CN203043981U - Ganged experimental device for polymer preparation - Google Patents

Abstract

The utility model discloses a ganged experimental device for polymer preparation, mainly solving the problem that the automation degree of the experimental device is low. The experimental device is characterized in that the lower end of a hopper (1) is communicated with a scattering tank (2) successively through a frequency conversion screw feeding machine (10), an electric heating feeding machine (11) and a water powder mixer (12), a water inlet pipe is communicated with the water powder mixer (12), and the lower end of the scattering tank (2) is communicated with a liquid inlet pipe of a curing tank (3) through a screw pump (19), an electromagnetic flowmeter (17), a check valve (20) and an electric ball valve (16); and a liquid outlet pipe of the curing tank (3) is communicated with more than one buffer tank (4) successively through the electric ball valve (16), a filter (21) and a transfusion pump (22), the lower end of the buffer tank (4) is communicated with a polymer outlet pipe (23), and the polymer outlet pipe (23) is connected in series with the electromagnetic flowmeter (17). The ganged experimental device provided by the utility model has the characteristics of high automation degree.

Description

The complete experimental provision of polymer formulation

Technical field

The utility model relates to the complete experimental provision of oil recovery field, oil field polymer displacement of reservoir oil used experimental provision, especially polymer formulation.

Background technology

In oil recovery field, oil field, in order to improve recovery ratio, polymer displacement of reservoir oil is generally adopted in the oil field.Adopt the polymer flooding oil require to experimentize with experimental provision.And therefore existing experimental provision influences conventional efficient because there is the low problem of automaticity in reasons in structure.

Summary of the invention

In order to solve the existing low problem of experimental provision automaticity.The utility model provides a kind of polymer formulation complete experimental provision.The complete experimental provision of this polymer formulation has the high characteristics of automaticity.

The technical solution of the utility model is: the complete experimental provision of this polymer formulation comprises hopper, dispersion tank, slaking jar and surge tank.On the inwall of conical hopper lower end tuning fork level meter and electromagnetic shaker are arranged fixedly, the tuning fork level meter links to each other with the switch board inner control circuit by lead with electromagnetic shaker; Axially be equipped with the dispersion agitator in the dispersion tank, liquid level gauge is fixedly arranged on the dispersion tank lower inner wall, disperse agitator to link to each other with the switch board inner control circuit by lead with liquid level gauge; Axially be equipped with the slaking agitator in 1 above slaking jar, on the inwall of slaking jar upper end the tuning fork level meter is arranged fixedly, on the inwall of slaking jar lower end tuning fork level meter and liquid level gauge are arranged fixedly respectively, slaking agitator, tuning fork level meter and liquid level gauge link to each other with the control room internal controller by lead; The hopper lower end is passed through pipeline successively, the frequency conversion screw batcher, the electric heating feeding machine, the airduct road, the pigment blender is connected with dispersion tank, airduct is in series with air blast on the road, the frequency conversion screw batcher links to each other with the switch board inner control circuit by lead with air blast, be communicated with water pipe on the pigment blender, come to be in series with successively on the water pipe angie type filter, come the water water pump that boosts, electrical ball valve, electromagnetic flowmeter and electric control valve, electrical ball valve, electromagnetic flowmeter links to each other with the switch board inner control circuit by lead with electric control valve, screw pump is passed through in the dispersion tank lower end, electromagnetic flowmeter, check-valves and electrical ball valve are connected with the feed tube of slaking jar, the drain pipe of slaking jar passes through electrical ball valve successively, filter with transfer pump and 1 above surge tank link to each other in logical, electrical ball valve with transfer pump and link to each other with the control room internal controller by lead, the surge tank lower end is communicated with polymer and goes out pipe, polymer goes out to be in series with electromagnetic flowmeter on the pipe, and electromagnetic flowmeter links to each other with the control room internal controller by lead.

Be parallel with the overblow blowdown pipe by butterfly valve on dispersion tank in the such scheme and the pipeline between the screw pump; Be parallel with blow-off pipe by ball valve on the series connection pipeline between two surge tanks.

The utlity model has following beneficial effect: the complete experimental provision of this polymer formulation is owing to fixedly have tuning fork level meter and electromagnetic shaker on the inwall of the conical hopper of employing lower end, and the tuning fork level meter links to each other with the switch board inner control circuit by lead with electromagnetic shaker; Axially be equipped with the dispersion agitator in the dispersion tank, liquid level gauge is fixedly arranged on the dispersion tank lower inner wall, disperse agitator to link to each other with the switch board inner control circuit by lead with liquid level gauge; Axially be equipped with the slaking agitator in 1 above slaking jar, on the inwall of slaking jar upper end the tuning fork level meter is arranged fixedly, on the inwall of slaking jar lower end tuning fork level meter and liquid level gauge are arranged fixedly respectively, slaking agitator, tuning fork level meter and liquid level gauge link to each other with the control room internal controller by lead; The hopper lower end is passed through pipeline successively, the frequency conversion screw batcher, the electric heating feeding machine, the airduct road, the pigment blender is connected with dispersion tank, airduct is in series with air blast on the road, the frequency conversion screw batcher links to each other with the switch board inner control circuit by lead with air blast, be communicated with water pipe on the pigment blender, come to be in series with successively on the water pipe angie type filter, come the water water pump that boosts, electrical ball valve, electromagnetic flowmeter and electric control valve, electrical ball valve, electromagnetic flowmeter links to each other with the switch board inner control circuit by lead with electric control valve, screw pump is passed through in the dispersion tank lower end, electromagnetic flowmeter, check-valves and electrical ball valve are connected with the feed tube of slaking jar, the drain pipe of slaking jar passes through electrical ball valve successively, filter with transfer pump and 1 above surge tank link to each other in logical, electrical ball valve with transfer pump and link to each other with the control room internal controller by lead, the surge tank lower end is communicated with polymer and goes out pipe, polymer goes out to be in series with electromagnetic flowmeter on the pipe, the structure that electromagnetic flowmeter links to each other with the control room internal controller by lead.Utilize control room internal controller and switch board inner control circuit control material loading, stirring, metering, filtration, slaking and output, and then improve automaticity.The complete experimental provision of this polymer formulation has the high characteristics of automaticity thus.

Description of drawings:

Accompanying drawing 1 is the utility model structural representation.

1-hopper among the figure, 2-dispersion tank, 3-slaking jar, the 4-surge tank, 5-tuning fork level meter, 6-electromagnetic shaker, 7-disperses agitator, 8-liquid level gauge, 9-slaking agitator, 10-frequency conversion screw batcher, 11-electric heating feeding machine, 12-pigment blender, 13-air blast, 14-angie type filter, 15-come the water water pump that boosts, the 16-electrical ball valve, the 17-electromagnetic flowmeter, 18-electric control valve, 19-screw pump, the 20-check-valves, the 21-filter, 22-transfers pump, and the 23-polymer goes out pipe, 24-overblow blowdown pipe, the 25-blow-off pipe.

The specific embodiment:

The utility model is described in further detail below in conjunction with accompanying drawing:

Shown in accompanying drawing, the complete experimental provision of this polymer formulation comprises hopper 1, dispersion tank 2, slaking jar 3 and surge tank 4.On the conical hopper 1 lower end inwall tuning fork level meter 5 and electromagnetic shaker 6 are arranged fixedly, tuning fork level meter 5 links to each other with the switch board inner control circuit by lead with electromagnetic shaker 6, give switch board inner control circuit meter position parameter signal by tuning fork level meter 5, switch board inner control circuit control electromagnetic shaker 6 decomposes.Axially be equipped with in the dispersion tank 2 and disperse agitator 7, on dispersion tank 2 lower inner wall liquid level gauge 8 is arranged fixedly, disperse agitator 7 to link to each other with the switch board inner control circuit by lead with liquid level gauge 8, give switch board inner control circuit meter position parameter signal by liquid level gauge 8, the control of switch board inner control circuit disperses agitator 7 to stir water and polymeric blends.Axially be equipped with slaking agitator 9 in 3 slaking jars 3, on the slaking jar 3 upper end inwalls tuning fork level meter 5 is arranged fixedly, on the slaking jar 3 lower end inwalls tuning fork level meter 5 and liquid level gauge 8 are arranged fixedly respectively, slaking agitator 9, tuning fork level meter 5 and liquid level gauge 8 link to each other with the control room internal controller by lead, give switch board inner control circuit meter position parameter signal by tuning fork level meter 5 and liquid level gauge 8, switch board inner control circuit control slaking agitator 9 slaking polymer.Hopper 1 lower end is passed through pipeline successively, valve, frequency conversion screw batcher 10, electric heating feeding machine 11, the airduct road, pigment blender 12 is connected with dispersion tank 2, be in series with air blast 13 on the airduct road, frequency conversion screw batcher 10 links to each other with the switch board inner control circuit by lead with air blast 13, be communicated with water pipe on the pigment blender 12, come to be in series with successively on the water pipe angie type filter 14, come the water water pump 15 that boosts, electrical ball valve 16, electromagnetic flowmeter 17 and electric control valve 18, electrical ball valve 16, electromagnetic flowmeter 17 links to each other with the switch board inner control circuit by lead with electric control valve 18, polymer in the hopper 1 is through pipeline, valve enters frequency conversion screw batcher 10, sent in the electric heating feeding machine 11 by frequency conversion screw batcher 10 again, be blown into pigment blender 12 by air blast 13 by the airduct road then, by coming water pipe to add suitable quantity of water, water and mixed with polymers enter dispersion tank 2 in the pigment blender 12.Dispersion tank 2 lower ends are connected with the feed tube of slaking jar 3 by screw pump 19, electromagnetic flowmeter 17, check-valves 20 and electrical ball valve 16, water in the dispersion tank 2 and polymer enter respectively in the 3 slaking jars 3 through electromagnetic flowmeter 17, check-valves 20 and electrical ball valve 16 controls by screw pump 19 and feed tube output again.The drain pipe of slaking jar 3 leads to by electrical ball valve 16, filter 21 with in transferring pump 22 and 2 surge tanks 4 linking to each other successively, electrical ball valve 16 with transfer pump 22 and link to each other with the control room internal controller by lead, the mixture of slakings enters through electrical ball valve 16 and filter 21 and transfers pump 22 in the slaking jar 3, through transferring pump 22 first surge tanks 4 of input, first surge tank 4 is connected with second surge tank 4 again.Surge tank 4 lower ends are communicated with polymer and go out that mixtures go out pipe 23 outputs through polymer in pipe 23, the second surge tanks 4.Polymer goes out on the pipe 23 to be in series with electromagnetic flowmeter 17, and electromagnetic flowmeter 17 links to each other with the control room internal controller by lead, goes out the amount of pipe 23 outputs by electromagnetic flowmeter 17 metering polymer.Be parallel with overblow blowdown pipe 24 by butterfly valve on the pipeline between dispersion tank 2 and the screw pump, by 24 overflows of overblow blowdown pipe or blowdown.Be parallel with blow-off pipe 25 by ball valve on the series connection pipeline between two surge tanks 4.

Claims (3)

1. complete experimental provision of polymer formulation, comprise hopper (1), dispersion tank (2), slaking jar (3) and surge tank (4), it is characterized in that: on the inwall of conical hopper (1) lower end tuning fork level meter (5) and electromagnetic shaker (6) are arranged fixedly, tuning fork level meter (5) links to each other with the switch board inner control circuit by lead with electromagnetic shaker (6); Axially be equipped with in the dispersion tank (2) and disperse agitator (7), on dispersion tank (2) lower inner wall liquid level gauge (8) is arranged fixedly, disperse agitator (7) to link to each other with the switch board inner control circuit by lead with liquid level gauge (8); Axially be equipped with slaking agitator (9) in 1 above slaking jar (3), on the inwall of slaking jar (3) upper end tuning fork level meter (5) is arranged fixedly, on the inwall of slaking jar (3) lower end tuning fork level meter (5) and liquid level gauge (8) are arranged fixedly respectively, slaking agitator (9), tuning fork level meter (5) and liquid level gauge (8) link to each other with the control room internal controller by lead; Hopper (1) lower end is passed through pipeline successively, frequency conversion screw batcher (10), electric heating feeding machine (11), the airduct road, pigment blender (12) is connected with dispersion tank (2), be in series with air blast (13) on the airduct road, frequency conversion screw batcher (10) links to each other with the switch board inner control circuit by lead with air blast (13), the pigment blender is communicated with water pipe on (12), come to be in series with successively on the water pipe angie type filter (14), come the water water pump (15) that boosts, electrical ball valve (16), electromagnetic flowmeter (17) and electric control valve (18), electrical ball valve (16), electromagnetic flowmeter (17) links to each other with the switch board inner control circuit by lead with electric control valve (18), dispersion tank (2) lower end is by screw pump (19), electromagnetic flowmeter (17), check-valves (20) and electrical ball valve (16) are connected with the feed tube of slaking jar (3), the drain pipe of slaking jar (3) is successively by electrical ball valve (16), filter (21) with transfer pump (22) and 1 above surge tank (4) link to each other in logical, electrical ball valve (16) with transfer pump (22) and link to each other with the control room internal controller by lead, surge tank (4) lower end is communicated with polymer and goes out pipe (23), polymer goes out on the pipe (23) to be in series with electromagnetic flowmeter (17), and electromagnetic flowmeter (17) links to each other with the control room internal controller by lead.

2. the complete experimental provision of polymer formulation according to claim 1 is characterized in that: be parallel with overblow blowdown pipe (24) by butterfly valve on the pipeline between dispersion tank (2) and the screw pump.

3. the complete experimental provision of polymer formulation according to claim 2 is characterized in that: be parallel with blow-off pipe (25) by ball valve on the series connection pipeline between two surge tanks (4).

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