KR20180015346A - Apparatus for insolubilizing phosphorus in reservoir - Google Patents

Abstract

An apparatus for insolubilizing phosphorus in a reservoir according to the present invention continuously drops a water treatment agent at an upper side of an inflow portion of the reservoir. The water treatment agent dropped at the inflow portion is spread over the reservoir and insolubilizes the phosphorus included in the reservoir. The present invention directly scatters the water treatment agent at a place in the reservoir where pouring the water treatment is needed. Therefore, the present invention, if used, can insolubilize the phosphorus itself which causes algae to be generated to basically prevent occurrences of algal blooms without opening a floodgate when concentration of dissolved oxygen exceeds preset concentration of dissolved oxygen permitting discharge or measured concentration of algae and concentration of organic pollutants exceed preset discharge permitting concentration like in a registered patent 10-1384971. In addition, the present invention does not need a complex configuration (a sensor block, an oxygen control block, an oxygen supply tool, an algal bloom management block and a warning generation block) like in the registered patent 10-1384971, and has a simple actuation principle to reduce failures. The apparatus comprises: a pipe positioning an exit, through which the water treatment agent is continuously dropped, at the upper side of the inflow side of the reservoir; a chemical tank storing the water treatment agent; and a pump supplying the water treatment agent to the pipe.

Description

[0001] APPARATUS FOR INSOLUBILIZING PHOSPHORUS IN RESERVOIR [0002]

The present invention relates to an insolubilizing device which is a reservoir.

When domestic sewage, livestock wastewater, and factory wastewater flow into the reservoir, PHOSPHORUS is abundant in the reservoir.

When the population is abundant, the growth and breeding of the algae proceeds very quickly, and a green tide appears in which the water is green.

The algal blooms, which are generated by overcorrection, block the supply of atmospheric oxygen to the water, making it difficult to survive in water.

Conventionally, yellow soil was sprayed on the surface of water to eliminate algae, and the algae and loess were flocculated and settled. However, this is nothing but a stoppage after the green tide occurs.

In order to solve such a problem, Korean Patent Registration No. 10-1384971 proposes a device for detecting, predicting and eliminating green algae.

When the dissolved oxygen concentration exceeds the predetermined discharge allowable dissolved oxygen concentration or exceeds the measured algae concentration and the concentration of the organic pollutant and the predetermined discharge allowable concentration, Lt; / RTI > Therefore, such a device is also difficult to fundamentally block the occurrence of green tide.

Further, such an apparatus is complicatedly composed of a sensor block, an oxygen control block, an oxygen supply means, a greenhouse management block, and an alarm generating block, and its operation principle is complicated.

Korea registered patent (10-1384971)

An object of the present invention is to provide an insolubilizer in which the occurrence of a green tide can be fundamentally prevented, and the structure and operation principle of which are simple reservoirs.

In order to achieve the above object, according to the present invention,

A piping in which an outlet through which the water treatment agent is continuously dropped is located above the inlet portion of the reservoir;

A chemical tank in which the water treatment agent is stored; And

And a pump for supplying the water treatment agent to the piping.

Further, the above-

A piping in which an outlet through which the water treatment agent is continuously dropped is located above the inlet portion of the reservoir;

A chemical tank in which the water treatment agent is stored;

A first pump for supplying the water treatment agent to the pipe;

A second pump for supplying the water of the reservoir to the pipe; And

And a mixer for mixing the water treatment agent supplied from the first pump and the water of the reservoir supplied from the second pump and supplying the water to the outlet.

Further, the above-

Fixed floating facilities in reservoirs;

A pipe extending to the floating facility and having an outlet through which the water treatment agent is sprayed;

A chemical tank installed at the water side of the reservoir and storing the water treatment agent; And

And a pump for supplying the water treatment agent to the piping.

Further, the above-

Fixed floating facilities in reservoirs;

A pipe extending to the floating facility and having an outlet through which the water treatment agent is sprayed;

A chemical tank installed at the water side of the reservoir and storing the water treatment agent;

A first pump for supplying the water treatment agent to the pipe;

A second pump for supplying the water of the reservoir to the pipe; And

And a mixer for mixing the water treatment agent supplied from the first pump and the water of the reservoir supplied from the second pump and supplying the water to the outlet.

The present invention continuously drops the water treatment agent above the inlet of the reservoir. The water treatment agent that has fallen into the inlet part spreads to the reservoir and insolubilizes the phosphorus contained in the reservoir. Alternatively, the present invention directly sprayes the water treatment agent in a place where the water treatment agent is required to be injected into the reservoir.

Therefore, when the present invention is used, the dissolved oxygen concentration exceeds the predetermined discharge allowable dissolved oxygen concentration as in the registered patent (10-1384971), or exceeds the measured algae concentration and organic contaminant concentration and the predetermined discharge allowable concentration It is possible not to take measures such as the opening of the water gate but to insulate the person providing the cause of the algae altogether and to prevent the occurrence of the algae.

Further, there is no need for a complicated configuration (sensor block, oxygen control block, oxygen supply means, greenhouse management block, alarm generating block) as in the registered patent (10-1384971), and the operation principle is simple and there is little fear of failure.

1 is a view showing a state in which an insolubilizer, which is a reservoir according to the first embodiment of the present invention, is installed in a reservoir.
Fig. 2 is a view showing the insolubilizer, which is the reservoir shown in Fig.
FIG. 3 is a graph showing the effect of reducing the phosphorus component and the effect of reducing the chemical oxygen demand, which are caused by the insolubilizer, which is a reservoir installed in the Taan area reservoir. FIG. 3 (a) 3 (b) is a graph showing the effect of reducing the chemical oxygen demand.
FIG. 4 is a graph showing the phosphorus reduction effect and the chemical oxygen demand reduction effect due to the insolubilizer, which is a reservoir installed in the Hongsung area reservoir. FIG. 4 (a) (b) is a graph showing the effect of reducing the chemical oxygen demand.
5 is a view showing an insolubilizing apparatus which is a reservoir according to a second embodiment of the present invention.
Fig. 6 is a view showing the inside of the mixer shown in Fig. 5. Fig.
7 is a view showing the inside of a mixer according to a modified example.
8 is a view showing an insolubilizing apparatus which is a reservoir according to the third embodiment of the present invention.
9 is a view showing an insolubilizing apparatus which is a reservoir according to a fourth embodiment of the present invention.

Hereinafter, the insolubilizer as a reservoir according to the first embodiment of the present invention will be described in detail.

1 and 2, the insolubilizer 10, which is a reservoir according to the first embodiment of the present invention, is composed of a pipe 11, a chemical tank 12, and a pump 13. The chemical tank (12) is installed outside the machine room (H).

The outlet 11a of the pipe 11 is located above the inflow portion R1 of the reservoir R. [

The water treatment agent P continuously falls at the outlet 11a. Here, the term " continuous " means that the water treatment agent (P) continues to drop by one drop or that the water treatment agent (P) continues to fall without breaking.

The pipe (11) is provided with a valve (V).

The valve V adjusts the amount of the water treatment agent P falling from the outlet 11a.

A flow meter F is installed between the valve V and the outlet 11a.

The flow meter F measures the flow rate of the water treatment agent P falling to the outlet 11a.

A water treatment agent (P) is stored in the chemical tank (12).

The water treatment agent (P) is a liquid aluminum sulfate or a liquid poly aluminum chloride.

Aluminum sulfate or polychlorinated aluminum insolubles phosphorus.

Aluminum sulfate or polychlorinated aluminum is not toxic and does not harm organisms living in the reservoir. Aluminum sulphate is cheap at 500 won per kg. The price of poly aluminum chloride is as low as 1,000 won per kilogram.

The pump 13 supplies the water treatment agent P to the pipe 11.

The insolubilizer 10 as the reservoir according to the first embodiment is registered with the valve V and the flowmeter F provided in the pipe 11, the chemical tank 12, the pump 13 and the pipe 11, And is simple enough to be incomparable to the green algae detection, prediction and removal device of patent (10-1384971). Therefore, the operation structure is simple and does not easily fail.

The reason why the outlet 11a of the pipe 11 is located above the inflow portion R1 of the reservoir R in the insolubilizer apparatus 10 according to the first embodiment is that the water treatment agent P is stored in the reservoir The water treatment agent P can spread evenly over the entire reservoir R if the water R is dropped to the inlet R1 of the water R.

The insolubilizer 10 as the reservoir according to the first embodiment can basically prevent the occurrence of a green tide by continuously dropping the water treatment agent P in the reservoir R. [

Hereinafter, the operation of the insolubilizer as a reservoir according to the first embodiment of the present invention will be described.

Put the water treatment agent (P) in the chemical tank (12).

The pump 13 is operated to supply the water treatment agent P to the pipe 11.

The degree of opening of the valve V is controlled to adjust the amount of the water treatment agent P falling from the outlet 11a. The amount of the water treatment agent P falling from the outlet 11a can be adjusted by looking at the flow meter F. [

The water treatment agent P continuously falls at the outlet 11a.

The water treatment agent (P) spreads out to the reservoir.

Water treatment agent (P) insolubilizes phosphorus.

Hereinafter, the result of disposing the insolubilizer 10, which is a reservoir, in the Taean Reservoir and dropping the water treatment agent into the reservoir inlet is described.

As shown in Fig. 3 (a), the phosphorus concentration (TP) fell from 0.08 mg / L to 0.02 mg / L in 40 days. As shown in Figure 3 (b), the chemical oxygen demand (COD) fell from 10 mg / L to 5 mg / L within 40 days. This phosphorus concentration (TP) and chemical oxygen demand (COD) will decrease further over time, thereby inhibiting the occurrence of algal blooms and improving water quality.

Hereinafter, the results of disposing the insolubilizer 10, which is a reservoir, in the reservoir of the Hongcheon area and dropping the water treatment agent on the reservoir inflow section will be described.

As shown in Fig. 4 (a), the phosphorus concentration (TP) dropped from 0.11 mg / L to 0.04 mg / L within 40 days. As shown in Figure 4 (b), the chemical oxygen demand (COD) fell from 9 mg / L to 7 mg / L within 40 days. This phosphorus concentration (TP) and chemical oxygen demand (COD) will decrease further over time, thereby inhibiting the occurrence of algal blooms and improving water quality.

Hereinafter, the insolubilizer as a reservoir according to the second embodiment of the present invention will be described in detail.

5, the insolubilizer 20, which is a reservoir according to the second embodiment of the present invention, includes a pipe 21, a chemical tank 22, a first pump 23, a second pump 24 ), And a mixer (25). The chemical tank (22) and the first pump (23) are installed inside the machine room (H).

The outlet 21a of the pipe 21 is located above the inflow portion R1 of the reservoir R. [ The water treatment agent P continuously falls at the outlet 21a.

The pipe (21) is provided with a valve (V). The valve V regulates the amount of the water treatment agent P falling from the outlet 21a.

A flow meter F is installed between the valve V and the outlet 11a. The flow meter F measures the flow rate of the water treatment agent P falling to the outlet 21a.

A water treatment agent (P) is stored in the chemical tank (22).

The first pump 23 supplies the water treatment agent P to the pipe 21.

The second pump 24 supplies the water W of the reservoir R to the pipe 21.

The mixer 25 is installed in the pipe 21. The mixer 25 mixes the water treatment agent P supplied from the first pump 23 and the water W of the reservoir R supplied from the second pump 24 and supplies the water W to the outlet 21a.

As shown in FIG. 6, a screw thread 25a is formed on the inner peripheral surface of the mixer 25. The water treatment agent P supplied from the first pump 23 and the water W of the reservoir R supplied from the second pump 24 are mixed with each other while being whirled due to the skewed thread 25a. When the water treatment agent P is mixed with the water W of the reservoir R uniformly, the water treatment agent P can be separated from the outlet 21a and mixed with the water W of the reservoir R without any unevenness.

As shown in FIG. 7, an impeller 26a is installed inside the mixer 26 according to the modified example. The shaft of the impeller 26a is supported by a support table 26b.

The water treatment agent P supplied from the first pump 23 and the water W of the reservoir R supplied from the second pump 24 are vortexed and mixed evenly by the impeller 26a. When the water treatment agent P is mixed with the water W of the reservoir R uniformly, the water treatment agent P can be separated from the outlet 21a and mixed with the water W of the reservoir R without any unevenness.

The insolubilizer 20 which is a reservoir according to the second embodiment includes a pipe 21, a chemical tank 22, a first pump 23, a second pump 24, a valve (not shown) provided in the pipe 21 V) and flow meter (F), it can be constructed so as to be incomparably simple as the device for predicting, predicting and removing green algae of the registered patent (10-1384971). Therefore, the operation structure is simple and does not easily fail.

The reason why the outlet 21a of the pipe 21 is located above the inflow portion R1 of the reservoir R and the reason why the water treatment agent P is stored in the reservoir R) has been described above, the description thereof will be omitted.

Hereinafter, the insolubilizer as a reservoir according to the third embodiment of the present invention will be described in detail.

8, the insolubilizer 30, which is a reservoir according to the third embodiment of the present invention, except for the floating facility 31 and the pipe 32, And the constitution thereof is the same as that of the insolubilizing apparatus 10 which is a reservoir. Therefore, the description of the remaining configuration will be omitted.

The floating facility 31 is fixedly installed in the reservoir R using a rope. The position of the floating facility 31 may be a central portion of the reservoir R or a position close to the water side of the reservoir R depending on the place where the water treatment agent P is required to be sprayed directly.

The pipe 32 extends to the floating facility 31. A water treatment agent is sprayed around the floating facility (31) at the outlet of the pipe (32). A nozzle 32a is provided at the outlet of the pipe 32 for spraying the water treatment agent P.

The insolubilizer 30 as a reservoir according to the third embodiment of the present invention can be used at a place where the water treatment agent P in the reservoir R is required to be introduced without placing the water treatment agent P above the inlet portion of the reservoir , And the water treatment agent (P) can be directly sprayed.

Hereinafter, the insolubilizer according to the fourth embodiment of the present invention will be described in detail.

9, the insolubilizer device 40, which is a reservoir according to the fourth embodiment of the present invention, is the same as the insolubilizer device 40 according to the second embodiment of the present invention except for the floating facility 41 and the pipe 42 And the constitution thereof is the same as that of the insolubilizer 20 which is a reservoir. Therefore, the description of the remaining configuration will be omitted.

The floating facility 41 is fixedly installed in the reservoir R using a rope. The position of the floating facility 41 may be a central portion of the reservoir R or a position close to the water side of the reservoir R depending on the place where the water treatment agent P needs to be directly sprayed.

The pipe 42 extends to the floating facility 41. A water treatment agent is sprayed around the floating facility (41) at the outlet of the pipe (42). A nozzle 42a is provided at the outlet of the pipe 42 for spraying the water treatment agent P. [

The insolubilizer 40 according to the fourth embodiment of the present invention can be used in a place where the water treatment agent P in the reservoir R is required to be introduced into the reservoir R without putting the water treatment agent P above the inflow portion of the reservoir , The water treatment agent (P) mixed with the water (W) of the reservoir (R) can be directly sprayed.

10, 20, 30, 40: insolubilizing device as reservoir 11, 21, 32, 42:
12, 22: chemical tank 13: pump
23: first pump 24: second pump
25, 26: mixer 31, 41: floating facility

Claims (5)

A piping in which an outlet through which the water treatment agent is continuously dropped is located above the inlet portion of the reservoir;
A chemical tank in which the water treatment agent is stored; And
And a pump for supplying the water treatment agent to the pipe. A piping in which an outlet through which the water treatment agent is continuously dropped is located above the inlet portion of the reservoir;
A chemical tank in which the water treatment agent is stored;
A first pump for supplying the water treatment agent to the pipe;
A second pump for supplying the water of the reservoir to the pipe; And
And a mixer for mixing the water treatment agent supplied from the first pump and the water of the reservoir supplied from the second pump and supplying the mixed water to the outlet. Fixed floating facilities in reservoirs;
A pipe extending to the floating facility and having an outlet through which the water treatment agent is sprayed;
A chemical tank installed at the water side of the reservoir and storing the water treatment agent; And
And a pump for supplying the water treatment agent to the pipe. Fixed floating facilities in reservoirs;
A pipe extending to the floating facility and having an outlet through which the water treatment agent is sprayed;
A chemical tank installed at the water side of the reservoir and storing the water treatment agent;
A first pump for supplying the water treatment agent to the pipe;
A second pump for supplying the water of the reservoir to the pipe; And
And a mixer installed in the pipeline just before the outlet and mixing the water treatment agent supplied from the first pump and the water of the reservoir supplied from the second pump and supplying the mixed water to the outlet, Device. The water treatment agent according to any one of claims 1 to 4,
Characterized in that it is a liquid aluminum sulphate or a liquid poly aluminum sulphate.

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