CN112170442B

CN112170442B - Polymer gel processing apparatus

Info

Publication number: CN112170442B
Application number: CN201910590103.0A
Authority: CN
Inventors: 高啟宝; 唐红霞; 谢富强; 蒋艳娟; 马士昌
Original assignee: Petrochina Co Ltd
Current assignee: Petrochina Co Ltd
Priority date: 2019-07-02
Filing date: 2019-07-02
Publication date: 2022-03-01
Anticipated expiration: 2039-07-02
Also published as: CN112170442A

Abstract

The application discloses polymer gel processing apparatus belongs to petroleum machinery technical field. The method comprises the following steps: the enclosure is vertically positioned on the liquid storage tank, the bottom of the enclosure is connected with a liquid leakage port arranged at the top of the liquid storage tank, the edge of the filter screen is connected with the inner side of the enclosure, the side opening of the enclosure is connected with the inlet of the feeding funnel, the outlet of the feeding funnel is over against the feeding port of the crusher, and the crusher and the pump are positioned outside the tank body and close to one side of the liquid storage tank; the liquid outlet that sets up on the lateral wall of liquid storage pot is connected through the sunction inlet of first pipeline with the pump, and the discharge port of pump passes through the second pipeline and is connected with three-way first articulate, and three-way second articulate is connected with the discharge gate of breaker, and three-way third articulate passes through the third pipeline and is connected with the inlet on the jar of handling. The glue solution and the rubber block in the return vomit are firstly preliminarily separated, and after the rubber block is broken, the broken rubber particles are subjected to rubber breaking degradation treatment, so that the treatment efficiency of the return vomit can be effectively improved.

Description

Polymer gel processing apparatus

Technical Field

The application relates to the technical field of petroleum machinery, in particular to a polymer gel processing device.

Background

In the later development stage of high water content oil field, polymer is injected into oil layer to raise oil layer pressure. However, due to the complexity of formation changes, there is often flowback of polymer gel from the injection and production wells during injection polymer flooding. Some of the returning spits often contain a large amount of black-brown viscoelastic jelly, and if the returning spits are not processed in time, the environment is polluted greatly.

At present, the regurgitation is usually treated by two ways, i.e. a biological natural degradation method and a chemical degradation method. Wherein, the biological natural degradation method is to decompose the regurgitated material in nature for a long time; the chemical degradation method is to treat the regurgitated material by chemical reaction.

However, in both of the above methods, it takes a long time to treat the re-spit, and the treatment is difficult and inefficient, which causes environmental pollution to a certain extent.

Disclosure of Invention

The embodiment of the application provides a polymer gel processing device, which can solve the problems of high difficulty and low efficiency in processing of return materials in the related art. The technical scheme is as follows:

in one aspect, there is provided a polymer gel processing apparatus comprising: the device comprises a tank body, a partition plate, a surrounding baffle, a filter screen, a feeding hopper, a crusher, a pump, a first pipeline, a second pipeline, a tee joint and a third pipeline;

the side edge of the partition plate is connected with the inner wall of the tank body, and the partition plate is used for dividing the tank body into a liquid storage tank and a treatment tank;

the top of the liquid storage tank is provided with a liquid leakage port, the enclosure is vertically positioned on the liquid storage tank, the bottom of the enclosure is connected with the liquid leakage port, the edge of the filter screen is connected with the inner side of the enclosure, the side opening of the enclosure is connected with the inlet of the feeding funnel, the outlet of the feeding funnel is over against the feeding hole of the crusher, and the crusher is positioned outside the tank body and close to one side of the liquid storage tank;

be provided with the liquid outlet on the lateral wall of liquid storage pot, be provided with the inlet on the lateral wall of processing jar, the pump is located outside the jar body and be close to one side of liquid storage pot, the liquid outlet passes through first pipeline with the sunction inlet of pump is connected, the discharge port of pump passes through the second pipeline with the first articulate of tee bend, the tee bend second connect with the discharge gate of breaker is connected, the tee bend third connect pass through the third pipeline with inlet on the processing jar is connected.

Optionally, the polymer gel processing apparatus further comprises: a material separating plate;

the material separating plate is movably connected with the side opening of the enclosure, and the material separating plate can move up and down relative to the enclosure.

Optionally, the polymer gel processing apparatus further comprises: a stirrer;

the stirrer comprises a transmission device, a stirring shaft and a stirring part, wherein one end of the stirring shaft is connected with the transmission device, and the other end of the stirring shaft is connected with the stirring part;

the top surface of the treatment tank is provided with a through hole, the transmission device is positioned on the treatment tank, the stirring shaft penetrates through the through hole, and the stirring part is positioned in the treatment tank.

Optionally, the agitator is a turbine agitator or a propeller agitator.

Optionally, the polymer gel processing apparatus further comprises: a first valve;

be provided with first drain outlet on the lateral wall of liquid storage pot, first valve with first drain outlet is connected.

Optionally, the polymer gel processing apparatus further comprises: a second valve;

and a second sewage draining outlet is formed in the side wall of the treatment tank, and the second valve is connected with the second sewage draining outlet.

Optionally, the pump is a jet pump or a piston pump.

Optionally, the pump and the crusher are located on different sides of the liquid storage tank.

Optionally, the polymer gel processing apparatus further comprises: a locking buckle;

the locking buckle is fixed on the liquid inlet of the treatment tank, and the locking buckle is used for fixing the position of the third pipeline after one end of the third pipeline is positioned in the treatment tank.

Optionally, the polymer gel processing apparatus further comprises: a prying seat;

the tank body, the crusher and the pump are all fixed on the prying seat.

The technical scheme provided by the embodiment of the application can at least bring the following beneficial effects: the top of liquid storage pot is provided with the weeping mouth, encloses to keep off vertical being located the liquid storage pot, encloses the bottom that keeps off and is connected with the weeping mouth, and the edge of filter screen is connected with the inboard that encloses the fender, encloses the side opening that keeps off and feed hopper's entry linkage, and feed hopper's export is just to the feed inlet of breaker, and the breaker is located jar one side of external and being close to the liquid storage pot. When the return spit is guided to the upper part of the liquid storage tank, the glue solution in the return spit can flow into the liquid storage tank through the filter screen, and the larger glue blocks in the return spit can enter the crusher through the feeding hopper, so that the primary separation of the glue solution and the glue blocks is realized. The rubber block entering the crusher can be cracked into a plurality of small rubber particles under the action of the crusher and then falls into the tee joint through the discharge port. Because be provided with the liquid outlet on the lateral wall of liquid storage pot, be provided with the inlet on the lateral wall of processing jar, the pump is located jar external and the one side that is close to the liquid storage pot, the liquid outlet is connected with the sunction inlet of pump through first pipeline, the discharge port of pump passes through the second pipeline and is connected with the first articulate of tee bend, the second articulate of tee bend is connected with the discharge gate of breaker, the third articulate of tee bend is connected with the inlet on the processing jar through the third pipeline, so when the pump began work, can be with the glue solution in the liquid storage pot through first pipeline suction pump in, then pump the glue solution in the suction pump out through the second pipeline, when the glue solution from the second pipeline pump to the junction with the tee bend, the glue solution can fall into tee bend tiny mixed micelle with the discharge gate from the breaker. The glue solution and the fine colloidal particles mixed together flow into the treatment tank through the third pipeline under the action of the pump. In this way, a medicament can be added into the treatment tank subsequently to break and degrade the fine colloidal particles mixed in the colloidal liquid. That is, through this application can earlier return the glue solution and the gluey piece initial separation in the vomitus, after the gluey piece is broken, further carry out broken degradation to the micelle after the breakage again, can simply, effectively improve the treatment effeciency that returns the vomitus.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic diagram of a polymer gel processing apparatus according to an embodiment of the present disclosure;

FIG. 2 is a schematic diagram of another polymer gel processing apparatus according to an embodiment of the present disclosure.

Reference numerals:

01: a tank body, 02: separator, 03: enclose fender, 04: filter screen, 05: feed hopper, 06: crusher, 07: pump, 08: first pipe, 09: second pipe, 10: tee joint, 11: third pipe, 12: material separating plate, 13: stirrer, 14: first valve, 15: second valve, 011: a liquid storage tank, 012: treatment tank, 131: transmission, 132: stirring shaft, 133: and a stirring part.

Detailed Description

To make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of a polymer gel processing apparatus provided in an embodiment of the present application, and as shown in fig. 1, the apparatus includes: tank 01, partition board 02, enclosure 03, filter screen 04, feed hopper 05, crusher 06, pump 07, first pipeline 08, second pipeline 09, tee joint 10 and third pipeline 11.

The side edge of the clapboard 02 is connected with the inner wall of the tank body 01, and the clapboard 02 is used for dividing the tank body 01 into a liquid storage tank 011 and a treatment tank 012; the top of the liquid storage tank 011 is provided with a liquid leakage port, the enclosure 03 is vertically positioned on the liquid storage tank 011, the bottom of the enclosure 03 is connected with the liquid leakage port, the edge of the filter screen 04 is connected with the inner side of the enclosure 03, the side opening of the enclosure 03 is connected with the inlet of the feeding funnel 05, the outlet of the feeding funnel 05 is over against the feeding port of the crusher 06, and the crusher 06 is positioned outside the tank body 01 and close to one side of the liquid storage tank 011; be provided with the liquid outlet on the lateral wall of liquid storage pot 011, be provided with the inlet on the lateral wall of processing tank 012, pump 07 is located jar body 01 outside and is close to one side of liquid storage pot 011, the liquid outlet is connected through first pipeline 08 and pump 07's sunction inlet, pump 07's discharge port passes through second pipeline 09 and tee bend 10's first articulate, tee bend 10's second connects and is connected with the discharge gate of breaker 06, tee bend 10's third connects to be connected through third pipeline 11 and the inlet on the processing tank 012.

It should be noted that the connection between the side edge of the partition board 02 and the inner wall of the tank 01 may be welding. The liquid storage tank 011 is used for storing the glue solution in the return flow filtered by the filter screen 04, and the treatment tank 012 is used for storing the mixed glue solution and fine colloidal particles and performing gel breaking degradation treatment on the mixed glue solution and fine colloidal particles. The size of the liquid storage tank 011 may be the same as or different from that of the processing tank 012, and this is not particularly limited in the embodiments of the present application.

In addition, the connection mode between the bottom of the enclosure 03 and the liquid leakage opening can be welding and the like. The edge of the filter screen 04 can be welded on the inner side of the enclosure 03, and the two ends of the steel wire rope can be bound after the steel wire rope passes through the hole of the filter screen 04 and the hole in the corresponding position on the enclosure 03, so that the bottom of the enclosure 03 is connected with the liquid leakage port. The bottom of the enclosure 03 is connected with the leakage opening, and the return spit which is guided to the upper part of the liquid storage tank 011 can be limited in the space enclosed by the enclosure 03, so that the glue liquid in the return spit can be collected into the liquid storage tank 011. The entry of feed hopper 05 can weld on enclosing the side opening that keeps off 03, and the feed inlet of breaker 06 is just to feed hopper 05's export, like this, is located to enclose in keeping off 03 the return on the filter screen 04 and spits the thing, and the great piece of glue that can not pass through filter screen 04 can get into breaker 06 breakage through feed hopper 05.

Moreover, the liquid outlet on the liquid storage tank 011 can be arranged at the middle lower part of the side wall of the liquid storage tank 011, so that when the amount of the glue solution stored in the liquid storage tank 011 is small, the pump 07 can also smoothly suck the liquid out of the liquid storage tank 011, and the slurry and the like at the bottom of the liquid storage tank 011 can not be sucked into the pump 07. The inlet that sets up on processing jar 012 not only is used for third pipeline 11 to stretch into processing jar 012 in order to introduce processing jar 012 with the mixture of glue solution and tiny micelle, still is used for adding the medicine in order to carry out broken gel degradation processing to the micelle after the breakage from this inlet in to processing jar 012. The liquid inlet may be disposed at the top of the processing tank 012, or may be disposed at a middle upper portion of a sidewall of the processing tank 012, which is not particularly limited in the embodiments of the present application.

Finally, the pump 07 may be a jet pump, a piston pump, or the like, as long as it can pump a liquid. The pump 07 and the crusher 06 may be located on the same side of the liquid reservoir 011 or may be separated on different sides of the liquid reservoir 011. The glue solution sucked out from the liquid storage tank 011 is used as working solution, is mixed with the fine colloidal particles crushed by the crusher 06 and is pumped under the action of the pump 07, so that the fine colloidal particles can flow in the second pipeline 09 and the third pipeline 11 conveniently, and the pumping efficiency is improved. After the liquid storage tank 011, the pump 07, the crusher 06 and the treatment tank 012 are connected through the first pipeline 08, the second pipeline 09, the tee joint 10 and the third pipeline 11, as long as the pump 07 starts to work normally, the glue solution in the liquid storage tank 011 can be sucked into the pump 07, and then the glue solution and the crushed fine colloidal particles are mixed and then are pumped into the treatment tank 012.

In this application embodiment, the top of liquid storage pot 011 is provided with the weeping mouth, encloses to keep off 03 and vertically is located liquid storage pot 011, encloses the bottom and the weeping mouth that keep off 03 and is connected, the edge of filter screen 04 with enclose the inboard of keeping off 03 and be connected, enclose the side opening that keeps off 03 and the entry linkage of feed hopper 05, the export of feed hopper 05 is just to the feed inlet of breaker 06, breaker 06 is located outside jar body 01 and is close to one side of liquid storage pot 011. When the return spit is guided to the upper part of the liquid storage tank 011, the glue solution in the return spit can flow into the liquid storage tank 011 through the filter screen 04, and the larger glue blocks in the return spit can enter the crusher 06 through the feeding hopper 05, so that the primary separation of the glue solution and the glue blocks is realized. The rubber block entering the crusher 06 can be broken into a plurality of fine rubber particles under the action of the crusher 06, and then falls into the tee 10 through the discharge port. Because the side wall of the liquid storage tank 011 is provided with a liquid outlet, the side wall of the processing tank 012 is provided with a liquid inlet, the pump 07 is positioned outside the tank body 01 and close to one side of the liquid storage tank 011, the liquid outlet is connected with a suction inlet of the pump 07 through a first pipeline 08, a discharge outlet of the pump 07 is connected with a first joint of a tee joint 10 through a second pipeline 09, a second joint of the tee joint 10 is connected with a discharge outlet of the crusher 06, and a third joint of the tee joint 10 is connected with the liquid inlet of the processing tank 012 through a third pipeline 11, when the pump 07 starts to work, the glue solution in the liquid storage tank 011 can be sucked into the pump 07 through the first pipeline 08, then the glue solution sucked into the pump 07 can be discharged through the second pipeline 09, and when the glue solution is from the second pipeline 09 pump 07 to the intersection of the tee joint 10, the glue solution can be mixed with fine colloidal particles falling into the tee joint 10 from the discharge outlet of the crusher 06. The mixed glue and fine colloidal particles flow into the treatment tank 012 through the third pipe 11 under the action of the pump 07. Thus, a chemical agent may be added to the processing tank 012 later to break and degrade the fine colloidal particles mixed in the colloidal solution. That is, through this application can earlier return the glue solution and the gluey piece initial separation in the vomitus, after the gluey piece is broken, further carry out broken degradation to the micelle after the breakage again, can simply, effectively improve the treatment effeciency that returns the vomitus.

In some embodiments, as shown in fig. 2, the polymer gel processing apparatus may further comprise: a material separating plate 12. The material separating plate 12 is movably connected with a side opening of the enclosure 03, and the material separating plate 12 can move up and down relative to the enclosure 03.

It should be noted that the return spitting material contains glue solution and a large glue block, when the return spitting material is guided to the upper part of the liquid storage tank 011, part of the glue solution may fall into the liquid storage tank 011 after passing through the filter screen 04, and part of the glue solution may also enter the crusher 06 through the feeding hopper 05. When a small amount of glue solution enters the crusher 06, the part of glue solution can play a certain lubricating role, so that the crusher 06 is prevented from heating due to the fact that a large glue block is crushed, and the crushing efficiency of the crusher 06 can be improved. However, when too much glue enters the crusher 06, the glue will wrap the glue pieces and the contact between the glue pieces and the crusher 06 will be reduced, which will be detrimental to the crushing of the glue pieces. On this basis, a material separating plate 12 can be arranged at the side opening of the enclosure 03 to limit the amount of glue flowing to the crusher 06.

Alternatively, the material-separating plate 12 can be movably connected with the side opening of the enclosure 03. For example, vertical grooves may be formed on both sides of the side opening of the fence 03, and both sides of the retainer plates 12 may be inserted into the two grooves one by one. When the amount of the glue solution flowing to the crusher 06 needs to be limited, the material partition plate 12 can be pushed downwards along the groove to a proper position, when a large glue block left on the filter screen 04 needs to enter the crusher 06, the material partition plate 12 can be lifted upwards along the groove, and then the large glue block is shifted into the crusher 06. Of course, the movable connection between the material partition plate 12 and the enclosure 03 may also be realized by other structures, which is not specifically limited in the embodiment of the present application.

It is worth to be noted that the material separating plate 12 is movably connected with the side opening of the enclosure 03, and the amount of the glue solution flowing to the crusher 06 can be controlled by the up-and-down movement of the material separating plate 12.

In some embodiments, as shown in fig. 2, the polymer gel processing apparatus may further comprise: and a stirrer 13. The stirrer 13 comprises a transmission device 131, a stirring shaft 132 and a stirring part 133, wherein one end of the stirring shaft 132 is connected with the transmission device 131, and the other end of the stirring shaft 132 is connected with the stirring part 133; a through hole is formed in the top surface of the treatment tank 012, the transmission device 131 is located on the treatment tank 012, the stirring shaft 132 passes through the through hole, and the stirring portion 133 is located in the treatment tank 012.

The stirrer 13 may be a turbine stirrer 13, a propeller stirrer 13, or the like.

The fine colloidal particles thrown into the treatment tank 012 need to be broken and degraded by the action of the drug. After the addition of the drug to the treatment canister 012, the actuator 131 may be opened to start its operation. When the transmission device 131 works, the stirring shaft 132 can be driven to rotate, and then the stirring shaft 132 can drive the stirring part 133 to rotate. When the stirring part 133 rotates, the medicine, the glue solution and the fine colloidal particles can be uniformly mixed, and the treatment efficiency of the return spitting is improved.

In some embodiments, as shown in fig. 2, the polymer gel processing apparatus may further comprise: a first valve 14. A first drain outlet is arranged on the side wall of the liquid storage tank 011, and a first valve 14 is connected with the first drain outlet.

It should be noted that the first drain port may be disposed at a position close to the side wall of the liquid storage tank 011, and the height of the first drain port may be lower than the height of the liquid outlet. When the liquid storage tank 011 is used for a period of time, sediment such as slurry and the like exists at the bottom of the liquid storage tank 011, and when the sediment in the liquid storage tank 011 needs to be cleaned, the first valve 14 can be opened to discharge the sediment in the liquid storage tank 011 from the first sewage discharge port.

In some embodiments, as shown in fig. 2, the polymer gel processing apparatus may further comprise: a second valve 15. A second sewage draining outlet is arranged on the side wall of the processing tank 012, and a second valve 15 is connected with the second sewage draining outlet.

It should be noted that the second drain outlet may be provided at a lower position of the sidewall of the processing tank 012. When the sediment in the bottom of the processing tank 012 needs to be cleaned, the second valve 15 can be opened to discharge the sediment in the processing tank 012 through the second sewage outlet.

In some embodiments, the polymer gel processing apparatus may further comprise: locking buckles (not shown). The locking buckle is fixed on the liquid inlet of the processing tank 012, and the locking buckle is used for fixing the position of the third pipeline 11 after one end of the third pipeline 11 is positioned in the processing tank 012.

It should be noted that the locking buckle may be welded to the liquid inlet of the processing tank 012, or may be fixed to the liquid inlet of the processing tank 012 by bolts or the like.

When the pressure of the fluid pumped into the third pipe 11 is high, the fluid flows into the processing tank 012 from the third pipe 11, so that the end of the third pipe 11 extending into the processing tank 012 greatly shakes. When the third pipe 11 is shaken to some extent, the end of the third pipe 11 extending into the treatment tank 012 may be pulled out from the treatment tank 012. Based on this, the locking buckle can be fixed on the liquid inlet of the processing tank 012, and after one end of the third pipeline 11 extends into the processing tank 012, the locking buckle locks the third pipeline 11 to fix the position of the third pipeline 11, so that the end extending into the processing tank 012 cannot be pulled out of the processing tank 012 no matter how the third pipeline 11 rocks.

In some embodiments, to facilitate handling of the polymer gel processing apparatus, the polymer gel processing apparatus may further comprise: pry seat (not shown in the figure). The tank body 01, the crusher 06 and the pump 07 are all fixed on the prying seat.

It should be noted that the tank 01, the crusher 06 and the pump 07 can be fixed on the pry seat through bolts.

In addition, when the crusher 06 and the pump 07 are large in size, the pump 07 and the crusher 06 can be located on different sides of the reservoir 011 when the pump 07 and the crusher 06 are fixed to the pry seat. In this way, the regularity of the polymer gel handling device may be increased.

The above description is only exemplary of the present application and should not be taken as limiting, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims

1. A polymer gel processing apparatus, comprising: the device comprises a tank body (01), a partition plate (02), a fence (03), a filter screen (04), a feeding hopper (05), a crusher (06), a pump (07), a first pipeline (08), a second pipeline (09), a tee joint (10), a third pipeline (11) and a material separating plate (12);

the side edge of the partition plate (02) is connected with the inner wall of the tank body (01), and the partition plate (02) is used for dividing the tank body (01) into a liquid storage tank (011) and a treatment tank (012);

the top of the liquid storage tank (011) is provided with a liquid leakage port, the enclosing barrier (03) is vertically positioned on the liquid storage tank (011), the bottom of the enclosing barrier (03) is connected with the liquid leakage port, the edge of the filter screen (04) is connected with the inner side of the enclosing barrier (03), the side opening of the enclosing barrier (03) is connected with the inlet of the feeding hopper (05), the outlet of the feeding hopper (05) is right opposite to the feeding port of the crusher (06), and the crusher (06) is positioned outside the tank body (01) and close to one side of the liquid storage tank (011);

a liquid outlet is formed in the side wall of the liquid storage tank (011), a liquid inlet is formed in the side wall of the treatment tank (012), the pump (07) is positioned outside the tank body (01) and close to one side of the liquid storage tank (011), the liquid outlet is connected with a suction inlet of the pump (07) through the first pipeline (08), a discharge outlet of the pump (07) is connected with a first joint of the tee joint (10) through the second pipeline (09), a second joint of the tee joint (10) is connected with a discharge outlet of the crusher (06), and a third joint of the tee joint (10) is connected with the liquid inlet on the treatment tank (012) through the third pipeline (11);

the material separating plate (12) is movably connected with a side opening of the enclosure (03), the material separating plate (12) can move up and down relative to the enclosure (03), wherein the side opening of the enclosure (03) is provided with a vertical groove, and the material separating plate (12) is inserted into the vertical groove.

2. The polymer gel processing apparatus of claim 1, further comprising: a stirrer (13);

the stirrer (13) comprises a transmission device (131), a stirring shaft (132) and a stirring part (133), one end of the stirring shaft (132) is connected with the transmission device (131), and the other end of the stirring shaft (132) is connected with the stirring part (133);

the top surface of the treatment tank (012) is provided with a through hole, the transmission device (131) is positioned on the treatment tank (012), the stirring shaft (132) passes through the through hole, and the stirring part (133) is positioned in the treatment tank (012).

3. Polymer gel handling device according to claim 2, characterised in that the stirrer (13) is a turbine stirrer or a propeller stirrer.

4. The polymer gel processing apparatus of claim 1, further comprising: a first valve (14);

the side wall of the liquid storage tank (011) is provided with a first drain outlet, and the first valve (14) is connected with the first drain outlet.

5. The polymer gel processing apparatus of claim 1, further comprising: a second valve (15);

a second sewage draining exit is arranged on the side wall of the processing tank (012), and the second valve (15) is connected with the second sewage draining exit.

6. The polymer gel processing apparatus of claim 1, wherein said pump (07) is a jet pump or a piston pump.

7. The polymer gel processing apparatus of claim 1, wherein said pump (07) and said crusher (06) are located on different sides of said reservoir (011).

8. The polymer gel processing apparatus of claim 1, further comprising: a locking buckle;

the locking buckle is fixed on a liquid inlet of the processing tank (012), and the locking buckle is used for fixing the position of the third pipeline (11) after one end of the third pipeline (11) is positioned in the processing tank (012).

9. The polymer gel processing apparatus of any one of claims 1 to 8, further comprising: a prying seat;

the jar body (01), breaker (06) and pump (07) all fix on the sled seat.