Pipe assembly and flow assurance system

What is claimed is: 1. A pipe assembly comprising: an outer pipe in surrounding relation about an inner pipe, wherein the inner pipe is suspended in free inner ends of legs extended in an annular space that is formed between the outer and the inner pipes, the legs reaching radially towards the inner pipe from an inner periphery of the outer pipe, wherein at least one leg of the legs in its inner end carries a support foot that is formed with a recess facing towards the inner pipe, and wherein the recess forms a tunnel that is defined through an outer periphery of the inner pipe and opposite tunnel walls that reach from the at least one leg to the inner pipe, wherein the legs and the tunnel walls are flexible and provide an elastic suspension of the inner pipe, and wherein the tunnel walls are cup-shaped in sectional view, and the edges of the tunnel walls that face the inner pipe are formed with a radius corresponding the outer radius of the inner pipe. 2. The pipe assembly of claim 1 , wherein the tunnel is configured to house an electric heater cable separated from the annular space between the outer and the inner pipes. 3. The pipe assembly of claim 1 , wherein at least three legs are arranged in angularly spaced relation about the inner pipe. 4. The pipe assembly of claim 1 , wherein four legs are equally distributed about the inner pipe. 5. The pipe assembly of claim 1 , wherein each leg comprises a support foot with a tunnel housing a heater cable, respectively. 6. The pipe assembly of claim 1 , wherein the legs, the tunnel, and the tunnel walls are arranged to extend continuously for the full length of the outer and the inner pipes. 7. The pipe assembly of claim 1 , wherein the legs and tunnel walls are formed integrally with the outer pipe in an extrusion process. 8. The pipe assembly of claim 1 , wherein the outer pipe, the legs, and the tunnel walls form an extruded thermoplastic jacket which is configured for insertion of the inner pipe via an open end of the outer pipe. 9. The pipe assembly of claim 1 , wherein all legs are of equal length, and the outer and the inner pipes are coaxially aligned. 10. The pipe assembly of claim 1 , wherein the legs divide the annular space between the outer and the inner pipes into axially running channels which are connectable to a pump for pumping sea water through the annular space. 11. A flow assurance system configured for wax and hydrate control through cooling and heating of a hydrocarbon production fluid, the flow assurance system comprising: a pipe assembly section configured to transport the hydrocarbon production fluid, the pipe assembly section comprising: a set of individual outer pipes of limited lengths arranged one after the other in the flow direction of the hydrocarbon fluid and in surrounding relation about an inner pipe of continuous non-specified length, wherein the outer pipes are in flow communication with a pump configured to flush sea water through the outer pipes such that in every other outer pipe the sea water is flushed in a direction opposite the flow direction of the hydrocarbon product fluid through the inner pipe; and electric heater cables housed in tunnels isolated from the sea water flow, and connectable to a common power source. 12. The flow assurance system of claim 11 , wherein the inner pipe is suspended in free inner ends of legs extended in an annular space that is formed between the outer and the inner pipes, the legs reaching radially towards the inner pipe from an inner periphery of the outer pipe. 13. The flow assurance system of claim 12 , wherein at least one leg of the legs in its inner end carries a support foot that is formed with a recess facing towards the inner pipe. 14. The flow assurance system of claim 13 , wherein the recess forms a tunnel that is defined through an outer periphery of the inner pipe and opposite tunnel walls that reach from the at least one leg to the inner pipe. 15. The flow assurance system of claim 14 , wherein the legs and the tunnel walls are flexible and provide an elastic suspension of the inner pipe. 16. The flow assurance system of claim 15 , wherein the tunnel walls are cup-shaped in sectional view, and the edges of the tunnel walls that face the inner pipe are formed with a radius corresponding to the outer radius of the inner pipe. 17. The flow assurance system of claim 16 , wherein the tunnel is configured to house an electric heater cable separated from the annular space between the outer and the inner pipes. 18. The flow assurance system of claim 16 , wherein at least three legs are arranged in angularly spaced relation about the inner pipe. 19. The flow assurance system of claim 16 , wherein four legs are equally distributed about the inner pipe. 20. The flow assurance system of claim 16 , wherein each leg comprises a support foot with a tunnel housing a heater cable, respectively.