KR100450224B1 - Method for removing hydrogen sulfide of coke oven gas - Google Patents

Abstract

The present invention relates to a method for purifying coke oven gas generated when coal is carbonized to produce coke, and more particularly, a method for selectively removing hydrogen sulfide of coke oven gas.

To this end, the present invention, by contacting the coke oven gas containing hydrogen sulfide, and carbon dioxide in the hydrogen sulfide absorption tower comprising a plurality of stages to be supplied with the ordination, the coke to selectively absorb and remove the hydrogen sulfide of the coke oven gas to the ordination 1. A method for removing hydrogen sulfide from an oven gas, the method comprising: a) first removing hydrogen sulfide contained in coke oven gas by contacting coke oven gas with ordination at a gas-liquid contact ratio of 0.3 to 0.35; b) coke oven gas by contacting coke oven gas from which hydrogen sulfide was first removed in step a) with an aqueous solution of methyldiethanolamine (MDEA; MethylDiEthanolAmine) having a concentration of 2 to 5 g / l at a gas-liquid contact ratio of 0.5 to 0.6. It provides a method for removing hydrogen sulfide of the coke oven gas comprising the step of removing the second hydrogen sulfide contained in the secondary.

Purification method of the present invention by using the ordination as an absorbent liquid to primarily absorb the hydrogen sulfide, and secondly by selectively absorbing using the MDEA aqueous solution as the absorbent liquid, to improve the efficiency of hydrogen sulfide absorption in the coke oven gas while minimizing the economic burden. Can be.

Description

How to remove hydrogen sulfide from coke oven gas {METHOD FOR REMOVING HYDROGEN SULFIDE OF COKE OVEN GAS}

[Industrial use]

The present invention relates to a method for purifying coke oven gas generated when coal is carbonized to produce coke, and more particularly, a method for selectively removing hydrogen sulfide of coke oven gas.

[Prior art]

Coke oven gas is a gas generated when the coal is carbonized to produce coke, and various refined chemicals can be obtained as a by-product when refining it, and the purified gas can be used as a fuel gas.

The coke oven gas contains carbon dioxide and hydrogen sulfide, and is absorbed and removed by using ordination, which is the process water, in the hydrogen sulfide absorption tower to absorb and remove hydrogen sulfide.

When the hydrogen sulfide is removed from the absorption tower by the use of ordination, the ordinal water absorbed by the hydrogen sulfide must be regenerated because it contains hydrogen sulfide, and the regeneration is performed by distillation by steam in a distillation column. Since ordination is a mixture of low temperature compounds, the process of regenerating ordination by distillation is an economical process because it reduces the amount of steam used.

However, there is a limit to the selective absorption and removal of hydrogen sulfide of coke oven gas into ordination. Since coke oven gas contains carbon dioxide and hydrogen sulfide, the ordination is not satisfactory in the selective absorption efficiency of selectively absorbing and removing hydrogen sulfide. In fact, the coke oven gas of coke oven gas which selectively absorbs and removes the hydrogen sulfide of coke oven gas by ordination by contacting with the eye water in the hydrogen sulfide absorption tower containing the several stages by which ordination is provided with the coke oven gas containing the conventional hydrogen sulfide and carbon dioxide. The hydrogen sulfide removal method removes hydrogen sulfide only by 85 to 90%. In addition, increasing the gas-liquid contact ratio for the purpose of increasing the absorption efficiency does not increase the absorption efficiency of hydrogen sulfide, but also affects the operation in the post-process, causing abnormal operation.

As a result, if coke oven gas is properly removed without hydrogen sulfide as fuel, the hydrogen sulfide of coke oven gas may pollute the air, causing environmental problems. Therefore, there is a need for a method of selectively absorbing and removing hydrogen sulfide of coke oven gas with economical and superior absorption efficiency.

In view of the problems of the prior art, an object of the present invention is to provide a method for selectively absorbing and removing hydrogen sulfide of coke oven gas with economical and superior absorption efficiency.

1 is a schematic diagram showing a method for removing hydrogen sulfide of coke oven gas by using an absorption tower absorbing hydrogen sulfide of coke oven gas and a distillation column for regenerating ordination of the present invention.

Reference numeral 1 is a hydrogen sulfide absorption tower, 2 is a coke oven gas, 3 is a coke oven gas from which hydrogen sulfide is removed, 4 is ordination, 5 is an aqueous MDEA solution, 6 is a distillation column, 7 is steam, and 8 is Acid gas, 9 is ordination storage tank, 10 is MDEA aqueous storage tank.

[Means for solving the problem]

In order to achieve the above object, the present invention selectively absorbs hydrogen sulfide of coke oven gas into ordination by contacting the coke oven gas containing hydrogen sulfide and carbon dioxide with ordination in a hydrogen sulfide absorption tower including a plurality of stages to which ordination is supplied. In the coke oven gas hydrogen sulfide removal method to remove

a) the coke oven gas is brought into contact with ordination at a gas-liquid contact ratio of 0.3 to 0.35

Firstly removing the hydrogen sulfide contained in the coke oven gas;

b) 0.5 to 0.5 coke oven gas from which hydrogen sulfide is first removed in step a).

Methyldiethanolamine (MDEA; 2-5 g / l) at a gas-liquid contact ratio of 0.6;

MethylDiEthanolAmine) in contact with aqueous solution of coke oven gas

Removing the remaining hydrogen sulfide secondary

It provides a method for removing hydrogen sulfide of the coke oven gas comprising a.

Hereinafter, the present invention will be described in detail.

[Action]

In the present invention, in order to selectively absorb and remove only hydrogen sulfide in coke oven gas containing carbon dioxide and hydrogen sulfide, hydrogen sulfide is firstly removed by using ordination, which is a process water, as an absorption liquid, and the remaining hydrogen sulfide is not absorbed. Hydrogen sulfide is secondarily removed using methyldiamineethanolamine (MDEA) aqueous solution, which has a better absorption of hydrogen sulfide than that of carbon dioxide.

At this time, the first removal of the hydrogen sulfide is to supply the ordination to the lower end of the hydrogen sulfide absorption tower to contact the coke oven gas and the ordination, it is preferable to maintain the gas-liquid contact ratio of the coke oven gas and ordination 0.3 ~ 0.35. If the gas-liquid contact ratio is less than 0.3, hydrogen sulfide absorption efficiency is lowered. If the gas-liquid contact ratio is higher than 0.35, hydrogen sulfide absorption efficiency is lowered, and carbon dioxide is also absorbed together, which may affect the operation in the post process and cause abnormal operation.

In addition, the secondary removal of the hydrogen sulfide solves this problem because the hydrogen sulfide absorption efficiency is not high when only the ordination is used as the absorption liquid in the primary removal of the hydrogen sulfide, and the absorption efficiency of hydrogen sulfide is superior to carbon dioxide on the top of the hydrogen sulfide absorption tower. The MDEA aqueous solution is supplied so that the coke oven gas and the MDEA aqueous solution are in contact, and the gas-liquid contact ratio of the coke oven gas and the MDEA aqueous solution is preferably maintained at 0.5 to 0.6. Since coke oven gas contains a small amount of hydrogen sulfide and most of carbon dioxide, if the gas-liquid contact ratio is less than 0.5, the hydrogen sulfide absorption efficiency is lowered. If it is higher than 0.6, an excessive amount of steam is used in the distillation process of regenerating the absorption liquid. Economic burden on the distillation process, which is the absorption liquid and the absorption liquid regeneration process, is increased. In addition, the concentration of the MDEA aqueous solution used is preferably 2 to 5 g per liter. The reason is that the mechanism by which the MDEA absorbent absorbs hydrogen sulfide is caused by a chemical reaction. If it is less than 2 g per liter, the chemical reaction rate is not sufficiently large, and the hydrogen sulfide absorption efficiency is lowered. Although it is improved, the amount of steam used in the distillation process, which is an absorption liquid regeneration process, increases the economic burden.

1 is a schematic diagram showing an example of a method of removing hydrogen sulfide of coke oven gas by using an absorption tower absorbing hydrogen sulfide of coke oven gas of the present invention and a distillation column for regenerating ordination. As described above, the ordination 4 and the MDEA aqueous solution 5 are respectively supplied to the lower and upper ends of the hydrogen sulfide absorption tower 1 and moved to the lower part of the stage, so that the coke oven gas 2 is supplied from the lower part of the absorption tower. It is easy to contact with, and the absorption efficiency of hydrogen sulfide is excellent. In particular, in the hydrogen sulfide absorption tower (1), the supply position of the ordinal water, which is the absorbent liquid, is directly below the uppermost stage, so that the absorbent liquid of the MDEA aqueous solution is supplied at the uppermost stage, so that a small amount of the MDEA aqueous solution is sufficiently utilized by the absorption characteristics. It is to reduce the economic burden.

The present invention will be described in more detail with reference to the following examples and comparative examples. However, an Example is for illustrating this invention and is not limited only to these.

EXAMPLE

Example 1

As shown in FIG. 1, the hydrogen sulfide of the coke oven gas was removed by using an absorption tower that absorbs the hydrogen sulfide of the coke oven gas and a distillation column that regenerates the water. At this time, the gas-liquid contact ratio of coke oven gas and ordination was maintained at 0.3 to 0.35, and the gas-liquid contact ratio of MDEA absorbent liquid of 2 to 5 g per liter was maintained at 0.5 to 0.6.

The hydrogen sulfide absorption efficiency was 95 to 97%, and the steam consumption in the distillation process of the absorption tower regeneration was 80 to 90 ton / hr.

Comparative Example 1

As described in Example 1, the hydrogen sulfide of the coke oven gas is removed, but the gas-liquid contact ratio of the coke-oven gas and the ordination is maintained at 0.2 to 0.25, and the gas-liquid contact ratio of the MDEA absorbent liquid of 2 to 5 g per liter is maintained at 0.5 to 0.6. It was.

As a result, the hydrogen sulfide absorption efficiency was 91 to 93%, and the steam consumption in the distillation process of the absorption tower regeneration process was 80 to 90 ton / hr.

Comparative Example 2

As described in Example 1, the hydrogen sulfide of the coke oven gas is removed, but the gas-liquid contact ratio of the coke oven gas and the ordination is maintained at 0.3 to 0.35, and the gas-liquid contact ratio of the MDEA absorbent liquid of 0.5 to 1 g per liter is maintained at 0.5 to 0.6. It was.

As a result, the hydrogen sulfide absorption efficiency was 92 to 93%.

Comparative Example 3

As described in Example 1, the hydrogen sulfide of the coke oven gas is removed, but the gas-liquid contact ratio of the coke oven gas and the ordination is maintained at 0.3 to 0.35, and the gas-liquid contact ratio of the MDEA absorbent liquid of 5 to 10 g per liter is maintained at 0.5 to 0.6. It was.

As a result, the hydrogen sulfide absorption efficiency was 92 to 93%, and the steam consumption in the distillation step of the absorption tower regeneration process was 100 to 110 ton / hr.

Comparative Example 4

As described in Example 1, the hydrogen sulfide of the coke oven gas is removed, but the gas-liquid contact ratio of the coke oven gas and the ordination is maintained at 0.3 to 0.35, and the gas-liquid contact ratio of the MDEA absorbent liquid of 5 to 10 g per liter is maintained at 0.7 to 0.8. It was.

As a result, the hydrogen sulfide absorption efficiency was 95 to 97%, and the steam consumption in the distillation step of the absorption tower regeneration process was 110 to 120 ton / hr.

Purification method of the present invention by using the ordination as an absorbent liquid to primarily absorb the hydrogen sulfide, and secondly by selectively absorbing using the MDEA aqueous solution as the absorbent liquid, to improve the efficiency of hydrogen sulfide absorption in the coke oven gas while minimizing the economic burden. Can be.

Claims (5)

A method of removing hydrogen sulfide from coke oven gas in which coke oven gas containing hydrogen sulfide and carbon dioxide is contacted with ordination in a hydrogen sulfide absorption tower including a plurality of stages supplied with ordination, selectively absorbing and removing hydrogen sulfide of coke oven gas to ordination. To a) the coke oven gas is brought into contact with ordination at a gas-liquid contact ratio of 0.3 to 0.35 Firstly removing the hydrogen sulfide contained in the coke oven gas; b) 0.5 to 0.5 coke oven gas from which hydrogen sulfide is first removed in step a). Methyldiethanolamine (MDEA; 2-5 g / l) at a gas-liquid contact ratio of 0.6; MethylDiEthanolAmine) in contact with aqueous solution of coke oven gas Removing the remaining hydrogen sulfide secondary Hydrogen sulfide removal method of coke oven gas comprising a. The method of claim 1, The ordination of step a) is supplied to the lower end of the hydrogen sulfide absorption tower to contact the coke oven gas hydrogen sulfide removal method of the coke oven gas. The method of claim 1, The aqueous methyldiethanolamine solution of step b) is supplied to the top of the hydrogen sulfide absorption tower and contacted with the coke oven gas to remove hydrogen sulfide of the coke oven gas. The method of claim 1, The coke oven gas of step a) is supplied from the bottom of the hydrogen sulfide absorption tower is hydrogen sulfide removal method of the coke oven gas discharged to the top. The method of claim 1, The ordination of step a) is hydrogen sulfide removal method of coke oven gas which is distilled and regenerated by steam in the distillation column after the first absorption of hydrogen sulfide.