CN214513253U - Vertical gas-liquid separator for air - Google Patents

Abstract

The utility model relates to a vertical gas-liquid separator for air, which relates to a vertical separator, and aims to solve the problems that the prior gas-liquid separator adopts a silk screen to catch liquid drops, the gas-liquid separator of the type has low separation efficiency and is easy to be blocked by the silk screen, an air inlet part and an air outlet part are symmetrically arranged on the side wall of a shell, a porous plate component and a corrugated plate gas-liquid separator are fixedly arranged on two baffles, the porous plate component, the corrugated plate gas-liquid separator and the two baffles are arranged in the shell between the air inlet part and the air outlet part, the tops of the two baffles are hermetically connected with the inner wall of the shell above the air outlet part through a top sealing plate, the bottoms of the two baffles are hermetically connected with the inner wall of the shell below the air outlet part through a bottom sealing plate, each baffle is hermetically connected with the inner wall of the shell, an upper exhaust part and a safety valve interface part are arranged on the shell, the bottom drain part is arranged at the bottom of the shell. The utility model is used for the gas-liquid separation field.

Description

Vertical gas-liquid separator for air

Technical Field

The utility model relates to a vertical separator, concretely relates to vertical vapour and liquid separator for air.

Background

The gas-liquid separator is used for treating gas containing a small amount of condensate to realize condensate recovery or gas phase purification, the humidity of air is increased, the gas-liquid separator is required to perform gas-liquid separation in order to reduce the corrosion of the air to a subsequent equipment cooler, and the gas-liquid separator is diversified. At present, a mode of catching liquid drops by using a wire mesh is common, and the gas-liquid separator has low separation efficiency and is easy to cause the problem of wire mesh blockage. Therefore, it is desirable to provide a novel gas-liquid separator which can safely and efficiently perform gas-liquid separation.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the mode that adopts the silk screen to catch the liquid drop among the current vapour and liquid separator, this type of vapour and liquid separator separation efficiency is not high, and takes place the problem that the silk screen blockked up easily, and then provides a vertical vapour and liquid separator for air.

The utility model discloses a solve above-mentioned problem and the technical scheme who adopts is:

the device comprises a shell, an air inlet part, an air outlet part, an upper exhaust part, a safety valve interface part, a bottom drainage part, a porous plate component, a corrugated plate gas-liquid separator and two baffles; air inlet portion and air outlet portion symmetry are installed on the lateral wall of casing, perforated plate subassembly and wave plate vapour and liquid separator fixed mounting are on two baffles, perforated plate subassembly, wave plate vapour and liquid separator and two baffle setting are in the casing between air inlet portion and air outlet portion, the inner wall sealing connection of top closing plate and air outlet portion top casing is passed through to two baffle tops, the inner wall sealing connection of bottom closing plate and air outlet portion below casing is passed through to two baffle bottoms, the inner wall sealing connection of every baffle and casing, go up exhaust portion and relief valve interface portion and install on the casing, bottom drainage portion installs in the casing bottom.

The beneficial effects of utility model are that:

through the utility model provides a vapour and liquid separator, the air that contains liquid droplet gets into the casing from air intlet, and the air is through porous plate subassembly and wave plate separating assembly in proper order, and porous plate subassembly is with humid air evenly distributed, and wave plate separating assembly is with the moisture separation in the gas, and the moisture of separation gets into hydrophobic pipe and discharges through the action of gravity, and dry gas passes through the air outlet pipe and discharges. The utility model discloses a wave plate separation efficiency is high, and the pressure loss is little, is showing and has improved gas-liquid separation efficiency. The gas-liquid separation device has the advantages of low maintenance cost, long service life, compact structure, smooth flow passage and small pressure loss, and gas is subjected to gas-liquid separation only once. The dryness of the air passing through the separator can reach more than 99 percent.

Drawings

Fig. 1 is a schematic view of the overall structure of the present application.

Fig. 2 is a view from a-a in fig. 1.

Detailed Description

The first embodiment is as follows: the embodiment is described with reference to fig. 1-2, and the vertical gas-liquid separator for air in the embodiment comprises a shell 1, an air inlet part 2, an air outlet part 3, an upper air exhaust part 4, a safety valve interface part 5, a bottom drainage part 6, a porous plate assembly 7, a corrugated plate gas-liquid separator 8 and two baffles 9; air inlet portion 2 and air outlet portion 3 symmetry are installed on the lateral wall of casing 1, perforated plate subassembly 7 and corrugated plate vapour and liquid separator 8 fixed mounting are on two baffles 9, perforated plate subassembly 7, corrugated plate vapour and liquid separator 8 and two baffles 9 set up in casing 1 between air inlet portion 2 and air outlet portion 3, the inner wall sealing connection of casing 1 above two baffles 9 tops through top closing plate and air outlet portion 3, the inner wall sealing connection of casing 1 below two baffles 9 bottoms through bottom closing plate and air outlet portion 3, every baffle 9 and casing 1's inner wall sealing connection, it installs on casing 1 to go up gas discharge portion 4 and relief valve interface portion 5, bottom water drainage portion 6 installs in casing 1 bottom.

The corrugated plate gas-liquid separator 8 is sealed with the top sealing plate and the bottom sealing plate through the two baffles 9 and the inside of the shell 1 to ensure the normal operation of gas-liquid separation.

The second embodiment is as follows: the embodiment is described with reference to fig. 1-2, and the housing 1 of the embodiment comprises a cylinder 1-1, an upper end enclosure 1-2 and a lower end enclosure 1-3; the upper sealing head 1-2 is hermetically arranged on the cylinder body 1-1, the lower sealing head 1-3 is hermetically arranged on the cylinder body 1-1, the upper exhaust part 4 and the safety valve interface part 5 are hermetically arranged on the upper sealing head 1-2, and the bottom drainage part 6 is hermetically arranged on the lower sealing head 1-3. The rest is the same as the first embodiment.

The third concrete implementation mode: the embodiment is described with reference to fig. 1-2, and the corrugated plate gas-liquid separator 8 comprises a separator upper groove 8-1, a separator lower groove 8-2, a left side plate 8-3, a right side plate 8-4, a C-shaped plate 8-5, a corrugated plate component 8-7, an air outlet orifice plate 8-11, a drainage short pipe 8-12, a drainage pipe 8-13, a lower end side welding short plate 8-14, a lower end socket fixing plate 8-15, two support angle steels 8-8 and a plurality of flat plates 8-10;

a separator upper groove 8-1, a separator lower groove 8-2, a left side plate 8-3 and a right side plate 8-4 are connected in sequence to form a frame body, a C-shaped plate 8-5 is fixedly arranged above the separator upper groove 8-1, a corrugated plate component 8-7 is arranged in the frame body of the separator upper groove 8-1, the separator lower groove 8-2, the left side plate 8-3 and the right side plate 8-4, the top of a hydrophobic short pipe 8-12 is hermetically connected with the separator lower groove 8-2, the bottom end of the hydrophobic short pipe 8-12 is fixedly connected with a hydrophobic pipe 8-13 through a flange, the bottom end of the hydrophobic pipe 8-13 is fixedly connected with a lower end socket fixing plate 8-15 through a lower end side surface welding short plate 8-14, the lower end socket fixing plate 8-15 is fixedly connected with the inner wall at the bottom of the shell 1, the left side plate 8-3 is fixedly connected with a baffle plate 9 through a flat plate 8-10, the right side plate 8-4 is fixedly connected with a baffle 9 through a flat plate 8-10, the baffle 9 is hermetically connected with the inner wall of the shell 1, and the baffle 9 is respectively connected with an upper sealing plate and a lower sealing plate.

The short plates 8-14 welded on the side surface of the lower end and the bottom ends of the drain pipes 8-13 are fixed through bolts, so that the stability of the separator is ensured, and the drainage of the bottom drainage part 6 is ensured to work normally. The rest is the same as the first embodiment.

The fourth concrete implementation mode: referring to fig. 1, the vertical gas-liquid separator for air according to the present embodiment is described, and the corrugated plate gas-liquid separator 8 further includes a plurality of ear plates 8-6, and the plurality of ear plates 8-6 are fixedly mounted on the C-shaped plates 8-5. The corrugated plate gas-liquid separator 8 is convenient to lift when being assembled with the shell 1. The rest is the same as the first embodiment.

The fifth concrete implementation mode: referring to the embodiment described above with reference to fig. 1 to 2, both ends of the porous plate assembly 7 of the vertical gas-liquid separator for air according to the embodiment are respectively installed on the upper separator tank 8-1 and the lower separator tank 8-2 by means of bolts. The rest is the same as the third embodiment.

The sixth specific implementation mode: referring to fig. 1, the present embodiment will be described, in which a perforated plate assembly 7 is formed by four perforated plates connected by bolts. The rest is the same as the third embodiment.

The seventh embodiment: referring to fig. 1, the embodiment is described, and the vertical gas-liquid separator for air in the embodiment is characterized in that a bottom water discharging part 6 is vertically arranged on a lower seal head 1-3, and the bottom end of a water discharging pipe 8-13 is arranged corresponding to the top end of the bottom water discharging part 6. The drain pipes 8-13 are arranged corresponding to the bottom drain part 6 to ensure the smooth discharge of the drain port. The other is the same as the second or third embodiment.

The specific implementation mode is eight: referring to fig. 2, the vertical gas-liquid separator for air according to the present embodiment is described, in which a manhole is formed in a bottom sealing plate, and a manhole cover is installed in the manhole. The separator is convenient to overhaul. The rest is the same as the first embodiment.

The specific implementation method nine: the vertical gas-liquid separator for air according to the embodiment is described with reference to fig. 1-2, the corrugated plate gas-liquid separator 8 further comprises connecting angle steel 8-8, the connecting angle steel 8-8 is connected with the lower groove 8-2 of the separator, and the corrugated plate assembly 8-7 is arranged on the connecting angle steel 8-8. The angle steel 8-8 supports the corrugated plate assembly 8-7. Meanwhile, a hydrophobic space is formed by the connecting angle steel 8-8 and the lower groove 8-2 of the separator. The rest is the same as the third embodiment.

The detailed implementation mode is ten: the vertical gas-liquid separator for air according to the present embodiment is described with reference to fig. 1 to 2, and the corrugated plate gas-liquid separator 8 according to the present embodiment further includes seal angle steel 8-9, the seal angle steel 8-9 is fixedly connected to the lower sealing plate, and the seal angle steel 8-9 is fixedly connected to the lower groove 8-2 of the separator. The rest is the same as the third embodiment.

Principle of operation

When the separator provided by the utility model is used for gas-liquid separation, air containing liquid fog drops firstly enters the shell from the air inlet, then the air enters the perforated plate component, the perforated plate is a stainless steel plate which is perforated according to a certain aperture ratio, the air is evenly distributed after entering the perforated plate, thus the air flow field of the inlet of the perforated plate component is even, the air is convenient for the gas-liquid separation, the air enters the corrugated plate component, the corrugated plate is made of the stainless steel plate, the structure is provided with a plurality of zigzag grooves, when the wet air with water drops is in curvilinear motion along the tortuous flow channel between the two corrugated plates, the saturated water is captured and collected by the water retaining hook of the separating plate, thereby the purpose of gas-water separation is achieved, the separated water enters the bottom groove of the separating plate, the water flows into the bottom of the shell seal head through the drain pipe at the bottom of the seal head, the separated dry air enters the outlet pore plate, the air is uniformly discharged out of the apparatus through the outlet duct. The utility model discloses compact structure, runner are unobstructed, and the pressure loss is little, and the maintenance cost is low, long service life.

Claims (10)

1. A vertical gas-liquid separator for air, characterized by: the air-conditioning device comprises a shell (1), an air inlet part (2), an air outlet part (3), an upper exhaust part (4), a safety valve interface part (5), a bottom drainage part (6), a porous plate component (7), a corrugated plate gas-liquid separator (8) and two baffles (9); the air inlet part (2) and the air outlet part (3) are symmetrically arranged on the side wall of the shell (1), the porous plate component (7) and the corrugated plate gas-liquid separator (8) are fixedly arranged on the two baffles (9), the porous plate component (7), the corrugated plate gas-liquid separator (8) and the two baffles (9) are arranged in the shell (1) between the air inlet part (2) and the air outlet part (3), the tops of the two baffles (9) are in sealing connection with the inner wall of the shell (1) above the air outlet part (3) through a top sealing plate, the bottoms of the two baffles (9) are in sealing connection with the inner wall of the shell (1) below the air outlet part (3) through a bottom sealing plate, each baffle (9) is in sealing connection with the inner wall of the shell (1), the upper exhaust part (4) and the safety valve interface part (5) are arranged on the shell (1), and the bottom drainage part (6) is arranged at the bottom of the shell (1).

2. The vertical gas-liquid separator for air according to claim 1, wherein: the shell (1) comprises a cylinder body (1-1), an upper seal head (1-2) and a lower seal head (1-3); the upper end enclosure (1-2) is hermetically arranged on the cylinder body (1-1), the lower end enclosure (1-3) is hermetically arranged on the cylinder body (1-1), the upper exhaust part (4) and the safety valve interface part (5) are hermetically arranged on the upper end enclosure (1-2), and the bottom drainage part (6) is hermetically arranged on the lower end enclosure (1-3).

3. The vertical gas-liquid separator for air according to claim 1, wherein: the corrugated plate gas-liquid separator (8) comprises a separator upper groove (8-1), a separator lower groove (8-2), a left side plate (8-3), a right side plate (8-4), a C-shaped plate (8-5), a corrugated plate assembly (8-7), an air outlet pore plate (8-11), a drainage short pipe (8-12), a drainage pipe (8-13), a lower end side welding short plate (8-14), a lower end socket fixing plate (8-15) and a plurality of flat plates (8-10);

an upper separator groove (8-1), a lower separator groove (8-2), a left side plate (8-3) and a right side plate (8-4) are sequentially connected to form a frame body, a C-shaped plate (8-5) is fixedly arranged above the upper separator groove (8-1), a corrugated plate component (8-7) is arranged in the frame body of the upper separator groove (8-1), the lower separator groove (8-2), the left side plate (8-3) and the right side plate (8-4), the top of a drainage short pipe (8-12) is hermetically connected with the lower separator groove (8-2), the bottom of the drainage short pipe (8-12) is fixedly connected with a drainage pipe (8-13) through a flange, the bottom of the drainage pipe (8-13) is fixedly connected with a lower end socket fixing plate (8-15) through a lower end side welding short plate (8-14), the lower seal head fixing plate (8-15) is fixedly connected with the inner wall of the bottom of the shell (1), the left side plate (8-3) is fixedly connected with the baffle (9) through a flat plate (8-10), the right side plate (8-4) is fixedly connected with the baffle (9) through a flat plate (8-10), the baffle (9) is hermetically connected with the inner wall of the shell (1), and the baffle (9) is respectively connected with the upper sealing plate and the lower sealing plate.

4. The vertical gas-liquid separator for air according to claim 1, wherein: the corrugated plate gas-liquid separator (8) further comprises a plurality of ear plates (8-6), and the ear plates (8-6) are fixedly arranged on the C-shaped plates (8-5).

5. The vertical gas-liquid separator for air according to claim 3, characterized in that: two ends of the perforated plate component (7) are respectively installed on the upper groove (8-1) and the lower groove (8-2) of the separator through bolt connection.

6. The vertical gas-liquid separator for air according to claim 3, characterized in that: the perforated plate component (7) is formed by connecting four perforated plates through bolts.

7. A vertical gas-liquid separator for air according to claim 2 or 3, characterized in that: the bottom drainage part (6) is vertically arranged on the lower end sockets (1-3), and the bottom ends of the drain pipes (8-13) are arranged corresponding to the top end of the bottom drainage part (6).

8. The vertical gas-liquid separator for air according to claim 1, wherein: a manhole is machined on the bottom sealing plate, and a manhole cover plate is installed on the manhole.

9. The vertical gas-liquid separator for air according to claim 3, characterized in that: the corrugated plate gas-liquid separator (8) further comprises connecting angle steel (8-8), the connecting angle steel (8-8) is connected with the lower groove (8-2) of the separator, the corrugated plate assembly (8-7) is arranged on the connecting angle steel (8-8) and has a supporting effect on the connecting angle steel, and meanwhile, a hydrophobic space is formed between the corrugated plate gas-liquid separator and the lower groove (8-2) of the separator.

10. The vertical gas-liquid separator for air according to claim 3, characterized in that: the corrugated plate gas-liquid separator (8) further comprises sealing angle steel (8-9), the sealing angle steel (8-9) is fixedly connected with the lower sealing plate, and the sealing angle steel (8-9) is fixedly connected with the lower groove (8-2) of the separator.

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