CN202745761U - Simulation test flow device - Google Patents
Simulation test flow device Download PDFInfo
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- CN202745761U CN202745761U CN 201220487777 CN201220487777U CN202745761U CN 202745761 U CN202745761 U CN 202745761U CN 201220487777 CN201220487777 CN 201220487777 CN 201220487777 U CN201220487777 U CN 201220487777U CN 202745761 U CN202745761 U CN 202745761U
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Abstract
The utility model relates to the field of oil recovery engineering and belongs to a simulation test flow device, which solves the problems that only is a simple valve switch used for controlling a flow meter and a test medium can not circulate between an oil pipe 9 and a sleeve 10 in a sealing manner in the existing simulation test flow. The simulation test flow device consists of a liquid storage tank 1, a measurement tank 2, an electromagnetic flow meter 3, a manual valve 4, an electric valve 5, an electric regulating valve 6, a filter 7, a pipe pump 8, the oil pipe 9, the sleeve 10 and a console 11, wherein the liquid storage tank 1 is provided with a liquid level sensor, and the manual valve 4 is provided with a switching position sensor. The simulation test flow device has the advantages of being capable of automatically acquiring and calibrating a flow rate, automatically controlling the switching of procedures and the like.
Description
Technical field: the utility model relates to the petroleum production engineering field, belongs to a kind of simulation test device for mechanical oil production system.
Background technology: existing simulated test flow process only can be controlled flow meter by simple valve switch, realizes the function of metered flow.For mechanical oil recovery equip ment and ancillary facility are carried out simulated test, take 1200m code test well as the basis, realize test(ing) medium circulation and metering in the different tests process, invented this simulated test flow path device, oil production equipment, lower well tool and deep-well testing method are carried out simulated test, provide research technique for new product, new technology on the one hand, shortened the lead time, significantly reduced the high cost that field trial is blindly brought; Provide theoretical foundation for scientific research theoretical research and energy-conserving product test evaluation work on the other hand.
Summary of the invention: the purpose of this utility model is that design can realize test(ing) medium sealing and circulating between oil pipe and sleeve pipe, automatic collection and the calibration of flow, and a kind of simulated test flow path device of the automatic control function of each flow process switching.
The utility model is realized that by following scheme the utility model is comprised of fluid reservoir, measuring tank, electromagnetic flowmeter, hand-operated valve, motor operated valve, electric control valve, strainer and tubing pump;
Wherein fluid reservoir is connected with hand-operated valve with hand-operated valve, and hand-operated valve is connected with motor operated valve, and hand-operated valve is connected with motor operated valve; Motor operated valve is connected with hand-operated valve, hand-operated valve and hand-operated valve, and wherein hand-operated valve is connected with motor operated valve, and hand-operated valve is connected with motor operated valve, and motor operated valve links to each other with tubing pump, and hand-operated valve is connected with motor operated valve; Motor operated valve is connected with electromagnetic flowmeter with motor operated valve, and wherein motor operated valve is connected with hand-operated valve, and electromagnetic flowmeter is connected with motor operated valve, hand-operated valve, hand-operated valve and hand-operated valve; Hand-operated valve links to each other with strainer, and strainer links to each other with hand-operated valve with electric control valve, and hand-operated valve links to each other with motor operated valve, and motor operated valve links to each other with electromagnetic flowmeter, and electromagnetic flowmeter is connected with motor operated valve, hand-operated valve, hand-operated valve and hand-operated valve; Measuring tank links to each other with motor operated valve with tubing pump; Oil pipe links to each other with electric control valve, and sleeve pipe is connected with motor operated valve.
Be provided with liquid level sensor on the fluid reservoir, be provided with position sensor switch on the hand-operated valve.The utility model technology has following advantage compared with prior art:
1), can realize test(ing) medium sealing and circulating between oil pipe and sleeve pipe, the metering of employing flow meter or measuring tank metering.
2), can realize the automatic collection of flow, and the automatic control function that switches of each flow process.
3), can realize coming with measuring tank the function of calibrating flow meter.
Description of drawings: Fig. 1 is structure diagram of the present utility model;
Fig. 2 is that medium adopts electromagnetic flowmeter 3-1 measurement flow figure at oil pipe 9 and 10 circulations of sleeve pipe;
Fig. 3 is that medium adopts electromagnetic flowmeter 3 measurement flow figure at oil pipe 9 and 10 circulations of sleeve pipe;
Fig. 4 is that medium adopts measuring tank 2 measurement flow figure at oil pipe 9 and 10 circulations of sleeve pipe;
Fig. 5 be medium by oil pipe 9 to fluid reservoir 1 flow chart;
Fig. 6 be medium by fluid reservoir 1 to sleeve pipe 10 flow charts.
The specific embodiment: the utility model is described in further detail below in conjunction with accompanying drawing: the utility model is comprised of fluid reservoir 1, measuring tank 2, electromagnetic flowmeter 3, hand-operated valve 4, motor operated valve 5, electric control valve 6, strainer 7, tubing pump 8, oil pipe 9, sleeve pipe 10 and console 11;
Wherein fluid reservoir 1 is connected with hand-operated valve 4-6 with hand-operated valve 4, and hand-operated valve 4 is connected with motor operated valve (5), and hand-operated valve 4-6 is connected with motor operated valve 5-6; Motor operated valve 5 is connected with hand-operated valve 4-2 with hand-operated valve 4-4, hand-operated valve 4-5, and wherein hand-operated valve 4-4 is connected with motor operated valve 5-4, and hand-operated valve 4-5 is connected with motor operated valve 5-5, and motor operated valve 5-5 links to each other with tubing pump 8, and hand-operated valve 4-2 is connected with motor operated valve 5-2; Motor operated valve 5-6 is connected with electromagnetic flowmeter 3 with motor operated valve 5-3, and wherein motor operated valve 5-3 is connected with hand-operated valve 4-3, and electromagnetic flowmeter 3 is connected with motor operated valve 5, hand-operated valve 4-4, hand-operated valve 4-5 and hand-operated valve 4-2; Hand-operated valve 4-3 links to each other with strainer 7, strainer 7 links to each other with hand-operated valve 4-1 with electric control valve 6, hand-operated valve 4-1 links to each other with motor operated valve 5-1, and motor operated valve 5-1 links to each other with electromagnetic flowmeter 3-1, and electromagnetic flowmeter 3-1 is connected with motor operated valve 5, hand-operated valve 4-4, hand-operated valve 4-5 and hand-operated valve 4-2; Measuring tank 2 links to each other with motor operated valve 5-4 with tubing pump 8; Oil pipe 9 links to each other with electric control valve 6, and sleeve pipe 10 is connected with motor operated valve 5-2.
Be provided with liquid level sensor on the fluid reservoir 1, this sensor detects the liquid level of fluid reservoir 1, is shown by instrument on the console 10, plays the water level effect that monitors.
Be provided with position sensor switch on the hand-operated valve 4, this sensor detects the on off state of hand-operated valve 4, is provided with the on off state indicator lamp at console 11, indicates the on off state of each hand-operated valve 4.
The effect of electric control valve 6 is the adjustings that realize well head pressure, controls the aperture of electric control valve 6 by console 11 remotely controlled electronically actuators, realizes that well head pressure can carry out step-less adjustment between 0-5MPa.The front end of all motor operated valves 5 all is provided with hand-operated valve 4 in the flow process, if motor operated valve 5 breaks down, can carry out the switching of flow process by hand-operated valve 4.Tubing pump 8 is used for the water of measuring tank 2 is discharged to fluid reservoir 1, and the on off control of tubing pump 8 can manually be controlled, and also can realize automatic control.
Simulation loop flow test take water as test(ing) medium has following five kinds of modes: wherein the total measurement (volume) of measuring tank 2 is 1.3854m
3
1), water is in oil pipe 9 and 10 circulations of sleeve pipe, adopt electromagnetic flowmeter 3-1 measurement flow, as shown in Figure 2, wherein the dotted line frame plays part for the water circuit path, the water circuit path is: oil pipe 9---electric control valve 6---strainer 7---hand-operated valve 4-1---motor operated valve 5-1---electromagnetic flowmeter 3-1---hand-operated valve 4-2---motor operated valve 5-2---sleeve pipe 10.Wherein the valve switch of water circulation flow process is combined as: hand-operated valve 4-1, motor operated valve 5-1, hand-operated valve 4-2, motor operated valve 5-2 open other valve closing.
2), water is in oil pipe 9 and 10 circulations of sleeve pipe, adopt electromagnetic flowmeter 3 measurement flows, as shown in Figure 3, the water circuit process is: oil pipe 9---electric control valve 6---strainer 7---hand-operated valve 4-3---motor operated valve 5-3---electromagnetic flowmeter 3---hand-operated valve 4-2---motor operated valve 5-2---sleeve pipe 10.Wherein the valve switch of water circulation flow process is combined as: hand-operated valve 4-3, motor operated valve 5-3, hand-operated valve 4-2, motor operated valve 5-3 open other valve closing.
3), water is in oil pipe 9 and 10 circulations of sleeve pipe, adopt measuring tank 2 measurement flows, as shown in Figure 4, the water circuit process is: oil pipe 9---electric control valve 6---strainer 7---hand-operated valve 4-1---motor operated valve 5-1---electromagnetic flowmeter 3-1---hand-operated valve 4-2---motor operated valve 5-2---sleeve pipe 10.Measuring tank 2 metrological operation processes are as follows: metering process: hand-operated valve 4-4 and motor operated valve 5-4 leave, and---motor operated valve 5-2 closes---to be detected measuring tank 2 initial liquid levels and---detects measuring tank 2 and stop liquid level---motor operated valve 5-2 leaves---motor operated valve 5-4 pass.Evacuation procedure: hand-operated valve 4-5 and motor operated valve 5-5 leave, and---tubing pump 8 starts, and------reaching the liquid level lower limit,---motor operated valve 5-5 pass---tubing pump 8 stops to discharge liquid.
4), water by oil pipe 9 to fluid reservoir 1 flow process, as shown in Figure 5, the water circuit process is: oil pipe---electric control valve 6---strainer 7---hand-operated valve 4-1---motor operated valve 5-1---electromagnetic flowmeter 3---motor operated valve 4---hand-operated valve 5---fluid reservoir 1.Wherein the valve switch of water circulation flow process is combined as: hand-operated valve 4-1, motor operated valve 5-1, hand-operated valve 4, motor operated valve 5 are opened other valve closing.
5), water to sleeve pipe 10 flow processs, as shown in Figure 6, is used for producing fluid level under the control well by fluid reservoir 1.The water circuit process is: fluid reservoir 1---hand-operated valve 4-6---electric control valve 5-6---electromagnetic flowmeter 3---hand-operated valve 4-2---motor operated valve 5-2---sleeve pipe 10.Wherein the valve switch of water circulation flow process is combined as: hand-operated valve 4-6, motor operated valve 5-6, hand-operated valve 4-2, motor operated valve 5-2 open other valve closing.
Claims (2)
1. simulated test flow path device, it is characterized in that: it is comprised of fluid reservoir (1), measuring tank (2), electromagnetic flowmeter (3), hand-operated valve (4), motor operated valve (5), electric control valve (6), strainer (7), tubing pump (8), oil pipe (9), sleeve pipe (10) and console (11);
Wherein fluid reservoir (1) is connected with hand-operated valve (4-6) with hand-operated valve (4), and hand-operated valve (4) is connected with motor operated valve (5), and hand-operated valve (4-6) is connected with motor operated valve (5-6); Motor operated valve (5) is connected with hand-operated valve (4-4), hand-operated valve (4-5) and hand-operated valve (4-2), wherein hand-operated valve (4-4) is connected with motor operated valve (5-4), hand-operated valve (4-5) is connected with motor operated valve (5-5), motor operated valve (5-5) links to each other with tubing pump (8), and hand-operated valve (4-2) is connected with motor operated valve (5-2); Motor operated valve (5-6) is connected with electromagnetic flowmeter (3) with motor operated valve (5-3), wherein motor operated valve (5-3) is connected with hand-operated valve (4-3), and electromagnetic flowmeter (3) is connected with motor operated valve (5), hand-operated valve (4-4), hand-operated valve (4-5) and hand-operated valve (4-2); Hand-operated valve (4-3) links to each other with strainer (7), strainer (7) links to each other with hand-operated valve (4-1) with electric control valve (6), hand-operated valve (4-1) links to each other with motor operated valve (5-1), motor operated valve (5-1) links to each other with electromagnetic flowmeter (3-1), and electromagnetic flowmeter (3-1) is connected with motor operated valve (5), hand-operated valve (4-4), hand-operated valve (4-5) and hand-operated valve (4-2); Measuring tank (2) links to each other with motor operated valve (5-4) with tubing pump (8); Oil pipe (9) links to each other with electric control valve (6), and sleeve pipe (10) is connected 5-2 with motor operated valve) connect.
2. a kind of simulated test flow path device according to claim 1, it is characterized in that: fluid reservoir is provided with liquid level sensor on (1), and hand-operated valve is provided with position sensor switch on (4).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201220487777 CN202745761U (en) | 2012-09-13 | 2012-09-13 | Simulation test flow device |
Applications Claiming Priority (1)
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CN 201220487777 CN202745761U (en) | 2012-09-13 | 2012-09-13 | Simulation test flow device |
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CN 201220487777 Expired - Fee Related CN202745761U (en) | 2012-09-13 | 2012-09-13 | Simulation test flow device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103234580A (en) * | 2013-04-08 | 2013-08-07 | 马锡林 | Abnormal wastage warning device for brine ice cooling system |
-
2012
- 2012-09-13 CN CN 201220487777 patent/CN202745761U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103234580A (en) * | 2013-04-08 | 2013-08-07 | 马锡林 | Abnormal wastage warning device for brine ice cooling system |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20130220 Termination date: 20180913 |
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CF01 | Termination of patent right due to non-payment of annual fee |