Abstract
Although potential for reduction of energy requirement and related carbon dioxide emissions is highly
attractive – around 50% compared to conventional three column sequences – process industries are still
reluctant to consider implementation of four products fully thermally coupled dividing wall columns, mainly due
to concerns related to controllability of two or three vapor splits as encountered in complex DWC
arrangements. This paper presents results of a simulation study that could bring some relief in this respect,
indicating that a temperature-driven control structure, in conjunction with very tight control of temperature
profiles in prefractionation section, as well as in the product draw regions of the column, is capable of restoring
the operation to health from typical disturbances in feed quality.
attractive – around 50% compared to conventional three column sequences – process industries are still
reluctant to consider implementation of four products fully thermally coupled dividing wall columns, mainly due
to concerns related to controllability of two or three vapor splits as encountered in complex DWC
arrangements. This paper presents results of a simulation study that could bring some relief in this respect,
indicating that a temperature-driven control structure, in conjunction with very tight control of temperature
profiles in prefractionation section, as well as in the product draw regions of the column, is capable of restoring
the operation to health from typical disturbances in feed quality.
