CN218097304U - Gas cooling device - Google Patents

Gas cooling device Download PDF

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Publication number
CN218097304U
CN218097304U CN202221008849.XU CN202221008849U CN218097304U CN 218097304 U CN218097304 U CN 218097304U CN 202221008849 U CN202221008849 U CN 202221008849U CN 218097304 U CN218097304 U CN 218097304U
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water
gas cooling
circulating water
pipe
pressurizing
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CN202221008849.XU
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Chinese (zh)
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晋冠杰
康建生
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Yichuan Hongyuan Gas Technology Co ltd
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Yichuan Hongyuan Gas Technology Co ltd
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Abstract

The utility model discloses a gas cooling device, including the gas cooling tower body, the vertical setting of gas cooling tower body, the top and the bottom of gas cooling tower body are vertical fixed intercommunication respectively and have outlet duct and circulation wet return. Has the advantages that: the utility model adds the pressurizing component between the circulating water inlet pipe and the water supply pipe, so that the circulating water is pressurized by the way of the pressurized water pump of the pressurizing component, thereby reducing the pump lift of the circulating water system, being beneficial to improving the stability of the water pump of the circulating water system and reducing the energy consumption, and avoiding the overload damage of the water pump of the circulating water system; the supercharging component with two parallel relations is additionally arranged between the circulating water inlet pipe and the water supply pipe, so that the purpose of one standby is achieved, the gas cooling work can not be interrupted when the supercharging component is overhauled at regular intervals, and the working stability of the gas cooling tower body is improved.

Description

Gas cooling device
Technical Field
The utility model relates to a gas cooling auxiliary assembly field, concretely relates to gas cooling device.
Background
The basic principle of the conventional gas cooling tower is that cooling water in a water storage tank enters the tower body through a high-level water tank and fills the tower body, hot gas enters the tower body through a gas inlet, and exchanges heat with the cooling water in the tower during the rising process, the cooled gas is discharged from a gas outlet, hot water after heat exchange flows into the water storage tank through a water outlet, and a water pump in a circulating water system is generally adopted to return the cooling water in the water storage tank to the high-level water tank during the recycling of the cooling water, so that the water pump has a large lift, is easy to overload to damage and has high energy consumption, and meanwhile, when a gas supply compressor fails to work, the pressure in the tower body is reduced, and the circulating water backflow accident easily occurs at the bottom of the tower body.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a gas cooling device for solving above-mentioned problem adds pressure boost subassembly between circulation inlet tube and delivery pipe to this mode of pressure boost water pump work through pressure boost subassembly carries out the pressure boost to the circulating water, has reduced circulating water system's water pump lift, is favorable to promoting circulating water system's water pump stability and reduces the energy consumption, has avoided circulating water system's water pump overload to damage, and the detail is explained below.
In order to achieve the above purpose, the utility model provides a following technical scheme:
the utility model provides a gas cooling device, which comprises a gas cooling tower body, wherein the gas cooling tower body is vertically arranged, the top and the bottom of the gas cooling tower body are respectively and vertically and fixedly communicated with an air outlet pipe and a circulating water return pipe, and the outer sides of the lower part and the upper part of the gas cooling tower body are respectively and fixedly communicated with an air inlet pipe communicated with an air supply compressor and a water supply pipe used for introducing cooling water;
the outer end of the circulating water return pipe is communicated with a circulating water inlet pipe through a pipeline, and a plurality of pressurizing components in parallel connection are fixedly communicated between the circulating water inlet pipe and the water supply pipe and used for pressurizing water supply through the pressurizing components.
Preferably, a circulating water check valve for preventing circulating water from flowing back into the gas cooling tower body is installed on the periphery of the circulating water return pipe.
Preferably, the circulating water return pipe is provided with a circulating water flow regulating valve at a position between the circulating water check valve and the bottom of the gas cooling tower body, and the periphery of the water supply pipe is provided with a water inlet flow regulating valve.
Preferably, the circulating water flow regulating valve and the water inlet flow regulating valve are both electric control valves.
Preferably, the number of the pressurizing assemblies is two and both can be operated independently.
Preferably, the pressurizing assemblies respectively comprise a water pipe and a pressurizing water pump, three-way joints are respectively installed at the end parts of the circulating water inlet pipe and the water supply pipe, the two ends of the water pipe are respectively and fixedly communicated with the corresponding three-way joints, the pressurizing water pump is installed and communicated in the middle of the water pipe, an inlet stop valve and an outlet stop valve are respectively installed and communicated at the end parts of the water pipe, which are close to the circulating water inlet pipe and the water supply pipe, and a water supply check valve is installed and communicated at the part of the water pipe, which is between the outlet stop valve and the pressurizing water pump.
Preferably, a filter is detachably mounted and communicated with the part of the water conveying pipe between the inlet stop valve and the booster water pump through a quick coupling, and the filter is used for filtering and removing impurities from the entering circulating water.
Preferably, the filter element of the filter is a stainless steel metal mesh.
By adopting the gas cooling device, in the actual use process, the cooling water is filled into the gas cooling tower body through the water supply pipe, meanwhile, gas is introduced into the gas cooling tower body through the gas inlet pipe by an external gas supply compressor, and then the gas is discharged through the gas outlet pipe after fully contacting with cooling water, because the cooling is carried out by adopting the mode of directly contacting water with cooled gas, the cooling effect is good, meanwhile, part of impurities in the gas can be washed off, the cleanness of the gas is improved, the cooling water is discharged to an external circulating water system through the circulating water return pipe at the bottom, is cooled by the circulating water system and then is conveyed to the circulating water inlet pipe, because the circulating water return pipe at the bottom of the gas cooling tower body is additionally provided with the circulating water check valve, the circulating water backflow accident caused by the failure of the compressor when the pressure in the gas cooling tower body is low can be avoided, meanwhile, the pressurizing assembly is additionally arranged between the circulating water inlet pipe and the water supply pipe, so that circulating water can be pressurized in a way of working by the pressurizing water pump of the pressurizing assembly, the pump lift of the circulating water system is reduced, circulating water can smoothly enter the water supply pipe under the action of the pressurizing water pump, the stability of the water pump of the circulating water system is improved, the energy consumption is reduced, and the overload damage of the water pump of the circulating water system is avoided, and because two pressurizing assemblies in parallel connection are additionally arranged between the circulating water inlet pipe and the water supply pipe, the purpose of using the circulating water cooling tower for standby can be achieved, the gas cooling work can not be interrupted when the pressurizing assemblies are overhauled regularly, and the working stability of the gas cooling tower body is improved.
Has the advantages that: 1. the utility model adds the pressurizing component between the circulating water inlet pipe and the water supply pipe, so as to pressurize the circulating water by the way of the pressurizing water pump of the pressurizing component, thereby reducing the water pump lift of the circulating water system, being beneficial to improving the water pump stability of the circulating water system and reducing the energy consumption, and avoiding the overload damage of the water pump of the circulating water system;
2. two pressurizing assemblies in parallel connection are additionally arranged between the circulating water inlet pipe and the water supply pipe, so that the purpose of using the pressurizing assemblies for one by one can be achieved, the gas cooling work can not be interrupted when the pressurizing assemblies are overhauled regularly, and the working stability of the gas cooling tower body can be improved;
3. the cooling is carried out by adopting a mode of directly contacting water with the cooled gas, the cooling effect is good, and meanwhile, part of impurities in the gas can be washed off, so that the cleanliness of the gas is improved;
4. the circulating water return pipe at the bottom of the gas cooling tower body is additionally provided with a circulating water check valve, so that the circulating water backflow accident caused by the failure of the compressor when the pressure in the gas cooling tower body is low is avoided.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.
Fig. 1 is an overall schematic view of the present invention.
The reference numerals are explained below:
1. a gas cooling tower body; 101. an air outlet pipe; 102. an air inlet pipe; 2. a circulating water return pipe; 201. A circulating water check valve; 202. a circulating water flow regulating valve; 3. a water supply pipe; 301. a water inlet flow regulating valve; 4. a pressurizing assembly; 401. an outlet shutoff valve; 402. a water supply check valve; 403. a booster water pump; 404. a filter; 405. an inlet shutoff valve; 406. a water delivery pipe; 5. and (4) circulating the water inlet pipe.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.
Referring to fig. 1, the utility model provides a gas cooling device, including gas cooling tower body 1, the vertical setting of gas cooling tower body 1, the top and the bottom of gas cooling tower body 1 are vertical fixed intercommunication respectively have outlet duct 101 and circulation wet return 2, and the lower part of gas cooling tower body 1 and the upper portion outside are fixed respectively the intercommunication have with the intake pipe 102 of air feed compressor intercommunication and be used for letting in the delivery pipe 3 of cooling water. The outer end of the circulating water return pipe 2 is communicated with a circulating water inlet pipe 5 through a pipeline, and a plurality of pressurizing components 4 in parallel connection are fixedly communicated between the circulating water inlet pipe 5 and the water supply pipe 3 and used for pressurizing water supply through the pressurizing components 4.
As the preferred scheme of this case, circulating water check valve 201 that is used for preventing the circulating water from flowing back into gas cooling tower body 1 is installed to the periphery of circulation wet return 2, so set up, be convenient for avoid causing the circulating water refluence accident to appear when gas cooling tower body 1 internal pressure is low because of compressor trouble through circulating water check valve 201, circulating water flow control valve 202 is installed to circulation wet return 2 in the position between circulating water check valve 201 and gas cooling tower body 1 bottom, intake flow control valve 301 is installed to the periphery of delivery pipe 3, so set up, be convenient for adjust the velocity of flow that the circulating water discharged and the velocity of flow that the cooling water got into gas cooling tower body 1 respectively through circulating water flow control valve 202 and intake flow control valve 301.
Circulating water flow control valve 202 and inflow flow control valve 301 are the automatically controlled valve, so set up, be convenient for circulating water flow control valve 202 and inflow flow control valve 301 can be fast convenient regulation switching degree, reach flow control's purpose then, the quantity of pressure boost subassembly 4 is two and both homoenergetic works alone, so set up, be convenient for can reach one and reserve one purpose through two pressure boost subassembly 4, the convenience can not cause gas cooling work to break off when regularly overhauing pressure boost subassembly 4, be favorable to promoting the job stabilization nature of gas cooling tower body 1.
The pressurizing assemblies 4 respectively comprise water conveying pipes 406 and pressurizing water pumps 403, three-way joints are respectively installed at the end parts of the circulating water inlet pipe 5 and the water supply pipe 3, two ends of each water conveying pipe 406 are respectively and fixedly communicated with the corresponding three-way joints, each pressurizing water pump 403 is installed and communicated in the middle of each water conveying pipe 406, inlet stop valves 405 and outlet stop valves 401 are respectively installed and communicated at the end parts of the water conveying pipes 406 close to the circulating water inlet pipe 5 and the water supply pipe 3, water supply check valves 402 are installed and communicated between the outlet stop valves 401 and the pressurizing water pumps 403 in the water conveying pipes 406, so that the water conveying pipes 406 are prevented from returning through the arrangement of the water supply check valves 402, when one of the pressurizing assemblies 4 works, the corresponding inlet stop valves 405 and outlet stop valves 401 are opened, meanwhile, the inlet stop valves 405 and the outlet stop valves 401 of the other pressurizing assembly 4 are closed, cooling water immediately enters the water conveying pipes 406 of the pressurizing assembly 4 in a working state, and is pressurized by the corresponding pressurizing water supply pipes 3 through the corresponding pressurizing water pumps 403, and the other pressurizing assembly 4 cannot cause interference because the inlet stop valves 405 and the outlet stop valves 401 are closed.
The part of raceway 406 between entry stop valve 405 and booster pump 403 has filter 404 through quick-operation joint demountable installation intercommunication for come to filter the edulcoration to the circulating water of entering through filter 404, so set up, the edulcoration is filtered to the recirculated cooling water of entering through setting up of filter 404 in order to be convenient for, avoid impurity to get into and damage booster pump 403, the filtering component of filter 404 is stainless steel metal mesh, so set up, it has good stable edulcoration filter effect to be convenient for filter 404 self.
By adopting the structure, in the process of actual use, cooling water is fully filled into the gas cooling tower body 1 through the water supply pipe 3, meanwhile, gas is introduced into the gas cooling tower body 1 through the gas inlet pipe 102 by an external gas supply compressor, the gas is fully contacted with the cooling water and then discharged through the gas outlet pipe 101, because the water is cooled in a mode of directly contacting with the cooled gas, the cooling effect is good, and meanwhile, part of impurities in the gas can be washed, the cleanliness of the gas is improved, the cooling water is discharged to an external circulating water system through the circulating water return pipe 2 at the bottom, and is conveyed to the circulating water inlet pipe 5 after being cooled and cooled by the circulating water system, because the circulating water return pipe 2 at the bottom of the gas cooling tower body 1 is additionally provided with the circulating water check valve 201, the backflow accident of the circulating water can be avoided when the pressure in the gas cooling tower body 1 is low due to the fault of the compressor, meanwhile, because the supercharging component 4 is additionally arranged between the circulating water inlet pipe 5 and the water supply pipe 3, the circulating water pump 403 of the supercharging component can supercharge the circulating water in a way of working of the supercharging component 4, the circulating water 403 can be beneficial to smoothly entering the supercharging water system, the water pump 403, the stability of the circulating water system can be conveniently improved, and the stability of the circulating water system can be improved, and the stability of the circulating water system, and the circulating water system can be beneficial to avoid the maintenance of the gas cooling tower, and the problem that the circulating water, and the circulating water system can be damaged when the circulating water, and the circulating water system, and the circulating water is additionally arranged in parallel connection of the circulating water system, and the circulating water pump 4, and the circulating water pump, and the circulating water system can be convenient maintenance of the circulating cooling tower, and the circulating water system, and the maintenance of the circulating water can be convenient maintenance of the gas cooling tower, and the circulating water can be convenient for the maintenance, and the maintenance of the gas cooling tower, and the maintenance of the gas cooling tower can be convenient for the maintenance of the gas cooling tower, and the gas cooling tower can be convenient.
The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. A gas cooling device comprising a gas cooling tower body (1), characterized in that: the gas cooling tower comprises a gas cooling tower body (1), an air outlet pipe (101) and a circulating water return pipe (2) are vertically and fixedly communicated with the top and the bottom of the gas cooling tower body (1) respectively, and an air inlet pipe (102) communicated with an air supply compressor and a water supply pipe (3) used for introducing cooling water are fixedly communicated with the outer sides of the lower portion and the upper portion of the gas cooling tower body (1) respectively;
the outer end of the circulating water return pipe (2) is communicated with a circulating water inlet pipe (5) through a pipeline, and a plurality of pressurizing components (4) which are in parallel connection are fixedly communicated between the circulating water inlet pipe (5) and the water supply pipe (3) and used for pressurizing water supply through the pressurizing components (4).
2. A gas cooling device according to claim 1, characterized in that: and a circulating water check valve (201) used for preventing circulating water from flowing back into the gas cooling tower body (1) is installed on the periphery of the circulating water return pipe (2).
3. A gas cooling device according to claim 2, characterized in that: and the circulating water return pipe (2) is provided with a circulating water flow regulating valve (202) at a position between the circulating water check valve (201) and the bottom of the gas cooling tower body (1), and the periphery of the water supply pipe (3) is provided with a water inlet flow regulating valve (301).
4. A gas cooling device according to claim 3, characterized in that: the circulating water flow regulating valve (202) and the water inlet flow regulating valve (301) are both electric control valves.
5. A gas cooling device according to claim 4, characterized in that: the number of the pressurizing assemblies (4) is two, and the pressurizing assemblies can work independently.
6. A gas cooling device according to any one of claims 2 to 5, characterized in that: the pressurizing assembly (4) comprises water conveying pipes (406) and pressurizing water pumps (403), three-way joints are mounted at the end parts of the circulating water inlet pipe (5) and the water supply pipe (3), two ends of each water conveying pipe (406) are fixedly communicated with the corresponding three-way joints, the pressurizing water pumps (403) are mounted and communicated in the middle of each water conveying pipe (406), inlet stop valves (405) and outlet stop valves (401) are mounted and communicated in end parts of the water conveying pipes (406) close to the circulating water inlet pipe (5) and the water supply pipe (3), and water supply check valves (402) are mounted and communicated in parts of the water conveying pipes (406) between the outlet stop valves (401) and the pressurizing water pumps (403).
7. A gas cooling device according to claim 6, characterized in that: the part of the water conveying pipe (406) between the inlet stop valve (405) and the booster water pump (403) is detachably connected with a filter (404) through a quick coupling, and the filter (404) is used for filtering and removing impurities from the entering circulating water.
8. A gas cooling arrangement as claimed in claim 7, wherein: the filter component of the filter (404) is a stainless steel metal mesh.
CN202221008849.XU 2022-04-28 2022-04-28 Gas cooling device Active CN218097304U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202221008849.XU CN218097304U (en) 2022-04-28 2022-04-28 Gas cooling device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202221008849.XU CN218097304U (en) 2022-04-28 2022-04-28 Gas cooling device

Publications (1)

Publication Number Publication Date
CN218097304U true CN218097304U (en) 2022-12-20

Family

ID=84459446

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202221008849.XU Active CN218097304U (en) 2022-04-28 2022-04-28 Gas cooling device

Country Status (1)

Country Link
CN (1) CN218097304U (en)

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