Unbonded flexible pipe with an optical fiber containing layer

What is claimed is: 1. A unbonded flexible pipe having a length and a longitudinal axis and comprising an innermost sealing sheath defining a bore, at least one armor layer surrounding the inner sealing sheath and at least one optical fiber containing layer, wherein the optical fiber containing layer comprises at least one tape and at least one optical fiber arranged with a length of at least about 3 times the length of the flexible pipe and wherein the optical fiber is a part of a temperature sensor system. 2. The unbonded flexible pipe of claim 1 , wherein the optical fiber is arranged with a length of at least about 5 times the length of the flexible pipe. 3. The unbonded flexible pipe of claim 1 , wherein the optical fiber is helically wound or arranged with folds to ensure its length of at least about 3 times the length of the flexible pipe. 4. The unbonded flexible pipe of claim 1 , wherein the optical fiber containing layer comprises a plurality of tapes. 5. The unbonded flexible pipe of claim 1 , wherein the tape(s) of said optical fiber containing layer has/have a length direction and a width perpendicular to its length direction, the width of the tape(s) being least about 3 cm. 6. The unbonded flexible pipe of claim 1 , wherein the tape(s) of said optical fiber containing layer has/have a thickness determined in axial direction of the pipe, the thickness of the wound tape(s) being from about 1 mm to about 4 mm. 7. The unbonded flexible pipe of claim 1 , wherein the tape(s) is/are of composite material comprising or consisting of polymer and reinforcement elements. 8. The unbonded flexible pipe of claim 1 , wherein the tape(s) is/are woven tapes comprising woven yarns and/or strands impregnated with a thermoplastic resin, selected from a thermoplastic resin comprising polyamide (PA), polybutylene terephthalate (PBT), thermoplastic polyester (PET), polycarbonate (PC), polyethylene (PE), polypropylene (PP), polyvinyl chloride (PVC) and mixtures comprising one or more of these thermoplastic resins. 9. The unbonded flexible pipe of claim 1 , wherein the sensor system additionally is configured for sensing strain, vibrations, pressure and/or sound. 10. The unbonded flexible pipe of claim 1 , wherein said at least one tape and said at least one optical fiber are helically wound to surround the longitudinal axis of the flexible pipe and wherein the optical fiber is wound with an angle to the longitudinal axis which is substantially identical to the winding direction of the helically wound tape(s). 11. The unbonded flexible pipe of claim 1 , wherein said at least one tape and said at least one optical fiber are helically wound to surround the longitudinal axis of the flexible pipe and wherein the tape(s) is/are wound with a helical gap between windings of the helically wound tape(s), the optical fiber is arranged in said helical gap. 12. The unbonded flexible pipe of claim 1 , wherein said optical fiber is incorporated into said at least one tape of said optical fiber containing layer to provide an integrated fiber tape. 13. The unbonded flexible pipe of claim 12 , wherein said optical fiber is incorporated into said at least one tape of said optical fiber containing layer by being held between two sub-layers of the tape. 14. The unbonded flexible pipe of claim 13 , wherein said sub-layers of the tape are fused or adhered together, allowing a clearance zone along at least a part of the length of the optical fiber to not be fused or adhered. 15. The unbonded flexible pipe of claim 12 , wherein said optical fiber is arranged with folds along the length of the tape. 16. The unbonded flexible pipe of claim 15 , wherein said tape has a length and a width, the tape in its length direction has a linear elasticity of from about 25% to about 500%. 17. The unbonded flexible pipe of claim 15 , wherein said tape comprising the incorporated optical fiber arranged with folds along the length of the tape is helically wound to surround the longitudinal axis of the flexible pipe with a winding degree of from about 10 to about 55 degrees. 18. The unbonded flexible pipe of claim 1 , wherein the optical fiber containing layer is arranged outside the innermost sealing sheath. 19. The unbonded flexible pipe of claim 1 , wherein the unbonded flexible pipe comprises one or more armor layers arranged outside the innermost sealing sheath, the optical fiber containing layer is arranged outside the one or more armor layers. 20. The unbonded flexible pipe of claim 1 , wherein the unbonded flexible pipe comprises an outer protecting layer, the optical fiber containing layer is arranged inside the outer protecting layer. 21. The unbonded flexible pipe of claim 1 , wherein the unbonded flexible pipe comprises a first end terminated with an end fitting and wherein at least the innermost sealing sheath is anchored, the optical fiber exits the unbonded flexible pipe via said end fitting. 22. The unbonded flexible pipe of claim 1 , wherein the unbonded flexible pipe comprises a liquid impervious outer protecting sheath and the optical fiber exits the unbonded flexible pipe through an opening in said liquid impervious outer protecting sheath. 23. The unbonded flexible pipe of claim 22 , wherein said liquid impervious outer protecting sheath adjacent to said opening is sealed to at least one underlying layer.