KR20170118357A - Method And Apparatus For Producing Salt Using Desalination Facility - Google Patents

Abstract

The present invention relates to a method for producing salt using a desalination plant used in a desalination business and an apparatus therefor. The method comprises; Supplying seawater and removing salinity therefrom to produce fresh water and by-products; Purifying the by-product to remove impurities; A component adjusting step of replenishing minerals to the raw brine from which the impurities have been removed; Heating and evaporating the raw brine supplemented with components; And collecting the salt.

Description

TECHNICAL FIELD [0001] The present invention relates to a method and apparatus for producing salt using a desalination facility,

The present invention relates to a method and apparatus for producing salt, and more particularly, to a method and apparatus for producing salt using a desalination plant used in a desalination project.

In order to produce a salt called sun salt, it usually requires a large area of salt, which can not increase the salt production indefinitely because it occupies a large area of land and can only be affected by the climate. Therefore, the price of sun salt will be expensive. It is becoming more and more difficult to produce sun-dried salt in a reality where it becomes increasingly difficult to see clear days.

Conventionally, there has been proposed a method of manufacturing a salt using a fresh water production facility. However, this method is not preferred due to the complicated structure of the apparatus and effective ingredients such as minerals in the obtained salt.

Korean Patent Application No. 10-2013-0051621 Korean Patent Application No. 10-2012-0058182

It is an object of the present invention to solve the above problems and to provide a method for producing salt using a fresh water production facility. More specifically, it is an object of the present invention to provide a method and apparatus for producing healthy salt containing minerals by using a desalination system as in the case of sun-dried salt.

The above object is achieved by a method for producing a seawater desalination plant, comprising: supplying seawater and removing salinity from the seawater to produce fresh water and by-products; Purifying the by-product to remove impurities; A component adjusting step of replenishing minerals to the raw brine from which the impurities have been removed; Heating and evaporating the raw brine supplemented with components; And a step of collecting the salt, and a step of collecting the salt.

According to an aspect of the present invention, the raw brine may be heated at a temperature of 70 to 90 ° C under atmospheric pressure.

According to an aspect of the present invention, the salted brine can have a salinity of 80 to 90%.

According to another aspect of the present invention,

Introducing the loess into a storage tank in which the loess is stored; Extracting the trapped water that is in the upper part of the purified water after 1 to 2 hours; And supplying the retained water to the raw brine.

It is another object of the present invention to provide a desalination unit which receives fresh seawater and removes salt therefrom to produce fresh water and by-products; A refining unit which receives by-products from the desalination facility and purifies the by-products to remove impurities; A component adjuster for additionally supplying an effective ingredient to the salt brine having a salt content of 70 to 90% purified by the refiner; An evaporation tank which completes the crystallized salt by evaporating the raw brine; And a heating unit for heating the evaporation tank.

According to an aspect of the present invention,

A flat bottom plate and a bowl shaped top opening by including an upright sidewall along the bottom plate edge; The heating unit may heat the bottom plate of the evaporation tank to a temperature of 70 to 90 ° C.

According to the present invention, there is provided a method and an apparatus for producing a salt beneficial to the human body having a component similar to that of a salt with a simple constitution. According to the present invention, a salt and a salt can be continuously produced regardless of the climate, and thus a method and an apparatus for obtaining a large amount of salt without occupying a large area are provided. In addition, it is possible to provide the salt which is beneficial to the human body by supplementing and supplementing necessary ingredients to meet the local characteristics.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing steps of a method for producing salt according to an embodiment of the present invention; FIG.
2 is a configuration diagram of a salt production apparatus according to an embodiment of the present invention.
3 is a schematic perspective view of an evaporation tank of a salt production apparatus according to another embodiment of the present invention.
4 is a schematic vertical sectional view of an evaporation tank of a salt production apparatus according to another embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The present invention is based on the production of salt using a well-known desalination equipment (RO SYSTEM, a facility for removing organic and inorganic substances in seawater by applying pressure to a reverse osmosis membrane (Membrane)) for desalinating seawater. There are various types of desalination methods and apparatuses, but the present invention does not depend on whether the desalination method or apparatus is specifically. The desalination plant basically supplies seawater to treat it, and then discharges fresh water and by-products. The present invention is based on the use of by-products discharged from a desalination plant.

The by-products discharged in the desalination process (S10) include various foreign substances or impurities along with salinity. The present invention includes a purification step (S20) for removing the impurities and the like. The impurities may include sludge and the like, and various filter devices supplied in the market may be used for purification. Normally, a desert filter used in a water purification plant would be available. The byproducts discharged in the desalination process (S10) have a salinity of 70 to 90%. The by-product after the purification step (S20) becomes the raw material of salt and becomes the raw brine (L).

Unlike the salt of salt, salt (L) of high salt content is most often not contained effective ingredients such as minerals, potassium, and magnesium. The specific ingredients may vary depending on whether the seawater is collected in a certain area in Korea. Therefore, in order to provide a beneficial salt to the human body, a predetermined ingredient adjustment step (S30) is required. In the component adjusting step (S40), an operation for replenishing an effective component such as minerals is performed on the raw brine from which the impurities have been removed.

Thereafter, a heating / evaporating step (S40) is performed in which the raw brine supplemented with components is heated and evaporated. This step (S40) is a step of finalizing the salt in a manner similar to that of the sun salt as a core process of the present invention. According to the embodiment of the present invention, in this heating / evaporating step (S40), the raw brine is heated to a temperature of 70 to 90 DEG C under atmospheric pressure. Depending on the salinity of the raw brine (L) or the surrounding environment, if the salt is heated for 1 to 4 hours, the salt precipitates out into the crystal. Then, the manager can collect the precipitated salt (S50).

According to an embodiment of the present invention, the component adjustment step (S30) is characterized by using yellow clay failure. More specifically, the component adjustment step (S30) comprises the steps of injecting loess into a storage tank in which the loess is stored; Extracting the trapped water that is in the upper part of the purified water after 1 to 2 hours have elapsed; And supplying the retained water to the raw brine. In other words, the component adjustment step (S30) is based on adding components contained in the yellow loess around minerals.

Hereinafter, an apparatus for producing salt according to the present invention will be described with reference to Fig.

The salt production apparatus comprises a desalination section (1) for receiving seawater and removing salinity from the seawater to produce fresh water and by-products; A refining unit 2 for receiving by-products from the desalination unit 1 and purifying the byproducts to remove impurities; An evaporation tank 3 for heating and evaporating the raw brine to complete the crystallized salt; A component adjusting unit 5 for additionally supplying an effective ingredient to the evaporation tank 3 to a salt brine L having a salt content of 70 to 90% purified by the refining unit 2; And a heating unit 7 for heating the evaporation tank 3. This apparatus has a configuration for performing the above-described method.

The desalination part 1 is a known device. The purification section 2 is a filter device generally used in a water purification facility. According to the embodiment of the present invention, the ingredient adjusting unit 5 supplies necessary ingredients to the raw brine through the yellow clay.

 The component adjusting unit 5 has a configuration in which yellow soil is put into water and settled, and water floating in the upper part of the water is supplied to the raw brine. The component adjusting unit 5 may supply the yellow soil retaining water directly to the evaporation tank 3 but may be supplied to the evaporation tank through a pipe at the rear end of the purification unit 2. [

The evaporation tank 3 has a flat bottom plate 9 and a wide bowl shape with an open top by including side walls 11 erected along the edges of the bottom plate 9. The heating unit 7 is a means for heating the bottom plate 9 of the evaporation tank 3 to a temperature of 70 to 90 캜. The heating unit 7 may use an electrothermal heater 7 'as shown in FIG. 4 or a burner using fossil fuel.

The evaporation tank 3 may have a tetragonal shape with a width W of 3 to 5 m and a height H of the side wall 11 may be 15 to 25 cm. The evaporation tank (3) can be made of various materials such as cement, synthetic resin, folff, and metal, and the inner wall surface can be coated with a ceramics-based paint.

On the other hand, the evaporation tank 3 may be laminated to form a plurality of layers by a frame as shown in Fig. This is to maximize space efficiency and productivity. As shown in the figure, three evaporation vessels 3 are vertically stacked.

And, as shown in FIG. 4, the evaporation tank 3 can have evaporation promoting means 15 for enhancing the rate of evaporation. Various evaporation promoting means can be used in combination.

First, a vibrator 13 may be installed on the side of the evaporation tank 3. The vibration generating unit 13 accelerates evaporation by applying vibration to the evaporation tank 3 to increase the molecular kinetic energy. The vibration generating unit 13 may be provided at various places along the side wall of the evaporation tank 3.

The ventilation cover 17 is provided in the form of a hopper right above the evaporation tank 3 and the evaporation accelerating means 15 provided at the center of the ventilation cover 17 with the exhaust pipe 19 and the ventilation fan 21 May be provided. The ventilation fan 21 sucks the air just above the evaporation tank 3 and discharges it to the outside to increase the evaporation speed. Furthermore, an illuminating device 23 may be fixed between the evaporation tank 3 and the ventilation cover 17 to increase the efficiency of evaporation and to impart natural light effects such as sunlight. The lighting device 23 may be an LED bulb.

With the above construction, as time passes, the raw brine (L) charged into the evaporation tank (3) starts to be precipitated into the salt by evaporation of water, and the manager scrapes the precipitated salt to one side and collects it You can wrap it. A collection device for mechanically performing such a work may be separately provided.

The configuration shown and described above is merely a preferred embodiment based on the technical idea of the present invention. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention. The above-mentioned embodiments may be implemented in random combination, and any combination thereof is within the scope of the present invention.

1: desalting part 2: refining part
3: Evaporation tank 5:
7: heating section 9: bottom plate
11: side plate 13: vibration generating unit
15: evaporation promoting means 17: ventilation cover
21: Ventilation fan 23: Lighting device
L: raw brine

Claims (5)

Supplying seawater and removing salinity therefrom to produce fresh water and by-products; Purifying the by-product to remove impurities; A component adjusting step of replenishing minerals to the raw brine from which the impurities have been removed; Heating and evaporating the raw brine supplemented with components; And a step of collecting the salt. The method according to claim 1,
Wherein the raw brine is heated at a temperature of 70 to 90 캜 under atmospheric pressure.
The method according to claim 1,
Introducing the loess into a storage tank in which the loess is stored; Extracting the trapped water that is in the upper part of the purified water after 1 to 2 hours; And supplying the saltwater to the salt brine.

A desalination unit for supplying freshwater and by-products by removing seawater from the seawater;
A refining unit which receives by-products from the desalination facility and purifies the by-products to remove impurities;
A component adjuster for additionally supplying an effective ingredient to the salt brine having a salt content of 70 to 90% purified by the refiner;
An evaporation tank which completes the crystallized salt by evaporating the raw brine; And
A heating unit for heating the evaporation tank;
Wherein the salt is added to the salt.
5. The method of claim 4,
Wherein the evaporator is in the form of an open top with a flat bottom plate and an upright sidewall along the bottom plate edge;
Wherein the heating unit heats the bottom plate of the evaporation tank to a temperature of 70 to 90 캜.

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