Distributor device for a multiple-bed downflow reactor

The invention claimed is: 1. A distributor device for distributing liquid and gas in a multiple-bed downflow reactor; wherein the distributor device comprises: a substantially horizontal collecting tray provided with: a central gas passage and liquid passages around the central gas passage; a swirler which swirler: is located above the collecting tray around the central gas passage, and is provided with vanes defining a swirl direction and being arranged to impart a swirling motion to gas passing through the central gas passage so that the gas leaves the central gas passage as a swirl swirling in said swirl direction around a vertical swirl axis; one or more ejection nozzles located above the collecting tray and arranged for ejecting, in an ejecting direction, a quench fluid into the gas before said gas enters the swirler; wherein the ejection direction is represented in an orthogonal set of three ejection vectors comprised of a radial ejection vector extending perpendicular to the swirl axis, an axial ejection vector (A) extending parallel to the swirl axis and a tangential ejection vector extending tangentially with respect to the swirl axis; characterized, in that the ejection nozzle is directed such that the tangential ejection vector, (T) of the ejection direction of the ejected quench fluid is directed opposite to the swirl direction. 2. The distributor device according to claim 1 , wherein the ejection nozzle is directed such that the radial ejection vector of the ejection direction of the quench fluid is directed to the swirl axis. 3. The distributor_device according to claim 1 , wherein the ejection direction and associated radial ejection vector of a said ejection nozzle define an angle of more than 5°. 4. The distributor device according to claim 1 , wherein the ejection direction and associated radial ejection vector of a said ejection nozzle define an angle of at least 10°. 5. The distributor device according to claim 1 , wherein the ejection direction and associated radial ejection vector of a said ejection nozzle define an angle of at most 35°. 6. The distributor device according to claim 1 , wherein the ejection direction and associated radial ejection vector of a said ejection nozzle define an angle of at most 30°. 7. The distributor device according to claim 1 , wherein the ejection direction and associated radial ejection vector of a said ejection nozzle define an angle in the range of [5°, 35°]. 8. The distributor device according to claim 1 , wherein: the distributor device further comprises a mixing chamber defined between the collecting tray and the distribution tray; and/or the central gas passage is surrounded by a weir; the distributor device further comprises a cover located above the central gas passage and covering the entire central gas passage; and/or the distributor device further comprises a substantially horizontal pre-distribution tray arranged below the central gas passage, above the distribution tray and, in case present, lower than the optional injection nozzles of the optional one or more guide conduits, which pre-distribution tray is provided with an overflow weir at its perimeter and a plurality of openings near the perimeter; and/or one or more guide conduits arranged below the collecting tray ( 20 ), wherein the guide conduits have: first ends communicating with the liquid passages ( 40 ) of the collecting tray for receiving liquid; and second ends provided with an injection nozzle arranged to inject, in an injection direction, liquid received by the first ends into said swirl; wherein optionally the one or more guide conduits comprise at least eight guide conduits distributed around the central gas passage; and/or the injection nozzles of the one or more guide conduits are arranged to lie within the same horizontal plane; and/or the distributor device further comprises a substantially horizontal distribution tray located below the collecting tray, which distribution tray is provided with a plurality of downcomers for downward flow of liquid and gas; each downcomer optionally comprising an upstanding, open ended tube having an aperture at its side for entry of liquid into the tube; and/or the one or more ejection nozzles comprise a plurality of ejection nozzles arranged around the swirl axis to lie within the same horizontal plane. 9. A multiple-bed downflow reactor comprising vertically spaced beds of solid contact material and a distributor device positioned between adjacent beds, wherein the distributor device is as defined in claim 1 .