Water barrier for submarine power cable

Abstract

An cable that is flexible and watertight by means of a metallic water resistant barrier has at least two protective layers 20, 30 of metal tape wound to a cable core 10 with small gaps 50 between each turn of the tape, and where each layer is displaced 50% relative to each other thus covering the gaps in the layers 20, 30, and where the gaps 50 are filled with a water resistant material.

Claims

1. A subsea cable comprising: a cable core enclosed by a flexible watertight metallic barrier and outer sheath wherein the flexible watertight metallic barrier has: a first protective layer of a metal tape helically wound to the cable core with longitudinal gaps between each turn along the longitudinal axis of said cable core, said first protective layer being continuously disposed along the length of the cable at a first distance from a center of said cable; a second protective layer of metal tape helically wound entirely on top of and directly contacting said first protective layer, and being continuously disposed along the length of the cable at a second distance from the center of said cable, said second distance being greater than said first distance, said second protective layer having longitudinal gaps between each turn along the longitudinal axis of the cable core and being helically displaced 50% relative to said first protective layer, such that said second protective layer disposed entirely at said second distance from said cable core covers said longitudinal gaps in the first protective layer disposed entirely at said first distance from said cable core, and with said longitudinal gaps in the said second protective layer disposed entirely at said second distance from said cable core are not directly above or overlapping with said longitudinal gaps in said first protective layer disposed entirely at said first distance from said cable core, and a water resistant material independent of said outer sheath, said water resistant material being filled into said longitudinal gaps in the first and second protective layers, said water resistant material being a silicone grease or other flexible sealant, said first and second protective layers and said water resistant material there between forming said flexible watertight metallic barrier wherein said gaps between helical wraps in said first protective layer and gaps between helical wraps in said second protective layer are each at least 1 mm wide and up to 10 mm wide, sufficient to provide gaps of a dimension to retain said water resistant material therein.

2. A cable according to claim 1, wherein the metal tape of said first protective layer is Cu-tape and wherein the metal tape of said second protective layer is Al-tape.

3. A cable according to claim 1, wherein said gaps are 5 mm wide.

4. A cable according to claim 1, wherein the water resistant material is silicon grease.

5. A cable according to claim 1, wherein the water resistant material is hot melted glue.

6. A cable according to claim 1, wherein said flexible watertight metallic barrier further comprises at least three or more protective layers.

7. A cable according to claim 6, wherein a water resistant material is applied between each protective layer.

8. A cable according to claim 1, wherein said cable core is coated with an insulator system having a conductor screen, insulation, and an insulation screen.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The invention will now be descried in detail with reference to the figures showing the layered construction of the inventive cable.

(2) FIG. 1 shows a side view the different layers in a cable, and

(3) FIG. 2 shows a cross-section of the cable according to the invention.

DETAILED DESCRIPTION

(4) FIG. 1 shows only one half of a part of the cable cut along the lower dotted line in the figure, while FIG. 2 shows a cross section of a complete cable.

(5) The cable comprises a cable core 10 which is the main element of the cable enabling transportation of power. The cable core 10 is coated with an insulator system (not shown). This insulator system typically comprises a conductor screen, insulation and insulation screen. The cable core 10 with its insulator system is further enclosed in protective water barrier layers and an outer sheath.

(6) In one embodiment the protective water barriers comprises a first and second protective layers 20, 30. These are made of metal tape that is helically wound to the cable core 10 with small gaps 50 between each turn.

(7) The gaps 50 between each turn can vary between 1-10 mm. In one preferred embodiment the gaps 50 are 5 mm wide.

(8) The first protective layer 20 is closest to the core 10 and the second protective layer 30 is wound to the first protective layer 20. It is displaced 50% relative to the first protective layer 20 thus covering said gaps 50 in the first protective layer 20.

(9) In one embodiment of the invention the tape is copper tape. Tape of other materials is also feasible, e.g. aluminum or a mix of tapes where a first layer is Cu-tape and the second layer is Al-tape or vice versa.

(10) The gaps 50 in the protective layers 20, 30 are filled with a water blocking material, i.e. a water resistant material. In one embodiment of the invention the water resistant material is silicon grease. In another embodiment it is hot melted glue.

(11) In one embodiment the water resistant material is applied between each metal layer in addition to the filling in the gaps 50. It is also feasible with different water resistant materials between each layer.

(12) The construction of the protective layers can in another embodiment be expanded to comprise three or more layers for making the water barrier protection even better. This will however make the cable construction somewhat stiffer but it will still be well suited for dynamic applications.

(13) The described inventive cable 10 with its protective layers will provide a cable that is resistant to fatigue over time due to its flexible properties despite having protective metal layers. The invention will overcome weaknesses of prior art by providing a flexible yet watertight metallic barrier. The specific construction is advantageous for submarine power cables for avoiding fatigue over time.