment apparatus of the present invention.

As illustrated, a plurality of water treatment devices including the container body 10 having branched spray nozzles 60 installed therein are provided as a plurality, and each water treatment device is automatically controlled by the controller 70.

The water treatment apparatus of the present invention is operated by the controller 70, and the waste water is simultaneously injected into one side of the upper cap 20 of each water treatment apparatus by operating the water treatment apparatus.

When the waste water passes through the adsorbent 11 embedded in each water treatment device, the pores formed in the adsorbent 11 purify the waste water by adsorbing harmful substances of the waste water (step 2), and the purified water has a lower cap (40). To be discharged.

As described above, when the water treatment apparatus of the wastewater is treated by the plurality of water treatment apparatuses and the purification ability of the adsorbent 11 embedded in the specific water treatment apparatus is reduced and the time for regeneration is checked (step 3), the water treatment apparatus is returned to the water treatment apparatus side. While the wastewater injection of the gas is stopped (step 4), the superheated steam generated while passing the saturated water vapor generated through the boiler 80 through the line heater 90 is supplied to the induction pipe 61 side of the injection nozzle 60. (Step 5)

That is, the expiration date of the built-in adsorbent 11 is fixed by a certain cycle or the amount of injected waste water, and when the regeneration time arrives, the water treatment mode is switched to the regeneration mode. And the superheated steam supply pipe connected to the induction pipe 61 of the injection nozzle 60 is automatically opened so that the injection of waste water is stopped and the superheated water vapor is introduced into the water treatment apparatus through the induction pipe 61. To be supplied.

The superheated water vapor supplied through the injection nozzle 60 is already contaminated by harmful substances through a plurality of branch pipes 62 and a plurality of nozzle tips 63 formed on the branch pipes 62 in the water treatment apparatus. Toxic substances are removed from the phosphorus adsorbent (11).

The regeneration process of the adsorbent 11 is performed only for a predetermined time, and the inside of the water treatment device is in a state of very high temperature and high pressure as superheated steam is injected.

When the inside of the water treatment apparatus is above a predetermined pressure, the vent valve 23 provided to the upper cap 20 of the water treatment apparatus is automatically opened so that the pressure is automatically discharged to the outside.

However, the outlet portion 42 is already formed at the bottom of the lower cap 40, and the outlet 42 is branched to both sides again as shown in FIG. 6 while passing through the adsorbent 11 to one side to be purified. Water is discharged and the superheated water vapor is selectively discharged on the other side.

The selective discharge of water or water vapor through this outlet 42 takes place simultaneously with the selective supply of waste water or superheated water vapor.

Meanwhile, while a specific water treatment apparatus regenerates the adsorbent 11, the other water treatment apparatus continues to perform a water treatment process for purifying waste water.

Therefore, in the regeneration mode water treatment apparatus, harmful substances are removed from the adsorbent 11 by the superheated steam for a predetermined time, and when the regeneration process of the adsorbent 11 is terminated (step 7), the water treatment mode is automatically switched (step 8). The waste water inlet is automatically opened while the superheated steam inlet pipe to the induction pipe 61 is blocked again.

At the same time, the outlet pipe 42 side branch pipe of the lower cap 40 is also opened to the pipe line through which purified water flows, and the superheated steam discharge pipe line is closed.

When the water treatment mode is switched to, the waste water begins to flow back into the water treatment apparatus so that the waste water purification process using the adsorbent 11 is performed.

In this way, the regeneration process is performed for a predetermined time sequentially from the water treatment device having a plurality of water treatment devices and containing the adsorptive material 11 whose purification efficiency is lowered so that the regeneration of the adsorbent material is performed by itself. By allowing the process to be carried out, even if a plurality of water treatment apparatuses are operated, the purification process of the waste water can be continuously carried out with almost no interruption.

Thus, the superheated water vapor is injected and injected by the branched injection nozzle 60 to the water treatment apparatus which is switched to the regeneration mode among the plurality of water treatment apparatuses performing the water treatment process, so that the regeneration efficiency of the adsorbent 11 is further increased. At the same time, the efficiency of water treatment operation is maximized.

In particular, the water treatment apparatus of the present invention can omit the high temperature drying process during the regeneration of the absorbent material 11 so that the waste water does not stay or accumulate in the water treatment apparatus by allowing the waste water to be injected from the upper portion through the upper cap 20. It allows for faster regeneration of adsorbents.

On the other hand, the present invention, the adsorbent supply port 14 and the adsorbent to be formed respectively in the upper and lower end portions of the main surface of the container body 10 when the replacement of the adsorbent 11 filled in the water treatment apparatus or replenishment due to natural loss is required. Since the outlet 15 can be easily replenished and supplied or discharged, there is an advantage of making the management more convenient.

10 container body 11: absorbent material
12, 13 flange surface 14: suction material supply port
15: absorbent material outlet 16, 17: cover
20: upper cap 21: flange surface
22: injection hole 23: the band valve
30: upper plate 31: through hole
40: lower cap 41: flange surface
42: outlet 50: lower plate
51: through hole 60: injection nozzle
61: guide pipe 62: branch pipe
63: nozzle tip 70: controller
80: boiler 90: line heater

Claims (4)

The inside is made of a vertically penetrating cylindrical shape to be filled with a certain amount of granular adsorbent, the upper end and the lower end forms a flange surface extending outward, the upper end portion on one side of the outer peripheral surface is supplied with the adsorbent protruded to be inclined upward to a certain length to the outside A container body for forming a sphere and having an adsorbent outlet formed at a lower end thereof so as to protrude a predetermined length outward;
Covering the upper end of the container body while the lower end extends to the outside to seal the upper end side flange surface of the container body to be coupled to the flange by bolting, one side of the outer peripheral surface is provided with an inlet for injecting waste water An upper cap;
It is fixed between the container body and the flange surface of the upper cap, a plurality of penetrating the plate surface so that the waste water injected through the inlet of the upper cap is guided to the container body while preventing the upward departure of the adsorbent contained in the container body An upper plate having holes formed at regular intervals;
It is coupled to the lower end of the container body, the bottom of the protruding downward diameter in the center of the downward dome shape while protruding the lower end branched on both sides so that the purified water passes through one side, the superheated water vapor is discharged to the other side A lower cap having an outlet formed therein;
The outer circumferential surface is fixed while sealing is made on the flange surface of the container body and the lower cap, and the plate surface prevents the detachment of the absorbent material filled in the container body while the purified water and the superheated steam pass through the absorbent material. A lower plate having a plurality of through holes formed at a predetermined interval to guide the lower cap; And
The superheated steam induction pipe passing through the boiler and the line heater passes through the center of the upper cap and the upper plate at the same time, and the lower end of the induction pipe at the lower side of the upper plate allows a plurality of branches to be branched at a predetermined angle in the radial direction. The branched portion is bent vertically downward from the middle position of the radius so that the branch pipe is provided so that the lower end is close to the lower plate, and the branch pipes are projected to be inclined downward by a predetermined angle at various inclination angles from the outer circumferential surface every predetermined height. Injection nozzle forming a nozzle tip of;
Water treatment apparatus provided as.
The method according to claim 1,
The outer end of the adsorbent supply port and the adsorbent discharge port is provided with a cover to open and close.
The method according to claim 1,
And a nozzle tip provided at an uppermost side of the branch pipe of the spray nozzle to be positioned above the height of the upper end of the absorbent material accommodated in the container body.
At the bottom of the superheated steam induction pipe having a lower end positioned at the lower portion of the upper plate through the center of the upper cap and the upper plate at the same time, a plurality of branch pipes branch in a radial direction at an angle, and the branch pipe branched outwards. The end portion of the branch is bent vertically downward in the middle of the radius so that the branch pipe is provided so that the lower end is close to the lower plate coupled between the container body and the lower cap, the branch pipe at various heights at various inclination angles from the outer peripheral surface In the configuration to be provided with a plurality of water treatment apparatus which is accommodated therein the injection nozzles to form a plurality of nozzle tips so as to project inclined downward at a predetermined angle,
Simultaneously injecting waste water into one side of the upper cap of each water treatment apparatus;
Passing through the adsorbents embedded in each water treatment device to allow harmful substances to be adsorbed to the adsorbent to discharge the purified water through the lower cap;
Checking the water treatment apparatus of the water treatment apparatuses when the reproduction time has come;
Closing the waste water inlet on the side of the water treatment device at which the regeneration time arrives so that the injection of the waste water is stopped;
The pipeline to the induction pipe side of the water treatment device side injection nozzle, which has reached the time of regeneration, is automatically opened so that the saturated water vapor generated through the boiler passes through the line heater and is supplied to the water treatment device side when the superheated water vapor has reached the time of regeneration. Making it possible;
Regenerating the adsorbent by injecting superheated water vapor into the adsorbent in the container body through the spray nozzle on the side of the water treatment apparatus when the time to regenerate is reached to remove harmful substances adsorbed on the adsorbent;
Checking whether the reproducing step is completed by performing the above step for a predetermined time;
Switching to the water treatment mode to block the induction observation pipe of the water treatment device that has reached the time of regeneration and automatically opening the waste water inlet so that harmful substances are removed while passing the regenerated adsorbent;
A water treatment method for continuously performing the water treatment along with the adsorption material regeneration treatment by the water treatment apparatus has reached the time of adsorbent regeneration during the water treatment.

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