NO326575B1 - Hydrocarbon production system and vessel and method for intervention on subsea equipment - Google Patents

Abstract

System for operation and service of at least one hydrocarbon-producing well (24) and of equipment (27,35) for further transport of the well flow and any equipment (26,28) for treatment of the well flow, where said equipment and at least one well are arranged under a water surface, in particular on a seabed or a seabed where the system comprises at least one pipeline (32) for transporting the well flow to the desired destination (33); at least one pressure boosting unit (27) for driving the well flow through the at least one pipeline (32); a vessel (1 0) for operation and service of the at least one well (24) and the equipment that is arranged below the water surface, including means for managing operation and service functions, as well as means (60,61,62) for carrying out an intervention on equipment located below the water surface; means (14) for the production of energy for the operation of equipment arranged below the surface of the water; means (22) for transferring energy from the means (14) for producing energy to at least the at least one pressure increase unit (27) and possibly other underwater equipment; as well as means for communication with and control of the at least one well (24) and other equipment (35) which is arranged below the water surface. Furthermore, a method is proposed for carrying out an intervention on underwater equipment (64) where the operating and service vessel (10 ) is positioned so that means for lowering a tool system (62) and any spare parts lie mainly above the underwater equipment (64); the operating and service vessel (10) is possibly disconnected from its anchoring system as well as communication line(s), umbilical cord(s) and other things that connect the vessel to one or more wells (24) and equipment that is arranged below the water surface, so that it can be positioned above the underwater equipment ( 64); the tool system (62) and any spare parts are lowered to the underwater equipment (64); necessary service or repair of the underwater equipment (64) is carried out and, if necessary, both service and repair of the underwater equipment (64) is carried out; the tool system (62) is lifted up to the operating and service vessel (1 0).

Description

The present patent application relates to a system for operating and servicing hydrocarbon-producing wells, a vessel for use in the operation and maintenance of hydrocarbon-producing wells and a method for intervention on underwater equipment that is in use in connection with the production and onward transport of a well stream.

It is a known principle to produce oil and gas from a ship that is anchored/DP positioned over an underwater field of hydrocarbons. Until now, this ship's main task has been to receive, process and store the well flow. The unprocessed well stream is processed and electrical power and other energy required to drive the process is generated on board the ship. In recent years, systems have been developed where parts of the process equipment are placed on the seabed, for example multiphase pumps and water injection pumps. In such cases, electrical power is carried in a riser/umbilical system from the ship down to the bottom-mounted equipment. For environmentally vulnerable areas, it is desirable to reduce environmental exposure during oil and gas production to a minimum. Concepts are therefore being considered where the starting point is to transport unprocessed well flow in pipelines from the field to an onshore plant or processing plant on other nearby platforms or floats for further processing. The main challenge with this type of concept seems to be the pipe transport itself (flow assurance issues) and the operation of pressure boosting equipment such as multiphase pumps and wet gas compressors with associated electrical power systems. For large distances between fields and the land-based facility, offshore power generation seems to be the most attractive solution.

Known technology that is relevant to the invention includes NO Bl 309207. This publication deals with a system for energy production for the operation of underwater equipment in that a proportion of the oil or gas is taken out of the well flow and brought up to a platform for the production of the necessary energy. This energy is preferably transferred as hydraulic energy to the seabed by transferring a suitable liquid under pressure to the underwater equipment. According to this publication, the system does not indicate that the platform can be used for an intervention on underwater equipment.

Furthermore, a platform (or buoy) is known from WO Al 99/50526 which is preferably small and unmanned and permanently anchored above underwater equipment. The underwater equipment here constitutes a wellhead or a manifold with access to several wellheads. Furthermore, a riser is shown extending from the platform to the underwater equipment as various equipment such as spike equipment, equipment for injection of chemicals and to prevent blowout, equipment for control and service of the wellhead or wellheads. The publication does not specify equipment that can be lowered from the platform for service/repair of equipment other than the wellhead.

US 6,2363,971 Bl shows a system for underwater production of hydrocarbons where an intermediate platform is arranged between the sea bed and the water surface and a raft on the surface. The well flow is taken up to the intermediate platform on which, among other things, pumping equipment and measuring equipment for volume flow are arranged. Gas from the produced well stream can be separated and taken up to the fleet where it is used for the production of electrical energy, while a riser, connected to the intermediate platform, transports the rest of the well stream to a processing destination near the hydrocarbon field.

In GB 2 292 760 A, a production vessel is shown which, in its stern, is equipped with a receptacle which can receive a buoy, and around which the vessel can swing, anchored to the bottom. The risers that transport the well flow are connected to the buoy. At the other end of the vessel, a rig is arranged for use when maintaining the production well.

US 6,364,021 B1 shows a system comprising a riser from the wellhead to a floating buoy on the water surface. Furthermore, the system includes a vessel that can add to the buoy and carry out predetermined maintenance operations.

Reference should also be made to the publications WO A2 03/086976 and US 6547536.

In relation to prior art, the proposed system seeks to create a comprehensive system for the production of hydrocarbons from underwater wells which will have a number of advantages.

Since the hydrocarbons will not be processed on the vessel, the usual processing equipment will be redundant, and this entails a number of advantages. As the vessel will not be equipped with process equipment, the usual "regulatory regime" that applies to production vessels is avoided, which will make the vessel cheaper to build. When the vessel does not have processing equipment on board, space is also freed up that can be used to store, for example, equipment for use in the intervention of underwater equipment, spare parts, spikes and equipment for sending out spikes, of chemicals to be injected into the well stream, fuel for energy production, etc. The fact that the well stream is not taken up to the vessel for processing also reduces the environmental risk associated with production, which will only become a more important aspect of offshore production of hydrocarbons in the future. Another advantage of the system is the possibility of simultaneous intervention and production, which can be important for maintaining flow and temperature in the transport pipe.

One purpose of the invention is thus to provide a system for offshore production of hydrocarbons where the risk of accidents causing environmental damage is reduced.

Another purpose of the invention is to provide a system which makes it possible to combine power generation and intervention on underwater installations.

Furthermore, it is also a purpose of the present invention to provide a system for offshore production of hydrocarbons with improved safety for uninterrupted production of hydrocarbons, in particular to ensure that the transport system for the hydrocarbons is in continuous operation.

It is also a purpose of the invention to provide a system which entails simplified operation and maintenance of underwater equipment, such as a well, well head, pressure boosting equipment and other equipment which is arranged below the water surface.

This is achieved by a system according to claim 1, a vessel according to claim 14 and a method according to claim 21. Further preferred embodiments of the invention are indicated in the independent claims.

A system has been developed for the operation and service of at least one well that produces hydrocarbons, and of equipment for further transport of the well flow and any equipment for treating the well flow. The equipment and at least one well are arranged below a water surface, preferably on a seabed or a seabed. The system further comprises at least one pipeline for transporting the well flow to the desired destination, and at least one pressure boosting unit for driving the well flow through the at least one pipeline, a vessel for operating and servicing the at least one well and the equipment that is arranged below the water surface, means for transfer of chemicals from the vessel to the well streams and the at least one pipeline and means for injecting the chemicals into the well stream and the well stream into the pipeline, means for introducing spikes into the at least one pipeline and means for transferring spikes from the vessel to the at least one pipeline, means for production of energy for the operation of equipment arranged below the surface of the water, means for transferring energy from the means for the production of energy to at least the at least one pressure increase unit and any other underwater equipment. The system is characterized by the vessel comprising an anchoring system comprising a mooring system, a dynamic positioning system or a combination of the two, and where the anchoring system is arranged in such a way that the vessel can rotate about or revolve around the anchoring system. Furthermore, the system includes tool systems that can be lowered from the vessel to carry out an intervention on equipment that is arranged below the water surface, as well as means for communication with and control of at least one well and other equipment that is arranged below the water surface.

The system can also include two or more hydrocarbon-producing wells. In that case, a pressure increase unit can be arranged at each well or the system can be arranged with a pressure increase station where the well streams from the hydrocarbon producing wells are collected and pressurized. From the pressure boosting station, at least one pipeline is arranged for onward transport of the well flows to the desired destination.

In a preferred embodiment, the vessel is provided with an anchoring system comprising a mooring system, a dynamic positioning system or a combination of the two.

The anchoring system will advantageously be arranged so that the vessel can rotate about the anchoring point on the vessel or revolve around the anchoring system when the vessel is anchored via one or more mooring lines to an anchored buoy. The buoy can be arranged so that it lies in the water surface or it can be arranged so that it lies between the water surface and the bottom. The vessel will then be able to turn around the buoy. It will also be possible to anchor the vessel directly to an anchorage on the sea or the seabed, and the vessel will then be able to turn around this point. When the vessel is anchored to a buoy, risers and umbilicals can be arranged so that they either extend from the vessel to the buoy and from there to a swivel device at the anchorage on the bottom, or they can extend directly from the vessel down to the swivel device at the anchorage on the bottom.

When one or more nearby wells are developed, it will be advantageous to place the necessary equipment to be arranged below the water surface, below and within the curve described by the vessel's outer point as the vessel rotates around, or revolves around, the anchoring system, i.e. the vessel rotates about an anchor point in the vessel or swings around a buoy to which the vessel is moored. This will make it easy to position the vessel when maintenance or repair is to be carried out on equipment that is located below the water surface, and preferably on the sea or the seabed.

The vessel is advantageously arranged so that it can be disconnected from its anchoring system and riser and umbilical system for positioning over the intervention object on the sea or seabed if this object is not within the curve as mentioned above. This will also be advantageous in bad weather where it may be necessary to quickly disconnect the anchoring system and the riser and umbilical cord system.

The means for the production of energy for the operation of equipment that is arranged below the water surface can either be arranged entirely on the vessel or entirely below the water surface. Optionally, parts of the means for energy production can be arranged on the vessel, while the rest of the means are arranged below the water's surface.

In order to obtain energy, the system can be arranged with means below the surface of the water, preferably on the sea or the seabed in connection with the well or at least one pipeline, to extract part of the gas in the well flow as well as means to transport the gas up to the vessel. The transport of gas up to the platform can be done using a separate pipeline or through an umbilical, which is also used for other purposes in connection with the operation of the well.

One of the advantages of the well stream of hydrocarbons not being taken up to the vessel for processing is that the vessel is not equipped with all the processing equipment that production vessels are usually equipped with today. This absence of processing equipment for processing the well flow means that a lot of space is freed up on the vessel. The vessel is therefore equipped with storage capacity for necessary input factors in connection with operation and maintenance of the system, such as chemicals for injection into the well stream, spikes and equipment for sending and receiving spikes, spare parts and equipment for use in intervention on equipment below the water surface, if necessary fuel for energy production.

To ensure that the flow of hydrocarbons in the at least one pipeline does not stop, the system can be provided with means for transferring chemicals from the vessel to the at least one pipeline. These are chemicals that are injected to avoid wax and hydrate formation in the pipes and can be transferred from the vessel using a separate pipeline or through an umbilical that is also used for other purposes in connection with the operation of the well or wells. The system is also equipped with the necessary equipment such as valves, for injecting the chemicals into the well flow in the pipeline.

The system will also advantageously include means for introducing and receiving spikes in the at least one pipeline and means for transferring spikes down from the vessel to the at least one pipeline or from the at least one pipeline to the vessel. These could be spikes for scraping and cleaning the at least one pipeline to avoid production stoppages or they could be intelligent spikes sent through the at least one pipeline to inspect the integrity of the pipeline.

The system can also advantageously include heating means for heating the at least one pipeline as a further preventive measure against a stoppage in the production of hydrocarbons, as well as means for transferring the necessary energy from the vessel to the heating means arranged in connection with the at least one pipeline. The energy that is transferred from the vessel to the at least one pipeline will preferably be electrical energy, and the means for transferring the energy from the vessel to the at least one pipeline will therefore be an electric cable. This can be its own separate cable or it can form part of an umbilical cord. These heating means for the at least one pipeline can extend over a shorter or longer distance along the pipeline that transports the hydrocarbons to the desired destination where processing will take place. Optionally, the heating means can be arranged along the entire length of the pipeline.

In addition to the equipment already mentioned above, the system will also be able to include further equipment for treating the well flow, arranged below the water surface, and in particular on the seabed or seabed. This can include equipment for mixing, sand separation, water separation.

Furthermore, it will be necessary to monitor the production of hydrocarbons and the rest of the system. The system will therefore advantageously include means for communicating production and control data from at least one well and other equipment that is arranged below the water surface to the vessel. Correspondingly, the system will advantageously include means for transmitting control signals from the vessel to the at least one well and other equipment arranged below the water surface. Such signals will typically be sent through an umbilical cord that contains both electrical cables for electrical signals and pipes for hydraulic or pneumatic signals.

A vessel is also provided for use in connection with the operation and maintenance of a system for the production of a well stream containing hydrocarbons from at least one well, where the at least one well and the equipment are arranged below a water surface, in particular on a sea bed or a sea bed . The vessel is equipped with a system for anchoring, e.g. a mooring system, a dynamic positioning system or a combination of the two.

Furthermore, the vessel can advantageously include means for the production of energy for the operation of equipment that is arranged below the water surface, and also any heating of at least one pipeline that is arranged below the water surface.

Furthermore, the vessel can advantageously include means for transferring chemicals to at least one pipeline which is arranged below the water surface. The chemicals are added to the well stream to prevent hydrate formation and they can be transferred from the vessel to at least one pipeline through a separate pipeline or through an umbilical which can also be used for other purposes in connection with the production of the hydrocarbons.

Furthermore, the vessel can advantageously include storage space for storing the chemicals to be injected into the pipeline as explained above.

Furthermore, the vessel can advantageously include means to carry out an intervention on equipment that is arranged below the water's surface. These means include tool systems that can be lowered through an opening in the vessel or from a lifting arrangement that is normally located at the stern of the vessel. Normally, the mooring point and the location of the equipment for lowering and raising the tool systems will be located in different parts of the vessel so that the vessel covers a larger area when it rotates or swings around the anchorage. The tool system used in a given situation will depend on the type of equipment to be worked on and the operations to be performed on the equipment.

Furthermore, the vessel can advantageously include storage space for the storage of tool systems and equipment used in the intervention of equipment under the water surface and spare parts for said equipment under the water surface. This will especially be parts for equipment that is critical for the production of hydrocarbons and to ensure that the well flow can flow uninterrupted through at least one pipeline.

Furthermore, the vessel can advantageously include means for transferring spikes to a pipeline which is arranged below the water surface. A spike is transferred from the vessel to an underwater receiving station either in a tool that is lowered and connected to the at least one pipeline or in a flexible transfer riser that can be fixedly connected to the at least one pipeline's spike dispatch system that can be hoisted up to the vessel if needed. The spike is installed in a controlled environment on the vessel and is led down in a controlled manner through the flexible riser down to the spike receiving system. It is relevant to send both advanced instrument spikes through the pipe to check the integrity of the pipe and to send simpler scraping spikes to remove wax, sand, water etc. that have deposited in the pipe.

Furthermore, the vessel can advantageously include storage space for storing spikes and equipment for transferring spikes to the pipeline.

The anchoring system can be arranged so that the vessel rotates about an anchoring device on the vessel. Anchor lines extend from the anchoring device which anchor the anchoring device and thereby also anchor the vessel. Alternatively, the vessel can turn around the anchoring system by the vessel being anchored via a mooring line to an anchored buoy. The vessel will then be able to turn around the buoy. It will also be possible to anchor the vessel directly to an anchorage on the sea or the seabed, and the vessel will then be able to turn around this point.

The vessel will advantageously be arranged so that it can be disconnected from the anchorage as well as communication line(s), umbilical cord(s) and other things that connect the vessel to at least one well and the equipment that is arranged below the water's surface. As mentioned above, this will be particularly advantageous in cases where bad weather, possibly in combination with an accident or accident, requires the vessel to disconnect the aforementioned equipment.

The means for producing energy on board the vessel may comprise at least one generator set. This can typically be a diesel engine or a gas turbine that drives an electric generator. The vessel will then advantageously also include storage space for the necessary fuel such as diesel or gas, for the operation of at least one generator set. The vessel can advantageously be equipped with two or more generator sets so that the vessel has at least one set in reserve in case one set breaks.

The means to produce the energy to operate the at least one well and equipment arranged below the water surface may also include a small processing plant. In this case, an adapted amount of gas will be taken out of the well stream and taken to the vessel for processing. The vessel will then also be equipped with at least one generator set for the production of energy from the processed gas. As above, the vessel will advantageously be equipped with two or more generator sets in the event that operational problems arise with one set.

The vessel is further advantageously provided with means to transfer the produced energy from the vessel to the underwater equipment and possibly the at least one pipeline. This can be a separate electrical cable or an electrical cable that is part of an umbilical cord. If the energy transmitted is in the form of hydraulic or pneumatic energy, these means could be a separate pipeline or a pipeline that is part of an umbilical.

As previously mentioned, parts or all of the equipment for energy production can be arranged below the water surface instead of on the vessel.

A method is also provided for intervention on equipment in use in connection with the production of hydrocarbons from at least one well and equipment for onward transport of the well flow, where said equipment is arranged under a water surface, in particular on a sea bed or an ocean bed. The intervention is carried out from a vessel that is specially arranged for the operation and maintenance of equipment that is arranged below the water's surface. The vessel is equipped with a system for anchoring, e.g. a mooring system, a dynamic positioning system or a combination of the two, where the anchoring system is arranged so that the vessel can rotate about or revolve around the anchoring system. Furthermore, the vessel is equipped with means to carry out an intervention on underwater equipment which is arranged below the water surface, and means to lower the tool system and any spare parts down to the underwater equipment. The procedure for carrying out the intervention consists of the following steps: - the operating and service vessel is positioned so that the means for lowering the tool system and any spare parts lie mainly above the underwater equipment,

the operational and service vessel is possibly disconnected from its anchoring system as well as communication line(s), umbilical cord(s) and other things that connect the vessel to one or more wells and equipment that are arranged below the water surface, so that

can be positioned above the underwater equipment,

- the tool system and any spare parts are lowered to the underwater equipment, the necessary service or repair of the underwater equipment is carried out, - if necessary, both service and repair of the underwater equipment is carried out,

- the tool system is lifted up to the operating and service vessel.

When the operating and service vessel is positioned to lower the necessary tool systems and any spare parts for carrying out an intervention, for example underwater currents may make it necessary to position the vessel somewhat to the side instead of lying vertically directly above the intervention object. The expression "mainly over" must therefore be understood so that the vessel can be positioned somewhat to the side in relation to a vertical line from the intervention object if the prevailing conditions so require.

In what follows, an embodiment of the invention will be described with reference to the figures, where:

Figure 1 shows the system with some of its elements,

Figures 2-4 show alternative ways of anchoring the vessel,

Figure 5 shows an intervention situation on equipment that is placed below the water surface, Figure 6 shows an example of how equipment for sending spikes can be arranged.

Figure 1 shows a schematic overview where most of the system's main components are included. A vessel 10 or another floating structure is held in position by means of an anchoring system where anchor lines 11 are attached to a lower part of the swivel system 13 which is arranged on the vessel 10, so that the vessel can rotate about the anchoring system. At its other end, the anchor lines are anchored at the anchors 12. The vessel or the floating structure 10 can also be anchored in alternative ways and will be explained further down.

The ship is positioned in a suitable position in relation to a

underwater production system for oil and gas. The production system can be organized with one or more wells 24 with well frames 34 with at least one integrated pressure increase unit 27 on each frame or the well flows 25 can be collected in a central pressure increase station 35, where the pressure increase is provided by at least one pressure increase unit 27, which includes one or more pumps or compressors . If necessary, several such pressure-increasing stations 35 can be arranged. In front of the at least one pressure-increasing unit 27, pre-processing means 26 can be arranged for pre-processing the well flow and likewise, after the at least one pressure-increasing unit 27, post-processing means 28 can be arranged for post-processing the well flow. These pre- and post-processing means can be, for example, mixers, equipment for sand separation, equipment for water separation, equipment for chemical injection. The bottom-mounted equipment communicates with the ship through one or more risers 20 or umbilicals 21.

The vessel 10 is provided with at least one adapted power generation unit 14 which produces electrical power and delivers it through the vessel's swivel system 13 and further through an electrical umbilical cord 22 to a termination point 30. If necessary, multiple electrical umbilical cords 22 can be installed. At least one power regulation unit 15 can either be mounted on the vessel in its entirety, or all or parts of this at least one unit 15 can be mounted underwater in connection with associated consumers such as pumps and compressors.

For the operation of the vessel's at least one power generation unit 14, two possible solutions are proposed. The vessel 10 can bring with it the necessary fuel, such as diesel, stored in separate fuel tanks 16 on the vessel. Refilling of these tanks 16 can take place from other ships through a conventional transfer system. Alternatively, a small part of the process stream, taken from the gas phase, can be led up to the vessel 10 through a suitable riser 23. A compact small process plant 36 pre-processes this gas stream so that it can be used as fuel in the power generation unit 14. Such a process plant can also be arranged underwater, preferably on the bottom. Optionally, parts of the process plant can be arranged on the vessel while the rest is arranged underwater. To ensure regularity and fuel during start-up and shutdown phases, it may also be relevant to have a compact, small intermediate storage 19 for gas. Alternatively, such operating conditions can be solved by supplying the power generation unit 14 with fuel from the ship's tanks 16. It may also be relevant to arrange parts or all of the power generation equipment under water if public regulations or otherwise indicate that this is necessary.

In Figures 2-4, various alternative ways in which the vessel 10 can be anchored are indicated. In general, the vessel or floating structure can be anchored using a mooring system or a dynamic positioning system or a combination of the two. In Figure 2, the vessel 10 is moored to a floating buoy 40 via a mooring line 47 which is connected to the vessel and the buoy by suitable connections 41,42. The buoy is via at least one anchor line 48 anchored to a swivel device 44 which is arranged on an anchor 45. One or more risers 49 and one or more umbilical cords 46 run from the ship down to the swivel 44 on the bottom and are led from there to underwater equipment (not shown in the figure). Figure 3 shows an anchorage where riser 50 and umbilical cords 51 together with one or more anchoring lines 52 run directly from the vessel 10 down to a swivel device 44 which is connected to an anchor 45. The riser and umbilical cord system continues to, for example, a pressure boosting station 35 or other underwater equipment. Figure 4 shows a vessel 10 where the riser 56 and umbilical cord(s) 57 together with one or more mooring lines 59 are connected to a buoy 55. The buoy is anchored via one or more anchor lines 58 to a swivel device 44 which is connected to an anchor 45. Riser pipe 56 and umbilical cord(s) 57 are led further from buoy 55 to swivel 44 and from there to underwater equipment, such as a pressure boosting station 35. In Figures 2 and 4, the buoys (40,55) are shown arranged floating in the water surface. These buoys (40,55) can also be arranged submerged, so that they are located between the water surface and the sea or the seabed, which will provide a simpler riser system.

The vessel 10 can be positioned so that by turning the vessel to given positions it can be used as an intervention platform for underwater-mounted equipment such as for example pressure boosting station 35, i.e. the at least one pressure boosting unit, the pre- and post-processing means 26, 28 etc., as shown in Figure 5. Alternatively the vessel 10 can be disconnected from its anchoring and riser system and freely position itself over the intervention object. When the vessel 10 is in position, relevant tool systems 62 (Figure 5) are conventionally brought down to underwater equipment 63,64 from the vessel through either an opening 60 in the vessel or from a lifting arrangement 61 which will normally be positioned at the stern of the vessel 10. When the vessel 10 is positioned without disconnection, the intervention system can in many cases be arranged so that the vessel can continue to supply electrical power and other input factors to parts of the production system that are not affected by the current and simultaneous intervention operation.

An important operation that can be carried out from the vessel 10 will be the installation and operation of an underwater system for sending spikes. A spike is transferred from the vessel 10 to its underwater receiving station either in a tool 73 (figure 6) which is connected to the pipe system through an underwater station 71, or in a flexible spike transport pipe (not shown in the figure) which is fixedly connected to the pipe system's dispatch system for spikes, and which is hoisted up to the vessel if necessary. The flexible spiked transport pipe can be laid down on the bottom or hung from under the vessel in a suitable way when it is not in use. The spike is installed in a controlled environment on the vessel and is brought down in a controlled manner through the riser to the spike reception system. It may be relevant both to send advanced instrument spikes through the pipe to check the pipe's integrity and to send simpler scraping spikes to remove wax, sand, water etc. that have deposited in the pipe. Equipment, spikes and any spare parts used in connection with spikeing and other intervention on the underwater installations in the system can be stored in suitable storage spaces 18 (figure 1) on board the vessel 10.

In addition to power generation and control functions, in most cases it will be desirable to add chemicals to the well stream to ensure the integrity of the pipe and an effective flow (corrosion, wax and/or hydrate inhibitors) in the pipe system 32 to land 33 where further processing will find place. These chemicals can advantageously be stored in separate tanks 17 (figure 1) on the vessel 10 and transferred to the underwater equipment through the umbilical cord system. By injecting the chemicals on the suction side of the pressure increase unit 27 (pump(s)/compressor(s)), you will get a very good distribution over the liquid volume, i.e. good mixing.

It may also, either under special conditions (for example at start-up), or on a permanent basis, be relevant to supply electric power through at least one heating means 31 (figure 1) for direct heating of the pipeline system, from the well or other equipment placed on sea or the seabed and a distance towards land 33 or possibly all the way to land 33. Such a system can also be used together with pipe monitoring systems so that the vessel 10 can efficiently regulate process equipment and injection equipment in relation to the condition of the transport system (pipe).

The vessel 10 will also be a platform for the necessary control and management systems for parts of, or preferably all, underwater mounted equipment. This can be operated from shore or locally from the vessel.

Claims (21)

1. System for operation and service of at least one hydrocarbon-producing well (24) and of equipment (27,35) for onward transport of the well flow and any equipment (26,28) for treatment of the well flow, where said equipment and at least one well are arranged under a water surface, in particular on a seabed or a seabed, which system comprises - at least one pipeline (32) for transporting the well flow to the desired destination (33), - at least one pressure increase unit (27) for driving the well flow through the at least one pipeline (32 ), - a vessel (10) for operation and service of the at least one well (24) and the equipment arranged below the water surface, - means (21,46,51,57) for transferring chemicals from the vessel (10) to the well streams (25) and the at least one pipeline (32) and means for injecting the chemicals into the well flow (25) and the well flow into the pipeline (32), - means (73) for introducing spikes into the at least one pipeline (32) and means for transfer of spikes from the vessel to the mi nst one pipeline (32), - means (14,15) for the production of energy for the operation of equipment that is arranged below the surface of the water, means (22) for transferring energy from the means (14,15) for production of energy for at least the at least one pressure increase unit (27) and any other underwater equipment, characterized in that the system further includes that the vessel (10) comprises - an anchoring system that comprises a mooring system, a dynamic positioning system or a combination of the two, and where the anchoring system is arranged such that the vessel can rotate about or revolve around the anchoring system, - tool systems (62) that can be lowered down from the vessel (10) for carrying out an intervention on equipment arranged below the water surface, - means for communication with and control of the at least one well (24) and other equipment (35) arranged below the water surface. 2. System according to claim 1, characterized in that at least one pressure increase unit (27) is arranged at each well (24). 3. System according to claim 1, characterized in that the system comprises a pressure boosting station (35) where the well flows (25) from the hydrocarbon-producing wells are collected and pressurized and from which at least one pipeline (32) is arranged for further transport of the well flows (25) to the desired destination. 4. System according to one of claims 1-3, characterized in that equipment that is arranged below the water surface is preferably arranged below and within the curve that the vessel's outer point describes as the vessel rotates about, or revolves around, the anchoring system. 5. System according to one of claims 1-4, characterized in that the means (14,15) for the production of energy for the operation of equipment arranged below the water surface are either arranged entirely on the vessel or entirely below the water surface. 6. System according to one of claims 1-4, characterized in that parts of the means (14,15) for producing energy for the operation of equipment arranged below the water surface are arranged on the vessel (10), while the rest of the means (14,15) are arranged below the water surface. 7. System according to one of claims 1-6, characterized in that the system is arranged with means for extracting part of the gas in the well flow as well as means (23) for transporting the gas to the means (14,15) for the production of energy. 8. System according to claim 7, characterized in that the means (14,15) for producing the energy for the operation of equipment and the at least one well (24) which is arranged below the water surface, also comprise a processing plant (36), adapted for processing the gas which is taken out of the well stream for operation of the power generation unit (14). 9. System according to one of claims 1-8, characterized in that the vessel (10) is provided with storage capacity (17,18) for necessary input factors in connection with operation and maintenance of the system, such as chemicals for injection into the well stream, spikes and equipment for sending and receiving spikes, spare parts and equipment for use during intervention on equipment below the water surface, possibly necessary fuel for energy production. 10. System according to one of claims 1-11, characterized in that the system comprises heating means (31) for heating the at least one pipeline (32), and means (22) for transferring the necessary energy from the means (14,15) for producing energy to the heating means (31). 11. System according to one of claims 1-10, characterized in that the system also includes additional equipment (26,28) for treating the well stream (25) arranged below the water surface, and in particular on the seabed or seabed, such as equipment for mixing, sand separation, water separation. 12. System according to one of claims 1-11, characterized in that the system includes means (21,46,51,57) for communicating production and control data from the at least one well (24) and other equipment arranged below the water surface to the vessel (10). 13. System according to one of claims 1-12, characterized in that the system comprises means (21,46,51,57) for transmitting control signals from the vessel (10) to the at least one well (24) and other equipment arranged below the water surface. 14. Vessel for operation and maintenance in connection with the production of a well stream (25), which contains hydrocarbons, from at least one well (24) and maintenance of production equipment and equipment for further transport of the well stream, where the at least one well (24) and the equipment is arranged under a water surface, in particular on a seabed or a seabed, characterized in that the vessel further comprises: - a system for anchoring, including a mooring system or a dynamic positioning system or a combination of the two, which anchoring is arranged in such a way that the vessel (10) can rotate about or revolve around the aforementioned anchoring, - means (21,46,51,57) for transferring chemicals to at least one pipeline (32) which is arranged below the water surface, - storage space (17) for storing chemicals to be injected into the pipeline (32), - means (60,61 ) to carry out an intervention on equipment arranged below the water surface, - storage space (18) for storing equipment (62) for use during intervention of equipment below the water surface and spare parts for said equipment below the water surface, - means for transferring spikes to a pipeline (32) which is arranged below the water surface, - storage space (18) for storing spikes and equipment for transferring spikes to the pipeline. 15. Vessel according to claim 14, characterized in that the vessel (10) is arranged so that it can be disconnected from the mooring as well as communication lines, umbilical(s) and other things that connect the vessel to at least one well and the equipment that is arranged below the water surface. 16. Vessel according to one of claims 14-15, characterized in that the vessel includes means (14,15) for the production of energy for the operation of equipment arranged below the water surface, as well as any heating of at least one pipeline (32) arranged below the water surface. 17. Vessel according to claim 16, characterized in that part of the means (14,15) for the production of energy are arranged on the vessel, while the rest of the means (14,15) are arranged below the water surface. 18. Vessel according to one of claims 14-17, characterized in that the means (14,15) for producing energy comprise at least one generator set. 19. Vessel according to claim 18, characterized in that the vessel (10) includes fuel tanks (16) for the necessary fuel for operating the at least one generator set. 20. Vessel according to one of claims 14-19, characterized in that the vessel (10) comprises means (22) for transferring the produced energy from the vessel (10) to the underwater equipment and possibly the at least one pipeline (32). 21. Procedure for intervention on equipment in use in connection with the production of a well stream containing hydrocarbons from at least one well (24), and equipment (35) for further transport of the well stream (25), where said equipment is arranged below a water surface, in particular on a seabed or a seabed, and where the intervention is carried out from a vessel (10) for the operation and maintenance of equipment that is arranged below the water surface, where the vessel (10) is arranged in such a way that it can rotate about or revolve around its anchoring system, and which vessel comprises means for carrying out an intervention on underwater equipment (64) which is arranged below the water surface, and means (60,61) for lowering the tool system (62) and any spare parts down to the underwater equipment (64), characterized in that - the operation and service vessel (10) is positioned so that means for lowering a tool system (62) and any spare parts lie mainly above the underwater equipment (64), - the operation and service vessel (10) is possibly disconnected from its anchoring system and communication line(s) , umbilical(s) and other things that connect the vessel to one or more wells (24) and equipment that is arranged below the water surface, so that it can be positioned above the underwater equipment (64), - the tool system (62) and any spare parts are lowered to the underwater equipment ( 64), necessary service or repair of the underwater equipment (64) is carried out, - if necessary, both service and repair of the underwater equipment (64) are carried out, - the tool system (62) is lifted up for operation and the service vessel (10).