CN219085330U - High-pressure hot gas supply system with different humidity - Google Patents

Abstract

The utility model discloses a high-pressure gas supply system with different humidity, which can form high-pressure hot gas with different humidity in a high-pressure hot gas buffer tank by adjusting the power of a first heater and the opening of a first flow regulating valve and a second flow regulating valve, can continuously and stably supply high-pressure hot gas from zero humidity to saturated humidity for gas equipment or a system, and can provide gas conditions for researching the rule of the influence of the high-pressure hot gas with different humidity on equipment in a compressed air energy storage, cold accumulation, heat accumulation and other systems.

Description

High-pressure hot gas supply system with different humidity

Technical Field

The utility model relates to the technical field of high-pressure air supply and the like, in particular to a high-pressure hot air supply system with different humidity.

Background

In recent years, with the continuous promotion of important strategies of carbon neutralization and carbon peak in China, the development of technologies such as compressed air energy storage, cold accumulation and heat accumulation is rapid. In a compressed air energy storage system, a cold accumulation system, a heat accumulation system and the like, there is a process that high-pressure hot gas exchanges heat with other working media in heat exchange equipment, in the heat exchange process, the humidity of the high-pressure hot gas can be changed along with the change of the temperature of the high-pressure gas, and the high-pressure hot gas with different humidity can influence the service life of equipment in the system. In order to explore the influence of high-pressure hot gas with different humidity on service life, performance and the like of equipment in a compressed air energy storage system, a cold storage system, a heat storage system and the like, the prior art generally adopts high-pressure spraying, high-pressure heating and other methods to simulate and generate high-pressure gas with certain humidity, and the methods can obtain the high-pressure hot gas with certain humidity, but can not continuously and stably provide the high-pressure hot gas with zero humidity to saturated humidity for test equipment or a test system.

Disclosure of Invention

The present utility model has been made in an effort to overcome the above-mentioned drawbacks and provides a high-pressure hot gas supply system of different humidity which can continuously and stably supply high-pressure hot gas from zero humidity to saturated humidity.

The technical solution adopted by the utility model for solving the technical problems is as follows:

the utility model relates to a high-pressure gas supply system with different humidity, which comprises a high-pressure gas storage tank, an air filter, a first heater, a humidifying tank, a sprayer, a mechanical separator, a filter element filter and a high-pressure hot gas buffer tank, wherein: the pipeline that high pressure air storage jar export and air cleaner import are connected sets up control valve A on, the connecting line of air cleaner export and first heater import sets up first air-vent valve, set up pressure sensor A on the pipeline of first heater export and humidification jar air side import, temperature sensor A, control valve B, pipeline branch road and high pressure hot gas buffer tank access connection between control valve B and the pressure sensor A, and set up first flow regulation and control valve on this branch road, humidification jar air side export and filter core formula filter access connection, set up the second flow regulation and control valve on the pipeline that the filter core formula filter export was connected with the high pressure hot gas buffer tank import, set up temperature sensor C on the high pressure hot gas buffer tank, pressure sensor B, humidity transducer, set up the second air-vent valve on the pipeline of high pressure hot gas buffer tank exit linkage.

The above-mentioned high-pressure gas supply system with different humidity, wherein: the top of the humidifying tank is provided with a mechanical separator, a pipeline connected with a liquid side outlet at the bottom and a liquid supplementing tank inlet is provided with a control valve C, a pipeline connected with a liquid supplementing pump inlet is provided with a control valve D, a liquid supplementing pump outlet is connected with a second heater inlet, a pipeline connected with a liquid side inlet of the humidifying tank is provided with a temperature sensor B and a control valve E, and a sprayer is arranged at the tail end of a pipeline connected with the liquid side inlet in the humidifying tank.

The above-mentioned high-pressure gas supply system with different humidity, wherein: the top of the humidifying tank is provided with a mechanical separator, the bottom of the humidifying tank is provided with a heater, a pipeline connected with a liquid side outlet of the bottom and a liquid supplementing pump inlet is provided with a control valve C, a pipeline connected with the liquid supplementing pump outlet and the liquid side inlet of the humidifying tank is provided with a control valve E, and the tail end of the pipeline connected with the liquid side inlet in the humidifying tank is provided with a sprayer.

Compared with the prior art, the utility model has obvious beneficial effects, and the technical scheme can be adopted as follows: the high-pressure hot gas system can form high-pressure hot gas with different humidity in the high-pressure hot gas buffer tank by adjusting the power of the first heater and the opening of the first flow regulating valve and the opening of the second flow regulating valve, can continuously and stably provide high-pressure hot gas from zero humidity to saturated humidity for gas equipment or systems, and provides gas conditions for researching the rule of influence of the high-pressure hot gas with different humidity on equipment in systems such as compressed air energy storage, cold accumulation and heat accumulation.

Drawings

FIG. 1 is a schematic structural diagram of embodiment 1 of the present utility model;

fig. 2 is a schematic structural diagram of embodiment 2 of the present utility model.

The marks in the figure are as follows:

101. the device comprises a high-pressure air storage tank, 102, an air filter, 103, a first pressure regulating valve, 104, a first heater, 105, a first flow regulating valve, 105, 106, a humidification tank, 107, a fluid supplementing tank, 108, a fluid supplementing pump, 109, a second heater, 110, a sprayer, 111, a mechanical separator, 112, a filter element type filter, 113, a second flow regulating valve, 114, a high-pressure hot gas buffer tank, 115, a second pressure regulating valve, 116, experimental equipment, 117, a heater, 1, a control valve A,2, a control valve B,3, a control valve C,4, a control valve D,5, a control valve E, P1, a pressure sensor A, P2, a pressure sensor B, T1, a temperature sensor A, T2, a temperature sensor B, T3, a temperature sensor C, H1 and a humidity sensor.

Detailed Description

The following detailed description of the embodiments, structures, features and functions of the high-pressure gas supply system with different humidity according to the present utility model is given with reference to the accompanying drawings and preferred embodiments.

Example 1:

as shown in fig. 1, the different humidity high pressure gas supply system of the present utility model includes a high pressure gas storage tank 101, an air filter 102, a first heater 104, a humidification tank 106, a make-up tank 107, a second heater 109, a shower 110, a mechanical separator 111, a cartridge filter 112, a high pressure hot gas buffer tank 114, wherein: the pipeline that high-pressure air storage jar 101 export and air cleaner 102 import are connected sets up control valve A1 on, the connecting line of air cleaner 102 export and first heater 104 import sets up first air-vent valve 103 on, set up pressure sensor AP1 on the pipeline of first heater 104 export and humidification jar 106 gas side import, temperature sensor AT1, control valve B2, pipeline branch road between control valve B2 and the pressure sensor AP1 is connected with the high-pressure hot gas buffer tank 114 import, and set up first flow control valve 105 on this branch road, humidification jar 106 gas side export is connected with filter core formula filter 112 import, set up second flow control valve 113 on the pipeline that the filter core formula filter 112 export and high-pressure hot gas buffer tank 114 import are connected, set up temperature sensor CT3 on the high-pressure hot gas buffer tank 114, pressure sensor BP2, humidity transducer H1, set up second air-vent valve 115 on the pipeline that high-pressure hot gas buffer tank 114 export is connected. The top of the humidifying tank 106 is provided with a mechanical separator 111, a pipeline connected with the inlet of the liquid supplementing tank 107 is provided with a control valve C3, a pipeline connected with the inlet of the liquid supplementing pump 108 is provided with a control valve D4, the outlet of the liquid supplementing pump 108 is connected with the inlet of the second heater 109, a pipeline connected with the liquid side inlet of the humidifying tank 106 is provided with a temperature sensor BT2 and a control valve E5, and the tail end of the pipeline connected with the liquid side inlet in the humidifying tank 106 is provided with a sprayer 110.

When in use, the utility model is characterized in that: when the system is operated, firstly, the control valve A1 is opened, normal-temperature high-pressure gas flows out from the high-pressure gas storage tank 101, impurities are removed through the air filter 102, the opening of the first regulating valve 103 is regulated, the power of the first heater 104 is regulated, the high-pressure gas enters the first heater 104 from the first pressure regulating valve 103 to be heated, and the values of the pressure sensor AP1 and the temperature sensor AT1 on an outlet pipeline of the first heater reach set values.

When the test equipment 116 needs zero-humidity high-pressure hot gas, the opening of the first flow regulating valve 105 is adjusted, the zero-humidity high-pressure hot gas passes through the high-pressure hot gas buffer tank 114, the opening of the second pressure regulating valve 115 is adjusted, and the zero-humidity high-pressure hot gas enters the test equipment 116 for gas supply;

when the test equipment 116 is high-pressure hot air with certain humidity, the control valve 2 is opened, and the high-pressure air heated by the first heater 104 enters the humidifying tank 106.

Before the high-pressure hot gas enters the humidifying tank 106, the control valve D4 and the control valve E5 are opened, the fluid driving pump 108 and the second heater 109 are started, the power of the second heater 109 is adjusted, the value of the temperature sensor BT2 is kept at the dew point temperature of liquid, and the sprayer 110 in the humidifying tank 106 is started to spray and humidify the high-pressure hot gas entering the humidifying tank 106.

The high-pressure hot gas sprays and humidifies in the humidifying tank 106 to form saturated high-pressure hot gas with saturated humidity, the saturated high-pressure hot gas primarily removes large-particle liquid fog particles through the mechanical separator 111 at the top of the humidifying tank 106, the saturated high-pressure hot gas enters the filter element type filter 112 from the outlet of the humidifying tank 106 to further remove large-particle liquid fog particles, the opening of the second flow regulating valve 113 and the opening of the first flow regulating valve 105 are regulated, the saturated high-pressure hot gas with saturated humidity and the zero-humidity high-pressure hot gas are fully mixed in the high-pressure hot gas buffer tank 114, after the values of the temperature sensor CT3, the pressure sensor BP2 and the humidity sensor H1 on the high-pressure hot gas buffer tank 114 reach set values, the opening of the second pressure regulating valve 115 is regulated, and the high-pressure hot gas with certain humidity enters the test equipment 116 from the second pressure regulating valve 115 to stably provide the high-pressure hot gas with certain humidity for the test equipment 116.

After the system stops running, the control valve C3 is opened, so that the liquid stored in the humidification tank 106 enters the liquid replenishing tank 107 for recycling.

The liquid in the utility model can be one or more of water, alcohol aqueous solution, salt aqueous solution and other working media, and the gas can be one or more of air, nitrogen, helium, carbon dioxide, natural gas and other gaseous working media.

Example 2:

as shown in fig. 2, the different humidity high pressure gas supply system of the present utility model includes a high pressure gas storage tank 101, an air filter 102, a first heater 104, a humidification tank 106, a shower 110, a mechanical separator 111, a cartridge filter 112, a high pressure hot gas buffer tank 114, wherein: the pipeline that high-pressure air storage jar 101 export and air cleaner 102 import are connected sets up control valve A1 on, the connecting line of air cleaner 102 export and first heater 104 import sets up first air-vent valve 103 on, set up pressure sensor AP1 on the pipeline of first heater 104 export and humidification jar 106 gas side import, temperature sensor AT1, control valve B2, pipeline branch road between control valve B2 and the pressure sensor AP1 is connected with the high-pressure hot gas buffer tank 114 import, and set up first flow control valve 105 on this branch road, humidification jar 106 gas side export is connected with filter core formula filter 112 import, set up second flow control valve 113 on the pipeline that the filter core formula filter 112 export and high-pressure hot gas buffer tank 114 import are connected, set up temperature sensor CT3 on the high-pressure hot gas buffer tank 114, pressure sensor BP2, humidity transducer H1, set up second air-vent valve 115 on the pipeline that high-pressure hot gas buffer tank 114 export is connected. The top of the humidifying tank 106 is provided with a mechanical separator 111, the bottom is provided with a heater 117, a pipeline connected with the liquid side outlet of the bottom and the inlet of the liquid supplementing pump 108 is provided with a control valve C3, a pipeline connected with the liquid side inlet of the humidifying tank 106 at the outlet of the liquid supplementing pump 108 is provided with a control valve E5, and the tail end of the pipeline connected with the liquid side inlet in the humidifying tank 106 is provided with a sprayer 110.

When in use, the utility model is characterized in that: before the compressed air humidification system is started, the control valve C3 and the control valve E5 are opened, the heater 117, the fluid supplementing pump 108 and the sprayer 110 are started, the liquid in the humidification tank 106 is heated in a self-circulation mode, after the value of the temperature sensor DT4 reaches a set value, the high-pressure hot gas supply system is started according to the steps in embodiment 1, and after the high-pressure hot gas enters the humidifier 106, the high-pressure hot gas is enabled to form high-pressure hot gas with saturated humidity more efficiently and rapidly.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the utility model in any way, and any simple modification, equivalent variation and variation of the above embodiment according to the technical matter of the present utility model still fall within the scope of the technical scheme of the present utility model.

Claims (3)

1. The utility model provides a high-pressure steam supply system of different humidity, includes high-pressure gas storage tank (101), air cleaner (102), first heater (104), humidification jar (106), spray thrower (110), mechanical separator (111), cartridge filter (112), high-pressure gas buffer tank (114), its characterized in that: a control valve A (1) is arranged on a pipeline of the outlet of the high-pressure air storage tank (101) connected with the inlet of the air filter (102), a first pressure regulating valve (103) is arranged on a connecting pipeline of the outlet of the air filter (102) and the inlet of the first heater (104), a pressure sensor A (P1), a temperature sensor A (T1) and a control valve B (2) are arranged on a pipeline of the outlet of the first heater (104) and the inlet of the humidifying tank (106), a pipeline leading-out pipeline between the control valve B (2) and the pressure sensor A (P1) is connected with the inlet of the high-pressure hot air buffer tank (114), a first flow regulating valve (105) is arranged on the pipeline, the outlet of the humidifying tank (106) is connected with the inlet of the filter element type filter (112), a second flow regulating valve (113) is arranged on a pipeline of the connection of the outlet of the filter element type filter (112) and the inlet of the high-pressure hot air buffer tank (114), a temperature sensor C (T3), a pressure sensor B (P2) and a humidity sensor (H1) are arranged on the pipeline of the high-pressure hot air buffer tank (114), and a second pressure regulating valve (115) is arranged on the pipeline of the high-pressure hot air buffer tank (114).

2. A high pressure hot gas supply system of varying humidity as claimed in claim 1, wherein: the top of the humidifying tank (106) is provided with a mechanical separator (111), a liquid side outlet at the bottom of the humidifying tank is provided with a control valve C (3) on a pipeline connected with a liquid supplementing tank (107) inlet, a liquid supplementing tank (107) outlet is provided with a control valve D (4) on a pipeline connected with a liquid supplementing pump (108) inlet, the liquid supplementing pump (108) outlet is connected with a second heater (109) inlet, the pipeline connected with the liquid side inlet of the humidifying tank (106) is provided with a temperature sensor B (T2) and a control valve E (5), and the tail end of the pipeline connected with the liquid side inlet in the humidifying tank (106) is provided with a sprayer (110).

3. A high pressure hot gas supply system of varying humidity as claimed in claim 1, wherein: the top of the humidifying tank (106) is provided with a mechanical separator (111), the bottom is provided with a heater (117), a pipeline connected with the inlet of the liquid-side outlet of the bottom and the liquid-supplementing pump (108) is provided with a control valve C (3), a pipeline connected with the liquid-side inlet of the humidifying tank (106) is provided with a control valve E (5), and the tail end of a pipeline connected with the liquid-side inlet in the humidifying tank (106) is provided with a sprayer (110).

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