CN101761333A

CN101761333A - Multi-functional true triaxial stress cinder heart clamp holder

Info

Publication number: CN101761333A
Application number: CN201010122020A
Authority: CN
Inventors: 田中兰; 余维初; 杨恒林; 胡三清; 汪伟英; 蒋光忠; 黄志强; 岳前升; 肖娜; 胡有林
Original assignee: Yangtze University; CNPC Drilling Research Institute Co Ltd
Current assignee: Yangtze University; CNPC Engineering Technology R&D Co Ltd
Priority date: 2010-03-03
Filing date: 2010-03-03
Publication date: 2010-06-30
Anticipated expiration: 2030-03-03
Also published as: CN101761333B

Abstract

The invention relates to a multi-functional true triaxial stress cinder heart clamp holder, belonging to the technical field of hydrocarbon reservoir and coal bed methane protection and damage assessment. The clamp holder is composed of an X axis pressurizing piston, a left fixed block, a clamp holder barrel, a rubber cylinder, a right plunger piston, a right fixed block, a Y axis pressurizing plunger piston and the like. The left end of the clamp holder barrel is provided with the left fixed block and the X axis screw cover, the right fixed block is provided with the X axis pressurizing plunger piston, the left end of the clamp holder barrel is provided with the right fixed block and the right plunger piston, the rubber cylinder is arranged between the left fixed block and the right fixed block. The clamp holder places a sample into the rubber cylinder, then axial load of X, Y and Z axis is respectively controlled by three force pumps with different pressure, finally fluid permeability experiment can be carried out in the presence of true triaxial stress. Dynamic pollution process of slurry in the drilling process such as underbalance, positive differential pressure, balance and the like can be stimulated when a slurry channel is opened. As a result, the problem that in the existing assessment experiment, false triaxial clamp holder can not load different axial load in three axial directions.

Description

Multi-functional true triaxial stress cinder heart clamp holder

Technical field:

The present invention relates to the multi-functional true triaxial stress cinder heart clamp holder under a kind of simulated oil gas reservoir and the coalbed methane reservoir condition, belong to protection of oil-gas Layer and coal bed gas and damage evaluation tester technical field.

Background technology:

Present Simulation evaluation oil reservoir gas and coal bed gas reserves, and used simulation coal seam coal heart clamp holder in drilling fluid, the evaluation test of completion fluid to the reservoir damage degree in the drilling process, all be based on permeability test under the one dimension confined pressure condition or the permeability test under two-dimentional confined pressure and the axial compression condition.Because the reservoir stress state is not quite similar, also be not quite similar at the formation water square stress that makes progress, so one dimension or two-dimensional stress clamper can not reflect the stress of reservoir and the STRESS VARIATION situation in the recovery process truly, and reservoir permeability is with the variation rule rate of former geostatic stress.Continuous development along with drilling technology, science is the Changing Pattern of the reservoir permeability under the simulated formation stress condition truly, and under true triaxiality state, the dynamic pollution course of mud in the drilling process such as simulation underbalance, positive differential pressure, balance, make reservoir pollution process and seepage flow test process integrated, the stress effect of avoiding the multiple clamping coal sample to produce has become problem demanding prompt solution in oil drilling and the scientific research project.

Summary of the invention:

The objective of the invention is to: a kind of permeability test that is used for reservoir under high-temperature and high-pressure conditions and true condition of triaxial stress is provided, the dynamic pollution course of mud in energy simulated oil gas reservoir and the coalbed methane reservoir environment drilling process, the contaminated degree of overall merit reservoir and the degree of depth; And multi-functional true triaxial stress cinder heart clamp holder simple in structure, easy to operate.

The present invention realizes above-mentioned purpose by the following technical solutions:

A kind of multi-functional true triaxial stress cinder heart clamp holder, it is made up of X-axis gland, left adjusting nut, X-axis pressure plunger, left hold-down nut, left fixed block, clamper cylindrical shell, packing element, hydraulic fill pipeline interface, right plunger, right hold-down nut, right fixed block, right adjusting nut, Y-axis gland, Y-axis pressure plunger, it is characterized in that: the left end of clamper cylindrical shell is fixed with a left fixed block by left hold-down nut, in the fixed block of a left side X-axis pressure plunger is installed, the right-hand member of X-axis pressure plunger is square; The left end of left side fixed block is fixed with an X-axis gland by left adjusting nut, and the central fovea borehole jack of X-axis gland is contained in the left end of X-axis pressure plunger, and the X-axis pressure plunger is connected with the X-axis gland by set screw; The right-hand member of clamper cylindrical shell is fixed with a right fixed block by right hold-down nut, is fixed with right plunger by right adjusting nut in the right fixed block; The packing element that is square inside and outside being equipped with between left side fixed block and the right fixed block, the left end of packing element is sleeved on X-axis pressure plunger and the left fixed block, and the right-hand member of packing element is fixed on the right fixed block.

The upper and lower of described clamper cylindrical shell is equipped with hydraulic fill pipeline interface and phenyl tetrafluoride pad; By bolt the Y-axis gland is installed on the front and back side of clamper cylindrical shell, the Y-axis gland is connected with the Y-axis pressure plunger by extension spring.

Have axial compression pressurization mouth on described X-axis gland, Y-axis gland, the clamper cylindrical shell, X-axis is housed on the axial compression pressurization mouth presses conduit, Y-axis to press conduit and Z axial compression conduit; Have fluid intake on the X-axis pressure plunger, have fluid issuing on the right plunger.

On described clamper cylindrical shell, left fixed block, X-axis gland, the right fixed block alignment pin is installed.

On described X-axis pressure plunger, left fixed block, right fixed block, right plunger, Y-axis gland, the Y-axis pressure plunger O RunddichtringO is housed; On described X-axis gland, left fixed block, right fixed block, the right plunger jump ring is housed.

The present invention's beneficial effect compared with prior art is:

This multi-functional true triaxial stress cinder heart clamp holder is packed laboratory sample into behind the packing element, connect three compression pumps respectively by the axial compression conduit, the axial compression of X-axis, Y-axis, Z axle is by three compression pump controls, three axial compressions can be different, can carry out the fluid permeability test experiments under the true condition of triaxial stress, realize the triaxial stress cinder heart experiment of reservoir sample truly.And after right plunger withdrawed from certain distance, open slurry channel, be used under the true three-dimensional pressure state, the dynamic pollution course of mud in the drilling process such as simulation underbalance, positive differential pressure, balance, make reservoir pollution process and seepage flow test process integrated, avoid the multiple clamping coal sample to produce stress effect.Solved in the present evaluation experimental three clampers of puppet commonly used and can not overcome the defective that fluid displacement experiment, mud contamination test, gas-liquid two-phase displacement experiment will carry out separately three problems that load different axial compressions on axially.Energy authentic assessment reservoir changes in permeability rule rate under true condition of triaxial stress, and easy to operate, be suitable for flexibly.

Description of drawings:

Fig. 1 is the X-direction structural representation of multi-functional true triaxial stress cinder heart clamp holder;

Fig. 2 is the Y direction structural representation of multi-functional true triaxial stress cinder heart clamp holder.

Among the figure: 1, X-axis is pressed conduit, 2, fluid intake, 3, the X-axis gland, 4, the axle jump ring, 5, left side adjusting nut, 6, the O RunddichtringO, 7, the X-axis pressure plunger, 8, left side hold-down nut, 9, left side fixed block, 10, set screw, 11, alignment pin, 12, the clamper cylindrical shell, 13, packing element, 14, sample, 15, the hydraulic fill pipeline interface, 16, phenyl tetrafluoride pad, 17, right plunger, 18, right hold-down nut, 19, right fixed block, 20, right adjusting nut, 21, fluid issuing, 22, Y-axis is pressed conduit, 23, bolt, 24, the Y-axis gland, 25, the Y-axis pressure plunger, 26, Z axial compression conduit, 27, extension spring.

The specific embodiment:

This multi-functional true triaxial stress cinder heart clamp holder is made up of X-axis gland 3, left adjusting nut 5, X-axis pressure plunger 7, left hold-down nut 8, left fixed block 9, clamper cylindrical shell 12, packing element 13, hydraulic fill pipeline interface 15, right plunger 17, right hold-down nut 18, right fixed block 19, right adjusting nut 20, Y-axis gland 24, Y-axis pressure plunger 25.The left end of clamper cylindrical shell 12 is fixed with a left fixed block 9 by left hold-down nut 8, in the left fixed block 9 X-axis pressure plunger 7 is installed, and the right-hand member of X-axis pressure plunger 7 is square.The left end of left side fixed block 9 is fixed with an X-axis gland 3 by left adjusting nut 5, and the central fovea borehole jack of X-axis gland 3 is contained in the left end of X-axis pressure plunger 7, and X-axis pressure plunger 7 is connected with X-axis gland 3 by set screw 10.The right-hand member of clamper cylindrical shell 12 is equipped with a right fixed block 19 by right hold-down nut 18, by right adjusting nut 20 right plunger 17 is housed in the right fixed block 19; Right plunger 17 carries out left and right adjusting by right adjusting nut 20, moves by left and right adjusting, can realize opening or closing the function of mud contamination passage.The packing element 13 that is square inside and outside being equipped with between left side fixed block 9 and the right fixed block 19, the left end of packing element 13 is sleeved on X-axis pressure plunger 7 and the left fixed block 9, and the right-hand member of packing element 13 is fixed on the right fixed block 19.

The upper and lower of clamper cylindrical shell 12 is equipped with hydraulic fill pipeline interface 15, hydraulic fill pipeline interface 15 is by

phenyl tetrafluoride pad

16 and 12 sealings of clamper cylindrical shell, hydraulic fill pipeline interface 15 communicates with garden shape passage on the right fixed block 19, when right plunger 17 moved right the regulation displacement, the hydraulic fill pipeline interface 15 of upper and lower formed a complete access way.

By bolt 23 Y-axis gland 24 is installed on the front and back side of clamper cylindrical shell 12, Y-axis gland 24 is connected with Y-axis pressure plunger 25 by extension spring 27, and extension spring 27 can guarantee to reset behind Y-axis axial compression venting, and the sample of being convenient to test 14 takes out from packing element 13.

Have axial compression pressurization mouth on X-axis gland 3, Y-axis gland 24, the clamper cylindrical shell 12, X-axis is housed on the axial compression pressurization mouth presses conduit 1, Y-axis to press conduit 22 and Z axial compression conduit 26, and press conduit 1, Y-axis to press conduit 22, Z axial compression conduit 26 to be connected with axial compression force (forcing) pump (not drawing among the figure) respectively by X-axis.Have fluid intake 2 on the X-axis pressure plunger 7, have fluid issuing 21 on the right plunger 17, fluid intake 2 is connected with the outlet measuring container with the injection container by pipeline respectively with fluid issuing 21.

Be separately installed with alignment pin 11 on clamper cylindrical shell 12, left fixed block 9, X-axis gland 3, the right fixed block 19; By the set screw 10 on alignment pin 11 and the X-axis pressure plunger 7, can guarantee X-direction (or the clamper axial direction) unanimity of left fixed block 9, X-axis gland 3, X-axis pressure plunger 7, right fixed block 19.

On X-axis pressure plunger 7, left fixed block 9, right fixed block 19, right plunger 17, Y-axis gland 24, the Y-axis pressure plunger 25 O RunddichtringO 6 is housed respectively, can forms convenient and swift effective seal by corresponding O RunddichtringO 6.The axle jump ring 4 of corresponding size is housed respectively on X-axis gland 3, left fixed block 9, right fixed block 19, the right plunger 17, prevents its axial play.

During experiment, laboratory sample 14 is packed in the packing element 13, the X-axis of packing into pressure plunger 7 and X-axis gland 3, pack into and hold out against right plunger 17, press conduit 1, Y-axis to press conduit 22, Z axial compression conduit 26 to be connected with the axial compression force (forcing) pump respectively X-axis, fluid intake 2 is connected with the outlet measuring container with the injection container by pipeline respectively with fluid issuing 21.After Z had axially loaded pressure, packing element 13 formed effectively sealing with left fixed block 9, right fixed block 19; The sample 14 of experiment contacts with right fixed block 19, presses conduit 1 to add X-axis for X-axis pressure plunger 7 by the X-axis on the X-axis gland 3 again and presses, and presses conduit 22 to add Y-axis for Y-axis pressure plunger 25 by the Y-axis on the Y-axis gland 24 and presses, add the Z axial compression by Z axial compression conduit 26.The axial compression of X-axis, Y-axis, Z axle is by three axial compression force (forcing) pump controls, and three axial compressions can be inequality, can carry out the fluid permeability test experiments under the true triaxial stress cinder heart condition.

Right plunger 17 is withdrawed from certain distance, open slurry channel, be used under the true three-dimensional pressure state, the dynamic pollution course of mud in the drilling process such as simulation underbalance, positive differential pressure, balance, make reservoir pollution process and seepage flow test process integrated, avoid the multiple clamping coal sample to produce stress effect.Solved in the present evaluation experimental three clampers of puppet commonly used and can not overcome the defective that fluid displacement experiment, mud contamination test, gas-liquid two-phase displacement experiment will carry out separately three problems that load different axial compressions on axially.Energy authentic assessment reservoir changes in permeability rule rate under true condition of triaxial stress, and easy to operate, be suitable for flexibly.

Claims

1. multi-functional true triaxial stress cinder heart clamp holder, it is by X-axis gland (3), left side adjusting nut (5), X-axis pressure plunger (7), left side hold-down nut (8), left side fixed block (9), clamper cylindrical shell (12), packing element (13), hydraulic fill pipeline interface (15), right plunger (17), right hold-down nut (18), right fixed block (19), right adjusting nut (20), Y-axis gland (24), Y-axis pressure plunger (25) is formed, it is characterized in that: the left end of clamper cylindrical shell (12) is fixed with a left fixed block (9) by left hold-down nut (8), in the left side fixed block (9) X-axis pressure plunger (7) is installed, the right-hand member of X-axis pressure plunger (7) is square; The left end of left side fixed block (9) is fixed with an X-axis gland (3) by left adjusting nut (5), and the central fovea borehole jack of X-axis gland (3) is contained in the left end of X-axis pressure plunger (7), and X-axis pressure plunger (7) is connected with X-axis gland (3) by set screw (10); The right-hand member of clamper cylindrical shell (12) is fixed with a right fixed block (19) by right hold-down nut (18), is fixed with right plunger (17) by right adjusting nut (20) in the right fixed block (19); The packing element (13) that is square inside and outside being equipped with between left side fixed block (9) and the right fixed block (19), the left end of packing element (13) is sleeved on X-axis pressure plunger (7) and the left fixed block (9), and the right-hand member of packing element (13) is fixed on the right fixed block (19).

2. multi-functional true triaxial stress cinder heart clamp holder according to claim 1 is characterized in that: the upper and lower of described clamper cylindrical shell (12) is equipped with hydraulic fill pipeline interface (15) and phenyl tetrafluoride pad (16); By bolt Y-axis gland (24) is installed on the front and back side of clamper cylindrical shell (12), Y-axis gland (24) is connected with Y-axis pressure plunger (25) by extension spring (27).

3. multi-functional true triaxial stress cinder heart clamp holder according to claim 1, it is characterized in that: have axial compression pressurization mouth on described X-axis gland (3), Y-axis gland (24), the clamper cylindrical shell (12), X-axis is housed on the axial compression pressurization mouth presses conduit (1), Y-axis to press conduit (22) and Z axial compression conduit (26); Have fluid intake (2) on the X-axis pressure plunger (7), have fluid issuing (21) on the right plunger (17).

4. multi-functional true triaxial stress cinder heart clamp holder according to claim 1 is characterized in that: on described clamper cylindrical shell (12), left fixed block (9), X-axis gland (3), the right fixed block (19) alignment pin (11) is installed.

5. multi-functional true triaxial stress cinder heart clamp holder according to claim 1 is characterized in that: on described X-axis pressure plunger (7), left fixed block (9), right fixed block (19), right plunger (17), Y-axis gland (24), the Y-axis pressure plunger (25) O RunddichtringO (6) is housed; On described X-axis gland (3), left fixed block (9), right fixed block (19), the right plunger (17) jump ring (4) is housed.