This application is for entry into the U.S. National Phase from which priority is claimed under all applicable sections of Title 35 of the United States Code including, but not limited to, Sections 120, 363, and 365(c) to International Application No. PCT/EP2020/065982 filed on Jun. 09, 2020, and which in turn claims priority under 35 USC 119 to German Patent Application No. 102019117268.3 filed on Jun. 26, 2019.
The invention relates to an installation arrangement according to the preamble of claim 1. The invention also relates to a method for setting up an installation arrangement with a jack-up rig and a barge.
Installation arrangements are known in the prior art.
A watercraft consisting of a barge and a dock vessel is known from DE 10 2011 118 712 A1. The dock vessel surrounds the barge completely at the bottom and enables the barge to be lifted out of the water on four supporting legs by means of jacking systems.
U.S. Pat. No. 3,537,413 discloses a slotted vessel to accommodate a plurality of barges which can be brought to the same height along the well of the vessel by means of jacking systems, so that the barges which are towed individually in inland waters can be made seaworthy for the open sea as a compact unit.
EP 3 170 732 A1 discloses a floatable lifting pontoon to receive a cargo to be transported. The lifting pontoon has two side walls which are connected to one another via a loading deck. The lifting pontoon can be lifted out of the water on four supporting legs.
A vessel which has a deck and lateral ballast tanks and is intended for transporting loads between the sea and a quay is known from GB 2555414 A.
GB 2567218 A discloses a floatable and lowerable vessel which can be used for fitting jackets for wind turbines or the like.
A self-propelled offshore installation vessel with a jack-up rig which has a continuous main loading deck is known from WO 2019 081 440 A1. Along the height in the stern region the jack-up rig has a non-continuous opening, the base of which is designed as a main loading deck. Components which are to be installed can be loaded onto the main loading deck. In principle, therefore, the main loading deck is dry during the transport. It is also conceivable that the jack-up rig is temporarily lowered, the main loading deck is flooded and a barge floats above the main loading deck. The main loading deck is then drained as the jack-up rig is raised by a ballasting system so that the barge rests on the main loading deck.
A disadvantage of the described installation arrangement is the fact that the jack-up rig requires a complex ballasting system in order to be able to be loaded with a barge. Furthermore, the draining of the main loading deck of the jack-up rig is problematic.
Therefore in a first aspect it is an object of the present invention to provide an installation arrangement referred to in the introduction which avoids the above-mentioned disadvantages.
In a second aspect it is an object of the present invention to provide a method for setting up an installation platform which avoids the above-mentioned disadvantages.
In a first aspect this object is achieved by an installation arrangement referred to in the introduction and having the features of claim 1.
The installation arrangement comprises two main components: a barge on the one hand and a jack-up rig on the other hand. The concept of the barge should be understood in a broad sense here; it may a vessel which is or is not self-propelled, and which preferably has a main loading deck on which components for wind turbines, transformer stations, drilling rigs, etc. can be transported.
The jack-up rig is designed to be self-floating. It can be self-propelled, i.e. it can have a drive which allows it to bring the jack-up rig from the port to the location without an additional tug. The jack-up rig can have a crane, preferably a slewing crane, by which the components can be unloaded from the barge and built up directly on the seabed or on parts which are already constructed.
The jack-up rig has a hull which is slotted vertically relative to the surface of the sea; here too the concept of the slot should be understood in a broad sense. The slot can have a width which is half, 60%, 70% or even more of the width of the jack-up rig as a whole along the respective cross-section, and the slot can have a length which extends over half, 60%, 70% or even 80% of the length of the jack-up rig. In the section including the slot the jack-up rig is preferably U-shaped in a view from above.
A width of the slot is greater than a width of the barge. A width of the slot in each cross-section in the longitudinal direction is preferably greater than an associated width of the barge. In this case “the associated width of the barge” means the width of the point on the barge which, with a barge moved completely into the slot, is arranged in the same cross-section.
The slot is designed so that the barge can move into the slot or can also move out again.
The jack-up rig has movable supporting legs. This can involve at least three supporting legs, preferably four; however, five, six or any higher number of supporting legs are also conceivable. The supporting legs are movable to and fro along a height relative to the hull of the jack-up rig. They are individually movable or movable in a group. The supporting legs are preferably perpendicular to the surface of the sea when the jack-up rig is floating in the sea. Each of the supporting legs has a lifting mechanism. The lifting mechanism makes it possible to lift the hull of the jack-up rig, together with the barge moved into the slot, out of the sea, so that in a raised position of the jack-up rig both the hull of the jack-up rig and also the barge are no longer in contact with the surface of the sea.
According to the invention the slot extends along the entire longitudinal extent of the moved-in barge over the entire height of the hull, in other words the jack-up rig has no main loading deck running below the barge. The region of the barge towards the seabed is open, because the slot extends over the entire height of the jack-up rig. According to the invention securing means are arranged on the barge and the slot, and said securing means interact and secure the barge in the raised position in a positionally fixed fashion on the jack-up rig. The securing means can be designed in a different manner.
The embodiment of the jack-up rig according to the invention makes it possible, on the one hand, that a barge can move into the slot without ballasting of the jack-up rig and, on the other hand, when the jack-up rig is being raised an immediate and fast draining of the slot is possible, since the jack-up rig has no main loading deck between the branches of the slot which are preferably parallel to one another.
The securing means can be formed for example by brackets which run along the two opposing inner sides of the branches of the slot. The brackets can be continuous or interrupted. The brackets can be formed inside on the inner walls of the slot, but also at the same time as an inner extension of the underside of the hull towards the seabed. In the first case the barge can have corresponding lateral projections, in the second case the barge has such a width on the side towards the seabed that it can move over the brackets and the width is greater than the clear distance between the end faces of the brackets.
However, other securing means, for example locking devices or the like, are also conceivable.
However, brackets have the advantage that a further fastening step is not necessary. The barge can simply move by itself or can be drawn into the slot by corresponding ropes or pulling devices, and due to the lifting of the jack-up rig the barge rests by itself on the brackets and is therefore secured on the jack-up rig in the raised location in a positionally fixed manner. The slot can extend over at least 30%, preferably at least 50%, particularly preferably at least 90% of the longitudinal extent of the hull.
In order that the jack-up rig can stand in a stable manner on the seabed, at least one supporting leg is advantageously arranged on the bow side of the slot, also two or more supporting legs can be arranged on the bow side of the slot and simultaneously two or more supporting legs can be provided in the stern end section of the jack-up rig, that is to say in the region of the slot in the jack-up rig, and preferably one supporting leg can be provided on each branch of the slot.
The jack-up rig advantageously has a slewing crane which makes it possible to lift components arranged on the barge, to pivot them sideways and set them down at the desired location, in order for example to construct a wind turbine, a transformer station or a drilling rig offshore or in order to replace heavy components such as for example transformers offshore.
In a second aspect, the object of the invention is achieved by a method with the features of claim 8. The method is particularly suitable for setting up an installation arrangement in accordance with one of the above-mentioned installation arrangements. Conversely, each of the above-mentioned installation arrangements can be set up by one of the methods described below.
The installation arrangement comprises a jack-up rig and a barge. The jack-up rig is brought to the location. The jack-up rig has a hull which is slotted vertically relative to the surface of the sea with a slot having a slot width which is greater than a width of the barge, wherein the slot extends along the entire longitudinal extent of the moved-in barge over the entire height of the hull. The jack-up rig is self-floating.
After the jack-up rig is brought to the location the supporting legs are lowered until they are placed on the seabed. However, this step can also be carried out later.
The barge is moved into the slot in the jack-up rig, and the supporting legs can be lowered beforehand or afterwards. The securing means on the barge and on the slot interact, and the jack-up rig is lifted out of the water with the barge. For lifting, a conventional jacking system is used which is arranged on the supporting legs of the jack-up rig.
The method according to the invention makes it possible to move the jack-up rig to the location and to dispense with ballasting the jack-up rig at the location. The jack-up rig does not need to be lowered further into the sea. The barge can be moved into the jack-up rig which has been brought to the location; repeated ballasting is likewise not necessary, but the jack-up rig with the moved-in barge can be lifted out of the sea immediately by means of the lifting system of the supporting legs.
As the barge moves into the slot it continuously has a clear distance from the seabed over the entire longitudinal extent of the underwater surface of the barge. Therefore the barge does not move over a floor or a deck, in particular a main loading deck, of the jack-up rig, but moves into a slot which is in the form of an opening which is largely completely open towards the seabed, so that the barge with its entire underwater surface has a clear distance from the seabed.
The invention is described with reference to embodiments in thirteen figures, in which:
The installation arrangement according to the invention which is illustrated in the drawings comprises a jack-up rig 1 and a barge 2. The jack-up rig 1 is designed to be self-floating and can also be self-driven. The jack-up rig 1 has a bow 3 and a stern section 4 which is slotted. The concept of a slot 6 should be understood here as an opening in the stern section 4 in a longitudinal direction L of the jack-up rig 1, which corresponds to the usual travel direction, wherein the slot 6 can have a width BS of for instance half a width BH of the jack-up rig 1 along the respective cross-section.
In the illustrated exemplary embodiment the slot 6 has a width BS of 32.2 m and a length LS of 100 m in the embodiment according to
The slot 6 extends along the longitudinal direction L, preferably along the entire longitudinal extent of the barge 2 which is completely moved in, over the entire height HS of a hull 7. In particular, the hull 7 has no main loading deck in the region of the stern section 4 and of the slot 6. The slot 6 forms two lateral branches 7a, 7b in the hull 7, so that the stern section 4 of the jack-up rig 1 is therefore substantially U-shaped in a plan view, and the U-shaped branches 7a, 7b have a clear distance from one another over the entire longitudinal extent thereof and over the entire height thereof.
The jack-up rig 1 in
The jack-up rig 1 comprises a slewing crane 8 which is locked on the raised supporting legs 9a, 9b, 9c, 9d during transport of the jack-up rig 1 from the port to the location in order to enable secure and immobilised transport. The jack-up rig 1 can have a helicopter landing pad 11, a control bridge 12, etc. The bow 3 of the jack-up rig 1 is formed continuously in each cross-section along the width BH. A deck on which components can also be transported is provided between both bow-side supporting legs 9a, 9b. In particular, according to
The jack-up rig 1 is designed so that with the supporting legs 9a, 9b, 9c, 9d raised as in
A method for setting up an installation arrangement according to
First of all the jack-up rig 1 is brought to the location according to
The barge 2 illustrated in
In a third method step the barge 2 is already moved completely into the slot 6 of the jack-up rig 1 and (not shown in
In
After the supporting legs 9a, 9b, 9c, 9d have been lowered onto the seabed, the supporting legs 9a, 9b, 9c, 9d are arranged perpendicular to the seabed and parallel to one another. The lifting system enables makes it possible to lift the hull 7 of the jack-up rig 1 out of the sea together with the barge 2 resting on the brackets 13a, 13b so that, after the lifting, both the barge 2 and also the hull 7 of the jack-up rig 1 no longer have any contact with the surface of the sea 17. The raised state is illustrated in
Number | Date | Country | Kind |
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10 2019 117 268.3 | Jun 2019 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2020/065982 | 6/9/2020 | WO |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2020/260011 | 12/30/2020 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
3537413 | Farrell | Nov 1970 | A |
10569977 | Hammer | Feb 2020 | B1 |
11168666 | van Loon | Nov 2021 | B1 |
Number | Date | Country |
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102011118712.3 | May 2012 | DE |
2555414 | May 2018 | GB |
2019081440 | May 2019 | WO |
Entry |
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International Search Report, European Patent Office, dated Sep. 9, 2020. |
Number | Date | Country | |
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20220243415 A1 | Aug 2022 | US |