Reliable computation of equilibrium cascades with affine arithmetic

Baharev, Ali; Rév, Endre

doi:10.1002/aic.11490

Cited by 6 publications

(10 citation statements)

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“…The mixed AA/IA was used only at the critical parts (where otherwise division by zero or calling the logarithm function with negative argument would have occurred) in the previous work41 of the authors due to implementation design flaws. Based on the conclusions of the previous work, the affine class has been redesigned and implemented in C++.…”

Section: Procedures For Locating All Solutionsmentioning

confidence: 99%

“…It follows that only the first LP subproblem has to be solved from scratch; all other subproblems should use the optimal solution of the preceding subproblem as a primal feasible basis and run only Phase II of the primal simplex algorithm, thus hopefully reducing the computational efforts. The naïve sequence41 to process the x j variables would be min x 1 , max x 1 , min x 2 , max x 2 , … etc but the subproblems min x 1 and max x 1 are likely to produce completely different solutions. As a consequence, this is expected to result in a lot of simplex iterations when using the optimal solution of subproblem min x 1 as the initial primal feasible basic solution when solving the subproblem max x 1 .…”

Section: Procedures For Locating All Solutionsmentioning

confidence: 99%

“…The enhancements presented in this subsection will be referred to as Achterberg's heuristic. Numerical examples, suggesting the superiority of this heuristic to the previous implementation,41 will be presented after subsection Separation problem which describes the numerical examples used for comparison.…”

Section: Procedures For Locating All Solutionsmentioning

confidence: 99%

“…A new linearization technique, based on affine arithmetic (AA),24–27 has been proposed recently by Kolev 28–36. Numerical evidence published in the literature28–32, 34, 37–41 suggests that the new technique may be superior to the traditional linearization techniques such as the interval Newton or the Krawczyk42 method. Linear programming may be preferable as pruning technique for this new linearization in the case of the vapor‐liquid equilibrium cascades 41…”

Section: Introductionmentioning

confidence: 99%

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Computation of an extractive distillation column with affine arithmetic

2009

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The need of reliably solving systems of nonlinear equations often arises in the everyday practice of chemical engineering. In general, standard methods cannot provide theoretical guarantee for convergence to a solution, cannot reliably find multiple solutions, and cannot prove non-existence of solutions. Interval methods provide tools to overcome these problems, thus achieving reliability. To the authors' best knowledge, computation of distillation columns with interval methods have not yet been considered in the literature. This paper presents significant enhancements compared to a previously published interval method of the authors. The proposed branch-and-prune algorithm is guaranteed to converge, and is fairly general at the same time. If no solution exists then this information is provided by the method as a result. Power of the suggested method is demonstrated by solving, with guaranteed convergence, even the MESH equations of a 22 stage extractive distillation column with a ternary mixture. Topical heading: Separations

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Section: Procedures For Locating All Solutionsmentioning

confidence: 99%

Section: Procedures For Locating All Solutionsmentioning

confidence: 99%

Section: Procedures For Locating All Solutionsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Computation of an extractive distillation column with affine arithmetic

2009

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“…One of the characteristic components of the proposed algorithm is the linearization technique. Numerical evidence published in the literature30–42 seem to indicate superiority of the linear enclosure compared with the traditional one such as the interval Newton methods [see Ref 43…”

Section: Methodsmentioning

confidence: 99%

Computing multiple steady states in homogeneous azeotropic and ideal two‐product distillation

Baharev¹,

Kolev²,

Rév³

2011

AIChE Journal

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Multiple steady states are typically discovered by tracing a solution path, including turning points. A new technique is presented here that does not follow this approach. The original problem is solved directly, without tracing a solution path. The proposed branch-and-prune algorithm is guaranteed to find all solutions automatically. Core components of the framework are affine arithmetic, constraint propagation, and linear programming. The Cþþ implementation is available as an open-source solver and has an interface to the AMPL V R modeling environment. In certain difficult cases, only continuation methods have been reported to find the unstable solution automatically. The proposed method seems to be the first published alternative method in those cases. Although this article focuses mainly on distillation, the presented framework is fairly general and applicable to a wide variety of problems. Further, computational results are given to demonstrate this.

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