CA1237341A - Method for docking of a floating structure - Google Patents
Method for docking of a floating structureInfo
- Publication number
- CA1237341A CA1237341A CA000493410A CA493410A CA1237341A CA 1237341 A CA1237341 A CA 1237341A CA 000493410 A CA000493410 A CA 000493410A CA 493410 A CA493410 A CA 493410A CA 1237341 A CA1237341 A CA 1237341A
- Authority
- CA
- Canada
- Prior art keywords
- pit
- level
- sea
- water
- pits
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
- 238000000034 method Methods 0.000 title claims abstract description 11
- 238000003032 molecular docking Methods 0.000 title abstract description 3
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 16
- 239000004576 sand Substances 0.000 claims abstract description 4
- 238000005086 pumping Methods 0.000 claims 1
- 230000000875 corresponding effect Effects 0.000 abstract 1
- 238000012986 modification Methods 0.000 abstract 1
- 230000004048 modification Effects 0.000 abstract 1
- 101100420946 Caenorhabditis elegans sea-2 gene Proteins 0.000 description 7
- 238000005266 casting Methods 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 238000007796 conventional method Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
Landscapes
- Revetment (AREA)
Abstract
A b s t r a c t A method for docking of a floating structure, e.g. a concrete offshore platform. According to a first embodiment, a pit (3) separated from the sea by means of sand or gravel deposits (1; 4) is exca-vated, whereupon the structure (7) is erected entirely or partly in the pit (3). The depth of the pit (3) is increased by building the upper edge of the pit upwards to an upper level, whereupon the pit is filled with water (10) in order for the structure to become floating. The deposits (12) situated at the bottom of the pit (3) and under the structure (7) are next removed by means of suitable techniques in order to lower the bottom of the pit (3) to a lowest level, while the level (11) of the water (10) in the pit (3) is maintained. Then the level of the water (10) is lowered to a lower level (14) corre-sponding to the level of the sea (2) on the outside and the dike (4; 8) separating the pit from the sea is removed, whereupon the structure may be floated away from the pit. According to a modification, two pits are excavated next to each other, one being deeper than the other. After the structure is erec-ted, the pits are filled with water and the struc-ture is floated from the shallower to the deeper pit. Next, the water level of the pits is lowered to the level of the sea on the outside, whereupon the dike separating the pit from the sea is removed.
Description
3~
The present invention relates to a method for docking of a floating structure, e.g., a concrete off-shore platform, as inciated in the preamble of the appended independent claims.
When building floating structures, particularly concrete offshore platforms, a substantial part of the structure must be built while it is floating at sea. As described i.a., in U.S.
Patent No. 3 911 687, the lower part of the concrete platform is first built in a dry dock, the dock being built by making a dike, e.g., in a fjord arm or in an area of loose gravel or sand deposits adjacent the sea, whereupon the water inside the dike is pumped dry. The lower part of the concrete platform is then erected until its size provides sufficient buoyancy to perrrrit removing the dock port and floating the platform to a deeper place, whereupon the further erection of the concrete platform takes place while it is gradually lowered into the water as the work proceedes. Experience has indicated that this known method may involve certain problems, i.a., in keeping the dock port watertight. In addition, the work involved in constructing the dock port is both time consuming and expensive. Furthermore, the structure must be floated out at a fairly early stage of the erection process. Also it is expensive to perform concrete casting at sea, because of the need for personnel and material transport using boat, rigging on barges, etc.
The present invention aims at reducing or avoiding some of the problems related to the known method, the platform being built at a site where the land area adjacent the sea generally consists of gravel or sand deposits.
According to the invention two solutions are suggested, depending on the distance from the sea at which the structure is built and the local ground conditions.
~3t73~
The characterizing fea-tures of the method are indicated in the appended claims.
The invention will be described more closely with reference to -the exemplifying embodiments illu-s-trated in the appended drawings, where:
Figs. l - 3 illustrate a first solution accor-ding to the invention, while Figs. 4 - 6 illustrate a second solution accor-ding to the inven-tion.
Even though -the following description relates to the building o-E a concrete platform, it will be understood that the present invention may also be used for any type of floating s-truc-ture to be buil-t on land and floated out, particularly very heavy structures.
Fig. l shows a land area l adjacent the sea 2.
In this land area a pi-t 3 is excavated, whereby a dike 4 is Eormed protecting the pit from the sea 2.
The pit 3 is excavated from a first level 5 down to a second level 6, the first level 5 lying, or being brought -to lle, some distance above -the maximum level of the sea 2. In order to prevent slipping of the masses, the pi-t 3 must be sloped along the edges and the bo-ttom wid-th of the pit must be sufficien-tly large to provide free access for constructions machinery etc. to the concrete structure -to be built.
The floating structure 7, e.g. in the form of said concrete platform, is erected from the bottom 6 of the pit 3 and it may be erec-ted -to a level lying above -the cell s-tructure of the concrete platEorm.
Depending on che buoyancy of the struc-ture, i-t may be entirely or partly erec-ted in the pit. In -the chosen example the distance between the first and second levels may be 7 me-ter. Thereafter the depth of the pit is increased by building a dike 8 from said first level 5 to a third level 9. The dis-tance-between said first level and said third level may for example be lO meter. In the chosen example the pit has thus ~t73'~
been glven a total depth of 17 meter.
Next, the pit 3 is filled with water -to a level 11 until the struc-ture floats in the pit 3. The level 11 may correspond approximately to the level 9.
The dike 4; 8 now separates the water filled pit from the sea 2 on the outside. While the water in the pit 3 is held at said level 11, the deposits 12 situated in the existing pit 3 and thus under the floating structure, are pumped out or in o-ther ways removed by means of conventional techniques, so that the depth of the pi-t 3 is increased down to a fourth level 13, which in -the chosen example lies about 10 meter below said second level 6. Next, the water level in -the pi-t 3 is lowered -to a fifth level 14, corresponding to the level of the sea 2 on the out-side. Thereafter the dike 4; 8 is removed, where-upon the floating structure 7 may be floa-ted from the building site~
Fig. 4 - 6 show an alternative embodiment according to the inven-tion, where the floating struc-ture is buil-t at a grater distance from the sea than in -the embodiment according to Figs. 1 - 3. As in the embodiment in Figs. 1 - 3, a pi-t 3 is first exca-vated from a firs-t level 5 down to a second level 6, whereupon the s-truc-ture 7 is erected completely or partly in the pit 3. In this embodiment the level 6 may for example be 7 meter below the level of -the sea 2. Before or concurrently with the erection of the structure 7, a second pit 15 is excavated, -this pit being deeper than the pit 3 and being open towards the pit 3, as indicated in Figs. 5 and 6.
The bottom of the pit 15 will be at a third level 16 which is lower -than the level 6, for example 10 meter lower. Next, the dep-th of both pits 3 and 15 is in-creased by building the continuous upper edge of -the pits up -to a fourth level 17. The level 17 may lie somewhat above the sur:Eace of the sea 2, for example about 10 meter. Afterwards, both pits 3 and 15 are 3a~
filled wi-th water 23 up to a level 18, which is suf-ficient for -the floating struc-ture 7 -to clear -the bottom 6 of the pit 3. The level 18 may be approxi-mately the same as -the level 17. Next, as shown in Flg. 6, the s-tructure is floated over to -the pi-t 15, whereupon the water in both pits is lowered to a fifth level 19 corresponding to -the level of -the sea
The present invention relates to a method for docking of a floating structure, e.g., a concrete off-shore platform, as inciated in the preamble of the appended independent claims.
When building floating structures, particularly concrete offshore platforms, a substantial part of the structure must be built while it is floating at sea. As described i.a., in U.S.
Patent No. 3 911 687, the lower part of the concrete platform is first built in a dry dock, the dock being built by making a dike, e.g., in a fjord arm or in an area of loose gravel or sand deposits adjacent the sea, whereupon the water inside the dike is pumped dry. The lower part of the concrete platform is then erected until its size provides sufficient buoyancy to perrrrit removing the dock port and floating the platform to a deeper place, whereupon the further erection of the concrete platform takes place while it is gradually lowered into the water as the work proceedes. Experience has indicated that this known method may involve certain problems, i.a., in keeping the dock port watertight. In addition, the work involved in constructing the dock port is both time consuming and expensive. Furthermore, the structure must be floated out at a fairly early stage of the erection process. Also it is expensive to perform concrete casting at sea, because of the need for personnel and material transport using boat, rigging on barges, etc.
The present invention aims at reducing or avoiding some of the problems related to the known method, the platform being built at a site where the land area adjacent the sea generally consists of gravel or sand deposits.
According to the invention two solutions are suggested, depending on the distance from the sea at which the structure is built and the local ground conditions.
~3t73~
The characterizing fea-tures of the method are indicated in the appended claims.
The invention will be described more closely with reference to -the exemplifying embodiments illu-s-trated in the appended drawings, where:
Figs. l - 3 illustrate a first solution accor-ding to the invention, while Figs. 4 - 6 illustrate a second solution accor-ding to the inven-tion.
Even though -the following description relates to the building o-E a concrete platform, it will be understood that the present invention may also be used for any type of floating s-truc-ture to be buil-t on land and floated out, particularly very heavy structures.
Fig. l shows a land area l adjacent the sea 2.
In this land area a pi-t 3 is excavated, whereby a dike 4 is Eormed protecting the pit from the sea 2.
The pit 3 is excavated from a first level 5 down to a second level 6, the first level 5 lying, or being brought -to lle, some distance above -the maximum level of the sea 2. In order to prevent slipping of the masses, the pi-t 3 must be sloped along the edges and the bo-ttom wid-th of the pit must be sufficien-tly large to provide free access for constructions machinery etc. to the concrete structure -to be built.
The floating structure 7, e.g. in the form of said concrete platform, is erected from the bottom 6 of the pit 3 and it may be erec-ted -to a level lying above -the cell s-tructure of the concrete platEorm.
Depending on che buoyancy of the struc-ture, i-t may be entirely or partly erec-ted in the pit. In -the chosen example the distance between the first and second levels may be 7 me-ter. Thereafter the depth of the pit is increased by building a dike 8 from said first level 5 to a third level 9. The dis-tance-between said first level and said third level may for example be lO meter. In the chosen example the pit has thus ~t73'~
been glven a total depth of 17 meter.
Next, the pit 3 is filled with water -to a level 11 until the struc-ture floats in the pit 3. The level 11 may correspond approximately to the level 9.
The dike 4; 8 now separates the water filled pit from the sea 2 on the outside. While the water in the pit 3 is held at said level 11, the deposits 12 situated in the existing pit 3 and thus under the floating structure, are pumped out or in o-ther ways removed by means of conventional techniques, so that the depth of the pi-t 3 is increased down to a fourth level 13, which in -the chosen example lies about 10 meter below said second level 6. Next, the water level in -the pi-t 3 is lowered -to a fifth level 14, corresponding to the level of the sea 2 on the out-side. Thereafter the dike 4; 8 is removed, where-upon the floating structure 7 may be floa-ted from the building site~
Fig. 4 - 6 show an alternative embodiment according to the inven-tion, where the floating struc-ture is buil-t at a grater distance from the sea than in -the embodiment according to Figs. 1 - 3. As in the embodiment in Figs. 1 - 3, a pi-t 3 is first exca-vated from a firs-t level 5 down to a second level 6, whereupon the s-truc-ture 7 is erected completely or partly in the pit 3. In this embodiment the level 6 may for example be 7 meter below the level of -the sea 2. Before or concurrently with the erection of the structure 7, a second pit 15 is excavated, -this pit being deeper than the pit 3 and being open towards the pit 3, as indicated in Figs. 5 and 6.
The bottom of the pit 15 will be at a third level 16 which is lower -than the level 6, for example 10 meter lower. Next, the dep-th of both pits 3 and 15 is in-creased by building the continuous upper edge of -the pits up -to a fourth level 17. The level 17 may lie somewhat above the sur:Eace of the sea 2, for example about 10 meter. Afterwards, both pits 3 and 15 are 3a~
filled wi-th water 23 up to a level 18, which is suf-ficient for -the floating struc-ture 7 -to clear -the bottom 6 of the pit 3. The level 18 may be approxi-mately the same as -the level 17. Next, as shown in Flg. 6, the s-tructure is floated over to -the pi-t 15, whereupon the water in both pits is lowered to a fifth level 19 corresponding to -the level of -the sea
2 on the outside. The land masses delimiting the pi-t 15 are generally designa-ted by reference numeral 20, these masses formlng a dike against the sea on the outside. As indicated above, this dike 20 consists of the original dike 21 and the upper dike part 22, i.e. between the levels 5 and 17, as is apparent from Fig. 5. When the level of the wa-ter in the -two pits is equal to the level of the sea, -the dike 20 is re-moved, whereupon the structure may be floated ou-t.
Claims (2)
1. A method for building a floating structure, e.g., a concrete offshore platform, where a pit separated from the sea by means of sand or gravel deposits is excavated from a first level down to a second level, and where the structure is erected entirely or partly in the pit, characterized by a) increasing the depth of the pit by building the upper edge of the pit from the first level up to a third level, b) filling the pit which at this stage of the method has a total depth equal to the distance in height between said third level and the second level, with water so that the structure floats, c) removing deposits from below the structure and said second level in order to lower the bottom of the pit to a fourth, lower level while maintaining the level of the water in the pit, d) lowering the level of the water in the pit to a fifth level corresponding to the level of the sea on the outside, and e) removing the land masses separating the pit from the sea, whereupon the structure may be floated out of the pit.
2. A method according to claim 1, characterized in that the deposits situated under the structure and said second level are removed by pumping.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA000493410A CA1237341A (en) | 1985-10-21 | 1985-10-21 | Method for docking of a floating structure |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA000493410A CA1237341A (en) | 1985-10-21 | 1985-10-21 | Method for docking of a floating structure |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA1237341A true CA1237341A (en) | 1988-05-31 |
Family
ID=4131668
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA000493410A Expired CA1237341A (en) | 1985-10-21 | 1985-10-21 | Method for docking of a floating structure |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA1237341A (en) |
-
1985
- 1985-10-21 CA CA000493410A patent/CA1237341A/en not_active Expired
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| MKEX | Expiry |