CN220230126U - Gas condenser with adjustable outlet temperature - Google Patents

Abstract

The utility model provides a gas condenser with adjustable outlet temperature, which comprises a tank body with an air inlet at the top, an air outlet at the bottom and a cooling water cavity in the tank body, wherein a heat exchange tube group communicated with the air inlet and the air outlet is arranged in the cooling water cavity, and a cooling water inlet pipe and a cooling water outlet pipe communicated with the cooling water cavity are arranged on the tank body. The valve is used for timely cooling and regulating the gas to be cooled in the single or a plurality of cooling water cavities, so that the problem that corrosive liquid corrodes equipment due to the fact that the cooling temperature of the gas is too low is solved. Simple structure, convenient use and good effect.

Description

Gas condenser with adjustable outlet temperature

Technical Field

The utility model relates to a gas condenser, in particular to a gas condenser with an adjustable outlet temperature, and belongs to the technical field of heat exchanger design and manufacture.

Background

In the dry purification and dust removal system of the submerged arc furnace gas, the outlet temperature of the high-temperature dry fine dust remover gas is generally more than 400 ℃, the high-temperature gas is cooled by a primary gas condenser, the temperature of the gas is reduced to 200 ℃, the gas enters a gas pressurizing fan, and the gas enters a secondary gas condenser to be cooled to 50 ℃ after being pressurized and is sent to downstream users. At present, when the gas flow rate of the primary gas condenser is changed in the use process, the temperature of the gas outlet of the primary gas condenser is too low because the heat exchange area of the cooler is not changed, SO that SO2 is separated out and dilute sulfuric acid is formed, and serious corrosion is generated on the primary gas condenser and the gas booster fan impeller. There is therefore a need for improvements in the art.

Disclosure of Invention

The utility model provides a gas condenser with an adjustable outlet temperature, which aims to solve the problem that the existing gas condenser cannot adjust the outlet temperature, so that the gas corrodes equipment due to too low temperature stroke sulfuric acid.

The utility model is completed by the following technical scheme: the utility model provides a gas condenser with adjustable outlet temperature, including the top establish the air inlet, the gas outlet is established to the bottom, establish the jar body of cooling water cavity in it, be equipped with the heat exchange tube group that is linked together with the air inlet, the gas outlet is equipped with the cooling water inlet, the outlet pipe that is linked together with the cooling water cavity on the jar body, characterized in that jar body is formed by a plurality of segmentation phase interconnection, the cooling water cavity is located in the segmentation of taking the heat exchange tube group in the jar body, and the cooling water cavity on the segmentation body is linked together with corresponding cooling water inlet tube, outlet pipe through the inlet water of taking the valve respectively, all heat exchange tube groups all communicate each other, when the gas that so wait to cool flows through jar body heat exchange tube group, control single or a plurality of inlet water, outlet pipe lets in the cooling water through the valve to the cooling water, in order to cool and regulate and control in good time the gas in the heat exchange tube group, avoid gas to produce corrosive liquid corrosion equipment's problem because of cooling temperature is too low.

The jar body is established to the vertical cylinder that is formed by a plurality of segmentation body interconnect, and the two adjacent segmentation bodies pass through flange joint, wherein: the subsection body positioned at the lower part of the tank body is arranged as a long subsection body, a heat exchange tube group is arranged in the long subsection, the subsection body positioned at the upper part of the tank body is arranged as a plurality of short subsection bodies, and the plurality of short subsection bodies are arranged in the following steps: the short section bodies provided with the heat exchange tube groups are arranged in a crossing way with the short section bodies without the heat exchange tube groups, and the short section bodies with the heat exchange tube groups are communicated with the gas channels of the short section bodies without the heat exchange tube groups so as to regulate and control the temperature of the gas to be cooled through the cavities of the short section bodies without the heat exchange tube groups.

The cooling water cavity is surrounded by a sectional body wall provided with a heat exchange tube group and flower plates at two ends of the sectional body wall, the outer edges of the flower plates are in sealing connection with the sectional body wall, and a plurality of through holes are formed in the flower plates so as to divide the cooling water cavity in each sectional body into independent cooling water cavities through the flower plates, thereby being convenient for controlling the water inlet and outlet of a single cooling water cavity or a plurality of cooling water cavities and adjusting the cooling temperature of gas.

Each heat exchange tube group is composed of a plurality of heat exchange tube groups which are arranged at intervals in parallel, the length of each heat exchange tube group is matched with the length of the corresponding segmented body, the heat exchange tube groups are vertically arranged in the segmented body, and two ends of each heat exchange tube group are communicated with through holes on the corresponding flower plates, so that gas to be cooled can directly pass through each heat exchange tube group, and cooling water can pass through between the heat exchange tubes, thereby realizing gas cooling.

The utility model discloses a cooling water circulation system, including the segmentation body, the inlet branch pipe that is equipped with the heat exchange tube group, the inlet branch pipe that is equipped with the valve on every segmentation body one side, the opposite side are equipped with the outlet branch pipe, and the inlet branch pipe is linked together with the inlet tube, and the outlet branch pipe is linked together with the outlet pipe, inlet tube, outlet pipe and pond intercommunication to realize the cooling water circulation.

The utility model has the following advantages and effects: by adopting the scheme, a single or a plurality of water inlet branch pipes and a plurality of water outlet branch pipes can be conveniently controlled by the valve to introduce cooling water into the cooling water cavity so as to timely cool and regulate the gas in the heat exchange tube group, and the problem that the gas corrodes equipment due to low cooling temperature is avoided. The utility model has the advantages of simple structure, convenient use, good effect and the like.

Drawings

FIG. 1 is a block diagram of the present utility model;

FIG. 2 is a segmented top view of the present utility model.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

The utility model provides a gas condenser with adjustable outlet temperature, which comprises a tank body 2, wherein the top of the tank body is provided with an air inlet 10, the bottom of the tank body is provided with an air outlet 1, a cooling water cavity 5 is arranged in the tank body 2, a heat exchange tube group 6 communicated with the air inlet 10 and the air outlet 1 is arranged in the cooling water cavity 5, and a cooling water inlet tube 14 and a water outlet tube 7 communicated with the cooling water cavity 5 are arranged on the tank body 2, wherein: the tank body 2 is formed by interconnecting a plurality of sectional bodies 4, the cooling water cavity 5 is arranged in the sectional bodies 4 with the heat exchange tube groups 6 in the tank body 2, the cooling water cavity 5 on the sectional bodies 4 is respectively communicated with the cooling water inlet pipe 14 and the cooling water outlet pipe 7 through the branch pipes 13 with the valves 12, and all the heat exchange tube groups 6 are mutually communicated, so that when the gas to be cooled flows through the heat exchange tube 6 groups of the tank body 2, the single or a plurality of branch pipes 13 are controlled by the valves 12 to feed cooling water into the cooling water cavity 5 so as to timely cool and regulate the gas in the heat exchange tube 6 groups, and the problem that corrosive liquid corrosion equipment is generated by the gas due to too low cooling temperature is avoided;

the tank body 2 is set to be a vertical cylinder formed by a plurality of section bodies 4 through interconnection, every two adjacent section bodies 4 are connected through a flange 11, wherein the section body positioned at the lower part of the tank body 2 is set to be a long section body, a heat exchange tube group 6 is arranged in the long section, the section body 4 positioned at the upper part of the tank body 2 is set to be a plurality of short section bodies, and in the plurality of short section bodies: the short section body 4 provided with the heat exchange tube group 6 is crossed with the short section body 8 without the heat exchange tube group, and the short section body 4 provided with the heat exchange tube group 6 is communicated with a gas channel of the short section body 8 without the heat exchange tube group 6 so as to regulate and control the temperature of the gas to be cooled through a cavity of the short section body 8 without the heat exchange tube group 6;

the cooling water cavity 5 is surrounded by the sectional body 4 wall provided with the heat exchange tube group 6 and the flower plates 9 at the two ends of the sectional body 4 wall, the outer edges of the flower plates 9 are in sealing connection with the sectional body 4 wall, a plurality of through holes 15 are arranged on the flower plates 9, so that the cooling water cavity 5 in each sectional body 4 is divided into independent cooling water cavities 5 through the flower plates 9, and the water inlet and outlet of a single or a plurality of cooling water cavities 5 are conveniently controlled so as to regulate the cooling temperature of gas;

each heat exchange tube group 6 consists of a plurality of heat exchange tube groups which are arranged at intervals in parallel, the length of each heat exchange tube group is matched with that of the corresponding segmented body 4, the heat exchange tube groups 6 are vertically arranged in the segmented body 4, and two ends of each heat exchange tube group are communicated with through holes 15 on the corresponding flower plate 9 so as to enable gas to be cooled to directly pass through each heat exchange tube group 6, and cooling water passes through the heat exchange tubes to realize gas cooling;

one side of each subsection body 4 provided with the heat exchange tube group 6 is provided with a water inlet branch pipe 13 with a valve 12, the other side is provided with a water outlet branch pipe 3, the water inlet branch pipe 13 is communicated with a water inlet pipe 14, the water outlet branch pipe 3 is communicated with a water outlet pipe 7, and the water inlet pipe 14 and the water outlet pipe 7 are communicated with a water pool so as to realize cooling water circulation.

Claims (5)

1. The utility model provides a gas condenser of outlet temperature adjustable, including the top establish the air inlet, the gas outlet is established to the bottom, establish the jar body of cooling water cavity in it, be equipped with in the cooling water cavity with advance, the heat exchange tube group that the gas outlet is linked together, be equipped with on the jar body with the cooling water that the cooling water cavity is linked together, the outlet pipe, its characterized in that jar body is formed by a plurality of segmentation phase interconnection, the cooling water cavity is located in the segmentation of heat exchange tube group in the jar body, and the cooling water cavity on the segmentation body is linked together with corresponding cooling water inlet tube, outlet pipe through the water inlet of taking the valve, outlet branch pipe respectively, all heat exchange tube groups all communicate each other.

2. The gas condenser with adjustable outlet temperature according to claim 1, wherein the tank body is a vertical cylinder formed by interconnecting a plurality of segments, two adjacent segments are connected by a flange, wherein: the subsection body positioned at the lower part of the tank body is arranged as a long subsection body, a heat exchange tube group is arranged in the long subsection, the subsection body positioned at the upper part of the tank body is arranged as a plurality of short subsection bodies, and the plurality of short subsection bodies are arranged in the following steps: the short section body provided with the heat exchange tube group is crossed with the short section body without the heat exchange tube group, and the short section body provided with the heat exchange tube group is communicated with the gas channel of the short section body without the heat exchange tube group.

3. The gas condenser with adjustable outlet temperature as claimed in claim 1, wherein the cooling water cavity is surrounded by a sectional body wall provided with a heat exchange tube group and a pattern plate at two ends of the sectional body wall, the outer edge of the pattern plate is in sealing connection with the sectional body wall, and a plurality of through holes are formed in the pattern plate.

4. The gas condenser with adjustable outlet temperature according to claim 1, wherein each heat exchange tube group comprises a plurality of heat exchange tube groups which are arranged at intervals in parallel, the length of each heat exchange tube group is matched with the length of the corresponding segmented body, the heat exchange tube groups are vertically arranged in the segmented body, and two ends of each heat exchange tube group are communicated with through holes on the corresponding flower plates.

5. The gas condenser with adjustable outlet temperature as claimed in claim 1, wherein one side of each segment provided with the heat exchange tube group is provided with a water inlet branch pipe with a valve thereon, the other side is provided with a water outlet branch pipe, the water inlet branch pipe is communicated with a water inlet pipe, the water outlet branch pipe is communicated with a water outlet pipe, and the water inlet pipe and the water outlet pipe are communicated with a water pool.