Vortex-type mixing device for a down-flow hydroprocessing reactor

What is claimed is: 1. A mixing device for a multi-bed down-flow catalytic reactor, the mixing device comprising: a. a horizontal cover plate having an inner surface; b. a base plate extending parallel to the cover plate, the base plate having an inner surface and a base plate aperture; c. a plurality of inwardly-curved vanes extending vertically between the inner surfaces of the cover and base plates; d. a vertical weir ring extending vertically from the base plate inner surface proximal to the base plate aperture, the weir ring having a weir ring top edge and a weir ring diameter; e. a mixing region; and f. a bubble cap extending downwardly from the inner surface of the cover plate into the mixing region, the bubble cap having a bubble cap diameter and a bottom edge, the bubble cap diameter being smaller than the weir ring diameter, the bubble cap bottom edge extending below the weir ring top edge. 2. The mixing device of claim 1 , therein the vertical weir ring further comprises a horizontal plate extending outwardly from the weir ring top edge. 3. The mixing device of claim 2 , wherein the weir ring horizontal plate is perforated. 4. The mixing device of claim 2 , wherein the weir ring has a vertical height that is one-half of a height of the vanes. 5. The mixing device of claim 1 , the cover plate further comprising an outer periphery, wherein each vane comprises an external end proximal to the outer periphery of the cover plate and an internal end proximal to the mixing region, the mixing device further comprising a plurality of inlet regions defined as an area bound by neighboring vanes and their respective corresponding internal and external ends. 6. The mixing device of claim 5 , wherein the mixing region is defined as an area between the cover and base plates, excluding the areas defining the inlet regions. 7. The mixing device of claim 5 , wherein the internal end of each vane radially overlaps with the external end of a neighboring vane. 8. A multi-bed down-flow catalytic reactor, comprising: an upper and a lower catalyst bed contained in a reactor shell having an inner surface; an interbed distribution assembly vertically interposed between the upper and lower catalyst beds; the interbed distribution assembly comprising a mixing device affixed above and in fluid tight communication with a collection plate having a collection plate circular aperture and a riser vertically upward from the collection plate proximal to the collection plate circular aperture; the mixing device comprising: a. a horizontal cover plate having an inner surface; b. a base plate extending parallel to the cover plate, the base plate having an inner surface and a base plate aperture; c. a plurality of inwardly-curved vanes extending vertically between the inner surfaces of the cover and base plates; d. a vertical weir ring extending vertically from the base plate inner surface proximal to the base plate aperture, the weir ring having a weir ring top edge and a weir ring diameter; e. a mixing region; and f. a bubble cap extending downwardly from the inner surface of the cover plate into the mixing region, the bubble cap having a bubble cap diameter and a bottom edge, the bubble cap diameter being smaller than the weir ring diameter, the bubble cap bottom edge extending below the weir ring top edge; wherein the riser extends vertically into the bubble cap, and the collection plate circular aperture being smaller than the bubble cap diameter. 9. The reactor of claim 8 , therein the mixing device vertical weir ring further comprises a horizontal plate extending outwardly from the weir ring top edge. 10. The reactor of claim 9 , wherein the weir ring horizontal plate is perforated. 11. The reactor of claim 9 , wherein the weir ring has a vertical height that is one-half of a height of the vanes. 12. The reactor of claim 8 , the mixing device cover plate further comprising an outer periphery, wherein each vane comprises an external end proximal to the outer periphery of the cover plate and an internal end proximal to the mixing region, the mixing device further comprising a plurality of inlet regions defined as an area bound by neighboring vanes and their respective corresponding internal and external ends. 13. The reactor of claim 12 , wherein the mixing device mixing region is defined as an area between the cover and base plates, excluding the areas defining the inlet regions. 14. The reactor of claim 12 , wherein the internal end of each vane radially overlaps with the external end of a neighboring vane.