Vessel comprising a moon pool and a hoisting arrangement and method of lowering items into the sea

Abstract

A vessel for e.g. well intervention or deep sea lowering, comprises a moon pool and a hoisting arrangement for lowering and retrieving items, in particular equipment, tools, and/or supplies or modules comprising the same, through the moon pool, into respectively from the sea and onto respectively from the seabed or an installation on the seabed. The vessel further comprises one or more guides for laterally retaining items inside the moon pool, preferably at least two guides positioned on opposite sides of the moon pool.

Claims

1. A vessel comprising a moon pool and a hoisting arrangement configured to lower items, through the moon pool, into a sea and onto a seabed or an installation on the seabed and configured to retrieve items, through the moon pool, from the sea, the seabed, or an installation on the seabed, wherein the vessel comprises a tower configured to receive one or more items, and one or more guides configured to laterally retain the tower inside the moon pool, wherein the tower is translatingly mounted between the guides for moving up and down and comprises an open side configured to allow items to be entered into the tower, wherein the tower comprises at least two connected walls defining an open side vertical channel extending therethrough and including the open side, and wherein the vessel has a deck next to the moon pool and is configured such that items can be transferred between the tower and the deck through the open side of the open side vertical channel.

2. The vessel according to claim 1, wherein the guides extend at least partially in the moon pool.

3. The vessel according to claim 2, wherein the guides are provided at different heights in the moon pool.

4. The vessel according to claim 1, wherein the tower comprises fasteners configured to temporarily hold a plurality of items, one item stacked above another item.

5. The vessel according to claim 1, wherein the tower comprises doors at a lower end thereof.

6. The vessel according to claim 1, wherein the tower comprises a plurality of guide wires extending within the tower.

7. The vessel according to claim 1 and further comprising at least two guides positioned on opposite sides or corners of the moon pool.

8. The vessel according to claim 1, wherein the guides are provided at different heights in the moon pool.

9. A handling system configured to be installed on a vessel to handle items, the handling system comprising a moon pool and a hoisting arrangement configured to lower and retrieve items, through the moon pool, wherein a tower is configured to receive one or more items, and one or more guides are configured to laterally retain the tower inside the moon pool, which tower is translatingly mountable between the guides enabling the tower to be moved up and down and comprises an open side configured to allow items to be entered into the tower, wherein the tower comprises at least two connected walls defining an open side vertical channel extending therethrough and including the open side, and wherein the vessel has a deck next to the moon pool and is configured such that items can be transferred between the tower and the deck through the open side of the open side vertical channel.

10. A method of lowering or retrieving items into a sea and onto a seabed or an installation on the seabed by a vessel using a moon pool and a hoisting arrangement, the method comprising: suspending one or more items from the hoisting arrangement, lowering or hoisting the items through the moon pool, laterally retaining the items while the items are being lowered or hoisted through the moon pool, and loading the items into a tower having an open side to allow items to be entered into the tower and translatingly lowering or hoisting the tower between guides which retain the tower inside the moon pool, wherein the tower comprises at least two connected walls defining an open side vertical channel extending therethrough and including the open side, and wherein the vessel has a deck next to the moon pool, and further comprising transferring items between the tower and the deck through the open side of the open side vertical cannel.

11. The method according to claim 10, and further comprising loading a first item into the tower, lowering or hoisting the tower and loading a second item into the tower, respectively above or below the first item.

12. The method according to claim 11, and further comprising connecting an uppermost item to the hoisting arrangement.

13. The method according to claim 10 wherein laterally retaining the tower while the tower is being lowered or hoisted through the moon pool includes guiding the tower using at least two guides positioned on opposite sides or corners of the moon pool.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Aspects of the invention will now be explained in more detail with reference to the drawings, which schematically show embodiments of the vessel and method of the present invention.

(2) FIGS. 1A and 1B are top and side views of a well intervention vessel comprising a translating tower.

(3) FIG. 2 is a detail of the vessel shown in FIG. 1A.

(4) FIG. 3 is a perspective view of a translating tower.

(5) FIGS. 4A to 4G illustrate an example of the method of stacking items in a tower and lowering the items.

DETAILED DESCRIPTION OF THE ILLUSTRATIVE EMBODIMENTS

(6) FIGS. 1A to 3 show a well intervention vessel 1 comprising a hull 2, a deck 3, and a moon pool 4 extending through the deck and the hull. A plurality of items 5, in particular equipment, tools, and/or supplies or modules comprising the same, are placed on deck, more specifically on the so-called firing-line 6, i.e. lined up with the moon pool 4.

(7) As shown in FIG. 1B, a plurality of guides 7, in this example four guides, are positioned in the moon pool 4, one in each corner of the moon pool 4. Each guide comprises two parts, a top part 7A mounted on deck 3 and partially extending into the moon pool 4 and a bottom part 7B near the bottom side of the hull, together providing effective guidance over a length of approximately 80% of the height of the moon pool 4.

(8) A tower 8 for supporting and/or receiving one or more of the items is translatingly mounted between the guides 7. In this example, the tower 8 is provided at each corner with a vertical toothed rack (not shown) and each of the upper parts 7A of the guides 7 contains a pinion and a motor for driving the pinion and thus positively translating the tower up 8 and down.

(9) Further, the tower 8 comprises four winches 9 for an equal number of guide cables 10, known in themselves, that, once deployed, extend from the tower 8 to a well 11 (FIG. 1B) on the seabed 12 below. In the example shown in FIG. 3, the winches 7 for the guide cables 10 are located near the top of the tower 8.

(10) The tower 8 is open on the side facing the firing line 6, to allow items 5 to be entered into the tower 8. In this example, the tower 8 has a U-shaped cross-section over the greater part of its length. The tower 8 comprises grippers 13 (FIG. 2), to temporarily hold a plurality of items, one stacked above the other. In its bottom end, the tower 8 comprises a pair doors 14 closing the bottom end of the moon pool 4 during transit.

(11) A main hoisting arrangement 15 comprising e.g. a hoist cable 16, a winch and a motor is provided on or below deck, next to or at some distance of the tower 8.

(12) The tower 8 provides an effective means for stacking separate modules and ‘pushing’ the assembled stack in a controlled manner through the splash-zone, as follows.

(13) FIGS. 4A to 4G illustrate a method of lowering a one or more e.g. four modules 5 onto a well 11 on the seabed 12 by means of the vessel 1 described above. During transit, the lower part of the tower 8 is in inside the moon pool 4, such that the (closed) doors 14 in the bottom of the tower 8 are flush with the hull 2. The four modules 5 identified as “1”, “2”, “3” and “4” are stored on deck, in this example lined up on the firing line 6 (FIG. 4A).

(14) Once the vessel 1 is positioned over the well 11 and the guide lines for lowering the modules are in place, the tower 8 is translated to its uppermost position, the first module “1” is loaded and secured in the tower 8, and the tower 8 is lowered to its initial position, thus maintaining a relatively low center of gravity. Next, the second module “2” is loaded in the tower (FIG. 4C), connected to the main hoist cable 16 and hoisted to allow the third module “3” to be loaded into the tower 8, beneath the second module “2”. After the third module “3” is connected to the second module “2” the (sub)stack thus obtained is hoisted to allow the fourth module “4” to be loaded into the tower 8, beneath the third module “3” (FIG. 4D).

(15) After completing the stack of four modules by connecting the fourth module “4” to the first and third modules “1”, “3” (FIG. 4E), the tower 8 containing the stack is gradually lowered through the moon pool 4, while laterally retaining the modules 8 and positively avoiding any contact between the modules and the walls of the moon pool 4 (FIG. 4F). When the tower 8 reaches it lowermost position or at least a lower position wherein the doors 14 clear the hull by a sufficient distance, the doors 14 are opened, the grippers 13 are released from the stack and the stack is lowered from the tower 8 and along the guide wires to the well 11 below, again while preventing any contact between the modules and the moon pool 4. Further, the items, while being positively guided inside the moon pool 4 and between the guides 7, are forced through the so-called splash-zone, i.e. the surface of the water, in a controlled manner.

(16) The invention is not restricted to the above-described embodiments which can be varied in a number of ways within the scope of the claims. For instance, during retrieving items from the sea, the uppermost module could be removed first, followed by the one below that, and so on, thus continually maintaining the center of gravity as low as possible.