Continuous casting process of metal

What is claimed is: 1. A continuous casting process of a steel semi-product comprising the steps of: casting, using a hollow jet nozzle located between a tundish and a continuous casting mould, the nozzle including, in an upper part, a dome for deflecting liquid metal arriving at an inlet of the nozzle towards an internal wall of the nozzle, thereby defining an internal volume with no liquid metal; and injecting, simultaneously, powder through a hole of the dome, the powder having a particle size of 200 μm or less, the dome including a first device to inject the powder without any contact with the dome, the first device including a hollow body passing through the hole of the dome, said hollow body having a double wall, the double wall further comprising an internal wall, the powder being in contact with an internal surface of the internal wall during the injecting; an outer wall of the double wall being made of one material and having an external surface, the external surface of the outer wall being arranged away from an inner surface of the hole of the dome, the external surface of the outer wall and the inner surface of the hole of the dome delimiting between them a space, circulating a cooling gas inside the double wall via an inlet on an end of the double wall during the injecting, the cooling gas circulating in the double wall with a flow rate ranging from 10 to 30 m 3 /h, the circulation of the gas avoiding sticking or sintering of said powder onto the internal wall of the double wall; and exhausting the cooling gas from the double wall via an outlet on said end of the double wall, during the injecting. 2. The continuous casting process according to claim 1 , wherein the gas is nitrogen. 3. The continuous casting process according to claim 1 , wherein a powder feeder is partly disposed in the hollow body. 4. The continuous casting process according to claim 3 , wherein the powder feeder goes through a support arm of the dome. 5. The continuous casting process according to claim 1 , wherein the hollow body is a tube with a circular section. 6. The continuous casting process according to claim 5 , wherein an inner diameter of the tube ranges from 8 to 30 mm. 7. The continuous casting process according to claim 1 , wherein the gas cools the double wall. 8. The continuous casting process according to claim 1 , wherein the inlet and the outlet of the double wall are arranged out of the dome. 9. The continuous casting process according to claim 1 , wherein the outer wall does not contact the dome. 10. The continuous casting process according to claim 1 , wherein an external surface of the internal wall and an internal surface of the outer wall define a gas input channel and a gas outlet channel, the gas circulating in the gas input channel in a first direction and the gas circulating in the gas outlet channel in a second direction opposite to the first direction. 11. The continuous casting process according to claim 10 , wherein the gas circulating in the gas input channel is in contact with the external surface of the internal wall and with the internal surface of the outer wall, and the gas circulating in the gas outlet channel is in contact with the external surface of the internal wall and with the internal surface of the outer wall. 12. The continuous casting process according to claim 10 , further comprising a plurality of transverse walls extending radially from the internal wall to the outer wall. 13. The continuous casting process according to claim 1 , wherein the hollow body has an injection outlet, from which the powder is injected into the mould, the injection outlet of the hollow body being contained in the hole of the dome. 14. A continuous casting process of a steel semi-product comprising the steps of: casting, using a hollow jet nozzle located between a tundish and a continuous casting mould, the nozzle including, in an upper part, a dome for deflecting liquid metal arriving at an inlet of the nozzle towards an internal wall of the nozzle, thereby defining an internal volume with no liquid metal, injecting, simultaneously, powder through a hole of the dome, the powder having a particle size of 200 μm or less, the dome including a first device to inject the powder without any contact with the dome, the first device including a hollow body passing through the hole of the dome, said hollow body having a double wall, the first device being surrounded by an insulating layer, the insulating layer being a thermal barrier between the hollow body and the dome, the insulating layer being in contact with an inner surface of the hole of the dome, circulating a cooling gas inside the double wall via an inlet on an end of the double wall during the injecting, the cooling gas circulating in the double wall with a flow rate ranging from 10 to 30 m 3 /h, the circulation of the gas avoiding sticking or sintering of said powder onto the double wall. 15. The continuous casting process according to claim 14 , wherein the insulating layer extends at least over a length of the hole, the length being taken along a longitudinal axis of the hole. 16. A continuous casting process of a steel semi-product comprising the steps of: casting, using a hollow jet nozzle located between a tundish and a continuous casting mould, the nozzle including, in an upper part, a dome for deflecting liquid metal arriving at an inlet of the nozzle towards an internal wall of the nozzle, thereby defining an internal volume with no liquid metal; and injecting, simultaneously, powder through a hole of the dome, the powder having a particle size of 200 μm or less, the dome including a first device to inject the powder without any contact with the dome, the first device including a hollow body having a double wall comprising an internal wall and an outer wall, an external surface of the internal wall and an internal surface of the outer wall defining a gas input channel and a gas outlet channel, the first device passing through the hole of the dome, the powder being in contact with an internal surface of the internal wall during the injecting; the outer wall of the double wall being made of one material and having an external surface, the external surface of the outer wall being arranged away from an inner surface of the hole of the dome, the external surface of the outer wall and the inner surface of the hole of the dome delimiting between them a space; circulating a cooling gas in the gas input channel in a first direction; and circulating the cooling gas in the gas outlet channel in a second direction opposite to the first direction, the cooling gas circulating in the gas input channel and in the gas outlet channel with a flow rate ranging from 10 to 30 m 3 /h, the circulation of the gas avoiding sticking or sintering of said powder onto the internal wall of the double wall.