System for the transfer and gravitational drainage of a gas in liquid form

The invention claimed is: 1. A transfer system for transferring liquid-form gas between two liquid-form gas units, comprising a main pipe configured to transfer the liquid-form gas from a source tank of a liquid-form gas source unit to a receiving tank of a liquid-form gas receiving unit, said main pipe comprising at least a first portion and a flexible second portion, the transfer system comprising an articulated support device for supporting the main pipe, the first portion being secured to the articulated support device and configured to withdraw the liquid-form gas contained in the source tank, wherein the transfer system comprises at least one return pipe configured to convey the liquid-form gas present in the main pipe toward the source tank, the transfer system for transferring liquid-form gas being configured to drain the liquid-form gas present in the main pipe under gravity toward the source tank via the return pipe. 2. The transfer system as claimed in claim 1 , wherein the draining of the liquid-form gas is activated by at least one flow controller situated on the return pipe. 3. The transfer system as claimed in claim 1 , wherein the return pipe comprises an emergency disconnection device. 4. The transfer system as claimed in claim 1 , wherein the return pipe comprises at least a pressure sensor and at least a temperature sensor sensing the pressure and the temperature of the return pipe. 5. The transfer system as claimed in claim 1 , wherein the return pipe has a bore section of between 300 mm 2 and 2000 mm 2 . 6. The transfer system as claimed in claim 1 , wherein the circulation of the liquid-form gas within the main pipe is activated by at least a first valve positioned on the main pipe. 7. The transfer system as claimed in claim 1 , comprising a pressurizing line connected to the main pipe and configured to remove the liquid-form gas present in the main pipe and in the return pipe. 8. The transfer system as claimed in claim 1 , wherein the return pipe comprises a first end connected to the main pipe and a second end configured to open into the source tank of the liquid-form gas source unit, the second end of the return pipe being vertically lower down than the first end of the return pipe. 9. The transfer system as claimed in claim 8 , wherein the first end of the return pipe is connected to the main pipe via a first connection/disconnection device. 10. The transfer system as claimed in claim 1 , wherein the flexible second portion is configured to be connected to the header of the third portion by a second connection/disconnection device. 11. The transfer system as claimed in claim 10 , wherein the return pipe is connected to the main pipe in the flexible second portion thereof upstream of the header. 12. The transfer system as claimed in claim 10 , wherein the return pipe is connected to the main pipe in the third portion thereof downstream of the header of the third portion and upstream of the second valve of the third portion. 13. The transfer system as claimed in claim 1 , wherein the flexible second portion of the main pipe comprises a first end and a second end, the first end of the flexible second portion being secured to the articulated support device. 14. The transfer system as claimed in claim 3 , wherein the main pipe comprises a third portion, said third portion comprising a first termination provided with a header, and a second termination configured to open into the receiving tank. 15. The transfer system as claimed in claim 14 , wherein the third portion comprises at least a second valve positioned between the header of the third portion and the second termination of the third portion. 16. A drainage method for draining a liquid-form gas, implemented by a transfer system for transferring liquid-form gas as claimed in claim 8 , and comprising: a first step in which at least the second valve of the third portion of the main pipe is closed, a second step in which the articulated support device supporting the main pipe is raised so as to position the first end of the flexible second portion vertically higher up than the second end of the flexible second portion, a third step in which at least the flow controller of the return pipe is opened. 17. The drainage method as claimed in claim 16 , comprising an additional step that comes later than the first step, and during the course of which a gas valve is opened so as to connect a headspace of the source tank to the first portion of the main pipe. 18. The drainage method as claimed in claim 16 , comprising a fourth step, consecutive with the third step of heating the main pipe. 19. The drainage method as claimed in claim 16 , comprising an additional step that comes later than the first step, and during which at least the first valve of the main pipe is closed. 20. The drainage method as claimed in claim 19 , during the course of which a fluid different than the liquid-form gas is injected so as to drive out the liquid-form gas present in the main pipe.