BR102015032308A2 - EQUIPMENT FOR CONNECTING SUBMARINE DUTHS IN BLOCK ARCHITECTURE - Google Patents

Abstract

The present invention relates to an oil and gas subsea pipeline connection equipment which comprises a machined block manifold (13) provided with at least one side inlet fluid import mandrel (11), a set of shutoff valves (12) provided on the surface of said machined block manifold (13), which also receives the header and branch lines, line support point and subsea installation device (16), line or duct submarine (14). This set is installed on a foundation structure in marine soil (15).

Description

Field of the Invention [001] The present invention relates to a pipeline connection equipment that forms undersea connecting lines between two equipment, with an offshore oil production platform, or directly to the coast. Said pipelines are used for the flow of production fluids, or for injection or service in oil wells.

Background of the Invention [002] Subsea pipeline connection systems are of great importance in the oil industry, especially in the offshore area. The need to transport fluids at great depths by connecting oil wells to platforms, two or more subsea equipment or transporting directly to shore, for example, requires kilometers of fluid transport pipelines and, consequently, equipment for connecting the said pipeline lines.

[003] Connection (or termination) equipment is mounted at intermediate points or at the end of the ducts and is typically composed of a metal foundation structure for seabed, fluid control and blocking valves, intermediate pipe runs and chucks for connection with other equipment for the importation or exportation of fluids. In addition, another structure, partly independent of the foundation structure, is required, which has the function of fixing these components and withstanding the stresses generated by the weight of the line during installation.

[004] An example of a typical subsea architecture diagram for connection between four-well manifold and Pipeline End Terminator (PLET) is illustrated in Figure 1 (state of the art). This diagram illustrates a production manifold that is used to collect fluids from wells by exporting them to line connection equipment such as a PLET via a jumper or spool.

[005] Figure 1 then shows the manifold comprising a fluid import / export mandrel (1) connected to the main line (3) by means of import block valves (2). Such main pipe (3) is connected to a jumper or spool (5) - rigid or flexible ducts containing a vertical or horizontal crimp at each end - through the connectors (6) of said jumper or spool (5) which, in turn, it is connected to the PLET shutoff valve (7) installed on the subsea line (8). All of these equipment need to be mounted in a structure (9) strong enough to withstand all stresses from the lines. Figures 2 and 3 illustrate in perspective and front views, respectively, the structure (9) of a typical PLET and the detail of the line support (10), as usually practiced by the state of the art.

[006] The architecture illustrated in Figure 1 then essentially requires a manifold, a jumper or spool, PLET, six shutoff valves and two connectors. It turns out that, in operational practice, this state of the art architecture presents two potential points of undesirable fluid leakage, which are the connectors.

In addition, a plurality of other essential components such as weld beads, secondary valves and sealing components that require a structural effort to support them are still required. Another important factor is the particularity of the underwater environment, whose ever-increasing depth exerts great pressure on the lines, making them heavier and demanding more of the installed equipment.

[008] All of these factors contribute significantly to slowing the subsea production process, increasing costs related to the design, transportation and installation of subsea equipment.

[009] The present invention advantageously addresses all of the above drawbacks of the above art as well as others arising therefrom and not cited herein.

Thus, the main object of the present invention is to provide pipeline connection equipment for underwater applications, notably for the petroleum industry.

As will be appreciated, the pipeline connection equipment of the present invention has a simplified configuration that allows the pipeline to be connected directly to the valve block and no longer to the structure as in a typical prior art architecture. Its lifting will occur through fixed or articulated eyes integral to the valve block.

The block architecture subsea pipeline connection equipment of the present invention basically comprises one or more fluid import / export chucks, one or more shut-off valves and one subsea line mounted on a manifold structure. in a machined block containing the main pipe (header) and extensions, point for line support and device for subsea installation.

BRIEF DESCRIPTION OF THE FIGURES The apparatus for connecting submarine ducts in block architecture according to the present invention may be well understood with the description of the other attached schematic figures, which in a non-limiting or restrictive manner illustrate: - Figure 4 Schematic drawing of the equipment for connection of subsea lines or pipelines, object of the present invention; Figure 5 - perspective schematic drawing of the equipment for connection of subsea lines or pipelines, object of the present invention; - Figure 6 - installation of the first end where the equipment is suspended by the subsea line or pipeline; - Figure 7 - installation of the second end where the equipment is suspended by the eye.

DETAILED DESCRIPTION OF THE INVENTION According to Figure 5, it is noted that the block architecture subsea pipeline connection equipment according to the present invention comprises a machined block manifold (13) provided with at least one import mandrel. side inlet fluid export (11), a set of shut-off valves (12) provided on the surface of said machined block manifold (13) which also receives the main pipe (fteade /) and machined extensions, point support for the line and device for subsea installation (16), line or subsea pipeline (14), this assembly being installed on a foundation structure for marine soil (15) [0015] Essentially, the architecture diagram is illustrated in Figure 4. simplified schematic of the block architecture subsea pipeline connection equipment of the present invention for use in four wells, noting that it was significantly simplified It is only intended to include connection between fluid import mandrel (11) and subsea line or pipeline (14), assembled in manifold (13) with block valve block (12). As can also be seen from Figure 4, the flow of the fluid to be transported will be in the direction (11) - (12) - (13) - (14), with the reverse flow being used in injection or service system applications. .

With this configuration of the equipment according to the present invention, the subsea line or pipeline will be fixed directly to the valve block and no longer to the line support structure as in a typical design shown in Figures 2 and 3.

Referring to Figure 6, it is noted that the equipment is provided with a lug (16), fixed or pivotally integral with that of the machined block manifold (13) that will be used for lifting the equipment, thereby reducing the structural function. only to foundation in marine soil. A direct consequence of this new configuration of the equipment of the present invention is the reduction of stress on the structural components (sheets, beams, etc.) of the equipment at the time of line installation. Also, referring to Figure 6, the lifting position of the first end of the line, with the second end suspended or not yet terminated, is illustrated therein. Referring to Figure 7, the installation position of the second end of the line with the first end already resting on the ground is illustrated.

The cleaning operation of subsea lines or pipelines will also be possible with this new concept, using curved hole machining that meets the minimum radius for the passage of pigs used in industry, and directional pigs bars at intersections. between holes.

With respect to the scenario described as prior art and depicted in Figures 1,2 and 3, the subsea pipeline connection equipment object of the present invention comprises the advantages of eliminating subsea system connection equipment, either a jumper or spool, reducing the number of pipe connectors in the project. It also reduces the number of valves in the system as it eliminates the need for a block valve in the main pipeline, in this case the header.

In addition, the subsea pipeline connection equipment object of the present invention comprises other additional advantages over state of the art equipment, such as, for example: - valve block withstanding greater efforts during line installation, reducing the function of the structure only to the foundation; - There is no welded component exposed to high line stresses, increasing system reliability; - reducing the number of equipment parts (valves, connectors, chucks, piping, sealing elements); - Significant decrease in equipment weight, facilitating transportation, production and installation. - serves a larger number of oil wells simultaneously.

Considering all the aforementioned effects and advantages it would be conclusive that the subsea pipeline connection equipment according to the present invention converges to a final design with fewer components and requires fewer welded components. It is well known by those skilled in the art that welding processes, especially those aimed at applications where high workloads are required, can be costly to perform and require stress relieving heat treatments.

Table 1 below objectively illustrates the comparison of approximate weights for a typical system (state of the art) and subsea pipeline connection equipment object of the present invention.

Table 1: Weight of structural components Claims

Claims (8)

1. UNDERWATER CONNECTION EQUIPMENT IN BLOCK ARCHITECTURE, characterized in that it comprises a machined block manifold (13) provided with at least one side inlet fluid import mandrel (11), a set of block valves (12) provided on the surface of said machined block manifold (13), which also receives the main pipe (heade /) and machined branches, line support point and subsea installation device (16), subsea line or duct (14) . EQUIPMENT according to claim 1, characterized in that the assembly is mounted on a foundation structure in marine soil (15) provided with an eyelet (16). Equipment according to claim 1, characterized in that the subsea line or pipeline (14) is fixed directly to the valve block (12) of the machined block manifold (13). Equipment according to claim 1, characterized in that it does not require the use of jumper or spool connections. Equipment according to any preceding claim, characterized in that its lifting is carried out by means of said fixed or articulated eyes (16) integral to the machined block manifold (13). Equipment according to claim 2, characterized in that the structure (15) is not intended to support line installation loads. Equipment according to claim 1, characterized in that it has a significant reduction in weight and number of parts. Equipment according to claim 1, characterized in that it is used in oil wells in the seabed and has the function of extraction or injection of fluids and other services.