CN206601317U - It is a kind of to simulate the experimental provision that deposition influences on different single sand body anisotropism - Google Patents
It is a kind of to simulate the experimental provision that deposition influences on different single sand body anisotropism Download PDFInfo
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- CN206601317U CN206601317U CN201720375177.9U CN201720375177U CN206601317U CN 206601317 U CN206601317 U CN 206601317U CN 201720375177 U CN201720375177 U CN 201720375177U CN 206601317 U CN206601317 U CN 206601317U
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Abstract
The utility model is related to the experimental provision that a kind of simulation deposition of petroleum geology technical field influences on different single sand body anisotropism, and it is mainly made up of hopper, water pump, fluid flowmeter, ball valve, funnel, coarse sand particles, middle sand particle, fine sand grain, silt particle, mixture intake, fan-shaped casing, mixture outlet, liquid-solid two-phase separator, high-speed camera, fluidized bed dryer, sand powder collection bucket and fan-shaped swash plate.Hopper is connected with water pump, fluid flowmeter and ball valve successively, funnel provided with 4 formed objects on the pipeline that ball valve is connected with mixture intake, turned left in this 4 funnels from the right side and be respectively provided with coarse sand particles, middle sand particle, fine sand grain and silt particle, mixture outlet is connected with liquid-solid two-phase separator.The utility model is easy to operate, and what can be removed observes influence of the deposition to different single sand body anisotropism.
Description
Technical field
The utility model is related to a kind of simulation deposition of petroleum geology technical field to different single sand body anisotropism
The experimental provision of influence.
Background technology
Start just there are some petroleum geologists to recognize in 1980s, petroleum resources is distributed in continental basins
It is closely related with river mode of construction.Different deposition carrying sides can occur under the influence of by weather, landforms, material resource etc. for river
Formula, deposition and river course the different parts cutting by current and the difference of packing action intensity along with different single sand bodies,
Cause the difference of river reservoir spread mode.In the research of made ground, research deposition is primarily focused on to sand body
The influence of anisotropism, the modern intrafomational heterogeneity of research, to understanding and grasping the anisotropism rule of reservoir, is predicting reservoir
Feature and waterflooding extraction provide geologic basis.In document:Zhang Qingguo, Bao Zhidong, Song new people, Sun Jiwu Fuyu Oil Fields Fuyu County oil
Layer reservoir single sand body is divided and genetic analysis [J] Petroleum finances, 2008,35 (2):Single sand body is thought in 157-163
Refer to all continuous in itself vertical upper and plane, but have between upper and lower sand body the sand body that mud stone or impermeable break separate.These
Single sand body is deposited in river course by a variety of sand particles and formed, but these depositions receive the flow velocity of water, landform height again
The influence of degree, sand granular size etc., different deposition forms different single sand bodies;If a kind of simulation deposition can be invented to make
Changed with different sand particles are carried out on the experimental provision that different single sand body anisotropism influence by the flow velocity and Terrain Elevation of water
When deposition situation carry out experimental study, this will be significant to the actual geological research in scene.
The content of the invention
The utility model purpose is:The experiment that deposition influences on different single sand body anisotropism is simulated there is provided a kind of
Device.
The technical scheme that the utility model is used is:
The utility model is a kind of to simulate the experimental provision that deposition influences on different single sand body anisotropism, mainly by storing
Tank, water pump, fluid flowmeter, ball valve, funnel, coarse sand particles, middle sand particle, fine sand grain, silt particle, mixture enter
Mouthful, fan-shaped casing, mixture outlet, liquid-solid two-phase separator, high-speed camera, fluidized bed dryer, sand powder collection bucket and
Fan-shaped swash plate composition.Hopper is connected with water pump, fluid flowmeter and ball valve successively, the pipe being connected in ball valve with mixture intake
Turned left in funnel of the road provided with 4 formed objects, this 4 funnels from the right side and be respectively provided with coarse sand particles, middle sand particle, fine sand
Grain and silt particle, mixture outlet are connected with liquid-solid two-phase separator.The mixture intake of fan-shaped casing the right and left and mixed
Compound outlet is that the coarse sand particles particle diameter used in sustained height, experimentation is 1mm, and middle sand grain diameter is 0.25mm,
Fine sand grain particle diameter is 0.125mm, and silt particle particle diameter is 0.0625mm;Fan-shaped casing is using the making of transparent acrylic glass
Into;The fan angle of fan-shaped casing and fan-shaped swash plate is 105 °, and the angle of inclination of fan-shaped swash plate is 5 °.
Advantage of the present utility model:It is simple to operate, the effect that simulation deposition influences on different single sand body anisotropism
Good, experimentation to all sand particles and water recycle again and economized on resources.
Brief description of the drawings
Fig. 1 is a kind of knot for simulating the experimental provision that deposition influences on different single sand body anisotropism of the utility model
Structure schematic diagram.
Fig. 2 be in Fig. 1 after experiment a period of time in fan-shaped casing sand particle distribution schematic diagram.
Fig. 3 is the top view of fan-shaped casing in Fig. 1.
Fig. 4 is the structural representation of fan-shaped swash plate in Fig. 1.
In figure:1. hopper, 2. water pumps, 3. fluid flowmeters, 4. ball valves, 5. funnels, 6. coarse sand particles, sand in 7.
Grain, 8. fine sand grains, 9. silt particles, 10. mixture intakes, 11. fan-shaped casings, 12. mixture outlets, 13. liquid-solid two-phases
Separator, 14. high-speed cameras, 15. fluidized bed dryers, 16. sand powder collection buckets, 17. fan-shaped swash plates.
Embodiment
The utility model is described further below in conjunction with the accompanying drawings.
As shown in figure 1, the utility model is a kind of to simulate the experiment dress that deposition influences on different single sand body anisotropism
Put, mainly by hopper 1, water pump 2, fluid flowmeter 3, ball valve 4, funnel 5, coarse sand particles 6, middle sand particle 7, fine sand grain 8,
Silt particle 9, mixture intake 10, fan-shaped casing 11, mixture outlet 12, liquid-solid two-phase separator 13, high-speed camera 14,
Fluidized bed dryer 15, sand powder collection bucket 16 and fan-shaped swash plate 17 are constituted.Hopper 1 successively with water pump 2, fluid flowmeter 3
It is connected with ball valve 4, the funnel 5 provided with 4 formed objects on the pipeline that ball valve is connected with mixture intake 10, this 4 funnels
Interior turned left from the right side is respectively provided with coarse sand particles 6, middle sand particle 7, fine sand grain 8 and silt particle 9, and mixture outlet 12 is consolidated with liquid
Two phase separator 13 is connected.
As shown in Figure 1, Figure 2, Figure 3, Figure 4, physical simulation process is:Water pump 2 is first turned on, water is flowed out from hopper 1
After sequentially pass through after water pump 2, fluid flowmeter 3 and ball valve 4, enter fan-shaped casing 11 from mixture intake 10, finally from mixing
Thing outlet 12 exits into liquid-solid two-phase separator 13.After after waterflow stabilization, 4 funnels 5 are opened, by coarse sand particles 6, middle sand
Grain 7, fine sand grain 8 and silt particle 9 this 4 kinds of particles are entered after the outflow of funnel 5 together with water by mixture intake 10 respectively
Enter in fan-shaped casing 11, with the gradient flow down of fan-shaped swash plate 17 in the fan-shaped casing 11, during flowing due to
Deposition makes different single sand body particles show different sedimentation states, and many particles enter liquid-solid two-phase with current
Separator 13 carries out liquid-solid two-phase separation, and the water isolated is recycled again into hopper 1, a variety of sand isolated
Particle enters sand powder collection bucket 16 and recycled again after being dried into fluidized bed dryer 15.By changing water
The different single sand body particle of carry out experimental study different in flow rate sedimentation state;By making new fan-shaped casing 11 and changing simultaneously
Become the height of mixture intake 10, mixture outlet 12 and fan-shaped swash plate 17, the angle of inclination of different fan-shaped swash plates 17 can be simulated
Under the conditions of influence of the deposition to different single sand body anisotropism.Remembered in whole experiment process by high-speed camera 14
The infall process and sedimentation state in whole experiment process are recorded, this will be significant to the actual geological research in scene, i.e., whole
Individual simulation process terminates.
Claims (3)
1. a kind of simulate the experimental provision that deposition influences on different single sand body anisotropism, mainly by hopper (1), water pump
(2), fluid flowmeter (3), ball valve (4), funnel (5), coarse sand particles (6), middle sand particle (7), fine sand grain (8), flour sand
Grain (9), mixture intake (10), fan-shaped casing (11), mixture outlet (12), liquid-solid two-phase separator (13), high-speed camera
Machine (14), fluidized bed dryer (15), sand powder collection bucket (16) and fan-shaped swash plate (17) composition, it is characterised in that:Hopper
(1) it is connected successively with water pump (2), fluid flowmeter (3) and ball valve (4), the pipeline being connected in ball valve with mixture intake (10)
Turned left in funnel (5) provided with 4 formed objects, this 4 funnels from the right side and be respectively provided with coarse sand particles (6), middle sand particle
(7), fine sand grain (8) and silt particle (9), mixture outlet (12) are connected with liquid-solid two-phase separator (13).
2. the experimental provision that a kind of simulation deposition according to claim 1 influences on different single sand body anisotropism,
It is characterized in that:The mixture intake (10) and mixture outlet (12) of fan-shaped casing (11) the right and left are sustained height, real
Coarse sand particles (6) particle diameter used in during testing is 1mm, and middle sand particle (7) particle diameter is 0.25mm, fine sand grain (8) particle diameter
For 0.125mm, silt particle (9) particle diameter is 0.0625mm.
3. the experimental provision that a kind of simulation deposition according to claim 1 influences on different single sand body anisotropism,
It is characterized in that:Fan-shaped casing (11) is made using transparent acrylic glass;Fan-shaped casing (11) and fan-shaped swash plate (17)
Fan angle be 105 °, the angle of inclination of fan-shaped swash plate (17) is 5 °.
Priority Applications (1)
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CN201720375177.9U CN206601317U (en) | 2017-04-11 | 2017-04-11 | It is a kind of to simulate the experimental provision that deposition influences on different single sand body anisotropism |
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CN201720375177.9U CN206601317U (en) | 2017-04-11 | 2017-04-11 | It is a kind of to simulate the experimental provision that deposition influences on different single sand body anisotropism |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112945814A (en) * | 2021-04-16 | 2021-06-11 | 武汉理工大学 | Experimental device and using method thereof |
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2017
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112945814A (en) * | 2021-04-16 | 2021-06-11 | 武汉理工大学 | Experimental device and using method thereof |
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CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20171031 Termination date: 20180411 |