Options
2021
Journal Article
Titel
Vapor and liquid split flexibility in dividing wall columns in relation to the theoretical stage allocation
Abstract
Dividing wall columns operated close to the energetic optimum can achieve their product specification within finite ranges of the liquid and vapor split. This split flexibility is important because it enables a stable operation in practice. The impact of non-optimal stage allocations on the split flexibility, which has not been treated satisfactorily in the literature before, is investigated in this article. It is found that if the stages are non-optimally distributed over the column sections and if operation is nearly energetically optimal, the originally high split flexibility at infinite overall number of stages becomes strongly limited with decreasing stage number. The flexibility can be regained with a much higher energy input or a more suitable stage allocation. In this context, the applicability of the Fenske equation to determine the minimum stage number of a dividing wall column is proven for the employed mixtures.