KR101401536B1 - Adsorbent slurry manufacturing method for removal of sulfur compounds in wastewater - Google Patents

Abstract

The method for producing a sulfuric acid wastewater and a sulfur oxide adsorbent slurry using low-grade MgO according to the present invention is characterized in that in producing an adsorbent slurry for adsorbing sulfur-containing wastewater and sulfur oxide using magnesium oxide having a purity of 70% or less, By weight of a mixture of 30 to 70% by weight of a raw material having a magnesium oxide content of 30 to 70% by weight and water is charged and pulverized in a wet pulverizer; A step of hydrating the wet milled mixture in the first milling step into a hydration tank to hydrate magnesium oxide (MgO) with magnesium hydroxide (Mg (OH) ₂ ); And a second crushing step of crushing the hydrated mixture in the hydration step at least once in a wet mill. In the hydration step, the hydration tank is provided with a stirrer to agitate the mixture, For 1 to 24 hours and feeding 5 to 1,500 PPM of a dispersant to the mixture in the hydration tank and in the second milling step 10 to 20% of water is added, based on the weight of the mixture to be milled with the wet mill, And 5 to 1,500 PPM of a dispersing agent is added to the mixture of the first pulverization step, the hydration step and the second pulverization step, and the foreign matter in the pulverized mixture is removed in the second pulverization step Removing the foreign matter in the foreign matter removing step, putting the mixture in which the foreign matter has been removed into a storage tank, storing the same in the storage tank for 1 to 48 hours, It comprises the step of aging storage.
Therefore, in the present invention, since the adsorbent slurry is prepared by using magnesium oxide (MgO) having a purity of 70% or less instead of magnesium oxide (MgO) having a purity of 90% or more as a raw material of magnesium hydroxide, , It is advantageous to increase the effective utilization value of magnesite, which is a natural resource which is in a trend of depletion around the world, and to reduce the firing cost used for producing magnesium oxide having a high quality of 90% or more of MgO having a purity of 90% or more.

Description

Technical Field [0001] The present invention relates to a method for producing sulfuric acid wastewater and sulfur oxide adsorbent slurry using low-grade MgO,

The present invention relates to a method for producing an adsorbent slurry for removing sulfuric acid-containing wastewater and sulfur oxide gas using low-grade MgO having a purity of 70% or less, and more particularly, to a method for producing an adsorbent slurry containing magnesium oxide having a purity of 90% (MgO) having a purity of 70% or less is used to manufacture an adsorbent slurry, thereby reducing the cost of raw material purchase and increasing the effective utilization value of magnesite, a natural resource that is becoming depleted in the world. The present invention relates to a method for producing a sulfuric acid wastewater and a sulfur oxide adsorbent slurry using low-grade MgO that can reduce firing costs used for producing high-quality magnesium oxide of 90% or more of MgO.

Currently, Korea imports tens of thousands of tons of magnesium oxide (MgO) per year. However, in China, which is the largest producer of magnesium oxide, magnesium oxide which is gradually depleted is charged with a huge export tax. Techniques for adsorbing sulfuric acid wastewater and sulfur oxides with magnesium oxide should be developed.

The high-grade magnesium oxide refers to magnesium oxide having a purity of 90% or more, and the low-grade magnesium oxide refers to magnesium oxide having a purity of 70% or less.

Anyway, in the present industrial field, anthracite coal is injected at the stage of calcining at 900 ° C. in order to make magnesite into magnesium oxide. In order to burn and produce high-grade magnesium oxide, magnesite of 15 mm or less is abandoned.

Therefore, it is disadvantageous that a large amount of fuel is charged to burn the magnesite.

That is, in the prior art, there is no technique for producing an adsorbent slurry that adsorbs sulfuric acid wastewater and sulfur oxides by using low-grade magnesium oxide, so that resources can not be efficiently used.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems of the prior art, and an object of the present invention is to provide a magnesium oxide ), It is possible to reduce the cost of raw material purchase and increase the value of the efficient utilization of magnesium, a natural resource that is becoming depleted in the world. And a method for producing sulfuric acid wastewater and sulfur oxide adsorbent slurry using low-grade MgO that can reduce the firing cost used for producing magnesium oxide.

In order to achieve the above object, the present invention provides a method for producing an adsorbent slurry for adsorbing sulfur-containing wastewater and sulfur oxide using magnesium oxide having a purity of 70% or less, A first pulverizing step of putting a mixture obtained by mixing 30 to 70% by weight of water and 30 to 70% by weight of water into a wet pulverizer; A step of hydrating the wet milled mixture in the first milling step into a hydration tank to hydrate magnesium oxide (MgO) with magnesium hydroxide (Mg (OH) ₂ ); And a second pulverizing step of pulverizing the mixture hydrated in the hydration step at least once into a wet mill. The present invention also provides a method for producing a sulfuric acid wastewater and sulfur oxide adsorbent slurry using low-grade MgO.

In the hydration step, the hydration tank is provided with a stirrer, the mixture is stirred, and the mixture is hydrated at a temperature of 30 ° C or higher for 1 to 24 hours, and 5 to 1,500 PPM of dispersant is added to the mixture in the hydration tank. In the pulverizing step, 10 to 20% of water is added based on the weight of the mixture according to the viscosity of the mixture to be pulverized by the wet mill. In addition, 5 to 1,500 PPM of the dispersing agent is added to the pulverized product in the first pulverization step, Is added to the mixture.

A step of removing foreign substances in the mixture which has been pulverized in the second pulverization step, a step of putting the mixture in which the foreign substances have been removed in the foreign substance removing step into a storage tank and storing and aging the mixture for 1 to 48 hours .

The method for producing a sulfuric acid wastewater and a sulfur oxide adsorbent slurry using the low-grade MgO according to the present invention is characterized in that magnesium oxide (MgO) having a purity of 70% or less is substituted for magnesium oxide (MgO) having a purity of 90% To reduce the cost of raw material purchase, to increase the effective utilization value of magnesite, a natural resource that is depleting globally, and to produce magnesium oxide of high quality of 90% or more of MgO There is an advantage that the firing cost to be used can be reduced.

In other words, it is possible to recycle the magnesite having a particle size of 15 mm or less, which is discarded in the process of producing the high-grade magnesium oxide, so that the fuel cost to be burned for burning the magnesite is reduced and the waste water neutralizing agent and the sulfur oxides It is possible to sufficiently develop an adsorbent slurry of a quality that can be removed and to utilize resources efficiently.

Hereinafter, preferred embodiments of the method for producing sulfuric acid wastewater and sulfur oxide adsorbent slurry using the lower MgO according to the present invention will be described in more detail.

The production method of the present invention is characterized in that an adsorbent slurry for adsorbing sulfur-containing wastewater and sulfur oxide is produced by using magnesium oxide having a purity of 70% or less and produced in magnesite having a fineness of 15 mm or less to be discarded in the process of producing advanced magnesium oxide .

That is, a mixture of 30 to 70% by weight of a raw material having a magnesium oxide content of 70% or less and 30 to 70% by weight of water is charged and pulverized in a wet pulverizer, and a first pulverization step (Mg (OH) ₂ ) by putting magnesium oxide (MgO) into the hydration tank, and a second pulverization step of pulverizing the mixture hydrated in the hydration step one or more times into the wet mill .

In the present invention, it is preferable that the step of removing foreign substances in the mixture pulverized in the second pulverization step comprises: a step of putting the mixture in which the foreign substances have been removed in the foreign matter removal step into a storage tank and storing and aging the mixture for 1 to 48 hours; And an aging step.

In the first milling step, 30 to 70% by weight of the raw material having a magnesium oxide content of 70% or less and 30 to 70% by weight of water are mixed, which is an optimum ratio considering the viscosity when the magnesium oxide is pulverized to be.

In the hydration step, a hydration tank is provided with a stirrer, and the mixture is stirred and hydrated for 1 to 24 hours at a temperature of 30 DEG C or higher. This is because if the temperature of the mixture is maintained at 30 DEG C or higher in the hydration tank, (MgO) to be hydrated with magnesium hydroxide (Mg (OH) ₂ ) can be accelerated. The higher the temperature of the mixture in the hydration tank, the shorter the hydration time.

Further, in the hydration step, 5 to 1,500 ppm of a dispersant is added to the mixture in the hydration tank, which not only precipitates the starting material of the mixture during the hydration of the low-grade magnesium oxide with magnesium hydroxide (Mg (OH) ₂ ) So that a large amount of scale can be generated on the wall surface of the hydration tank of the hydration tank, so that the dispersant is injected into the mixture in the hydration tank. The injection amount of the dispersant of 5 to 1,500 PPM is effective for suppressing generation of precipitates and generation of wall scale It is the optimal content.

In the second milling step, 10 to 20% of water is added based on the weight of the mixture according to the viscosity of the mixture to be pulverized by the wet mill.

On the other hand, the dispersant of 5 to 1,500 PPM can inhibit generation of precipitates and generation of wall scale in the whole process even if it is put into a mixture of one of the first pulverization step, the hydration step and the second pulverization step.

For example, in the first pulverization step, when 30 to 70% by weight of the raw material and 30 to 70% by weight of water at 30 ° C or more are mixed with the raw material and then pulverized, the magnesium oxide may be hydrated in the course of pulverization, It can be shortened.

Therefore, the manufacturing method of the sulfuric acid wastewater and the sulfur oxide adsorbent slurry using the low-grade MgO according to the present invention can reduce the magnesium carbonate firing cost by using the magnesium hydroxide raw material used as the sulfuric acid wastewater treatment and the sulfur oxides removal agent by using the low-grade magnesium oxide, It is possible to use not only the amount of generated CO ₂ generated during the burning of magnesite but also the small particles of 15 mm or less generated to produce MgO having a standard of 90% or more.

In other words, in the first pulverization step, the powder or particles of the lower magnesium oxide (MgO content: 70% or less) are pulverized into the wet pulverizer simultaneously with water, and the amount of the mixture to be supplied to the wet pulverizer Do.

The wet-milling reason for this lower magnesium oxide (MgO) of magnesium hydroxide (Mg (OH) ₂₎ and magnesium carbonate (MgCO ₃₎ as is done to solve the problem of agglomeration and hydration, at this time, as well as wet-grinding heat of hydration generated It is effective to accelerate hydration.

Of course, if you use hot water, you can maximize hydration speed.

In the hydration step, the hydration temperature needs to be maximized since the rate of hydration of the mixture in the first milling step is lower than that of magnesium oxide (content of 90% or more).

Therefore, it is necessary to keep the ratio of feedstock as high as possible. Therefore, if the feed rate of the raw material is kept at a maximum as long as there is no problem in the production of slurry, and if the hydration temperature is maintained at 30 ° C or higher, magnesium oxide (MgO) Mg (OH) < RTI ID = 0.0 > ₂ ) < / RTI >

The hydration step, the generation is very large scale is precipitated as a raw material is also agglomerated in hydration tank wall in the process of hydration as a magnesium hydroxide (Mg (OH) ₂₎ and magnesium carbonate (MgCO _3).

Therefore, a certain amount of dispersant is used in hydration tank to solve this problem.

As a result, it was found that the dispersing agent dosage ranged from 5 to 1,500 PPM when the concentration of sodium hydroxide (Mg (OH) ₂ ) in the slurry was 32%, and depending on the quality of the raw material, It is necessary to adjust the amount of the dispersant.

The same effect was obtained when the dispersant was added at the initial stage of mixing the water and the raw material.

However, if a dispersant is not used, there is a problem in producing a slurry having a high concentration of magnesium hydroxide (Mg (OH) ₂ ) concentration of 32% or more in the slurry.

In the case of using hot water and a slurry having a low content of magnesium hydroxide (Mg (OH) ₂ ) content of about 25% in the slurry, a dispersant may not be used.

In order to maximize the reactivity of magnesium carbonate (MgCO ₃ ) together with magnesium hydroxide (Mg (OH) ₂ ) in the second pulverization step, wet milling is performed one or more times with a wet mill in order to maximize the specific surface area.

This is because it simultaneously uses hydration heat as well as frictional heat generated during wet grinding, and thus has an effect of further promoting hydration. Unless an excessive amount of dispersant is used, the specific surface area of the hydrate increases considerably during secondary and tertiary wet grinding The viscosity becomes very high.

Therefore, it is necessary to reduce the viscosity by injecting water and crushing it, and it is also possible to perform one-time wet milling according to the crushing ability of the wet mill.

In the above-described foreign matter removal step, the magnesium hydroxide slurry prepared in the above manner is preferably removed from the magnesium hydroxide slurry using a centrifuge or a vibration screen, and then aged in the storage tank for 1 to 48 hours in the storage aging step.

However, it can be used immediately without removing the foreign materials as needed. Since it is effective to remove wastewater and sulfur oxides when used directly as a foreign substance and a large-sized hydrate at the site of use, It is also possible to omit the foreign substance removing step and the storage aging step as described above.

Particularly, in order to produce a slurry having a magnesium hydroxide (Mg (OH) ₂ ) content of 32% or more in each of the above-described steps, the first pulverization step to the second pulverization step or finally the foreign matter removal step and the storage aging step , The dispersant may be added at any stage.

In the present invention, magnesium oxide is contained in the low-grade magnesium oxide because magnesium oxide is used in the present invention. When the magnesium oxide raw material having a content of 70% or less is hydrated, a small amount of magnesium carbonate (MgCO ₃ ) is formed together with magnesium hydroxide .

Thus, when a low-grade magnesium oxide hydrate is mixed with water, a part of the hydrated magnesium oxide is hydrated and mixed with magnesium hydroxide (Mg (OH) ₂ ) and magnesium carbonate (MgCO ₃ ) Or sulfuric acid is as follows.

Mg (OH) ₂ + MgCO ₃ + sulfuric acid → magnesium sulfate (MgSO ₄ ) + water (H ₂ O) + CO ₂ ↑

Mg (OH) ₂ + MgCO ₃ + sulfur dioxide (SO ₂ ) → magnesium sulfate (MgSO ₄ ) + water (H ₂ O) + CO ₂ ↑

Mg (OH) ₂ + MgCO ₃ + sulfur trioxide (SO ₃ ) - magnesium sulfate (MgSO ₄ ) + water (H ₂ O) + CO ₂ ↑

Mg (OH) ₂ + MgCO ₃ + sulfur oxides (SOx) → magnesium sulfate (MgSO ₄ ) + water (H ₂ O) + CO ₂ ↑

Mg (OH) ₂ + MgCO ₃ + Sulfuric acid (H ₂ SO ₃ ) → Magnesium sulfate (MgSO ₄ ) + Water (H ₂ O) + CO ₂ ↑

When the chemical is reacted with sulfuric acid-containing wastewater and sulfuric acid gas, when magnesium hydroxide and magnesium carbonate react with wastewater and sulfuric acid, carbon dioxide of magnesium carbonate contained in a small amount causes carbon dioxide, In order to make magnesium oxide with magnesite, powder of 15 mm or less is discarded in the previous step of calcining at 900 ° C, and anthracite is injected into the magnesite of 15 mm or more and fired.

However, in order to calcine magnesium oxide having a content of 70% or less, a magnesium oxide with a 90% content is limited due to the mixing of a magnesium powder with a fine powder and a magnesium oxide having a mass of 15 mm or more and firing together with an anthracite. And a small amount of carbon dioxide is generated when the slurry produced according to the present invention contains a small amount of magnesium carbonate and thereby reacts with sulfur-containing wastewater or sulfur oxide.

Therefore, when the magnesite firing raw material is less than 90% of MgO production and less than 70% of MgO is produced, less than 50% of firing raw material is injected, so the CO ₂ generation amount can be reduced by more than 50%.

Claims (4)

In producing an adsorbent slurry for adsorbing sulfur-containing wastewater and sulfur oxide using magnesium oxide having a purity of 70% or less,
A first pulverization step of putting a mixture of 30 to 70% by weight of a raw material having a magnesium oxide content of 70% or less and 30 to 70% by weight of water into a wet pulverizer; A step of hydrating the wet milled mixture in the first milling step into a hydration tank to hydrate magnesium oxide (MgO) with magnesium hydroxide (Mg (OH) ₂ ); And a second crushing step of crushing the hydrated mixture in the hydration step at least once into a wet mill,
And 5 to 1,500 PPM of a dispersant is added to the mixture of the first pulverization step, the hydration step and the second pulverization step. The method according to claim 1,
A foreign matter removing step of removing foreign matter in the mixture pulverized in the second pulverization step;
The method of manufacturing a sulfuric acid wastewater and sulfur oxide adsorbent slurry using low-grade MgO, comprising the step of putting the mixture in which foreign substances have been removed in the foreign matter removal step into a storage tank and storing and aging the mixture for 1 to 48 hours. The method according to claim 1,
In the hydration step, a hydration tank is provided with a stirrer, and the mixture is stirred and hydrated at a temperature of 30 ° C or more for 1 to 24 hours. 5 to 1,500 PPM of dispersant is added to the mixture in the hydration tank,
Wherein the second pulverization step comprises charging 10 to 20% of water based on the weight of the mixture according to the viscosity of the mixture to be pulverized by the wet mill. delete