Vertical separation vessel for ionic liquid catalyzed effluent

1 . A separation zone for separating a hydrocarbon phase and an ionic liquid phase, the separation zone comprising: a separation vessel having an outlet for an ionic liquid stream, an outlet for a hydrocarbon effluent stream, and, an inlet for an effluent stream; at least one ionic liquid distribution member disposed in the separation vessel between the outlet for the hydrocarbon effluent stream and the inlet for the effluent stream, the at least one ionic liquid distribution member configured to allow up-flowing fluid to pass through the at least one ionic liquid distribution member and contact ionic liquid; and, a line configured to pass ionic liquid to the separation vessel above the at least one ionic liquid distribution member. 2 . The separation zone of claim 1 wherein the separation vessel comprises a vertically orientated separation vessel. 3 . The separation zone of claim 1 further comprising a pump configured to pass the ionic liquid stream from the separation zone to a reaction zone. 4 . The separation zone of claim 3 wherein the pump is also configured to pass ionic liquid to the separation vessel. 5 . The separation zone of claim 1 further comprising a flow directing baffle disposed inside of the separation vessel and configured to change a direction of flow of fluid within the separation vessel. 6 . The separation zone of claim 5 wherein the flow directing baffle is disposed proximate the inlet for the effluent stream. 7 . The separation zone of claim 1 wherein the separation vessel comprises an upper portion with a first diameter and a lower portion with a second diameter being smaller than the first diameter. 8 . The separation zone of claim 1 further comprising a plurality of ionic liquid distribution members disposed in the separation vessel between the outlet for the hydrocarbon effluent stream and the inlet for the effluent stream. 9 . The separation zone of claim 8 wherein the ionic liquid distribution members each comprise a tray, each tray comprising a plurality of passageways for the up-flowing fluid and a downcomer, and wherein downcomers of adjacent trays are staggered in relation to each other. 10 . The separation zone of claim 9 wherein an uppermost tray is configured to receive ionic liquid via the line configured to pass ionic liquid to the separation vessel. 11 . A separation zone for separating a hydrocarbon phase and an ionic liquid phase, the separation zone comprising: a vertically orientated separation vessel having an outlet for an ionic liquid stream, an outlet for a hydrocarbon effluent stream, and, an inlet for an effluent stream; a plurality of ionic liquid distribution members disposed in the separation vessel between the outlet for a hydrocarbon effluent stream and the inlet for the effluent stream, each ionic liquid distribution member configured to allow up-flowing fluid to pass through the liquid distribution member and contact ionic liquid; a pump configured to pass the ionic liquid stream from the separation zone to a reaction zone; and, a line configured to pass ionic liquid from the pump back to the vertically orientated separation vessel. 12 . The separation zone of claim 11 wherein the ionic liquid from the line is passed into the vertically orientated separation vessel at a position above an uppermost ionic liquid distribution member and below the outlet for the hydrocarbon effluent stream. 13 . The separation zone of claim 12 wherein each ionic liquid distribution member further comprises a downcomer. 14 . The separation zone of claim 11 wherein the separation vessel comprises an upper portion with a first diameter and a lower portion with a second diameter being smaller than the first diameter. 15 . The separation zone of claim 14 further comprising a flow directing baffle configured to change a direction of flow of fluid within the separation vessel. 16 . The separation zone of claim 11 wherein the separation vessel further comprises a conical portion disposed between an upper portion and a lower portion, and wherein the flow directing baffle is disposed in the conical portion. 17 . A process for separating an effluent including ionic liquid catalyst, the process comprising: passing a reactor effluent stream from a reaction zone to a vertical separation vessel, wherein the separation vessel comprises an upper portion with a first diameter and a lower portion with a second diameter being smaller than the first diameter and a conical portion disposed between the upper portion and the lower portion; separating the reactor effluent stream into an ionic liquid phase and a hydrocarbon phase; passing a first portion of the ionic liquid phase to the reaction zone; and, removing ionic liquid droplets entrained in the hydrocarbon phase in the vertical separation vessel by contacting the hydrocarbon phase with ionic liquid disposed within the upper portion of the vertical separation vessel. 18 . The process of claim 17 wherein a layer of ionic liquid is disposed on an ionic liquid distribution member within the upper portion of the vertical separation vessel. 19 . The process of claim 17 wherein the vertical separation vessel comprises a plurality of ionic liquid distribution members. 20 . The process of claim 18 further comprising passing a second portion of the ionic liquid phase from the lower portion of the vertical separation vessel to the upper portion of the vertical separation vessel.