Prof. Dr.-Ing. Mirko Skiborowski

(Head of institute)

Am Schwarzenberg-Campus 4 (C)

21073 Hamburg

Building: C - Room: 3.002

eMail: Prof. Dr.-Ing. Skiborowski

Phone: ++49 (0)40 42878-3041

Personal information

born 1982 in Moers

2003-2009

Study of Computational Enggineering Science (Dipl.-Ing.), RWTH Aachen, Germany

2009-2014

Research assistent, Aachener Verfahrenstechnik - Process Systems Engineering, RWTH Aachen, Germany

2015

Doctoral thesis (Dr.-Ing.) with distinction, supervisor Wolfgang Marquardt, RWTH Aachen, Germany

2014-2020

Academic councillor and group leader, Laboratory of Fluid Separations, Dortmund University of Technology, Germany

2019

Habilitation and Venia Legendi in Fluid Separations, Dortmund University of Technology, Germany

seit 2020

Ordentlicher Professor (W3) und Leiter des Instituts für Systemverfahrenstechnik, Hamburg University of Technology, Germany

Research

Process intensification - experimental analysis and model-based evaluation

  • Combination/Integration of reaction and separation (reactive absorption and distillation, membrane reactors)
  • Hybrid separation processes (membrane- and solvent-assisted separation processes)
  • Innovative separation processes (Rotating Packed Beds and organic solvent nanofiltration)
  • Additive manufacturing (development of packings through 3D printing)

Mathematical modelling, simulation and optimization of (bio-)chemical production processes

  • Modelling (Model discrimination and parameter estimation, model reduction and hybrid models)
  • Process synthesis (automatic thermodynamic-based flowsheet generation)
  • Optimization-based process design (polylythic modelling and solution appraoch, hybrid optimization methods)

Publications

[170327]
Title: Topology-Based Initialization for the Optimization-Based Design of Heteroazeotropic Distillation Processes.
Written by: Kruber, K. and Skiborowski, M.
in: <em>Processes</em>. (2022).
Volume: <strong>10</strong>. Number: (8),
on pages: 1482
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DOI: 10.3390/pr10081482
URL: https://www.mdpi.com/2227-9717/10/8/1482
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Abstract: Distillation-based separation processes, such as extractive or heteroazeotropic distillation, present important processes for separating azeotropic mixtures in the chemical and biochemical industry. However, heteroazeotropic distillation has received much less attention than extractive distillation, which can be attributed to multiple reasons. The phase equilibrium calculations require a correct evaluation of phase stability, while the topology of the heterogeneous mixtures is generally more complex, comprising multiple azeotropes and distillation regions, resulting in an increased modeling complexity. Due to the integration of distillation columns and a decanter, even the simulation of these processes is considered more challenging, while an optimal process design should include the selection of a suitable solvent, considering the performance of the integrated hybrid process. Yet, the intricate mixture topologies largely impede the use of simplified criteria for solvent selection. To overcome these limitations and allow for a process-based screening of potential solvents, the current work presents a topology-based initialization and optimization approach for designing heteroazeotropic distillation processes. The systematic initialization enables an efficient evaluation of different solvents with different mixture topologies, which is further exploited for optimization-based sensitivity analysis and multi-objective optimization. Three case studies are analyzed with about 170 individually optimized process designs, including stage numbers, feed locations, phase ratios, and heat duties.