Collector assembly for a gaseous fluid for a radial reactor

The invention claimed is: 1. A collector assembly ( 8 ) for a gaseous fluid suitable for being disposed in a reaction section with a moving bed of catalyst of a radial reactor, said collector assembly comprising: a vertical cylindrical screen ( 9 ) which is permeable to gaseous fluid and impermeable to particles of catalyst, and a vertical cylindrical tube ( 10 ) which R supported by said screen ( 9 ) and disposed in a concentric manner with respect to said screen, said cylindrical tube being permeable to gaseous fluid and impermeable to particles of catalyst, said cylindrical tube ( 10 ) comprising one or more permeable zones ( 17 a , 17 b ) which are permeable to gaseous fluid comprising a plurality of through holes and a plurality of reduced permeability zones ( 18 a , 18 b , 18 c , 18 d ) having reduced permeability to gaseous fluid compared with said one or more permeable zones, each reduced permeability zone having a lower porosity than that of each of said one or more permeable zones, the porosity of each zone being defined as the ratio between the total permeable surface area of said zone and the total developed surface area of said zone, and in which the porosity of each reduced permeability zone is other than 0 and up to 0.005, wherein a reduced permeability zone excludes any space comprised between the through holes of said one or more permeable zones, wherein the total developed surface area of the reduced permeability zones is in the range 1% to 30% of the total developed surface area of the cylindrical tube, and wherein each reduced permeability zone comprises through holes. 2. The collector assembly according to claim 1 , wherein the screen ( 9 ) and the cylindrical tube ( 10 ) are polygonal in shape with at least 3 sides, wherein the number of sides of the screen and the number of sides of the cylindrical tube are equal. 3. The collector assembly according to claim 1 , wherein the through holes of said reduced permeability zone are spaced from each other by a pitch which is higher than the pitch between the through holes of said one or more permeable zones. 4. The collector assembly according to claim 1 , wherein the surface area of the through holes of said reduced permeability zone is smaller than the surface area of the through holes of said one or more permeable zones. 5. The collector assembly according to claim 1 , wherein the reduced permeability zones are extended, forming an angle α in the range 0° to 90° with respect to the horizontal. 6. The collector assembly according to claim 1 , wherein the screen ( 9 ) is formed by a plurality of vertical wires ( 12 ) spaced from each other and attached to a plurality of horizontal support rings ( 15 ), and the cylindrical tube ( 10 ) is attached to the horizontal support rings ( 15 ). 7. The collector assembly according to claim 1 , wherein the cylindrical tube ( 10 ) is disposed in an internal space delimited by the screen ( 9 ). 8. The collector assembly according to claim 1 , wherein the screen ( 9 ) is disposed in an internal space delimited by the cylindrical tube ( 10 ). 9. The collector assembly according to claim 1 , wherein said one or more permeable zones have a porosity of more than 0.0055. 10. The collector assembly according to claim 1 , wherein said one or more permeable zones have a porosity in the range 0.0055 to 0.08. 11. The collector assembly according to claim 1 , wherein said one or more permeable zones have a porosity in the range 0.0065 to 0.065. 12. The collector assembly according to claim 1 , wherein said plurality of reduced permeability zones comprises a first reduced permeability zone that forms an angle α with respect to the horizontal and a second reduced permeability zone that forms an angle −α with respect to the horizontal and said first and second reduced permeability zones meet to form a V shape. 13. The collector assembly according to claim 1 , wherein said plurality of reduced permeability zones comprises a first reduced permeability zone that forms an angle α with respect to the horizontal and a second reduced permeability zone that forms an angle −α with respect to the horizontal and said first and second reduced permeability zones cross each other in the shape of an X. 14. The collector assembly according to claim 1 , wherein said plurality of reduced permeability zones comprises a first group of reduced permeability zones located in an upper half of the tube and a second group of reduced permeability zones located in a lower half of the tube, wherein the reduced permeability zones of the first group of reduced permeability zones are offset from the reduced permeability zones of the second group of reduced permeability zones. 15. The collector assembly according to claim 1 , wherein said plurality of reduced permeability zones extend over a distance in the range 10% to 100% of the height of the cylindrical tube. 16. The collector assembly according to claim 1 , wherein said plurality of reduced permeability zones extend over a distance in the range 50% to 100% of the height of the cylindrical tube. 17. The collector assembly according to claim 1 , wherein said cylindrical tube having an upper section and a lower section, and wherein said plurality of reduced permeability zones are in said lower section of the cylindrical tube and said upper section of the cylindrical tube is free of said reduced permeability zones. 18. The collector assembly according to claim 1 , wherein said cylindrical tube having an upper section and a lower section, and wherein said plurality of reduced permeability zones are in said upper section of the cylindrical tube and said lower section of the cylindrical tube is free of said reduced permeability zones. 19. A radial reactor comprising: an outer envelope ( 20 ) defining a vessel extending along a principal vertical axis and containing a reaction zone comprising a bed of catalyst particles; at least one inlet means for introducing a feed into said reactor; at least one outlet means for removing effluent produced by the catalytic reaction from said reactor; at least one inlet means for introducing catalyst into the reaction zone; at least one outlet means for removing catalyst, opening into the reaction zone; and a collector assembly ( 8 ) according to claim 1 , in communication with the at least one outlet means for removing effluent and wherein the screen of the collector assembly is in contact with the catalyst particles of the bed. 20. The reactor according to claim 19 , further comprising a cylindrical screen ( 21 ) for distribution of gaseous fluid which is impermeable to said catalyst particles, disposed between the external envelope and the collector assembly in a manner such as to define an annular distribution zone ( 22 ) comprised between the envelope ( 20 ) and the cylindrical gaseous fluid distribution screen ( 21 ), an annular catalytic zone ( 23 ) comprised between the cylindrical gaseous fluid distribution screen ( 21 ) and the collector assembly ( 8 ), and a collector space ( 24 ) delimited by the collector assembly ( 8 ). 21. The reactor according to claim 19 , further comprising a cylindrical gaseous fluid distribution screen ( 25 ) which is impermeable to catalyst, and wherein the collector assembly ( 8 ) is disposed between the envelope ( 20 ) and the cylindrical gaseous fluid distribution screen ( 25 ) in a manner such as to define an outer annular collector zone ( 27 ) comprised between the envelope ( 20 ) and the collector assembl