MOSAIC – Enabling Large‐Scale Equation‐Based Flow Sheet Optimization | Zendy

Esche Erik | Zendy; Hoffmann Christian | Zendy; Illner Markus | Zendy; Müller David | Zendy; Fillinger Sandra | Zendy; Tolksdorf Gregor | Zendy; Bonart Henning | Zendy; Wozny Günter | Zendy; Repke JensUwe | Zendy

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MOSAIC – Enabling Large‐Scale Equation‐Based Flow Sheet Optimization

Author(s) -

Esche Erik,

Hoffmann Christian,

Illner Markus,

Müller David,

Fillinger Sandra,

Tolksdorf Gregor,

Bonart Henning,

Wozny Günter,

Repke JensUwe

Publication year - 2017

Publication title -

chemie ingenieur technik

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.365

H-Index - 36

eISSN - 1522-2640

pISSN - 0009-286X

DOI - 10.1002/cite.201600114

Subject(s) - workflow , computer science , engineering optimization , process (computing) , process optimization , software , scale (ratio) , code (set theory) , flow (mathematics) , optimization problem , mathematical optimization , industrial engineering , engineering , algorithm , programming language , mathematics , set (abstract data type) , database , physics , geometry , quantum mechanics , environmental engineering

Dedicated software exists for both process simulation and optimization. Given the advantages of simultaneous optimization schemes, engineers are frequently tasked with reimplementing their simulation models in optimization languages or environments. In this contribution, a workflow is introduced to model chemical engineering models in MathML and to have an automatic code generation for both specialized simulation and optimization tools. Two examples are given to highlight the performance of this workflow implemented in the modeling, simulation, and optimization environment MOSAIC.

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