Litcius/Paper detail

Relaxing the constant molar overflow assumption in distillation optimization

Tony Joseph Mathew, Mohit Tawarmalani, Rakesh Agrawal

2023AIChE Journal15 citationsDOIOpen Access PDF

Abstract

Abstract The constant molar overflow (CMO) framework, while useful for shortcut distillation models, assumes that all components have the same latent heats of vaporization. A simple transformation, from molar flows to latent‐heat flows, allows shortcut models to retain the mathematical simplicity of the CMO framework while accounting for different latent heats, resulting in the constant heat transport (CHT) framework for adiabatic distillation columns. Although several past works have already proposed this transformation in the literature, it has not been well utilized in recent times. In this article, we show the utility of this transformation in upgrading various applications such as identifying energy‐efficient multicomponent distillation configurations based on heat duty rather than surrogate vapor flow. The method transforms the diagram to a diagram. Furthermore, we derive new and insightful analytical results in distillation, such as cumulative latent‐heat stage fractions having monotonic profiles within a distillation column under the CHT framework.

Topics & Concepts

DistillationConstant (computer programming)Latent heatAdiabatic processThermodynamicsTransformation (genetics)ChemistryFractionating columnVaporizationVacuum distillationDiagramProcess engineeringComputer scienceChromatographyPhysicsBiochemistryEngineeringProgramming languageDatabaseGeneProcess Optimization and IntegrationAdvanced Control Systems OptimizationPhase Equilibria and Thermodynamics