CN1973111A

CN1973111A - Screen for controlling sand production in a wellbore

Info

Publication number: CN1973111A
Application number: CNA2005800211016A
Authority: CN
Inventors: M·N·巴艾延斯; E·K·科内利森
Original assignee: Shell Internationale Research Maatschappij BV
Current assignee: Shell Internationale Research Maatschappij BV
Priority date: 2004-06-25
Filing date: 2005-06-23
Publication date: 2007-05-30
Anticipated expiration: 2025-06-23
Also published as: AU2005259247B2; US20080283240A1; CA2569789A1; WO2006003112A1; EA009188B1; BRPI0512375A; EA200700123A1; EP1759086A1; EP1759086B1; AU2005259247A1; MY142386A; CN100575660C; EG24909A; NO20070463L; DE602005015710D1

Abstract

A wellbore screen (1) is provided for controlling inflow of solid particles into a wellbore (2). The wellbore screen comprises a conduit (3) for transporting fluid, an outer layer (4) comprising a filter for reducing inflow of solid particles into the conduit (3), the outer layer extending around the conduit and being radially expandable against the wellbore wall, and swelling means arranged between the conduit and the outer layer. The swelling means (6) is susceptible of swelling upon contact with a selected fluid so as to radially expand the outer layer against the wellbore wall.

Description

The screen casing that shakes out in the control pit shaft

Technical field

The present invention relates to a kind of well screen that solid particle flows into pit shaft that is used to control, described screen casing comprises the conduit that is used for carrying fluid, comprise and being used for solid particle from flowing into the skin of described conduit fluid filtering.

Background of invention

Independent desanding system (as slotted liner or wire-wrapped screen) is used in the well of giving birth to production fluid flow from the stratum usually or liquid stream is injected the well on stratum.Described production and/or injection fluid stream for example can be oil, gas or water.The problem that usually occurs in the process of using this desanding system relates to the axial flow in the annular space of fluid between the borehole wall and screen casing.With fluid stream together flow into pit shaft from the solid particle on stratum on every side thereby can and on screen casing, be deposited as along the screen casing migration and have the very sedimentary deposit of low-permeability.Described problem especially refers to the situation that clay particle enters pit shaft.Because this fluid flows through the possibility of result of described annular space described screen casing is stopped up on whole screen casing length, will cause the hydrocarbon fluid of described well or the output of water to descend like this.In addition, narrow down to the regional area that described screen casing stops up not yet, may cause the excessive erosion of described screen casing if flow into the fluid of screen casing.

The object of the present invention is to provide a kind of improvement screen casing that overcomes foregoing problems.

Summary of the invention

According to the present invention, provide a kind of being used to control the well screen that solid particle flows into pit shaft, described well screen comprises: the conduit that is used to carry fluid; Comprise being used for reducing the skin that flows into described conduit solid particle amount, but described outer layer ring extends around described conduit and expanded radially lean against on the borehole wall; Be arranged on the expansion gear between conduit and the skin, outer expanded radially leaned against on the borehole wall thereby described expansion gear is easy to expansion when the fluid that contact is selected.

With after the fluid of selection contacts, the skin that can obtain to have filter by this way can lean against on the borehole wall partially at expansion gear.Therefore prevented that the local solid particle that enters pit shaft from flowing in the vertical along whole screen casing, thereby eliminated because of the local risk that flows into the whole screen casing of obstruction that produces of solid particle.In addition, thus the skin of expansion is supporting the fault of shaking out that the borehole wall greatly reduces borehole wall place.In addition, the skin of expansion also provides big inflow area for screen casing.

For example, described pit shaft can be the producing well of producing hydrocarbon fluid (crude oil or natural gas) or water.Selectively be that described pit shaft can be the injection well that water, oil, gas, waste fluid or other fluids is injected the stratum.In another example, can make the described selection fluid that expansion gear expands can be produced fluid such as hydrocarbon fluid or water, or inject fluid such as hydrocarbon fluid (as crude oil, diesel oil or natural gas) or water.

Under the situation of producing well that is the production hydrocarbon fluid, can obtain quick active to cause the expansion of expansion gear by hydrocarbon fluid (as diesel oil) being pumped into pit shaft.In case obtained expansion, can keep described expansion by the hydrocarbon fluid that makes expansion gear contact output.

Be appreciated that under for the situation of injecting well, blocking problem may appear at stop that fluid injects and fluid from pit shaft within the anti-time interval that flows between the screen casing.

Suitably, described expansion gear comprises a plurality of expandable rings, and each ring extends around described conduit and is easy to expand when contacting with the fluid of selecting, and described ring is spaced from each other along described conduit, for example arranges with identical mutual spacing.

In another kind was arranged, expansion gear comprised the sleeve around conduit, and this sleeve has a plurality of along sleeve through hole spaced apart, and for example, it is the shape of rectangle or basic shape for circle that described through hole has basic.

The material that is easy to expand when in a preferred embodiment, described expansion gear is included in contact hydrocarbon fluid or water.

When expanding at contact water, described material is the rubber for selecting from NBR, HNBR, XNBR, FKM, FFKM, TFE/P, EPDM base rubber for example.

When expanding at the contact hydrocarbon fluid, described material preferably includes the rubber of selecting from following rubber: natural rubber, acrylonitrile-butadiene rubber, hydrogenated nitrile-butadiene rubber, acrylate-butadiene rubber (acrylate butadiene rubber), lactoprene (poly acrylaterubber), butyl rubber, brombutyl, chlorinated scoline, chlorinated polyethylene rubber, neoprene; butadiene-styrene rubber (styrene butadiene copolymer rubber); sulfonated polyethylene rubber (sulphonated polyethylene); vinylacrylic acid ester rubber (ethyleneacrylate rubber); chloropropylene oxide ethylene oxide copolymer; EPM (peroxyde crosslinked); EPM (sulfonation is crosslinked); ethylene propylene diene rubber; ethylene vinyl acetate copolymer; Viton; fluorosilicone third rare rubber; silicone rubber.

Can be preferably, the rubber of described material for from EP (D) M rubber (ethylene rubber of peroxidating or sulfonation), EPT rubber (ethylene propylene diene rubber), butyl rubber, brombutyl, chlorinated scoline and chlorinated polyethylene rubber, selecting.

Suitably, described skin comprises annular filter layer and the ring-type covering layer (shroud) that extends around annular filter layer.

Description of drawings

To and carry out more detailed description to the present invention in conjunction with the accompanying drawings by example below.

Fig. 1 schematically shows the longitudinal profile of the embodiment of well screen of the present invention before expansion gear expands;

Fig. 2 schematically shows the longitudinal profile of the described embodiment of Fig. 1 after expansion gear expands;

Fig. 3 schematically shows the section at Fig. 1 section line 3-3 place;

Fig. 4 schematically shows the section at Fig. 2 section line 4-4 place.

Identical in the accompanying drawings Reference numeral is represented identical parts.

The specific embodiment

Referring to Fig. 1 and Fig. 2, wherein show the well screen 1 that is arranged in the pit shaft 2 of producing hydrocarbon fluid.Screen casing 1 comprises: tubular part 3; With the permeable annular outer layer 4 of radial distance around tubular part 3, the described outer 4 covering layer 4b by the filtration beds 4a and the filtration beds outside constitute; And be arranged between tubular part 3 and outer 4 to encircle the inflatable element that 6 form exists.Ring 6 is along the spacing setting of tubular part 3 with rule.Thereby outer 4 are flexible and can at least one expansion rate expanded radially make the covering layer 4b contact borehole wall.In addition, filtration beds 4a has and is suitable for preventing that solid particle from flowing into the screen size in the tubular part.Ring 6 is made by the elastomeric material that expands when contacting hydrocarbon fluid, and described elastomeric material for example is an EPDM rubber.Tubular part 3 has the eyelet 7 that a plurality of hydrocarbon fluids that are used to make output flow into tubular part 3, and has at its end and to be used to make well screen 1 to be interconnected to conduit 9 is transported to ground with the hydrocarbon fluid with output

corresponding coupling part

8,10.

Fig. 1 shows ring 6 and contacts the hydrocarbon fluid of outputs and the well screen 1 before that expands, thereby has gap 11 so that skin 4 is in unswollen state between the covering layer 4b and the borehole wall.

Fig. 2 shows ring 6 and contacts the hydrocarbon fluid of outputs and the well screen 1 afterwards that expands, thereby therefore skin 4 is by encircling the wall that 6 expanded radiallys make ring-type covering layer 4b contact pit shaft 2.

Fig. 3 shows well screen 1 and pit shaft 2 cross sections before ring 6 expansions.As shown in the figure, filtration beds 4a is made of a plurality of overlapped filters 5.Each filter 5 is connected on one or more rings 6 by corresponding flange (lug) 14 in its end, and overlapping with adjacent filter 5.Covering layer 4b is that filtration beds 4a provide enough protection thereby described longitudinal seam makes covering layer 4b have very big pliability to carry out expanded radially for thin metal cylinder has the sieve aperture that overlapping along the longitudinal direction longitudinal seam (not shown) constitutes.

Referring to Fig. 4, wherein show ring 6 after expanding screen casing 1 and the cross section of pit shaft 2.Skin 4 has expanded and has leaned against on the borehole wall, thereby sliding relatively appears in adjacent filter sheets 5 between the filtration beds 4a phase of expansion, and the seam of covering layer 4b broadens between the covering layer 4b phase of expansion.

For for simplicity, do not go out whole ring 6 and eyelet 7 in the accompanying drawing with designated.

In common use, screen casing 1 is run in the pit shaft 2 and is arranged in the reservoir that contains hydrocarbon fluid on stratum on every side, and therefore encircling 6 is in their unswollen states separately, and gap 11 be present in outer 4 and the wall of pit shaft 2 between (Fig. 1).When pit shaft 2 is produced, crude oil liquid stream from laminar flow peripherally go into pit shaft 2 and by outer 4 and eyelet 7 enter tubular part 3 thus.Therefore, stream of hydrocarbon fluid flows along ring 6, therefore encircles 6 and is transformed to swelling state (Fig. 2) from its unswollen state (Fig. 1).When expansion, thereby ring 6 leans against on outer 4 in propelling on the radially outer direction, thereby outer 4 expansions lean against on the wall of pit shaft 2.The expansion force that is applied by the ring group is along distributing on outer 4 the length direction, so outer 4 will adapt to the bigger scrambling of the borehole wall basically after it expands.Thereby because each filter 5 relative slips reduce the lap of adjacent filter sheets 5 between the filtration beds 4a phase of expansion, the screen size of filtration beds 4a can not change because of expanded radially.Thereby be chosen to can to make after filtration beds 4a expands enough overlapping of filter 5 maintenances to guarantee opening can not occur the degree of overlapping of adjacent filter sheets 5, described opening can make fluid walk around filtration beds 4a.

If desired, can obtain to encircle 6 acceleration and expand making well pump into pit shaft 2 by the fluid that diesel oil or other are fit to before producing.

Therefore then realized preventing the outside axial flow of stream of hydrocarbon fluid, thereby prevented that the sand grains or the clay particle that can local enter stream of hydrocarbon fluid from flowing in a longitudinal direction along whole outer 4 along skin 4.Because this flowing along whole outer 4 particle may cause the obstruction of whole filtration beds 4b, especially enter under the situation of pit shaft at clay particle, so the present invention has important advantage.

Other advantage of well screen of the present invention is to have annular space and the expansion mechanism between entity preboring tubular part, tubular part and the skin of high collapse resistance, described annular space provides good flow behavior for produced fluid, and described expansion mechanism has been avoided the needs of mechanical swelling tubular part.

Replace all rings and all made by the elastomeric material that expands when contacting hydrocarbon fluid, one or more rings can be made by the material that expands when contacting stratum output water.For example, described ring can comprise that first group is easy to the ring that expands and second group is easy to the ring that expands in water in hydrocarbon fluid, thereby first and second groups of rings are arranged in the mode that replaces.

In addition, replace each filter and all be connected on some or all rings in its end, any other suitable part of filter can both be connected on the described ring.In addition, described filter can keep in place so that do not need filter not being connected on some or all rings by covering layer.

As the tectal substitute mode of the slot with overlapping longitudinal seam, other suitable covering layer all can be used arbitrarily, for example have the collapsible covering layer of articulated section to allow covering layer to launch, the perhaps covering layer that constitutes by a plurality of interconnective small tubes, so each pipe flattens when covering layer expands.

Claims

1. one kind is used to control the well screen that solid particle flows into pit shaft, and described well screen comprises: the conduit that is used to carry fluid; Include the skin that is used for reducing the amount that flows into described conduit solid particle, but described outer layer ring extends around described conduit and expanded radially lean against on the borehole wall; Be arranged on the expansion gear between conduit and the skin, outer expanded radially leaned against on the borehole wall thereby described expansion gear is easy to expansion when the fluid that contact is selected.

2. well screen as claimed in claim 1 is characterized in that: described expansion gear comprises a plurality of expandable rings, and each ring extends around described conduit and is easy to expand when contacting with the fluid of selecting, and described ring is spaced from each other along described conduit.

3. well screen as claimed in claim 2 is characterized in that: described ring is arranged with the mutual spacing of rule along conduit.

4. well screen as claimed in claim 1 is characterized in that: described expansion gear comprises the sleeve that extends around conduit, and this sleeve has a plurality of along sleeve through hole spaced apart.

5. well screen as claimed in claim 4 is characterized in that: it is the shape of rectangle or basic shape for circle that each through hole has basic.

6. as the arbitrary described well screen of claim 1-5, it is characterized in that: the material that described expansion gear is easy to expand when being included in contact hydrocarbon fluid or water.

7. well screen as claimed in claim 6, it is characterized in that: the material of described material for when contacting water, being easy to expand, and comprise the rubber of from acrylonitrile-butadiene rubber, hydrogenated nitrile-butadiene rubber, carboxylated nitrile rubber, fluorinated polymer rubber, tetrafluoroethene/polypropylene rubber, ethylene propylene diene rubber, neoprene, CSM, chlorinated polyethylene rubber, polyurethane rubber, selecting.

8. well screen as claimed in claim 6, it is characterized in that: the material of described material for when contacting hydrocarbon fluid, being easy to expand, and comprise from natural rubber, acrylate-butadiene rubber, butyl rubber, brombutyl, chlorinated scoline, chlorinated polyethylene rubber, neoprene; butadiene-styrene rubber (styrene butadiene rubber); sulfonated polyethylene rubber (sulphonated polyethylene); vinylacrylic acid ester rubber (ethylene acrylaterubber); chloropropylene oxide ethylene oxide copolymer; chloropropylene oxide oxirane terpolymer; the rare rubber of ethylene propylene (peroxyde crosslinked); ethylene propylene diene rubber; the rubber of selecting in the silicone rubber.

9. well screen as claimed in claim 8 is characterized in that: the rubber of described material for selecting from the rare copolymer of ethylene propylene (peroxyde crosslinked), ethylene propylene diene rubber, butyl rubber, brombutyl, chlorinated scoline and chlorinated polyethylene rubber.

10. as the arbitrary described well screen of claim 1-9, it is characterized in that: described skin comprises annular filter layer and the ring-type covering layer that extends around annular filter layer.

11. as the arbitrary described well screen of claim 1-10, it is characterized in that: described pit shaft is the pit shaft that is used for producing from the stratum hydrocarbon fluid or water.

12. be essentially above-mentioned well screen in conjunction with the accompanying drawings.