Multi-function unit for the offshore transfer of hydrocarbons

The invention claimed is: 1. A hydrocarbon transfer arrangement for transfer of cryogenic fluids between an offshore unit and a carrier which are placed in an offloading configuration, comprising at least one surface floating transfer hose and a surface floating gas return hose each adapted to be connected to a reel on the offshore unit, end fittings of the hoses being attached to a floating multifunctional unit comprising a tubular frame structure ( 9 ) providing buoyancy, and having a pulling bar or lugs for towing and for allowing the transport of the transfer hoses between the offshore unit and the carrier, wherein the floating multifunctional unit can be lifted out of the water via the pulling bar or lugs and can be held in a fixed position above water-level, the ends of the hoses being provided with connection means for making a fluid connection between the transfer hoses end fittings and a manifold on the offshore unit, the transfer hose and the gas return hose at the floating multifunctional unit being mutually connected via a closeable fluid connection to create a closed loop for pre-cooling the interconnected hoses by pumping a cold fluid and/or to purge liquefied gas out of the hoses in case of an emergency disconnection at the carrier. 2. The hydrocarbon transfer arrangement according to claim 1 , wherein the connection means comprise two spool pieces coaxially with each respective hose, the spool pieces being structurally attached to the frame structure, and being flow interconnectable via a duct. 3. The hydrocarbon transfer arrangement according to claim 1 , further comprising at least two transfer hoses each connected with its end fittings to the floating multifunctional unit. 4. The hydrocarbon transfer arrangement according to claim 1 in combination with the reel on the offshore unit, the reel being provided with a turntable and motor for reeling in and out of the hoses and operating launching and pulling in of the floating multifunctional unit. 5. A fluid transfer arrangement according to claim 1 , wherein the gas return hose is adapted for transferring liquefied gas in case of an emergency disconnection of the floating multifunctional unit at the carrier. 6. A fluid transfer arrangement as claimed in claim 5 , wherein the gas return hose is an LPG hose adapted for transferring fluids at −70 degrees C. 7. A fluid transfer arrangement according to claim 1 , wherein two adjacent hoses are kept at a distance from each other by multiple separation members. 8. A fluid transfer arrangement according to claim 1 , the wherein the hoses are releasably attached to the floating multifunctional unit via an emergency disconnection means. 9. A fluid transfer arrangement according to claim 1 , wherein in case of emergency disconnection, a closed loop is formed via the spool piece part of the floating multifunctional unit that stays connected to the manifold of the carrier, after the rest of the floating multifunctional unit is disconnected from the carrier. 10. The hydrocarbon transfer arrangement according to claim 2 in combination with the reel on the offshore unit, the reel being provided with a turntable and motor for reeling in and out of the hoses and operating launching and pulling in of the floating multifunctional unit. 11. The hydrocarbon transfer arrangement according to claim 3 in combination with the reel on the offshore unit, the reel being provided with a turntable and motor for reeling in and out of the hoses and operating launching and pulling in of the floating multifunctional unit. 12. The hydrocarbon transfer arrangement according to claim 2 , comprising at least two transfer hoses each connected with its end fittings to the floating multifunctional unit. 13. The hydrocarbon transfer arrangement according to claim 12 in combination with the reel on the offshore unit, the reel being provided with a turntable and motor for reeling in and out of the hoses and operating launching and pulling in of the floating multifunctional unit. 14. A method for cooling down a hydrocarbon transfer arrangement for transfer of cryogenic fluids between an offshore unit and a carrier which are placed in an offloading configuration, comprising at least one surface floating transfer hose and a surface floating gas return hose each adapted to be connected to a reel on the offshore unit, end fittings of the hoses being attached to a floating multifunctional unit comprising a tubular frame structure ( 9 ) providing buoyancy, and having a pulling bar or lugs for towing and for allowing the transport of the transfer hoses between the offshore unit and the carrier, wherein the floating multifunctional unit can be lifted out of the water via the pulling bar or lugs and can be held in a fixed position above water-level, the ends of the hoses being provided with connection means for making a fluid connection between the transfer hoses end fittings and a manifold on the offshore unit, the transfer hose and the gas return hose at the floating multifunctional unit being mutually connected via a closeable fluid connection to create a closed loop for pre-cooling the interconnected hoses by pumping a cold fluid and/or to purge liquefied gas out of the hoses in case of an emergency disconnection at the carrier, wherein at the floating multifunctional unit the end fittings of the two hoses are temporarily interconnected forming a closed loop so that the transfer hose is cooled down by pumping a cold fluid within the interconnected hoses. 15. The method for cooling down a hydrocarbon transfer arrangement according to claim 14 , wherein two cryogenic transfer hoses and a gas return hose are connected to the floating multifunctional unit, wherein at the floating multifunctional unit the two cryogenic transfer hoses are temporarily interconnected to form a closed loop so that both hoses are cooled down simultaneously by pumping a cold fluid within the interconnected hoses.