CN201866534U - Pipeline conveying stop and restart test device - Google Patents

Abstract

The embodiment of the utility model provides a pipeline conveying stop and restart test device, which includes a test pipeline unit, a temperature control unit and a data acquisition unit, wherein the test pipeline unit and the temperature control unit are connected; the data acquisition unit is connected with the test pipeline unit and the temperature control unit respectively; the test pipeline unit includes a power source, a test pipeline, an auxiliary pipeline and an oil tank; the oil tank, the power source and the test pipeline form a first circulating pipeline system; the auxiliary pipeline and the test pipeline are arranged in parallel; as a substitute pipeline for the test pipe, the auxiliary pipeline forms a second circulating pipeline system with the oil tank and the power source; and valves are arranged at two ends of the test pipeline and the auxiliary pipeline respectively. The test device utilizes the mutual coordination of the test pipeline and the auxiliary pipeline, so as to realize the research on the conveying stop and restart law of a wax-containing crude conveying pipeline in a laboratory.

Description

A kind of pipeline shutdown is restarted experimental setup

Technical field

The utility model relates to a kind of crude oil pipeline transport field, especially relates to a kind of pipeline shutdown and restarts experimental setup.

Background technique

Now, China produces that waxy crude oil occupies very big proportion in the crude oil, and more waxy crude oil has also been exploited out in the oil field of other countries in the world.Waxy crude oil inevitably will run into the pipeline shutdown operating mode in pipe conveying procedure, and waxy crude oil have condensation point height, viscosity big, vary with temperature the mobility variations outstanding feature, after the wax-containing oil pipe stopping transportation, because pipeline surrounding soil and pipeline oil are gentle to tangible temperature difference, the oil temperature can constantly descend in the pipeline, if pipeline shutdown overlong time, then the wax in the waxy crude oil can be separated out and form the wax deposition layer on tube wall, needs bigger restart pressure when causing pipeline to restart.In addition, if stopping transportation overlong time and can not in time taking measures, also might cause serious run affairs with fixed attention so, cause whole pipeline abandonment.

Therefore, the stopping transportation of research waxy crude oil delivering pipe is restarted rule and is had great importance for the in-situ production management in pipeline operation department and oil field.But, also there is not at present the experimental setup that can restart waxy crude oil delivering pipe stopping transportation, it is very difficult that the stopping transportation that therefore will study the waxy crude oil delivering pipe is at present restarted rule.

The model utility content

The utility model embodiment's purpose is to provide a kind of pipeline shutdown to restart experimental setup, and the stopping transportation that is used to solve present research research waxy crude oil delivering pipe is restarted the very difficult problem of rule.

The utility model embodiment provides a kind of pipeline shutdown to restart experimental setup, this experimental setup comprises: the experiment pipe-line cell, temperature control unit and data acquisition unit, described temperature control unit links to each other with described experiment pipe-line cell, described data acquisition unit links to each other with described experiment pipe-line cell and described temperature control unit respectively, described experiment pipeline unit pack is drawn together power source, test line, auxiliary line and oil tank, described oil tank, power source and test line are formed first cycle cooling plating drum, described auxiliary line and test line be arranged in parallel, replacement pipeline as described test line, described auxiliary line and described oil tank, power source is formed second cycle cooling plating drum, and described test line and described auxiliary line two ends all are respectively arranged with valve.

Preferably, the test line in the experimental setup that the utility model is implemented to provide comprises at least two segmented pipelines, and described segmented pipeline has a plurality of different tube diameters.

Preferably, the segmented pipeline in the experimental setup that the utility model is implemented to provide is detachable pipeline, links to each other by movable part between described segmented pipeline.

Preferably, each segmented pipeline in the experimental setup that the utility model is implemented to provide all is that sleeve-assembled forms, and described temperature control unit comprises a plurality of waters bath with thermostatic control, and described each segmented pipeline all links to each other with an independent water bath with thermostatic control.

Preferably, every end of the segmented pipeline in the experimental setup that the utility model is implemented to provide all is provided with temperature transducer and pressure transducer, and all is provided with temperature transducer in the shell clearance of described segmented pipeline.

Preferably, the power source in the utility model experimental setup of implementing to provide comprises screw pump and variable-frequency motor.

Preferably, oil tank outer side covers one water jacket samdwich in the experimental setup that the utility model is implemented to provide, the outer thermal insulation layer that covers of described water jacket samdwich.

Preferably, the temperature conditioning unit in the experimental setup that the utility model is implemented to provide also comprises a water pot, is provided with heating coil in the described water pipe, and the water jacket samdwich of described water pot and described oil tank communicates, and also is provided with centrifugal pump between described water pot and the described oil tank.

Preferably, be provided with point for measuring temperature in the oil tank water jacket samdwich in the utility model experimental setup of implementing to provide.

Preferably, the crude oil import end of the auxiliary line in the utility model experimental setup of implementing to provide is provided with platinum resistor temperature measuring point.

The utility model embodiment's experimental setup cooperatively interacts by test line and auxiliary line, makes the research that can realize the stopping transportation of waxy crude oil delivering pipe is restarted rule in the laboratory.

Description of drawings

In order to be illustrated more clearly in the utility model embodiment or technological scheme of the prior art, the accompanying drawing of required use is done to introduce simply in will describing embodiment below, apparently, accompanying drawing in describing below only is embodiments more of the present utility model, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

A kind of pipeline shutdown that Fig. 1 provides for the embodiment of the invention is restarted the structured flowchart of experimental setup;

A kind of structural representation of testing pipe-line cell that Fig. 2 provides for the embodiment of the invention;

A kind of pipeline shutdown that Fig. 3 provides for the embodiment of the invention is restarted the structural representation of experimental setup.

Embodiment

Below in conjunction with the accompanying drawing among the utility model embodiment, the technological scheme among the utility model embodiment is clearly and completely described, obviously, described embodiment only is the utility model part embodiment, rather than whole embodiments.Based on the embodiment in the utility model, those of ordinary skills are not making the every other embodiment who is obtained under the creative work prerequisite, all belong to the scope of the utility model protection.

A kind of pipeline shutdown that being illustrated in figure 1 as the utility model embodiment provides is restarted the structured flowchart of experimental setup, this pipeline shutdown is restarted experimental setup experiment pipe-line cell 100, temperature control unit 200 and data acquisition unit 300, wherein temperature control unit 200 links to each other with experiment pipe-line cell 100, and data acquisition unit 300 links to each other with experiment pipe-line cell 100 and temperature control unit 200 respectively.

Experiment pipe-line cell 100 is mainly used in the simulation to the pipeline shutdown restart procedure, and in the present embodiment, as shown in Figure 2, experiment pipe-line cell 100 comprises power source 110, test line 120, auxiliary line 130 and oil tank 140.Oil tank 140, power source 110 and test line 120 can be formed first cycle cooling plating drum, and auxiliary line 130 and test line 140 be arranged in parallel, it can form second cycle cooling plating drum with oil tank 140, power source 110 as the replacement pipeline of test line 140.Test line 120 and auxiliary line 130 two ends all are respectively arranged with valve 140 in addition.

Temperature control unit 200 is used to control oil tank 140, and the temperature of test line 120 and auxiliary line 130 keeps under the required temperature of experiment their, can study under all temps situation wax-containing oil pipe stopping transportation by the temperature control unit and restart rule.In the present embodiment, temperature control unit 200 can comprise water bath with thermostatic control, electric heater, heat tape, temperature control instrument etc., as long as the equipment of heating purposes and temperature control purpose of can realizing can be applied, the utility model is embodiment do not limited this.

Data acquisition unit 300 comprises data acquisition equipment and data acquisition software, can gather the data of each parts in the wax-containing oil pipe stopping transportation restart procedure, so that the researcher carries out data analysis, such as the temperature in the oil tank, the temperature in the test line, the temperature in the auxiliary line, the flow in the pipeline, the pressure in the test line etc.Therefore, data acquisition equipment can comprise as pressure transducer, temperature transducer, mass flowmenter etc.

Test line and auxiliary line have been adopted in the utility model embodiment's the experimental setup, and all there is valve control at test line and auxiliary line two ends, can be separately and oil tank constitute a cycle cooling plating drum, therefore each stage in can simulating reality in the stopping transportation restart procedure of waxy crude oil delivering pipe, the convenient research that in the laboratory, can realize the stopping transportation of waxy crude oil delivering pipe is restarted rule.

Below aforementioned tube road stopping transportation is restarted experimental setup and carry out further detailed description, a kind of pipeline shutdown that being illustrated in figure 3 as the utility model embodiment provides is restarted the structural representation of experimental setup, and this experimental setup comprises: oil tank 1, water pot 2, heating coil 3, ball valve 4, centrifugal pump 5, screw pump 6, mass flowmenter 7, pressure transducer 8, temperature transducer 9, water bath with thermostatic control 10, segmented pipeline 11 and auxiliary line 12.

In the present embodiment, heating coil 3 is positioned at the inside of water pot 2, and water pot 2 and oil tank 1 communicate, and forms a circulator bath between water pot 2 and the oil tank 1, and coming with this is oil tank 1 heating.The skin of oil tank 1 can cover a water jacket samdwich in the present embodiment, this water jacket samdwich and water pot 2 communicate, promptly constitute a circulator bath between this water jacket samdwich and the water pot 2, heat by the water in 3 pairs of water pots of heating pipe dish 2, thereby make the hot water in the oil tank 1 inner water sleeve interlayer can be oil tank 1 heating.In order to improve the efficiency of heating surface, can between the passage of water pot 2 and oil tank 2, a centrifugal pump be set, promote circulating of water.In addition, can also cover the loss of a thermal insulation layer in the water jacket samdwich outside of oil tank 1, thereby reduce energy consumption with the minimizing heat.In the present embodiment, the tank deck of oil tank 1 can also install sealing cover additional to reduce the volatilization of crude oil light component in the experimentation.

The crude exports end A of oil tank 1 and an end of screw pump 6 link to each other, and screw pump 6 and variable-frequency motor constitute the power source of this experimental setup, and variable-frequency motor promptly carries out stepless speed regulation by frequency variator to motor, thereby realize the adjusting to the screw pump flow.In the present embodiment, because screw pump is smaller to the shear inference of oil stream, the interior temperature rise of pump is less, therefore can avoid the influence of frictional heat to experiment.Preferably, the pressure that provides of the screw pump selected for use of the experimental setup in the present embodiment can be 2.4MPa.

The other end of screw pump 6 is connected to an end of mass flowmenter 7, and mass flowmenter 7 can be measured the flow of waxy crude oil in the pipeline, and survey data is delivered to data acquistion system (not illustrating).Also be equipped with a redundant pipeline in embodiments of the present invention, when mass flowmenter 7 goes wrong,, can have switched to redundant pipeline earlier, changed mass flowmenter 7 again in order not influence the carrying out of test for mass flowmenter 7.

The other end of mass flowmenter 7 is connected to an end of test line and auxiliary line 12 respectively, in the present embodiment, auxiliary line 12 is replacement pipelines of test line, can guarantee that when test line was closed, crude oil can keep recurrent state by auxiliary line.The other end of test line and auxiliary line 12 all is connected to the crude oil such as the mouth of oil tank 1 and holds B, so test line and auxiliary line 12 can be formed a cycle cooling plating drum with oil tank 1 respectively.

In the present embodiment, test line has 4 sections segmented pipelines 11 to be formed by connecting, and certainly, the utility model embodiment does not limit the quantity of segmented pipeline 11, can select according to actual needs.Segmented pipeline 11 can select for use the different steel pipe of a plurality of calibers as pipeline, steel pipe such as specifications such as the DN25 that can select stainless steel for use, DN40, DN50, certainly also can some caliber in the segmented pipeline 11 identical, and some caliber difference, the caliber that is segmented pipeline can combination in any, can fully take into account caliber like this and change the influence of stopping transportation being restarted rule.Segmented pipeline 11 all is the structure that adopts sleeve-assembled, and every section segmented pipeline 11 all has a shell clearance, this a shell clearance and independent water bath with thermostatic control 10 communicates and water bath with thermostatic control 10 has constituted a circulator bath.Water bath with thermostatic control 10 can be carried out independent temperature control operation to every section segmentation sleeve pipe 11, to cause the difference of different line temperature in the simulating reality environment owing to the difference of geological environment.Each end of segmented pipeline 11 all is provided with temperature transducer 8 and pressure transducer 9, and all be provided with temperature transducer 8 in the shell clearance of segmented pipeline 11, wherein the temperature transducer at segmented pipeline 11 two ends is used for measuring the temperature by the crude oil of segmentation sleeve pipe 11, segmented pipeline 11 the temperature transducer 8 in the shell clearance then is used for measuring the temperature of the hot water that water bath with thermostatic control 10 provided, as shown in Figure 3,5 pressure transducers 9 and 9 temperature transducers 8 have been adopted in the present embodiment altogether.In addition in the present embodiment, each segmented pipeline 11 all is detachable, can make up as required, between each segmented pipeline such as linking to each other by links such as flanges.

Auxiliary line 12 appearances are coated with heat tape (not illustrating), can the crude oil in the subsidiary conduit be heated, and the heat tape skin can also cover a thermal insulation layer, reduce the heat loss of crude oil in circulation.

Ball valve 4 is arranged in the place, gateway of experimental setup various piece in the present embodiment, and ball valve 4 can be provided with as required, is not limited only to the switching that ball valve 4 is controlled various piece certainly in the utility model embodiment.In addition, it is pointed out that in the both sides of test line and auxiliary line 12 ball valve 4 must be set, so that the carrying out of experiment.

Below the workflow of above-mentioned experimental setup is carried out following introduction, carry out pipeline shutdown based on above-mentioned experimental setup in the present embodiment and restart steps such as the process of simulation can be divided into preheating oil sample, dynamically cooling, static cooling, stopping transportation leaves standstill and restart, detailed process is as follows:

Detect before the experiment: whether the checking experiment device is in the normal operation state, comprising: whether screw pump 6 works well, whether the heat tape of auxiliary line 12 appearances works well, whether centrifugal pump 5 works well, whether mass flowmenter 7 readings stable, pressure transducer 8 and temperature transducer 9 gather whether normal, whether whether water pot 2 water levels normal, whether water bath with thermostatic control 10 water levels normally reach running normal etc.

The preheating oil sample: oil sample is carried out preheating, and test line both sides ball valve 4 is closed in warm, and auxiliary line 12 both sides ball valves 4 are opened, and make oil product walk auxiliary line and circulate.In this step, water pot 2 temperature can be set to 5～10 ℃ of preheating temperatures that are higher than the test needs, quicken the heating oil product.Simultaneously, the temperature of water bath with thermostatic control is set to the moving cold temperature eventually of dynamically cooling, for dynamically cooling is ready.

Dynamically lower the temperature: after judging that according to the point for measuring temperature reading of oil tank 1 oil product has been heated to initial preheating temperature, beginning is the cooling flow process dynamically, and promptly oil product is not walked test line, circulates through auxiliary line 12.Specifically, dynamically the method for cooling can be divided into two sections by just dynamic temperature fall time, preceding half period keeps water pot 2 water temperatures to be higher than moving cold (temperature the when crude oil when referring to satisfy test requirements document enters circuit) 10 ℃ of temperature eventually, and time second half section keeps water pot 2 water temperatures to be moving cold temperature eventually.The regulating method of water pot 2 water temperatures is that the fetch boiling water ball valve 4 of pot bottom bleeds off part hot water, adds part cold water again.This waterdrainage amount and water displacement are to determine according to the experience of initial stage experiment accumulation.

Static cooling: when the water temperature of water pot reached moving cold temperature eventually, opened the ball valve 4 at test line two ends this moment, closes the ball valve 4 at auxiliary line 12 two ends, makes its crude oil through test line.When the oil product temperature reached assigned temperature in the data judgement test line that first temperature transducer 9 of test line is gathered, dynamically cooling finished, beginning static state cooling flow process.When static state cooling flow process, oil product is walked auxiliary line 12, and the ball valve 4 at test line two ends is closed once more, and oil product is remained static.Static cooling is undertaken sectional-regulated by water bath with thermostatic control 10, promptly according to cooling rate and temperature fall time, temperature-fall period is divided into several equal time periods, and the amplitude of every section cooling is all identical.Wherein the regulating method of water bath with thermostatic control 10 is as follows: close water bath with thermostatic control 10, bleed off hot water, add cold water until with temperature regulation to being lower than 40 ℃, continue to add cold water and freeze, wait water bath with thermostatic control 10 temperature to the temperature that needs that sets.

Stopping transportation leaves standstill: according to the fixed time, the oil product in the test line is left standstill opening under the defeated temperature, open the state of wax-containing oil pipe stopping transportation under the defeated temperature to simulate difference.Restart: this moment, oil product was not walked auxiliary line 12, walk test line, oil product need be switched to test line from auxiliary line 12, switching flow is as follows: at first close screw pump 6, open the ball valve 4 at test line two ends, the ball valve 4 of closing auxiliary line 12 two ends simultaneously.Before restarting test, carry out the pressure gauge check of zero earlier, the pressure gauge check of zero is after screw pump 6 terminations of pumping and carries out record data when opening the ball valve 4 at test line two ends, will begin earlier the data acquisition software parameter is set before restarting test, is ready to image data.And then open screw pump 6, gather pressure data.

After collecting one group of data, can change relevant configuration, such as caliber, the quantity of segmented pipeline 11, all temps parameter etc. are carried out the laboratory data collection of next group.According to many group laboratory datas, can study then the rule that waxy crude oil delivering pipe stopping transportation is restarted.

Test line and auxiliary line have been adopted in the utility model embodiment's the experimental setup, and all there is valve control at test line and auxiliary line two ends, can be separately and oil tank constitute a cycle cooling plating drum, therefore each stage in can simulating reality in the stopping transportation restart procedure of waxy crude oil delivering pipe, the convenient research that in the laboratory, can realize the stopping transportation of waxy crude oil delivering pipe is restarted rule.The utility model make that the flow control in the experimentation becomes more convenient, and the precision of water-bath temperature control is higher owing to adopted variable-frequency motor and screw pump in addition, and the oily temperature stability, uniformity in the experimentation all compares well.

Above-described specific embodiment; the purpose of this utility model, technological scheme and beneficial effect are further described; institute is understood that; the above only is a specific embodiment of the utility model; and be not used in and limit protection domain of the present utility model; all within spirit of the present utility model and principle, any modification of being made, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (10)

1. a pipeline shutdown is restarted experimental setup, it is characterized in that, described experimental setup comprises: the experiment pipe-line cell, temperature control unit and data acquisition unit, described temperature control unit links to each other with described experiment pipe-line cell, described data acquisition unit links to each other with described experiment pipe-line cell and described temperature control unit respectively, described experiment pipeline unit pack is drawn together power source, test line, auxiliary line and oil tank, described oil tank, power source and test line are formed first cycle cooling plating drum, described auxiliary line and test line be arranged in parallel, replacement pipeline as described test line, described auxiliary line and described oil tank, power source is formed second cycle cooling plating drum, and described test line and described auxiliary line two ends all are respectively arranged with valve.

2. experimental setup as claimed in claim 1 is characterized in that described test line comprises at least two segmented pipelines, and described segmented pipeline has a plurality of different tube diameters.

3. experimental setup as claimed in claim 2 is characterized in that, described segmented pipeline is detachable pipeline, links to each other by movable part between described segmented pipeline.

4. experimental setup as claimed in claim 2 is characterized in that, described each segmented pipeline all is that sleeve-assembled forms, and described temperature control unit comprises a plurality of waters bath with thermostatic control, and described each segmented pipeline all links to each other with an independent water bath with thermostatic control.

5. experimental setup as claimed in claim 3, every end of described segmented pipeline all is provided with temperature transducer and pressure transducer, and all is provided with temperature transducer in the shell clearance of described segmented pipeline.

6. experimental setup as claimed in claim 1 is characterized in that described power source comprises screw pump and variable-frequency motor.

7. experimental setup as claimed in claim 1 is characterized in that, described oil tank outer side covers one water jacket samdwich, the outer thermal insulation layer that covers of described water jacket samdwich.

8. experimental setup as claimed in claim 7, it is characterized in that described temperature conditioning unit also comprises a water pot, be provided with heating coil in the described water pipe, the water jacket samdwich of described water pot and described oil tank communicates, and also is provided with centrifugal pump between described water pot and the described oil tank.

9. experimental setup as claimed in claim 7 is characterized in that, is provided with point for measuring temperature in the described oil tank water jacket samdwich.

10. experimental setup as claimed in claim 1, the crude oil import end of described auxiliary line is provided with platinum resistor temperature measuring point.

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