KR20120029666A - U-shape high pressure scrubber system - Google Patents

Abstract

PURPOSE: A U-shaped high pressure scrubber system is provided to improve the efficiency of dust collection with respect to fine dust and to reduce spatial restrictions for securing retention time. CONSTITUTION: A U-shaped high pressure scrubber system includes a first-stepped venturi type scrubber discharging part(10) and a second-stepped cylindrical scrubber reactor(30). The first stepped venturi type scrubber discharging part sprays spraying water to high temperature synthetic gas, and dust particles are eliminated from the synthetic gas. The second stepped cylindrical scrubber reactor is in connection with the discharging part and discharges wastewater after the dust particle elimination of the synthetic gas. The discharging part is formed into a U-shape.

Description

U-SHAPE HIGH PRESSURE SCRUBBER SYSTEM

The present invention relates to a U-shaped high pressure scrubber system, and more particularly to remove the dust contained in the synthesis gas generated through the high temperature / high pressure gasification process and to control the temperature of the synthesis gas in consideration of the operating conditions of the post-stage process It relates to a U-shaped high pressure scrubber system.

As is well known, there are many ways to treat harmful substances in gas streams or exhaust gases such as industrial processes, power plants, and incineration plants. Different devices and systems are selected according to the installation location characteristics. Recently, attention has been focused on the development of a technology and a device capable of simultaneously removing various pollutants with a single device by rethinking the industrial environmental technology level and qualitative competitiveness. Among the devices for treating such harmful pollutants, a cleaning device capable of simultaneously removing harmful gas and dust is used in many processes because the device is simple and easy to maintain.

In the case of the cleaning scrubber which is a typical treatment device, the outflow of the gas is generally prevented by adjusting the internal water level. When the high / low level control is performed, pressure fluctuations are caused by the incoming gas. This affects the operating conditions of the front and rear systems. In addition, clogging of the automatic control valve occurs due to fine dust deposits contained in the discharged wastewater, which causes problems in controlling the internal water level.

In addition, in order to process a large volume of gas, the size of the scrubber must be increased in proportion to the amount of gas, so that space constraints occur with an increase in manufacturing cost.

As a similar patent, the cyclone scrubber disclosed in Korean Patent No. 10-0905046, which is a three-turn cyclone scrubber, has a short residence time due to the centrifugal force caused by the rotation of the processing gas and the cleaning liquid sprayed from the nozzle. Further extension effectively removes dust and gaseous contaminants at the same time.

As another patent, the deodorizing apparatus of Korean Patent No. 10-0663635, which is a rotary deodorizing device of a pressurized deodorizing solution, is a scrubber using a chemical liquid washing tower type deodorizing method. It is a deodorization tower equipped with a self-rotating chemical liquid injector used to remove harmful substances such as dust, which can increase the contact between the treated gas and the chemical liquid and increase the deodorization efficiency accordingly.

As another patent, Korean Patent Application No. 10-2008-0060083, which is an automatic removal device of the sediment sludge of the wet scrubber, does not disassemble and disassemble the wet scrubber. By removing the water, the frequency of cleaning water is reduced, and the economic life is improved by preventing the shortening of equipment life due to the repeated disassembly and assembly of equipment. Also, the deodorization efficiency and dust cleaning efficiency are increased by maintaining clean cleaning water. Reduced nozzle clogging reduces maintenance costs.

However, in order to manufacture alternative fuels and natural gas using syngas whose main components are carbon monoxide (CO) and hydrogen (H ₂ ) generated in various gasification processes, the synthesis gas generated through high-temperature / high-pressure gasification process Although the process of controlling the temperature of the synthesis gas in consideration of the removal of the included dust and the operating conditions of the post-stage process is required, the above-mentioned similar patents are not related to this required process.

Accordingly, the present invention has been made to meet the necessity as described above, the object of which is simple structure, less pressure fluctuations for the high-pressure gas flowing in, the U can be efficiently treated in the case of deposits such as dust It is to provide a magnetic high pressure scrubber system.

Another object of the present invention is to provide a U-shaped high pressure scrubber system having the advantage of low installation cost and maintenance cost compared to the general spray tower scrubber.

U-shaped high pressure scrubber system according to an aspect of the present invention for achieving the above object is a high pressure scrubber system, by spraying the sprayed water to the high-temperature synthesis gas flowing, the dust particles in the synthesis gas collision with water droplets A two-stage cylindrical scrubber reactor connected to the first stage venturi scrubber pipe unit for removal and the waste water after the fine dust in the syngas is removed to the waste water outlet pipe connected to the rear-end equipment. Include.

Venturi-type scrubber pipe portion is U-shaped, one side of the scrubber venturi is installed is connected to the high temperature synthesis gas inlet pipe, the other side may be connected to the synthesis gas outlet pipe.

And a differential pressure gauge for measuring a differential pressure between the pressure of the venturi type scrubber pipe portion and the pressure of the cylindrical scrubber reactor, and an automatic control valve for wastewater discharge installed in the wastewater outlet pipe of the cylindrical scrubber reactor. The automatic control valve may be controlled to maintain a constant level of the cylindrical scrubber reactor in accordance with the differential pressure measured by.

The cylindrical scrubber reactor includes an inclined perforated plate installed to deposit dust contained in the sprayed water, and aeration means installed to discharge the suspended solids deposited on the porous plate without being discharged together with the waste water.

U-shaped high pressure scrubber system of the present invention is a filter device installed to filter out the fine dust contained in the wastewater in the wastewater discharge pipe, a water storage tank for storing the wastewater from which the fine dust is removed through the filter device, and the water storage It may further include a water supply pump for supplying the water stored in the tank as the spray water to the venturi-type scrubber pipe.

Venturi scrubber pipe portion and the cylindrical scrubber reactor may be installed in a multi-stage combination in the form of a module according to the flow rate of the flow of the synthesis gas.

According to an embodiment of the present invention, the scrubber is U-shaped, by spraying water in two stages of countercurrent and cocurrent, but the cocurrent is venturi-type, the countercurrent is cylindrical to make it easy to control the temperature of the synthesis gas, The dust collection efficiency of fine dust can be improved, and in the general scrubber, the residence time is increased by increasing the length or width of the scrubber body, which can cause spatial constraints, compared to the conventional straight cylindrical method. There is an effect that less spatial constraints to ensure the same residence time occurs.

In addition, the U-shaped high pressure scrubber system of the present invention is naturally directed downward by aeration of dust particles accumulated on a porous plate installed inside a cylindrical scrubber reactor, and is discharged to the bottom by being discharged to the external dust storage tank. By minimizing the amount of dust, it is possible to prevent the blockage of the control valve for water level control.In addition to the conventional high / low level control, a constant level control method of measuring the differential pressure between the top and the bottom of the scrubber is applied to the high pressure condition. In the case of gas inflow, it is possible to minimize the pressure fluctuation due to the fluctuation of the scrubber level, which has the effect of stable operation of the downstream equipment.

1 is a block diagram of a U-shaped high pressure scrubber system according to an embodiment of the present invention,
FIG. 2 is a detail view of portion “A” of the inclined perforated plate of FIG. 1.

Hereinafter, with reference to the accompanying drawings will be described in detail the operation of an embodiment according to the present invention. In the following description of the present invention, if it is determined that a detailed description of a known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. The following terms are defined in consideration of the functions of the present invention, and may be changed according to the intentions or customs of the user, the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

1 illustrates a configuration of a U-shaped high pressure scrubber system according to an embodiment of the present invention, and FIG. 2 illustrates a configuration of the inclined porous plate of FIG. 1 in detail.

As shown in FIG. 1, the U-shaped high pressure scrubber system of the present invention is a high pressure scrubber system, and has a U-shaped single-stage venturi type scrubber piping 10 and a lower portion of the venturi type scrubber piping 10. The two stage cylindrical scrubber reactor 30 connected by the scrubber connection flange 11 is composed of two stages.

Venturi-type scrubber piping 10 is U-shaped, one side is equipped with a scrubber venturi 12 is connected to the high temperature synthesis gas inlet pipe 13, the other side is connected to the synthesis gas outlet pipe (14). . In addition, a pair of water spray nozzles 22 and 24 are attached to spray the sprayed water onto the high temperature synthetic gas flowing therein, and the sprayed sprayed water collides with the dust particles in the syngas to block and remove the dust.

After the fine dust in the syngas is removed, the wastewater is discharged to the wastewater outlet pipe 32 of the cylindrical scrubber reactor 30 connected to the lower portion of the venturi-type scrubber piping 10 to be discharged to the facility (not shown) at the rear end. do. At this time, by adjusting the amount of water sprayed can be adjusted the temperature of the synthesis gas to match the operating conditions of the post-stage process.

As described above, the U-shaped high pressure scrubber system of the present invention has a top of a venturi type and a bottom of a cylindrical shape, so that dust removal efficiency is better than that of a conventional cleaning device. Although not illustrated as a specific embodiment, the venturi scrubber piping 10 and the cylindrical scrubber reactor 30 may be installed in a multi-stage combination according to the flow rate of the incoming synthesis gas. As described above, the U-shaped high pressure scrubber system of the present invention can be designed in a modular form according to the flow rate of the synthesis gas and connected in multiple stages, so that it can be installed in various small spaces depending on the efficiency even when a large amount of synthesis gas is introduced. The manufacturing cost of the device can also be reduced.

On the other hand, the U-shaped high pressure scrubber system of the present invention is a differential pressure gauge (PDT) 100 for measuring the pressure of the venturi-type scrubber pipe 10 and the pressure of the cylindrical scrubber reactor 30, the cylindrical scrubber reactor 30 The apparatus further includes an automatic control valve 60 for discharging wastewater, which is installed in the wastewater discharge pipe 32. When the water inside the scrubber is controlled at a high / low level, the scrubber is in a condition where high-pressure synthesis gas is introduced. When a pressure fluctuation occurs due to the internal water level, the level of the cylindrical scrubber reactor 30 can be kept constant by controlling the automatic control valve 60 in accordance with the differential pressure measured by the differential pressure gauge 100.

The cylindrical scrubber reactor 30 is provided with an inclined perforated plate 34 therein, and dust contained in the sprayed water is deposited on the perforated plate 34, and dust suspended matter deposited on the inclined perforated plate 34. Is aerated by the aeration means. As shown in FIG. 2, the aeration means includes an air tank 50 installed to supply air to the inclined perforated plate 34 on which dust suspended matter is deposited, and dust aerated by air supplied from the air tank 50. The dust storage tank 40 is installed to store the suspended matter, the air from the air tank 50 is supplied to the inclined porous plate 34 through the nozzle 36 below the inclined porous plate 34 Accordingly, the aerated dust suspended matter is not discharged together with the wastewater but is discharged to the dust storage tank 40 outside the cylindrical scrubber reactor 30. As a result, clogging of the automatic control valve for level control by fine dust can be prevented.

In addition, the U-shaped high pressure scrubber system of the present invention is provided with a filter device 70 in the wastewater discharge pipe 32, so that the water discharged through the wastewater discharge pipe 32 is recycled to the venturi-type scrubber pipe portion 10, the filter device After storing the wastewater in which the fine dust is secondarily filtered through the water storage tank (80), the water stored in the water storage tank (80) by the operation of the water supply pump (90) as spray water. The water jet nozzles 22 and 24 of the venturi scrubber pipe portion 10 can be jetted.

As described above, the U-shaped high pressure scrubber system of the present invention can be connected to the multi-stage according to the supply flow rate of the synthesis gas by constructing a modular structure in two stages in one compact scrubber, it can be installed at a low cost in a small space, dust Since the suspended solids are aerated and not discharged together with the wastewater, they are discharged to a separate dust storage tank outside the scrubber, thereby preventing the blockage of the control valve, and by the automatic control of the wastewater discharge automatic control valve, Pressure fluctuations are minimized, and fine dust in the discharged waste water is secondaryly filtered and recycled to the scrubber system.

Since only one preferred embodiment of the U-shaped high pressure scrubber system according to the present invention described above, the present invention is not limited to the above-described embodiment, the subject matter of the present invention as claimed in the following claims Without departing from the scope of the present invention, any person having ordinary skill in the art will have the technical spirit of the present invention to the extent that various modifications can be made.

10: venturi type scrubber piping 11: scrubber connection flange
12: scrubber venturi 13: syngas inlet pipe
14: syngas outflow pipe 22, 24: water spray nozzle
30: cylindrical scrubber reactor 32: wastewater outflow pipe
34 inclined perforated plate 36 nozzle
40: dust storage tank 50: air tank
60: automatic control valve for wastewater discharge 70: filter device
80: water storage tank 90: water supply pump
100: scrubber differential pressure gauge

Claims (6)

As a high pressure scrubber system,
A one-stage venturi-type scrubber pipe unit for spraying sprayed water onto the flowing high-temperature synthesis gas to block and remove dust particles in the synthesis gas by collision with water droplets;
A two-stage cylindrical scrubber reactor connected to the venturi-type scrubber pipe unit to discharge wastewater after the fine dust in the syngas is removed to a wastewater outlet pipe connected to a facility at a later stage;
U-shaped high pressure scrubber system.
The method of claim 1,
The venturi-type scrubber piping is U-shaped, one side is installed scrubber venturi is connected to the high temperature synthesis gas inlet pipe, the other side is connected to the synthesis gas outlet pipe
U-shaped high pressure scrubber system.
The method of claim 1,
A differential pressure gauge for measuring a differential pressure between the pressure of the venturi scrubber pipe and the pressure of the cylindrical scrubber reactor;
Further comprising an automatic control valve for wastewater discharge installed in the wastewater outlet pipe of the cylindrical scrubber portion,
Controlling the automatic control valve to maintain the level of the cylindrical scrubber portion in accordance with the differential pressure measured by the differential pressure gauge
U-shaped high pressure scrubber system.
The method according to claim 1 or 3,
The cylindrical scrubber reactor
An inclined perforated plate installed so that dust contained in the sprayed water is deposited;
Aeration means for aeration of the dust suspended matter deposited on the perforated plate to discharge the wastewater together with the wastewater;
U-shaped high pressure scrubber system.
The method according to claim 1 or 3,
A filter device installed to filter out fine dust contained in the wastewater in the wastewater discharge pipe;
A water storage tank for storing wastewater from which fine dust is removed by passing through the filter device;
A water supply pump for supplying the water stored in the water storage tank as the spray water to the venturi-type scrubber pipe portion further comprising:
U-shaped high pressure scrubber system.
The method of claim 1,
The venturi scrubber pipe portion and the cylindrical scrubber reactor are installed in a multi-stage combination in the form of a module according to the flow rate of the incoming synthesis gas
U-shaped high pressure scrubber system.

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