KR100435585B1 - Exhaust gas processing device - Google Patents

Abstract

The present invention relates to an exhaust gas treatment apparatus, and more particularly, a scrubber connected to a lime kiln, a blast furnace, or the like, to collect high-temperature dust generated by spraying water, and to discharge gas purged through the scrubber into the atmosphere. In the exhaust gas treatment device of the stack, the outer cylinder erected in a vertical direction and the upper side of the outer cylinder is concentrically suspended and the lower portion is in communication with the outlet of the scrubber on the inner cylinder and the upper side of the outer cylinder. An intake port formed in a tangential direction to allow exhaust gas to flow into the outer cylinder and spiral flow downward, and an exhaust port provided at the upper central portion of the outer cylinder to communicate with the stack and a lower side to communicate with the inner cylinder; Respectively formed on the side wall of the cylinder and cooling on the lower and upper sides respectively. An inlet pipe and a cooling water outlet pipe connected to a space part for reducing the heat of dust and condensing water vapor in the exhaust gas contacted with the inflow pipe, and a hopper connected to the drain pipe at the lower portion of the outer cylinder and collecting the dust and condensed water. It is characterized by including.

Exhaust gas treatment apparatus according to the present invention has the effect that the dust and moisture in the flue gas is dramatically reduced in the disclosed general flue gas treatment system to clean the air and condense the moisture to be reused.

Description

Exhaust gas processing device

The present invention relates to an exhaust gas treatment device, and more particularly, to clean the air by drastically reducing dust and moisture in the exhaust gas in a general exhaust gas treatment system for collecting dust in the exhaust gas by spraying and lowering the temperature of the gas. To condense and reuse moisture.

As is well known, the treatment of flue-gases generated by various industries differs depending on the characteristics of the process, the type of gas discharged, and the reusability. For example, in the calcining process for treating solid raw materials, cement manufacturing and blast furnace processes, etc. Since the gas generated after the reaction is quite hot and contains a large amount of dust, it cannot be discharged to the atmosphere as it is, so it is discharged through a wet dust collecting device (scrubber).

However, in a large-capacity facility with a quantity of emitted gas of 10000 nm ³ / h or more, the amount of collected dust is too high, which is not only inefficient but also negligible of the cost of collecting dust. for the one step production if one days in terms of the amount of drug as a 40㎚ ³ / h in the amount of about 70000㎚ ³ / h and the binary number to be used at home in the gas discharged by the plant treatment costs of about 400t of about 40 manwon the soyodoem Able to know. Despite these treatment costs, the flue-gas passed through the dust collection equipment contains about 20-25 vol% of moisture and about 20-100 mg of undusted dust, depending on the operating conditions. .

The present invention has been proposed in view of such a point, and it is possible to clean the exhaust gas after the dust collecting facility by collecting uncollected dust and moisture in the exhaust gas between the scrubber and the stack, and exhausting only the purified gas to the atmosphere. It is an object of the present invention to provide an exhaust gas treating apparatus that increases the reuse rate of carbon dioxide, which is a water-soluble gas, and reduces the consumption of dust collection.

1 is a process schematic diagram of a typical rotary kiln.

2 is an overall configuration diagram of an exhaust gas treating apparatus according to the present invention.

3 is a gold mesh installation state of the exhaust gas treatment apparatus according to the present invention.

Figure 4 is a detailed view of the internal structure of the exhaust gas treating apparatus according to the present invention.

*** Explanation of symbols for the main parts of the drawing ***

1: rotary kiln 2: scrubber

3: stack 101: outer cylinder

102: inner cylinder 103: intake vent

104: exhaust port 105: hopper

106: drain pipe 107,108: space part

109,110,115: cooling water inlet pipe 111,112: cooling water outlet pipe

113,118: Gold mesh 114: spray nozzle

116: vane 117: spiral plate

In order to achieve the above object, the present invention is connected to a lime kiln, a blast furnace, etc., and a scrubber for spraying and collecting high-temperature dust generated therefrom, and exhaust gas having a stack for discharging the gas purified through the scrubber into the atmosphere. In the processing apparatus, an outer cylinder erected in a vertical direction, an inner cylinder suspended concentrically on the upper side of the outer cylinder, the lower portion is open, and formed in a tangential direction while communicating with the outlet of the scrubber on the upper side of the outer cylinder. An inlet for introducing exhaust gas into the outer cylinder and causing helical flow to the bottom, an exhaust port provided at the upper central portion of the outer cylinder to communicate with the stack and a lower side to communicate with the inner cylinder; It is formed on the side wall, respectively, and the coolant inlet pipe and coolant oil on the lower and upper sides, respectively. The pipe is connected to the contact flow flow to reduce the heat of the dust of the exhaust gas and condensing water vapor, and a hopper which is provided connected to the drain pipe in the lower portion of the outer cylinder and collects the dust and condensate do.

Optionally, the exhaust gas treating apparatus according to the present invention is provided between the inner cylinder and the outer cylinder, and at the lower end of the inner cylinder, respectively, to filter a large amount of dust and to reduce a flow rate of dust and water vapor at a predetermined mesh size. Characterized in that it further comprises a gold mesh having, or further comprising a spray nozzle which is provided on top of the inner cylinder for spraying cooling water for the condensation of water vapor and the collection of dust, or the outside and inside of the inner cylinder It further comprises a plurality of vanes are formed in each protruding to guide the flowing exhaust gas to generate a vortex to reduce the flow rate, or is provided in the inner center of the inner cylinder and discharged It characterized in that it further comprises a spiral plate to guide the spiral or The drain pipe connected to the air hopper is characterized in that the highest point is bent higher than the connection portion to have a predetermined water level.

Hereinafter, the present invention will be further embodied according to the examples presented.

The subject process to which the present invention is applied is a lime kiln, the capacity is 400t / d, the gas generated is 68000-72000nm ³ / h per hour, contains about 20vol% moisture and 30-50mg / nm ³ dust Doing.

Such lime kilns generally collect hot dust, which is exhausted after passing through a rotary kiln 1, through a scrubber 2, and purged exhaust gas through the stack 3 as shown in FIG. In the process of producing a large capacity, the amount of dust collection through the scrubber (2) is excessive, the treatment cost is high, while the treatment efficiency is reduced, this problem has been described above.

In order to solve this problem, the present invention provides a direct exhaust gas treatment device, that is, a dust and moisture collecting device in the exhaust gas, between the scrubber 2 and the stack 3, and the specific configuration thereof is as follows.

Exhaust gas treatment apparatus according to the present invention has a double cylindrical structure in the vertical direction as shown in Figures 2 to 4 and the exhaust gas is introduced into the upper side of the outer cylinder 101 to form a spiral flow path downward An inlet 103 is formed in a tangential direction to communicate with the outlet of the scrubber 2 so as to flow, and the inner cylinder 102 is suspended from the upper side of the outer cylinder 101 concentrically with the outer cylinder 101. It has a shape that passes through, and the exhaust port 104 communicating with the stack 3 to the outside in the upper center of the outer cylinder 101 is installed to communicate with the inner cylinder 102, the lower portion of the outer cylinder 101 It is formed of a hopper 105 having a drain pipe 106 so as to collect, and spaces 107 and 108 are formed in the walls of each cylinder, and a coolant inlet pipe (below) of each space 107 and 108 is formed. 109 and 110 are respectively connected and the upper side of each space 107 and 108 Is the cooling water outlet pipe 111, 112 are connected to each with a respective recess 107, wetter jacket forms a water filled in (108).

In addition, between the outer cylinder 101 and the inner cylinder 102 is provided with a gold mesh 113 having a size of 50 mesh to filter out large dust and at the same time to reduce the flow rate of dust and water vapor, the inner cylinder ( A spray nozzle 114 is installed at the upper part of the upper part to condense water vapor and collect dust, and a cooling water inlet pipe 115 is connected to the outside and inside of the inner cylinder 102 to generate vortex while guiding exhaust gas. A plurality of vanes 116 are formed to protrude to reduce the flow rate thereof, and a spiral plate 117 is interposed in the inner center of the inner cylinder 102 to spirally discharge the exhaust gas, and the inner cylinder ( At the lower end portion of the 102, a gold screen 118 is provided as a filter for delaying the residence time while filtering large dust in the exhaust gas discharged, and the drain pipe 106 connected to the hopper 105 has a predetermined value. Have a higher level is the highest point bending configuration higher than that joints.

At this time, the coolant inflow pipes 109 and 110 connected to the lower portions 107 and 108 of the cylinders 101 and 102 are directly connected to the lower side in the case of the outer cylinder 101 due to the spatial characteristics. , In the case of the inner cylinder 102 is connected to the lower side down along the inner cylinder 102 from the top, the coolant is filled from each of the lower and discharged through the coolant outlet pipe 111, 112 of the upper side It has a structure, the diameter of the inner cylinder 102 is configured to about 1/2 of the outer cylinder 101, the gold mesh 113, 118 is made of sus (SUS) material so as not to corrode moisture.

Referring to the operation of the exhaust gas treatment apparatus according to the present invention configured as described above are as follows.

First, when the exhaust gas after passing through the scrubber 2 through the inlet port 103 flows in between the inner cylinder 102 and the outer cylinder 101 by the shape of the inlet port 103, the suction pressure and the gravity of the exhaust gas. A spiral flow path is formed along the inner wall and flows downward, and flows from the lower side of the outer cylinder 101 to the inner cylinder 102 through which it is discharged through the upper exhaust port 104 while forming a spiral flow path. , Each cylinder 101, 102 is made in the form of a water jacket so that the coolant is circulated through the wall, the exhaust gas forms a spiral flow path while the wall surface of the outer cylinder 101 or the inner cylinder 102 by centrifugal force Since the hot exhaust gas is in contact with the water jacket and heat exchanges, the temperature of the exhaust gas is reduced, and the moisture in the vapor state condenses and falls downward. Will, the cooling water flowing through the cooling water inlet pipe 109, 110 is to repeat the process of heat exchange with the exhaust gas discharged, the circulated cooling water outlet pipe 111, 112 in a state tossed heat.

In addition, since the spray nozzle 114 is installed around the circumference to continuously spray the coolant on the upper portion of the outer cylinder 101, the dust in the introduced exhaust gas may be collected in a downward direction together with the sprayed water. Hot steam can also be condensed by cold cooling water sprayed. In addition, the water condensed from the sprayed cooling water and the water vapor in the exhaust gas is drained through the drain pipe 106 connected to the lower hopper 105 of the outer cylinder 101, and the highest position of the drain pipe 106 is hopper so that the water is filled up to a lower predetermined height. It is formed higher than the position connected to the bottom 105 can be uniformly drained while maintaining a certain level of water level.

On the other hand, when the gold mesh 113 having a size of 50 mesh is installed between the outer cylinder 101 and the inner cylinder 102 as shown in Figure 3 to filter the large dust by the net in the process of passing the exhaust gas and At the same time, the flow rate of the dust and water vapor is reduced may act advantageously to the collection, and as shown in Figure 4 to form a plurality of vanes 116 to the inner and outer walls of the inner cylinder 102 in the process of passing the exhaust gas through the cylinder It is apparent that by forming the vortex, the residence time can be extended and the collection efficiency can be improved by reducing the flow rates of dust and moisture having a large specific gravity in the flue gas.

In addition, the lower end of the inner cylinder 102 is provided with a gold mesh 118 that acts as a filter to provide a large dust in the same manner as the role of the gold mesh 113 provided between the inner cylinder 102 and the outer cylinder 101. Filtering can increase the collection efficiency by delaying the flow rate of dust and water vapor.

In addition, the exhaust gas flowing between the outer cylinder 101 and the inner cylinder 102 may be smoothly induced in the helical direction only in the tangential direction according to the inlet pressure and the gravity, but is raised through the inner cylinder 102. Since the exhaust gas cannot be naturally induced in the spiral direction, for this reason, the spiral plate 117 is installed at the center of the inner cylinder 102. In this case, the exhaust gas can be induced in the spiral direction, which is also collected. It can help to improve efficiency.

Table 1 below shows the effect of reducing the dust and moisture content by installing each facility in the exhaust gas treatment apparatus according to the present invention.

TABLE 1

Existing Flue Gas Ⓐ water jacket Ⓑⓐ + suspension net Ⓒⓑ + vane Ⓓ ⓒ + spray Dust (mg / nm ³ ) 50 50 40 30 10 Moisture (vol%) 20 15 12 8 5

As described above, in the present invention, the exhaust gas is guided in a spiral direction while passing through a double-cylinder channel, and moved downward to discharge to the upper portion, and there is a structure for extending the residence time of the exhaust gas therein. In addition, since the coolant with low temperature is circulated at the contact point of the exhaust gas, it is possible to smoothly collect fine dust which cannot be collected by the scrubber, and also to condense a large amount of water and reuse it to prevent air pollution. Of course, there is a very useful effect that can significantly reduce the exhaust gas treatment costs.

Claims (8)

In the exhaust gas treatment apparatus comprising a scrubber connected to a lime kiln, a blast furnace, etc. by spraying water to collect high-temperature dust generated therefrom, and a stack for discharging the gas purified through the scrubber to the atmosphere, An outer cylinder erected in a vertical direction; An inner cylinder suspended concentrically on an upper side of the outer cylinder and having a lower portion open; An inlet formed in a tangential direction while communicating with an outlet of the scrubber on an upper side of the outer cylinder to allow exhaust gas to flow into the outer cylinder and spirally flow downward; An exhaust port provided at an upper central portion of the outer cylinder to communicate with the stack at a lower side thereof and communicate with the inner cylinder at a lower side thereof; Spaces respectively formed on sidewalls of the inner and outer cylinders and connected to a cooling water inlet tube and a cooling water outlet tube on a lower side and an upper side, respectively, to reduce the heat of dust in the exhaust gas and to condense water vapor; And And a hopper connected to a drain pipe at a lower portion of the outer cylinder and collecting the dust and the condensate. delete The method of claim 1, The exhaust gas further comprises a gold mesh having a predetermined mesh size provided between the inner cylinder and the outer cylinder and at the lower end of the inner cylinder to filter out large dust and reduce the flow rate of dust and water vapor. Processing unit. The method of claim 1, The exhaust gas treatment apparatus further comprises a spray nozzle which is provided in the upper portion of the inner cylinder for spraying the cooling water for condensation of water vapor and the collection of dust. The method of claim 1, And a plurality of vanes protruding from the inside and the inside of the inner cylinder to guide the flowing exhaust gas, thereby generating a vortex to reduce the flow rate thereof. The method of claim 1, And an helical plate provided in the inner center of the inner cylinder to spirally guide the flow of the exhaust gas discharged. delete The method of claim 1, The exhaust pipe connected to the hopper is an exhaust gas treatment device, characterized in that the highest point is configured to be bent higher than the connection portion to have a predetermined water level.