KR101080168B1 - Cooling apparatus of cokes oven gas using cooling water from gas cooling tower - Google Patents

Abstract

The present invention relates to an apparatus for cooling the coke oven gas during the process of purifying coke oven gas generated when coal is carbonized to produce coke oven gas, circulating ordination to the coke oven outlet pipe for cooling the coke oven gas Is circulated and supplied again, and the apparatus for cooling the coke oven gas cooled by the circulating water again with the cooling water supplied to the gas cooling tower, wherein the cooling water discharged from the gas cooling tower and the coke oven outlet pipe are supplied at a relatively high temperature. The heat exchanger further comprises a heat exchanger for supplying the cooled circulation eye by heat-exchanging phosphorus circulation to the coke oven outlet pipe, thereby lowering the temperature of the coke oven gas flowing into the gas cooling tower, thereby absorbing harmful gas contained in the coke oven gas. There is an effect to improve the.

Gas Cooling Tower, Heat Exchanger, Circulating Water, Coolant

Description

Cooling apparatus of cokes oven gas using cooling water from gas cooling tower             

1 is a schematic view showing a purification process of a conventional coke oven gas.

2 is a schematic view showing a process for purifying coke oven gas provided with a heat exchanger of the present invention.

3 is a graph showing the temperature change of the coke oven gas according to the temperature of the circulating eye.

Description of the Related Art

10 coke oven 20 coke oven outlet piping

30: decant 40: gas cooling tower

100: heat exchanger

The present invention relates to an apparatus for cooling a coke oven gas during the process of purifying coke oven gas generated when coal is carbonized to manufacture coke oven, and more specifically, circulating ordination supplied to an outlet pipe of a coke oven. The present invention relates to a cooling apparatus for coke oven gas using exhaust cooling water of a gas cooling tower which lowers the temperature of the coke oven gas supplied to the gas cooling tower by heat-exchanging the circulating ammonia liquor and the cooling water discharged from the gas cooling tower.

Coke oven gas is generated by the volatile matter of coal when the coke is prepared by charging coal in a hot coke oven, and in general, coke oven gas is discharged at a temperature of about 800 to 900 ° C.

The coke oven gas contains various chemical substances and valuable substances that are the raw materials of coal chemistry such as benzene, toluene and naphthalene, but on the other hand, it causes air pollution such as ammonia, hydrogen sulfide and hydrogen cyanide. It contains a large amount of substances.

Therefore, in order to recover various harmful substances and valuable substances contained in the coke oven gas, as shown in FIG. 1, the coke oven gas COG discharged from the coke oven 10 is hydrogen sulfide absorption tower 50, ammonia Hydrogen emulsification, ammonia, BTX, etc. are removed while passing through the absorption tower 60 and the BTX absorption tower 70, and finally the purified coke oven gas (refined COG) is reused as a high calorific combustion gas in the steel mill.

In order to go through this absorption process, the temperature of the coke oven gas discharged to a high temperature must be lowered to room temperature. At this time, the coke oven outlet pipe (Gas Collecting Main; 20) is first used to lower the temperature of the coke oven gas at 800 to 900 ° C. The circulating ordination as cooling water supplied from the decanter 30 is injected to lower the coke oven gas temperature to about 80 ° C.

The coke oven gas lowered to 80 ° C is heat-exchanged with 30 ° C of cooling water and countercurrent in a primary gas cooler (PGC; 40) in the chemical conversion process, and is cooled to about 32-35 ° C according to the season. Is changed.

As the temperature of the coke oven gas is lower, the absorption rate of harmful components increases, and in order to increase the absorption rate, conventionally, an additional cooler is additionally installed in the gas cooling tower to cool the temperature below 30 ° C. But there was a problem that huge energy is consumed to operate it.

On the other hand, in order to lower the temperature of the coke oven gas at the rear end of the gas cooling tower 40 to 30 ° C. or lower, it is possible to lower the temperature of the coke oven gas at the coke oven outlet pipe 20 to 80 ° C. or lower. Since it has a temperature of 80 degreeC, it was extremely difficult to cool coke oven gas below this temperature.

The present invention for solving the problems of the prior art as described above is to exchange the circulating water used to cool the high temperature coke oven gas generated in the coke oven heat exchanged with the discharge cooling water of the gas cooling tower of the coke oven gas without the use of an additional refrigerator It is an object of the present invention to provide a coke oven gas cooling device using exhaust cooling water of a gas cooling tower capable of lowering the temperature efficiently.

The apparatus for cooling the coke oven gas using the discharge cooling water of the gas cooling tower of the present invention for achieving the above object, the circulation of the circulating water is circulated supply to the coke oven outlet pipe for cooling the coke oven gas, the cooling by the circulation An apparatus for cooling the coke oven gas again by cooling water supplied to a gas cooling tower, wherein the cooling water discharged from the gas cooling tower and the circulating ordination that is cooled by heat-exchanging relatively high temperature circulating water before being supplied to the coke oven outlet pipe are cooled. It further comprises a heat exchanger for supplying the coke oven outlet side piping.

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

The basic structure of the present invention is basically the same as the configuration of FIG. 1 showing the purification process of the conventional coke oven gas, but as shown in FIG. 2, the circulation ordination before being supplied to the coke oven outlet pipe 20 is a gas cooling tower. The present invention is characterized in that it further comprises a heat exchanger (100) for heat exchange with the discharge cooling water of (40).

That is, according to the exemplary embodiment of the present invention, instead of discharging the cooling water discharged from the gas cooling tower 40 to the outside, the circulating ordination supplied from the decanter 30 to cool the coke oven outlet pipe 20. By installing a heat exchanger 100 for heat exchange with the coke oven, the temperature of the circulating water supplied to the outlet side pipe 20 is lowered.

In the actual site, the temperature of the circulating water supplied to the coke oven outlet pipe 20 is about 80 ° C., and is cooled to about 60 ° C. through heat exchange in the heat exchanger 100 with the cooling water discharged from the gas cooling tower 40, The circulating coolant cooled in this way is supplied to the coke oven outlet pipe 20 so that the coke oven gas can be lowered to about 70 ° C.

Therefore, by using the heat exchanger 100 configured as described above by lowering the temperature of the coke oven gas to increase the absorption efficiency in the hydrogen emulsion absorption tower 50, ammonia absorption tower 60, BTX absorption tower 70 as a post-process It can be raised.

Hereinafter, the operation and effect of the present invention will be described in detail by explaining an experimental example in which the apparatus according to the embodiment of the present invention is applied to actual operation.

As the experimental conditions, the flow rate of the coke oven gas discharged from the coke oven 10 is 80000 Nm ³ / hr, the temperature before the circulating water injection of the coke oven outlet pipe 20 is 900 ℃, in order to lower the temperature of the coke oven gas The temperature of the circulating eye to be injected, that is, the circulating eye supplied from the decant 20, was 80 ° C. and the flow rate thereof was 540 Nm ³ / hr.

First, as a comparative example, when the heat exchanger 100 of the present invention is not used, the temperature of the coke oven gas supplied to the gas cooling tower 40 when the circulation water supplied to the coke oven outlet pipe 20 is 80 ℃ Was 79 ° C.

Next, in the case of using the heat exchanger 100 as an embodiment of the present invention, when the temperature of the circulating water supplied to the coke oven outlet side pipe 20 is 75 ℃, 70 ℃, 65 ℃ and 60 ℃, respectively, The temperature of the coke oven gas supplied to the gas cooling tower 40 fell to 78 degreeC, 76 degreeC, 75 degreeC, and 74 degreeC with respect to each.

The results of the experiment are as shown in the graph of FIG. 3, and as the temperature of the circulating water supplied to the coke oven outlet pipe 20 is lower, the temperature of the coke oven gas flowing into the gas cooling tower 40 is linear. It can be seen that the decrease.

Therefore, when using the heat exchanger 100 constituting the present invention, the temperature of the coke oven gas supplied to the gas cooling tower 40, as well as the emulsion gas absorption tower 50, ammonia absorption tower 60, BTX as a post-process As the temperature of the coke oven gas sequentially supplied to the absorption tower 70 is sequentially lowered, the purification efficiency of the entire coke oven gas may be improved.

As described above, the detailed description of the present invention has been described with respect to specific embodiments, which are merely exemplary and various modifications are possible without departing from the scope of the technical idea of the present invention.

When using the coke oven gas cooling device using the exhaust cooling water of the gas cooling tower of the present invention configured as described above in detail, the cooling water discharged from the gas cooling tower by heat exchange in a heat exchanger and a relatively high temperature circulating water to the gas cooling tower As the temperature of the coke oven gas to be supplied can be lowered, the purification efficiency of the entire coke oven gas can be remarkably improved by improving the absorption rate of the harmful gas included in the coke oven gas in a post process.

Claims (1)

In the apparatus for circulating water is circulated supply to the coke oven outlet pipe for cooling the coke oven gas, and to cool the coke oven gas cooled by the circulating water again by the cooling water supplied to the gas cooling tower, Discharging the gas cooling tower further comprising a heat exchanger for supplying the cooled circulating water to the coke oven outlet pipe by heat-exchanging the relatively high temperature circulating water before being supplied to the outlet pipe for the coke oven outlet and the cooling water discharged from the gas cooling tower. Cooling system for coke oven gas using cooling water.

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