CN219110895U - Continuous liquid-liquid phase separator - Google Patents

Abstract

The utility model discloses a continuous liquid-liquid phase separator, which comprises a vertical tank and a horizontal tank integrally fixedly connected to one side of the vertical tank, wherein a feed inlet, a drain outlet and a pressure gauge for monitoring pressure are arranged on the horizontal tank, coalescing filler is filled in the horizontal tank, a light phase liquid outlet is arranged at the top of the vertical tank, and a heavy phase liquid outlet is arranged at the bottom of the vertical tank; through designing the device of liquid-liquid phase separation into the hammer structure that is consolidated by the horizontal tank and the vertical tank an organic whole, the liquid that the accessible coalescent filler made the material weight correspond the affinity composition and other liquid produces the velocity of flow difference, and the horizontal tank is to the space difference that the cross-section expansion produced that stands the jar simultaneously can make the material velocity of flow decline to provide sufficient time for the layering of material in standing the jar, guarantee thing feed liquid separation efficiency when effectively reducing occupation space and manufacturing cost.

Description

Continuous liquid-liquid phase separator

Technical Field

The utility model belongs to the technical field of liquid-liquid separation devices, and particularly relates to a continuous liquid-liquid phase separator.

Background

In the production process of industries such as petrochemical industry, fine chemical industry and the like, liquid-liquid separation processes are often involved, liquid-liquid separation is generally carried out in a standing layering mode and the like, the defects of large equipment investment, low separation efficiency, large occupied space and the like exist, and the production cost of enterprises is greatly increased.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provides the continuous liquid-liquid phase separator which has high separation efficiency, small occupied space and low production cost.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the continuous liquid-liquid phase separator comprises a vertical tank and a horizontal tank integrally fixedly connected to one side of the vertical tank, wherein a feed inlet, a drain outlet and a pressure gauge for monitoring pressure are arranged on the horizontal tank, coalescing filler is filled in the horizontal tank, a light phase liquid outlet is formed in the top of the vertical tank, and a heavy phase liquid outlet is formed in the bottom of the vertical tank.

Preferably, the pressure gauge is arranged at the position of the feeding hole and the coalescing filler of the horizontal tank.

Preferably, a thermometer is also installed on the sleeping tank.

Preferably, the sleeping tank is also provided with a standby port.

Preferably, the vertical tank is provided with a sight glass opening and a sight glass liquid level gauge for on-site monitoring, and the sight glass opening is provided with a plurality of sight glass openings along the height direction of the vertical tank.

Preferably, the vertical tank is also provided with a remote transmission limit position meter for remote observation.

The utility model has the technical effects that: through designing the device of liquid-liquid phase separation into the hammer structure that is consolidated by the horizontal tank and the vertical tank an organic whole, the liquid that corresponds the affinity composition in the accessible coalescence filler makes the material and other liquid produce the velocity of flow difference, and the horizontal tank enlarges the space difference that produces to the cross-section of vertical tank simultaneously, can make the material velocity of flow decline to provide sufficient time for the layering of material in the vertical tank, guarantee thing feed liquid separation efficiency when effectively reducing occupation space and manufacturing cost.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

The reference numerals of the main technical characteristics in the drawings are as follows: 1. a horizontal tank; 2. erecting a tank; 11. a feed inlet; 12. a sewage outlet; 13. coalescing filler; 14. a pressure gauge; 15. a thermometer; 16. a standby port; 21. a light phase liquid outlet; 22. a heavy phase liquid outlet; 23. a viewing mirror opening; 24. a sight glass type liquid level gauge; 25. remote interface meter port.

Detailed Description

The utility model is further illustrated by the following detailed description and the accompanying drawings.

As shown in FIG. 1, the continuous liquid-liquid phase separator comprises a vertical tank 2 and a horizontal tank 1, wherein one end of the horizontal tank 1 is integrally fixedly connected to the middle part of the vertical tank 2 to form a hammer type phase separator structure.

Specifically, the one end that the horizontal tank 1 kept away from standing jar 2 has seted up feed inlet 11 and drain 12, and still installs manometer 14 here for detect the pressure of horizontal tank 1 feed end.

Further, the middle part of the horizontal tank 1 is filled with a coalescing filler 13, and the coalescing filler 13 is in the prior art and contains components which are compatible with the corresponding components in the materials; the bedroom 1 is also fitted with a pressure gauge 14 at the coalescing packing 13.

Furthermore, a thermometer 15 is installed at one end of the horizontal tank 1 close to the vertical tank 2, and a standby port 16 is further formed beside the thermometer 15 in the horizontal tank 1.

Specifically, a light phase liquid outlet 21 is formed in the top of the vertical tank 2 for discharging light materials with lower density and lighter weight, and the light phase liquid outlet 21 is an oil outlet; the bottom is provided with a heavy phase liquid outlet 22 for discharging with higher density and higher weight, and the heavy phase liquid outlet 22 is a water outlet.

Further, a plurality of sight glass openings 23 are uniformly installed on the side wall of one side of the vertical tank 2 along the height direction, and a sight glass liquid level meter 24 is also installed in the middle area of the vertical tank 2.

Further, the vertical tank 2 is provided with a remote transmission limit gauge, and two ends of the remote transmission limit gauge are respectively connected to remote transmission limit gauge ports 25 on the side walls close to the top and the bottom of the vertical tank 2.

The specific implementation process of the utility model is as follows: the liquid-liquid mixture material to be layered enters the horizontal tank 1 from the feed inlet 11, after the liquid-liquid mixture material passes through the coalescing filler 13, components which are easy to be compatible with the filler begin to gather on the filler, then flow into the vertical tank 2, after the liquid-liquid mixture material flows into the vertical tank 2 from the horizontal tank 1, the flow rate of the material is reduced, enough time is provided for layering the material in the vertical tank 2, the pressure gauge 14 and the thermometer 15 on the horizontal tank 1 can display whether the material is layered under the optimal layering condition, and the sight glass opening 23, the sight glass liquid level gauge 24 and the remote transmission liquid level gauge on the vertical tank 2 can facilitate the operator to observe the split phase condition of the phase separator on site or remotely.

The above embodiments are merely examples of the present utility model, but the present utility model is not limited thereto, and the present utility model may be applied to similar products, and any person skilled in the art who is skilled in the field of the present utility model shall make changes or modifications within the scope of the present utility model.

Claims (6)

1. A continuous liquid-liquid phase separator, characterized by: including stand jar (2) and integrative rigid coupling in the sleeping tank (1) of standing jar (2) one side, be provided with feed inlet (11), drain (12) and be used for pressure gauge (14) of monitoring on sleeping tank (1), it is filled with coalescence filler (13) in it, it is provided with light phase liquid outlet (21) to stand jar (2) top, and its bottom is provided with heavy phase liquid outlet (22).

2. A continuous liquid-liquid phase separator according to claim 1, wherein: the pressure gauge (14) is arranged at the positions of the feeding hole (11) and the coalescing filler (13) of the horizontal tank (1).

3. A continuous liquid-liquid phase separator according to claim 1, wherein: a thermometer (15) is also arranged on the sleeping tank (1).

4. A continuous liquid-liquid phase separator according to claim 1, wherein: the sleeping tank (1) is also provided with a standby port (16).

5. A continuous liquid-liquid phase separator according to claim 1, wherein: the vertical tank (2) is provided with a sight glass opening (23) and a sight glass liquid level meter (24) for on-site monitoring, and the sight glass opening (23) is provided with a plurality of sight glass openings along the height direction of the vertical tank (2).

6. A continuous liquid-liquid phase separator according to claim 1, wherein: the vertical tank (2) is also provided with a remote transmission limit position meter for remote observation.

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