Method and apparatus for maintaining a minimum temperature in a fluid

The invention claimed is: 1. A flexible pipe body comprising: one or more encapsulated or enclosed regions of thermally active material disposed in a layer of the flexible pipe body, wherein the thermally active material is a phase change material, wherein said one or more regions comprise at least one helically wound, encapsulated or enclosed layer of thermally active material extending axially along a portion of the flexible pipe body, wherein the helically wound, encapsulated or enclosed layer is in the form of a tape, and wherein adjacent windings of the tape are connected so as to form a continuous tape layer and the continuous tape layer is the innermost layer of the pipe body. 2. The flexible pipe body as claimed in claim 1 wherein the thermally active material has a latent heat of fusion of from about 80 kJkg −1 to about 500 kJkg −1 . 3. The flexible pipe body as claimed in claim 1 , wherein: a cross section of said at least one tape layer further comprises a valley region and a hook region that interlock adjacent windings in said at least one tape layer. 4. The flexible pipe body as claimed in claim 3 , further comprising: a substantially H-shaped connecting tape locatable between adjacent windings of said at least one tape layer. 5. The flexible pipe body as claimed in claim 1 , wherein the flexible pipe body further comprises a carcass layer and/or an insulation layer. 6. The flexible pipe body as claimed in claim 1 , wherein the flexible pipe body further comprises a layer radially outside an armour layer and/or proximate to an inner surface of an outer sheath layer of the flexible pipe body. 7. A flexible pipe comprising the flexible pipe body as claimed in claim 1 and one or more end fittings. 8. A jumper, riser or flowline comprising the flexible pipe as claimed in claim 7 . 9. A method of manufacturing flexible pipe body, comprising the steps of: providing one or more encapsulated or enclosed regions of thermally active material in a layer of flexible pipe body, wherein the thermally active material is a phase change material, and wherein said one or more regions comprise at least one helically wound, encapsulated or enclosed layer of thermally active material extending axially along a portion of the flexible pipe body, wherein the helically wound, encapsulated or enclosed layer is in the form of a tape, wherein adjacent windings of the tape are connected so as to form a continuous tape layer and the continuous tape layer is the innermost layer of the pipe body. 10. The method as claimed in claim 9 , further comprising the steps of: winding said at least one tape layer around an underlying layer in the flexible pipe body. 11. A method of preventing or delaying the cooling of a fluid in a sub-sea pipe below a predetermined threshold temperature, the method comprising providing the pipe with a layer or body of thermally active material selected to liberate latent heat to the fluid as the fluid temperature approaches said threshold temperature, wherein the thermally active material is a phase change material, and wherein said layer or body of thermally active material comprises a helically wound, encapsulated or enclosed layer of thermally active material extending axially along a portion of the flexible pipe, wherein the helically wound, encapsulated or enclosed layer is in the form of a tape, wherein adjacent windings of the tape are connected so as to form a continuous tape layer and the continuous tape layer is the innermost layer of the pipe body. 12. A method as claimed in claim 11 wherein the melting point of the thermally active material is not more than about 5° C. to 10° C. greater than said threshold temperature. 13. A method as claimed in claim 11 wherein said threshold temperature represents a temperature at which the fluid in the pipe begins to deposit, or deposits, solid material. 14. A tape as claimed in claim 11 wherein the thermally active material is a material having a high latent heat of fusion. 15. A tape as claimed in claim 14 wherein the thermally active material has a latent heat of fusion of from 80 to 500 kJkg −1 . 16. A tape as claimed in claim 15 wherein the thermally active material has a latent heat of fusion of at least 100 kJkg −1 or at least 150 kJkg −1 or at least 200 kJkg −1 or at least 250 kJkg −1 . 17. A sub-sea pipe, pipe body or pipe element configured to prevent or delay the cooling of a fluid when present in the sub-sea pipe, pipe body or pipe element below a predetermined threshold temperature, the sub-sea pipe, pipe body or pipe element including a layer or body of thermally active material configured to liberate latent heat to the fluid as, or if, in use, the fluid temperature approaches said threshold temperature, wherein the thermally active material is a phase change material, and wherein said layer or body of thermally active material comprises a helically wound, encapsulated or enclosed layer of thermally active material extending axially along a portion of the flexible pipe, wherein the helically wound, encapsulated or enclosed layer is in the form of a tape, wherein adjacent windings of the tape are connected so as to form a continuous tape layer and the continuous tape layer is the innermost layer of the pipe body. 18. A sub-sea pipe, pipe body or pipe element as claimed in claim 17 wherein the melting point of the thermally active material is not more than about 5° C. to 10° C. greater than said threshold temperature. 19. A sub-sea pipe, pipe body or pipe element as claimed in claim 17 wherein said threshold temperature represents a temperature at which the fluid in the pipe begins to deposit, or deposits, solid material.