KR101054711B1 - Brine supply device of electrolytic cell for manufacturing sodium hypochlorite - Google Patents

Abstract

The present invention relates to a brine supply apparatus for an electrolytic cell for preparing sodium hypochlorite, and more specifically, to dissolving salt to a saturated concentration using natural dissolution without any physical or mechanical operation, the saturated brine to the electrolytic cell (電解槽The present invention relates to a brine supply apparatus which dilutes to an optimal concentration capable of exerting the best reaction efficiency, and then continuously supplies the diluted brine to an electrolytic cell for preparing sodium hypochlorite without changing the concentration.

Sodium hypochlorite, brine, brine, concentration

Description

Apparatus for supplying brine into electrolyzer to produce Sodium Hypochlorite}

The present invention relates to a brine supply apparatus for an electrolytic cell for preparing sodium hypochlorite, and more specifically, to dissolving salt to a saturated concentration using natural dissolution without any physical or mechanical operation, the saturated brine to the electrolytic cell (電解槽The present invention relates to a brine supply apparatus which dilutes to an optimal concentration capable of exerting the best reaction efficiency, and then continuously supplies the diluted brine to an electrolytic cell for preparing sodium hypochlorite without changing the concentration.

Sodium Hypochlorite (NaOCl) is a colorless or pale greenish yellow liquid with strong disinfection effect and high safety. It is mainly used for disinfection, deodorization, bleaching, etc. It is widely used in various household goods such as tableware, wastewater and sewage treatment, cooling water disinfection of boilers and power plants, and paper processing.

This sodium hypochlorite is produced mainly by electrolysis of brine, that is, brine. In other words, when electrolyzing brine with a constant concentration, chlorine (Cl ₂ ) is generated at the anode, and sodium hydroxide (NaOH) and hydrogen (H ₂ ) gases are generated at the cathode, which is generated at the cathode. Sodium hydroxide (NaOH) and chlorine (Cl ₂ ) at the positive electrode react to produce sodium hypochlorite (NaOCl). Various devices have been developed industrially using this principle to produce sodium hypochlorite, such as domestic patent registration No. 706215 (registration date 2007.04.04.), 816199 (registration date 2008.03.17.) No. 904682 (20009.06.18.) And the like.

The electrolysis device, or electrolytic cell, which is conventionally used to produce sodium hypochlorite, is usually a non-diaphragm type device. In order to achieve optimum reaction efficiency, the electrolytic cell is maintained at a concentration of 2.6% to 3.0%. Brine should be supplied. If the concentration of the brine supplied to the electrolytic cell is not constant, the concentration and production of sodium hypochlorite produced therefrom will temporarily change, and particularly if the concentration of the brine drops sharply, the electrolytic cell will be damaged due to overheating. A problem arises.

Therefore, the domestic patent registration No. 706118 (registration date 2007.04.04.) Has introduced a water refilling device of the salt storage tank for sodium hypochlorite generator having the structure as shown in Figure 1 in order to supply the brine with a constant concentration in the electrolytic cell.

The water replenishment apparatus of the brine storage tank, the incoming water flowing through the flow meter (2) and the flow control valve (3) in the direct water pipe (1), and the brine flame introduced through the pump (6) in the brine storage tank (5) In the apparatus for producing sodium hypochlorite through electrolysis by receiving the dilute brine mixed in the supply pipe (4) from the electrolysis tank (7), the water pipe (1) on one side of the brine reservoir (5) It is characterized in that the unsaturated supplementary water storage tank (8) having a float valve (9) connected to the replenishment water can be automatically replenished with a constant water pressure in response to the saturated brine discharge of the brine reservoir (5). In FIG. 1, reference numeral 10 denotes a pump for inlet water supply, 71 denotes a dilute saline supply hole, and 76 denotes sodium hypochlorite discharge hole.

When the water replenishing device is used, the brine storage tank 5 and the upper open unsaturated supplementary water storage tank 8, which are always maintaining the saturated concentration, are connected by the communication pipe 81, so that the brine storage tank 5 is supplied. The flow rate and pressure of the replenishment water can be kept constant without change, and the replenishment water itself is naturally mixed with the saturated solution of the brine reservoir 5, so that a part of the brine is replenished in a diluted unsaturated state, thereby minimizing the concentration fluctuation of the saturated saline solution. You can do it.

However, the brine supply apparatus of FIG. 1 requires an excessively large facility space because another unsaturated supplemental water storage tank 8 is to be installed next to the brine storage tank 5, thus requiring not only facility cost but also management cost. There was a rising issue.

In addition, when the unsaturated supplemental water storage tank 8 and the brine storage tank 5 are composed of different spaces, and the electrolysis tank 7 is operated continuously for a long time, the concentration of the saturated solution loses homogeneity, and as a result, There exists a possibility that the reaction efficiency of the decomposition tank 7 may fall.

Therefore, a problem to be solved by the present invention is a salt water supply device for supplying a predetermined concentration of brine to an electrolytic cell producing sodium hypochlorite, the overall structure is simple and can be installed and operated in a small space In addition, by using a natural salt dissolution phenomenon to ensure the homogeneity of the saturation concentration to provide a salt water supply device that the electrolytic cell can exhibit the best reaction efficiency.

The present invention relates to a brine supply apparatus for continuously supplying a predetermined concentration of brine to an electrolytic cell producing sodium hypochlorite, wherein salt and water are stored together, and the amount of salt is always greater than the amount of water. A lot of salt storage tanks; A water level control tube communicating with the salt storage tank through a lower outlet thereof as a hollow body installed in the longitudinal direction inside the salt storage tank; A water supply pipe for supplying fresh water from the outside; A fresh water supply pipe branched from the water supply pipe to supply fresh water into the water level control pipe; A water level control valve installed at the fresh water supply pipe to maintain a constant water level inside the water level control pipe; A brine discharge pipe for discharging saturated brine from the bottom of the salt storage tank; A dilute brine supply pipe for mixing the fresh water supplied through the water supply pipe and the saturated brine supplied through the brine discharge pipe to supply the electrolyzer; .

The brine supply apparatus according to the present invention is a device for continuously supplying a predetermined concentration of brine to the electrolytic cell for producing sodium hypochlorite, dissolving the salt to a saturated concentration (26% ~ 30%) without any physical or mechanical manipulation, The mixture is mixed with fresh water and diluted to a concentration (2.6% to 3.0%) in which the electrolytic cell can exhibit the best reaction efficiency, and then the dilute saline is supplied to the electrolytic cell.

At this time, the brine supply apparatus according to the present invention does not use a separate mixer or a physical device to dissolve the salt to a saturated concentration, a concentration sensor for measuring the concentration of the brine, or an electric valve operating in accordance with the sensor, Since there is no need for a separate water storage tank, the overall structure is simple, so it can be installed and operated in a narrow space.

In addition, since the water level control pipe and the water level control valve keep the water level in the brine storage tank at all times, there is an effect that can continuously supply a constant concentration of dilute saline to the electrolytic cell.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. However, even if a component necessary for the present invention belongs to the conventional technology, the detailed description of the same configuration as the prior art will be omitted. In addition, even if it is the same structure as the structure already introduced by the prior patent document, this invention uses a new name and a reference number.

Salt water supply apparatus of the electrolytic cell for producing sodium hypochlorite according to the present invention, as shown in Figure 2, salt storage tank 10 and the water level control pipe 20, water supply pipe 30, fresh water supply pipe (30a), water level control valve (40) , Salt water discharge pipe (30b) and dilute salt water supply pipe (30c).

First, the salt storage tank 10 is stored with the salt (S) and water (W). However, since the amount of water (W) is stored relatively less than the amount of salt (S), the water (W) is always distributed between the salt (W) particles as shown in FIG. At this time, the amount of the salt (S) is preferably 1.5 to 3.0 times the amount of the water (W). Therefore, the water (W) stored in the salt storage tank 10 is always present in the brine state of the saturated concentration.

As shown in the solubility graph of FIG. 3, the salt exhibits almost constant solubility regardless of temperature change between 0 ° C. and 100 ° C. FIG. And, the saturation concentration of the salt dissolved in the aqueous solution in the natural state is 26% to 30%. Therefore, the salt water is stored in the salt storage tank 10 to maintain a saturated concentration of about 26% to 30%.

Next, the water level control pipe 20 is a hollow body installed in the longitudinal direction inside the salt storage tank 10, it is in communication with the salt storage tank 10 through the bottom outlet. It is preferable that the net body 21 is installed in the said lower exit. The net body 21 serves to prevent salt particles from penetrating into the water level control tube (20).

The water supply pipe 30 supplies fresh water from the outside, and a pump 31, a valve 33, and the like are provided. And, the fresh water supply pipe (30a) is branched from the water supply pipe 30 is extended to the lower portion of the water level control pipe 20 to supply fresh water into the water level control pipe (20). The fresh water supply pipe (30a) is provided with a water level control valve 40 for maintaining a constant level in the water level control pipe 20 in the middle portion of the water level control pipe (20).

According to one embodiment of the invention, the water level control valve 40 is a floating ball 41 floating on the water surface in the water level control pipe 20 and the operation bar 42 installed on the floating ball 41. And a valve 43 connected to the operation bar 42 to block or open the fresh water supply pipe 30a according to the height of the floating ball 41. Thus, when the water level inside the water level control pipe 20 is lower than a predetermined level, the valve 43 is opened to supply fresh water through the fresh water supply pipe 30a.

On the other hand, the salt storage tank 10 is provided with a salt water discharge pipe 30b for discharging saturated brine to connect to the water supply pipe 30, the pump 34 is installed in the salt water discharge pipe (30b). have. At the inlet of the brine discharge pipe (30b) is preferably provided with a network 35 to restrict the entrance of salt particles.

The saturated brine supplied through the brine discharge pipe (30b) is again mixed with fresh water supplied through the water supply pipe (30) to form a dilute brine, the dilute brine to the electrolytic cell 50 through the dilute brine supply pipe (30c) Supplied. The dilution saline pipe 30c is provided with a flow meter 33. The water supply pipe 30, the fresh water supply pipe 30a, the salt water discharge pipe 30b, and the dilute salt water supply pipe 30c are connected to each other as a whole.

In the present invention, the concentration of the diluted brine can be freely adjusted by controlling the ratio of the fresh water supplied through the water supply pipe 30 and the saturated brine supplied through the brine discharge pipe 30b, but the fresh water and the saturated brine 10 It is preferable to comprise so that it may be mixed in ratio of 1 :. In this way, the concentration of the dilute saline supplied through the dilute saline supply pipe 30c is maintained at 2.6 ~ 3.0%.

For reference, the electrolytic cell 50 shows the optimum reaction efficiency when the concentration of dilute saline is 2.6 ~ 3.0%. In addition, the temperature of the dilute brine supplied to the electrolytic cell 50 is preferably maintained at 15 ℃ ~ 20 ℃. Under these conditions, good sodium hypochlorite is produced in high yield.

In the salt water supply apparatus according to the present invention, the water level inside the water level control pipe 20 is always kept the same as the water level in the salt water storage tank 10, that is, the water level distributed in the salt (S) particles. And, the water level control valve 40 keeps the water level inside the water level control pipe 20 at all times constant. As such, the water level control pipe 20 and the water level control valve 40 maintain the water level in the brine storage tank 10 constantly, that is, the amount of water (W) is less than the amount of salt (S). The brine stored in the brine storage tank 10 will always maintain a constant saturation concentration.

1 is a block diagram of a conventional salt water supply device,

2 is a block diagram of a salt water supply apparatus according to the present invention,

3 is a graph showing the change in solubility according to the temperature difference.

<Description of Symbols for Main Parts of Drawings>

10; Salt storage tank 20; Water level control pipe

21,35; Mesh 30; feed pipe

30a; Fresh water supply pipe 30b; Brine drain pipe

30c; Diluted brine supply pipe 31,34; Pump

32,43; Valve 33; Flow meter

40; Water level control valve 41; Floating Ball

42; Working bar 50; Electrolyzer

S; Salt W; water

Claims (4)

In the brine supply device for continuously supplying a constant concentration of brine to the electrolytic cell for producing sodium hypochlorite, Salt and water are stored together, the salt storage tank 10 and the amount of salt is always stored more than the amount of water; A water level control pipe (20) communicating with the salt storage tank (10) through a lower outlet thereof as a hollow body installed in the longitudinal direction inside the salt storage tank (10); A water supply pipe 30 for supplying fresh water from the outside; A fresh water supply pipe 30a branched from the water supply pipe 30 to supply fresh water into the water level control pipe 20; A water level control valve (40) installed at the fresh water supply pipe (30a) to maintain a constant level in the water level control pipe (20); A brine discharge pipe (30b) for discharging saturated brine from the bottom of the salt storage tank (10); A dilute brine supply pipe (30c) for mixing fresh water supplied through the water supply pipe (30) and saturated brine supplied through the brine discharge pipe (30b) to supply the electrolyzer; Salt water supply, characterized in that consisting of. The salt water supply apparatus according to claim 1, wherein a net body (21, 35) is provided at the lower end of the water level control pipe (20) and the inlet of the salt water discharge pipe (30b) to restrict the entrance of salt particles, respectively. According to claim 1 or 2, The water level control valve 40 is connected to the floating ball 41, the operation bar 42 installed on the floating ball 41, and the operation bar 42, Salt water supply device characterized in that consisting of a valve 43 for blocking or opening the fresh water supply pipe (30a) according to the height of the floating ball (41). The salt water supply apparatus according to claim 1 or 2, wherein the fresh water supplied through the water supply pipe (30) and the saturated brine supplied through the brine discharge pipe (30b) are mixed at a ratio of 10: 1.

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