CN113045015B - Oil-gas-water three-phase separation, filtration and purification device - Google Patents

Abstract

The application discloses an oil-gas-water three-phase separation, filtration and purification device, which comprises a mounting base, an oil-gas-water three-phase separator arranged on the mounting base, and a water filtration purifier connected with the oil-gas-water three-phase separator and used for filtering and purifying sewage discharged from the oil-gas-water three-phase separator, wherein the water filtration purifier comprises a containing shell, an isolation filter plate, a primary filter plate, a three-level filter and an inclined guide plate; this application can furthest improve the filtration purification efficiency and the effect of water through the drainage clarifier, also is favorable to promoting the further development and the using widely of this field technique simultaneously greatly.

Description

Oil-gas-water three-phase separation, filtration and purification device

Technical Field

The application relates to the technical field of oil-gas-water three-phase separation, in particular to an oil-gas-water three-phase separation, filtration and purification device.

Background

In the existing oil and gas field production process, the directly produced crude oil produced liquid contains a large amount of water and natural gas, dehydration and degassing treatment are needed before transportation and use, the treated purified crude oil and natural gas are respectively output as products, and the separated water can be recycled as the reinjection water of an oil well.

In addition, at present, the oil-gas-water separation at home and abroad is generally carried out by adopting a gravity settling mode to carry out oil-gas-water three-phase separation treatment, and a horizontal separator is utilized to complete the separation of the oil-gas-water three-phase separation treatment based on the density difference of oil, gas and water three-phase substances.

However, the existing oil-gas-water three-phase separator does not have the function of filtering, purifying and recycling the separated water body, and therefore, the technical personnel in the field develop an oil-gas-water three-phase separation, filtering and purifying device to meet the actual use requirement.

Disclosure of Invention

The above-mentioned prior art problem that this application will be solved is to provide an oil gas water three-phase separation filtration purification device.

In order to solve the technical problem, the method is realized by the following technical scheme:

an oil-gas-water three-phase separation, filtration and purification device comprises a mounting base and an oil-gas-water three-phase separator arranged on the mounting base, and further comprises a water filtration and purification device connected with the oil-gas-water three-phase separator and used for filtering and purifying sewage discharged from the oil-gas-water three-phase separator;

the water filtration purifier comprises:

the containing shell is connected with the oil-gas-water three-phase separator and is internally provided with a containing cavity;

the isolation filter plate is arranged in the containing cavity, so that a first containing cavity and a second containing cavity are formed in the containing cavity, and a secondary filter hole for secondary water body filtering is formed in the lower part of the isolation filter plate;

the primary filter plate is arranged in the first containing cavity and is provided with primary filter holes for primarily filtering water;

the third-stage filter is arranged in the second containing cavity and is used for filtering the second-stage filtered water body filtered by the second-stage filtering holes;

and the inclined guide plate is obliquely arranged in the second containing cavity, is positioned on the upper side of the third-stage filter and is provided with a guide waterway for guiding the water body to change the flow direction.

According to the oil-gas-water three-phase separation, filtration and purification device, the first containing cavity is positioned on the right side of the second containing cavity;

the primary filter plate is obliquely arranged in the first containing cavity towards the left.

As above oil-gas-water three-phase separation filtration purification device, be equipped with on the appearance casing and be located the water inlet port of first appearance dress cavity upside, and still be equipped with and be located the blowdown port of first appearance dress cavity downside, and still be equipped with and be located the second holds the water outlet port of upside behind the dress cavity.

The oil-gas-water three-phase separation, filtration and purification device is characterized in that the upper side of the primary filter plate is hinged with the right side of the isolation filter plate;

the water filtration purifier further comprises:

the movable opening-closing plate is connected in the first containing cavity in a sliding mode and is positioned on the right side of the isolation filter plate;

the upper end of the connecting rod is connected with the primary filter plate, and the lower end of the connecting rod is connected with the movable opening-closing plate;

and the movable opening plate driving group is arranged on the right side of the isolation filter plate, is positioned on the upper side of the movable opening plate and is used for driving the movable opening plate to slide up and down to open and close the secondary filter holes, and meanwhile, the connecting rod is linked with the movable opening plate to drive the primary filter plate to rotate around the hinged part.

According to the oil-gas-water three-phase separation, filtration and purification device, a backward convex guide slide rail is arranged on the front side wall inside the first containing cavity, and a forward convex guide slide rail is arranged on the rear side wall of the first containing cavity;

the movable opening plate is characterized in that a rear concave sliding groove which is connected with the rear convex guide sliding rail in an adaptive mode is formed in the front side wall of the movable opening plate, and a front concave sliding groove which is connected with the front convex guide sliding rail in an adaptive mode is formed in the rear side wall of the movable opening plate.

According to the oil-gas-water three-phase separation, filtration and purification device, the inclined guide plate is arranged in the second containing cavity in an inclined manner rightwards;

the water conservancy diversion water route includes:

the flow guide water inlet is formed in the left lower side of the inclined flow guide plate;

the diversion water outlet is arranged on the right upper side of the inclined diversion plate, and the height of the diversion water outlet is higher than that of the diversion water inlet;

and the diversion waterway is arranged on the periphery of the inclined diversion plate, one end of the diversion waterway is communicated with the diversion water inlet, and the other end of the diversion waterway is communicated with the diversion water outlet.

As above oil gas water three-phase separation filtration purification device, tertiary filter thing is for filtering the package, and it filters the casing including permeating water to and from bottom to top set gradually in permeate water and filter inside biochemical cotton layer, the quartz sphere layer of filtration, coconut husk carbon layer, the bamboo charcoal layer of casing.

As above oil gas water three-phase separation filtration purification device, oil gas water three-phase separator includes:

the tank body is internally provided with a containing separation cavity, the left side of the tank body is provided with an oil-gas-water mixed liquid input port communicated with the containing separation cavity, the upper side of the tank body is provided with a gas discharge port used for discharging gas separated from the containing separation cavity outwards, and the lower side of the tank body is sequentially provided with a water body sewage discharge port, a water body output port, an oil liquid sewage discharge port and an oil liquid output port from left to right;

the inlet baffle is arranged in the containing separation cavity and is positioned on the right side of the oil-gas-water mixed liquid input port;

the honeycomb inclined pipe group is arranged in the containing separation cavity and is positioned on the right side of the inlet baffle;

the electrode gathering module is arranged in the accommodating and separating cavity and is positioned on the right side of the honeycomb inclined tube group;

the wire concentration module is arranged in the accommodating separation cavity, is positioned on the right side of the electrode concentration module and is used for concentrating wires electrically connected with the electrode concentration module;

and the oil separating plate is arranged in the containing and separating cavity and is positioned between the water body output port and the oil liquid dirt discharge port.

As above oil gas water three-phase separation filtration purification device, the entry baffle includes upper portion baffle and lower part baffle, lower part baffle inclines to the right side direction, and its upper side with upper portion baffle downside integrated into one piece, horizontal perforating hole has been seted up to the upper portion baffle.

The oil-gas-water three-phase separation, filtration and purification device is characterized in that a vacuum isolation space is arranged in the side wall of the tank body.

Compared with the prior art, the application has the following advantages:

1. the oil-gas-water three-phase separation, filtration and purification device comprises a first containing cavity, a first filter plate, a second filter hole, a third filter hole, a slope guide plate, a third filter plate, a water guide channel, a water guide plate and a water guide plate, wherein the first containing cavity is formed by the first filter plate and the second filter hole, the water guide channel is formed by the first filter plate and the third filter plate, meanwhile, the method is also greatly beneficial to promoting the further development, popularization and use of the technology in the field.

2. When the oil-gas-water three-phase separation, filtration and purification device needs to discharge primary filtered sewage and secondary filtered sewage in the first containing cavity outwards, the device can drive the movable opening plate to slide downwards to close the secondary filter holes by the aid of the movable opening plate drive set, the secondary filter holes are prevented from being polluted by the secondary filter holes, and meanwhile, when the movable opening plate slides downwards, the movable opening plate is linked with the connecting rod to drive the primary filter plate to rotate clockwise and downwards around the hinged part, so that the primary filtered sewage collected at the inclined part of the primary filter plate falls to the inner bottom of the first containing cavity, and then the primary filtered sewage and the secondary filtered sewage are conveniently discharged through the sewage discharge port; on the contrary, the movable opening plate can be driven to move upwards by the movable opening plate driving group so as to open the secondary filter holes, and the connecting rod is linked to drive the primary filter plate to rotate anticlockwise and upwards around the hinged part so as to reset the primary filter plate.

Drawings

Fig. 1 is a perspective view of the oil-gas-water three-phase separation, filtration and purification device of the present application.

Fig. 2 is a cross-sectional view of the oil-gas-water three-phase separation, filtration and purification device after the water filter purifier is hidden.

Fig. 3 is a perspective view of the inlet baffle plate in the oil-gas-water three-phase separation, filtration and purification device of the present application.

Fig. 4 is a perspective view of the honeycomb inclined tube group in the oil-gas-water three-phase separation, filtration and purification device of the application.

Fig. 5 is a perspective view of the electrode collecting module in the oil-gas-water three-phase separation, filtration and purification device of the present application.

Fig. 6 is a perspective view of the line concentration module in the oil-gas-water three-phase separation, filtration and purification device of the present application.

Fig. 7 is a perspective view of the oil separating plate in the oil-gas-water three-phase separation, filtration and purification device of the present application.

Fig. 8 is a sectional view of the water filter purifier in the oil-gas-water three-phase separation filter purification apparatus of the present application.

Fig. 9 is a partial enlarged view i of fig. 8.

Fig. 10 is a perspective view of the separation filter plate in the oil-gas-water three-phase separation filter purification apparatus of the present application.

Fig. 11 is a sectional view of the container casing in the oil-gas-water three-phase separation filtration purification apparatus of the present application.

Fig. 12 is a perspective view of the movable opening and closing plate in the oil-gas-water three-phase separation, filtration and purification apparatus of the present application.

Fig. 13 is a perspective view of the inclined guide plate in the oil-gas-water three-phase separation, filtration and purification device of the present application.

Fig. 14 is a sectional view of the three-stage filter in the oil-gas-water three-phase separation filtration purification device of the present application.

Detailed Description

The present application will be described in further detail below with reference to the accompanying drawings by way of specific embodiments.

As shown in fig. 1 to 14, an oil-gas-water three-phase separation, filtration and purification device comprises a mounting base 1, an oil-gas-water three-phase separator 2 arranged on the mounting base 1, and a water filtration purifier 3 connected with the oil-gas-water three-phase separator 2 and used for filtering and purifying sewage discharged from the oil-gas-water three-phase separator 2;

specifically, the water filtration purifier 3 comprises a containing shell 31, an isolation filter plate 32, a primary filter plate 33, a tertiary filter 34 and an inclined guide plate 35.

The containing shell 31 is connected with the oil-gas-water three-phase separator 2, and a containing cavity 311 is formed in the containing shell; the isolation filter plate 32 is arranged in the containing cavity 311, so that a first containing cavity 3111 and a second containing cavity 3112 are formed in the containing cavity 311, and a secondary filter hole 321 for secondary water body filtration is formed at the lower part of the containing cavity 3112; the primary filter plate 33 is arranged in the first accommodating cavity 3111 and is provided with primary filter holes 331 for primary water body filtration; the third-stage filter 34 is disposed in the second accommodating cavity 3112 and is configured to filter the second-stage filtered water filtered by the second-stage filtering holes 321; the inclined guide plate 35 is obliquely arranged in the second accommodating cavity 3112 and located on the upper side of the third-stage filter 34, and a guide waterway 351 for guiding the water body to change the flow direction is formed on the inclined guide plate.

The oil-gas-water three-phase separation, filtration and purification device of the application passes through the primary filter plate 33 to realize primary filtration and flow into the water body in the first containing cavity 3111, then passes through the secondary filter holes 321 on the isolation filter plate 32 to carry out secondary filtration of the water body, then passes through the tertiary filter 34 to carry out tertiary filtration of the water body, and then passes through the inclined guide plate 35 and the inclined guide plate 35, the guide water channel 351 guides the filtered water body to change the flow direction, so that the filtered water body flows to one side inclined downwards, thereby not only realizing the prominent effect of multi-stage filtration and purification of the water body to meet the recycling of the filtered water body, but also leading the fine particle precipitates in the filtered water body to be concentrated to the inclined area through the inclined guide plate 35 to prevent the fine particle precipitates from horizontally depositing on the inclined guide plate 35 and blocking the guide water channel 351, further improving the filtering and purifying efficiency and effect of the water body to the maximum extent, and being greatly beneficial to promoting the further development and popularization and use of the technology in the field.

Further, the housing case 31 is provided with a water inlet port 3101 positioned at an upper side of the first housing cavity 3111, a sewage outlet port 3102 positioned at a lower side of the first housing cavity 3111, and a water outlet port 3103 positioned at a rear upper side of the second housing cavity 3112. The purpose is to meet the actual use requirement.

Further, the first housing cavity 3111 is located at the right side of the second housing cavity 3112;

elementary filter 33 slope to the left set up in first appearance dress cavity 3111, promptly elementary filter 33 left side position height is higher than its right side position height, and its advantage lies in the setting of slope to the left elementary filter 33 not only is favorable to the increase warp the area of contact of inlet port 3101 input water, and still is favorable to collecting the filth low in the slope with filterable elementary back of straining, avoids elementary back filth level of straining to lay in elementary filter 33 upside and influence elementary filter 33's filtering action.

Further, the upper side of the primary filter plate 33 is hinged to the right side of the isolation filter plate 32;

the water filter purifier 3 further comprises a movable opening-closing plate 36, a connecting rod 37 and a movable opening-closing plate driving group 38.

The movable opening and closing plate 36 is slidably connected in the first containing cavity 3111 and is located at the right side of the isolation filter plate 32; the upper end of the connecting link rod 37 is connected with the primary filter plate 33, and the lower end thereof is connected with the movable opening-closing plate 36; the movable opening-closing plate driving group 38 is disposed on the right side of the isolation filter plate 32 and located on the upper side of the movable opening-closing plate 36, and is used for driving the movable opening-closing plate 36 to slide up and down to open and close the secondary filter holes 321, and meanwhile, the connecting link rod 37 is linked by the movable opening-closing plate 36 to drive the primary filter plate 33 to rotate around the hinge joint. When the primary filtered dirt and the secondary filtered dirt in the first containing cavity 3111 need to be discharged outwards, the movable opening and closing plate drive unit 38 can drive the movable opening and closing plate 36 to slide downwards to close the secondary filtering holes 321, so as to prevent the third-stage filter 34 from being polluted through the secondary filtering holes 321, and meanwhile, when the movable opening and closing plate 36 slides downwards, the connecting rod 37 is linked to drive the primary filter plate 33 to rotate clockwise and downwards around the hinged joint, so that the primary filtered dirt collected at the inclined position of the primary filter plate 33 falls on the inner bottom of the first containing cavity 3111, and the primary filtered dirt and the secondary filtered dirt are conveniently discharged through the sewage discharge port 3102; on the contrary, the movable opening plate 36 can be driven by the movable opening plate driving set 38 to move upwards to open the secondary filter holes 321, and the connecting link rod 37 is linked to drive the primary filter plate 33 to rotate upwards counterclockwise around the hinge joint, so as to reset the primary filter plate 33.

Furthermore, a rear convex guide sliding rail 31111 protruding backwards is arranged on the front side wall of the interior of the first accommodating cavity 3111, and a front convex guide sliding rail 31112 protruding forwards is arranged on the rear side wall of the interior of the first accommodating cavity 3111;

the front side wall of the movable opening-closing plate 36 is provided with a rear concave sliding groove 361 adapted to the rear convex guide sliding rail 31111, and the rear side wall of the movable opening-closing plate is provided with a front concave sliding groove 362 adapted to the front convex guide sliding rail 31112. Its advantage lies in satisfying sliding connection user demand.

Further, the inclined baffle 35 is obliquely arranged in the second containing cavity 3112 to the right;

the diversion waterway 351 includes a diversion water inlet 3511, a diversion waterway 3512 and a diversion water outlet 3513.

The diversion water inlet 3511 is arranged at the left lower side of the inclined diversion plate 35; the diversion water outlet 3513 is arranged on the right upper side of the inclined diversion plate 35, and the height of the diversion water outlet 3513 is higher than that of the diversion water inlet 3511; the diversion water guide channel 3512 is arranged on the periphery of the inclined diversion plate 35, one end of the diversion water guide channel is communicated with the diversion water inlet 3511, and the other end of the diversion water guide channel is communicated with the diversion water outlet 3513. Its advantage lies in the warp water conservancy diversion water route 351 guides the change and strains back water flow direction to make the water stagger the position of intaking flow after filtering, and the warp water conservancy diversion delivery port 3513 realizes the purpose of staggering the delivery of water of height, thereby not only can effectively prolong the water and be in flow process in the tertiary filtration thing 34, so that the water with tertiary filtration thing 34 fully contacts, and still can pass through the slope guide plate 35 is concentrated to the inclined area precipitation with the fine particle deposit in the guide post-filtration water, thereby can effectively avoid fine particle deposit level to deposit in on the slope guide plate 35 and the choked flow the water conservancy diversion water route, and then can furthest improve the filtration purification efficiency and the effect of water.

Further, the third-stage filter 34 is a filter bag, and includes a water-permeable filter housing 341, and a biochemical filtering cotton layer 342, a quartz ball layer 343, a coconut shell carbon layer 344, and a bamboo charcoal layer 345 sequentially disposed from bottom to top inside the water-permeable filter housing 341. The advantage lies in that the filter bag has the outstanding filtering and purifying effects of filtering water, deodorizing, removing peculiar smell and purifying water body.

Furthermore, the oil-gas-water three-phase separator 2 comprises a tank body 21, an inlet baffle 22, a honeycomb inclined tube group 23, an electrode gathering module 24, a wire collecting module 25 and an oil separating plate 26.

The tank body 21 is internally provided with a containing and separating cavity 211, the left side of the tank body is provided with an oil-gas-water mixed liquid input port 212 communicated with the containing and separating cavity 211, the upper side of the tank body is provided with a gas discharge port 213 used for discharging gas separated in the containing and separating cavity 211 outwards, and the lower side of the tank body is sequentially provided with a water body dirt discharge port 214, a water body output port 215, an oil liquid dirt discharge port 216 and an oil liquid output port 217 from left to right;

the inlet baffle 22 is arranged in the containing separation cavity 211 and is positioned on the right side of the oil-gas-water mixed liquid input port 212;

the honeycomb inclined tube group 23 is arranged in the containing separation cavity 211 and is positioned at the right side of the inlet baffle 22;

the electrode gathering module 24 is arranged in the accommodating separation cavity 211 and positioned at the right side of the honeycomb inclined tube group 23;

the wire concentration module 25 is arranged in the accommodating separation cavity 211, is positioned on the right side of the electrode concentration module 24, and is used for concentrating electric wires electrically connected with the electrode concentration module 24;

the oil distribution plate 26 is disposed in the containment separation cavity 211 between the water outlet port 215 and the oil dirt discharge port 216.

Further, the inlet baffle 22 includes an upper baffle 221 and a lower baffle 222, the lower baffle 222 is inclined to the right and is integrally formed with the lower side of the upper baffle 221, and the upper baffle 221 has a transverse through hole 2211. Its advantage lies in passing through lower part baffle 222 blocks oil gas water mixed liquid warp with being used for the slope oil gas water mixed liquid input port 212 is high-speed to be gushed inside appearance dress separation cavity 211, just upper portion baffle 221 sets up horizontal perforating hole 2211's aim at can realize making oil gas water mixed liquid pass through when oil gas water mixed liquid input flow is too big, can reduce again and gush the single impact of the too big oil gas water mixed liquid of flow.

Furthermore, a vacuum isolation space is provided in the sidewall of the tank 21. The oil-gas separator has the advantage of being beneficial to improving the stable state of oil-gas water contained in the containing separation cavity 211 in the tank body 21.

As described above, the embodiments of the present application have been described in detail, but the present application is not limited to the above embodiments. Even if various changes are made in the present application, the protection scope of the present application is still included.

Claims (7)

1. The utility model provides an oil gas water three-phase separation filtration purification device, includes mounting base (1), locates oil gas water three-phase separator (2) on mounting base (1), its characterized in that: the oil-gas-water three-phase separation, filtration and purification device also comprises a water filtration purifier (3) which is connected with the oil-gas-water three-phase separator (2) and is used for filtering and purifying sewage discharged from the oil-gas-water three-phase separator (2);

the water filtration purifier (3) comprises:

the containing shell (31) is connected with the oil-gas-water three-phase separator (2) and is internally provided with a containing cavity (311);

the isolation filter plate (32) is arranged in the containing cavity (311) so that a first containing cavity (3111) and a second containing cavity (3112) are formed in the containing cavity (311), and a secondary filter hole (321) for secondary water body filtering is formed in the lower part of the containing cavity;

the primary filter plate (33) is arranged in the first containing cavity (3111) and is provided with primary filter holes (331) for primary filtering water;

the third filtering substance (34) is arranged in the second containing cavity (3112) and is used for filtering the second-stage filtering water body filtered by the second-stage filtering holes (321);

the inclined guide plate (35) is obliquely arranged in the second containing cavity (3112), is positioned on the upper side of the third-stage filter (34), and is provided with a guide waterway (351) for guiding the water body to change the flow direction;

said first housing cavity (3111) is located to the right of said second housing cavity (3112);

the primary filter plate (33) is arranged in the first containing cavity (3111) in a leftward inclined manner;

the accommodating shell (31) is provided with a water inlet port (3101) positioned at the upper side of the first accommodating cavity (3111), a sewage discharge port (3102) positioned at the lower side of the first accommodating cavity (3111) and a water outlet port (3103) positioned at the rear upper side of the second accommodating cavity (3112);

the upper side of the primary filter plate (33) is hinged with the right side of the isolation filter plate (32);

the water filtration purifier (3) further comprises:

a mobile opening-closing plate (36) slidably connected inside said first housing cavity (3111) and located on the right side of said isolating filter plate (32);

a connecting link rod (37) whose upper end is connected with the primary filter plate (33) and whose lower end is connected with the movable opening-closing plate (36);

the movable opening and closing plate driving group (38) is arranged on the right side of the isolation filter plate (32), is positioned on the upper side of the movable opening and closing plate (36) and is used for driving the movable opening and closing plate (36) to slide up and down to open and close the secondary filter holes (321), and meanwhile, the connecting rod (37) is linked with the movable opening and closing plate (36) to drive the primary filter plate (33) to rotate around the hinged part.

2. The oil-gas-water three-phase separation, filtration and purification device according to claim 1, characterized in that: a backward convex guide sliding rail (31111) is arranged on the front side wall inside the first containing cavity (3111), and a forward convex guide sliding rail (31112) is arranged on the rear side wall of the first containing cavity;

remove open-close board (36) preceding lateral wall on offer with back concave spout (361) of back protruding direction slide rail (31111) adaptation connection, and offer on its back lateral wall with preceding concave spout (362) of preceding protruding direction slide rail (31112) adaptation connection.

3. The oil-gas-water three-phase separation, filtration and purification device according to claim 1, characterized in that: the inclined guide plate (35) is arranged in the second containing cavity (3112) in an inclined mode rightwards;

the diversion waterway (351) includes:

the diversion water inlet (3511) is arranged at the left lower side of the inclined diversion plate (35);

the diversion water outlet (3513) is arranged on the right upper side of the inclined diversion plate (35) and is higher than the diversion water inlet (3511);

and the flow dividing and guiding waterway (3512) is arranged on the periphery of the inclined flow guiding plate (35), one end of the flow dividing and guiding waterway is communicated with the flow guiding water inlet (3511), and the other end of the flow dividing and guiding waterway is communicated with the flow guiding water outlet (3513).

4. An oil-gas-water three-phase separation, filtration and purification device as claimed in claim 3, wherein: the third-stage filter (34) is a filter bag and comprises a permeable filter shell (341), and a biochemical filtering cotton layer (342), a quartz ball layer (343), a coconut shell carbon layer (344) and a bamboo charcoal layer (345) which are arranged in the permeable filter shell (341) from bottom to top in sequence.

5. The oil-gas-water three-phase separation, filtration and purification device according to claim 1, characterized in that: the oil-gas-water three-phase separator (2) comprises:

the tank body (21) is internally provided with a containing and separating cavity (211), the left side of the tank body is provided with an oil-gas-water mixed liquid input port (212) communicated with the containing and separating cavity (211), the upper side of the tank body is provided with a gas discharge port (213) used for discharging gas separated in the containing and separating cavity (211) outwards, and the lower side of the tank body is sequentially provided with a water body dirt discharge port (214), a water body output port (215), an oil liquid dirt discharge port (216) and an oil liquid output port (217) from left to right;

the inlet baffle (22) is arranged in the containing separation cavity (211) and is positioned on the right side of the oil-gas-water mixed liquid input port (212);

the honeycomb inclined tube group (23) is arranged in the containing separation cavity (211) and is positioned on the right side of the inlet baffle (22);

the electrode gathering module (24) is arranged in the containing and separating cavity (211) and is positioned on the right side of the honeycomb inclined tube group (23);

the wire concentration module (25) is arranged in the accommodating separation cavity (211), is positioned at the right side of the electrode concentration module (24) and is used for concentrating electric wires electrically connected with the electrode concentration module (24);

and the oil separating plate (26) is arranged in the containing and separating cavity (211) and is positioned between the water body output port (215) and the oil liquid dirt discharge port (216).

6. The oil-gas-water three-phase separation, filtration and purification device according to claim 5, wherein: the inlet baffle (22) comprises an upper baffle (221) and a lower baffle (222), the lower baffle (222) inclines towards the right side, the upper side of the lower baffle and the lower side of the upper baffle (221) are integrally formed, and the upper baffle (221) is provided with a transverse through hole (2211).

7. The oil-gas-water three-phase separation, filtration and purification device according to claim 5, wherein: a vacuum isolation space is arranged in the side wall of the tank body (21).

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