CN208586251U - Electromagnetic induction oil gas water treatment facilities - Google Patents
Electromagnetic induction oil gas water treatment facilities Download PDFInfo
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- CN208586251U CN208586251U CN201821094138.2U CN201821094138U CN208586251U CN 208586251 U CN208586251 U CN 208586251U CN 201821094138 U CN201821094138 U CN 201821094138U CN 208586251 U CN208586251 U CN 208586251U
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- type shell
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- oil
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Abstract
The utility model discloses electromagnetic induction oil gas water treatment facilities, including horizontal type shell, saddle support is arranged in the left and right ends of the horizontal type shell bottom, several sewage draining exits are arranged in the horizontal type shell between the saddle support at both ends, and oil gas water feeding cylinder is arranged in the left end of the horizontal type shell;Interconnected pretreating zone, packing area, decanting zone, liquid collecting zone, grease chamber and water chamber are set gradually from left to right in the horizontal type shell.Oil gas water feeding cylinder is arranged in the left end of horizontal type shell, takes full advantage of the flow regime for carrying out the kinetic energy adjustment liquid stream of liquid itself, and combine gas preprocessor, realizes effectively gas-liquid separation to the gas in liquid stream in advance.
Description
Technical field
The utility model relates generally to oil gas water separator, specifically a kind of electromagnetic induction oil gas water treatment facilities.
Background technique
In oilfield surface engineering, to meet oil/gas well gauging of products, mining site processing, (or other conveyings of storage and pipeline
Mode) conveying needs, it is necessary to established oil gas water three phase is separated, three phase separation is usually in three phases separator
It carries out.
When the three phases separator used on oil field at present is in the presence of liquid measure variation is carried out, adaptability is poor, and entrance structure
Part is usually a block baffle or other simple structures, and buffer capacity is low, is not had to the flow velocity of the entrance liquid stream with kinetic energy
It is made full use of, the separation of oil gas water is completed mainly by three phase separation apparatus body, therefore cause equipment volume larger, if
Back-up is from inefficient.
Utility model content
To solve the deficiencies in the prior art, the utility model provides a kind of electromagnetic induction oil gas water treatment facilities, horizontal
Oil gas water feeding cylinder is arranged in the left end of shell, takes full advantage of the flow regime for carrying out the kinetic energy adjustment liquid stream of liquid itself, and tie
Gas preprocessor is closed, effectively gas-liquid separation is realized to the gas in liquid stream in advance.
The utility model to achieve the above object, is achieved through the following technical solutions:
Electromagnetic induction oil gas water treatment facilities, which is characterized in that including horizontal type shell, the left and right of the horizontal type shell bottom
Saddle support is arranged in both ends, several sewage draining exits, the horizontal shell is arranged in the horizontal type shell between the saddle support at both ends
Oil gas water feeding cylinder is arranged in the left end of body;
Interconnected pretreating zone, packing area, decanting zone, liquid collecting are set gradually from left to right in the horizontal type shell
Area, grease chamber and water chamber;
The top left of the horizontal type shell is arranged gas preprocessor, the gas preprocessor by the first conduit with
The bottom end of the connection of oil gas water feeding cylinder, the gas preprocessor is connected to by liquid distributor with pretreating zone, the horizontal shell
The top right end setting gas of body catches mist device, and the gas is caught mist device and connect by umbrella crown system with decanting zone;
The top of the gas preprocessor is caught mist device with gas by the second conduit and is connected to, and second conduit passes through
Support frame is mounted on the top of horizontal type shell, and first pressure gauge, the oil gas water feeding cylinder gas are arranged on second conduit
Preprocessor connection, the bottom end setting oil gas water inlet and liquid distributor, the gas of the gas preprocessor catch mist device
Upper setting second pressure gauge, the gas, which is caught, is arranged gas vent on mist device;Constant-current stabilizer, institute are set in the pretreating zone
State setting water-oil separating filler in packing area;Inclined ladder is set in the decanting zone, partition and oil are set between the grease chamber, water chamber
Water level regulating device, water chamber are connected to by aqueduct with liquid collecting zone, and grease chamber is described by being connected to by oil guide pipe with liquid collecting zone
Water tank gauge port is arranged in the top of water chamber, and water outlet is arranged in the bottom end of the water chamber, and cargo tank instrument is arranged in the top of the grease chamber
Mouthful, oil outlet is arranged in the bottom end of the grease chamber.
The right end of the horizontal type shell is arranged the first manhole, and the grease chamber is arranged the second population, the liquid collecting zone setting the
Third population is arranged in three populations, the packing area.
The upper and lower ends of the grease chamber are respectively provided with the first connecting tube, and the first inclined support bar is arranged in first connecting tube,
The upper and lower ends of the water chamber are respectively provided with the second connecting tube, and the second inclined support bar is arranged in second connecting tube.
The oil gas water feeding cylinder is fixed on the left end of horizontal type shell by support frame.
Control valve is respectively provided on first conduit, the second conduit.Compare the prior art, the beneficial effect of the utility model
Fruit is:
1, oil gas water feeding cylinder is arranged in the left end of the utility model horizontal type shell, takes full advantage of the kinetic energy for carrying out liquid itself
The flow regime of liquid stream is adjusted, and combines gas preprocessor, effectively gas-liquid separation is realized to the gas in liquid stream in advance.
2, the first manhole is arranged in the right end of the utility model horizontal type shell, and the second population, the liquid collecting is arranged in the grease chamber
Third population is arranged in area, and third population is arranged in the packing area, can facilitate in observation horizontal type shell and separate situation.
3, the first inclined support bar is set in the first connecting tube of the utility model, and setting second is tiltedly propped up in second connecting tube
Strut can increase the stability of the first connecting tube, the second connecting tube.
4, the utility model oil gas water feeding cylinder is fixed on the left end of horizontal type shell by support frame, increases the charging of oil gas water
The stability of cylinder.
5, the first conduit of the utility model, be respectively provided with control valve on the second conduit, be conducive to the flow velocity for controlling gas.
Detailed description of the invention
Attached drawing 1 is the structural schematic diagram of the utility model;
Attached drawing 2 is the right view of attached drawing 1.
Label shown in attached drawing: 1, oil gas water feeding cylinder;2, gas preprocessor;3, gas catches mist device;4, it pre-processes
Area;5, packing area;6, decanting zone;7, liquid collecting zone;8, grease chamber;9, water chamber;10, water-oil separating filler;11, the first conduit;12,
Two conduits;13, umbrella crown system;14, liquid distributor;15, first pressure gauge;16, second pressure gauge;17, gas vent;18, steady
Flow device;19, partition;20, water tank gauge port;201, cargo tank gauge port;21, water outlet;22, oil outlet;23, the first population;
24, the second population;25, third population;26, the first connecting tube;27, the first inclined support bar;28, the second connecting tube;29, second tiltedly
Support rod;30, support frame;31, control valve;32, sewage draining exit;33, inclined ladder;34, saddle support;35, support frame.
Specific embodiment
With reference to the drawings and specific embodiments, the utility model is described in further detail.It should be understood that these embodiments are only used for
Illustrate the utility model rather than limitation the scope of the utility model.In addition, it should also be understood that, having read the utility model instruction
Content after, those skilled in the art can make various changes or modifications the utility model, and such equivalent forms are equally fallen
In range defined herein.
Saddle is arranged in the left and right ends of electromagnetic induction oil gas water treatment facilities, including horizontal type shell, the horizontal type shell bottom
Formula support 34, several sewage draining exits 32 are arranged between the saddle support 34 at both ends, are conducive to blowdown for the horizontal type shell, described
Oil gas water feeding cylinder 1 is arranged in the left end of horizontal type shell, and oil gas water is facilitated to enter separation program.
Interconnected pretreating zone 4, packing area 5, decanting zone 6, collection are set gradually from left to right in the horizontal type shell
Liquid zone 7, grease chamber 8 and water chamber 9;
Gas preprocessor 2 is arranged in the top left of the horizontal type shell, and the gas preprocessor 2 passes through the first conduit
11 are connected to oil gas water feeding cylinder 1, and oil gas water feeding cylinder 1 takes full advantage of the flowing shape for carrying out the kinetic energy adjustment liquid stream of liquid itself
State, and gas preprocessor 2 is combined, effectively gas-liquid separation is realized to the gas in liquid stream in advance.The gas preprocessor 2
Bottom end be connected to pretreating zone 4 by liquid distributor 14, by gas preprocessor 2, grease mixed liquor passes through liquid distributor
14 enter in horizontal type shell;The top right end setting gas of the horizontal type shell catches mist device 3, and it is logical that the gas catches mist device 3
Umbrella crown system 13 is crossed to connect with decanting zone 6;
The top of the gas preprocessor 2 is caught mist device 3 with gas by the second conduit 12 and is connected to, and gas passes through second
Conduit 12 catches mist device 3 into gas, and remaining liquid enters in horizontal type shell through umbrella crown, and second conduit 12 passes through support
Frame 30 is mounted on the top of horizontal type shell, and first pressure gauge 15,1 gas of oil gas water feeding cylinder is arranged on second conduit 12
Body preprocessor 2 is connected to, and the bottom end setting oil gas water inlet and liquid distributor 14, the gas of the gas preprocessor 2 are caught
Second pressure gauge 16 is set on mist device 3, facilitates detection gas pressure.The gas catches setting gas vent 17 on mist device 3;
Constant-current stabilizer 18 is set in the pretreating zone 4, water-oil separating filler 10 is set in the packing area 5, grease two-phase is carried out
Separation.Inclined ladder 33 is set in the decanting zone 6, partition 19 and grease liquid level regulation apparatus are set between the grease chamber 8, water chamber 9,
Water chamber 9 is connected to by aqueduct with liquid collecting zone 7, and grease chamber 8 by oil guide pipe with liquid collecting zone 7 by being connected to, the top of the water chamber 9
Water tank gauge port 20 is set, and water outlet 21 is arranged in the bottom end of the water chamber 9, and cargo tank gauge port is arranged in the top of the grease chamber 8
201, oil outlet 22 is arranged in the bottom end of the grease chamber 8.
In use, oil gas aqueous mixtures enter gas preprocessor 2 from oil gas water feeding cylinder 1, gas enters gas and catches mist
Device 3, grease mixed liquor are entered in horizontal type shell by liquid distributor 14, enable gas-liquid initial gross separation;Grease mixed liquor warp
Constant-current stabilizer 18 enters liquid collecting zone 7 by water-oil separating filler 10, in the area, is layered by grease density official post grease, bottom
Portion is the water layer separated, and top is crude oil and the crude oil emulsion layer containing dispersion droplet, and oil and emulsion are above partition 19
It is flow to grease chamber 8, is discharged through oil outlet 22, water enters water chamber 9 from aqueduct, is discharged via water outlet 21.
Preferably, the first manhole is arranged in the right end of the horizontal type shell, and the second population 24, the collection is arranged in the grease chamber 8
Third population 25 is arranged in liquid zone 7, and third population 25 is arranged in the packing area 5, can facilitate in observation horizontal type shell and separate situation.
The upper and lower ends of the grease chamber 8 are respectively provided with the first connecting tube 26, and setting first is tiltedly propped up in first connecting tube 26
Strut 27, the upper and lower ends of the water chamber 9 are respectively provided with the second connecting tube 28, the second bearing diagonal are arranged in second connecting tube 28
Bar 29 can increase the stability of the first connecting tube 26, the second connecting tube 28.
The oil gas water feeding cylinder 1 is fixed on the left end of horizontal type shell by support frame 30, increases oil gas water feeding cylinder 1
Stability.
It is respectively provided with control valve 31 on first conduit 11, the second conduit 12, is conducive to the flow velocity for controlling gas.
Embodiment 1:
Saddle is arranged in the left and right ends of electromagnetic induction oil gas water treatment facilities, including horizontal type shell, the horizontal type shell bottom
Formula support 34, several sewage draining exits 32 are arranged between the saddle support 34 at both ends, are conducive to blowdown for the horizontal type shell, described
Oil gas water feeding cylinder 1 is arranged in the left end of horizontal type shell, facilitates oil gas water to enter separation program, oil gas water feeding cylinder 1 passes through support
Frame 30 is fixed on the left end of horizontal type shell, increases the stability of oil gas water feeding cylinder 1.
Interconnected pretreating zone 4, packing area 5, decanting zone 6, collection are set gradually from left to right in the horizontal type shell
Liquid zone 7, grease chamber 8 and water chamber 9, the upper and lower ends of grease chamber 8 are respectively provided with the first connecting tube 26, and is arranged in first connecting tube 26
One inclined support bar 27, the upper and lower ends of the water chamber 9 are respectively provided with the second connecting tube 28, are arranged second in second connecting tube 28
Inclined support bar 29 can increase the stability of the first connecting tube 26, the second connecting tube 28
Gas preprocessor 2 is arranged in the top left of the horizontal type shell, and the gas preprocessor 2 passes through the first conduit
11 are connected to oil gas water feeding cylinder 1, and oil gas water feeding cylinder 1 takes full advantage of the flowing shape for carrying out the kinetic energy adjustment liquid stream of liquid itself
State, and gas preprocessor 2 is combined, effectively gas-liquid separation is realized to the gas in liquid stream in advance.The gas preprocessor 2
Bottom end be connected to pretreating zone 4 by liquid distributor 14, by gas preprocessor 2, grease mixed liquor passes through liquid distributor
14 enter in horizontal type shell;The top right end setting gas of the horizontal type shell catches mist device 3, and it is logical that the gas catches mist device 3
Umbrella crown system 13 is crossed to connect with decanting zone 6;
The top of the gas preprocessor 2 is caught mist device 3 with gas by the second conduit 12 and is connected to, and gas passes through second
Conduit 12 catches mist device 3 into gas, and remaining liquid enters in horizontal type shell through umbrella crown, and second conduit 12 passes through support
Frame 30 is mounted on the top of horizontal type shell, and first pressure gauge 15, the first conduit 11, the second conduit is arranged on second conduit 12
It is respectively provided with control valve 31 on 12, is conducive to the flow velocity for controlling gas.
Oil gas water is arranged in 1 gas preprocessor 2 of the oil gas water feeding cylinder connection, the bottom end of the gas preprocessor 2
Import and liquid distributor 14, the gas catch setting second pressure gauge 16 on mist device 3, facilitate detection gas pressure.The gas
Body catches setting gas vent 17 on mist device 3;Constant-current stabilizer 18 is set in the pretreating zone 4, setting oil in the packing area 5
Water separates filler 10, separates to grease two-phase.Inclined ladder 33 is set in the decanting zone 6, is set between the grease chamber 8, water chamber 9
Set partition 19 and grease liquid level regulation apparatus, water chamber 9 be connected to by aqueduct with liquid collecting zone 7, grease chamber 8 by pass through oil guide pipe and
Liquid collecting zone 7 is connected to, and water tank gauge port 20 is arranged in the top of the water chamber 9, and water outlet 21 is arranged in the bottom end of the water chamber 9, described
Cargo tank gauge port 201 is arranged in the top of grease chamber 8, and oil outlet 22 is arranged in the bottom end of the grease chamber 8;The right end of the horizontal type shell is set
The first manhole is set, the second population 24 is arranged in the grease chamber 8, and third population 25 is arranged in the liquid collecting zone 7, and the packing area 5 is arranged
Third population 25 can facilitate in observation horizontal type shell and separate situation.
Claims (5)
1. electromagnetic induction oil gas water treatment facilities, which is characterized in that including horizontal type shell, the left and right two of the horizontal type shell bottom
Several sewage draining exits, the horizontal type shell is arranged in end setting saddle support, the horizontal type shell between the saddle support at both ends
Left end be arranged oil gas water feeding cylinder;
Interconnected pretreating zone, packing area, decanting zone, liquid collecting zone, oil are set gradually from left to right in the horizontal type shell
Room and water chamber;
Gas preprocessor is arranged in the top left of the horizontal type shell, and the gas preprocessor passes through the first conduit and oil gas
The bottom end of the connection of water feeding cylinder, the gas preprocessor is connected to by liquid distributor with pretreating zone, the horizontal type shell
Right end setting gas in top catches mist device, and the gas is caught mist device and connect by umbrella crown system with decanting zone;
The top of the gas preprocessor is caught mist device with gas by the second conduit and is connected to, and second conduit passes through support
Frame is mounted on the top of horizontal type shell, and first pressure gauge is arranged on second conduit, and the oil gas water feeding cylinder gas is located in advance
Device connection is managed, the bottom end setting oil gas water inlet and liquid distributor, the gas of the gas preprocessor are caught and set on mist device
Second pressure gauge is set, the gas, which is caught, is arranged gas vent on mist device;Constant-current stabilizer is set in the pretreating zone, it is described to fill out
Expect that water-oil separating filler is arranged in area;Inclined ladder is set in the decanting zone, partition and oil-water fluid are set between the grease chamber, water chamber
Face regulating device, water chamber are connected to by aqueduct with liquid collecting zone, and grease chamber by oil guide pipe with liquid collecting zone by being connected to, the water chamber
Top water tank gauge port is set, water outlet is arranged in the bottom end of the water chamber, and cargo tank gauge port, institute is arranged in the top of the grease chamber
State the bottom end setting oil outlet of grease chamber.
2. electromagnetic induction oil gas water treatment facilities according to claim 1, which is characterized in that the right end of the horizontal type shell
First manhole is set, and the second population is arranged in the grease chamber, and third population is arranged in the liquid collecting zone, and the third party is arranged in the packing area
Mouthful.
3. electromagnetic induction oil gas water treatment facilities according to claim 2, which is characterized in that the upper and lower ends of the grease chamber
It is respectively provided with the first connecting tube, the first inclined support bar is set in first connecting tube, the upper and lower ends of the water chamber are respectively provided with
The second inclined support bar is arranged in second connecting tube in two connecting tubes.
4. electromagnetic induction oil gas water treatment facilities according to claim 1, which is characterized in that the oil gas water feeding cylinder is logical
Cross the left end that support frame is fixed on horizontal type shell.
5. electromagnetic induction oil gas water treatment facilities according to claim 1, which is characterized in that first conduit, second
Control valve is respectively provided on conduit.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821094138.2U CN208586251U (en) | 2018-07-11 | 2018-07-11 | Electromagnetic induction oil gas water treatment facilities |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821094138.2U CN208586251U (en) | 2018-07-11 | 2018-07-11 | Electromagnetic induction oil gas water treatment facilities |
Publications (1)
Publication Number | Publication Date |
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CN208586251U true CN208586251U (en) | 2019-03-08 |
Family
ID=65540468
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201821094138.2U Active CN208586251U (en) | 2018-07-11 | 2018-07-11 | Electromagnetic induction oil gas water treatment facilities |
Country Status (1)
Country | Link |
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CN (1) | CN208586251U (en) |
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2018
- 2018-07-11 CN CN201821094138.2U patent/CN208586251U/en active Active
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