KR20150100407A - Scale removing apparatus of sodium hypochlorite tank - Google Patents

Abstract

The present invention relates to a scale removing apparatus for a sodium hypochlorite storage tank. More specifically, sodium hypochlorite introduced into a storage tank is configured to be rotated in one direction along an inner wall of the storage tank in order to restrain scale from being stained inside the storage tank. Moreover, sea water is sprayed to the inner wall of the storage tank to effectively remove the preliminarily stained scale.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a sodium hypochlorite storage tank,

The present invention relates to a descale apparatus for a sodium hypochlorite storage tank, and more particularly, to a descale apparatus for a sodium hypochlorite storage tank in which a sodium hypochlorite introduced into the storage tank is rotated in one direction along an inner wall of a storage tank, To a scale removing apparatus which is capable of effectively removing scale already deposited by spraying seawater on the inner wall of a storage tank.

Sodium Hypochlorite (NaOCl) is a colorless or pale greenish-yellow liquid with strong disinfection and high safety. It is mainly used for disinfection, deodorization and bleaching. It is used for drinking water, vegetables and fruits, containers, Kitchen utensils, kitchen utensils, kitchen utensils, kitchen utensils, kitchen utensils, kitchen utensils, kitchen utensils, and kitchen utensils.

Such sodium hypochlorite is produced by electrolyzing salt water, mainly seawater. That is, when seawater having a constant concentration is electrolyzed, chlorine gas (Cl ₂ ) is generated in the anode and sodium hydroxide (Na 2 O) and hydrogen gas (H ₂ ) are generated in the cathode electrode And the chlorine gas reacts with sodium hydroxide to produce an effective concentration less than 1%, i.e., less than 10,000 ppm sodium hypochlorite (NaOCl) solution.

(+) Pole: Cl- → ½ Cl ₂ + e-

(-) Polar: Na + H ₂ O → NaOH + ½H ₂

(+) Pole and (-) polar reaction: NaOH + Cl ₂ → NaOCl + HCl

Korean Patent No. 10-0816099 (Mar. 17, 2008) discloses an apparatus for electrolyzing seawater industrially using the above-described chemical principle, and its structure is generally included in seawater An electrolytic bath for electrolyzing seawater supplied from the water softening unit to produce sodium hypochlorite; acid pickling for periodically removing the scale produced in the electrolytic bath; A sodium hypochlorite storage tank for separating and storing the sodium hypochlorite produced in the electrolytic bath, and the like.

The term "scale" as used herein means that the metal ions such as iron, manganese, silica, calcium, magnesium and the like dissolved in seawater are combined with HCO ^{3 -} , CO 3 ^{2 -} , SO 4 ² - , Filters, storage tanks, etc. This scale not only degrades the electrolytic performance of the electrolytic cell, but also degrades the function of the process system as a whole, so it is necessary to remove the scale periodically.

1 is a photograph of the scale deposited on the side surface (A) and the bottom surface (B) inside the sodium hypochlorite storage tank. In order to remove such a scale, a system such as the acid cleaning apparatus disclosed in Fig. 1 of the above-mentioned Patent No. 10-0816099 has been separately constructed. That is, hydrochloric acid is injected into the sodium hypochlorite storage tank to chemically dissolve and remove the scale. However, when hydrochloric acid is used, a large amount of hydrochloric acid vapor (HCl fume) is generated during the scale treatment process. Therefore, there is a problem that installation cost for the hydrochloric acid vapor must be separately provided.

On the other hand, as a scale inhibitor for a desulfurization wastewater treatment apparatus using sodium hypochlorite as a main treatment agent, citric acid, a water-soluble complex, a negative charge coating agent, and a scale disintegrant are disclosed in Japanese Patent Application No. 10-0848286 (July 18, 2008) As an active ingredient, has been introduced. However, the use of these scale inhibitors in sodium hypochlorite storage tanks is undesirable because it can be a source of additional environmental pollution as well as a high processing cost.

Registration No. 10-0816099 (Mar. 17, 2008) Registration No. 10-0848286 (Jul. 18, 2008)

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a method for producing a sodium hypochlorite, which is capable of inhibiting the scale from being deposited in the sodium hypochlorite storage tank, And to provide a descale apparatus configured to be effectively removed.

The apparatus for descaling a sodium hypochlorite storage tank according to the present invention comprises a cylindrical storage tank for storing sodium hypochlorite produced by electrolysis of seawater and a tank for transporting sodium hypochlorite to the side of the storage tank A discharge nozzle installed at one end of the injection tube and attached to an inner wall of the storage tank and a drain pipe installed at a bottom surface of the storage tank, And the fluid flowing into the storage tank is configured to rotate in one direction along the inner wall surface.

The apparatus for descaling a sodium hypochlorite storage tank according to the present invention is characterized in that during the operation of the electrolytic cell the sodium hypochlorite flowing into the storage tank is not stagnated in the storage tank and is moved along the inner wall surface of the storage tank by the spray nozzle It is possible to effectively suppress the scale from being deposited.

In addition, the apparatus for descaling a sodium hypochlorite storage tank according to the present invention effectively scales the scale attached to the inner wall surface of the storage tank by strongly spraying seawater on the inner wall surface of the storage tank through the injection nozzle while the electrolytic bath is not operated Can be removed.

1 is a photograph showing a state in which a scale is deposited on a side surface (A) and a bottom surface (B) inside a sodium hypochlorite storage tank,
2 is a configuration diagram of a descale apparatus according to the present invention;
3 is a plan view showing the arrangement structure of the injection nozzle 30 of FIG.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. However, even if the configuration is indispensable for carrying out the present invention, a detailed description of those which belong to the known technology or which can be easily carried out from the prior art will be omitted.

2, the apparatus for descaling a sodium hypochlorite storage tank according to the present invention includes a storage tank 10, an injection pipe 20, a spray nozzle 30, and a drain pipe 40, as shown in FIG.

First, the storage tank 10 has a cylindrical structure in which an electrolytic bath (not shown) separately provided separates and stores sodium hypochlorite produced by electrolyzing seawater.

And the injection pipe 20 serves to transfer the seawater or sodium hypochlorite to the side of the storage tank 10. [ Therefore, one end of the injection pipe 20 is connected to the side of the storage tank 10, and the other end is connected to the electrolytic bath or the sea water supply pipe for injecting the seawater into the electrolytic bath.

At this time, each connection pipe is provided with a control valve, so sodium hypochlorite is blocked when seawater is introduced, and seawater is blocked when sodium hypochlorite is introduced. A pressure pump 21 may be installed in the injection pipe 20 as needed.

The injection nozzle 30 is installed at the end of the injection pipe 20 and attached to the inner wall of the storage tank 10. Therefore, seawater or sodium hypochlorite flows into the storage tank 10 through the injection nozzle 30.

Finally, the drain pipe (40) is installed on the bottom surface of the storage tank (10) and is used to discharge seawater or sodium hypochlorite to the outside.

3, the jet port 31 of the jet nozzle 30 is disposed so as to face the inner wall of the storage tank 10, And is configured to rotate in one direction along the inner wall surface. At this time, it is preferable that the rear of the jet port 31 has an inclined structure so as not to be resisted against the flow of the fluid.

Therefore, when the electrolytic cell is operated, the sodium hypochlorite flowing into the storage tank 10 from the electrolytic bath is not stagnated in the storage tank 10, and the inner wall surface of the storage tank 10 is filled with the injection nozzle 30 Continue to follow.

As is well known, in the present invention, sodium hypochlorite is continuously rotated to inhibit the deposition of scale since the sodium hypochlorite stored in the storage tank 10 does not flow and stagnates mainly while the scale is being stagnated.

In addition, while the electrolytic bath is not operated, all the sodium hypochlorite is discharged through the drain pipe (40), and the inside is washed by introducing seawater into the storage tank (10). At this time, the scale attached to the inner wall surface is removed while the seawater is strongly injected toward the inner wall surface of the storage tank 10 through the injection nozzle 30. The separated scale fragments are discharged to the outside together with the seawater through the drain pipe (40).

Generally, the scale is mainly deposited on the inner wall of the lower half of the storage tank 10. Therefore, as shown in FIG. 2, the spray nozzles 30 are arranged in a two-layered structure in the lower half of the storage tank 10, and each of the spray nozzles 30 is preferably arranged four by four at intervals of 90 degrees as shown in FIG. Do. However, depending on the size of the storage tank 10, the injection nozzles 30 may be arranged in a three-layer structure with an upper portion and two or three portions at intervals of 180 degrees or 120 degrees for each layer.

The fluid ejected through the injection nozzle 30 is preferably sprayed at a velocity of 1.5 to 3 m / s. The velocity of the fluid is controlled by a pressurizing pump 21 installed in the injection tube 20. If the velocity of the fluid is less than 1.5 m / s, the scale removal effect is poor. Conversely, if the fluid velocity is more than 3 m / s, the load on the equipment operation is increased compared to the effect increase.

In addition, the bottom surface of the storage tank 10 preferably has a funnel structure having a downward inclination about the drainage pipe 40. The scale fragments separated and removed from the inner wall of the storage tank 10 by the bottom structure are discharged to the outside easily through the drain pipe 40 without being deposited on the bottom of the storage tank 10 again.

Meanwhile, a connection pipe 50 may be provided between the injection pipe 20 and the drain pipe 40. The connection pipe 50 is provided to bypass the inflow pipe 20 to prevent the inflow of the fluid into the storage tank 10 or to discharge the fluid discharged to the inflow pipe 40 to the storage tank 10 ). ≪ / RTI >

2, the control valve V may be installed in the injection pipe 20, the drain pipe 40, and the connection pipe 50, respectively, if necessary.

Although the preferred embodiments of the present invention have been described above, the scope of protection of the present invention is not limited by these embodiments. It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention. However, it will be understood that the present invention is not limited to the above-described embodiments, so long as no new and unexpected effects are exhibited by the present invention.

10; A storage tank 20; Injection tube
21; Pressure pump 30; Injection nozzle
31; An outlet 40; drainage tube
V; Control valve

Claims (5)

A cylindrical storage tank 10 for storing sodium hypochlorite produced by electrolysis of seawater, an injection pipe 20 for transferring seawater or sodium hypochlorite to the side of the storage tank 10, An injection nozzle 30 installed at one end of the pipe 20 and attached to the inner wall of the storage tank 10 and a drain pipe 40 installed at the bottom of the storage tank 10,
The jetting nozzle 30 is disposed such that the jetting port 31 faces the inner wall surface of the storage tank 10 so that the fluid flowing into the storage tank 10 flows along the inner wall surface of the storage tank 10 Wherein the tank is configured to rotate in one direction.
The method according to claim 1,
Wherein the storage tank (10) has a funnel structure with a bottom surface inclined downward about the drain pipe (40).
The method according to claim 1,
Wherein the spray nozzles (30) are arranged in a two-layer or three-layer structure in the lower half of the storage tank (10), and two to four spray nozzles (30) Removal device.
The method according to claim 1 or 3,
Wherein the spray nozzle (30) has an inclined structure such that the rear of the spray hole (31) is not resisted by the flow of the fluid.
The method according to claim 1 or 3,
Wherein the fluid ejected through the injection nozzle (30) has a velocity of 1.5 to 3 m / s.

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