Submarine power cable

The invention claimed is: 1. A submarine power cable comprising: a plurality of stranded conductors, each stranded conductor being formed of a plurality of metallic wires; and an insulation system surrounding each stranded conductor, wherein each stranded conductor, at given intervals of the submarine power cable, is compressed to a substantially solid configuration across an area to form a plurality of watertight partitions along a length of the submarine power cable, wherein each said insulation system comprises an inner semiconducting layer, a solid insulation layer and an outer semiconductor layer, wherein at least one stranded conductor of said plurality of stranded conductors within said submarine power cable is without filling compound in between voids or spaces of the metallic wires forming a clean stranded conductor, and wherein each stranded conductor has a thin sleeve or casing over the area that is compressed, such that where each stranded conductor is compressed to the substantially solid configuration, the thin sleeve or casing is level with, or in line with, area of each stranded conductor which is not compressed, thereby providing each stranded conductor with a substantially equal diameter over the length of each stranded conductor. 2. The submarine power cable according to claim 1 , wherein the plurality of metallic wires forming each stranded conductor of said plurality of stranded conductors are bundled or wrapped together to form a bunch stranding, a concentric stranding, an unilay stranding or a rope lay stranding. 3. The submarine power cable according to claim 2 , wherein the metallic wires are made from aluminum, copper, other metals or a combination thereof. 4. The submarine power cable according to claim 1 , wherein the area which is compressed has a length between 1-1500 mm. 5. The submarine power cable according to claim 4 , wherein the area which is compressed has a length between 10-1000 mm. 6. The submarine power cable according to claim 4 , wherein the area which is compressed has a length between 15-850 mm. 7. The submarine power cable according to claim 1 , wherein each stranded conductor has a circular, triangular or polygonal cross-section. 8. The submarine power cable according to claim 1 , wherein each stranded conductor is continuous along the length of the submarine power cable. 9. A method for providing the plurality of watertight partitions along the length of the submarine power cable according to claim 1 , wherein said method comprises the following step: at one of the intervals of the length of the submarine power cable, arranging a compression tool around an outer circumference of each stranded conductor, using the compression tool to compress each stranded conductor across the area, releasing the compression tool from each stranded conductor, repeating the arranging of the compression tool around the outer circumference of each stranded conductor at other ones of the intervals and using the compression tool to compress each stranded conductor at each of said other intervals, thereby forming the plurality of watertight partitions along the length of the submarine power cable. 10. The method according to claim 9 , wherein the method further comprises the following step: compressing each stranded conductor to the substantially solid configuration. 11. The method according to claim 9 , wherein the method further comprises the following step: performing the compression in several step, in order to obtain a desired length of the watertight partition. 12. The method according to claim 9 , wherein the method further comprises, before the compression of each stranded conductor the following step: arranging the thin sleeve or casing over an area which is to be compressed, compressing both the thin sleeve or casing and the stranded conductor, in order to provide each stranded conductor with a substantially equal diameter over the length of each stranded conductor. 13. The submarine power cable according to claim 1 , wherein the submarine power cable is a medium or high voltage cable. 14. The submarine power cable according to claim 1 , wherein the inner semiconducting layer is arranged around the metallic wires, the solid insulation layer is arranged around the inner semiconducting layer and the outer semiconducting layer is arranged around the solid insulation layer.