CN104155225A - Reservoir penetrating media heat-fluid-solid coupling multi-phase fluid fracturing-seepage pressure chamber - Google Patents

Abstract

The invention discloses a reservoir penetrating media heat-fluid-solid coupling multi-phase fluid fracturing-seepage pressure chamber. The pressure chamber comprises a bottom cover which can be put on a mobile car, wherein an upper seat is connected on the bottom cover via bolts; a guide cover is fixed at the upper end of the upper seat; a pressure lever is arranged in the center of the guide cover in a matching manner; a first water hole and a first air hole are axially formed in the pressure lever in parallel; an upper pressure head is matched with the lower end of the first water hole via threads; a press seat is fixed in the center of the bottom cover; an upright column is fixed on the press seat; a lower pressure head is fixed at the upper end of the upright column; a through outlet hole is formed in the press seat, the upright column and the lower pressure head; a water outlet hole is formed in the bottom cover. The pressure chamber can be used for carrying out more modes of experiments and has higher experimental accuracy.

Description

Reservoir permeating medium hot-fluid heterogeneous fluid pressure break-seepage pressure chamber that is admittedly coupled

Technical field

The present invention relates to a kind of experimental system, particularly relate to a kind of for studying the experimental system of unconventional gas pressure break-extraction synergy mechanism.

Background technology

Along with the continuous progress of economic fast development and human society, large-scale production at present a large amount of conventional energy resources supply utilizing can not be met the need of market day by day, under the Energy situation of this sternness, unconventional gas meter has revealed huge resource potential, and China's unconventional gas resources is very abundant, development prospect is wide, and unconventional rock gas will inevitably become the important sources of future source of energy supply.Unconventional gas reservoir permeability is the physical parameter of reflection reservoir inner fluid seepage flow complexity, contraction, reservoir buried depth, permeating medium structure and the earth electric field etc. of itself and reservoir fracture development characteristics, tectonic structure, terrestrial stress state, hydrodynamic pressure, ground temperature, permeating medium matrix are closely related, and the size of reservoir permeability plays an important role to the distribution that is stored in mining, hydrodynamic pressure of rock gas.Therefore, unconventional gas reservoir and gas reservoir being carried out to the experimental study of mechanics deformation characteristic and seepage characteristic under mining conditions is necessary.

In general, unconventional rock gas comprises compact sandstone gas, coal-seam gas, shale gas and gas hydrate etc.The unconventional natural gas reserves of China is very abundant, and potentiality to be exploited is huge, but complex geologic conditions, buries deeply, and cost of winning is high.In the process of the unconventional rock gas of exploitation, waterfrac treatment is a gordian technique of raising the efficiency, reducing costs.At present, Chinese scholars has started reservoir waterfrac treatment failure mechanism, crack propagation geometric shape and fracture propagation rule have been carried out some researchs.But, owing to lacking the comparatively scientific research of system, relevant waterfrac treatment mechanism scarcity, fails the relevant major parameter that affects fracturing effect to quantize, so this technology has been subject to restriction to a certain degree in the application in unconventional gas reservoir anatonosis field with development.

Existing experimental provision mainly has the following disadvantages: the permeability influence factor of 1) considering is relatively single, can not consider the multiple physical field coupling experiment in stress field, seepage field, temperature field etc.; 2) measure permeability as need, need removal of core to carry out on other experimental facilities, and the crack that now rock core produces because of pressure break can be again closed, can not quantitatively accurately record the variation of original position rock core pressure break front and back permeability; 3) Seepage Experiment carrying out is mostly single water or gas phase Seepage Experiment, can not measure water gas flow separately; 4) can not record the vacuum tightness of test specimen inside, accurate not for there is the experiment of gas absorption; 5) installation process is substantially by manual handling, and inconvenience and process are stable not, and test specimen is had a certain impact.

Therefore, set up a kind of unconventional gas pressure break-Seepage Experiment test macro of science, explore fracture damage and the anatonosis mechanism of reservoir permeating medium under waterfrac treatment effect, significant with popularization to the application of waterfrac treatment.

Summary of the invention

Because the above-mentioned defect of prior art, technical matters to be solved by this invention is to provide a kind of pressure break-seepage flow experiment system that can accurately measure test specimen permeability variation before and after many coupling condition fracturings.

For achieving the above object, the invention provides a kind of reservoir permeating medium hot-fluid heterogeneous fluid pressure break-seepage pressure chamber that is admittedly coupled, comprise the bottom that can be placed on described travelling car; On described bottom, bolt is connected with the seat of honour; The upper end at the described seat of honour is fixed with guide cover;

The center of described guide cover is combined with depression bar; In described depression bar, be arranged with vertically the first water hole and the first pore in parallel; Described the first water hole is positioned at the center of described depression bar;

The lower end threaded engagement in described the first water hole has seaming chuck; The center of described seaming chuck is provided with the second water hole being communicated with described the first water hole; On described seaming chuck, be provided with the second pore that several are communicated with described the first pore;

The lower end threaded engagement in described the second water hole has fracturing head;

The center of described bottom is fixed with wedge; On described wedge, be fixed with column; The upper end of described column is fixed with push-down head; Described push-down head is provided with some the 3rd pores towards test specimen one side;

On described wedge, column and push-down head, be provided with portalling of perforation; Described the 3rd pore with described in portal and be communicated with; On described bottom, be provided with apopore; The described end portalling is connected with the water out adapter of giving vent to anger.

For ease of operation, on described bottom, be fixed with backstay; On described guide cover, be provided with the pilot hole corresponding with described backstay.

The invention has the beneficial effects as follows:

(1) can consider to different reservoir permeating medium the multiple physical field coupling experiment in stress field, seepage field, temperature field etc., comprise the solid coupling experiment of three axial compression contracting Seepage Experiments, waterfrac treatment experiment and multi-phase fluid flow.

(2) owing to having designed waterfrac treatment front and back permeability test macro, therefore can under outside effect of stress, carry out to reservoir permeating medium the permeability of waterfrac treatment front and back and carry out original position Accurate Measurement.

(3) can design respectively hydrodynamic pressure monitoring sensor in test specimen front and back end, thereby make experiment condition more accurate.

(4) can be by the guide cover of different inner diameters is set, thus the size that changes depression bar is to adapt to different sample dimensions.

(5) by design hoisting gear and travelling car, thereby make installation process substantially without manual handling, more intelligent.

In a word, the experiment method that the present invention can carry out is more, and experimental precision is higher.

Brief description of the drawings

Fig. 1 is the structural representation of the embodiment of the invention.

Fig. 2 is the local structure for amplifying schematic diagram at I place in Fig. 1.

Fig. 3 is the local structure for amplifying schematic diagram at II place in Fig. 1.

Fig. 4 is the concrete structural representation of implementing applied experimental system of the present invention one.

Fig. 5 is the export pipeline structural representation of the applied experimental system of the embodiment of the invention.

Embodiment

Below in conjunction with drawings and Examples, the invention will be further described:

As shown in Figure 1 to Figure 3, a kind of reservoir permeating medium hot-fluid heterogeneous fluid pressure break-seepage pressure chamber that is admittedly coupled, comprises the bottom 10 that can be placed on travelling car 3, and on bottom 10, bolt is connected with the seat of honour 11, and the upper end at the seat of honour 11 is fixed with guide cover 12.On bottom 10, be fixed with backstay 13, on guide cover 12, be provided with the pilot hole 12a corresponding with backstay 13.

Guide cover 12 center is combined with depression bar 14, is arranged with vertically the first water hole 14a and the first pore 14b in depression bar 14 in parallel, and the first water hole 14a is positioned at depression bar 14 center.

The lower end threaded engagement of the first water hole 14a has seaming chuck 15, and seaming chuck 15 center is provided with the second water hole 15a being communicated with the first water hole 14a, is provided with the second pore 15b that several are communicated with the first pore 14b on seaming chuck 15.

The lower end threaded engagement of the second water hole 15a has fracturing head 16.

Bottom 10 center is fixed with wedge 17, is fixed with column 18 on wedge 17, and the upper end of column 18 is fixed with push-down head 19, and push-down head 19 is provided with some the 3rd pore 19a towards test specimen one side.

20, the three pores 19 that portal that are provided with perforation on wedge 17, column 18 and push-down head 19 20 are communicated with portalling, and are provided with apopore 9 on bottom 10.20 the end of portalling is connected with the water out adapter 29 of giving vent to anger.

As shown in Figure 4 and Figure 5, above-mentioned pressure chamber can be applied to a kind of reservoir permeating medium hot-fluid heterogeneous fluid pressure break-seepage flow experiment system that is admittedly coupled, this experimental system comprises frame 1, and the bottom of frame 1 is provided with closed slide 2, is provided with travelling car 3 on closed slide 2.

The middle part of frame 1 is fixed with oil cylinder 6, on the piston 6a of oil cylinder 6, is fixed with displacement transducer 7, and the external part of piston 6a is fixed with pressure transducer 8.

Frame 1 is fixed on heating fuel tank 21, is provided with oil temperature sensor 22, heating tube 23 and ebullator 24 in heating fuel tank 21.

Pressure chamber 100 can be placed on the travelling car 3 of bottom of frame 1.

In frame 1, be provided with hoisting gear, hoisting gear comprises lifting speed reduction motor 25, and the power of lifting speed reduction motor 25 is passed to the symmetrically arranged belt wheel 27 of frame top 1 by driving-belt 26.Belt wheel 27 is fixed on drive lead screw 28, and the below to frame 1 of drive lead screw 28 is extended and fixed with the top at the seat of honour 11.Positive stop 4 can be set on drive lead screw, and travel switch 5 is set near screw mandrel, so that automatically control.

Portal and 20 be connected with aqueous vapor separating and measuring system.Aqueous vapor separating and measuring system comprises the T-valve 30 being connected with the water out adapter 29 of giving vent to anger, and T-valve 30 is connected with the first stop valve 31 and the second stop valve 32 simultaneously.

Give vent to anger on the connecting line of water out adapter 29 and T-valve 30 and be connected with pressure transducer 42, pressure transducer 42 is connected with data collecting instrument 37.

The second stop valve 32 is connected with gas-liquid separator 33, and gas-liquid separator 33 is connected with four-way valve 34 simultaneously.

Four-way valve 34 is connected with the 3rd stop valve 35, the 4th stop valve 38 and the 5th stop valve 39, the three stop valves 35 simultaneously and is connected with flowmeter 36, and flowmeter 36 is connected with data collecting instrument 37 simultaneously.The 4th stop valve 38 is connected with vacuum pump 40, and the 5th stop valve 39 is connected with vacuum meter 41, and vacuum meter 41 is connected with data collecting instrument 37.

For warranty test precision, need may occur that gas liquid leakage adopts Sealing Technology everywhere in system.

Above-mentioned experimental system is connected with gas cylinder, the servo supercharger of pump pressure and switch board, can carries out the coal petrography hot-fluid pressure break-Seepage Experiment that is admittedly coupled, concrete steps are as follows:

(1) test material preparation.The sillar of the tight sand of obtaining from scene, shale, raw coal or other reservoir permeating mediums or coal cinder are placed in the wooden case that size is suitable with plastic sheeting good seal, then drill through coal core with corning machine, finally utilize grinding machine the coal core of taking-up to be polished into former rock sample or the former coal sample of Φ 50 × 100mm, and it is placed in to drying in oven.Utilize the test specimen end face of bench drill after oven dry to hole, aperture is Φ 10mm, and hole depth is not less than 30mm.In waterfrac treatment special nozzle epimere smear put it into after high strength adhesive (as AB glue) in test specimen hole and suitably extrusion make its surface of contact smooth, then place and wait to do.

(2) test specimen is installed.First with 704 silicon rubber, test specimen side is smeared to the glue-line of one deck 1mm, after the glue-line of spreading parches completely, by waterfrac treatment special nozzle precession fracturing head 16, and test specimen is placed between seaming chuck 15 and push-down head 19; Make each of test specimen with pressure head respectively in the face of neat, the outside seal of test specimen is first enclosed within to test specimen middle part, heat-shrink tube is evenly blown and tightly makes that itself and test specimen are closely knit to be contacted with hair dryer; Tightly wale respectively the intersection of heat-shrink tube and seaming chuck and depression bar, push-down head with two aglets.The medium position that finally chain type radial displacement transducer is installed on to test specimen, connects data transmission wiring, after test specimen installation, travelling car is playbacked.

(3) installation.By good to the seat of honour of triaxial cell 11 and bottom 10 contrapositions, use the operation switch activated motor 25 of decline cashier's office in a shop, the seat of honour, pressure chamber 11 is fallen, 8 M10 screws in counterbore on fixation pressure chamber are installed, fixedly tighten again 20 of bottoms M30 screw, should first tighten two screws in symmetric position, make the steady contact of lower cover chamber, then tighten other screw; Connection gas, water are answered import and export joint.

(4) control temperature, vacuumize.Use operation rising switch cashier's office in a shop that pressure chamber 100 is mentioned, shift out travelling car, use operation decline switch cashier's office in a shop that pressure chamber is fallen into heating fuel tank 21, set experiment temperature required.Behind location, pressure chamber, on vacuometer 41 tables, set the required vacuum tightness of experiment (as 300Pa), open gas admittance valve 43 and the water intaking valve 44 of upper end, pressure chamber, the vacuum switch that starts switch board starts to start vacuum pump 40, open the 4th stop valve 38 and the 5th stop valve 39 vacuumizes, after experimental system is extracted into desired value, close and open the 4th stop valve 38, the 5th stop valve 39, gas admittance valve 43 and water intaking valve 44, then stop vacuum pump.

(5) inflation adsorption equilibrium.According to initial stress situation, by computer control high-precision servo hydraulic power unit, operating cyloinder 6 moves and applies axial compression to test specimen, simultaneously apply confined pressure to passing into pressure oil in pressure chamber to test specimen, close out the first stop valve 31 and the second stop valve 32, open gas admittance valve 44, regulate the high pressure methane steel cylinder valve of giving vent to anger, keep gas pressure certain, in test specimen, inflate, inflationtime is generally 24h.

(6) measure original permeability.Apply after corresponding axial compression and confined pressure according to the experimental program of formulating (according to parameters such as temperature, gaseous tension, hydraulic pressure or flow, axial compression and the confined pressures of the residing primal environment setting of different rocks experiment), open the second stop valve 32 and the 3rd stop valve 35, and close the first stop valve 31, read the data of flowmeter 36, measure test specimen original permeability.

(7) test specimen waterfrac treatment.Close gas admittance valve 44, the first stop valve 31 and the second stop valve 32, open water intaking valve 43, apply corresponding hydraulic pressure or flow carries out fracture treatment to test specimen by servo supercharger.

(8) permeability after mensuration pressure break.Close water intaking valve 43, open the gas that gas admittance valve 44 passes into relevant pressure, open the second stop valve 32 and the 3rd stop valve 35, and close the first stop valve 31, read data and the collected fluid flow of gas-liquid separator 33 of flowmeter 36, thereby can Accurate Measurement gas flow and fluid flow, so that the post-fracturing permeability of Accurate Determining test specimen.

(9) according to formulated experimental program, regulation experiment condition.Repeat (6)-(8) step according to experimental program.

(10) carry out next round experiment.After experiment is finished, dismounting test specimen, and repeat above step and carry out next round experiment.

According to test needs, test specimen can be made to Φ 100 × 200mm, now, only need to change the guide cover 12 of corresponding internal diameter.

The important technological parameters of above-mentioned experimental system is as follows:

1. maximum axial force: 1000kN

2. dynamometry precision: indicating value ± 1%

3. dynamometry stepping: fluid drive

4. power value control accuracy: indicating value ± 0.5% (precision of voltage regulation)

5. piston maximum displacement: 60mm

6. axial displacement precision: indicating value ± 1%

7. axial control mode: power control, displacement

8. confined pressure range of control: 0～60MPa (AC servo pressurized cylinder mode)

9. confined pressure control accuracy: indicating value ± 1%

10. gas flow (outlet): 0～5L/min

11. test specimen temperature ranges: 0～100 DEG C, temperature fluctuation: ± 1 DEG C

12. gas pressure measurement precision: indicating value ± 1% (adopting 0.1 stage pressure sensor)

13. suctions: 6x10 ^-2pa

Maximum sealing load: the 20MPa of 14. gas circuits

15. axial force experiment control modes: load, displacement closed-loop control, can carry out nothing and impact conversion.

16. experimental waveforms: static state, step loads, program control loading

17. noises :≤72dB

18. general powers: 6kW

19. main frame physical dimension (the wide x of long x is high): 1350x960x2874mm

20. Hydraulic Station physical dimension (the wide x of long x is high): 650x600x750mm

21. gross weight of equipment amount: 1300kg

In above-mentioned experiment, waterfrac treatment and permeability test complete continuously on same equipment, therefore while testing permeability, the crack that rock core produces because of pressure break can be again not closed, and can pass into gas to the first pore 14b while carrying out permeability test, thereby the second pore 15b is to test specimen " face inflation ", thereby the variation that can quantitatively accurately record original position rock core pressure break front and back permeability; And simultaneously accurately discharge and airshed in experiments of measuring, thereby improve experimental precision.

On the other hand, pumped vacuum systems cleverly interests export pipeline, therefore can be more convenient test specimen is vacuumized to processing, and the vacuum tightness of test specimen inside has been carried out to visualization processing, make experiment condition more accurate.

Meanwhile, can circulating pressure monitoring sensor be set in methane steel cylinder exit, be used in conjunction with the pressure transducer 42 in export pipeline, can make experiment condition more accurate.

More than describe preferred embodiment of the present invention in detail.Should be appreciated that those of ordinary skill in the art just can design according to the present invention make many modifications and variations without creative work.Therefore, all technician in the art, all should be in by the determined protection domain of claims under this invention's idea on the basis of existing technology by the available technical scheme of logical analysis, reasoning, or a limited experiment.

Claims (2)

1. reservoir permeating medium hot-fluid heterogeneous fluid pressure break-seepage pressure chamber that is admittedly coupled, is characterized in that: comprise the bottom (10) that can be placed on travelling car (3); The upper bolt of described bottom (10) is connected with the seat of honour (11); The upper end at the described seat of honour (11) is fixed with guide cover (12);

The center of described guide cover (12) is combined with depression bar (14); In described depression bar (14), be arranged with vertically the first water hole (14a) and the first pore (14b) in parallel; Described the first water hole (14a) is positioned at the center of described depression bar (14);

The lower end threaded engagement in described the first water hole (14a) has seaming chuck (15); The center of described seaming chuck (15) is provided with the second water hole (15a) being communicated with described the first water hole (14a); On described seaming chuck (15), be provided with the second pore (15b) that several are communicated with described the first pore (14b);

The lower end threaded engagement in described the second water hole (15a) has fracturing head (16);

The center of described bottom (10) is fixed with wedge (17); On described wedge (17), be fixed with column (18); The upper end of described column (18) is fixed with push-down head (19); Described push-down head (19) is provided with some the 3rd pores (19a) towards test specimen one side;

On described wedge (17), column (18) and push-down head (19), be provided with portal (20) of perforation; Described the 3rd pore (19) with described in portal (20) be communicated with; On described bottom (10), be provided with apopore (9); The end of described portalling (20) is connected with the water out adapter of giving vent to anger (29).

2. reservoir permeating medium hot-fluid as claimed in claim 1 heterogeneous fluid pressure break-seepage pressure chamber that is admittedly coupled, is characterized in that: on described bottom (10), be fixed with backstay (13); On described guide cover (12), be provided with the pilot hole (12a) corresponding with described backstay (13).