KR101447937B1 - Pressurized Uprising Tank - Google Patents

Abstract

A pressurized float tank as a water treatment facility is provided.
Wherein the pressurized float bath comprises a bath main body into which raw water mixed with a chemical is flowed and aeration-floated to discharge treated water; And a jet-nozzle means provided in the bath main body and configured to aerate raw water mixed with the chemicals to remove contaminants from the contaminants, wherein the raw water mixed with the chemical is mixed with the inflow water An assembled tank main body for aeration-floating and discharging treated water; And jet-nozzle means provided in the bath main body 10 and configured to aerate raw water mixed with chemicals so as to allow flotation of the contaminants to be removed.
According to the present invention, by constructing a new flotation process (a drinking water source) capable of replacing a conventional pressurized flotation vessel, it is possible to reduce the amount of total phosphorus discharged from a small-scale sewage treatment facility located in aquatic area, Management, it is possible to suppress the generation of algae and prevent eutrophication, while the existing agitation equipment, pressure tank, and compressor are not needed, so that the maintenance of the device is easy and the energy consumption can be minimized. .

Description

{Pressurized Uprising Tank}

The present invention relates to a pressurized flotation apparatus as a water treatment facility, and more particularly, to a new flotation process capable of replacing a conventional pressurized flotation apparatus, thereby reducing the amount of total phosphorus discharged from a medium- and small- The optimal management of phosphorus in the water system inhibits the generation of algae and prevents eutrophication. It also eliminates the need for existing agitation facilities, pressure tanks, and compressors, facilitating the construction and maintenance of equipment and minimizing energy usage. , And generally relates to a compact pressurized floating tank.

Total phosphorus (TP) is one of the indicators of eutrophication of rivers, lakes and rivers. It is the sum of the phosphorus compounds contained in the water. .

Phosphorus is a nutrient salt that eutrophilizes a water quality system together with nitrogen. It is also the cause of red tide. For example, synthetic detergents contain a large amount of phosphorus compounds used as a composition.

On the other hand, since the national water quality standards have been strengthened since 2012, it has been decided to manage the total local residents (TP) as 0.2 in accordance with the water quality and water ecosystem conservation law, .

Although not shown in the drawings, the general process of the total phosphorus treatment, that is, the water treatment process, includes the steps of mixing the water from the secondary settling tank with a mixing tank for mixing tank and chemical treatment, And a physical and chemical process in which contaminants (flocs or scum) in the raw water having undergone the coagulation process are adhered to the fine bubbles in the pressurized floating tank and then discharged.

However, total phosphorus, which is known to be a limiting factor of eutrophication, already shows the water quality equivalent to the nutritional level (0.1 ~ 0.035 mg / L) in the OECD nutritional level standard, Respectively.

In addition, the number of days of birds was reduced nationwide as a result of measuring the occurrence of algae in rivers and lakes, which are used as water sources. However, in Paldang Lake, the largest number of birds have been generated in 36 days in 2008.

This shows that the pollution level of phosphorus, which is a cause of algae, is continuously increasing, and COD, which is an index of degradable organic material, is also increasing due to decay of killed algae.

On the other hand, the percentage of pollutants by point pollution sources in the Han River is about 63%. Therefore, in order to control the growth of algae in Paldang and other drinking water sources and to improve water quality, elimination of pollutant emissions should be prioritized.

Phosphorus is a major cause of algal growth. It is estimated that organic pollution by algae accounts for 25 ~ 30% of the total organic load. There are various conditions such as water temperature, various nutrients, flow rate, and amount of sunshine in the occurrence of algae, but in Korea, phosphorus is a limiting factor of algae growth.

The known pressurized floating tank is formed by adding a drug (such as an alum) to the raw water and stirring it constantly to form a flocc (scum), which is a contaminant of foreign matter remaining in the water, into the pressurized floating tank, It is known as a water treatment device in which flocs are floated to the upper layer and water in the lower layer becomes a supernatant when combined with the bubbles generated from the dissolved air circulating water.

For example, Korean Patent Laid-Open Nos. 10-2012-0023164 and 10-2011-0048142 disclose such known pressurized floating baths.

However, in addition to the conventional pressurized float bath disclosed in the above-mentioned patent, other known conventional pressurized float baths require an agitation facility and an air injection device (compressor) for forcibly generating bubbles. Removal of flocs and floating flocs by bubble bonding in a pressurized flotation tank was common practice.

Therefore, the conventional pressurized flotation tank has a complicated structure as a whole and complicated sub-lines (facilities) are not suitable for use in medium- and small-scale sewage treatment plants in the water supply source water area.

In addition, the total phosphorus removal efficiency through floc formation, flotation, and removal is in fact insufficient, and it is common to operate the pressurized flotation tank after passing through several different settling tanks, mixing-flocculating tanks, and the like.

Therefore, the conventional pressurized flotation tank has a low water treatment efficiency, and it is difficult to easily construct the flotation tank in a desired area, that is, a small-sized water treatment facility in a desired area such as a per-palm water system.

Therefore, in the related art, a new flotation process capable of replacing the existing pressurized flotation tank with a jet nozzle coupled turbine pump was developed to reduce the total amount of phosphorus discharged from a small- and medium-sized sewage treatment facility located in the drinking water source area There has been a demand for a pressurized float tank which suppresses algae generation and prevents eutrophication through optimal management of phosphorus flowing into the water system.

Also, since the pressurized floating tank is constructed based on the micro bubble generator using the turbine pump and the jet nozzle, the existing stirring equipment, the pressure tank, the compressor and the like are not required, the apparatus can be easily maintained and energy consumption can be minimized, There has been a demand for a compact pressurized float tank which realizes the introduction of flocculant into the floating tank itself and particularly maximizes the mixing efficiency of the flocculant and the raw water.

Technical Solution In order to achieve the above-described needs, the present invention provides an assembled type bath main body, in which raw water mixed with a drug is introduced and aeration-floated to discharge treated water. And jet-nozzle means configured to augment raw water mixed with the chemicals in the bath main body to enable flotation of the contaminants to be removed,
The assembly type bath main body includes: a vertical structure vertically provided between upper and lower structures; a first structure provided inside the vertical structure, in which jet-nozzle means are disposed to form an aeration space; And a second structure provided between the first structure and the vertical structure to form a floating space for contaminants,
And a third structure provided between the lower end of the second structure and the upper end of the first structure to form a floatation space extending more than the aeration space, Provide a float tank.

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According to the present invention, a new flotation process capable of replacing a conventional pressurized flotation tank using a turbine pump with a jet nozzle is developed, and the amount of total phosphorus discharged from a small- and medium-sized sewage treatment facility located in a drinking water source- And the effect of suppressing the generation of algae and preventing the eutrophication phenomenon through optimal management of phosphorus flowing into the water system.

In addition, the present invention is based on a micro-bubble generating device using a turbine pump and a jet nozzle to construct a pressurized flotation tank, which eliminates the need for conventional stirring equipment, pressure tanks, and compressors, In addition, it is possible to obtain a further effect of providing a compact pressurized float tank in which the flocculant is introduced into the pressurized float tank, and in particular, the mixing efficiency of the flocculant and the raw water is maximized.

Further, the present invention can provide the bath main body in an assembled form, thereby providing another effect that enables easy device construction at a desired place.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a front view showing the overall structure of a pressurized floating-
Fig. 2 is a side view of Fig. 1
Fig. 3 is a plan view of Fig. 1
Fig. 4 is a plan view of Fig. 1
Fig. 5 is a plan view of Fig. 1 based on the pollutant discharge means
6 to 8 are a perspective view and an operating state diagram showing the jet-nozzle means of the pressurized floating-
9 and 10 are an installation state view and a perspective view showing a medicine mixing means associated with the pressurized floating body according to the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will now be described (with reference to the accompanying drawings). However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. Further, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art. (The shape and size of elements in the drawings may be exaggerated for clarity.)

1 to 5 show the constitution of the pressurized floating type tank 1 according to the present invention in a front view, a side view and a plan view, and in the figures, Figs. 6 to 8 show the pressure floating type tank 1 FIG. 9 and FIG. 10 show the rapid mixing means 150 provided in the pressurized floating bed tank 1 of the present invention.

1 and 2, the pressurized floating type tank 10 of the present invention is a pressurized floating tank 10 in which raw water 2 mixed with the chemical 8 flows in and floats to discharge the treated water 4, (Hereinafter referred to collectively as "contaminant F") as described above, by spraying high-pressure raw water 2 mixed with chemicals while being supplied to the bath main body 10, Can be constructed on the basis of the jet-nozzle means (30) floating.

Therefore, the pressurized floatation tank 10 of the present invention is capable of generating a sufficient amount of air bubbles through the jet-nozzle means 30, which will be described in more detail in the following Figs. 6 to 8, The flow rate of the raw water is increased so that more raw water can be processed and the amount of raw water to be augmented is increased so that the amount of floating of the pollutant F is increased, As a result, the raw water treatment efficiency is high, so that cleaner treatment water 4 can be discharged through the discharge tank 22 of the floating tank.

The pressurized floating type tank 1 of the present invention will be described in detail in the following in detail. However, in the case of the total phosphorus treatment, the treated water 4 is circulated through the raw water tank 50 to the turbine pump 72), it is possible to increase the treatment efficiency of the total person through the proper adjustment of the net exchange rate.

Further, since the turbine pump 72, which sucks the outside air and supplies it to the supply line 70 at a high pressure, is used, there is no need for a separate air injection device for aeration in a generally known gun processing facility, 72 and the jet-nozzle means 30, it is possible to increase the aeration efficiency and the flow rate of raw water or treated water.

In addition, as described in detail below, the pressurized floating type tank 1 of the present invention can be easily installed at a desired place in the water source area of the drinking water source. In this case, the tank main body 10 of the pressurized floating tank 1, So that the apparatus can be easily manufactured and installed.

Therefore, various structural features of the pressurized floating bed 1 of the present invention will be described in detail below.

First, as shown in Fig. 1 (2), Fig. 3 and Fig. 4, the assembled tank main body 10 provided in the assembled type for constructing the equipment in the pressurized floating tank 1 of the present invention is basically And a vertical structure 16 in which a plurality of vertically provided structures 12, 14 and a plurality of vertically arranged structures are provided between the upper and lower structures 12, 14.

2 and 4, the upper structure 12 and the lower structure 14 are provided with channels such as a U-shaped or L-shaped steel, and they are assembled and fixed with a suitable structure, for example, at an angle of 90 degrees Structure.

Of course, in the case of the lower structure 14, a bottom plate 14a may be assembled on the upper portion to mount and fix various structures of the bath main body.

In addition, the channels of the substructure may be provided with a square frame and a grid structure therein, unlike the superstructure of FIG.

As shown in FIG. 3, the vertical structures 16 are vertically arranged at intervals of 45 degrees. The vertical structures 16 are provided on the bottom plate 14a of the lower structure 14 of the channel, And the upper end may be assembled in cooperation with the second structure 20 and the reinforcing angles 28, which will be described below.

Of course, it is a matter of course that the shape and arrangement of the channels are appropriately assembled in a desired shape. It is needless to say that, although not shown in the drawings, the bath main body 10 can be constituted through bolting or welding if necessary.

Next, as shown in FIGS. 1, 2 and 3, the inside of the vertical structure 16 is formed at the center thereof with an aeration space S1 in which jet-nozzle means 30, which will be described in detail below, A first structure 18 is provided.

A second structure 20 forming a contaminant floating space S2 is assembled between the first structure 18 forming the aeration space S1 and the upper end of the vertical structure 16, 2 structure 20 is provided with a treatment water discharge tank 22 to which a discharge line 22a through which the treatment water 4 is discharged is connected.

In addition, between the upper end of the first structure 18 and the lower end of the second structure 20, a floatation space (hereinafter referred to as " floatation space " The second structure 24 is assembled.

For example, such a third structure 24 acts as a bottom plate of the floating space S2, and thus, between the upper end of the first structure and the lower end of the enlarged second structure 20, The structure 24 is assembled.

1 to 3, the first to third structures 18, 20, and 24 may be formed by assembling corrosion-resistant plates, for example, stainless steel plates having a thickness of about 2 tons, And is reinforced by reinforcing anchors 28 having a circular structure firmly fixing the plates between the respective structures. In particular, although not shown in detail in the drawings, Of course.

Alternatively, the first and second structures 18 and 20 may be provided as a circular steel pipe or the like.

That is, the first structure 18 is provided in the form of a cylinder having an inner diameter forming the aeration space S1 such that the plates are provided with an appropriate arrangement of a plurality of jet-nozzle means 30 inside, It is also possible to use a tube or a stainless steel tube.

1 and 5, the raw water 2 mixed with the medicines 8 passing through the aeration space S1 and generating the bubbles 6 collides with the medicines 8 through the first structure 18, The perforated plate 26 serving as a rectifying plate for stabilizing the raw water flotation flow in the boundary region of the floating space S2 in the aeration space S1 so that the contaminants F flocculate well, 1 through the reinforcing angle 28 or the like between the upper end of the first structure and the lower end of the third structure.

1, the second structure 20 is provided with a multi-wall structure in which upper and lower ends are alternately opened for discharging the treated water to the discharge tank 22.

1, the raw water and the treated water level (water level) L of the pressurized floating tank 1 of the present invention correspond to the position of the discharge pipe 22a of the discharge tank 22.

Therefore, since the second structure is of the multi-wall structure, contaminants such as flocs can not be discharged through the discharge tank 22, and only the clean water 4 that has been removed by floating the contaminants can be discharged .

As a result, the bath main body 10 of the present invention can be easily assembled in a desired place, and can be easily prepared in advance in a factory or the like in a desired size, It is possible to provide a suitable structure for a small- and medium-sized water treatment facility of a drinking water source water source such as Paldang Lake.

The inner diameter of the second structure 20 through the third structure 24 is larger than the inner diameter of the first structure 18 and therefore the inner space of the first structure in which the jet- S1 are provided in a proper space for stably maintaining the aeration efficiency and the contaminant F such as flocs mixed with the drug is supplied to the inside of the second structure because it provides a more extended flotation space S2 than the aeration space inside the second structure. So that the injured person can be maintained smoothly and stably.

In addition, since a space is formed at the outer portion of the first structure 18 at the lower portion of the third structure 24, the necessary equipment, that is, the supply line 70, the rapid mixing means 150, And the pump 112 of the vertical structure 16 can be disposed on the upper side of the vertical structure 16 so that the overall space utilization of the pressurized floating tank 1 of the present invention is high and the cover plate (not shown) And the space under the lower portion 24 can be protected from rainwater or the like.

As a result, the pressurized float tank 1 based on the assembled tank body 10 of the present invention can be provided as a whole with a very compact structure.

Next, as shown in Fig. 1 and Figs. 3 and 4, in the pressurized floating tank 1 of the present invention, the jet-nozzle means 30 arranged in the internal aeration space S1 of the first structure and the raw- A supply line 70 which is a pipeline is connected between the raw water tank 50 provided with the raw water tank 52 and the outside air is sucked in the supply line 70 together with the raw water to eliminate the need for a separate compressor, A turbine pump 72 is provided to supply the mixed water of raw water + chemicals + air at high pressure to the means 30 at high pressure to realize floatation of contaminants through aeration.

Accordingly, in the present invention, the outside air flows in the operation of the turbine pump 72, and the raw water supplied from the raw water tank 50 is mixed with the air in the turbine pump, and the raw water contains many fine bubbles 6 And supplied to the raw water containing the bubbles through the chemical feeding means 90 connected to the downstream side of the turbine pump 72 in the supply line 70 to be described next, - is injected at high pressure in the aeration space (S1) filled with the raw water through the nozzle means (30).

As a result, the raw water mixed with the chemicals uniformly contains the air bubbles of the outside air supplied from the turbine pump. More air bubbles are generated as the air is jetted from the jet-nozzle means 30 through the nozzle hole 34a at high pressure, The uniformly mixed medicine 8 is mixed with the phosphorus or the like of the raw water so that more contaminant F such as floc is floated, and thus the water treatment efficiency, that is, the total phosphorus removal efficiency, is high.

Next, as shown in Figs. 2, 3, and 5, the supply line 70 connected between the raw water tank 50 and the jet-nozzle means 30 in the pressurized floating tank 1 of the present invention is connected to a turbine pump 72 , A drug loading means 90 is connected to the downstream side so that an appropriate amount of the medicine 8, that is, water treatment chemicals, can be input.

For example, the chemical feed means 90 is provided in association with a feed line 94 connected to the downstream side of the turbine pump 72 of the feed line 70 and a chemical tank 96, The tank may be provided with a chemical supply port, a chemical supply pump 92, and the like, which are not shown in the figures.

Therefore, the amount of the raw water and the amount of the chemical to be injected into the pressurized floating tank through the supply line 70 is controlled appropriately by controlling the operation of the turbine pump 72 and the operation of the supply pump 92 of the chemical tank 96 You can do it.

3 to 5, the pressurized flotation tank 1 of the present invention is preferably provided in the tank main body 10 or the treated water discharge tank 22 and the raw water tank 50, And a circulation line (110) connected between the lines (70).

Therefore, in the present invention, the raw water in the floatation space S2 of the bath main body 10 or the treated water 4 discharged from the discharge tank 22 can be circulated through the operation of the pump 112 associated with the circulation line 110 It is possible to circulate the raw water through the raw water tank 50 or the supply line 70 and control the circulation amount to increase the removal efficiency of contaminants through aeration and floating through circulation of the raw water flow rate and the treated water in the aeration space, It is possible to increase the efficiency.

Although the circulation line 110 is shown only in connection with the raw water tank 50 in the drawing, it is also possible to connect the branch line of the circulation line to the supply line 70 and to install the valves at proper positions, It is not difficult to adjust the circulation direction appropriately.

In the pressurized floating tank 1 of the present invention, the turbine pump 72 provided in the supply line 70, the pump 112 in the circulation line 110, (92) are electrically connected to the facility control panel and are appropriately operated based on a preset reference, so that it is possible to control the circulation of the raw water, the chemical supply, and the raw water or treatment water.

Next, as shown in FIGS. 1, 2 and 5, in the pressurized floating tank 1 of the present invention, contaminants (F) floating on the upper portion of the bath main body 10 are removed (130).

1, the pollutant removing unit 130 of the present invention is installed in the upper part of the upper structure 12 of the bath main body 10 via a driving source, that is, a motor 132a, Shaped scraper 132 provided to rotate in close proximity to the contaminant reservoir 134 and provided to rotate at a point near the point of rotation of the scraper; And the pollutant discharge port 136 is formed.

However, the position of the pollutant discharge port 136 may be provided as an incision discharge pipe arranged directly below the water level so that the scrapers 132 do not interfere with the path of rotation near the water level, 134 may be provided with a pump for allowing the contaminants F such as flocs to be sucked.

Therefore, the contaminants mixed with the chemicals floating in the floating space S2 can be automatically discharged to the outside of the pressurized floating tank 1, and only the clean water can be discharged to the outside.

As a result, the pressurized floating tank (1) of the present invention is a sedimentation tank of a conventional counterflow sewage treatment facility, while the chemical mixing, the aeration and the floatation are realized within a single tank body. It is designed to be compact and simple to install, but it is suitable for small and medium sized wastewater treatment facilities.

Next, FIGS. 1, 3 and 6 to 8 show the jet-nozzle means 30 of the pressurized float tank 1 of the present invention.

That is, Fig. As shown in Figs. 6 to 7, the jet-nozzle of the present invention, in which about nine as a whole as shown in Fig. 3 is provided at regular intervals in the cylindrical first structure 18 of the bath main body 10 of the present invention, The means 30 comprises a body 32 on the bottom of the bath main body to which the supply line 70 is connected and assembled to the lower end and a nozzle 34 provided so as to implement aeration on the body 32, And an air outlet 38 provided to surround the air inlet space 36 and including one or more raw water inlets 36 that are provided to allow external air entry of the aeration space S1 and are capable of jet-aeration.

The first outlet 38a, the first outlet 38a, and the body 32 are provided with a screw (not shown) in the upper part of the nozzle, And a second jet port (38b) assembled with at least one raw water inlet (36).

The end of the supply line 70 is assembled to the hole 32a of the body 32 in a screwed manner while the flange is assembled and the hole of the body is inserted into the nozzle hole 34a of the nozzle 34, (34a).

Preferably, the nozzle 34 is provided in a conical shape with a narrow upper end and a lower end, so that the inflow direction of the raw water flowing through the inflow port 36 is smooth and smoothly flows into the upper part of the nozzle So as to have a rising flow direction.

Therefore, the jet-nozzle means 30 of the present invention is capable of controlling the flow rate of the mixed water in which the raw water 2 + air (air bubbles) + chemicals 8 are well mixed through the operation of the turbine pump 72, Since the external raw water is automatically introduced and aerated by the pressure jetted at a high pressure through the hole 34a, mixing of the contamination source with the microporous foil through the chemical admixture and aeration can be implemented very smoothly, will be.

As a result, the total phosphorus content in treated water can be processed below the desired level by smooth removal of contaminants through aeration and injury.

In particular, in the case of the present invention, the jet-nozzle means 30 has a flow rate Q1 of the raw water supplied to the supply line and a flow rate Q2 of the raw water flowing into the raw water inflow ports 36 on opposite sides of the jetting out port 38 + Q3 are combined, the total flow rate of the raw water jetted and aerated at the jetting port becomes Q1 + Q2 + Q3, so that the total amount of raw water jetted and aerated in one unit jet-nozzle means 30 is greatly increased.

When the flow rate of the raw water is jetted by Q1 from the inner nozzle 34 of the jet port 38 through the supply line 70, a pressure difference is generated and Q2 and Q3 of the external raw water flowing through the raw water inlet port 36 of the jet port Is sucked into the jetting port (38) of the nozzle means, and is merged with the raw water to be jetted, and is jetted out from the jetting port, and is aerated in the aeration space.

That is, the raw water is flowed smoothly through the nozzle means and the jet port by using the ejection pressure of the nozzle, and since the raw water of a larger flow rate is ejected, the medicine or contaminated chemicals or air bubbles Thereby enhancing the mixing (bonding) action.

Next, more preferably, as shown in Fig. 8, in the jet-nozzle means 30 of the present invention, the medicine which is supplied by welding or the like to the inside of the jet port 38 to the upper side of the nozzle 34, And the collision member (40) further increases the mixing of the raw water with the mixed water to increase the vapor or chemical miscibility.

For example, the mixing means 40 may be a conical coil spring whose diameter widens from the lower end to the upper end in the jet port 38, or may be a conical coil spring of the mixing member 150 154), that is, a cross-shaped collision arm, a cone with a hole, a flat plate, or the like may be provided in multiple layers.

However, it is preferable that the colliding means 40 of the conical coil is more easily provided inside thereof when considering the size of the jet port.

Therefore, in the case of the jet-nozzle means 30 of the present invention, since the collision means 40 is vertically provided inside the jetting port 38 forming a predetermined space right above the nozzle 34, The mixed water of the air (bubbles) and the chemicals continuously passes through the plurality of successively colliding with the high pressure (high speed) to form the vortex, thereby improving the weatherability and chemical miscibility. After the aeration, And flows into the floating space S2 in a state of being rectified.

Next, as shown in Figs. 1, 3, and 9 and 10, in the case of the pressurized floating tank 1 of the present invention, the supply line 70 connected to the jet- Nozzle means 30 to the downstream side of the point where the supply pipe 92 of the spray nozzle 90 is connected to the rapid-mixing means 150 for rapid mixing of the drug.

9 and 10, the rapid mixing means 150 of the present invention includes an assembly line 152 assembled in a flange structure between the supply lines 70, And a mixing member 154 that is provided in the interior of the reaction chamber 152 and configured so that the raw water injected with the chemical collides with the chemical to rapidly mix the chemical.

For example, as shown in FIGS. 9A and 9B, the admixture member 154 is connected to a wire 154b connected between a supply line and a support 154c provided at an assembly part of the assembly line, May be provided with a cross-shaped arm 154a arranged such that the arrangement thereof intersects.

Therefore, the raw water mixed with the outside air and the chemicals through the turbine pump 72 collides while passing through the criss-crossing arms of the impingement member, and the mixing of the raw water with chemicals is increased through the vortex generated at this time, Thereby increasing the removal efficiency of the phosphorus.

10, the mixing member 154 may be provided in a different form, that is, a flat plate 154d or a conical plate 154e formed with holes provided in the wire 154b, Or through the margin to enhance drug miscibility.

On the other hand, when sewage is treated through the pressurized floating tank (1) of the present invention, treatment is carried out at a daily treatment flow rate of 25 m ³ / day from raw water PO ₄ ³ -P 1.57 mg / L, total phosphorus (TP) number of _{^{PO 4 3 - -P 0.11mg / L}} , TP , respectively 92.6% to 0.16mg / L, exhibited a clearance rate of 93.3%, one process flow 50m ³ / day in the case to be treated PO ₄ ^{3 -} -P 0.23mg / L , And TP 0.29 mg / L, respectively.

Accordingly, in the case of the pressurized flotation tank 1 of the present invention described so far, it is possible to use the sewage treatment facilities in a specific area such as a drinking water source around the Paldang Lake, or around the four major rivers and tributary rivers, , It is possible to efficiently remove the gun and to easily construct the equipment in an assembled form at a desired place while reducing the input energy equipment and facilitating the maintenance of the entire equipment and reducing the cost, To provide a practical water treatment environment.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be obvious to those of ordinary skill in the art.

1 .... pressurized float tank 2 .... enemy
4 .... Number of processes 6 .... Bubble
8 .... drug (particle) 10 .... tank body
12,14 .... Phase, substructure 16 .... Vertical structure
18 .... first structure 20 .... second structure
22 .... treated water discharge tank 24 .... third structure
24 .... perforated plate 30 .... jet-nozzle means
32 .... body 34 .... nozzle
36 .... the raw water inlet 38 .... the outlet
40 .... mixing means 50 .... raw water tank
70 .... supply line 72 .... turbine pump
90 .... chemical input means 110 .... circulation line
130 .... Contaminant removal means 132 .... Scraper
150 .... Rapid mixing means 154 .... Mixing member

Claims (15)

delete An assembled type bath main body (10) in which raw water mixed with a chemical is flowed and aeration - floated to discharge treated water; And a jet-nozzle means (30) configured to aerate raw water mixed with a chemical to the bath main body (10) so as to allow flotation of the pollutant to be removed,
The assembly type bath main body 10 includes a vertical structure 16 vertically provided between upper and lower structures 12 and 14 and a jet nozzle means 30 arranged inside the vertical structure, A first structure 18 for providing aeration space S1; And a second structure (20) provided to form a floating space (S2) of contaminants between the first structure (18) and the vertical structure,
And a third structure (24) provided between the lower end of the second structure and the upper end of the first structure to form a floatation space extending beyond the aeration space, wherein the upper part of the first structure A pressurized floating tank further comprising a stencil (26).
3. The method of claim 2,
Is provided in a supply line (70) connected between the jet-nozzle means (30) and a raw water tank (50) associated with the tank main body so that external air is supplied to the jet- A turbine pump 72 provided to enable the turbine;
Further comprising: a pressurized floating bed; 3. The method of claim 2,
(90) connected to a supply line (70) connected between the jet-nozzle means (30) and a raw water tank (50) associated with the tank body;
Further comprising: a pressurized floating bed;
3. The method of claim 2,
The bath main body 10,
A raw water tank 50 connected to the bath main body; Or a supply line 70 connected between the jet-nozzle means and the raw water tank 50,
A circulation line (110) configured to allow circulation of raw water or treated water;
Further comprising: a pressurized floating bed;
3. The method of claim 2,
A pollutant removing means (130) provided on an upper portion of the bath main body to discharge and remove floating pollutants;
Further comprising: a pressurized floating bed;
The method according to claim 6,
The pollutant removing unit 130 includes a scraper 132 rotatably provided to the upper portion of the bath main body through a driving source; And
A pollutant discharge port (136) connected to the pollutant storage tank (134) provided outside the scooped contaminant to at least one upper side of the bath main body;
Wherein the pressurized floating vessel is constituted by a pressurized fluid.
3. The method of claim 2,
The jet-nozzle means 30 is connected to a supply line 70 connected between the jet-nozzle means 30 and a raw water tank 50 associated with the bath main body and is provided with a body 32);
A nozzle (34) provided to implement aeration on the body (32); And
An outlet 38 provided to surround the nozzle on the body and including at least one raw water inlet 36 to allow entry of raw water;
Wherein the pressurized flotage tank is made of a raw water inflow type.
3. The method of claim 2,
A collision means (40) provided on the upper side of the jet-nozzle means (30) to increase the air-fueling or miscibility;
Further comprising: a pressurized floating bed;
5. The method of claim 4,
Rapid mixing means (150) provided to allow rapid mixing of the drug between the jet-nozzle means on the downstream side of the supply line connecting portion of the supply line;
Further comprising: a pressurized floating bed;
11. The method of claim 10,
The rapid mixing means 150 includes an assembly line 152 assembled to the supply line 70; And
An admixture member (154) provided inside the assembly line (152) and configured to be able to rapidly mix medicines by colliding with the raw water into which the medicines are injected;
Wherein the pressurized floating vessel is constituted by a pressurized fluid.
delete delete 3. The method of claim 2,
(22) associated with at least one point of the second structure (20)
Wherein the first to third structures are provided by assembling or arranging corrosion resistant plates.
15. The method of claim 14,
The upper and lower structures are provided as channel structures,
The first structure 18 is provided in a cylindrical form on a bottom plate,
Characterized in that the second structure (20) is provided in the form of a cylinder at the end of the third structure (24) and is provided in a multi-walled structure for the discharge of treated water.

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