Gas injection element for a fluid catalytic cracking unit and gas distribution system equipped with this injection element

The invention claimed is: 1. A gas injection element for a system for distributing gas inside a chamber of a fluid catalytic cracking unit, the injection element comprising a passage passing through the element from one end to the other and extending in a longitudinal direction (X), the gas injection element comprising: an internal metal element, an internal surface of which defines part of the through-passage in the longitudinal direction (X); a hollow metal sleeve, receiving an end of the internal element and fixed thereto; a hollow metal support having an internal surface defining the rest of the through-passage in the longitudinal direction (X), the sleeve also being fixed to an end of the hollow metal support, wherein the hollow metal support comprises a collar, wherein the collar is configured to be located on the side of a second face of a support wall of the system for distributing gas, wherein the system comprises at least one support wall perforated with at least one orifice and defining at least part of a cavity, the support wall having a first face intended to be in contact with a gas contained in this cavity, and the second face opposite the first face. 2. The gas injection element of claim 1 , wherein the sleeve is in abutment against the end of the hollow metal support to which it is fixed in the longitudinal direction (X). 3. The gas injection element of claim 2 , wherein a predetermined clearance is provided between an end of a proximal internal element of the hollow metal support and the hollow metal support in the longitudinal direction (X). 4. The gas injection element of claim 1 , further comprising at least one of the following features: the sleeve is shrunk-fit on the internal element; the sleeve is soldered to the internal element; the sleeve is soldered to the hollow metal support. 5. The gas injection element of claim 1 , wherein the metal material forming the internal element is different from the metal material forming the sleeve and/or the metal material forming the hollow metal support. 6. The gas injection element of claim 1 , wherein an end of the support opposite the internal element has an opening, the transverse section of which has a surface area that is less than or equal to the surface area of the transverse section of the part of the passage defined by the hollow metal support. 7. The gas injection element of claim 1 , wherein the end of the hollow metal support fixed to the sleeve forms a collar projecting from the hollow metal support in a direction transverse to the longitudinal direction (X). 8. The gas injection element of claim 1 , wherein the collar comprises at least one of the following features: the collar defines a housing receiving the sleeve over part of its length in the longitudinal direction (X); the size of the collar in the longitudinal direction (X) is predetermined. 9. The gas injection element of claim 1 , characterized in that the through-passage comprises a divergent part flaring out toward the end of the internal element remote from the hollow metal support in the longitudinal direction (X). 10. The gas injection element of claim 1 , characterized in that an edge of the internal element opposite the hollow metal support has a transverse section, the contour of which comprises at least three segments selected from a straight segment and a curved segment. 11. The gas injection element of claim 1 , characterized in that the sleeve is a rotational body, in particular a cylinder, having an axis of rotation coincident with or parallel to a longitudinal axis (X) of the through-passage, with at least part of an external surface of the internal element fixed to the sleeve assuming a shape that matches the sleeve. 12. A system for distributing gas inside a chamber of a fluid catalytic cracking unit, comprising at least one gas injection element according to claim 1 , the hollow metal support of the injection element being secured to the support wall, at the level of the orifice, so that gas emanating from the cavity can circulate through the support wall toward the second face thereof via the passage of the internal element and of the hollow metal support. 13. The system of claim 12 , wherein the hollow metal support is inserted into the orifice and secured to the support wall, the internal element projecting from the second face of the support wall.