CN201342268Y - Gas-liquid separation device based on porous medium plate - Google Patents

Abstract

The utility model discloses a gas-liquid separation device based on a porous medium plate. The device comprises a filter, a gas-liquid separation vessel, a pressure regulating valve and a pipeline. The device is characterized in that the gas-liquid separation vessel is connected with the filter and the pressure regulating valve; the filter, the gas-liquid separation vessel, the pressure regulating valve and the pipeline are connected through pipe joints and welding; an inlet is formed at one end of the filter; an exhaust pipeline is arranged at one end of the pressure regulating valve; the filter is used for filtering solid in gas-liquid mixed liquid; the gas-liquid separation vessel comprises a pressure vessel and a porous medium plate; the exhaust pipeline is arranged at the upper end of the gas-liquid separation vessel, and the lyophilic porous medium plate is arranged at the lower end thereof; and a liquid discharge pipeline is mounted at one end of the lyophilic porous medium plate. The utility model has the advantages of simple structure and convenient use, can continuously separate the gas-liquid mixed liquid in a wide loading range real timely, and can be widely applied to gas-liquid separation field with various pressures and flow ranges.

Description

Gas-liquid separation device based on porous media board

Technical field

The utility model relates to a kind of gas-liquid separation device, relates in particular to a kind of gas-liquid separation device based on porous media board.Can be widely used in the gas-liquid separation field of all kinds of gas-liquid separations field, particularly high accuracy, tiny flow quantity and the real-time of gas-liquid mixture fluid of low liquid content separates.This gas-liquid separation device can be applicable under the high, normal, basic pressure condition oil gas, aqueous vapor, contain the separation of gas-liquid mixture fluids such as gasoloid, be applicable to that oil, chemical industry, water conservancy, electric power, medicine, machinery etc. need the industry of gas-liquid separation.

Background technology

The isolating construction that gas-liquid separator adopts is a lot, and it separates the principle of utilizing has: gravitational settling; Baffling separates; Centrifugal force separates; Silk screen separates; Methods such as ultra-filtration and separation.The gravitational settling volume is very huge, and silk screen separates and relatively is suitable for gas-liquid separation, but volume is bigger than normal, the segregational load narrow range, and the equipment complexity is difficult to realize miniaturization, is not suitable for the real-time gas-liquid separation under the tiny flow quantity condition especially; The micro porous filtration mask work is extremely unstable, is with liquid easily, and separation methods such as centrifugal force separation face segregational load narrow range, the problem bad to the separating effect of low discharge equally.

Requirement to gas-liquid separation equipment in the modern project utilization is more and more higher, need a kind of simple, efficient, in real time, adapt to the gas-liquid separation device of tiny flow quantity, wide segregational load scope.

Summary of the invention

The purpose of this utility model is to overcome the shortcoming and defect that prior art exists, a kind of gas-liquid separation device based on porous media board is provided, this apparatus structure is simple, realize the requirement of existing engineering, gas-liquid separation under the gas-liquid separation device of high accuracy, efficient, real-time, wide segregational load scope, particularly high accuracy, the tiny flow quantity condition.

The purpose of this utility model is achieved in that

A kind of gas-liquid separation device based on porous media board, its device constitute:

This device is made of filter, gas-liquid separation container, pressure-regulating valve door, pipeline.Its principle is to utilize the porous media of lyophily phase can pass through liquid, can not be by the characteristic of gas.Increase liquid by the pressure in the gas-liquid separator by the pressure-regulating valve door, thereby the quick porous media board of the part of the liquid in the promotion gas-liquid mixture fluid by gas-liquid separation container bottom, and gas is discharged the gas-liquid separation container by the pressure-regulating valve door, realize the gas-liquid separation of gas-liquid mixture fluid, referring to Fig. 1.

Pass between each parts is: the gas-liquid separation container respectively with filter, the pressure-regulating valve door links to each other, filter, the gas-liquid separation container, the pressure-regulating valve door, adopt standard pipe joint or welding to be connected between the pipeline, (the connection standard is referring to gas thread, the cutting ferrule joint, pipelines such as pipeline welding connect standard), end at filter has import, end at the pressure-regulating valve door has gas exhaust piping, end at the gas-liquid separation container has drain line, filter avoids stopping up the pore structure of the porous media board in the gas-liquid separation container for filtering the solid in the gas-liquid mixture fluid; The gas-liquid separation container is the core component of this device, and gas-liquid two-phase fluid is realized separating in this container; The pressure-regulating valve door realizes that for the difference between the fluid pressure in gas pressure in the adjustment gas-liquid separation container and the drain line liquid after the separation in the gas-liquid separation container is discharged rapidly.

Import, gas exhaust piping, drain line is under the jurisdiction of pipeline, and import is the admission passage of gas-liquid mixture fluid, the gas channel after the gas exhaust piping gas-liquid separation, drain line is the passage of liquid after the gas-liquid separation.Gas exhaust piping is equipped with in described upper end at the gas-liquid separation container, and the lower end end has drain line.

End at the gas-liquid separation container is equipped with lyophily phase porous media board, at lyophily phase porous media board one end drain line is housed, the gas-liquid separation container comprises pressure vessel, porous media board, sealing ring, cushion block etc., at an end of gas-liquid separation container gas exhaust piping is housed, and the other end has import.Pressure vessel, sealing ring, porous media board, cushion block are under the jurisdiction of the gas-liquid separation container, are the parts of gas-liquid separation container; Wherein gas-liquid phase porous media board and pressure vessel are the necessary parts of gas-liquid separation container, and miscellaneous part is option for the parts of linking and sealing porous dielectric-slab and pressure vessel, can adjust according to the difference of specific design.

1, filter

Filter in this device is an auxiliary equipment, belongs to option, depends on whether contain fine particle in the solution.Filter is the general industry product, mainly removes the fine grained in the gas-liquid mixture fluid, avoids particle to stop up porous media board 21, and gas-liquid separation effect is exerted an influence.After removing filter, import directly links to each other with the gas-liquid separation container.

2, gas-liquid separation container

For general pressure vessel, at container bottom porous media board is set, referring to Fig. 2.Note sealing between porous media board and the container, prevent that gas from entering in the liquid phase by the leakage of the gap between them, reduces gas-liquid separation effect;

Porous media board is the general industry converted products, material for example: porous materials such as sandstone plate, porous disc, porous ceramic plate, expanded metal, cellular-plastic panels.

3, pressure-regulating valve door

The pressure-regulating valve door is the general industry product, preferentially select differential valve or counterbalance valve for use, mainly act as pressure and the interior pressure of drain line in the control high-pressure bottle, guarantee that the liquid after the gas-liquid separation passes through porous media board fast, realize the quick outflow gas-liquid separation container of liquid phase.

4, pipeline

Be general industrial pipeline, being connected with reference to general pipeline between pipeline and each parts connects standard standards such as () screwed pipe connect, cutting ferrule connects, is welded to connect.Pipeline portions comprises import, gas exhaust piping, drain line.

The device operation principle:

The principle that gas-liquid separation device utilizes is caused by the surface tension between the gas-liquid mainly that for the air-entry value feature of porous media board the air-entry value of porous media is obeyed following formula:

$p_c=\frac{2\mathrm{\σ}\cos \mathrm{\θ}}{r}---\left(1\right)$

p _c-be the air-entry value of porous media board, above behind this pressure, gas can enter in the porous media board;

σ-be the surface tension between the gas-liquid; With reference to surface tension value between the general gas-liquid;

θ-be the contact angle of liquid phase and porous material; Contact angle data with reference to general liquid level and porous material;

R-is pore radius or the maximum diameter of hole radius in the porous media;

p _c-be the air-entry value of porous media board, can directly obtain by experimental test.If the application conditions range spans of gas-liquid separation device is very big, this value is got the minimum air-entry value under each condition.

The liquid that assurance enters in the gas-liquid separation container can in time be discharged outside the gas-liquid separation container, needs the differential pressure between control gas-liquid separation container and the drain line, makes the liquid that separates in time discharge the gas-liquid separation container.

${\mathrm{\Δp}}_{\min }=\frac{Q_{\max }\·\mathrm{\μ}\·L}{A\·k}---\left(2\right)$

Δ p _MinMinimal difference (kPa) for fluid pressure in gas pressure and the drain line in the gas-liquid separation container;

Q _MaxMaximum stream flow (the m of liquid in the gas-liquid mixture fluid ³/ s);

The viscosity of μ liquid (Pa.s);

γ _fLiquid unit weight (N/m ³);

Absolute infiltration coefficient (the m of k porous media board ²), can directly obtain by the infiltration coefficient testing experiment;

Contact area (the m of A porous media board and fluid ²);

The thickness of L porous media board (m);

Δ p=p _{Separation container}-p _{Drain line}(3)

Δ p is the pressure difference value of liquid in interior gas pressure of gas-liquid separation container and the drain line;

p _{Separation container}Be gas pressure in the gas-liquid separation container, kPa;

p _{Drain line}Be the pressure of liquid in the drain line, kPa;

The pressure in the pressure-regulating valve gate control pressure vessel and the scope of drain line pressure reduction are between the two:

Δp _min＜Δp＜p _c (4)

The liquid that guarantees gas-liquid separation can be discharged fast, guarantees that simultaneously gas can not sneak in the liquid.This separator can be realized the gas-liquid separation of any tiny flow quantity (lower limit of fractional dose is by the decision of the reason of other non-separation aspect in theory, for example: reasons such as device leakage rate, certainty of measurement), the pressure adjustable range of pressure-regulating valve door 30 is very big simultaneously, the range of flow of gas-liquid separation can be crossed over 6 more than the order of magnitude at least thus, loading range is very wide, gas-liquid separation under can be from tiny flow quantity to the intermediate flow condition, be particularly suitable for the gas-liquid separation under the high accuracy tiny flow quantity condition, miniaturization that can implement device.

The using method of gas-liquid separation device:

1, directly the import of the band filter core of this device is connected to the interface that need carry out gas-liquid separation, promptly begins to carry out gas-liquid separation, in gas exhaust piping and drain line, obtain gas and liquid respectively.

2, the pressure of pressure-regulating valve door is adjusted according to (1) (2) (3) (4) and is adjusted, and can guarantee the effect of gas-liquid separation.

The utlity model has following advantage and good effect:

1, is particularly suitable for the gas-liquid separation device of tiny flow quantity, realizes efficient, real-time separation;

2, this device can be realized miniaturization, realizes that the internal volume of gas-liquid separation container is very little;

2, this device gas-liquid separation load range is wide, is particularly suitable for the gas-liquid separation under the tiny flow quantity condition;

3, simple in structure, dismounting, cleaning convenience, each parts of whole sampler add simply, assemble simple, can well control cost;

In a word, because the utility model advantage is obvious, therefore can be widely used in the gas-liquid separation of various laboratory tests and industrial process.

Description of drawings

Fig. 1 is a kind of gas-liquid separation device structure chart based on porous media board;

Fig. 2 is a gas-liquid separation container core component structure chart;

Fig. 3 is a kind of gas-liquid separation device structure chart

Wherein:

The 10-filter;

20-gas-liquid separation container;

21-lyophily phase porous media board

The 22-pressure vessel

The 23-sealing ring

The 24-cushion block

30-pressure-regulating valve door;

The 40-pipeline constitutes;

The 41-import

The 42-gas exhaust piping

The 43-drain line

The specific embodiment

Describe in detail below in conjunction with drawings and Examples:

1) device basic comprising

This device is made of filter 10, gas-liquid separation container 20, pressure-regulating valve door 30, pipeline 40; Increase liquid by the pressure in the gas-liquid separation container 20 by pressure-regulating valve door 30, thereby the liquid in the promotion gas-liquid mixture fluid is the porous media board 21 by gas-liquid separation container bottom fast, and gas is discharged gas-liquid separation container 20 by pressure-regulating valve door 30, realizes the gas-liquid separation of gas-liquid mixture fluid.

A kind of gas-liquid separation device based on porous media board, pass between the parts is: gas-liquid separation container 20 respectively with filter 10, pressure-regulating valve door 30 links to each other, filter 10, gas-liquid separation container 20, pressure-regulating valve door 30, adopt standard pipe joint or welding to be connected between the pipeline 40, (the connection standard is referring to gas thread, the cutting ferrule joint, pipelines such as pipeline welding connect standard), end at filter 10 has import 41, end at pressure-regulating valve door 30 has gas exhaust piping 42, end at gas-liquid separation container 20 has drain line 43, filter 10 avoids stopping up the pore structure of the porous media board 21 in the gas-liquid separation container for filtering the solid in the gas-liquid mixture fluid; Gas-liquid separation container 20 is the core component of this device, and gas-liquid two-phase fluid is realized separating in this container; Pressure-regulating valve door 30 realizes that for the difference between the fluid pressure in gas pressure in the adjustment gas-liquid separation container 20 and the drain line liquid after the separation in the gas-liquid separation container 20 is discharged rapidly.

Import 41, gas exhaust piping 42, drain line 43 is subordinate to and pipeline 40, and import 41 is the admission passage of gas-liquid mixture fluid, the gas channel after gas exhaust piping 42 gas-liquid separations, drain line 43 is the passage of liquid after the gas-liquid separation.Gas exhaust piping 42 is equipped with in the upper end of gas-liquid separation container 20, and drain line 43 is equipped with in the lower end.

According to Fig. 2, Fig. 3 as can be known, end at gas-liquid separation container 20 is equipped with lyophily phase porous media board 21, at lyophily phase porous media board 21 1 ends drain line 43 is housed, gas-liquid separation container 20 includes pressure vessel 22, porous media board 21, sealing ring 23, cushion block 24 etc., end at gas-liquid separation container 20 is equipped with gas exhaust piping 42, the other end has import 41, and pressure vessel 22, sealing ring 23, cushion block 24 are under the jurisdiction of gas-liquid separation container 20, is the part of gas-liquid separation container; Wherein gas-liquid phase porous media board 21 and pressure vessel 22 are the necessary parts of gas-liquid separation container 20, and miscellaneous part is option for the parts of linking and sealing porous dielectric-slab 21 and pressure vessel, has the difference of specific design to adjust.

If equipment needs to maximize, can be by scale and other auxiliary separation of amplifying this device, for example: increase porous media board area, reduce porous media board thickness,

2) gas-liquid separation container:

Gas-liquid separation container 20 mainly is made of porous media board 21 and pressure vessel 22, and auxiliary other parts such as sealing, connection constitute, as shown in Figure 2.

The manufacturing process of porous media board 21: the material of porous media board can be selected porous materials such as sandstone, permeable stone, porous ceramics, porous metals, porous plastics, pin hole plastics, carries out general industry processing and obtains, and this series products of existing market is more.The pore diameter range of porous media material is generally between 0.1 micron～10 millimeters, porous material has wellability (or by physical chemistry processing porous material surface realization wellability or lyophily to liquid) to liquid phase, can realize the gas-liquid separation work of various gas-liquid mixture fluids.

The air-entry value of porous media board $p_c=\frac{2\mathrm{\σ}\cos \mathrm{\θ}}{r},$ Specifically, can obtain according to experimental test referring to formula (1); The pressure limit that the pressure-regulating valve door is provided with is referring to formula (2) (3) (4);

The aperture size of porous media board and infiltration coefficient are chosen according to (1) (2) (3) common coordination.

In gas-liquid separation container 20 bottoms porous media board 21 is set, notes the sealing between porous media board 21 and the pressure vessel 22.Common gas-liquid separation can be adopted seal approach sealings such as rubber washer, fluid sealant; Need chemical preservation to handle, can adopt materials such as silicon rubber, polytetrafluoroethylene (PTFE), silica gel, PEEK to seal.The various industry modes of being tightly connected that are connected with between porous media board 21 and the pressure vessel 22 are carried out, basic connection situation can be referring to the mode among Fig. 3, also can adopt other enforcement, should be noted that it is to reveal by gas between pressure vessel 22 and the porous media board especially.

Can place traditional gas-liquid separation mode in the gas-liquid separation container 20, for example: gravitational settling; Baffling separates; Centrifugal force separates; The effect of whole gas-liquid separation device is optimized in mode speed up gas and liquid separation processes such as silk screen separation.

Pressure vessel 22 is general industry product or converted products, and container need be provided with three passages, connects filter 10, pressure-regulating valve door 30 and drain line 43 respectively and is connected; Need in the pressure vessel simultaneously to consider with porous media board between 21 be connected, guarantee the operate as normal of porous media board, the liquid of discharge is compiled in reserved part space, porous media board bottom.

3) pressure-regulating valve door

Pressure-regulating valve door 30 can be selected counterbalance valve, differential valve, valve equal pressure control valve for use, directly adopts existing industrial products, and type selecting is convenient, carries out type selecting with reference to the scope of setting referring to formula (1) (2) (3) (4).

The pressure difference value Δ p of liquid in gas pressure and the drain line in the pressure-regulating valve door 30 control gas-liquid separation containers _Min＜Δ p＜p _cIn the scope, guarantee that the liquid of gas-liquid separation can in time be discharged, guarantee that simultaneously gas can not sneak in the liquid.This separator can be realized the gas-liquid separation (the fractional dose low-quality is by the reason decision of other non-separation effect aspect) of any tiny flow quantity in theory, and the maximum separation amount of liquid of device is:

$Q_{\max }\≤\frac{\mathrm{\Δp}\·A\·k}{\mathrm{\μ}\·L}$ Parameter is referring to formula (1) (2) (3) (4)

Pressure-regulating valve door 30 recommends to use differential valve, counterbalance valve.The pressure adjustable range of pressure-regulating valve door is very big, and the range of flow of gas-liquid separation can be crossed over 6 at least, and loading range is very wide more than the order of magnitude, is particularly suitable for the gas-liquid separation under high accuracy, the tiny flow quantity condition, can realize light and handyization.The minimum separation flow is that other factors such as leakage rate of measurement device precision and entire equipment determine that this installs theoretic gas-liquid separation flow can be infinitely small.

4) install the problem that enforcement should be noted that:

The gas-liquid separation container need guarantee that gas exhaust piping is positioned at the top of gas-liquid separation container 20, and drain line is positioned at the below of gas-liquid separation container 20, utilizes gravity and gas-liquid segregation that gas-liquid is separated, and the inversion of gas-liquid separation device will cause the gas-liquid separation process to lose efficacy.

This device is not suitable for the gas-liquid mixture fluid of micro emulsion shape, these fluids may stop up porous media board, the fluid-mixing that the micro emulsion shape can't the gas-liquid layering in the short time particularly, simultaneously bubble diameter near with the pore diameter of porous media board, as: be mixed with bubble ice cream liquid, contain the gas-liquid mixture fluid of surfactant etc., will cause this failure of apparatus.

This device carrying out real-time released state is, when under the low discharge labile state, carrying out gas-liquid separation, because the gas flow buffering can take place in the volume of separation container and the operation principle of pressure-regulating valve door 30, it is intermittent causing the gas partial discharge, the liquid part also has the part intermittence simultaneously, measurement has a fixed response time effect to high-precision flow, and the internal volume that reduces gas-liquid separation container 20 can reduce the time delay effect.

Implement example:

A small-sized gas-liquid separation experimental rig:

Because separation solution does not contain fine particle impurity, omit filter 10, this device is made of jointly gas-liquid separation container 20, pressure-regulating valve door 30, and pressure-regulating valve door 30 is selected counterbalance valve (pressure limit 0～500kPa) for use.Filter 10 (is ignored) as shown in Figure 1 by system.Separating gas-liquid mixture fluid is the fluid-mixing of emanating in the high pressure saturated solution, and gas liquid ratio is about 0.2: 0.8.

Adopt hydrophilic sandstone as porous media board, to N in the gas-liquid separation container ₂Carry out gas-water separation with the aqueous solution, the approaching and 100kPa of drain line internal pressure, the sandstone pores average diameter is about 0.2mm, and the air-entry value of porous media board is about 50kPa, and infiltration coefficient is about 5D, and the diameter 4cm of porous media board, area are 12.56cm ²Thickness is 0.5cm, processing laggard promoting the circulation of qi liquid separates, it is 130kPa that counterbalance valve pressure is set, stablize in the gas-liquid separation device that the fluid pressure difference is 30kPa in the pressure and drain line, can stablize and realize that the fractionate aqueous solutions volume is the air water fluid-mixing in 0～2.4 liter of/minute aqueous solution scope, theoretic gas-liquid separation flow can be infinitely small, the leakage rate that is limited to measurement device precision and entire equipment under the actual separation amount is determined, about 0.001 ml/min of minimum separation amount of this small-sized laboratory testing rig.

Claims (4)

1, a kind of gas-liquid separation device based on porous media board is made up of filter (10), gas-liquid separation container (20), pressure-regulating valve door (30), pipeline (40), it is characterized in that:

Gas-liquid separation container (20) links to each other with filter (10), pressure-regulating valve door (30) respectively, adopt pipe joint or welding to be connected between filter (10), gas-liquid separation container (20), pressure-regulating valve door (30), the pipeline (40), end at filter (10) has import (41), end at pressure-regulating valve door (30) has gas exhaust piping (42), in the lower end of gas-liquid separation container (20) drain line (43) is arranged, filter (10) is for filtering the solid in the gas-liquid mixture fluid.

2, a kind of gas-liquid separation device based on porous media board according to claim 1 is characterized in that:

Describedly comprise pressure vessel (22), porous media board (21) at gas-liquid separation container (20), lyophily phase porous media board (21) is equipped with in gas-liquid separation container (20) lower end, at lyophily phase porous media board (21) one ends drain line (43) is housed.

3, a kind of gas-liquid separation device based on porous media board according to claim 1 is characterized in that:

Gas exhaust piping (42) is equipped with in described upper end at gas-liquid separation container (20), and the lower end end has drain line (43).

4, a kind of gas-liquid separation device based on porous media board according to claim 1 is characterized in that:

Contain porous media board (21) in the described gas-liquid separation container (20), the material of porous media board (21) has lyophily attribute or liquid phase wellability.

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