CN204729127U - Sand control pack device - Google Patents
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- CN204729127U CN204729127U CN201520091221.4U CN201520091221U CN204729127U CN 204729127 U CN204729127 U CN 204729127U CN 201520091221 U CN201520091221 U CN 201520091221U CN 204729127 U CN204729127 U CN 204729127U
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Abstract
The utility model relates to a kind of sand control pack device, comprising: fluid reservoir group, for being provided for the liquid material of sand control to fracturing blender truck; Sand tank group, for being provided for the sand material of sand control to described fracturing blender truck; Described fracturing blender truck, is connected with described fluid reservoir group and sand tank group, for by the liquid material from described fluid reservoir group with mix from the sand material of described sand tank group, obtains sand control pack material; And pump group, be connected with described fracturing blender truck, for described filling anti-sand material is pumped in well.The device provided by the utility model carries out sand control process, can formation damage, reduce casing damage, and sand control is efficient up to more than 95%.
Description
Technical field
The utility model relates to oilfield drilling field of engineering technology, particularly relates to a kind of sand control pack device.
Background technology
In petroleum industry, shaking out in oil well production process is the problem of a generality.Common limit (end) portion shown in Fig. 1 that comprises that shakes out comes off and shakes out, and the reservoir inside shown in Fig. 2 shakes out.
Wherein limit (end) portion shakes out and is mainly reflected in the following aspects.
1, weak cementing (poor diagenetic grade) sandstone storage shakes out.This situation loses support force due to the circumocular limit of big gun (end) portion basement rock usually, and surperficial sand grains easily departs from matrix and shakes out under the effect of external force.Find expression in new well to shake out more.
2, cement destroys and causes sandstone reservoir to shake out.Because cement is to the reservoir of water sensitive, understands and reduce cementing strength because of the moisture raising of producing well production fluid, cause the circumocular limit of big gun (end) portion basement rock to lose support force equally, thus surperficial sand grains departs from matrix and shakes out under the effect of external force.The old well finding expression in water flood recovery shakes out more, and acidifying, shaking out after basic treatment.
3, high strength shearing sandstone storage shakes out.When adopting excessive producing pressure differential, the basement rock of near wellbore zone shears stressed can increase, and limit (end) the portion basement rock of reservoir is washed destruction, and surperficial sand grains will be caused to depart from matrix and shake out.Newly, therefore old well all can shake out.
Reservoir inside shakes out and is mainly reflected in the following aspects.
1, free sand (clay particle) migration is shaked out: have neither part nor lot in the cementing grains of sand, clay particle in stratum and produce migration under the effect of formation fluid, strata structure percolation ability is reduced, thus increase fluid pull power, bring out the output of solid phase particles, and be plucked out of producing well and shake out.This type of well is extremely rare.Production fluid is muddy.
2, load bearing solids (clay particle) migration that comes off is shaked out: under larger producing pressure differential, be easy to cause rock stratum near shaft bottom to destroy.The free sand (clay particle) departing from rock matrix matrix produces migration under the effect of formation fluid, and is plucked out of producing well and shakes out.The migration of load bearing solids will make strata structure reduce, and percolation ability reduces, thus increase the drag force of fluid, and can bring out the output of solid phase particles.This type of well is comparatively common.
Shake out can cause down-hole, wellhead tree equipment abrasion and corrosion, make well unstability, wearing and tearing pump barrel and plunger, reduces pump efficiency, finally causes oil well reduce or stop production.
The sand control technique extensively adopted at present is divided into chemical sand control and mechanical sand control two class.Chemical sand control is usually comparatively large to reservoir injury, and permeability loss is also very large.The general principle of mechanical sand control is the row of returning stopping reservoir sand by filling layer of sand, and wire-wrapped screen stops the row of returning of institute's back-up sand.But gravel pack is limited in scope, the seam of screen casing or sieve aperture do not allow again too little (too little can affect fuel-displaced amount), stop incessantly ultra-fine sand therefore at all, and under larger producing pressure differential, the sand of institute's filling also easily returns and ejects.Said method all can not solve the unsteady problem of reservoir structure.
Utility model content
Technical problem
In view of this, the technical problems to be solved in the utility model is to provide a kind of sand control pack device, come off for limit (end) portion in above-mentioned prior art and shake out and the inner problem of shaking out of reservoir, filling is carried out in well by sand control pack device, effectively can stablize reservoir structure, prevent from shaking out.
Solution
In order to solve the problems of the technologies described above, according to an embodiment of the present utility model, provide a kind of sand control pack device, comprising: fluid reservoir group, for being provided for the liquid material of sand control to fracturing blender truck;
Sand tank group, for being provided for the sand material of sand control to described fracturing blender truck;
Described fracturing blender truck, is connected with described fluid reservoir group and sand tank group, for by the liquid material from described fluid reservoir group with mix from the sand material of described sand tank group, obtains sand control pack material; And
Pump group, is connected with described fracturing blender truck, for being pumped in well by described filling anti-sand material.
For above-mentioned sand control pack device, in a kind of possible implementation, described fluid reservoir group comprises four fluid reservoirs, is respectively used to provide prepad fluid, load fluid, pore-foaming agent and displacement fluid to described fracturing blender truck.
For above-mentioned sand control pack device, in a kind of possible implementation, described fluid reservoir is connected to described fracturing blender truck respectively by valve.
For above-mentioned sand control pack device, in a kind of possible implementation, the volume of described fluid reservoir is 130m
3-300m
3.
For above-mentioned sand control pack device, in a kind of possible implementation, described sand tank group comprises at least two sand tanks, and described sand tank is connected to described fracturing blender truck respectively by valve.
For above-mentioned sand control pack device, in a kind of possible implementation, described pump group comprises low-lift pump group and high-pressure pump group, and described low-lift pump group is connected to fracturing blender truck, and described high-pressure pump group is connected to well head.
For above-mentioned sand control pack device, in a kind of possible implementation, described high-pressure pump group comprises at least four high-pressure pumps, and described four high-pressure pumps combinationally use the power that can provide different pressures.
For above-mentioned sand control pack device, in a kind of possible implementation, also comprise high pressure pipe joint, be connected with described high-pressure pump, the sand control pack material from described high-pressure pump is collected and sends in well.
Beneficial effect
The sand control pack device provided by the utility model embodiment carries out filling anti-sand process to sand output well, and compared with currently available technology, the utility model has following beneficial effect:
1, establish the good artificial borehole wall of permeability near wellbore zone, the skin factor on stratum, near wellbore zone can be reduced, neighbouring geostatic stress is redistributed, formation damage, reduce casing damage;
2, efficient solution is except formation blockage, improves the nearly well flow conductivity of in-place permeability and stratum, not only sand control but also increase production;
3, solve the sand control problem that can not use screen casing well, do not affect by construction well layer number, thickness, span and the straight inclined shaft that cover change is arranged at oil reservoir top, oil reservoir position cover becomes of sand washing can be completed;
4, do not stay any instrument in pit shaft after sand control process, ensure the clean of pit shaft;
5, sand control is efficient up to more than 95%, is valid up to 3 ~ 10 years.
According to below with reference to the accompanying drawings to detailed description of illustrative embodiments, further feature of the present utility model and aspect will become clear.
Accompanying drawing explanation
Comprise in the description and form the accompanying drawing of a part for manual and manual together illustrates exemplary embodiment of the present utility model, characteristic sum aspect, and for explaining principle of the present utility model.
Fig. 1 illustrates that limit in prior art (end) portion comes off the schematic diagram shaked out;
Fig. 2 illustrates the schematic diagram that in prior art, reservoir inside shakes out;
Fig. 3 illustrates the structured flowchart of the sand control pack device of the utility model one embodiment;
Fig. 4 illustrates the flow chart of the sand control pack method of the utility model one embodiment;
Fig. 5 illustrates the schematic diagram of the filling wall building of the utility model one embodiment;
Fig. 6 illustrates the schematic diagram of the filling wall building of the utility model one embodiment;
Fig. 7 illustrates the schematic diagram of the brill plug according to the utility model one embodiment;
Fig. 8 illustrates the schematic diagram of the operation according to the utility model one embodiment;
Fig. 9 illustrates that the schematic diagram of process is filled in the supersaturation according to the utility model one embodiment.
Detailed description of the invention
Various exemplary embodiment of the present utility model, characteristic sum aspect is described in detail below with reference to accompanying drawing.The same or analogous element of Reference numeral presentation function identical in accompanying drawing.Although the various aspects of embodiment shown in the drawings, unless otherwise indicated, accompanying drawing need not be drawn in proportion.
Word " exemplary " special here means " as example, embodiment or illustrative ".Here need not be interpreted as being better than or being better than other embodiment as any embodiment illustrated by " exemplary ".
In addition, in order to better the utility model is described, in detailed description of the invention hereafter, give numerous details.It will be appreciated by those skilled in the art that do not have some detail, the utility model can be implemented equally.In some instances, the method known for those skilled in the art, means, element and circuit are not described in detail, so that highlight purport of the present utility model.
The sand control pack device that the utility model provides, applicable well does not comprise: oil well, well and gas well; The well type be suitable for comprises: straight well, inclined shaft, horizontal well and window sidetracking well; The hole condition be suitable for comprises: (1) casing deformation well: oil pipe can safety casing deformation well section; (2) overlap blind hole: oil reservoir top can lower packet, in oil reservoir and bottom can normal construction; (3) low hot-well: bottom hole temperature (BHT) is low to moderate 20 DEG C of same sand control successes.
Fig. 3 illustrates the structured flowchart of the sand control pack device according to the utility model one embodiment.As shown in Figure 3, this sand control pack device 100 mainly comprises: fluid reservoir group 10, sand tank group 20, fracturing blender truck 30 and pump group 40.
Wherein, fluid reservoir group 10 is connected with fracturing blender truck 30, and carries liquid material to fracturing blender truck 30; Sand tank group 20 is also connected with fracturing blender truck 30, and carries sand material to fracturing blender truck 30; Filling anti-sand material for the liquid material received and sand material are mixed into filling anti-sand material, and is delivered to pump group 40 by fracturing blender truck 30, and pump group 40 is connected with well head, pumps in well for the filling anti-sand material high pressure carried by fracturing blender truck 30.
Particularly, the fluid reservoir group 10 in the present embodiment comprises four fluid reservoirs, is respectively preposition flow container 101, is provided for the prepad fluid cleaning nearly well contaminated zone; Load fluid tank 102, is provided for the load fluid nearly well area in debt being carried out to filling, wherein can carries the precoated sand as filler in load fluid; Pore-foaming agent tank 103, provides pore-foaming agent, and in a kind of possible implementation, pore-foaming agent can form the resistance sand barrier with high strength, high osmosis; And replace flow container 104, for providing displacement fluid, in a kind of possible implementation, displacement fluid is for improving load fluid efficiency and preventing pit shaft sand setting.The volume of each fluid reservoir is 130m
3-300m
3.Four fluid reservoirs are connected to fracturing blender truck 30 respectively by respective valve, in actual applications, need which kind of liquid material, just open the valve of corresponding fluid reservoir.
Sand tank group 20 comprises the first sand tank 201 and the second sand tank 202, is connected to fracturing blender truck 30 respectively by respective valve.In a kind of possible implementation, the first sand tank 201 and the second sand tank 202 are respectively used to the sand material providing different size, and in the implementation that another kind is possible, the second sand tank 202 is as the slack tank of the first sand tank 201.Sand tank group 20 can also be mixing sand tank.
Pump group 40 comprises low-lift pump group 401 and high-pressure pump group 402, and wherein fracturing blender truck 30 is connected to low-lift pump group 401, and low-lift pump group 401 is connected to high-pressure pump group 402, and high-pressure pump group 402 is connected to well head.Further, high-pressure pump group 402 can comprise four high-pressure pumps, is respectively used to the pressure that pumping in well is different, or different materials.Such as by the combination of multiple pump, higher discharge pressure can be improved.The number of high-pressure pump is also not limited to four, can adjust according to actual needs.
Further, this sand control pack device 100 also comprises high pressure pipe joint 50, and all high-pressure pumps are all connected to well head by high pressure pipe joint.
As shown in Figure 4, be the flow chart of the sand control pack method that the utility model embodiment provides, shown in composition graphs 5 and Fig. 6, the method comprises:
Step S11, cleaning step: when bottom pressure is lower than formation fracture pressure, pump into appropriate flushing prepad fluid by pump group to huge discharge in well, utilize hydraulic blow energy, rinse the contaminated zone of nearly well;
Prepad fluid in the present embodiment is generally the Oil layer protective solution having and press down grittiness, by adopting prepad fluid to rinse contaminated zone, can remove the pollution of near wellbore zone.
Particularly, the sand control pack device using the present embodiment to provide, opens the valve of the first fluid reservoir, is pumped in well by prepad fluid and rinse.
Step S12, filling step: adopt and carry the load fluid of precoated sand, toward the nearly well deficit area filling after rinsing, and by the filling of TSOP fracturing technology this in debt bring to saturated;
In stratum, near wellbore zone produces in debt because shaking out, and the rock surface of band in debt loses and supports and be easy to come off.The present embodiment carries out filling to this area in debt.
Particularly, the sand control pack device using the present embodiment to provide, opens the valve of preposition flow container, is pumped in well by prepad fluid and rinse.
Step S13, consolidation step: sand is consolidation in formation depletion place and pit shaft, form the high osmosis sand wall with enabling capabilities.
Back-up sand wall after consolidation, support rock surface, can avoid comes off shakes out.In a kind of possible implementation, need closing well Hou Ning.
Step S14, brill plug step: bore sand plugs all in well.
Shown in composition graphs 7, at the end of the TSOP fracturing of step S12, leave the containing consolidated sand post of certain altitude in pit shaft bottom, can fall by gear wheel or PDC bit drills, drilling speed 20 ~ 30m/h.
After the sand control pack process of above-mentioned steps, the outer newly-established sand wall permeability 8 ~ 28um of pit shaft
2.
Step S15, lower pump are gone into operation.
Shown in composition graphs 8, after brill plug terminates, pump is directly descended to go into operation.Through above-mentioned sand control pack process, under pump, do not need any instruments being similar to sand control such as sieve clinging pipe.
Shown in composition graphs 9, be the flow chart of the supersaturation filling anti-sand method that another embodiment of the utility model provides, the method comprises the following steps:
Step S21, stratum are weak cementing: weak consolidated formation is under the effect of high-pressure fluid, and generation is advanced by leaps and bounds, and filling can agglutination sand;
Step S22, pressure break: exceeding under formation fracture pressure condition, manufacture crack, and filling can agglutination sand;
By filling and the frac treatment of above-mentioned steps, liquid-producing capacity can be improved;
Step S23, reduction cementing strength: use acid solution to destroy formation cementation thing, increase the permeability on nearly well filling leading edge stratum;
Set up by filling and support, acidifying can improve liquid-producing capacity.By supersaturation filling, make crag leading edge away from pit shaft, production fluid flow velocity reduces, and can effectively suppress reservoir inside to shake out.
This placement method, than brill plug and operation method, does pressure break or acidizing pretreatment, can reach the object of volume increase further before taking sand.
The method and apparatus that the present embodiment provides also has carried out use and experimental verification in multiple oil field, specifically describes as follows.
example one
The sand output well oil reservoir in Dagang Oilfield southern oil district physically well develops, and series of strata are many, and span is generally between 6.0m ~ 200m, oil reservoir is thick, and thickness 5m ~ 100m penetrated out by most of well, shakes out more serious, the well of 90% has cover to become, the broken phenomenon of cover, and this area shakes out particle diameter between 0.05mm ~ 0.1mm.The operation initial stage, once chemical consolidated sand sand control was carried out, sand screen sand control, metal Wire wound tube sand control, all come to an end because period of validity is short and sand controlling result poor, calendar year 2001 once introduced laser slotted screen pipe high pressure primary filling sand control, but the maximum deficiency of this construction technology is that this area's sand output well well section span is very large, during construction, one is because well section span is large, causes back-up sand between well section uneven, causes sand control failure; Two is that sand control failure post processing workload is large.For above situation, the method that South Dagang oil district finally adopts the present embodiment to provide carries out sand control.Master data in sand control process is described by following table 1-4.
Table 1: South Dagang oil district's sand proof well master data and Contrast on effect
Table 2: the master data contrast of the well in table 1 before and after sand control
Table 3: South Dagang oil district's sand proof well master data and Contrast on effect
Table 4: the master data contrast of the well in table 3 before and after sand control
To construct altogether 31 mouthfuls of wells, wherein sidetracking sand proof well 3 mouthfuls at Dagang Oilfield, one-time success rate 94%, success after 2 mouthfuls of well constructions twice.The sand controlling result that each well is current is above still effective.
example two
The main sand output well of Shengli Oil Field great Ming Jibei company is on bent 9 fault blocks, and Guantao group is major oil reservoir, oil in place 5,720,000 tons, within 96 years, find and develop, buried depth of strata 1150 ~ 1250m, formation cementation is loose especially, reservoir sand average particle intermediate value 0.1mm, average shale content 24%, permeability 69 ~ 541 millidarcy, average pore 27%, viscosity of crude 1300mP.s, smectite content 90% in clay mineral, water sensitivity is strong.Formation blockage is shaked out seriously, and interlayer difference is large, and sorting is poor, the operation initial stage carried out fracturing sand control, underground synthesis sand control etc., cause near wellbore zone in debt serious, some oil wells has occurred that cover becomes, cover is broken, and the method that rear employing the present embodiment provides carries out filling anti-sand.
Table 5: Shengli Oil Field sand control master data and sand controlling result contrast
Table 6: the master data contrast of the well in table 5 before and after sand control
example three
Under literary composition 38 fault block S2, the main oil-bearing layer of oil reservoir is 1-3 sand group under S2, oil area 1.2km2, petroleum-in-place 8.3 × 104t, recoverable reserves 21 × 104t, oil reservoir buried depth 2200-2500m, oil reservoir average effective caliper 6m.Lithology is that sepia contains argillaceous siltstoue, 0.067mm in granularity, shale content 11.7%, carbonate content 11.7%, oil reservoir degree of porosity 18.8%, permeability 179.8md, interlayer permeability grade is also comparatively large, and formation water salinity is 31 × 104mg/1, and water type is CaCl2.June calendar year 2001, at 38 pieces of newly-increased 3 oral replacement wells (new civilian 38-33 well, new civilian 38-15 well, new civilian 38-1 well), 28 days-July 17 June calendar year 2001 is to new civilian 38-33, the filling anti-sand technique that new civilian 38-15 two mouthfuls of wells adopt the present embodiment to provide, namely PCS technique carries out sand control, new civilian 38-33 well-10 daily test pumps on April 7th, 2004 once, new civilian 38-15 well in May, 2002, in May, 2003,11 monthly test pump pressure measurement in 2003 find no sand, and solid sand successful is described.Disconnected scrapping frustrated by the new civilian 38-18 well sleeve pipe that to shake out in April, 2004.Carry only at present, new civilian 38-33 well is produced and is remained valid for 1032 days, production fluid 9354t, produce oil 4106.8t.New civilian 38-15 well is produced and is remained valid for 1027 days, production fluid 8154.3t, produce oil 5214.7t.
example four
Kutuerzhebie Oilfield is positioned at the Turkmenistan republic west and south, is under the jurisdiction of state, Balkan Nie Bidake area.The long 36KM of structure scope, east-west wide 16KM.A layer oil reservoir belongs to shallow-layer loose sand oil accumulation, shale content is higher, and oil reservoir mostly is Extra-fine sand rock, shakes out serious, a layer gross thickness 200 ~ 250m, core intersection 100 ~ 125m, reservoir porosity 18.4 ~ 28.8%, permeability is 50 ~ 200 × 10-3um2, viscosity of crude 2.0mPa.S, proportion 0.84 ~ 0.88g/L, stratum reset pressure is higher, belongs to the saturating oil reservoir of high pressure low permeability of easily shaking out.Adopt primary oil recovery, the mechanical oil production model of continuous gas lift.To construct altogether 63 mouthfuls of wells at Kutuerzhebie Oilfield up to now, wherein sidetracking bore hole punching screen sand control completion 46 mouthfuls, one-time success rate 98%.
Table 7: Kutuerzhebie Oilfield sand control master data
example five
Other 1281 wells of Tours, storehouse wise man, this well is for salvaging screen casing, the sidetracking because of accident.
Sidetracking: wear away to cause to 1509m place and window, purify waste water about 2600m3 in leakage oil field, after change into and wash vertebra sidetracking.Do drilling fluid with membrane technology salting liquid, wash bradawl to 1568m with 138mm, drill oil reservoir 59m (effective 33m).Carry out the PCS sand control that the present embodiment provides, operation pressure rises to 12.5MPa by 8.0MPa simultaneously, inserts precoated sand 19m3.
Completion: the hole pipe 70m to 1565m of lower 95mm (internal diameter 82mm) locates, and position of opening is not added up, aperture 8.0mm, hole close 40 holes/m.
Sand control completion: sand control is carried out to two intervals (7m) of repairing and three oil reservoirs drilled with 0.3mm ~ 0.6mm precoated sand.
Hole condition: 1967.2 go into operation, and gaslift band sand is produced to 1992.7 stopping production closing wells, new operation liquid measure 36m3, liquid measure 5.5m3 before stopping production.1998.6 adopt screen sand control, and gaslift is gone into operation, day production fluid 17m3, moisture 3%.Stop 2004.6 shake out.2005.10 adopt bore hole hole pipe completions and PCS sand control after, day liquid measure: 12mm; Oil nozzle 246m, 8mm oil nozzle 134m3, moisture zero.
Through the test of oil Konzern, after the sand control pack method adopting the present embodiment to provide carries out sand control process, in pit shaft, be less than 0.1% friendship well without solid impurity in sand setting, oil.
In above enforcement, construction parameter can be selected as follows: the requirement to back-up sand discharge capacity: controlled 0.5 ~ 2.0m
3/ min; Requirement to operation pressure: construction pressure limiting 25.0 ~ 90.0MPa; Requirement to sand washing discharge capacity :≤0.5m
3/ min; Requirement to standby liquid measure: usually at 130 ~ 300m
3.
Construction equipment can be selected as follows: 3 700 type cementing trucks or thousand type fracturing unit trucks; 1 fracturing blender truck; 1 sand tank car; Some fluid reservoir group (capacity 130 ~ 300m
3); 1 cover screw drill or PDC drilling tool; Other auxiliary equipment and instrument can be equipped with according to field condition.
The parameter of precoated sand can refer to shown in table 8 to be selected.
Table 8: precoated sand parameter
The anti-swollen parameter pressing down sand agent can refer to shown in table 9 to be selected.
Table 9: anti-swollenly press down sand agent parameter
| Project | Performance indications | Project | Performance indications |
| Viscosity | Be less than 10mPa.s | Density | 1.0-1.1g/cm3 |
| PH value | 5-7 | Resistance-reducing yield | ≥60% |
| Expansion height | Be less than 2.5cm | Press down sand ability | Be less than 0.3% |
The parameter of surfactant can refer to shown in table 10 to be selected.
Table 10: surface-active agent parameter
| Project | Performance indications | Project | Performance indications |
| Outward appearance | Colourless or weak yellow liquid | Density | 0.9-1.1g/cm3 |
| PH value | 5-7 | Surface tension | Be less than 32 dynes per centimeter |
| Interfacial tension | Be less than 5 dynes per centimeter | Resistance to Ca2+ ability | Be greater than 1000ppm |
Composite pore-forming, namely manufactured sand strengthens and permeation promoter, and primarily of compositions such as activating agent, resin flexibilizer, dehydroxylation catalyzer, its technical requirements and parameter can refer to shown in table 11 and select.
Table 11: composite pore-forming parameter
| Project | Performance indications |
| Outward appearance | Yellowish or blue liquid |
| PH value | 1-3 |
| Density | 1.0-1.16g/cm3 |
| After intensity process/process before | 1.5-2 doubly |
| After permeability process/process before | 1.5-3.5 doubly |
The sand control pack device provided by the utility model embodiment carries out filling anti-sand process to sand output well, and compared with currently available technology, the utility model has following beneficial effect:
1, establish the good artificial borehole wall of permeability near wellbore zone, the skin factor on stratum, near wellbore zone can be reduced, neighbouring geostatic stress is redistributed, formation damage, reduce casing damage;
2, efficient solution is except formation blockage, improves the nearly well flow conductivity of in-place permeability and stratum, not only sand control but also increase production;
3, solve the sand control problem that can not use screen casing well, do not affect by construction well layer number, thickness, span and the straight inclined shaft that cover change is arranged at oil reservoir top, oil reservoir position cover becomes of sand washing can be completed;
4, do not stay any instrument in pit shaft after sand control process, ensure the clean of pit shaft;
5, sand control is efficient up to more than 95%, is valid up to 3 ~ 10 years.
Those of ordinary skill in the art can recognize, each exemplary cell in embodiment described herein and algorithm steps, can realize with the combination of electronic hardware or computer software and electronic hardware.These functions realize with hardware or software form actually, depend on application-specific and the design constraint of technical scheme.Professional and technical personnel can realize described function for specific application choice diverse ways, but this realization should not thought and exceeds scope of the present utility model.
If using the form of computer software realize described function and as independently production marketing or use time, then can think that all or part of (such as to the part that prior art contributes) of the technical solution of the utility model embodies in form of a computer software product to a certain extent.This computer software product is stored in the non-volatile memory medium of embodied on computer readable usually, comprises all or part of step of some instructions in order to make computer equipment (can be personal computer, server or the network equipment etc.) perform the utility model each embodiment method.And aforesaid storage medium comprises USB flash disk, portable hard drive, read-only storage (ROM, Read-Only Memory), random access memory (RAM, Random AccessMemory), magnetic disc or CD etc. various can be program code stored medium.
The above; be only detailed description of the invention of the present utility model; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; change can be expected easily or replace, all should be encompassed within protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of described claim.
Claims (6)
1. a sand control pack device, is characterized in that, comprising:
Fluid reservoir group, for being provided for the liquid material of sand control to fracturing blender truck;
Sand tank group, for being provided for the sand material of sand control to described fracturing blender truck;
Described fracturing blender truck, is connected with described fluid reservoir group and sand tank group, for by the liquid material from described fluid reservoir group with mix from the sand material of described sand tank group, obtains sand control pack material; And
Pump group, is connected with described fracturing blender truck, for pumping in well by described filling anti-sand material;
Wherein, described fluid reservoir group comprises four fluid reservoirs, be respectively used to described fracturing blender truck provide prepad fluid,
Load fluid, pore-foaming agent and displacement fluid; The volume of described fluid reservoir is 130m
3-300m
3.
2. sand control pack device according to claim 1, is characterized in that, described fluid reservoir is connected to described fracturing blender truck respectively by valve.
3. sand control pack device according to claim 1, is characterized in that, described sand tank group comprises at least two sand tanks, and described sand tank is connected to described fracturing blender truck respectively by valve.
4. sand control pack device according to claim 1, is characterized in that, described pump group comprises low-lift pump group and high-pressure pump group, and described low-lift pump group is connected to fracturing blender truck, and described high-pressure pump group is connected to well head.
5. sand control pack device according to claim 4, is characterized in that, described high-pressure pump group comprises at least four high-pressure pumps, and described four high-pressure pumps combinationally use the power that can provide different pressures.
6. sand control pack device according to claim 5, is characterized in that, also comprise high pressure pipe joint, is connected with described high-pressure pump, is collected by the sand control pack material from described high-pressure pump and sends in well.
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104612752A (en) * | 2015-02-09 | 2015-05-13 | 德惠同利(北京)石油技术服务有限公司 | Sand prevention filling device |
| CN107542435A (en) * | 2016-06-29 | 2018-01-05 | 中国石油化工股份有限公司 | The method that selective sand control improves loose sand oil accumulation development effectiveness |
| CN108756830A (en) * | 2018-05-03 | 2018-11-06 | 中国海洋石油集团有限公司 | A kind of SIMULATION STUDY OF GRAVEL PACKING IN HORIZONTAL WELL simulation method |
-
2015
- 2015-02-09 CN CN201520091221.4U patent/CN204729127U/en not_active Expired - Fee Related
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104612752A (en) * | 2015-02-09 | 2015-05-13 | 德惠同利(北京)石油技术服务有限公司 | Sand prevention filling device |
| CN107542435A (en) * | 2016-06-29 | 2018-01-05 | 中国石油化工股份有限公司 | The method that selective sand control improves loose sand oil accumulation development effectiveness |
| CN108756830A (en) * | 2018-05-03 | 2018-11-06 | 中国海洋石油集团有限公司 | A kind of SIMULATION STUDY OF GRAVEL PACKING IN HORIZONTAL WELL simulation method |
| CN108756830B (en) * | 2018-05-03 | 2020-09-01 | 中国海洋石油集团有限公司 | Horizontal well gravel packing simulation calculation method |
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