KR810001520B1 - Method for treatment of sludge containing sulfuric acid - Google Patents

Abstract

An H2SO4 sludge is mixed with 30-70% Mg(OH)2 slurry to neutralize the sludge to pH 7, then the sludge is incinerated at 750-900oC with a fuel to generate SO2 which is absorbed in a Mg(OH)2 suspension to form MgSO4. The MgSO4 is discharged, and the ash is neutralized for reuse. Thus, a sludge contg. H2SO4 62, org. compd. 30, and water 8 % was treated with a Mg(OH)2 slurry. The resulting sludge was incinerated and the SO2 was scrubbed.

Description

Treatment method of sulfuric acid sludge

Figure is a process diagram of an embodiment of the present invention.

The present invention relates to a method for treating sulfuric acid sludge discharged from a chemical plant. In general, in many chemical industries, when organic matter is treated as sulfuric acid, waste sulfuric acid, ie, sulfuric acid sludge, containing a large amount of organic matter is released. For example, petroleum oil is treated as rich sulfuric acid in order to remove various hydrocarbon fractions that are not suitable in petroleum plants. In this case, free sulfuric acid, insoluble organic substances, dissolved hydrocarbons and organic sulfonic acids Sulfuric acid sludge contained as a complex composition is discharged. These sulfuric acid sludges are black and emit strong irritating odors, and when left untreated, they solidify with black tea, and because they are extremely corrosive, they cannot be landfilled or dumped at sea. Conventionally, various methods have been proposed as treatment methods for this kind of sulfuric acid sludge, and the representative methods thereof will be described below. In other words, there is a method of spray-burning sulfuric acid sludge in combustion soil to pyrolyze sulfuric acid sludge to decompose sulfur compounds containing sulfur dioxide, and to produce sulfuric acid from sulfur dioxide. In this method, sulfuric acid sludge containing free sulfuric acid is used. Since it burns directly at a high temperature, damage to the combustion furnace is also large, and a separate sulfuric acid production facility for producing sulfuric acid is required, so the processing scale is enormous. In addition, since the combustion gas contains a small amount of low molecular weight organic decomposition products, sulfuric acid produced is colored to limit the market as a product. Therefore, in view of its investment in equipment, maintenance cost, and deterioration of product sulfuric acid, it is not economically established except in a few special cases. Next, a method of diluting by adding water to the sulfuric acid sludge and heating and hydrolyzing by adjusting the concentration of free sulfuric acid to 20-30% has been proposed to recover organic matter and sulfuric acid fraction separately. It has a low concentration, and it dissolves a considerable amount of organic material having a hydroxyl group produced by hydrolysis. Therefore, it requires much expense to purify it, and still contains a considerable amount of acid component in the separated organic material. There is no use of and will cause secondary pollution. In addition, there is a method of recovering carbides and sulfuric acid by adjusting the concentration of free sulfuric acid contained in the sulfuric acid slurry to 65-90% and then heating and heating the organic material contained at 150-190 ° C. The carbide produced by this method has the capacity of ion adsorption and the ability of activated carbon, and the recovered sulfuric acid is also relatively good. In this method, sulfuric acid is consumed because sulfuric acid acts on an organic material and undergoes a dehydrogenation reaction. Therefore, there is a limit to the ratio of the amount of organic materials and sulfuric acid contained in the sulfuric acid sludge, and when there are many organic materials with respect to free sulfuric acid, it is necessary to add sulfuric acid separately, but it is not common. Thus, the conventionally proposed method is rarely operating in view of its processing scale, equipment investment, product quality and economical efficiency, and the placenta of sulfuric acid sludge remains untreated.

The present invention is an inexpensive apparatus and a cost-effective method for treating sludge sulfate completely harmless at the site of its occurrence. That is, adding sulfuric acid slurry to a magnesium hydroxide slurry diluted to 30-70% with stirring and mixing to achieve pH7 or more ( Iv) the sludge neutralized material is fed into the combustion furnace together with the coagulant and combusted at a temperature of 750-900 ° C. The combustion gas containing sulfurous acid gas is led to the gas absorption tower and brought into contact with the magnesium hydroxide suspension and gas-liquid contact. The present invention provides a method for treating sulfuric acid sludge which converts sulfurous acid gas into magnesium sulfate, discharges it as an aqueous solution, and circulates and reuses combustion residue as a neutralizing agent. Hereinafter, the present invention will be described with reference to the drawings.

The figure shows a magnesium hydroxide slurry liquid diluted with 30-70% water as a process of an embodiment of the method of the present invention to the neutralization tank 3 via a conduit 2, and then neutralizes the sulfuric acid sludge in the conduit 1 It supplies to the tank 3, it stirs, and mixes it, and it is set as the sludge neutralization of pH 7-9 or more suitably pH 7 or more suitably.

At this time, the heat is generated by the neutralization heat, and usually there is no need for cooling. On the contrary, when the mixture is sufficiently stirred and mixed at 75 ° C. or higher, the particles become fine sludge neutralized particles at pH 7 or higher. Next, the abnormal sludge heavy matter produced in the neutralization tank 3 is supplied to the combustion furnace 5 via the conduit 4. At the same time, the burner, such as kerosene and heavy oil, supplied from the conduit 6 in the furnace is burned by a burner, and the sludge is completely burned by preserving the temperature in the furnace at 750-900 ° C. The containing combustion gas is introduced into the absorption tower 8 via the conduit 7, and at the same time, the combustion residue mainly composed of magnesium oxide is discharged into the residue storage 10 via the conduit 9 and circulated again as a neutralizing agent. Reused.

The combustion gas containing the sulfurous acid gas introduced in the gas absorption tower 8 is in gas-liquid contact with about 1.0-2.0% by weight of the magnesium hydroxide suspension supplied from the conduit 11, and the harmful sulfurous acid gas in the combustion gas is absorbed and oxidized. It is converted into harmless magnesium sulfate and discharged from the conduit 12 as an aqueous solution. On the other hand, the combustion gas which is cleanly removed by removing sulfurous acid gas is released into the atmosphere from the gas outlet 13 as a harmless gas. In the present invention, neutralization is carried out using magnesium hydroxide slurry diluted with 30-70% water by alkaline jetting of sludge sulfate, and when the slurry of magnesium hydroxide lower than 30% is used during neutralization, the free moisture in the sludge neutralized It becomes a large amount, and more fluidity | liquidity is needed, and the economical efficiency falls that much at the time of combustion. When the slurry concentration exceeds 70%, the amount of water is small, so that the magnesium hydroxide reacts with sulfuric acid, and at the same time, it is combined with the water in the sludge heavy matter to become a hydrous salt of magnesium sulfate to solidify.

In the case of solidification, not only is it difficult to supply the combustion furnace, but it also takes considerable time until the residence time in the furnace is completely burned to the inside of the solid, and it is economically disadvantageous, and incomplete combustion Emissions from the furnace still require secondary treatment. In general, when neutralizing acidic substances, calcium hydroxide and caustic soda are often used as neutralizing agents.However, when calcium hydroxide is used to neutralize sulfuric acid sludge, calcium sulfate of the reaction product with sulfuric acid is poorly soluble in water. It is easy to become agglomerate shape, so it is economically disadvantageous when burning because it must be fluidized by adding a large amount of water to neutralize, and the combustion residue is incomplete and the combustion residue is made of colored impure calcium sulfate containing carbide. It has no special purpose and causes secondary pollution.

In addition, when caustic soda is used as a neutralizing agent, it is more expensive than magnesium hydroxide, and the melting temperature of sodium salt is low when burning in a combustion furnace, so that the furnace wall melts during combustion, making it difficult to use for a long time. In order to prevent this, when burned below the melting temperature, there is a disadvantage of incomplete combustion. In the present invention, since magnesium hydroxide is used as the neutralizing agent, the sulfuric acid component is magnesium sulfate.

However, since magnesium sulfate becomes magnesium oxide when heated in the presence of carbon powder, this sludge neutralized material can be burned at 750-900 ° C. to be recovered as magnesium oxide in the combustion residue, and water is added thereto to add 30-70% magnesium hydroxide. The slurry liquid equivalent to the slurry liquid can be circulated and reused as a neutralizer for the sludge sulfate.

In the present invention, after supplying magnesium hydroxide slurry to the neutralization tank, and then adding the sulfuric acid sludge, stirring and mixing, and the sludge neutralization at a pH of 7 or more, the neutralization tank, piping, and the combustion furnace, etc., particularly high-quality materials excellent in corrosion resistance It does not need In addition, the neutralization tank usually uses a mixing tank with a stirrer. Especially in the case of solidified sulfuric acid sludge, it is a neutralization tank using a powerful kneader such as kneader, which has high fluidity and small particle size. It can be set as the above neutralization. In the present invention, the sludge heavyweight is combusted at 750-900 ° C. When the temperature in the combustion furnace is lower than 750 ° C, the sludge heavyweight supplied is not completely burned, and magnesium sulfate is not completely converted into magnesium oxide. No. Moreover, when it exceeds 900 degreeC, the consumption of a softening agent will become large and it will become an economic disadvantage. Generally, caustic sodium, sodium carbonate, calcium hydroxide, calcium carbonate, etc. are used as absorbers of sulfurous acid gas. Soda is generally high in price, and calcium is often caused by skelling. Moreover, since it reacts with sulfite gas to become sulfite, COD is high and it cannot be discharged as it is. In the present invention, since magnesium hydroxide is used as the absorbent, sulfurous acid gas contained in the combustion gas is easily absorbed and oxidized as compared to soda and calcium, and thus can be discharged because it is an aqueous solution of magnesium sulfate, which is harmless.

In addition, since there is almost no clogging or scaling of nozzles, the absorption tower can be used as a spray tower, a packed column, or a venturi scraper. The present invention is a complete treatment method of sulfuric acid sludge which can be discharged as a harmless magnesium sulfate aqueous solution as a simple method without any problem, as well as sulfuric acid sludge discharged during operation as described above. In addition, according to the method of the present invention, the apparatus does not need to be manufactured as a particularly expensive material having excellent corrosion resistance, and can be manufactured very inexpensively, and unlike the solidified sludge heavy material, it is easily supplied to the combustion furnace and has a good combustion effect. It can be burned completely, and the combustion residue is recycled as a neutralizer of sulfuric acid sludge, and it is a method of treating sulfuric acid sludge which is extremely beneficial for pollution prevention without emitting secondary industrial waste.

Next, an example of the method of the present invention is shown.

Example 1

Magnesium hydroxide slurry liquid consisting of 40.7 kg of magnesium hydroxide (commercially available product, purity 90.14%) and 95 kg of water was supplied to a neutralization tank (500 liters of agitator attachment capacity), followed by 30% organic material, 62% sulfuric acid, and 8% moisture. 100 kg of lodge was added and stirred and mixed. As a result, 235.7 kg of the sludge neutralized product obtained from the composition of 12.7% of organic matter, 32.3% of magnesium sulfate, 53.5% of water, and other 1.5% was obtained at pH 8. Next, the sludge heavy material described above was supplied to a combustion furnace (rotary top type, 1230 m / mØ 700 m / mH) and burned.

Combustion conditions and results are as follows.

As a result of analyzing the combustion gas, the concentration of SO₂ was 12000ppm as a mixed gas containing SO₂, CO₂, N₂, O₂ and so on. This mixed gas was supplied to an absorption tower (filling tower 840 m / mø × 5 mH) for treatment. In addition, the packing tower was filled with a Paerex # 200 as a filling 2.4m high.

Treatment conditions and results are as follows.

Example 2

A magnesium hydroxide slurry consisting of 40.7 kg of magnesium hydroxide (commercially available product, purity 90.14%) and 17.4 kg of water was supplied to a neutralization tank as in Example 1, and then 100 kg of sulfuric acid sludge as in Example was added, followed by stirring and mixing. As a result, 158.1 kg of the above-mentioned sludge neutralization consisting of 19.0% of organic matter, 48.1% of magnesium sulfate, 30.6% of water, and 2.3% of other matters were obtained.

Next, the sludge neutralized material was treated with combustion gas and combustion gas using the same combustion furnace and absorption tower as in Example 1.

The conditions and results are shown below.

Combustion Conditions and Results

Combustion Gas Treatment Conditions and Results

As a result of analyzing the combustion residues obtained in Examples 1 and 2, the composition contained 90% of magnesium oxide and 10% of inorganic sulfates such as other calcium sulfate. Water was added to this combustion residue to prepare a slurry liquid corresponding to 30-70% magnesium hydroxide slurry liquid, which was repeatedly used as a neutralizing agent for sulfuric acid sludge.

Claims (1)

Slurry sulfuric acid was added to the magnesium hydroxide slurry liquid diluted to 30-70%, and the mixture was stirred into a sludge neutralizer having a pH of 7 or more, and fed into the combustion furnace together with a supporting agent, and the temperature was 750. Combustion is carried out at -900 ° C, the combustion gas containing sulfurous acid gas is led to the gas absorption tower, gas-liquid contact with the magnesium hydroxide suspension, the sulfurous acid gas is converted into magnesium sulfate, oil-proof as an aqueous solution, and combustion residue A process for treating sulfuric acid sludge which is characterized by circulation reuse with (iii) as a neutralizing agent.

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