Insulated fluid conduit

What is claimed is: 1. An insulated fluid conduit comprising: (a) a conduit inner surface defining a flow channel; (b) a conduit outer surface; (c) a first insulating layer comprising a first phase change material dispersed in a first polymer matrix; (d) a second insulating layer disposed upon the first insulating layer, the second insulating layer comprising a second phase change material dispersed in a second polymer matrix; wherein the first polymer matrix is configured as an open cell foam defining a network of voids and wherein the first phase change material is disposed therein the voids and including at least one barrier layer disposed on an outermost surface of the first polymer matrix to inhibit migration of the first phase change material into the environment and the second polymer matrix is configured as a continuous phase and wherein the second phase change material is dispersed within the second polymer matrix as a microencapsulated discontinuous phase, wherein at least one barrier layer surrounds the second phase change material in discrete domains dispersed within the second polymer matrix to inhibit migration of the second phase change material into the environment, and wherein the continuous phase of the second polymer matrix is an outermost layer of the insulated fluid conduit; or wherein the first polymer matrix is configured as a continuous phase and wherein the first phase change material is dispersed within the first polymer matrix as a microencapsulated discontinuous phase, wherein at least one barrier layer surrounds the first phase change material in discrete domains dispersed within the first polymer matrix and wherein the second polymer matrix is configured as an open cell foam defining a network of voids and wherein the second phase change material is disposed therein the voids and including at least one barrier layer disposed on an outermost surface of the second polymer matrix to inhibit migration of the second phase change material into the environment, and wherein the at least one barrier layer is an outermost layer of the insulated fluid conduit, and wherein the first phase change material has a melting point T 1 and the second phase change material has a melting point T 2 , and T 1 is greater than T 2 . 2. The insulated fluid conduit according to claim 1 , wherein least one of the first polymer matrix, the second polymer matrix and the at least one barrier layer comprises a silicone rubber. 3. The insulated fluid conduit according to claim 1 , wherein at least one of the first polymer matrix and the second polymer matrix comprises a polyolefin. 4. The insulated fluid conduit according to claim 1 , wherein at least one of the first polymer matrix, the second polymer matrix and the at least one barrier layer comprises a polyurethane. 5. The insulated fluid conduit according to claim 1 , wherein at least one of the first polymer matrix, the second polymer matrix and the at least one barrier layer comprises a polyepoxide. 6. The insulated fluid conduit according to claim 1 , wherein at least one of the first polymer matrix, the second polymer matrix and the at least one barrier layer comprises a polyimide. 7. The insulated fluid conduit according to claim 1 , wherein at least one of the first polymer matrix, the second polymer matrix and the at least one barrier layer comprises a polyetherimide. 8. The insulated fluid conduit according to claim 1 , wherein the at least one barrier layer comprises a silicone material which is impermeable with respect to the phase change material. 9. The insulated fluid conduit according to claim 1 , wherein at least one of the first phase change material and the second phase change material is dispersed in a polymeric matrix configured as an open cell foam. 10. The insulated fluid conduit according to claim 1 , wherein at least one of the first phase change material and the second phase change material comprises a normal hydrocarbon selected from the group consisting of hexadecane, octadecane, and eicosane. 11. The insulated fluid conduit according to claim 1 , which is a component of oil field equipment selected from the group consisting of insulated pipes, insulated valves, insulated manifolds, insulated joints, insulated Christmas trees, insulated risers and insulated tie-backs. 12. The insulated fluid conduit according to claim 1 , wherein a thermally conductive layer is disposed between the conduit outer surface and the first insulating layer. 13. An insulated fluid conduit comprising: (a) a conduit inner surface defining a flow channel; (b) a conduit outer surface; (c) a first insulating layer comprising a silicone rubber and a first phase change material, wherein the silicon rubber of the first insulating layer is configured as an open cell foam defining a network of voids and wherein the first phase change material is disposed therein the voids and including at least one barrier layer disposed on an outermost surface of the silicon rubber to inhibit migration of the first phase change material into the environment; and (d) a second insulating layer comprising a silicone rubber and a second phase change material, wherein the silicon rubber of the second insulating layer is configured as a continuous phase and wherein the second phase change material is dispersed within the silicone rubber as a microencapsulated discontinuous phase, wherein at least one barrier layer surrounds the second phase change material of the second insulating layer in discrete domains dispersed within the silicone rubber to inhibit migration of the second phase change material into the environment, and wherein the continuous phase of the silicon rubber of the second insulating layer is an outermost layer of the insulated fluid conduit; wherein the first phase change material has a melting point T 1 and the second phase change material has a melting point T 2 , and T 1 is greater than T 2 . 14. An insulated fluid conduit comprising: (a) a conduit inner surface defining a flow channel; (b) a conduit outer surface; (c) a first insulating layer comprising a first phase change material dispersed in a first polymeric matrix; and (d) a second insulating layer comprising a second phase change material dispersed in a second polymeric matrix; wherein the first phase change material has a melting point T 1 and the second phase change material has a melting point T 2 , wherein T 1 is greater than T 2 , and wherein at least one of the first polymeric matrix and the second polymeric matrix is configured as an open cell foam defining a network of voids and wherein a respective one of the first phase change material and the second phase change material is disposed therein the voids and including at least one barrier layer disposed on an outermost surface of the at least one of the first polymeric matrix and the second polymeric matrix to inhibit migration of the respective one of the first phase change material and the second phase change material into the environment, and wherein the other of the first polymeric matrix and the second polymeric matrix is configured as a continuous phase and wherein a respective one of the first phase change material and the second phase change material is dispersed therein as a microencapsulated discontinuous phase, wherein at least one barrier layer surrounds the respective one of the first phase change material and the second phase change material in discrete domains dispersed within the respective one of the first polymeric matrix and the second polymeric matrix, and wherein the continuous phase is an outermost layer of the insulated fluid conduit.