Multi-phase distribution system, sub sea heat exchanger and a method of temperature control for hydrocarbons

The invention claimed is: 1. A sub sea multi-phase distribution system for a gas/liquid mixture comprising hydrocarbons and an antihydrate-forming agent, the subsea multi-phase distribution system, comprising: at least one distribution chamber provided with a distribution surface for spreading liquid, at least one inlet, arranged for supplying a hydrocarbon-containing gas/liquid mixture to the distribution surface, a collecting space at least partly defined by the distribution surface, for collecting gas separated from the gas/liquid mixture, multiple outlet elements arranged on the distribution surface, and multiple heat exchange channels, wherein each heat exchange channel is connected to or forms a respective outlet elements, each outlet element transports gas from the collecting space and liquid from the distribution surface away from the distribution chamber to a respective heat exchange channel, and each outlet element comprises at least one flow aperture, and the flow aperture is arranged to provide a gas flow area for transporting gas from the collecting space and a liquid flow area for transporting liquid from the distribution surface, such that both gas and liquid are transported through each flow aperture to each respective heat exchange channel. 2. The sub sea multi-phase distribution system according to claim 1 , wherein the outlet elements protrude from the distribution surface towards the collecting space. 3. The sub sea multi-phase distribution system according to claim 1 , wherein the outlet elements are designed to transport away both gas and liquid simultaneously. 4. The sub sea multi-phase distribution system according to claim 1 , wherein the at least one flow aperture is arranged to provide a flow area profile, wherein the liquid flow area increases as a function of the increasing liquid level on the distribution surface. 5. The sub sea multi-phase distribution system according to claim 4 , wherein for at least part of the flow area profile, the liquid flow area increases as a non-linear function of the increasing liquid level on the distribution surface. 6. The sub sea multi-phase distribution system according to claim 5 , wherein for at least part of the flow area profile, the liquid flow area increases at a higher rate than the increase in liquid level on the distribution surface. 7. The sub sea multi-phase distribution system according to claim 4 , wherein at least part of the flow aperture is V-shaped. 8. The sub sea multi-phase distribution system according to claim 4 , wherein the at least one flow aperture comprises at least one circular or ellipsoid hole. 9. The sub sea multi-phase distribution system according to claim 4 , wherein the at least one flow aperture comprises at least one slit. 10. The sub sea multi-phase distribution system according to claim 4 , wherein the outlet element comprises multiple flow apertures arranged in a pattern. 11. The sub sea multi-phase distribution system according to claim 1 , wherein the distribution chamber is provided with at least one baffle element to reduce flow momentum and arranged to prevent direct spilling of the gas/liquid mixture from the inlet to the outlets. 12. A sub sea heat exchanger comprising the sub sea multi-phase distribution system according to claim 1 , wherein the outlet elements of the multi-phase distribution system are connected to heat exchange elements. 13. A method of using the sub sea multi-phase distribution system according to claim 1 , comprising: placing sub sea multi-phase distribution system in sea, and distributing a multiphase mixture comprising hydrocarbons using the sub sea multi-phase distribution system.