Multi-zone reactor for continuous polymerization of alpha olefin monomers

1 . A multi-zone reactor suitable for the continuous fluidized bed polymerization of one or more α-olefin monomers of which at least one is ethylene or propylene, which multi-zone reactor is operable in condensed mode, which multi-zone reactor comprises a first zone, a second zone, a third zone, a fourth zone and a distribution plate, wherein the first zone is separated from the second zone by the distribution plate, wherein the multi-zone reactor is extended in the vertical direction, wherein the second zone of the multi-zone reactor is located above the first zone, and wherein the third zone of the multi-zone reactor is located above the second zone, and wherein the fourth zone of the multi-zone reactor is located above the third zone, wherein the second zone contains an inner wall, wherein at least part of the inner wall of the second zone is either in the form of a gradually increasing inner diameter or a continuously opening cone, wherein the diameter or the opening increases in the vertical direction towards the top of the multi-zone reactor, wherein the third zone contains an inner wall, wherein at least part of the inner wall of the third zone is either in the form of a gradually increasing inner diameter or a continuously opening cone, wherein the diameter or the opening increases in the vertical direction towards the top of the multi-zone reactor wherein the largest diameter of the inner wall of the third zone is larger than the largest diameter of the inner wall of the second zone. 2 . The multi-zone reactor according to claim 1 , wherein at least a part of said second zone and/or said third zone contains an inner wall, wherein at least part of the inner wall has a cylindrical shape. 3 . The multi-zone reactor according to claim 1 , wherein zone ( 2 ) in the area directly above the distribution plate is either in the form of a gradually increasing inner diameter or a continuously opening cone ( 2 A), wherein the diameter or the opening increases in the vertical direction towards the top of the multi-zone reactor 4 . The multi-zone reactor according to claim 1 , wherein the shape of the third zone is part of the shape of the second zone. 5 . The multi-zone reactor according to claim 1 , wherein the continuously opening cone or gradually increasing inner diameter extends from the second into the third zone and optionally also from the third into the fourth zone. 6 . The multi-zone reactor according to claim 1 , wherein zone ( 2 ) in the area directly above the distribution plate is either in the form of a gradually increasing inner diameter or a continuously opening cone ( 2 A), wherein the diameter or the opening increases in the vertical direction towards the top of the multi-zone reactor and wherein the top part of the second zone has an inner wall having a cylindrical shape ( 2 B) and wherein the top part of the second zone is connected to a bottom part of the third zone ( 3 A), wherein the bottom part of the third zone is either in the form of a gradually increasing inner diameter or a continuously opening cone, wherein the diameter or the opening increases in the vertical direction towards the top of the multi-zone reactor and wherein the top part of the third zone has an inner wall having a cylindrical shape ( 3 B) and wherein the top part of the third zone is connected to the top zone. 7 . The multi-zone reactor according to claim 1 , wherein the angle (α) of the inner wall of the part of the second zone having the gradually increasing inner diameter or having the continuously opening cone, relative to the centre line ( 9 ) of the multi-zone reactor ( 8 ) is from 1 to 40 degrees. 8 . A process for the continuous preparation of a polyolefin in the multi-zone reactor of claim 1 from one or more α-olefin monomers of which at least one is ethylene or propylene comprising feeding a solid polymerization catalyst to the multi-zone reactor ( 8 ) in the area above the distribution plate ( 6 ) feeding the one or more α-olefin monomers to the multi-zone reactor ( 8 ) withdrawing the polyolefin ( 30 ) from the multi-zone reactor ( 8 ) circulating fluids from the top of the multi-zone reactor ( 8 ) to the first zone wherein the fluids are cooled to below their dew point, resulting in a bottom recycle stream, and wherein the bottom recycle stream is introduced into the first zone wherein the rate of superficial gas velocity is in the range of 0.5 to 5 m/s. 9 . A system suitable for continuous polymerization of one or more α-olefin monomers of which at least one is ethylene or propylene comprising the multi-zone reactor ( 8 ) of claim 1 . 10 . The system according to claim 9 further comprising a compressor ( 400 ) and a cooling unit ( 5 ), wherein the first zone comprises a first inlet for receiving a bottom recycle stream ( 10 ), wherein the second zone ( 2 ) comprises a first inlet for receiving a solid polymerization catalyst ( 20 ), wherein the second zone ( 2 ) and/or the third zone ( 3 ) comprises a first outlet for providing polyolefin ( 30 ), wherein the fourth zone ( 4 ) comprises a first outlet for a top recycle stream ( 40 ), wherein the first outlet for the top recycle stream ( 40 ) of the fourth zone is connected to a first inlet of the compressor ( 400 ) via a first connection means (AA), wherein the compressor ( 400 ) comprises a first outlet for compressed fluids ( 50 ), wherein the first outlet of the compressor ( 400 ) is connected to a first inlet for compressed fluids of the cooling unit ( 5 ) via a second connection means (BB), wherein optionally the second connection means (BB), comprises a first inlet for receiving a feed ( 70 ), wherein the cooling unit ( 5 ) comprises a first outlet for providing the bottom recycle stream ( 10 ) which first outlet of the cooling unit ( 5 ) is connected to the first inlet of the first zone wherein the first connection means (AA) comprises a first inlet for receiving a feed ( 60 ). 11 . The process for continuous polymerization of one or more α-olefin monomers of which at least one is ethylene or propylene in the system of claim 9 comprising supplying the second zone ( 2 ) with a solid polymerization catalyst using the first inlet for receiving the solid polymerization catalyst ( 20 ) supplying a feed ( 60 ) comprising an α-olefin monomer to the first connection means (AA) optionally supplying a feed ( 70 ) comprising condensable inert components to the second connection means (BB) withdrawing the polyolefin ( 30 ) using the first outlet of the second zone ( 2 ) and/or the third zone ( 3 ) and circulating fluids from the first outlet of the fourth zone ( 4 ) to the first inlet of the first zone wherein the fluids are circulated by compressing the feed ( 60 ) and the top recycle stream ( 40 ) using the compressor ( 400 ) to form the compressed fluids ( 50 ) subsequently cooling the compressed fluids ( 50 ) using the cooling unit ( 5 ) to below the dew point of the compressed fluids to form the bottom recycle stream ( 10 ) and feeding the bottom recycle stream ( 10 ) to the first zone of the multi-zone reactor ( 8 ) via the inlet for receiving the bottom recycle stream of the first zone, and wherein the superficial gas velocity in this process is in the range of 0.5 to 5 m/s. 12 . The process according to claim 11 , wherein a gas-liquid polymerization is conducted in the second zone and a gas phase polymerization is conducted in the third zone. 13 . The process according to claim 11 , wherein: the feed ( 60 ) comprises a chain transfer agent; and/or the feed ( 70 ) comprises condensable inert components; and/or in case of a non-condensable com