CN203719928U - Experimental device for simulation of hydraulic pulse in pigging process - Google Patents

Experimental device for simulation of hydraulic pulse in pigging process Download PDF

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Publication number
CN203719928U
CN203719928U CN201420076358.8U CN201420076358U CN203719928U CN 203719928 U CN203719928 U CN 203719928U CN 201420076358 U CN201420076358 U CN 201420076358U CN 203719928 U CN203719928 U CN 203719928U
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China
Prior art keywords
experimental
simulation
pigging
experimental provision
testing conduit
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Expired - Fee Related
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CN201420076358.8U
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Chinese (zh)
Inventor
邓涛
宫敬
于达
吴海浩
周军
陈曦
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China University of Petroleum Beijing
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China University of Petroleum Beijing
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Abstract

The utility model provides an experimental device for simulation of a hydraulic pulse in a pigging process. The experimental device includes an experimental pipeline system, a gas supply system connected to the experimental pipeline system, a water supply system, a drainage system and a measurement and data collection system for measurement and data collection of an experimental pipeline. The experimental pipeline system comprises a test pipeline inclining downward in a direction from an inlet to an outlet. An inlet end of the test pipeline is connected to a quick connect butterfly valve, and an outlet end of the test pipeline is connected to a pig receiver. The measurement and data collection system comprises an electromagnetic velometer, and the electromagnetic velometer comprises a plurality of induction coils equally spaced and wound onto an outer wall of the test pipeline. A magnet is disposed on a pigging device. The experimental device can be used for simulating the motion characteristics of the pigging device and gas-liquid flow variation pattern at the head portion of the pigging device in the pigging process, and studying the variation pattern and influencing factors of pressure surges generated by gas-liquid flow at the front end of the pigging device in the pigging process. The experimental device is reasonable in structure, ingenious in design and advanced in measurement equipment.

Description

The experimental provision of simulation pigging process waterpower pulse
Technical field
The utility model is the experimental provision about a kind of oil and gas pipes, be the experimental provision for simulating the pressure pulse producing in the interaction of pipeline pressure test drainage procedure high speed rabbit and front end gas-liquid two-phase, relate in particular to a kind of experimental provision of simulating pigging process waterpower pulse.
Background technology
For the oil and gas pipes just having built up, pressure testing is the important means that ensures pipe safety operation, is also the necessary links that before completion of works is gone into operation, pipeline is carried out to safety inspection, exerts pressure and has comprised intensity pressure testing and tightness pressure testing.Can check the quality of pipeline by test, find in time the defect that pipeline exists, to take measures to get rid of as early as possible the potential safety hazard in pipeline.In order to ensure safety, conventionally make water for the medium of exerting pressure.After pressure testing completes, water residual in pipeline need to be discharged.In Practical Project, be generally to utilize pressurized air to promote rabbit the pressure testing water in pipeline is pushed into mouth of pipe discharge.Promote in the process of liquid draining at this rabbit, if there is retained gas in pipeline, or the high pressure gas leakage of rabbit rear end is after liquid section, will produce gas-liquid two-phase at rabbit head flows, under the high speed impact of rabbit, will produce waterpower pulse, thereby can make pipeline pressure sharply raise, pipeline be caused to huge destruction.
Liquid Flow experimental channel is as pipe flow characteristic in the mobile process of gas-liquid two-phase, the main experimental study means of the aspects such as pressure rising rule, its experimental result has very strong applicability and directive function to the design and running operation of actual pipeline, the characteristic of domestic and international Research on Oil feed channel Liquid Flow waterpower pulse and the important means of pressure pulse forming process always, but these existing experimental channels all can not be simulated rabbit in pigging process and be promoted the mobile process of fluid column generation gas-liquid two-phase, the rabbit that particularly can not simulate the motion of pigging process high speed impacts the mobile impact of gas-liquid two-phase, in the process of rabbit high-speed motion, cannot flutter and catch rabbit and follow the trail of, be not enough to the waterpower pulse characteristic of pressure testing drainage procedure complexity to simulate.
Thus, the inventor relies on experience and the practice of being engaged in for many years relevant industries, proposes a kind of experimental provision of simulating pigging process waterpower pulse, to overcome the defect of prior art.
Utility model content
The purpose of this utility model is to provide a kind of experimental provision of simulating pigging process waterpower pulse, can simulate kinetic characteristic and the rabbit head Liquid Flow Changing Pattern of pigging process rabbit, in research pigging process, rabbit front end Liquid Flow produces Changing Pattern and the influence factor that pressure increases sharply.
Another object of the present utility model is to provide a kind of experimental provision of simulating pigging process waterpower pulse, can probe into different factors to the pressure big or small impact that increases sharply by control variate method.
The purpose of this utility model is to realize like this, simulate an experimental provision for pigging process waterpower pulse, air supply system, water system and the unwatering system that the experimental provision of described simulation pigging process waterpower pulse includes experimental channel system, be connected with described experimental channel system and described experimental channel system is measured and measurement and the data acquisition system (DAS) of data acquisition; Described experimental channel system includes testing conduit, this testing conduit is downward-sloping setting by import to the direction of outlet, the entrance point of described testing conduit is connected with and connects soon butterfly valve, the endpiece of testing conduit is connected with ball collecting chamber, and described butterfly valve and the ball collecting chamber of connecing is soon respectively used to sending and receiving mobile rabbit in testing conduit; Described air supply system has air supply pipe, and one end of described air supply pipe is connected with air compressor, and the air supply pipe other end is connected with the described butterfly valve that connects soon; Described water system has feed pipe, and one end of described feed pipe is connected with water tank, and the feed pipe other end is connected with ball collecting chamber; Described unwatering system has drainpipe, and one end of described drainpipe is connected with reserve tank, and the drainpipe other end is connected with described ball collecting chamber; Described measurement and data acquisition system (DAS) include electromagnetism velometer, and described electromagnetism velometer includes multiple inductive coils that are equidistantly wrapped on described testing conduit outer wall, and described rabbit is provided with magnet; Described electromagnetism velometer is connected in computing machine.
In a preferred embodiments of the present utility model, described testing conduit is made up of transparent organic glass pipe, and testing conduit total length is 7.85m, and the upper and lower discrepancy in elevation is 6.13m.
In a preferred embodiments of the present utility model, described measurement and data acquisition system (DAS) also include the high-speed camera that is arranged on testing conduit outside, and high-speed camera is connected with described computing machine.
In a preferred embodiments of the present utility model, described experimental channel system also includes one section of horizontal pipe, and described horizontal pipe is connected between the endpiece and ball collecting chamber of testing conduit.
In a preferred embodiments of the present utility model, the inductive coil in described electromagnetism velometer arranges 10, and equidistantly 70cm is wrapped in testing conduit outer wall.
In a preferred embodiments of the present utility model, in described electromagnetism velometer, be provided with the wave filter that filters clutter.
In a preferred embodiments of the present utility model, in described water system, between water tank and ball collecting chamber, be provided with water pump; Between water tank and described water pump, be connected with liquid filter.
In a preferred embodiments of the present utility model, in described air supply system, between butterfly valve, be provided with surge tank at air compressor and described connecing soon; At surge tank and connect soon and be connected with gas filter between butterfly valve.
In a preferred embodiments of the present utility model, in described unwatering system, multiple draining valves between drainpipe and reserve tank, are arranged in parallel.
In a preferred embodiments of the present utility model, be equipped with emptying ball valve at entrance point and the endpiece of described testing conduit.
In a preferred embodiments of the present utility model, in described experimental channel system, air supply system, water system and unwatering system, be equipped with block valve; In described unwatering system, be provided with flowmeter; Described ball collecting chamber is provided with pressure transducer.
In a preferred embodiments of the present utility model, the described butterfly valve that connects is soon made up of a fast acting flange and butterfly valve.
From the above mentioned, the experimental provision of simulation pigging process waterpower pulse of the present utility model, can simulate kinetic characteristic and the rabbit head Liquid Flow Changing Pattern of rabbit in pigging process, in research pigging process, rabbit front end Liquid Flow produces Changing Pattern and the influence factor that pressure increases sharply.This device has taken into full account the factor that rabbit moves on the mobile impact of gas-liquid two-phase, the on-the-spot actual condition of combining closely, and it is rational in infrastructure, it is ingenious to design, measuring equipment is advanced.
Brief description of the drawings
The following drawings is only intended to the utility model to schematically illustrate and explain, does not limit scope of the present utility model.Wherein:
Fig. 1: be the structural representation of the experimental provision of the utility model simulation pigging process waterpower pulse.
Embodiment
Understand for technical characterictic of the present utility model, object and effect being had more clearly, now contrast brief description of the drawings embodiment of the present utility model.
As shown in Figure 1, the utility model proposes a kind of experimental provision 100 of simulating pigging process waterpower pulse, air supply system 2, water system 3 and the unwatering system 4 that the experimental provision 100 of described simulation pigging process waterpower pulse includes experimental channel system 1, be connected with described experimental channel system 1 and described experimental channel system 1 is measured and measurement and the data acquisition system (DAS) 5 of data acquisition;
Described experimental channel system 1 includes testing conduit 11, this testing conduit 11 is downward-sloping setting by entrance point 111 to the direction of endpiece 112, the entrance point of described testing conduit and endpiece are equipped with emptying ball valve 1111,1121, the entrance point 111 of described testing conduit 11 is connected with and connects soon butterfly valve 6, the endpiece 112 of testing conduit 11 is connected with ball collecting chamber 7, in the present embodiment, the endpiece 112 of testing conduit 11 is connected with the first import of ball collecting chamber 7, in the pipeline in the first import front of ball collecting chamber 7, is also provided with block valve 13; Described butterfly valve 6 and the ball collecting chamber 7 of connecing is soon respectively used to sending and receiving mobile rabbit (not shown) in testing conduit; In the present embodiment, the described butterfly valve 6 that connects is soon made up of a fast acting flange 62 and butterfly valve 61, can described rabbit be put into described testing conduit 11 by described fast acting flange 62, describedly connect soon butterfly valve 6 it has and controls the function that back pressure regulates rabbit initial velocity and sends rabbit;
Described air supply system 2 has air supply pipe 21, one end of described air supply pipe 21 is connected with air compressor 22, air compressor 22 is for inputting ambient atmos compression in air supply pipe 21, air supply pipe 21 other ends are connected with the described butterfly valve 6 that connects soon, be provided with surge tank 23 at air compressor 22 and described connecing soon between butterfly valve 6, ambient atmos enters in testing conduit 11 by promotion rabbit after being connected to surge tank 23 bufferings on air supply pipe 21; In the present embodiment, surge tank 23 is made up of the buffering tank body of four series connection, can play stable from air compressor machine gases at high pressure out; At surge tank 23 and connect soon between butterfly valve 6 and be connected with gas filter 24, be respectively equipped with block valve 25 and tensimeter 26 at gas filter 24 two ends along gas flow direction, the gas of steady flow can be provided to experimental channel system 1 by air supply system 2; Wherein, gas filter 24 is for filtering the impurity of air supply pipe 21 interior gases, and tensimeter 26 is for gathering the pressure of the gas of flowing through in air supply pipe 21;
Described water system 3 has feed pipe 31, and one end of described feed pipe 31 is connected with water tank 32, and the feed pipe other end is connected with the second import of ball collecting chamber 7; Between water tank 32 and ball collecting chamber 7, be provided with water pump 33; Between water tank 32 and described water pump 33, be connected with liquid filter 34, for filtering the impurity of water tank 32 interior liquid; Between water pump 33 and ball collecting chamber 7, be also provided with block valve 35; This water system 3 is for providing liquid phase fluid to experimental channel system 1, and its feed pipe 31 is squeezed into the water in water tank 32 described ball collecting chamber 7 and offers experimental channel system 1 by water pump 33;
The water that described unwatering system 4 is discharged for collecting experimental channel system 1, unwatering system 4 has drainpipe 41, and one end of described drainpipe 41 is connected in a reserve tank 42 by draining valve group 43, and the drainpipe other end is connected with the outlet of described ball collecting chamber 7; Described draining valve group 43 is made up of the multiple draining valves that are arranged in parallel between drainpipe and reserve tank, can open and close draining valve by selectivity and control drainage speed; On described drainpipe, export connecting portion with ball collecting chamber 7 and be also provided with flowmeter 44 and block valve 45;
Described measurement and data acquisition system (DAS) 5 include electromagnetism velometer 51, include multiple inductive coils 511 that are equidistantly wrapped on described testing conduit 11 outer walls in described electromagnetism velometer 51, and described rabbit is provided with magnet; Described electromagnetism velometer 51 is connected in a computing machine 52; Described ball collecting chamber 7 is provided with pressure transducer 71; When the described inductive coil of described rabbit process, can produce induction current pulse, pass to terminal by data card; In the present embodiment, in described electromagnetism velometer 51, be provided with the wave filter (not shown) of filtering clutter.
Further, in the present embodiment, described testing conduit 11 is made up of transparent organic glass pipe, and testing conduit 11 total lengths are 7.85m, and the upper and lower discrepancy in elevation is 6.13m; Described measurement and data acquisition system (DAS) 5 also include the high-speed camera 53 that is arranged on transparent testing conduit outside, high-speed camera 53 is the first half to testing conduit 11 just, it is for catching the instantaneous flow state of the interior rabbit motion process of testing conduit 11 and gas-liquid two-phase medium, and high-speed camera 8 stores the image transmitting of its shooting show to computing machine 52.
In the present embodiment, the inductive coil in described electromagnetism velometer 51 arranges 10, and equidistantly 70cm is wrapped in testing conduit 11 outer walls.
In the present embodiment, described experimental channel system 1 also includes one section of horizontal pipe 12, and described horizontal pipe 12 is connected to by an elbow 14 between the endpiece 112 and ball collecting chamber the first import of testing conduit 11; Described block valve 13 is arranged in described horizontal pipe 12.
Utilize the experimental provision 100 of this simulation pigging process waterpower pulse to carry out the process of simulated experiment as follows:
As shown in Figure 1, first, close butterfly valve 61 and open emptying ball valve 1111, open water pump 33, block valve 35 and block valve 13, and close draining valve group 43 and block valve 45; In the time that rising to desired location, liquid level closes block valve 35; Open air compressor 22 and block valve 25, close air compressor 22 after making pressure reach the value of setting; Next open fast acting flange 62, by the 111 rear recoveries of rabbit built-in test pipe head; Then open data acquisition system (DAS) and wait for measurement data; When opening butterfly valve 61 after emptying ball valve 1111, open draining valve group 43 and block valve 45; Rabbit sends and liquid level starts to decline, and closes block valve 13 after ball collecting chamber 7 is received rabbit; Close butterfly valve 61 and open emptying ball valve 1111 and discharge surplus pressure in pipeline; After rabbit is taken out, recover, collect experimental data and preserve, sweep the pending tests next time such as testing ground.
In the present embodiment, can select the different magnitudes of interference, Different Weight, different magnetic, heteroid rabbit to test.One or more draining valves that can open and close in described draining valve group by selectivity are controlled drainage speed.
The experimental provision of simulation pigging process waterpower pulse of the present utility model, can be used for simulating kinetic characteristic and the rabbit head Liquid Flow Changing Pattern of rabbit in pigging process, pressure pulse Changing Pattern and influence factor in research pigging process, complete object of experiment by contrived experiment scheme.This device has taken into full account the factor that rabbit moves on the mobile impact of gas-liquid two-phase, and the on-the-spot actual condition of combining closely, compared with prior art has the following advantages:
1) rational in infrastructure: between experimental channel system of the present utility model, water system, air supply system, transmitting-receiving ball system and unwatering system, to be connected compact, make full use of the laboratory finite space, between water system, air supply system and unwatering system, easy switching and each measuring equipment meet the installation requirement of instrument.
2) design ingenious: employing of the present utility model connects soon butterfly valve and replaces heavy service cylinder, can meet the requirement of the frequent service of test; Described rabbit velocity measuring system comprises high-speed camera and two parts of electromagnetism velometer, separate running and mutually verification msg; Water system and unwatering system are linked together, and at ball collecting chamber end separately, and two systems can both independently be moved.
3) measuring equipment advanced person: the utility model has been installed electromagnetism velometer on plexi-glass tubular, can measure the speed that the rabbit of carry magnet moves in pipeline; On testing conduit, adopt high-speed camera to take, data acquisition amount is increased greatly, the measurement of electromagnetism velometer to rabbit speed of also making corrections simultaneously; In addition, use pressure transducer, tensimeter and the collection of flowmeter to related data, avoid manual operation error, realize data acquisition and control automatization.
The foregoing is only the schematic embodiment of the utility model, not in order to limit scope of the present utility model.Any those skilled in the art, is not departing from equivalent variations and the amendment under the prerequisite of design of the present utility model and principle, done, all should belong to the scope of the utility model protection.

Claims (12)

1. simulate an experimental provision for pigging process waterpower pulse, air supply system, water system and the unwatering system that the experimental provision of described simulation pigging process waterpower pulse includes experimental channel system, be connected with described experimental channel system and described experimental channel system is measured and measurement and the data acquisition system (DAS) of data acquisition; It is characterized in that: described experimental channel system includes testing conduit, this testing conduit is downward-sloping setting by import to the direction of outlet, the entrance point of described testing conduit is connected with and connects soon butterfly valve, the endpiece of testing conduit is connected with ball collecting chamber, and described butterfly valve and the ball collecting chamber of connecing is soon respectively used to sending and receiving mobile rabbit in testing conduit; Described air supply system has air supply pipe, and one end of described air supply pipe is connected with air compressor, and the air supply pipe other end is connected with the described butterfly valve that connects soon; Described water system has feed pipe, and one end of described feed pipe is connected with water tank, and the feed pipe other end is connected with ball collecting chamber; Described unwatering system has drainpipe, and one end of described drainpipe is connected with reserve tank, and the drainpipe other end is connected with described ball collecting chamber; Described measurement and data acquisition system (DAS) include electromagnetism velometer, and described electromagnetism velometer includes multiple inductive coils that are equidistantly wrapped on described testing conduit outer wall, and described rabbit is provided with magnet; Described electromagnetism velometer is connected in computing machine.
2. the experimental provision of simulation pigging process waterpower pulse as claimed in claim 1, is characterized in that: described testing conduit is made up of transparent organic glass pipe, testing conduit total length is 7.85m, and the upper and lower discrepancy in elevation is 6.13m.
3. the experimental provision of simulation pigging process waterpower pulse as claimed in claim 2, is characterized in that: described measurement and data acquisition system (DAS) also include the high-speed camera that is arranged on testing conduit outside, and high-speed camera is connected with described computing machine.
4. the experimental provision of simulation pigging process waterpower pulse as claimed in claim 3, is characterized in that: described experimental channel system also includes one section of horizontal pipe, and described horizontal pipe is connected between the endpiece and ball collecting chamber of testing conduit.
5. the experimental provision of simulation pigging process waterpower pulse as claimed in claim 1, is characterized in that: the inductive coil in described electromagnetism velometer arranges 10, and equidistantly 70cm is wrapped in testing conduit outer wall.
6. the experimental provision of simulation pigging process waterpower pulse as claimed in claim 1, is characterized in that: in described electromagnetism velometer, be provided with the wave filter that filters clutter.
7. the experimental provision of simulation pigging process waterpower pulse as claimed in claim 1, is characterized in that: in described water system, between water tank and ball collecting chamber, be provided with water pump; Between water tank and described water pump, be connected with liquid filter.
8. the experimental provision of simulation pigging process waterpower pulse as claimed in claim 1, is characterized in that: in described air supply system, be provided with surge tank at air compressor and described connecing soon between butterfly valve; At surge tank and connect soon and be connected with gas filter between butterfly valve.
9. the experimental provision of simulation pigging process waterpower pulse as claimed in claim 1, is characterized in that: in described unwatering system, be arranged in parallel multiple draining valves between drainpipe and reserve tank.
10. the experimental provision of simulation pigging process waterpower pulse as claimed in claim 1, is characterized in that: entrance point and endpiece at described testing conduit are equipped with emptying ball valve.
The experimental provision of 11. simulation pigging process waterpower pulses as claimed in claim 1, is characterized in that: in described experimental channel system, air supply system, water system and unwatering system, be equipped with block valve; In described unwatering system, be provided with flowmeter; Described ball collecting chamber is provided with pressure transducer.
The experimental provision of 12. simulation pigging process waterpower pulses as claimed in claim 1, is characterized in that: the described butterfly valve that connects is soon made up of a fast acting flange and butterfly valve.
CN201420076358.8U 2014-02-21 2014-02-21 Experimental device for simulation of hydraulic pulse in pigging process Expired - Fee Related CN203719928U (en)

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Application Number Priority Date Filing Date Title
CN201420076358.8U CN203719928U (en) 2014-02-21 2014-02-21 Experimental device for simulation of hydraulic pulse in pigging process

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Application Number Priority Date Filing Date Title
CN201420076358.8U CN203719928U (en) 2014-02-21 2014-02-21 Experimental device for simulation of hydraulic pulse in pigging process

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108057693A (en) * 2016-11-08 2018-05-22 通用电气公司 Deposit removal device and method, deposit removal system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108057693A (en) * 2016-11-08 2018-05-22 通用电气公司 Deposit removal device and method, deposit removal system

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CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20140716

Termination date: 20150221

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