CN102257240A

CN102257240A - System and method for delivering material to a subsea well

Info

Publication number: CN102257240A
Application number: CN2009801504629A
Authority: CN
Inventors: P·W·布雷克
Original assignee: Chevron USA Inc
Current assignee: Chevron USA Inc
Priority date: 2008-12-16
Filing date: 2009-12-03
Publication date: 2011-11-23
Also published as: WO2010074912A3; BRPI0923054A2; US20110067881A1; NO20110997A1; WO2010074912A2; GB2478474A; AU2009330553A1; GB201110532D0; GB2478474B

Abstract

A system and method for delivering a material from a vessel at a surface facility to a subsea location and into a subsea well are provided. The system generally includes a first-stage pump that is located at the surface facility and is configured to receive the material from the vessel. A tubular member extends from the first-stage pump to the subsea location. A second-stage pump is located at the subsea location and connected to the tubular member. The first-stage pump is configured to deliver the material through the tubular member to the second-stage pump at a first pressure, and the second-stage pump being configured to receive the material from the tubular member and inject the material into the well at a second pressure higher than the first pressure.

Description

Be used for carrying the system and method for material to subsea well

The cross reference of related application

The application requires to be filed in the U.S. Provisional Application No.61/138 on December 16th, 2008,044 priority.

Technical field

The application relates to from the container that is arranged in surperficial facility and carries the material of scale preventative chemicals for example so that hydrocarbon well is carried out scale preventative squeeze treatment under water under water to submarine site and subsea well.

Background technology

Used equipment can produce incrustation and inorganic matter crystalline deposit in the hydrocarbon production operation.For example, under a kind of typical situation, because oil-bearing stratum flooding, for example be injected in the oil well and can produce fouling when formation water in the oil well mixes at seawater.Fouling also can be in stratum or recovered water the solubility hypersaturated state of mineral produce when changing because of pressure and/or temperature change.Fouling also can be because of nucleating point, for example sand and corrosion and increase.The fouling sediment can comprise various mineral, for example calcium carbonate, calcium sulfate, barium sulfate, magnesium carbonate, magnesium sulfate and strontium sulfate.For example, when utilizing seawater to inject the hydro carbons of exploiting storage, be easy to take place the sulfate scale deposition.

This fouling can occur in inside and outside the oil well, for example makes in the oil pipe or miscellaneous equipment that the production fluid from oil well flows through, and is important mobile assurance problem in oil and gas industry.In some cases, the fouling meeting reduces or hinders the flow that flows through hole and oil pipe, hinders the proper operation of valve and pump, and otherwise interferes the operation with the oil well relevant device.

There are several methods that can be used for controlling incrustation.For example, the fluid method of modifying comprise water (for example, aquifer water or desulfurization water) with different component be injected in the reservoir and make water and the extraction flow point from.The most popular method that prevents and handle incrustation is to apply the chemicals that plays the scale preventative effect.This chemical inhibitor or scale preventative can be water base, oil base, suspended emulsion, micro encapsulation seal, porous dipping spherolite and multifunctional product (for example, anticorrisive agent/scale preventative, pitch inhibitor/scale preventative etc.).Scale preventative adopts the operating principle that stops nucleation and crystal growth usually.Many scale preventatives can be applied to extraction liquid stream or be injected into well by the scale preventative squeeze treatment by continuous injection.The typical scale preventative squeeze treatment that utilizes scale preventative that well is handled comprises flowing of the production fluid that interrupts artesian well, scale preventative is injected in the reservoir by well, makes that the rock matrix in scale preventative and the reservoir reacts to be absorbed in the stratum and to be deposited on the mineral surfaces subsequently.Typically, squeeze treatment comprises injects pre-rinse solution, injects chemical inhibitor (main flushing) thereafter, injects afterflush (overflush) solution at last.Thereafter, the well recovery operation, the scale preventative in the reservoir is emitted and is dissolved in the fluid in the reservoir, makes production fluid contain some scale preventatives.Scale preventative prevents or reduces the production fluid fouling in other equipment that pipeline and fluid flow through usually.

Scale preventative can be injected into the underwater well with relevant header (it upwards is delivered to surperficial facility with the extraction fluid from underwater well usually) by exploitation pipeline or flowline (it can comprise marine riser) from the surperficial facility of for example offshore platform or floating production, oil storage and unloading system (FPSO).In this case, the production flow by marine riser stops.Subsequently, scale preventative is pumped into the riser top that is arranged in surperficial facility place and be pumped into underwater well and deliver to submarine reservoirs by marine riser.Because with exploitation flowline and/or the relevant bigger friction of scale preventative viscosity (it is increasing with the temperature reduction near the place, seabed), for the low rate of pumping of the common needs of scale preventative.In some cases, can use a large amount of scale preventatives.For example, the exploitation flowline of typical 15km has 5000 barrels volume according to diameter, and the whole volume of flowline was full of before scale preventative begins to flow into reservoir.In addition, in some cases, flowline need be carried out emptying and cleaning by the pigging operation before chemical inhibitor pumps into well, and with the residue of avoiding being present in the flowline, for example incrustation scale, paraffin and/or sand pump are delivered in the stratum.

When the subsea production system of different satellite wells pooled together in header or flowline, it is expensive that scale preventative squeeze treatment meeting becomes.In this case, because flowline will be used to carry scale preventative, also must closeall well even have only a well to handle.By being provided, the independent pipeline from each well to surperficial production facility can avoid above-mentioned shortcoming; Yet, because engineering restriction or investment spending restriction use dedicated pipeline always not possible.In some cases, sometimes utilize water surface ship, for example diving support vessel (DSV) and the flexible pipe line that is attached on the header are under water carried out squeeze treatment under water.Can carry out squeeze treatment under water by the inhibitor of encapsulated is put into well head.In this case, diving support vessel can transport capsule, and capsule drops in the collecting tank via flexible marine riser by self gravitation.Because the scale preventative diffusion takes place in concentration gradient missionary society.

The operation of even now is successfully used to scale preventative squeeze treatment under water, still needs to be used for to carry material to underwater well, for example is used for the improved system and method for the chemicals of scale preventative squeeze treatment.This system and method should use with can't help the passage that marine riser limits, for example, make that scale preventative squeeze treatment under water can be with the extraction fluid evacuation in the marine riser or make under the situation of the fluid flow inversion in the marine riser and carry out, and should in the system that comprises several wells that are attached on the public exploitation flowline and/or production tree, use.

Summary of the invention

Embodiments of the invention are provided for material generally from the container transport that is arranged in surperficial facility to submarine site and be delivered to the system and method for underwater well, for example, one or more that will be suitable for suppressing fouling by umbilical or other tubular articles are planted scale preventative squeeze treatment chemicals and are transported in the underwater well system and method with the squeeze treatment of scale preventative under water of carrying out well.According to an embodiment, this system comprises first order pump, and it is positioned at surperficial facility place and is configured to receive material from container.Tubular articles extends to submarine site from first order pump.Second level pump is positioned at submarine site and is connected to tubular articles.For example, second level pump can be arranged in the seabed and/or conduct is positioned at the part of the production tree at well head place under water.First order pump is configured under first pressure material be flowed to second level pump by tubular articles, and second level pump is configured to receive from the material of tubular articles and under being higher than second pressure of first pressure material is injected in the well.

In some cases, tubular articles can be flexible pipe and/or the flexible umbilical of being made by thermoplastic, flexible umbilical defines first tubular conduit that is used to receive and carry material, and has at least one is used for the conduction cable that communicates between face of land facility and submarine site second tubular conduit.The conduction cable can be configured to be provided for to control second level pump operation the signal of telecommunication and be used for electric power at least a that operation to second level pump provides power.

According to another embodiment, the invention provides material is given submarine site and is delivered to the method for underwater well from the container transport that is arranged in surperficial facility.This method comprises that operation is positioned at the first order pump at surperficial facility place, by extend to the material of the tubular articles pumping of submarine site from described first order pump from described container, be positioned at submarine site with operation and be connected to the second level pump of described tubular articles, thereby material is injected into the well from described tubular articles.For example, this method can comprise providing and is positioned at the seabed and/or as being positioned at the second level pump of the part of the production tree at well head place under water.The operation of first order pump and second level pump can comprise scale preventative squeeze treatment chemicals is injected in the well, thereby carries out the scale preventative squeeze treatment of well and prevent in well and/or marine riser, pipeline of oil production, flowline or be arranged in other equipment foulings of down-hole trip.

In some cases, flexible pipe or the flexible umbilical made by thermoplastic can be set to tubular articles, can operate first order pump with the first tubular conduit pumping material by umbilical.Umbilical can be provided with and be arranged at least one conduction cable that this umbilical and surperficial facility are communicated by letter with submarine site.The signal of telecommunication can be transferred to the operation of submarine site with control second level pump from surperficial facility by the conduction cable, and/or electric power can offer submarine site from surperficial facility by cable and provides power with the operation of giving second level pump.

Description of drawings

Above the present invention has been carried out general description, described referring now to accompanying drawing, accompanying drawing needn't be drawn in proportion, wherein:

Fig. 1 is an elevation, has schematically shown to be used for according to one embodiment of present invention material is delivered to submarine site and is transported to the system of underwater well from surperficial facility;

Fig. 2 is a viewgraph of cross-section, has schematically shown umbilical according to an embodiment of the invention;

Fig. 3 is an elevation, has schematically shown to be used for according to one embodiment of present invention material is delivered to submarine site and is transported to the system of underwater well from floating production facilities;

Fig. 4 is an elevation, has schematically shown to be used for according to another embodiment of the invention material is delivered to submarine site and is transported to the system of underwater well from service ship; With

Fig. 5 is an elevation, has shown to be used for according to another embodiment of the invention material is delivered to submarine site and is transported to the system of underwater well from service ship.

The specific embodiment

Describe the present invention more fully referring now to accompanying drawing, wherein shown a part of the present invention but non-whole embodiment.In fact, the present invention can implement and should not be construed as and be confined to the embodiments described herein according to many different modes; On the contrary, providing these embodiment is in order to make the present invention satisfy the legal requirements that is suitable for.The member that identical numeral is identical.

With reference now to accompanying drawing especially Fig. 1,, shown schematically to be used for that the chemicals that for example is used to carry out the scale preventative squeeze treatment is delivered to the system 10 of underwater well 12 with material.System 10 generally includes a plurality of

pumping units

14,16 by the multiple stage pumping structural configuration, is used for material is delivered to submarine site 22 and material is injected into well 12 by tubular articles 24 from one or more container 18 that is positioned at surperficial facility 20.

Surface facility 20 can be the surface cell of any kind, for example the oil drilling machine of offshore platform or any kind.Container 18 can comprise that one or more is installed in the basin on the surperficial facility 20 or offers facility 20 and fluid by boats and ships or alternate manner and be connected to reservoir on the facility 20, makes to be arranged in the material that first order pumping unit 14 on the surperficial facility 20 can receiving vessel 18.

First order pumping unit 14 receives material and the tubular articles 24 by stretching out from surperficial facility 20, and for example umbilical is pumped to submarine site 22 with material.Especially, as shown in Figure 1, tubular articles 24 can extend to and be positioned at submarine site 22, for example is positioned at or is close to the second level pumping unit 16 at 26 places, seabed.Tubular articles 24 defines and is used for one or more passage that material flows.First order pumping unit 14 typically is higher than material atmospheric pressure but is not enough to material is transported in well 12 and the reservoir being delivered to pumping unit 16, the first pressure in the second level under first pressure by tubular articles 24.Will be appreciated that material pressure can reduce to the outlet 30 of the tubular articles 24 that is positioned at second level pumping unit 16 places from the inlet 28 of the tubular articles 24 that is positioned at first order pumping unit 14.For example, material can approximately be stored in the container 18 under the atmospheric pressure, and first order pumping unit 14 can be increased to pressure big pressure and carry materials to pass through tubular articles 24, and material can more offer second level pumping unit 16 under the high pressure.

First order pumping unit 14 can be by power source 32, and for example power supply or hydraulic power supply provide power.The operation of power source 32 and first order pumping unit 14 can be by controller 40, for example is configured to receive from operator's artificial input and/or the computer installation control operated according to the program with the order that pre-determines and stipulate and parameter.Controller 40 and power source 32 can also be used to control other parts of the system 10 that comprises second level pumping unit 16 and/or provide power to it.In some cases, controller 40 can be high pressure insertion type control system unit.

The second level pumping unit 16 that is positioned at submarine site 22 is connected to tubular articles 24 and passes through the material that tubular articles 24 receives from first order pumping unit 14.Second level pumping unit 16 raises the pressure of material and material is injected under second pressure in the well 12, and described second pressure is higher than first pressure that is obtained by first order pumping unit 14.

Multiple stage pumping of the present invention system 10 can utilize the pressure that is enough to be used in injecting that material is offered well 12, and the remainder in system 10 provides relatively limited pressure to material simultaneously.For example, if first order pumping unit 14 is operated under the situation that does not have second level pumping unit 16, in tubular articles 24, need bigger pressure to provide enough pressure in the well 12 for material is injected into position 22 under water.Typically, first order pumping unit 14 need to material provide high at least to tubular articles 24 inlet 28 and export 30 between pressure drop and be injected into required pressure sum in the underwater well 12.In some cases, for example, at tubular articles 24 are umbilical or low-pressure hose or the pipes that have than minor diameter, and/or tubular articles 24 be used for that the deep-sea is used or the situation of the long member of others under, bigger along the pressure drop ratio of the length of tubular articles 24.In this case, inlet 28 places of tubular articles 24 be used for resisting on the tubular articles 24 pressure drop and under water 22 places, the position required pressure that is used to be injected into well 12 required pressure sums can surpass the intensity of tubular articles 24.Therefore, for the single stage pump system, need to give tubular articles 24 to provide high strength to resist required high pressure and/or to provide than major diameter so that pressure drop can be very not big to tubular articles 24.

On the other hand, the second level pumping unit 16 that is arranged on submarine site 22 places and is in tubular articles 24 downstreams can be used for pressure is elevated to the level that is enough to be injected in the well, makes the level of pressure limit within the performance constraint of tubular articles 24 in the tubular articles 24.Like this, the pressure that offers the material of tubular articles 24 by first order pumping unit 14 is enough to resist the pressure drop on the tubular articles 24, but less than the pressure drop on the tubular articles 24 and under water 22 places, position be injected into required pressure sum in the well 12.Therefore, be enough to use and have than low-intensity and/or than the tubular articles 24 of minor diameter.Even in use at the very long deep-sea of tubular articles 24, the intensity of umbilical and size are enough to the adaptation material flow and keep the required pressure of flow of material.For example, tubular articles 24 can be configured to have the intensity greater than the pressure drop in the tubular articles 24, makes tubular articles 24 to bear and carries the required pressure of material; Yet tubular articles 24 can be configured to have the intensity less than pressure drop on the tubular articles and injection underwater well 12 required pressure sums.Especially, in some cases, tubular articles 24 can be configured to provide 15000psi or following burst strength, and material can provide to the maximum pressure of 5000psi with 3000psi in tubular articles.

For example, tubular articles 24 shown in Figure 1 is flexible umbilicals, and the cross section of umbilical further specifies in Fig. 2.Umbilical is synthetic cable, and it comprises oversheath 42, and this oversheath holds a plurality of longitudinal members or functional part, pipe or the flexible pipe that is formed by thermoplastic or steel or other metal for example, cable or optical cable, reinforcement etc.For example, as shown in Figure 2, umbilical comprises hollow

cylindrical tube

44a, 44b, 44c, and it defines the tubular conduit 46 that is used for carrying chemicals or other material between surperficial facility 20 and submarine site 22.For example, scale preventative squeeze note operating period carries scale preventative or operates delivering hydraulic fluids etc. for other under water can to use one or more tubular conduit 44a, 44b, 44c.Umbilical also comprises the communications cable 48, and it can be by electric conductor or optical conductor, and the copper core of for example solid or twisting or aluminium cable or optical fiber cable are made.The communications cable can be used for transmission of control signals, transmits electric power and/or is used for information (as the information of being collected by the sensor that is positioned at submarine site 22 places or other device) communication.Cable can be contained in the sheath of being made by plastics or other protective materials 50.Reinforcement 52 can be formed and be used to improve the intensity and/or the rigidity of umbilical by steel, composite material etc.In addition, in the oversheath 42 other member or material can be set.For example, in some cases, the space 54 between the different component in the sheath 42 can be full of plastic material or other material to improve intensity, buoyancy, rigidity or the sealing of umbilical.

Will be appreciated that umbilical shown in Figure 2 makes exemplary tubular member, it can use in system 10 of the present invention, and also can use other tubular articles, comprises the umbilical of different size, structure and material.For example, in some cases, tubular articles 24 can be the flexible pipe of being made by polymer, thermoplastic, reinforced composite etc.Tubular articles can be isolated plant (perhaps being arranged in the special-purpose fluid passage of synthetic umbilical or other device), it is used for Xiang Jingzhong and carries material still to be not used in the extraction fluid that transports artesian well, tubular articles (perhaps designated lane) can correspondingly be provided with size, for example, less than typical marine riser from underwater well to floating production facilities that carry the extraction fluid from.For example, in some cases, be used for Xiang Jingzhong and carry the internal diameter of fluid passage of the tubular articles of material to be about 1/4 inch to 4 inches, for example about 1/2 inch, 1 inch, 2 inches, 3 inches or 4 inches.For example, the first annular channel 44a of umbilical shown in Figure 2 can have the diameter of about 1/4 inch or 1/2 inch and can be used for carrying material in well 12.For the situation of carrying lot of materials in giving well 12, tubular articles 24 can be thicker flexible pipe, for example by composite material, as has 3 inches or the flexible pipe of 4 inch diameters that the thermoplastic matrix material of synthesis of aromatic polyamide or other reinforcement material is made.

Multiple stage pumping of the present invention system 10 shows to have two

pumping units

14,16 in Fig. 1, each

pumping unit

14,16 typically comprises a pump, but additional pump or

pumping unit

14,16 can be set in other embodiments.For example, complementary pump can or be between the two at surperficial facility 20, submarine site 22 places.Complementary pump can be configured to shown in

pumping unit

14,16 pumpability or the redundancies so that increase to be provided in parallel, and/or complementary pump can with shown in

pumping unit

14,16 connect the pressure that increases continuously material with the flow path along material be set.Part or all

pumping unit

14,16 can comprise strainer preventing the conveying of solid or particle, thereby prevents that such solid and particle are injected in well 12 and the reservoir formation.In addition, each

pumping unit

14,16 is fit to selectively pumping chemicals and/or where necessary chemicals is mixed.

Sensor 60 can be set to monitor relevant operating parameter, for example pressure, temperature, flow, viscosity etc.Sensor 60 can be arranged on container 18,

pumping unit

14,16, other positions in the tubular articles 24 or in the system 10.Signal from sensor 60 can be transferred to for example controller 40 of central control unit, it subsequently can be according to the situation of being sensed by sensor 60, for example comes the regulating system parameter by the valve in the regulating system 10, mode of operation by

control pumping unit

14,16 and speed and the operation by the heater in the control system 10 or other equipment.Controller 40 can also receive from other signal that is installed on the sensor in production tree inside or the well.The sensor that is positioned at submarine site 22 typically is configured to communicate by letter with landscape position, for example communicates by sending signal via umbilical to controller 40.If controller 40 is not positioned at same surperficial facility 20 places that connect umbilical, then can between surperficial facility 20 and controller 40, additional communication line be set, for example wired or wireless connection.

Fig. 3 has shown system 10 according to another embodiment of the present invention, and wherein, second level pumping unit 16 is set to the integral part of subsea production tree 62.As shown in the figure, surperficial facility 20 is floating production facilities, for example is positioned at the offshore platform at 34 places, sea.First order pumping unit 14 is arranged in floating production facilities 20.Tubular articles 24 is umbilicals and first order pumping unit 14 is connected to second level pumping unit 16, this second level pumping unit is positioned on the seabed 26 and as the part of subsea production tree 62, subsea production tree is controlled fluid usually and flows into well 12 or flow out well 12.Second level pumping unit 16 can be located near production tree 62, but separated.Replacedly, as shown in Figure 3, second level pumping unit 16 can be the integral part of production tree 62, that is, and and as the part of the entire equipment that is deployed as a unit.In either case, umbilical can be connected to second level pumping unit 16 by umbilical terminal fitting 68 under water.In addition, as shown in the figure, umbilical can be connected on the extention that extends to other well etc. by fluid.

In another embodiment, as shown in Figure 4, surperficial facility 20 is service ship of FPSO for example.Service ship can comprise first order pumping unit 14, be used to supply injection scale preventative or other container of material 18, controller 40 and power source 32, makes service ship can be provided for the material of implant operation.In addition, service ship can be used for disposing umbilical or other tubular articles 24.In this respect, can use 64 controls of winch equipment to be attached to the unwinding of the cable 66 on the umbilical terminal fitting 68 that is connected with umbilical.When cable 66 on service ship during unwinding, umbilical terminal fitting 68 can drop to submarine site 22, thereby disposes umbilical, it also can be from service ship, for example from capstan winch 70 unwindings.Can use the auxiliary umbilical terminal fitting 68 that connects of remote-controlled vehicle (ROV) or other submersible control device to second level pumping unit 16, second level pumping unit is attached on the subsea production tree 62 or as its part.Replacedly, umbilical terminal fitting 68 can be suitable for for example automatically or under operating personnel's control itself being attached on second level pumping unit 16 and/or the production tree 62.In certain embodiments, umbilical terminal fitting 68 can comprise that auxiliary umbilical terminal fitting 68 is attached to the optional equipment on second level pumping unit 16 and/or the production tree 62, for example global positioning system (GPS) device, one or more camera, be used to control umbilical terminal fitting 68 the position and towards thruster, electronic and/or hydraulic system etc.As shown in Figure 4, buoyant device 72 can be attached at along a plurality of positions of tubular articles 24 length, makes buoyant device 72 be deployed in the different degree of depth when vertically-oriented in that tubular articles 24 is common.Buoyant device 72 has reduced the active force that is applied on the tubular articles 24 usually and because the weight of tubular articles 24 is applied to the active force on the joint of tubular articles 24.

In another embodiment, as shown in Figure 5, second level pumping unit 16 is connected to tubular articles 24 and utilizes tubular articles 24 to dispose from surperficial facility 20.For example, as shown in the figure, tubular articles 24 can be a umbilical, and umbilical and cable 66 can be connected to second level pumping unit 16 before disposing.Second level pumping unit 16 can be disposed by the winch equipment 64 that uses 66 unwindings of control cable with umbilical.When cable 66 during from the service ship unwinding, second level pumping unit 16 can drop to submarine site 22, thereby disposes also the umbilical from the service ship unwinding.Can use remote-controlled vehicle (ROV) or other submersible control device or be arranged on optional equipment on the second level pumping unit 16 by use, for example global positioning system (GPS) device, one or more camera, be used to control umbilical terminal fitting 68 the position and towards the position and the structure of control second level pumping units 16 such as thruster, electronic and/or hydraulic system.

Because tubular articles 24 is configured to connect first and second grades of

pumping units

14,16, can material be injected in the underwater well 12 using system 10 selectively.In typical implant operation, first order pumping unit 14 is operated under lower pressure, and second level pumping unit 16 is operated under elevated

pressures.Pumping unit

14,16 can provide material to flow into changeable flow in the well 12, and system 10 selectively a series of materials of pumping enter in the well 12.For example, the different chemical goods that are used for carrying out pre-flushing, main flushing and post-flush operation can be stored in container 18.Different chemicals can flow to well 12 continuously or simultaneously by system 10.In some cases, container 18 can comprise heater, and for example resistance heater or heat exchanger to regulate the temperature of chemicals, for example, heat chemicals, thereby increase the flow of chemicals by tubular articles 24.

Tubular articles 24 can be configured to carry out UNICOM between

pumping unit

14,16, for example, is under the situation of umbilical at tubular articles 24.Therefore, the signal that umbilical can be carried the chemicals that is used for scale preventative squeeze treatment operation and transmit the sensor of locating from each end that is positioned at umbilical, transmission of control signals for example is used to control the operation of

pumping unit

14,16, and/or transmission power for example is used to operate pumping unit 14,16.More particularly, signal from the sensor 60 that is positioned at submarine site 22 places can be transferred to the controller 40 that is positioned at surperficial facility 20 places by umbilical, controller 40 can be provided for operating the operational power of second level pumping unit 16 and be used to control one of the operational order of operation of second level pumping unit 16 or both by umbilical, injects thereby control is used for the material of scale preventative squeeze treatment under water.Signal transmission by tubular articles 24 can utilize the signal of telecommunication of the conductance element (for example, copper cash) by tubular articles 24 or utilize the optical signal of the photocon (for example, optical fiber) that passes through tubular articles 24 to carry out.In some cases, second level pumping unit 16 can the unsteady lead of umbilical terminal fitting 68 (flying lead) provides power by subsea production tree 62 or by being connected under water.

In some cases, for example, because the diameter of tubular articles 24 and volume are usually less than the exploitation pipeline that adopts multiple stage pumping arrangement of the present invention, therefore, the quantity of material therefor (for example, chemical scale inhibition agent) is less than relatively by exploitation pipeline or flowline and material is flowed to needed quantity in the conventional method of underwater well 12.In addition, if tubular articles 24 be umbilical or be non-ly be used to transport other lower pressures of the extraction fluid of artesian well 12, than the member of minor diameter, so then can reduce the quantity that during injecting well 12, is pumped into the residue and the solid particle of well.That is to say, although pipeline or flowline are typically held this residue and solid particle, it is injected in the well 12 when pipeline or flowline are used for injecting fluid into well 12, and the tubular articles 24 that is used for scale preventative or other materials are injected the separation of well 12 by use can avoid injecting residue and solid particle usually.It should also be appreciated that the tubular articles 24 that is used for the separation of injection material by use, can avoid or reduce usually with by exploitation pipeline or flowline injection material relevant downtime.

Those skilled in the art can obtain many improvement of the present invention and other embodiment under the situation that has benefited from the instruction that manual and accompanying drawing introduce.Therefore, should be appreciated that the present invention is not limited to disclosed specific embodiment, improve with other embodiment also falling within the scope of claims.Although used particular term here, they only play general and descriptive effect, are not limited to.

Claims

1. one kind is used for material from the container transport that is positioned at surperficial facility to submarine site and be delivered to the system of underwater well, and described system comprises:

Be positioned at surperficial facility place and be configured to receive first order pump from the material of described container;

Extend to the tubular articles of submarine site from described first order pump; With

Be positioned at described submarine site and be connected to the second level pump of described tubular articles, described first order pump is configured to material is flowed to second level pump by described tubular articles under first pressure, and described second level pump is configured to receive from the material of described tubular articles and with material and is injected in the well under being higher than second pressure of described first pressure.

2. the system as claimed in claim 1, wherein, described tubular articles is flexible umbilical, described umbilical defines first tubular conduit that is used to receive and carry material, and this umbilical also defines second tubular conduit with at least one the conduction cable that is used for communicating between surperficial facility and submarine site.

3. system as claimed in claim 2, wherein, described conduction cable be configured to be provided for to control second level pump operation the signal of telecommunication and be used for electric power at least a that operation to second level pump provides power.

4. the system as claimed in claim 1, wherein, described second level pump is arranged in the seabed.

5. the system as claimed in claim 1, wherein, described second level pump is arranged to as being positioned at the part of the production tree at well head place under water.

6. the system as claimed in claim 1, wherein, described container is configured to provide the scale preventative squeeze treatment chemicals that is suitable for suppressing fouling, and described second level pump is configured to described chemicals is injected in the well to carry out the scale preventative squeeze treatment of well.

7. the system as claimed in claim 1, wherein, described tubular articles is the flexible pipe of being made by thermoplastic.

8. one kind is used for material from the container transport that is positioned at surperficial facility to submarine site and be delivered to the method for underwater well, and described method comprises:

Operation is positioned at the first order pump at surperficial facility place, by extend to the material of the tubular articles pumping of submarine site from described container from described first order pump; With

Operation is positioned at submarine site and is connected to the second level pump of described tubular articles, thereby material is injected into the well from described tubular articles.

9. method as claimed in claim 8, the flexible umbilical that provides as tubular articles also is provided, wherein, operation first order pump comprises the described material of the first tubular conduit pumping by umbilical, and described method also is included at least one conduction cable of communicating by letter with submarine site with surperficial facility is set in the umbilical.

10. method as claimed in claim 9 also comprises the signal of telecommunication from surperficial facility is transferred to the operation of submarine site with control second level pump by described conduction cable.

11. method as claimed in claim 9 comprises that also the electric power from surperficial facility is offered submarine site by cable provides power with the operation of giving second level pump.

12. method as claimed in claim 8, wherein, operation first order pump is included in and is higher than the pressure drop that produces on the tubular articles and is lower than in the pressure drop that produces on the tubular articles and material is injected under the pressure of the required pressure sum of well, and material is offered tubular articles.

13. method as claimed in claim 8 also is included in the seabed second level pump is set.

14. method as claimed in claim 8 also comprises second level pump is arranged to as being positioned at the part of the production tree at well head place under water.

15. method as claimed in claim 8, wherein, operation first order pump and second level pump comprise scale preventative squeeze treatment chemicals injection well, thereby carry out the scale preventative squeeze treatment of well and be suppressed at fouling in the well.

16. the flexible pipe that provides as tubular articles also is provided method as claimed in claim 8, described flexible pipe is made by thermoplastic.