Process and apparatus for the production of para-xylene

The invention claimed is: 1. An apparatus for the production of para-xylene comprising: a first para-xylene adsorption section, which produces a first para-xylene-rich stream and a first para-xylene-depleted stream from a first hydrocarbon feed, and a second para-xylene adsorption section, which produces a second para-xylene-rich stream and a second para-xylene-depleted stream from a second hydrocarbon feed, the first and second para-xylene adsorption sections fluidly connected to a divided wall raffinate column in which the first and second para-xylene-depleted streams are provided to opposite sides of the dividing wall and separated into an ethylbenzene-rich stream, which contains a majority portion of the ethylbenzene from the first and second para-xylene-depleted streams, and an ethylbenzene-depleted stream, which contains a minor portion of the ethylbenzene from the first and second para-xylene-depleted streams; a vapor phase isomerization unit fluidly connected to the divided wall raffinate column to isomerize meta-xylene, ortho-xylene, and ethylbenzene in the ethylbenzene-rich stream at least partially in the vapor phase back towards to an equilibrium concentration of xylene isomers and produce a first isomerized stream having a higher para-xylene concentration than the first and second para-xylene-depleted streams; a liquid phase isomerization unit fluidly connected to the divided wall raffinate column to isomerize the ethylbenzene-depleted stream back towards an equilibrium concentration of the xylenes isomers and produce a second isomerized stream having a higher para-xylene concentration than the first and second para-xylene-depleted streams; a first xylenes fractionation column fluidly connected to the vapor phase isomerization unit and the first para-xylene adsorption section, wherein the first xylenes fractionation column is downstream of the vapor phase isomerization unit and upstream of the first para-xylene adsorption section; and a second xylenes fractionation column fluidly connected to the liquid phase isomerization unit and the second para-xylene adsorption section, wherein the second xylenes fractionation column is downstream of the liquid phase isomerization unit and upstream of the second para-xylene adsorption section. 2. The apparatus of claim 1 , wherein the first and second para-xylene adsorption sections each comprise two simulated moving bed adsorption towers. 3. The apparatus of claim 1 , wherein the first and second para-xylene adsorption sections each comprise one simulated moving bed adsorption tower. 4. The apparatus of claim 1 , further comprising a detoluenizing fractionation column fluidly connected to the vapor phase isomerization unit and the first xylenes fractionation column, wherein the detoluenizing fractionation column is downstream of the vapor phase isomerization unit and upstream of the first xylenes fractionation column.