KR200309654Y1 - A sea water desalting device - Google Patents

Abstract

The present invention is a simple configuration that electrolyzes seawater to generate oxygen and hydrogen gas to obtain fresh water (H2O) and at the same time to obtain sodium hydroxide (NaOH) as a by-product residue. It is related to a seawater desalination system that is not necessary and which reduces operating and maintenance costs.

The present invention is a device for desalination of seawater using electrolysis,

A gas generating electrolyzer having an anode and a cathode for electrolyzing seawater to generate oxygen (O 2) and hydrogen (H 2) gases; A water generation tank for collecting oxygen (O2) and hydrogen (2H2) gas generated in the electrolytic cell and combining the water (H2O) under a predetermined pressure: collecting the gas generated in the gas generating electrolytic cell and introducing the gas into the water generating tank It characterized in that it comprises an intake duct for making, wherein the water generating tank is provided with a plurality of alternating diaphragm one end is attached to the water generating tank at predetermined intervals in order to promote the combination of oxygen (O2) and hydrogen (H2) gas Zigzag passage is formed, the upper portion is provided with a discharge opening that is automatically opened and closed by a separate control unit according to the internal pressure, the lower portion is characterized in that the discharge port of the generated water (fresh water) is provided.

Description

Sea water desalination unit {A SEA WATER DESALTING DEVICE}

The present invention relates to a seawater desalination apparatus, in particular using electrolysis

Generates oxygen (O2) and hydrogen (H2) gases, captures generator oxygen and hydrogen to obtain fresh water (H2O), and at the same time obtains sodium hydroxide (NaOH) as a residue without generating residual concentrate It relates to a seawater desalination system that does not require extra energy and can significantly reduce operating and management costs.

Recently, as a countermeasure against the depletion of water resources, techniques for desalination of seawater have been proposed and used.

In general, the seawater desalination technology has been proposed a heating method and an electrolysis method, but the heating method has been adopted in recent years due to an uneconomical problem that requires a lot of energy and time required for heating.

The conventional technique using the electrolysis is an electrodialysis method using an ion exchange membrane, which is provided with an anion exchange membrane and a cation exchange membrane at intervals, and supplies fresh water to the anion exchange membrane and the cation exchange membrane while supplying seawater by a forced pumping force of the pump to supply fresh water. To let it out.

In other words, if an anion is passed through the anion exchange membrane, the anion decomposes chlorine (Cl), lactate (S), bicarbonate (HCl3), and acetate (NO3) contained in the seawater. Sodium (Na), potassium (k), calcium (Ca), magnesium (Mg), iron (Fe) is decomposed to obtain fresh water.

However, such a prior art has a problem that must be treated separately by generating a residual concentrate.

Since the residual concentrate may contain heavy metals, when dumped as it is, there is a serious problem that the sea or the earth is contaminated to destroy nature, so a dual treatment facility is required to reprocess it.

In addition, due to the scale attached to the ion exchange membrane, the expensive ion exchange membrane needs to be replaced regularly, so the operation and maintenance costs are enormous, and a separate power is required to drive the high pressure pump. There was a difficult problem to manage.

The present invention has been devised to solve the above problems,

The object of the present invention is to electrolyze seawater to generate oxygen (O2) and hydrogen (H2) gases, to capture the generator oxygen and hydrogen, and to obtain fresh water (H2O) by combining them, and at the same time, as a by-product residue. As a simple configuration to get sodium (NaOH),

The low cost of the equipment, no residual concentrate is generated, so the secondary treatment is unnecessary, so it is eco-friendly, and it provides an extremely economical seawater desalination device that does not require a separate driving energy and significantly reduces the operation and management costs.

1 is a schematic configuration diagram of an embodiment according to the present invention

* Explanation of symbols for main parts of the drawings

1: seawater desalination device of the present invention

10: gas generation electrolyzer 11: cathode

13: anode 15: seawater inlet

17: outlet 19: rectifier

20: water generating tank 21: diaphragm

23: zigzag passage 25: outlet

27: outlet 30: intake duct

Seawater desalination apparatus according to the present invention to achieve the above object,

In the device for desalination of seawater using electrolysis,

A gas generating electrolyzer provided with a cathode and an anode for electrolyzing seawater to generate oxygen and hydrogen gas;

A water generating tank for capturing oxygen and hydrogen gas generated in the electrolytic cell and combining the same with water under a predetermined pressure;

Characterized in that it comprises an intake duct for trapping the gas generated in the gas-generating electrolytic tank and introduced into the water generating tank.

As an embodiment of the present invention,

The water generating tank forms a zigzag passage in which a plurality of diaphragms, one end of which is mounted in the water generating tank, is alternately provided at predetermined intervals in order to promote the combination of oxygen and hydrogen gas. The outlet opening and closing is provided, characterized in that the discharge port of the generated water (fresh water) is provided below.

As an embodiment of the present invention,

The gas-generating electrolyzer is characterized in that the sea water inlet is provided in the upper portion and the outlet for discharging sodium hydroxide which is a residue of sea water in the lower portion.

Hereinafter, an embodiment of the seawater desalination apparatus of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a schematic diagram of an embodiment according to the present invention.

Seawater desalination device 1 of an embodiment according to the present invention is shown in Figure 1,

A gas generating electrolyzer 10 equipped with a cathode 11 and an anode 13 to generate oxygen (O 2) and hydrogen (H 2) gases by electrolyzing seawater, and oxygen (O 2) generated from the electrolytic cell 10. ) And a water generating tank 20 for capturing hydrogen (H 2) gas and combining the water (H 2 O) under a predetermined pressure, and the gas generated in the gas generating electrolytic cell 10 to collect the water generating tank 20. It was configured to include an intake duct 30 for introducing into.

The water generating tank 20 maintains a predetermined pressure and selects a diaphragm 21 having one end mounted on an inner wall of the water generating tank 20 in order to promote the combination of oxygen (O 2) and hydrogen (H 2) gases. A plurality of zigzag passages 23 are formed alternately at intervals, the upper portion is provided with an outlet 25 which is automatically opened and closed by a separate control unit according to the internal pressure, and the discharge port 27 of fresh water formed below is provided. It became.

The gas generating electrolyzer 10 is provided with a seawater inlet 15 at an upper portion thereof and an outlet 17 for discharging sodium hydroxide (NaOH), which is a residue of seawater, at a lower portion thereof.

The electrodes 11 and 13 provided in the electrolytic cell were composed of insoluble electrodes, and a DC rectifier 19 was provided.

Looking at the operation state of an embodiment according to the present invention,

For example, the gas-generating electrolytic cell 10 is formed into 500 l, and two electrodes 11 and 13 of the negative electrode (+) and the positive electrode (+) are assembled in a symmetrical form, and then seawater is introduced therefrom. When a DC power supply of about 28V is supplied to the circuit and a current of about 20A is conducted for about 1 hour, oxygen (O) gas is generated at the positive electrode (+) 13 of the electrolytic cell 10 and hydrogen at the negative electrode (-) (11). (H) The gas is generated in a bubble state, and the generated gas is collected by the intake duct 30 and introduced into the water generating tank 20 to which a predetermined pressure is applied, where oxygen (H2) and Hydrogen (O2) is combined to produce water (fresh water).

At this time, the amount of water generated by the reaction of the two gases is about 0.3 m 3, which is discharged through the outlet port 27 below.

The zigzag passage 23 formed of the diaphragm 21 alternately provided with the water generating tank 20 increases the residence time of the water generating tank 20 to promote the bond between oxygen and hydrogen, and the water generating tank ( When the pressure of 20) exceeds the predetermined pressure, the outlet 27 is opened by a separate control unit so that chlorine (Cl 2) introduced from the gas generating electrolytic cell 10, hydrogen and oxygen in the gaseous state which are not yet combined Discharged.

Sodium hydroxide (NaOH), which is used as an industrial material, remains in the gas generating electrolyzer 10 in which the generated gas is vaporized, and is discharged through the outlet 17.

The present invention is preferably controlled automatically by a separate control device.

As described above, the seawater desalination apparatus 1 according to the present invention is a simple configuration for generating oxygen (O2) and hydrogen (H2) gas by electrolyzing seawater and collecting the oxygen and hydrogen of the generator so that the coupling is made. And sodium hydroxide (NaOH) as a by-product residue.

In addition, the present invention is a nature-friendly, it does not generate the residual concentrate that was a problem of the prior art, the structure is simple, does not require a separate energy and the operation and management costs are significantly reduced.

The present invention is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those of ordinary skill in the art to which the present invention pertains, and thus is limited to the above-described embodiments and drawings. It is not.

As described in detail above, the seawater desalination apparatus according to the present invention,

Generator oxygen (O2) and hydrogen (H2) generated by electrolysis of seawater are collected and combined under a predetermined pressure to obtain fresh water (H2O) and sodium hydroxide (NaOH) as a by-product residue. As a configuration,

Simple configuration, low equipment cost, no residual concentrate, which was a problem of the prior art, is a nature-friendly technology that does not require secondary treatment, and it does not require extra energy and significantly reduces operating and management costs. It is an extremely economical technology that benefits from cotton.

Claims (3)

In the device for desalination of seawater using electrolysis, A gas generating electrolyzer having an anode and a cathode for electrolyzing seawater to generate oxygen (O 2) and hydrogen (2H 2) gases; A water generating tank for collecting oxygen (O 2) and hydrogen (2H 2) gas generated in the electrolytic cell and combining the oxygen (O 2) gas with water (H 2 O) under a predetermined pressure; Seawater desalination device characterized in that it comprises an intake duct for trapping the gas generated in the gas-generating electrolytic tank and introduced into the water generation tank. The method of claim 1, The water generating tank forms a zig-zag passage in which a plurality of diaphragms having one end mounted in the water generating tank are alternately provided at predetermined intervals in order to promote the coupling of oxygen (O 2) and hydrogen (H 2) gas, and at the upper part according to the internal pressure Discharge port that is automatically opened and closed by a separate control unit, the seawater desalination device characterized in that the discharge port of the generated water (fresh water) is provided below. The method of claim 1, The gas generating electrolyzer has a seawater inlet at the top and a seawater desalination device having a discharge port for discharging sodium hydroxide (NaOH) which is a residue of seawater at the bottom.