CN210584374U - White equipment that disappears of anode furnace cooling tower - Google Patents

Abstract

The utility model provides a white equipment that disappears of anode furnace cooling tower, include: the device comprises a cooling tower set, an anode plate immersion tank, an anode furnace hot water tank, a white mist eliminating demister and a low-temperature cooling tower; cold water discharged by the cooling tower group is sent into an anode plate immersion pool for storage, then enters an anode furnace hot water pool for heating, and generated hot water flows into a heating device of a white mist eliminating demister through a water delivery pump and finally returns to the cooling tower group for cooling for later use; white smog that the cooling tower group produced is handled repeatedly through falling wet defogging device and cooling condensing equipment in the white defroster that disappears, can get rid of most moisture in the smog, heats through heating device at last, discharges from the gas outlet. The utility model discloses can solve the white defogging problem that disappears of most current cooling towers, can solve the white transformation problem that disappears of cooling tower group that is coming into use, need not transform current cooling tower inside, need not consider the not enough problem of existing equipment inner space, effectively eliminate white smog, realize eliminating the purpose of white fog.

Description

White equipment that disappears of anode furnace cooling tower

Technical Field

The utility model relates to a cooling tower technical field especially relates to a white defogging of disappearing of cooling tower is handled.

Background

At present, in the white field of disappearing of cooling tower, select mostly to reform transform cooling tower inner structure, handle white smog through increasing some dehumidification and the structure of heating, when ambient temperature is lower, open dehumidification and heating function and eliminate white fog, reach the purpose that the cooling tower disappears.

When reforming transform inside the cooling tower, only newly-built project realizes reforming transform easily usually, increases and disappears white defogging function, in some current cooling tower use, because the not enough scheduling problem of cooling tower inner space can not reform transform, can't increase and disappear white defogging function, when ambient temperature reduces or air humidity is great, a large amount of white smog that the cooling tower produced can let on-the-spot smog diffuse, causes white cigarette pollution.

Disclosure of Invention

In view of the above disadvantages of the prior art, an object of the present invention is to provide a white eliminating device for an anode furnace cooling tower, which is used to solve the problem that white smoke is formed in the existing cooling tower but cannot be improved when the ambient temperature is low and the ambient air humidity is high in the prior art.

To achieve the above and other related objects, the present invention provides an anode furnace cooling tower whitening apparatus, comprising: the device comprises a cooling tower set, an anode plate immersion tank, an anode furnace hot water tank, a white mist eliminating demister and a low-temperature cooling tower;

the cooling tower group is connected with the anode plate immersion tank and the white mist eliminating demister through water pipes; the cooling tower group is also connected with the white mist eliminating demister through an air duct;

the anode plate immersion tank is connected with the anode furnace hot water tank through a water pipe;

the anode furnace hot water tank is connected with the white defogger through a hot water pipe and a cold water pipe;

the white mist eliminating demister is connected with the low-temperature cooling tower through a water pipe.

In an embodiment of the present invention, the cooling tower assembly is provided with a vent, and the white mist eliminator is provided with an air inlet; a ventilating duct and a fan are arranged between the ventilation opening and the air inlet; one end of the ventilation pipeline is connected with the ventilation opening, the other end of the ventilation pipeline is connected with an inlet of the fan, and an outlet of the fan is connected with the air inlet.

In an embodiment of the present invention, a water pump is disposed on the water pipe between the cooling tower assembly and the anode plate immersion tank; and cold water flows into the anode plate immersion tank from the cooling tower group through a water delivery pump.

In an embodiment of the utility model, a water delivery pump is arranged on the hot water pipe between the anode furnace hot water tank and the white mist eliminator; and hot water flows into the white mist eliminating demister from the anode furnace hot water tank through a water delivery pump.

In an embodiment of the utility model, a dehumidifying and demisting device, a cooling and condensing device and a heating device are also arranged in the white-removing demister;

the heating device is positioned at the upper part of the white mist eliminating demister box body,

the dehumidification and demisting device and the cooling and condensing device are alternately arranged at the lower end of the heating device.

As mentioned above, the utility model discloses an anode furnace cooling tower white eliminating equipment has following beneficial effect:

white smoke generated in the operation process of the anode furnace cooling tower is treated, a large amount of moisture in the white smoke is removed by adopting a multi-time condensation dehumidification mode, the whitening effect is ensured, the generated condensate water can be supplemented into an anode furnace hot water tank and a low-temperature cooling tower for daily water supplement of a system, the water consumption is saved, and the heat source of the heating layer uses the heat of the system, so that the energy consumption for heating is saved, and the heat born by the cooling tower is reduced. The white smoke is effectively eliminated while the energy is saved, and the aim of eliminating the white smoke is fulfilled.

Drawings

Fig. 1 shows a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the white mist eliminator of the present invention.

Element number description:

1. a cooling tower set; 2. an anode plate immersion tank; 3. an anode furnace hot water tank; 4. a white mist eliminator; 5. a cryogenic cooling tower;

101. a vent; 102. a ventilation duct; 103. a fan;

401. an air inlet; 402. an air outlet; 403. a dehumidification and demisting device; 404. a cooling and condensing device; 405. a heating device;

4031. a corrugated plate; 4041. a first water inlet; 4042. a first water pipe; 4043. a shower head; 4051. a second water inlet;

4052. a first water outlet; 4053. a second water pipe.

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein. The present invention can also be implemented or applied through other different specific embodiments, and various details in the present specification can be modified or changed based on different viewpoints and applications without departing from the spirit of the present invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict.

It should be noted that the drawings provided in the following embodiments are only for illustrating the basic concept of the present invention, and the components related to the present invention are only shown in the drawings rather than drawn according to the number, shape and size of the components in actual implementation, and the form, amount and ratio of the components in actual implementation may be changed at will, and the layout of the components may be more complicated.

Referring to fig. 1, the present invention provides a white spot eliminating apparatus for a cooling tower of an anode furnace, including: the device comprises a cooling tower group 1, an anode plate immersion tank 2, an anode furnace hot water tank 3, a white mist eliminating demister 4 and a low-temperature cooling tower 5;

the cooling tower group 1 is also connected with the white mist eliminating demister 4 through an air duct; the cooling tower group 1 is provided with a ventilation opening 101, and the white mist eliminator 4 is provided with an air inlet 401; a ventilating duct 102 and a fan 103 are arranged between the ventilation opening 101 and the air inlet 401; the white mist flows from the ventilation opening 101 into the air inlet 401 through the ventilation duct 102 and the fan 103.

The cooling tower group 1 is connected with the anode plate immersion tank 2 and the white mist eliminating demister 4 through water pipes;

a water delivery pump is arranged on a water pipe between the cooling tower group 1 and the anode plate immersion tank 2; and cold water cooled in the cooling tower set 1 flows into the anode plate immersion tank 2 from the cooling tower set 1 through a water delivery pump.

The anode plate immersion tank 2 is connected with the anode furnace hot water tank 3 through a water pipe;

the anode furnace hot water tank 3 is connected with the white mist eliminator 4 through a hot water pipe and a cold water pipe; a water delivery pump is arranged on a hot water pipe between the anode furnace hot water tank 3 and the white mist elimination demister 4; hot water generated by the anode furnace hot water tank 3 flows into the white mist elimination demister 4 from the anode furnace hot water tank 3 through a water delivery pump. And liquid condensate water collected in the white mist eliminator 4 flows back into the anode furnace hot water tank 3 through the cold water pipe and is used for daily water supplement of the system.

Referring to fig. 2, the white mist eliminator 4 includes a box body, an air inlet 401 is arranged on one side of the bottom of the box body, and an air outlet 402 is arranged on the top of the box body; the white mist eliminator 4 further comprises a dehumidifying and demisting device 403, a cooling and condensing device 404 and a heating device 405; the heating device 405 is located at the upper part of the box body, and the dehumidifying and demisting device 403 and the cooling and condensing device 404 are both located at the lower end of the heating device 405.

The dehumidifying and demisting device 403 and the cooling and condensing device 404 are both multiple, and one cooling and condensing device 404 is arranged between every two dehumidifying and demisting devices 403. Through this structure, the white fog is earlier through falling wet defogging device and detach fog foam and droplet, and moisture content condensation in rethread cooling condensing equipment will the flue gas comes out, becomes the droplet, and rethread falls wet defogging device, so relapse, finally gets rid of most moisture in the smog.

In order to enhance the effect of removing mist and droplets, the uppermost dehumidifying and demisting device 403 may be stacked in two layers.

The dehumidifying and demisting device 403 comprises a corrugated plate 4031; the corrugated plate 4031 is made of PVC plastic; the corrugated plate 4031 is vertically placed in the box body, and gas enters from the bottom of the corrugated plate 4031 and then flows out from the top. When gas containing mist flows through the corrugated plate 4031 at a certain speed, the mist collides with the corrugated plate 4031 due to inertial collision of the gas, and the collected liquid droplets are so large that the gravity generated by the liquid droplets exceeds the resultant force of the rising force of the gas and the surface tension of the liquid, and the liquid droplets are separated from the surface of the corrugated plate 4031. The multi-fold structure of the corrugated plate 4031 increases the chance of mist being trapped, and the mist which is not removed is trapped by the same action at the next turn, so that the effect is repeated, thereby greatly improving the efficiency of mist removal.

After passing through the corrugated plate 4031, the gas is substantially free of entrainment. The flue gas passes through the curved channel of the corrugated plate 4031, liquid drops carried in the air flow are separated under the action of inertia force and gravity, the desulfurized flue gas flows through the corrugated plate 4031 at a certain speed, the movement direction of the flue gas is changed rapidly and continuously, fog drops in the flue gas impact the blades of the corrugated plate 4031 to be trapped under the action of centrifugal force and inertia, the fog drops are converged to form water flow, and the water flow falls to the bottom of the box body under the action of gravity, so that gas-liquid separation is realized, and the flue gas flowing through the corrugated plate 4031 meets the defogging requirement.

The cooling and condensing device 404 is used for condensing moisture in the flue gas into mist drops, and finally, the mist drops are removed in the demisting layer.

The white mist eliminating demister 4 is connected with the low-temperature cooling tower 5 through a water pipe. Cold water generated by the low-temperature cooling tower 5 flows into the white mist eliminating demister 4 through a water pipe, and liquid condensate water collected in the white mist eliminating demister 4 flows back into the low-temperature cooling tower 5 through the water pipe and is used for daily water supplement of the system.

The cooling and condensing device 404 comprises a first water inlet 4041, a first water pipe 4042, and a shower head 4043; the first water pipe 4042 extends from the first water inlet 4041, penetrates the tank body and is fixed on the inner wall of the other side of the tank body. Each water pipe 4050 is provided with a plurality of spray headers 4043.

The heating device 405 includes a second water inlet 4051, a first water outlet 4052, and a second water pipe 4053; the second water inlet 4051 and the first water outlet 4052 are arranged at one side of the upper part of the box body of the white mist eliminating and removing device 4; the second water pipe 4053 is disposed between the second water inlet 4051 and the first water outlet 4052, and the second water pipe 4053 has a serpentine structure. Through this kind of structure, let hot water fully stop in the box, improve the heating effect that heaies up.

The unsaturated wet air heated by the heating device 405 is discharged from the air outlet 402, achieving the purpose of eliminating the white fog.

When the cooling tower is used, cold water cooled in the cooling tower group is sent to the anode plate immersion pool through the water delivery pump to be stored, then enters the anode furnace hot water pool to be heated, generated hot water flows into the heating device of the white defogger through the water delivery pump, and finally returns to the cooling tower group to be cooled for later use.

In the process, the cooling tower group can generate a large amount of white smoke which is supersaturated wet air, the white smoke is introduced into the white smoke eliminator through the ventilation pipeline and the fan for treatment, and the smoke is treated by the humidity reducing and demisting device in the rising process to remove liquefied water drops contained in the smoke; then, low-temperature water in the water pipe is sprayed out from the spray header through a cooling and condensing device to cool the smoke, so that moisture in the smoke is condensed out to form liquefied water drops; then the liquefied water drops are removed through a dehumidification and demisting device and a cooling and condensing device, and the steps are repeated, so that most of water in the smoke is removed finally; and finally, heating by a heating device, and discharging the heated unsaturated wet air from an air outlet at the top of the box body to achieve the aim of eliminating the white fog.

Liquid condensate water generated in the white mist eliminator is supplemented into the anode furnace hot water pool and the low-temperature cooling tower for daily water supplement of the system.

To sum up, the utility model discloses an anode furnace cooling tower white equipment that disappears handles the white smog that anode furnace cooling tower produced at the operation in-process, adopts the mode of condensation dehumidification many times, gets rid of a large amount of moisture in the white smog, ensures the white effect that disappears, the comdenstion water of production can supply in anode furnace hot-water tank and the low cooling tower for the daily moisturizing of system, water conservation consumes, zone of heating heat source use system heat itself, the energy consumption of having practiced thrift the heating usefulness has reduced the heat that the cooling tower undertakes again. The white smoke is effectively eliminated while the energy is saved, and the aim of eliminating the white smoke is fulfilled.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (5)

1. The utility model provides an anode furnace cooling tower white elimination equipment which characterized in that includes: the device comprises a cooling tower set, an anode plate immersion tank, an anode furnace hot water tank, a white mist eliminating demister and a low-temperature cooling tower;

the cooling tower group is connected with the anode plate immersion tank and the white mist eliminating demister through water pipes; the cooling tower group is also connected with the white mist eliminating demister through an air duct;

the anode plate immersion tank is connected with the anode furnace hot water tank through a water pipe;

the anode furnace hot water tank is connected with the white defogger through a hot water pipe and a cold water pipe;

the white mist eliminating demister is connected with the low-temperature cooling tower through a water pipe.

2. The anode furnace cooling tower whitening equipment of claim 1, characterized in that: the cooling tower group is provided with a vent, and the white mist eliminating demister is provided with an air inlet; a ventilating duct and a fan are arranged between the ventilation opening and the air inlet; the white fog flows into the air inlet from the ventilation opening through the ventilation pipeline and the fan.

3. The anode furnace cooling tower whitening equipment of claim 1, characterized in that: a water delivery pump is arranged on a water pipe between the cooling tower group and the anode plate immersion tank; and cold water flows into the anode plate immersion tank from the cooling tower group through a water delivery pump.

4. The anode furnace cooling tower whitening equipment of claim 1, characterized in that: a water delivery pump is arranged on a hot water pipe between the anode furnace hot water tank and the white mist elimination demister; and hot water flows into the white mist eliminating demister from the anode furnace hot water tank through a water delivery pump.

5. The anode furnace cooling tower whitening equipment of claim 1, characterized in that: the white defogger is also internally provided with a dehumidification defogging device, a cooling condensing device and a heating device;

the heating device is positioned at the upper part of the white mist eliminating demister box body,

the dehumidification and demisting device and the cooling and condensing device are alternately arranged at the lower end of the heating device.

Images