KR100766267B1 - Organic mixture which removes organic deposits from coal gas stream - Google Patents

Abstract

An organic composition for removing organic deposits from coal gas streams is provided to remove organic deposits effectively even if a small amount of organic solvent is used, and prevent the mass production of waste organic solvent and the reduction of organic solvent into solid materials. An organic composition for removing organic deposits from coal gas streams, absorbs organic deposits including tar dust and naphthalene generated from a gasification step of coal in a gas phase and discharges the organic deposits in a liquid phase. The organic composition is prepared by diluting a surfactant containing a hydrophobic group having an aromatic group with water, followed by mixing the diluted solution with an organic solvent having a hydrophilic group in order to remove organic deposits.

Description

Organic mixture which removes organic deposits from coal gas stream

1 is a graph showing the change in the amount of organic deposit deposited according to the dilution ratio of the surfactant

2 is a graph showing the change in the collection amount of naphthalene according to the concentration of the organic solvent

The present invention relates to an organic composition for removing organic deposits in coal gas, and more particularly, by mixing a small amount of organic solvent with a surfactant and then using an organic composition diluted in water to remove organic deposits. Due to the large amount of solvents, organic solvents are prevented from reacting with solid matters and other degrading substances to generate a large amount of waste, and the additionally installed separation equipment not only prevents organic solvents in gas from acting as a closed material again, but also organic solvents. It is possible to reduce the purchase cost of organic solvents due to the continuous bulk replenishment.

In general, gasification of coal is a process in which coal is reacted with oxidizing gases such as oxygen, carbon dioxide, steam, and hydrogen to obtain flammable gaseous fuel such as methane and syngas, and the gas obtained from coal is a low calorific gas for power. Because of this, it can be used as a raw material for the synthesis of various chemicals by using it directly or separating and refining. Coal gasification can prevent the air pollution caused by the direct combustion of coal and also contribute to the increase of energy efficiency.

The gas generated in the above process includes organic deposits such as tar dust and naphthalene, which deposits in the piping and heat exchanger of the apparatus used for gasification of coal, and thus prevents the flow of the organic deposits. Work must be involved.

Conventionally, the method of removing the organic deposits has been used to discharge with condensate using an electrostatic precipitator and a method of dissolving using an organic solvent having a relatively high molecular weight and high boiling point. Only the substance can be removed and the substances that are easily evaporated such as naphthalene cannot be removed. there was.

When a small amount of the organic solvent is used as a means to solve the above problems, the organic solvent is easily evaporated and lost or the evaporated organic solvent reacts with the solid matter and other degrading substances to solidify and generate a large amount of waste. When the installation is additionally installed, there was a secondary problem that the organic solvent contained in the gas acts as a closed material again.

In addition, in the case of removing the deposited material using a large amount of organic solvent, there is an advantage that can be removed even naphthalene, but the problem that the purchase cost to purchase the organic solvent increases because it must continue to replenish a large amount of organic solvent there was.

The present invention is to solve the above-mentioned problems, in particular, the present invention by mixing a small amount of the organic solvent in the surfactant and then using an organic composition diluted in water to remove the organic deposits, the solid material by the surfactant The organic solvent is dispersed and absorbed in water, thereby inhibiting the organic solvent from solidifying by reacting with the solid material, and a small amount of the organic solvent mixed without dissolving evaporation by the surfactant dissolves depositing substances such as naphthalene, which is highly volatile. Organic sediments can be effectively dispersed and removed in water with only a small amount of use, without using a large amount of solvents.A large amount of organic solvents prevent the generation of waste and the reduction of organic solvents into closed materials and purchase organic solvents in large quantities. Organic deposits in coal gas that can reduce the purchase cost It provides removal of organic compositions.

An object of the present invention for achieving the above object is to remove the organic deposits in coal gas, characterized in that the organic solvents for removing the organic deposits are prepared by diluting the surfactant in water and then organic Composition.

The concentration of the organic solvent mixed with the surfactant in the organic composition according to the above features of the present invention may be configured to maximize the miscibility of the surfactant and the organic solvent to 20% or less than the surfactant.

In addition, the organic solvent is selected to be water-soluble having a hydrophilic group to prevent the formation of sludge (Sludge) due to the inability to mix the surfactant and the organic solvent, and to effectively remove the organic precipitates strongly deposited in the gas. It may be configured to do so.

In each of the embodiments of the organic composition according to the present invention, the surfactant may be configured so that the hydrophobic group having an aromatic group can be solvated and dispersed more effectively in the organic composition of the aromatic series. .

In addition, the dilution ratio of the water and the surfactant according to the present invention may be 1: 1000 to be configured to maximize the collection capacity of the organic deposited material.

Hereinafter, the present invention will be described in detail.

The present invention is characterized in that the surfactant is diluted with water and then prepared by mixing an organic solvent for removing organic deposits.

The organic composition prepared by the above-mentioned features is because the solid material is dispersed by the surfactant and absorbed in water, thereby preventing the organic solvent from solidifying by reacting with the solid material and the organic solvent is not evaporated by the surfactant. Small amounts of organic solvents can be used.

It is preferable that the said organic solvent satisfy | fills the following conditions.

1. Concentration of organic solvent should be 20% or less than surfactant

2. Water-soluble having a hydrophilic group

Hereinafter, the reasons why each of the above conditions are preferable will be described with reference to the effects of the present invention.

1. Concentration of organic solvent should be 20% or less than surfactant

If the concentration of the organic solvent exceeds 20% compared to the surfactant, the concentration of the organic solvent in the organic composition does not exceed 20% compared to the surfactant because the organic solvent is not mixed and suspended or deposited due to the surfactant having a high molecular weight. It is configured so that the whole amount can be mixed with the organic solvent and the surfactant.

2. Water-soluble having a hydrophilic group

In the case of using an insoluble organic solvent having no hydrophilic group, it is rather trapped in the micelle of the surfactant when mixed with water, and thus does not serve as a solvent, but also serves to prevent the dispersion of surfactant molecules. There is a risk of formation of sludge in which the solvent is bound to each other. However, this problem can be avoided by selecting a water-soluble organic solvent, because it mixes well with water, and although it is water-soluble, it has a higher volatility than water, so it has a high concentration in the gas, which is combined with naphthalene, an organic deposit in the gas. You have more chances to do it. Once organic solvents dissolve naphthalene, they have more opportunities to bind to each other in the presence of water and thus more opportunities to be dispersed by surfactants with other dusty substances in water. In this way, by using an aqueous solution mixed with a surfactant and a water-soluble organic solvent, it is possible to almost completely remove organic substances having strong deposition properties from the gas.

In addition, although only an organic solvent completely dissolved in water may be used for the above reasons, an organic solvent that is not mixed with water and an organic solvent mixed with water are mixed, that is, an organic solvent having a specific gravity greater than water and an organic having a specific gravity smaller than water. The same effects as described above can be obtained by mixing the solvent in an appropriate ratio.

In an experimental example for showing the effects of the present invention to be described later, quinoline and tetrahydrofuran were used as organic solvents satisfying the above conditions, and the reason for selecting these two solvents satisfies the above conditions. Rather, it is because the solubility in naphthalene is very high and when mixed with a surfactant it is uniformly mixed so that no separation occurs.

In addition, xylene was added to facilitate specific gravity control, and a mixed solvent of quinoline, tetrahydrofuran, and xylene was used as an organic solvent, and mixed with water at various mixing ratios to have a specific gravity similar to that of water. The mixing ratio to obtain the closest specific gravity was obtained and the results are shown in Table 1.

Mixing ratio of organic solvent that can have specific gravity similar to water Quinoline Tetrahydrofuran xylene 3 7 One 4 6 2 5 5 3 12 8 9 7 3 5

In addition, the surfactant of the organic composition according to the present invention preferably satisfies the following conditions.

1. Hydrophobic group having aromatic group

Hereinafter, the reasons why each of the above conditions are preferable will be described with reference to the effects of the present invention.

1. Hydrophobic group having aromatic group

Since organic deposits generated from coal gas are mainly composed of aromatic series, the hydrophobic group of the surfactant is selected to have an aromatic group so that the aromatic groups of the surfactant solvate the organic deposit more efficiently and are dispersed in water. It is configured to be.

In the experimental example for showing the effect of the present invention to be described later was used Pentex-600 (Samdoo Co., LTD.) As a surfactant that satisfies the above conditions, because ethylene oxide and This is because the above conditions are satisfied by having a propylene oxide functional group and having an alkyl group and an aromatic lipophilic group.

Hereinafter, the optimum dilution ratio of the surfactant was obtained through Experimental Example 1 below, and the naphthalene capturing effect was demonstrated through the experimental example 2 through the change in the collection amount of naphthalene according to the concentration of the organic solvent.

[Experimental Example 1] Measurement of change in collection amount of organic deposited material according to dilution ratio of surfactant through removal experiment of tar dust

Tar depositing experiments were performed for various concentrations of surfactant in a gas treatment facility with a gas flow rate of 45000 Nm3 / h. Surfactant Pentex-600 was dissolved in water and sprayed into the gas pipe, and the injection amount was 0.3 m3 / h. The sediment trapping effect analysis was based on the change in the amount of solid matter in the condensate and the toluene dissolution component in the solid material removed by the surfactant and discharged into the pipe. The calculation result is as follows.

1) Condensate floating dust change when surfactant is added:

-62 mg / L before injection → 96 mg / L after injection (34 mg / L increase)

2) Surfactant input condition: 1/1000 dilution solution 0.3m3 / h flow rate input (surfactant 0.3kg / h)

3) Calculation of dust reduction in gas

   -Based on gas volume 45,000Nm3 / h

   -Based on 3ton / h condensate

   -Total amount of dust reduction in gas: 3,000 L / h × 34 mg / L = 102,000 mg / h

   -Dust Concentration Decrease: 102,000mg / h ÷ 45,000 Nm3 / h = 2.3mg / Nm3

Referring to the above results and FIG. 1, it can be seen that the best collection capacity is obtained when the dilution ratio of water and surfactant is 1000-fold dilution of 1: 1000. The most suitable logic for interpreting such results is If the concentration of the surfactant is too thick or too dilute, it is interpreted that the spraying of the solution causes the dispersion to be poor and the contact efficiency of the gas decreases.

[Experimental Example 2] Measurement of Changes in Naphthalene Collection According to the Concentration of Organic Solvents by Simultaneous Removal of Tarous Dust and Naphthalene

An organic solvent mixed with quinoline, tetrahydrofuran, and xylene in a 12: 8: 9 ratio was added to the surfactant at a concentration of 20% or less compared to the surfactant, and diluted 1000 times with water, and then the gas flow was 45000Nm3 / h. Naphthalene trapping was analyzed by spraying, and the spraying amount was 0.3 m3 / h. The results are shown in FIG. 2, and as shown in FIG. 2, the concentration of naphthalene is a concentration of naphthalene dispersed in the condensed water removed by the organic composition and discharged into the pipe within 20% or less of the organic solvent. As the concentration of the organic solvent was increased, the concentration of naphthalene in the condensate discharged from the pipe increased, which proved to be effective in removing the naphthalene by the organic solvent.

As can be seen in Experimental Example 1 and Experimental Example 2, the dilution ratio of water and the surfactant according to the present invention is 1: 1000, and after diluting the surfactant in water, a small amount having a concentration of 20% compared to the surfactant is used. The organic composition prepared by mixing the organic solvent was found to be effective in removing organic precipitates such as tar dust and volatile naphthalene.

In addition, the organic composition for removing the organic deposits in the coal gas of the present invention may be variously modified, and the embodiments to be modified should all be included in the scope of the present invention without departing from the scope of the present invention. do.

According to the present invention, it is possible to effectively disperse and remove organic deposits in water with only a small amount of use, without using a large amount of organic solvent, and to generate a large amount of waste and reduce the organic solvent to a closed material by using a large amount of organic solvent. It is possible to obtain advantages such as preventing and reducing the cost of purchasing organic solvents in large quantities.

Claims (5)

In an organic composition that absorbs organic deposits, including tarry dust and naphthalene generated during the gasification of coal in the gas phase to discharge the liquid in the liquid phase, An organic composition for removing organic deposits in coal gas, characterized in that the hydrophobic group has a surfactant having an aromatic group diluted in water and then mixed with an organic solvent having a hydrophilic group to remove the organic deposits. The method of claim 1, The organic composition of the organic composition to remove the organic deposits in the coal gas, characterized in that the concentration of the organic solvent in the organic composition is 20% or less than the surfactant. delete delete The method of claim 1, An organic composition for removing organic deposits in coal gas, characterized in that the dilution ratio of water and surfactant is 1: 1000.

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