RU2017125498A

RU2017125498A - UNDERWATER MANIFOLD SYSTEM

Info

Publication number: RU2017125498A
Application number: RU2017125498A
Authority: RU
Inventors: Кнут СВЕБЕРГ; Бьёргульф Хаукелидсетер ЭЙДЕСЕН
Original assignee: Статойл Петролеум Ас
Priority date: 2014-12-19
Filing date: 2015-12-18
Publication date: 2019-01-21
Also published as: WO2016099291A1; MX2017007818A; GB201522425D0; RU2721204C2; US20180258742A1; AU2015363810B2; RU2017125498A3; NO20171165A1; CA2970442A1; GB2536763B; BR112017012754A2; GB2536763A; AU2015363810A1

Claims

1. A modular subsea hydrocarbon production distribution unit comprising a primary manifold and one or more co-located expansion structures, the primary manifold comprising first connections for connecting to at least a riser and umbilical from a surface unit and second connections for connecting to at least one expansion structure, at least one of the expansion structures includes a secondary manifold containing first connections connected to about the second connections of the primary manifold, the second connections for connecting at least one additional extension design and the third connection for connecting at least the wellhead and / or the slab, the secondary manifold providing a flow of produced hydrocarbons from at least the wellhead and / or a template plate into the surface installation through the primary manifold and the riser, and also facilitates electrical and / or hydraulic control from the surface installation through the primary ma nifold and umbilical.

2. The node according to p. 1, characterized in that the second connections of the primary manifold provide the implementation of functions related to pumping water and / or pumping gas into the secondary manifold.

3. The node according to claim 1 or 2, characterized in that the second connections of the primary manifold provide power to the secondary manifold.

4. A node according to any one of the preceding paragraphs, characterized in that the primary manifold has third connections for connecting at least to the wellhead and / or the slab.

5. A node according to any one of the preceding paragraphs, characterized in that each of the expansion structures is located within 500 meters, and preferably within 100 meters, from the primary manifold.

6. The node according to any one of the preceding paragraphs, characterized in that the expansion design includes many secondary manifolds.

7. The node according to claim 6, characterized in that at least two manifolds from the secondary manifolds are connected in series with the primary manifold.

8. The node according to claim 6 or 7, characterized in that at least two manifolds from the secondary manifolds are connected in parallel with the primary manifold or with another secondary manifold.

9. An assembly according to any one of the preceding paragraphs, characterized in that the primary manifold comprises a valve device for controlling the flow inside various production pipelines of the primary manifold, and / or a switching device for wiring electrical energy, communication and control.

10. An assembly according to any one of the preceding paragraphs, characterized in that one of the expansion structures comprises a service unit connected to the second connections of the primary manifold or expansion structure, which service unit provides auxiliary functions and preferably provides one or more of the following: processing produced fluids, for example, separating oil from water and / or gas, processing oil, gas and water; accelerating fluid transfer using a pump or compressor; and measuring the flow of one or more fluid streams.

11. An assembly according to any one of the preceding claims, characterized in that one of the expansion structures comprises a separator unit connected to the second connections of the primary manifold or expansion structure.

12. The node according to claim 11, characterized in that the separator unit separates water from the hydrocarbon stream until the hydrocarbon stream enters the riser.

13. The node according to p. 11 or 12, characterized in that the separator unit separates the gas phase of the hydrocarbons from the liquid phase of the hydrocarbons and, if necessary, the gas phase is used to provide gas lift and / or the liquid phase is used as a displacing medium for the ejector.

14. A hydrocarbon production system comprising a surface production platform connected via a riser and umbilical to a distribution unit located on the seabed according to any one of the preceding paragraphs, the distribution unit, in turn, being connected underwater to one or more wells moreover, the hydrocarbons produced from each of these wells enter the platform through the secondary manifold of the distribution unit, the primary manifold of the distribution unit and the water separating a string, and moreover, one or more of the working fluids, electrical control signals, electrical energy and injected fluids are transmitted to each of the wells through the primary manifold and then through the secondary manifold.

15. The method of connecting the mouth of a subsea well with a surface production platform by means of a modular subsea hydrocarbon production distribution unit connected to the platform by means of a riser and umbilical, according to which:

connect the secondary manifold to the underwater node; and

connect the mouth of the subsea well with the expansion manifold of the distribution unit so that hydrocarbons produced from the wellhead flow to the platform through the distribution unit and through the riser, and one or more of the working fluids, electrical control signals, electrical energy and injected fluids media was transferred to the wellhead by means of a distribution unit and umbilical.