KR101982144B1 - Suction air temperature-humidity suppressor - Google Patents

Abstract

The present invention relates to an apparatus for reducing intake air temperature and humidity of an air separation apparatus. The apparatus for reducing intake air temperature and humidity comprises: a carburetor housing in which an air heat exchanger is mounted; an air inlet hole and an air outlet hole forming a passage of the outside air sucked and discharged into the carburetor housing; an atmosphere carburetor having a cooling fin disposed inside the air heat exchanger for flowing liquid nitrogen fluid and lowering the temperature and the humidity of the outside air; and a guide member attached to the inside of the carburetor housing for preventing air flow drift.

Description

{SUCTION AIR TEMPERATURE-HUMIDITY SUPPRESSOR}

The present invention relates to an apparatus for reducing the temperature and humidity of air sucked into a compressor,

Generally, at steel mills, the air-separating device that separates oxygen, nitrogen, argon, etc. contained in the air by inhalation is operated by sucking, compressing and expanding the air by using the line-Thomson principle, .

Such an air separation device primarily removes from the air filter installed on the air suction side of the air compressor (air turbine compressor) a large amount of foreign matter, such as raw material powder and burnt powder, generated in the atmospheric steelworks, The air removed by the filter is sent to the air compressor and then to the water cooling tower.

However, the air compressor which consumes the most power in the air separation apparatus has a problem that excessive load and power consumption increase due to increase of the temperature of the raw material air in the summer and increase of the volume of air due to excessive moisture content .

KR 10-2005-0012920 A1

The present invention provides an apparatus for reducing the intake air temperature and humidity by improving the efficiency of an air separation apparatus used in a steelworks and reducing an air compressor load of an air separation unit of a steelworks.

According to an aspect of the present invention, there is provided an apparatus for reducing the intake air temperature and humidity of an air separation apparatus for separating air filtered by an air heat exchanger into air, nitrogen, argon gas, etc. through a water cooling tower, an adsorption unit and an expansion turbine A vaporizer housing in which the air heat exchanger is mounted; An air inlet and an outlet which form a passage of the outside air sucked and discharged into the vaporizer housing; An atmospheric vaporizer disposed in the air heat exchanger and having a cooling fin for flowing a liquid nitrogen fluid and lowering the temperature and humidity of outside air; And a guide member attached to the inside of the carburetor housing to prevent air flow drift.

The guide member includes an air distribution guide partition disposed on the air inlet side; And an air circulation vane provided on the inner surface of the carburetor housing so as to have an oblique surface to the air flow.

A liquid nitrogen inflow line surrounding the air heat exchanger and supplying liquid nitrogen to be filled in the atmosphere vaporizer; And a nitrogen gas outlet line through which liquid nitrogen filled in the atmospheric vaporizer is heat-exchanged and sent out to the atmosphere vaporizer outlet.

A storage tank in which liquid nitrogen is stored and a compression pump for supplying liquid nitrogen from the storage tank may be provided at the upstream side of the liquid nitrogen inflow line.

The nitrogen gas vaporized at the downstream end of the nitrogen gas outlet line can be supplied to and used at the steelworks factory.

And a drain for collecting condensed water in which moisture in the air is condensed and naturally falls in the process of heat exchange with the atmospheric vaporizer and outside air.

The apparatus for reducing the intake air temperature and humidity according to the present invention can improve the facility efficiency through power saving by supplying the air cooled and dried in the summer to the air compressor.

1 schematically shows a system flow of an apparatus for reducing intake air temperature and humidity according to an embodiment of the present invention.
2 is a front view showing an air heat exchanger of an apparatus for reducing intake air temperature and humidity according to an embodiment of the present invention.
3 is a side view of an air heat exchanger of an apparatus for reducing intake air temperature and humidity according to an embodiment of the present invention.
4 shows a flow of the air heat exchanger of the apparatus for reducing the intake air temperature and humidity according to an embodiment of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. The present invention is not limited to the embodiments described below, but may be embodied in other forms. In the drawings, the width, length, thickness, and the like of the components are exaggerated for the sake of convenience. Like reference numerals designate like elements throughout the specification.

1 schematically shows a system flow of an apparatus 100 for reducing intake-air temperature and humidity according to an embodiment of the present invention. Referring to the drawings, the apparatus 100 for reducing the intake air temperature and humidity reduces the temperature and humidity of air in the air heat exchanger 900, and sucks air in the air from which the foreign substances are removed from the air filter 200, And compresses the compressed air in the air compressor 300 through the water cooling tower 400, the adsorber 500, the expansion turbine 600, and the rectifier column 700, and the liquid gas (oxygen, nitrogen, argon ) May be a facility for separate production.

The air in the air is firstly removed by the air filter 200 after the air temperature and the humidity are lowered in the air heat exchanger 900. The air with the foreign matter removed is supplied to the air compressor 300, / Cm2 and then supplied to the water cooling tower 400. [

The air supplied to the water washing cooling tower 400 is cooled by the injection of the cooling water supplied from the cooling tower 800, and foreign matter such as fine dust which is not completely removed from the air filter 200 is also removed.

Clean air passing through the water cooling tower 400 is sent to the adsorber 500 connected to the outlet of the water cooling tower 400 and is supplied to the expansion turbine 600 after impurities such as moisture and carbon dioxide contained in the air are completely removed. The air supplied to the expansion turbine 600 is adiabatically expanded and sent to the rectifying column 700 so that liquid gas (oxygen, nitrogen, argon) is separated and produced by using the difference in boiling point.

2 is a front view showing the air heat exchanger 900 of the apparatus 100 for reducing the intake air temperature and humidity according to an embodiment of the present invention, FIG. 3 is a side view, and FIG. 4 is a cross- And the air heat exchanger flow of the apparatus for reducing the air temperature and humidity.

2 to 4, the air heat exchanger 900 according to an embodiment of the present invention includes a liquid nitrogen fluid (not shown) inside the air heat exchanger 900 to lower the temperature and humidity of the air flowing into the steelworks, The atmospheric vaporizer 930 may be disposed.

A plurality of the atmospheric vaporizer 930 can be mounted inside the housing 950 and the air moisture condensing plate is formed as an embossed concave and convex at the front surface of the outer heat exchange plate of the atmosphere vaporizer 930 to condense air moisture And a plurality of such atmospheric vaporizers 930 may be arranged in parallel to each other.

The atmosphere vaporizer 930 is provided with a liquid nitrogen inlet line 910 in the first vaporizer at the top and a vaporized nitrogen outlet line 920 in the vaporizer at the bottom of the atmospheric vaporizer 930, A portion of the vaporizer fixing leg 980 may be provided so that the liquid nitrogen inlet line 910 and the nitrogen gas outlet line 920 are connected to each other in parallel and the atmospheric vaporizer 930 is fixed to the bottom of the vaporizer housing 950.

The air in the air is condensed from the air moisture condensing plate that condenses the moisture in the air to the external cooling fin of the atmosphere vaporizer 930 while the air and the liquid nitrogen atmospheric vaporizer 930 exchange heat with the bottom of the air heat exchanger 900, And a drain passage 970 for collecting and storing the generated condensed water.

The carburetor housing 950 of the atmospheric vaporizer 930 is formed in a rectangular shape with a slope of concrete or iron structure and has an inlet 940 having an appropriate size on the front side and an outlet 960 having a proper size on the rear side, The inlet and outlet 960 and the vaporizer housing 950 may be bound together.

The vaporizer housing 950 surrounds the atmosphere vaporizer 930 so as to shield the side of the atmospheric vaporizer 930 installed therein and a guide member 963 is installed inside the vaporizer 930 . At this time, the guide member 963 may include an air dispersion guide partition 961 and an air circulating vane 962.

The air distribution guide diaphragm 961 is disposed on the side of the air inlet 940 so as to distribute a flow of air to the rear end of the inlet 940 to prevent the air flow from drifting and the air circulation vane 962 is disposed inside the vaporizer housing 950 So as to prevent the air flow from being drifted to the slope of the inner wall of the vaporizer housing 950 and have an oblique angle to the airflow in a zigzag manner so as to perform smooth heat exchange.

The liquid nitrogen compression pump 911 compresses the liquid nitrogen (-195.8 degrees C) filled in the liquid nitrogen storage tank 912 to remove the liquid nitrogen from the outlet of the liquid nitrogen compression pump 911 from the outlet of the atmosphere vaporizer 930 And the atmosphere gasifier 930 and the nitrogen gas outlet line 920 are connected to the nitrogen pressurization pipe of the steelworks factory. 4, the air suction passage of the air compressor 300 is introduced through the air heat exchanger 900 and the air suction filter 200. As shown in FIG.

The external air introduced through the air heat exchanger 900 is supplied from the liquid nitrogen storage tank 912 through the liquid nitrogen inflow line 910 to the inside of the atmosphere vaporizer 930 And the cooling fin of the atmospheric vaporizer 930 and the outside air introduced into the inlet 940 are in direct contact with each other to be heat-exchanged. By the latent heat of condensation, the air is condensed in the air condensation plate of the atmosphere vaporizer 930, The liquid is trapped and heat exchanged with the atmosphere vaporizer 930, and the liquid nitrogen is warmed, while the air temperature is lowered.

The vaporized nitrogen is sent from the nitrogen gas outlet line 920 to the steel mill 921 and the hot air introduced into the inlet 940 undergoes heat exchange with the atmospheric vaporizer 930 while dry air with reduced temperature and humidity is discharged through the outlet 960 To the suction line of the air compressor 300 to reduce the load on the air compressor 300, thereby improving the facility performance through power saving.

The condensed water generated by the heat exchange of the moisture contained in the air introduced into the air heat exchanger 900 through the atmospheric vaporizer 930 may be collected at the bottom of the vaporizer housing 950 and discharged to the drainage path 970 by the specific gravity.

Particularly, during the summer season, relatively hot and humid air is supplied to the air compressor 300 through the air heat exchanger 900 due to the increase of the atmospheric temperature, thereby contributing to the increase of the efficiency of the compressor 300 .

That is, the air whose temperature and humidity have decreased due to heat exchange with the atmospheric vaporizer 930 filled in the vaporizer housing 950 of the air heat exchanger 900 is supplied to the air compressor 300 through the air heat exchanger 900 It is possible to reduce the load by increasing the discharge capacity of the air compressor 300 and the discharge capacity of the air compressor 300, thereby improving the facility performance through power saving.

The foregoing has shown and described specific embodiments. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the appended claims.

100: air separation device 200: air intake filter
210: filter housing 300: compressor
400: water cooling tower 500: adsorber
600: expansion turbine 700: rectification tower
800: Cooling tower 900: Air heat exchanger
910: liquid nitrogen inlet line 911: liquid nitrogen compression pump
912: liquid nitrogen storage tank 920: nitrogen gas outlet line
921: Steel mill factory 930: Atmospheric vaporizer
940: inlet 950: vaporizer housing
960: Outlet 961: Air distribution guide plate
962: Air circulation guide pulley 970: Drain
980: Carburetor fixing leg

Claims (6)

An apparatus for reducing the intake air temperature and humidity of an air separation apparatus for separating air filtered by an air heat exchanger into oxygen, nitrogen, and argon gas by compressing the compressed air in an air compressor,
A vaporizer housing in which the air heat exchanger is mounted;
An air inlet and an outlet which form a passage of the outside air sucked and discharged into the vaporizer housing;
An atmospheric vaporizer disposed in the air heat exchanger and having a cooling fin for flowing a liquid nitrogen fluid and lowering the temperature and humidity of outside air;
A guide member attached to the inside of the carburetor housing to prevent air flow drift;
A liquid nitrogen inflow line surrounding the air heat exchanger and supplying liquid nitrogen to be filled in the atmosphere vaporizer; And
And a nitrogen gas outlet line through which liquid nitrogen filled in the atmospheric vaporizer is heat exchanged and sent out to the atmosphere vaporizer outlet,
Wherein the guide member includes an air dispersion guide partition disposed on the side of the air inlet, and an air circulation vat provided on the inner surface of the vaporizer housing so as to have an oblique surface to the air flow. delete delete The method according to claim 1,
Wherein the liquid nitrogen inflow line is provided at a front end thereof with a storage tank storing liquid nitrogen and a compression pump for pressurizing and supplying liquid nitrogen from the storage tank. The method according to claim 1 or 4,
Wherein the nitrogen gas vaporized at the downstream end of the nitrogen gas outlet line is supplied to and used by a steelworks factory. The method according to claim 1 or 4,
And a drain for collecting condensed water in which moisture in the air is condensed and naturally falls in the course of heat exchange with the atmospheric vaporizer and the outside air.

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