A reduced order rate based model for distillation in packed columns: Dynamic simulation and the differentiation index problem

This paper presents a rigorous dynamic rate based model suitable for simulation of distillation of mixtures in packed columns. The model equations are described in detail considering structure exploitation at simulation level in order to alleviate the large number of states involved in the model des...

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Bibliographic Details
Published in:Chemical engineering science 2012-01, Vol.68 (1), p.401-412
Main Authors: Bonilla, J., Logist, F., Degrève, J., De Moor, B., Van Impe, J.
Format: Article
Language:English
Subjects:
Applied sciences
Chemical engineering
Computer simulation
Differentiation
Distillation
Dynamic simulation
Dynamics
Exact sciences and technology
Heat and mass transfer. Packings, plates
High-index DAE
Mathematical analysis
Mathematical modeling
Mathematical models
Model reduction
Packed columns
Structure exploitation
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Summary:This paper presents a rigorous dynamic rate based model suitable for simulation of distillation of mixtures in packed columns. The model equations are described in detail considering structure exploitation at simulation level in order to alleviate the large number of states involved in the model description. Moreover, this kind of model may leads to differential-algebraic equations with a differentiation index higher than one. Here this issue is analyzed and a differentiation-index reduction procedure based on the incidence of model states in the Jacobian and the properties of the model dynamics is proposed. This procedure allows for a simplified index-1 model with a reduced stiffness so that dynamic simulation can be performed with off-the-shelf solvers. ► We introduce a reduced order rate based model for distillation in packed columns. ► It is shown that despite the large-scale model, structure can be efficiently exploited. ► The high differentiation index problem is studied. ► A procedure based on structural analysis of model Jacobian is proposed for index reduction. ► Model dynamic simulation and parameter sensitivity analysis for the proposed model is presented.
ISSN:0009-2509
1873-4405
DOI:10.1016/j.ces.2011.09.051