RU2443594C2 - Anchor system and floating oil production, storage and discharge installation with anchor system - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: proposed system relates to production of hydrocarbons in open sea. Anchor system comprises cylindrical anchor element 1 with its top side intended for contact with installation bottom side, anchor cable ropes for fastening at sea bed, and drives to ensure contact between anchor element 1 and floating installation 2. Said anchor element features density that allows it to be afloat at preset depth below sea level when disconnected from floating installation. Anchor element has well to house propulsor 7 of floating installation 2. Proposed floating installation comprise above described anchor system with drives including fasteners of anchor element to secure it to installation or oil pipelines 5 connected with anchor element 1. Top ends of said pipelines may move between lower position whereat they are disconnected from floating installation and upper position for connection with installation.

EFFECT: fast engagement and release.

11 cl, 5 dwg

Description

The present invention relates to an anchor system for a substantially cylindrical floating installation for oil production, storage and unloading according to the preamble of claim 1. Such a system is known from US-A-5791819 and WO-A-97/06340. The invention also relates to a floating installation for oil production, storage and unloading with the specified anchor system. Such plants are used for hydrocarbon production on the high seas and are usually anchored with a turret.

Turret anchoring allows the floating installation for oil production, storage and unloading to turn like a weather vane around the turret and take the most favorable position.

Detachable floating installations for oil production, storage and unloading with turret anchoring can leave the parking lot on the high seas, for example, for repair or modernization on the shore or in order to leave the iceberg's calculated route or in case of a storm warning.

With the increase in the number of product pipelines (vertical pipelines) connected to a floating unit for oil production, storage and unloading, it becomes more difficult to design such turret anchor systems. Therefore, installations were created for oil production, storage and unloading with constant anchoring, which should not be rotated like a weather vane and, accordingly, for which a turret system is not required. However, such installations, if they have a hull like a ship, can only work in calm waters. You can do without a turret system in floating installations for oil production, storage and unloading, which have a cylindrical body. In this case, the installation may be anchored in regions with more severe weather conditions.

Currently, cylindrical floating installations for oil production, storage and unloading (such as those described in US-A-6945736) do not have a detachable anchor system, which also provides the connection of vertical product pipelines, which would allow these installations to easily leave their parking lot at sea without the use of additional equipment.

The aim of the invention is the creation of a detachable anchor system, which also provides the connection of product pipelines, for a cylindrical floating installation for oil production, storage and unloading, which would allow this installation to quickly leave the parking lot on the high seas, and after returning back quickly connect to the specified system.

According to the invention, there is provided an anchor system for a substantially cylindrical floating installation for oil production, storage and unloading, comprising an essentially cylindrical anchor element, the upper side of which is for contact with the lower side of the floating installation, anchor cables for attachment to the seabed and drive means for providing contact between the anchor element and the floating installation, while the anchor element has such a density that when it is disconnected from the specified installation, it is held in the floating th state at a predetermined depth below sea level, and, in addition, the anchor element has a niche for placement propulsor floating installation. If the floating installation has its own mover to change its position, then this mover can be placed in the specified niche of the anchor element.

When the anchor element is in contact with a floating installation for oil production, storage and unloading, it is stably held in place by anchor cables and holds the floating installation in a stable position. In the disconnected position, the anchor element is below sea level and the floating unit can move freely. To achieve repeated contact of the anchor element with the floating installation, drive means are used.

The drive means preferably comprise a tension element attached to a floating installation for oil production, storage and unloading with the possibility of movement relative to it and having a free end that can be detachably attached to the anchor element.

The tension element is intended primarily to ensure tight contact between the anchor element and the floating installation.

The anchor system preferably has at least three tension elements that can be arranged circumferentially at equal distances from each other.

The tensioning elements may be cables interacting with a lifting means. Steel cables or chains can be used as cables, and lifting equipment can be winches.

If the floating unit is equipped with a derrick, the latter can also be used as drive means to create contact between the anchor element and the floating unit.

The drive means may comprise locking means for attaching the anchor element to the floating installation in contact with it. These locking means can be combined with the specified tension elements or can be performed separately from them.

Typically, the anchor element carries product pipelines (vertical pipelines for gas or oil). Then the anchor system also contains product pipelines connected to the anchor element, the upper ends of which can be moved between the lower position in which they are disconnected from the floating installation for oil production, storage and unloading, and the upper position for connection with this installation. This allows you to install product pipelines in the upper position for connection to the floating installation and in the lower position on the anchor element when it is disconnected from the floating installation.

The invention also provides a floating installation for oil production, storage and unloading with an anchor system made as described above.

Preferably, the floating installation for oil production, storage and unloading contains means for creating connections with the upper ends of the product pipelines and for moving them between the lower and upper positions. The anchor element only allows the product lines to move relative to it, but does not itself set them in motion, i.e. there are no corresponding means on it.

The diameter of the anchor element is preferably larger than the diameter of the floating installation. It is also preferable that the anchor cables are attached to the anchor element around a circle with a virtual diameter greater than the diameter of the floating unit, and, thus, at a greater distance from the center of the anchor element (and, accordingly, the floating unit). Thanks to this, a more stable position and better calm is achieved.

The anchor element can be shaped so that when it is connected to a floating installation for oil production, storage and unloading, it limits the free flow of water in the space between it and this installation.

The invention is further described with reference to the drawings, where

figure 1 and 2 schematically shows a floating installation for oil production, storage and unloading in the connected and disconnected position, respectively;

figure 3 and 4 illustrates the operation of connecting a floating installation for oil production, storage and unloading with the anchor element and

figure 5 shows a system with a floating installation for oil production, storage and unloading, equipped with a derrick.

In the connected position (Fig. 1), the detachable anchor element 1 is attracted to the floating installation 2 for oil production, storage and unloading and is in contact with it using tension elements 6, for example, steel cables or chains that can be wound from a winch (not shown) and wrap it around her. It is preferable to have at least three such tension elements 6 uniformly distributed around the circumference.

In this connected position, anchor cables 4, for example anchor ropes, hold the anchor element 1 and the floating unit 2 in a position in which hydrocarbons, i.e. gas or oil can be delivered through product pipelines (vertical pipelines) 5 to the production deck 3 of the floating installation.

Before the start of the detachment operation, the product pipelines 5 are disconnected from the producing deck 3 and lowered into the anchor element 1 or onto it, after which the detachment operation can be performed by releasing the tensioning elements 6. Separate locking means can be used to fasten the anchor element 1 to the floating installation 2, which before unlock operation is unlocked. The process of lowering the anchor element with tension elements can be adjusted.

In the disconnected position (figure 2), the anchor element 1 is held in a floating state at a predetermined depth below sea level (water surface). In this position, at a given depth, the weight of the water displaced by the anchor element 1 is equal to the total weight of the anchor element 1, anchor cables 4 and product pipelines 5.

During the connection operation (FIGS. 3 and 4), the floating unit 2 is installed above the anchor element 1, the tension elements 6 are lowered, they are attached to the anchor element 1 and raised by tensioning the tension elements. Upon reaching contact between the installation 2 and the anchor element 1, the latter is fixed with locking means (if any). After that, the vertical product pipelines 5 are lifted from the anchor element 1 to the mining deck 3 and connected to the equipment located there.

Tensioning elements 6 can simultaneously serve to fasten the floating installation 2 to the supporting structure during operation. However, separate means can be used for this.

The diameter of the anchor element 1 may be larger than the diameter of the floating installation 2 for oil production, storage and unloading. In this case, for better damping of movement, anchor cables (ropes) 4 can be attached even further from the center of the installation 2.

The floating installation 2 can be equipped with a propulsion unit 7 for independent movement to a position above the anchor element 1 for subsequent connection with it or in order not to be in the way of approaching icebergs. In this case, a niche is provided for accommodating the mover in the anchor element 1.

The floating installation 2 for oil production, storage and unloading can be equipped with a derrick 8 (Fig. 5), which can participate in the connection and disconnection operation instead of or together with the tension elements 6.

The invention is not limited to the described embodiment, and allows various changes within the scope defined by the claims. The term "cylindrical" also refers to a polygonal shape (for example, hexagonal or octagonal), close to a strictly cylindrical shape.

Claims (11)

1. An anchor system for a substantially cylindrical floating installation (2) for oil production, storage and unloading, comprising an essentially cylindrical anchor element (1), the upper side of which is designed to contact the lower side of the specified installation, anchor cables for mounting to the seabed and drive means to ensure contact between the anchor element and the floating installation, while the anchor element has such a density that when it is disconnected from the floating installation, it is kept in a floating state for a given the lubine below sea level, characterized in that the anchor element (1) has a niche for accommodating the mover (7) of the floating unit (2). 2. Anchor system according to claim 1, in which the drive means comprise locking means for attaching the anchor element (1) to the floating installation (2) in contact with it. 3. Anchor system according to claim 1 or 2, further comprising product lines (5) connected to the anchor element (1), the upper ends of which can be moved between the lower position in which they are disconnected from the floating unit (2) and the upper position for connection with this setting (2). 4. The anchor system according to claim 1 or 2, in which the anchor element (1) has such a shape that when it is connected to the floating installation (2), it restricts the free flow of water in the space between it and this installation. 5. A floating installation for oil production, storage and unloading with an anchor system, characterized in that the anchor system (1) is made according to any one of claims 1 to 4. 6. The floating installation according to claim 5, in which the drive means of the anchor system comprise a tension element (6) attached to the floating installation (2) with the possibility of movement relative to it and having a free end that can be detachably attached to the anchor element (1) . 7. The floating installation according to claim 6, in which there are at least three tension elements (6). 8. A floating installation with an anchor system according to claim 6 or 7, in which the tension elements (6) are cables interacting with a lifting means. 9. The floating installation according to claim 5, in which the anchor system is made according to claim 3 and which also contains means for creating connections with the upper ends of the product pipelines (5) and for moving them between the lower and upper positions. 10. The floating installation according to claim 5, in which the diameter of the anchor element (1) is larger than the diameter of the floating installation (2). 11. The floating installation according to claim 10, in which the anchor cables (4) are attached to the anchor element (1) in a circle with a virtual diameter exceeding the diameter of the floating installation (2).

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