CN209145582U - Coarse crack liquid-solid two-phase Radial Flow visual Simulation experimental provision - Google Patents
Coarse crack liquid-solid two-phase Radial Flow visual Simulation experimental provision Download PDFInfo
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- CN209145582U CN209145582U CN201821881294.3U CN201821881294U CN209145582U CN 209145582 U CN209145582 U CN 209145582U CN 201821881294 U CN201821881294 U CN 201821881294U CN 209145582 U CN209145582 U CN 209145582U
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Abstract
The utility model discloses coarse crack liquid-solid two-phase Radial Flow visual Simulation experimental provision, which is made of simulation wellbore running system, the coarse Fracture System of simulation and data collection system.The simulation wellbore running system includes simulation wellbore 9, fluid-mixing holding vessel 1, stirring motor 2, electric pump 3, frequency modulator 4, liquid pressure regulator valve 5 and check valve 8;The coarse Fracture System of simulation includes the rack 14 of the coarse crack of simulation, the shaft 12 with rotation angle scale knowledge 13 and the coarse slit plate of fixed-analog that the coarse slit plate 10 of upper and lower two pieces of parallel round simulations is constituted, and simulating coarse crack central location has simulation wellbore 9;The data collection system includes fluid-mixing flowmeter 7, pressure gauge 6, high-definition camera 11, and high-definition camera 11, which is located at, simulates above coarse crack.The utility model can provide more accurate feasible data supporting and theoretical basis for the research of coarse crack liquid-solid two-phase Radial Flow mechanism.
Description
Technical field
The utility model relates to oil-gas mining indoor experimental apparatus research field more particularly to a kind of coarse crack liquid solid two
Phase Radial Flow imitative experimental appliance.
Background technique
With the raising of exploration and development technology, in World's Oil and Gas Resources, fracture-type reservoir oil in place is had reached always
Proved reserves 50% or more, in China, fractured reservoirs just have an extensive distribution, the research of formation fracture increasingly by
To attention.
Fracture-type reservoir generally buries relatively deep, fractue spacing complexity, so that reservoir geology complicated condition, gives oil gas mining belt
Many problems are carried out.Especially in Process of Leaking Stoppage, since it is difficult to predict while fracture spaces complex distributions for underground fractue spacing
Etc. reasons, cause the transport conditions of the solid phase particles such as sealing agent in crack complicated, so that plugging effect evaluation is difficult.Therefore, exist
This complex condition, migration mechanism research of the solid phase particles in the crack of underground are particularly important.However, at present about well
There is also many problems in terms of the mechanism study of lower crack liquid-solid two phase flow:
(1) there is very big difference in the plate crack and true crack that many leak stopping evaluation methods use, and plate crack is often
The spatial shape feature in true crack is not accounted for;
(2) flowing of parallel-plate stream and well week crack is essentially different, well week fracture fluid flow direction often
It is radial, while in parallel-plate flowing, especially under turbulence state, fluid suffers from the shadow of parallel-plate boundary choked flow
It rings;
(3) laboratory carries out liquid-solid two phase flow experiment by acquisition crack rock sample and can not observe crack endoparticle at present
The concrete condition of migration is only capable of through the judgement of the indirect parameters such as flow, can not carry out phenomenon explanation to flow mechanism.
Therefore it establishes and considers true fracture spaces morphological feature, while meeting well week crack fluid flow state, Yi Jigui
The influence for keeping away parallel-plate boundary is further able to accomplish the visual experimental provision of flow in fracture, for being drilled the research of well crack,
Especially the leakage of Fractured rock stratum leak stopping and reasonable fracturing fluid proppant conceptual design etc. are of great significance.
Patent " a kind of pit shaft and formation fracture Coupled Flow imitative experimental appliance and method " (CN106640061A) is with one
Group seam plate connects simulation wellbore hole and simulated formation and has ignored well for studying the Coupled Flow mechanism between pit shaft and formation fracture
The flowing of all fracture fluids is often Radial Flow, the device can not in simulation fracture and pit shaft fluid Radial Flow process.
Utility model content
The purpose of this utility model is to provide coarse crack liquid-solid two-phase Radial Flow visual Simulation experimental provisions, should
Liquid fixed double phase flow Radial Flow process in the coarse crack of unit simulation can pass through liquid-solid two-phase ratio, mixing in control device
Fluid flow rate, the coarse fracture aperture of simulation and roughness simulate the conditions such as coarse fracture dip to study splitting under different situations
Gap space Radial Flow mechanism.
To reach the above technical purpose, the utility model uses following technical scheme.
Coarse crack liquid-solid two-phase Radial Flow visual Simulation experimental provision, including simulation wellbore running system, simulation
Coarse Fracture System and data collection system.
The simulation wellbore running system includes simulation wellbore, fluid-mixing holding vessel, electric pump, frequency converter and control well
Multiple valves of eye flowing;Electric pump connects fluid-mixing holding vessel and simulation wellbore arrival end;In the fluid-mixing holding vessel
Include stirring motor;The frequency converter is connected on electric pump, to adjust the frequency of electric pump;The control wellbore flows multiple
Valve includes the liquid pressure regulator valve and check valve between electric pump and simulation wellbore entrance.
The described coarse Fracture System of simulation include upper and lower two pieces parallel circular rough transparent resin plates constitute space,
The rack of the shaft and fixed transparent resin plate known with rotation angle scale simulates coarse crack central location connection simulation well
Eye, simulating is high-definition camera above coarse crack.
The data collection system includes fluid-mixing flowmeter, pressure gauge, high-definition camera;Fluid-mixing flowmeter
Between fluid-mixing holding vessel and simulation wellbore;Pressure gauge is between liquid pressure regulator valve and fluid-mixing flowmeter;It is high
Clear position for video camera is above the coarse crack of simulation.
The simulation wellbore is transparent glass tube material, and fluid-mixing is flowed into mould from simulation wellbore outflow, segment fluid flow
Intend in coarse crack, when simulating brill chance crack in drilling process, Radial Flow of the liquid-solid two-phase fluid in well week coarse crack
Process;Electric pump in the simulation wellbore running system is configured with supplying valve and fluid-delivery valve, and being used for will be in fluid-mixing holding vessel
Fluid be pumped into simulation wellbore in.
Liquid pressure regulator valve in the simulation wellbore running system makes for adjusting the mixed-fluid pressure pumped out through electric pump
Its pressure stabilization is not influenced by the vibration of electric pump;Check valve in the simulation wellbore running system is flowed to for controlling fluid,
Fluid-mixing in wellbore is set to be unlikely to blow back into fluid-mixing holding vessel, control fluid flow direction meets during actual well drilled
Fluid flow state.
The method simulated is visualized to coarse crack liquid-solid two-phase Radial Flow using above-mentioned apparatus, successively include with
Lower step:
(1) liquid phase fluid and solid phase particles are added in fluid-mixing holding vessel by proportion as requested, open stirring
Motor power stirs evenly fluid-mixing using stirring motor;
(2) it opens electric pump power supply and adjusts frequency modulator to appropriate frequency, fluid-mixing is passed through by liquid pressure regulation by electric pump
Valve and check valve are pumped into simulation wellbore, are further adjusted liquid pressure regulator valve and are made the mixed-fluid pressure pumped out through electric pump steady
It is fixed;
(3) fluid-mixing simulated in coarse crack is flowed into from simulation wellbore further to flow out from end outlet,
It is flow back into fluid-mixing holding vessel through conveyance conduit, liquid-solid two-phase Radial Flow process in the coarse crack of the process simulation;
(4) open the high-definition camera simulated above coarse crack, after entire flow process is stablized, read pressure gauge and
Fluid-mixing flow count value collects high-definition camera data and carries out data preparation and analysis;
(5) change liquid-solid two-phase ratio, fluid-mixing flow velocity, the coarse fracture aperture of simulation and roughness, simulate coarse split
The conditions such as inclination angle are stitched, step (1) to (4) are repeated, observe the coarse crack liquid-solid two-phase Radial Flow situation under different condition, and
Analysis comparison is carried out to experimental result.
Compared with prior art, the utility model has the beneficial effects that:
(1) slit plate in visual Simulation device described in the utility model be established based on true crack rock sample it is several
What model is simultaneously further carved, and slit plate reduction degree is high, the spatial shape feature with true crack;
(2) visual Simulation unit simulation described in the utility model be well week crack liquid fixed double phase flow Radial Flow mistake
Journey is more in line in Process of Oil Well Drilling, is bored and is met the crack crack Shi Jingzhou fluid flow state, while can be by changing liquid
Gu the conditions such as two-phase proportion, fluid-mixing flow velocity, the coarse fracture aperture of simulation and roughness, the coarse fracture dip of simulation, research
Well week fracture spaces flow mechanism under different situations;
(3) the seam plate material in visual Simulation device described in the utility model uses transparent resin as raw material, can
With the Radial Flow situation in clear view to crack;
(4) visual Simulation apparatus structure described in the utility model is simple, and principle is reliable, easy to operate, cost is low,
Enforcement of going forward side by side can be manufactured extensively to use.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of coarse crack liquid-solid two-phase Radial Flow visual Simulation device.
Fig. 2 is the top view for simulating coarse slit plate.
In figure: 1. fluid-mixing holding vessels;2. stirring motor;3. electric pump;4. frequency modulator;5. liquid pressure regulator valve;6. pressure
Table;7. fluid-mixing flowmeter;8. check valve;9. simulating wellbore;10. simulating coarse slit plate;11. high-definition camera;12. turn
Axis;13. rotation angle scale is known;14. rack.
Specific embodiment
The utility model is described in further detail with reference to the accompanying drawings and examples, but is not intended as to the utility model
It limits.
Referring to Fig. 1, Fig. 2.
Coarse crack liquid-solid two-phase Radial Flow visual Simulation experimental provision is thick by simulation wellbore running system, simulation
Rough Fracture System and data collection system composition.
The simulation wellbore running system include simulation wellbore 9, fluid-mixing holding vessel 1, stirring motor 2, electric pump 3,
Frequency modulator 4, liquid pressure regulator valve 5 and check valve 8;The electric pump 3 connects fluid-mixing holding vessel 1 and simulation 9 arrival end of wellbore;Institute
State setting stirring motor 2 in fluid-mixing holding vessel 1;The frequency modulator 4 is connected on electric pump 3, to adjust the frequency of electric pump;
The liquid pressure regulator valve 5 and check valve 8 are located between electric pump 3 and simulation 9 arrival end of wellbore, to control wellbore flowing.
The coarse Fracture System of simulation includes the mould that the coarse slit plate 10 of upper and lower two pieces of parallel round simulations is constituted
Intend coarse crack, know 13 shaft 12 and the rack 14 of the coarse slit plate of fixed-analog with rotation angle scale, simulates coarse
There is simulation wellbore 9 in crack central location, and simulating above coarse crack has high-definition camera 11.
The data collection system includes fluid-mixing flowmeter 7, pressure gauge 6, high-definition camera 11, fluid-mixing stream
Meter 7 is located between fluid-mixing holding vessel 1 and simulation wellbore 9, and pressure gauge 6 is located at liquid pressure regulator valve 5 and fluid-mixing flow
Between meter 7, high-definition camera 11, which is located at, is simulated above coarse crack.
The simulation wellbore 9 is transparent glass tube, and fluid-mixing is flowed out from simulation wellbore 9, and segment fluid flow is flowed into simulation
In coarse crack, when simulating brill chance crack in drilling process, Radial Flow mistake of the liquid-solid two-phase fluid in well week coarse crack
Journey;The electric pump 3 is configured with supplying valve and fluid-delivery valve, for the fluid in fluid-mixing holding vessel 1 to be pumped into simulation wellbore 9
In.
The coarse slit plate 10 of simulation is carved by transparent resin material based on the geometrical model that true crack rock sample is established
It carves, the spatial shape feature with true crack.
The liquid pressure regulator valve 5 stablizes its pressure not by electric pump for adjusting the mixed-fluid pressure pumped out through electric pump 3
Vibration influence;The check valve 8 makes fluid-mixing in wellbore be unlikely to blow back into fluid-mixing storage for controlling fluid flow direction
It deposits in tank 1, control fluid flow direction meets the fluid flow state during actual well drilled.
The specific steps of progress simulated experiment are visualized such as to coarse crack liquid-solid two-phase Radial Flow using above-mentioned apparatus
Under:
(1) prepare before experiment:
Coarse slit plate 10 is simulated in installation, selects aperture and the inclination angle in certain coarse crack of simulation;Close whole device
All valves;Check whether all appts instrument is working properly;Solid phase particles and liquid phase fluid are mixed according to a certain ratio and are put
Enter into fluid-mixing holding vessel 1.
(2) experimental facilities is opened:
The stirring motor 2 in fluid-mixing holding vessel 1 is opened, fluid-mixing is stirred evenly;Open simulation wellbore flowing
System end valve forms access, then opens electric pump 3 and adjusts frequency modulator 4 to appropriate frequency, makes to simulate wellbore running system shape
Effective circuit is flowed at fluid.
(3) coarse crack liquid-solid two-phase Radial Flow simulated experiment is carried out:
The valve simulated and simulate coarse 10 both ends of slit plate outlet in coarse Fracture System is opened, makes to simulate in wellbore 9
Portion of combined stream body is flowed into the coarse fracture spaces of simulation, is simulated in drilling process, and well week coarse crack when meeting crack is bored
Middle liquid fixed double phase flow Radial Flow process;Liquid pressure regulator valve 5 is adjusted, so that the mixed-fluid pressure pumped out through electric pump 3 is stablized;It beats
The valve of fluid-mixing flowmeter 7 is opened, the valve of fluid-mixing primary flow path is closed, record fluid flows into flow;High definition is opened to take the photograph
Camera 11 records fracture surface Radial Flow situation, while recording the numerical value of high-precision pressure gauge 6;After the completion of experiment, electric pump is closed
With each valve in device, waste liquid is discharged.
(4) interpretation:
The camera shooting data of high-definition camera 11 is collected, what arrangement fluid-mixing flowmeter 7 and high-precision pressure gauge 6 were recorded
Data analyze data.
Claims (4)
1. coarse crack liquid-solid two-phase Radial Flow visual Simulation experimental provision, coarse by simulation wellbore running system, simulation
Fracture System and data collection system composition, which is characterized in that the simulation wellbore running system includes simulation wellbore (9), mixes
Close fluid reservoir (1), stirring motor (2), electric pump (3), frequency modulator (4), liquid pressure regulator valve (5) and check valve (8), the electricity
(3) connection fluid-mixing holding vessel (1) and simulation wellbore (9) arrival end are pumped, setting stirring in the fluid-mixing holding vessel (1)
Motor (2), the frequency modulator (4) are connected on electric pump (3), and the liquid pressure regulator valve (5) and check valve (8) are located at electric pump (3)
Between simulation wellbore (9) arrival end;The coarse Fracture System of simulation, which includes that upper and lower two pieces of parallel round simulations are coarse, to be split
Stitch the coarse crack of simulation, the shaft (12) with rotation angle scale knowledge (13) and the coarse crack of fixed-analog that plate (10) are constituted
The rack (14) of plate, simulating coarse crack central location has simulation wellbore (9);The data collection system includes fluid-mixing stream
Meter (7), pressure gauge (6), high-definition camera (11), fluid-mixing flowmeter (7) are located at fluid-mixing holding vessel (1) and simulation
Between wellbore (9), pressure gauge (6) is located between liquid pressure regulator valve (5) and fluid-mixing flowmeter (7), high-definition camera (11)
Above the coarse crack of simulation.
2. coarse crack liquid-solid two-phase Radial Flow visual Simulation experimental provision as described in claim 1, which is characterized in that
The simulation wellbore (9) is transparent glass tube, and fluid-mixing is flowed out from simulation wellbore (9), and it is coarse that segment fluid flow is flowed into simulation
In crack, Radial Flow process of the simulation liquid-solid two-phase fluid in well week coarse crack.
3. coarse crack liquid-solid two-phase Radial Flow visual Simulation experimental provision as described in claim 1, which is characterized in that
The electric pump (3) is configured with supplying valve and fluid-delivery valve, for the fluid in fluid-mixing holding vessel (1) to be pumped into simulation wellbore
(9) in.
4. coarse crack liquid-solid two-phase Radial Flow visual Simulation experimental provision as described in claim 1, which is characterized in that
The geometrical model that the coarse slit plate (10) of simulation is established by transparent resin material based on true crack rock sample is carved,
Spatial shape feature with true crack.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109209343A (en) * | 2018-11-15 | 2019-01-15 | 西南石油大学 | Coarse crack liquid-solid two-phase Radial Flow visual Simulation experimental provision and method |
CN110924933A (en) * | 2019-11-18 | 2020-03-27 | 中国石油集团川庆钻探工程有限公司 | Visual experiment method for dynamically simulating shale fracturing fracture network |
CN114518311A (en) * | 2022-02-21 | 2022-05-20 | 河北工业大学 | Visual controllable rough single-crack seepage simulation device and use method thereof |
-
2018
- 2018-11-15 CN CN201821881294.3U patent/CN209145582U/en not_active Withdrawn - After Issue
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109209343A (en) * | 2018-11-15 | 2019-01-15 | 西南石油大学 | Coarse crack liquid-solid two-phase Radial Flow visual Simulation experimental provision and method |
CN109209343B (en) * | 2018-11-15 | 2023-09-15 | 西南石油大学 | Visual simulation experiment device and visual simulation experiment method for liquid-solid two-phase radial flow of rough fracture |
CN110924933A (en) * | 2019-11-18 | 2020-03-27 | 中国石油集团川庆钻探工程有限公司 | Visual experiment method for dynamically simulating shale fracturing fracture network |
CN114518311A (en) * | 2022-02-21 | 2022-05-20 | 河北工业大学 | Visual controllable rough single-crack seepage simulation device and use method thereof |
CN114518311B (en) * | 2022-02-21 | 2024-03-26 | 河北工业大学 | Visual simulation device capable of controlling coarse single-crack seepage and application method thereof |
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