RO122308B1 - Installation for gathering gases from submarine deposits - Google Patents

Abstract

The invention relates to an installation for gathering gases from submarine deposits, meant to collect gases found on the sea or ocean bottom, in regions where there are gaseous emissions on the area of the sediment deposits with hydrates without lithologic coverage. According to the invention, the installation for gathering gases from submarine deposits, ensures the directioning of the gas flow towards the surface collectors by the fact that said conical collectors (1) are provided with some holes (b1) cut in the walls and placed near the base of collector (1) for the gas inlet, while in order to be fixed on the substrate, the collectors (1) are provided with some legs (a). Several collectors (1) are supported in some cuttings of a platform (7) which is transportable, being provided with some pull cables (8), while each collector (1) is connected to a pipe (2) connected to another pipe (3), forming a network of pipe lines leading to the separators. The platforms (7) may have in the plane view the shape of decreasing trapezes in order to be installed in concentric circles, each platform (7) being connected through some radial conduits (4') to a main pipe.

Description

The invention relates to a gas capture facility from submarine deposits, intended for collecting gases from the bottom of seas and oceans, from areas where gas emissions occur on the surface of sediment deposits with hydrates without lithological coverage.

At the bottom of the seas or oceans, in certain areas, there are naturally occurring gas flows, directed upwards. Gases, such as helium, methane, butane, propane, sulfur dioxide, carbon dioxide, reach the surface of the sea or the ocean, move further into the atmosphere and cause pollution.

Both the distribution of these flows in the respective areas and their flows are very different. Depths in the sea, fauna, flora, chemical content of water and varied seabed profile are major factors that must be considered when establishing a technology for collecting these gases.

A hydrate recovery facility is known from the seabed, US patent 5950732, consisting of a conical collector located at the bottom of the sea at the place of emissions, which is connected to a pipeline that transports hydrates to a separator on the sea surface. Also known is the patent UK 2326179, which shows a fluid collection equipment from the seabed, consisting of a container in which the primary separation is made from which, through pipes, the gas is directed to a collection point. .

The gas capture facility from underwater storage, according to the invention, ensures the flow of gas to the sea surface in some collectors, in that, respectively, the conical collectors are provided with holes in the side walls and placed at the base of the collector for gas inlet, and for fixing on the substrate, the collectors are provided with some legs, and several collectors are supported in some cutouts of a transportable platform, being provided with some traction cables, and each collector is connected to a pipe connected to another. pipeline forming a network of transport pipelines to separators.

The platforms may be in the form of descending trapezoids, so that they can be placed so as to form concentric circles, each platform being connected by radial ducts to a master pipe.

By applying the invention, the following advantages are obtained:

- the possibility of recovering and adapting the installation to be used in other locations, after exhausting the gas deposit;

- collection and recovery of gases that would pollute the atmosphere.

The following are two examples of embodiments of the invention in connection with FIG. 1 ... 7, which represents:

FIG. 1, partial side view of the gas capture facility from underwater deposits, according to the invention;

FIG. 2, top view of the installation of fig. 1;

FIG. 3, side section through a conical chamber and its connection with a collecting pipe, from the composition of the installation of fig. 1;

FIG. 4, a side view of the gas capture facility from deep underwater deposits, according to the invention;

FIG. 5 is a top view of the installation of FIG. 4;

FIG. 6 is a top view of a detail of the installation of FIG. 4;

FIG. 7, side section through a conical chamber and its connection with the manifold pipe in the composition of the installation in fig. 4;

FIG. 8 is a top view of a network of collecting pipes from the composition of the plant according to the invention.

RO 122308 Β1

The gas capture facility of the underwater tanks, according to the invention, used 1 for depths accessible to divers, consists of conical chambers 1, connected by pipes 2 to some collecting pipes 3, which are connected, in turn, to another 3. pipeline 4, which leads to a water gas separation station, a station located below sea level in water or on land. 5

Each connection of the pipe 2 with the manifold pipe 3 is provided with a valve 5. In each pipe 2, downstream of valve 5, a gas detector is provided 6. The chambers 1 are provided with legs a for fixing them in bottom of the sea. The rooms 1 are also provided with holes b in the side walls towards the base, for the entrance of the water from the bottom 9 sea or the ocean in room 1.

The installation is located on the emission surface, over each jet or gas emission 11 with a conical chamber 1, mounted by the bottom of the sea or the ocean through the legs of a, then through the pipes 2, the chambers 1 are connected by valves 5 with the manifold pipes 3 , 13 villages at the bottom of the sea, pipes which in turn are connected to the pipe 4, also located at the bottom of the sea, pipe 4 which is connected further to the gas separation station 15, located in an area below the sea level , in water or on land. After installation the valves 5 are opened and then a water flow begins according to the principle of the communicating vessels, 17 from the sea floor, through the holes b of the conical chambers 1, through the chambers 1 and through the pipes 2, 3 and 4, to the water-gas separator. The water trains the gases from jets or 19 emissions to the separation station. The plant works continuously, without interruptions, until the gas source is exhausted. With detectors 6 placed one in each pipe 2 21 before valve 5, the presence or absence of gas can be noticed.

If detector 6 signals a lack of gas, then the diver goes down into the water and 23 closes the valve, removing the gas-free flow from the circuit.

After completing the process of collecting gas from the respective location, the entire 25 plant can be recovered and adapted to be used in another location, for the same purpose. 27 in the situation where the gas emission is at a depth at which diving cannot be accessed, the collection of gases from the bottom of the sea or the ocean can be provided with 29 conical chambers chise open at the base and whose peaks are connected by pipes. 2 'to a manifold 3, further connected by a socket with a 4' pipe, which goes to 31 the surface of the sea or the ocean at the gas separator located at sea or on land, at a level lower than the sea level. 33

The rooms Γ, at the base, are provided with legs a 'for fixing them on the sea or ocean floor. The 1 'rooms are also provided with holes b' in the side walls to 35 the base for water circulation.

Both the conical chambers Γ and the pipes 2 'and 3' are mounted on a horizontal platform 37, 7, balanced, together forming a collection block. Platform 7 is provided with traction cables 8, each connected to each corner of platform 7. Platform 7 is 39 provided with legs c and reversible propellers 9, placed one at each corner of platform 7. Pipe 4 ' , which runs from platform 7 to said separator, is 41 supported with rings by a traction cable, cable which is, moreover, the anchor of a gas extraction plant located on the sea or ocean surface. The 4 * pipe 43 may also be placed at the bottom of the sea on the entire portion of the platform or platforms 7 towards the gas separator, in which case the separator is on land or on the platform off the 45 sea or ocean. Several such blocks can be connected to the 4 'pipe, as can be seen in fig. 7, when the separator is at sea, but also when the separator is 47 dry.

RO 122308 Β1

After the platform 7 is mounted, each chamber Γ covers a jet or gas emission from the seabed or ocean portion, from which the gases are to be collected. The rooms 1 'are connected to the pipes 2' and 3 'from the platform 7 , the reversible propellers 9 are mounted on the corners of the platform 7, the traction cables 8 are connected to the corners of the platform 7, the respective block is launched on the bottom of the sea or the ocean from which the gas collection is to be made, as each conical chamber 1 'to fall on a jet or gas emission, an operation that is also performed with the help of reversible propellers 9.

Once the platform 7 is placed in the working position, the block is connected to the pipe 4 '. If the gas collection area is large, then, as shown in fig. 7, there are several blocks connected together by the 4 'pipes.

In the case where the platforms are connected with a gas separation station on the ground or a gas separation station located on the platform off the sea or the ocean, stations located below the level of the sea or the ocean, the connection pipes 4 'are located on the bottom sea or ocean.

Platforms 7 may have the shape of descending trapezoids in order to be positioned so as to form concentric circles. Each platform 7 is connected by radial pipes 4 'to a main pipe

After the gas collection activity is completed, platform 7 or platforms 7 are brought to the surface, where they can be adapted for another location for collecting gas from the sea or ocean floor.

Claims (2)

claims 1. Gas capture facility from underwater deposits, consisting of conical shaped manifolds, located on the emission surface and provided with pipes that lead the gases to separators, characterized in that, respectively, conical collectors (1) are provided with some holes (b1) in the side walls and placed towards the base of the manifold (1) for gas inlet and for fixing on the substrate, the manifolds (1) are provided with some legs (a), and several manifolds (1) are supported in some cuts of a platform (7) that can be transported, being provided with some cables (8) of traction, and each collector (1) is connected to a pipe (2) connected to another pipe (3) that forms a network of transport pipes to separators. 2. A capture plant according to claim 1, characterized in that the platforms (7) may be in the form of descending trapezes so that they can be positioned so as to form concentric circles, each platform (7) being connected by radial pipes (7). 4 ') to a pipeline.