Processes and apparatuses for production of aromatic products

The invention claimed is: 1. An apparatus for producing para-xylene, wherein the apparatus comprises: a) an isomerization unit to provide an isomerized stream; b) an isomerate stripper column in communication with the isomerization unit to provide an isomerate stripper overhead stream comprising C 6− hydrocarbons in an isomerate overhead line and an isomerate stripper bottoms stream in an isomerate bottoms line; c) a dividing wall naphthene splitter column in communication with the isomerate bottoms line to provide an overhead naphthene splitter stream comprising the C 8 naphthenes and C 7 aromatic hydrocarbons in a naphthene splitter overhead line and a naphthene splitter sidedraw stream comprising C 8 aromatic isomers in a naphthene splitter sidedraw line; and d) an extractive distillation column in communication with the naphthene splitter overhead line to provide a recycle feedstream comprising the C 8 naphthenes in a recycle line and an extract stream comprising the C 7 aromatic hydrocarbons in an extract line. 2. The apparatus of claim 1 , wherein the dividing wall naphthene splitter column comprises a dividing wall having an upper end and a lower end that divides the naphthene splitter column into a feed section and a product section. 3. The apparatus of claim 2 , wherein the dividing wall naphthene splitter column comprises one or more vapor-liquid contacting stages. 4. The apparatus of claim 3 , wherein the lower end of the dividing wall extends to a last stage of the one or more vapor-liquid contacting stages. 5. The apparatus of claim 2 , wherein the feed section of the dividing wall naphthene splitter column is in downstream communication with the isomerate bottoms line. 6. The apparatus of claim 1 further comprising a para-xylene separation unit in downstream communication with the product section of the dividing wall naphthene splitter column via the naphthene splitter sidedraw line. 7. The apparatus of claim 6 , wherein the para-xylene separation unit being a simulated moving bed adsorption unit using toluene as a desorbent. 8. The apparatus of claim 1 , wherein the extractive distillation column in is downstream communication with the naphthene splitter overhead line from the product section of the dividing wall naphthene splitter column. 9. The apparatus of claim 1 further comprising an aromatics rerun column in downstream communication with a naphthene splitter bottoms line from the product section of the dividing wall naphthene splitter column. 10. An apparatus for producing para-xylene, wherein the apparatus comprises: a) an isomerization unit to provide an isomerized stream; b) an isomerate stripper column in communication with the isomerization unit to provide an isomerate stripper overhead stream comprising C 6− hydrocarbons in an isomerate overhead line and an isomerate stripper bottoms stream in an isomerate bottoms line; c) a dividing wall naphthene splitter column having one or more vapor-liquid contacting stages comprising a dividing wall having an upper end and a lower end that divides the naphthene splitter column into a feed section and a product section and the lower end of the dividing wall extends to a last stage of the one or more vapor-liquid contacting stages, the dividing wall naphthene splitter being in communication with the isomerate bottoms line to provide an overhead naphthene splitter stream comprising the C 8 naphthenes and C 7 aromatic hydrocarbons in a naphthene splitter overhead line and a naphthene splitter sidedraw stream comprising C 8 aromatic isomers in a naphthene splitter sidedraw line; and d) an extractive distillation column in communication with the naphthene splitter overhead line to provide a recycle feedstream comprising the C8 naphthenes in a recycle line and an extract stream comprising the C7 aromatic hydrocarbons in an extract line. 11. The apparatus of claim 10 , wherein the feed section of the dividing wall naphthene splitter column is in communication with the isomerate bottoms line. 12. The apparatus of claim 10 further comprising a para-xylene separation unit in downstream communication with the product section of the dividing wall naphthene splitter column via the naphthene splitter sidedraw line. 13. The apparatus of claim 12 , wherein the para-xylene separation unit being a simulated moving bed adsorption unit using toluene as a desorbent. 14. The apparatus of claim 10 , wherein the extractive distillation column in is downstream communication with the naphthene splitter overhead line from the product section of the dividing wall naphthene splitter column. 15. The apparatus of claim 10 further comprising an aromatics rerun column in downstream communication with a naphthene splitter bottoms line from the product s of the dividing wall naphthene splitter column. 16. A process for the production of para-xylene, wherein the process comprises: a) introducing a raffinate product stream comprising C 8 aromatic isomers to an isomerization unit to provide an isomerized stream, wherein the isomerized stream is produced in the presence of an ethylbenzene (EB) isomerization catalyst; b) passing the isomerized stream to an isomerate stripper column to provide an isomerate stripper overhead stream comprising C 6− hydrocarbons and an isomerate stripper bottoms stream; c) passing the isomerate stripper bottoms stream to a dividing wall naphthene splitter column to provide an overhead naphthene splitter stream comprising the C 8 naphthenes and C 7 aromatic hydrocarbons and a naphthene splitter sidedraw stream comprising C 8 aromatic isomers and less than about 1 wt % of C 9+ alkylaromatic hydrocarbons; d) passing the overhead naphthene splitter stream to an extractive distillation column to provide a recycle feedstream comprising the C 8 naphthenes and an extract stream comprising the C 7 aromatic hydrocarbons; and e) passing the recycle feedstream to the isomerization unit. 17. The process of claim 16 , wherein the naphthene splitter sidedraw stream comprises less than about 0.7 wt % of C 9+ alkylaromatic hydrocarbons. 18. The process of claim 16 , wherein the dividing wall naphthene splitter column comprises a dividing wall having an upper end and a lower end that divides the naphthene splitter column into a feed section and a product section. 19. The process of claim 18 , wherein the dividing wall naphthene splitter column comprises one or more vapor-liquid contacting stages. 20. The process of claim 19 , wherein the lower end of the dividing wall extends to a last stage of the one or more vapor-liquid contacting stages.