Prof. Dr.-Ing. Mirko Skiborowski

(Institutsleiter)

AddresseTechnische Universität Hamburg
Institut für Systemverfahrenstechnik
Am Schwarzenberg-Campus 4 (C)
21073 Hamburg
BüroC. 3002
E-MailProf. Dr.-Ing. Skiborowski
Telefon++49 (0)40 42878-3041

Persönliche Informationen

 geboren 1982 in Moers

2003-2009Studium Computational Engineering Science (Dipl.-Ing.), RWTH Aachen, Deutschland
2009-2014Wissenschaftlicher Mitarbeiter, Aachen Verfahrenstechnik - Prozesstechnik, RWTH Aachen, Deutschland
2015Promotion (Dr.-Ing.) mit Auszeichnung, Doktorvater Wolfgang Marquardt, RWTH Aachen, Deutschland
2014-2020Akademischer Rat und Gruppenleiter, Lehrstuhl für Fluidverfahrenstechnik, TU Dortmund, Deutschland
2019Habilitation und Venia Legendi im Fachgebiet Fluidverfahrenstechnik, TU Dortmund, Deutschland
seit 2020Ordentlicher Professor (W3) und Leiter des Instituts für Systemverfahrenstechnik, TU Hamburg, Deutschland

Forschung

Prozessintensivierung - Experimentelle Analyse und modellbasierte Evaluation

  • Kopplung/Integration von Reaktion und Trennung (Reaktivabsorption und -rektifikation, Membranreaktoren)
  • Hybride Trennverfahren (Membran- und Lösemittelgestützte Trennprozesse)
  • Innovative Trennverfahren (Rotating Packed Beds und organophile Nanofiltration)
  • Additive Fertigung (Entwicklung von Packungsstrukturen mittels 3D Druck)

Mathematische Modellierung, Simulation und Optimierung (bio-)chemischer Produktionsprozesse

  • Modellbildung (Modelldiskriminierung und Parameterschätzung, Modellreduktion und hybride Modelle)
  • Prozesssynthese (automatisierte thermodynamisch-basierte Fließbildgenerierung)
  • Optimierungsbasierter Prozessentwurf (polylythische Modellierungs- und Lösungsansätze, hybride Optimierungsverfahren)

Publikationen

2022

  • Horsch, A. S. and Hamann, D. and Egger, L. S. and Fieg, G. and Skiborowski, M. (2022). Demonstration of applied linear model predictive control for an enzymatic reactive dividing wall column. Chemical Engineering Research and Design. 178. 251--266 [doi]

  • Krone, D. and Esche, E. and Asprion, N. and Skiborowski, M. and Repke, J.-U. (2022). Enabling optimization of complex distillation configurations in GAMS with CAPE-OPEN thermodynamic models. Computers & Chemical Engineering. 157. 107626 [doi]

  • Kruber, K. and Miroschnitschenko, A. and Skiborowski, M. (2022). ANN-assisted optimization-based design of energy-integrated distillation columns. 32nd European Symposium on Computer Aided Process Engineering Elsevier: 1261--1266 [doi]

  • Kruber, K. and Skiborowski, M. (2022). Topology-Based Initialization for the Optimization-Based Design of Heteroazeotropic Distillation Processes. Processes. 10. (8), 1482 [Abstract] [doi] [www]

  • Liu, S. and Li, H. and Kruber, B. and Skiborowski, M. and Gao, X. (2022). Process intensification by integration of distillation and vapor permeation or pervaporation - An academic and industrial perspective. Results in Engineering. 15. 100527 [doi]

  • Majgaonkar, P. and Kruber, K. and Aryan, V. and Hanich, R. and Pico, D. and Skiborowski, M. (2022). Hierarchical Approach for Solvent Selection in Circular Economy. 32nd European Symposium on Computer Aided Process Engineering Elsevier: 829--834 [doi]

  • Sasi, T. and Skiborowski, M. (2022). Automatic synthesis of hybrid processes using distillation and liquid-liquid extraction for the separation of azeotropic mixtures. 32nd European Symposium on Computer Aided Process Engineering Elsevier: 751--756 [doi]

  • Schlüter, S. and Huxoll, F. and Grenningloh, K. and Sadowski, G. and Petzold, M. and Böhm, L. and Kraume, M. and Skiborowski, M. (2022). Unraveling the influence of dissolved gases on permeate flux in organic solvent nanofiltration – Experimental analysis. Separation and Purification Technology. 295. 121265 [doi]

  • Skiborowski, M. and Kruber, K. and Waltermann, T. (2022). Sustainable Distillation Processes. In Szekely, Gyorgy and Zhao, Dan (Eds.) Sustainable Separation Engineering Wiley: 431--481 [doi]

2021

  • Gladyszewski, K.;Groß, K.;Bieberle, A.;Schubert, M.;Hild, M.;Gorak, A.;Skiborowski, M. (2021). Evaluation of performance improvements through application of anisotropic foam packings in rotating packed beds. Chemical Engineering Science. 230. [doi] [www]

  • Kruber, K. F.;Grüters, T.;Skiborowski, M. (2021). Advanced hybrid optimization methods for the design of complex separation processes. Computers & Chemical Engineering. 107257 [doi]

  • Lukin, I.;Gladyszewski, K.;Skiborowski, M.;Gorak, A.;Schembecker, G. (2021). Aroma absorption in a rotating packed bed with a tailor-made archimedean spiral packing. Chemical Engineering Science. 231. [doi] [www]

  • Scharzec, B.;Kruber, K. F.;Skiborowski, M. (2021). Model-based evaluation of a membrane-assisted hybrid extraction-distillation process for energy and cost-efficient purification of diluted aqueous streams. Chemical Engineering Science. 240. 116650 [doi]

  • Scharzec, B.;Merschhoff, D.;Henrichs, J.;K., Emiel J.;Skiborowski, M. (2021). Evaluation of membrane-assisted hybrid processes for the separation of a tetrahydrofuran-methanol-water mixture. Chemical Engineering and Processing - Process Intensification. 167. 108545 [doi]

  • Schlüter, S.;Künnemann, K. U.;Freis, M.;Roth, T.;Vogt, D.;Dreimann, J. M.;Skiborowski, M. (2021). Continuous co-product separation by organic solvent nanofiltration for the hydroaminomethylation in a thermomorphic multiphase system. Chemical Engineering Journal. 409. [doi] [www]

  • Thiermeyer, Y.;Blumenschein, S.;Skiborowski, M. (2021). Fundamental insights into the rejection behavior of polyimide-based OSN membranes. Separation and Purification Technology. 265. 118492 [doi]

  • Vondran, J.;Pela, J.;Palczewski, D.;Skiborowski, M.;Seidensticker, T. (2021). Curse and Blessing–The Role of Water in the Homogeneously Ru-Catalyzed Epoxidation of Technical Grade Methyl Oleate. ACS Sustainable Chemistry & Engineering. 9. (34), 11469--11478 [doi]

2020

  • Goebel, R.;Glaser, T.;Skiborowski, M. (2020). Machine-based learning of predictive models in organic solvent nanofiltration: Solute rejection in pure and mixed solvents. Separation and Purification Technology. 248. [doi] [www]

  • Goebel, R.;Skiborowski, M. (2020). Machine-based learning of predictive models in organic solvent nanofiltration: Pure and mixed solvent flux. Separation and Purification Technology. 237. [doi] [www]

  • Groß, K.;de Beer, M.;Dohrn, S.;Skiborowski, M. (2020). Scale-Up of the Radial Packing Length in Rotating Packed Beds for Deaeration Processes. Industrial and Engineering Chemistry Research. 59. (23), 11042--11053 [doi] [www]

  • Hampel, U.;Schubert, M.;Döß, A.;Sohr, J.;Vishwakarma, V.;Repke, J.-U.;Gerke, S. J.;Leuner, H.;Rädle, M.;Kapoustina, V.;Schmitt, L.;Grünewald, M.;Brinkmann, J. H.;Plate, D.;Kenig, E. Y.;Lutters, N.;Bolenz, L.;Buckmann, F.;Toye, D.;Arlt, W.;Linder, T.;Hoffmann, R.;Klein, H.;Rehfeldt, S.;Winkler, T.;Bart, H.-J.;Wirz, D.;Schulz, J.;Scholl, S.;Augustin, W.;Jasch, K.;Schlüter, F.;Schwerdtfeger, N.;Jahnke, S.;Jupke, A.;Kabatnik, C.;Braeuer, A. S.;D’Auria, M.;Runowski, T.;Casal, M. F.;Becker, K.;David, A.-L.;Gorak, A.;Skiborowski, M.;Groß, K.;Qammar, H. (2020). Recent Advances in Experimental Techniques for~Flow and Mass Transfer Analyses in Thermal Separation Systems. Chemie-Ingenieur-Technik. 92. (7), 926--948 [doi] [www]

  • Krone, D.;Esche, E.;Asprion, N.;Skiborowski, M.;Repke, J.-U. (2020). Conceptual Design Based on Superstructure Optimization in GAMS with Accurate Thermodynamic Models. Computer Aided Chemical Engineering. 48. 15--20 [doi] [www]

  • Kruber, K. F.;Qammar, H.;Skiborowski, M. (2020). Optimization-Based Design of Rotating Packed Beds with Zickzack Packings. Computer Aided Chemical Engineering. 48. 997--1002 [doi] [www]

  • Sasi, T.;Kruber, K.;Ascani, M.;Skiborowski, M. (2020). Automatic Synthesis of Distillation Processes for the Separation of Heterogeneous Azeotropic Multi-component Mixtures. Computer Aided Chemical Engineering. 48. 1009--1014 [doi] [www]

  • Sasi, T.;Skiborowski, M. (2020). Automatic Synthesis of Distillation Processes for the Separation of Homogeneous Azeotropic Multicomponent Systems. Industrial and Engineering Chemistry Research. 59. (47), 20816--20835 [doi] [www]

  • Scharzec, B.;Holtkötter, J.;Bianga, J.;Dreimann, J. M.;Vogt, D.;Skiborowski, M. (2020). Conceptual study of co-product separation from catalyst-rich recycle streams in thermomorphic multiphase systems by OSN. Chemical Engineering Research and Design. 157. 65--76 [doi] [www]

  • Skiborowski, M. (2020). Energy Efficient Distillation by Combination of Thermal Coupling and Heat Integration. Computer Aided Chemical Engineering. 48. 991--996 [doi] [www]

  • Waltermann, T.;Grueters, T.;Münchrath, D.;Skiborowski, M. (2020). Efficient optimization-based design of energy-integrated azeotropic distillation processes. Computers and Chemical Engineering. 133. [doi] [www]

  • Waltermann, T.;Schlueter, S.;Benfer, R.;Knoesche, C.;Gorak, A.;Skiborowski, M. (2020). Model Discrimination for Multicomponent Distillation – A Geometrical Approach for Total Reflux. Chemie-Ingenieur-Technik. 92. (7), 890--906 [doi] [www]

2019

  • Böcking, A.;Koleva, V.;Wind, J.;Thiermeyer, Y.;Blumenschein, S.;Goebel, R.;Skiborowski, M.;Wessling, M. (2019). Can the variance in membrane performance influence the design of organic solvent nanofiltration processes?. Journal of Membrane Science. 575. 217--228 [doi] [www]

  • Brunazzi, E.;Cai, T.;Kiss, T.;Repke, J.-U.;Skiborowski, M.;Sorensen, E. (2019). Distillation & Absorption 2018. Chemical Engineering Research and Design. 147. 603 [doi] [www]

  • Goebel, R.;Schreiber, M.;Koleva, V.;Horn, M.;Gorak, A.;Skiborowski, M. (2019). On the reliability of lab-scale experiments for the determination of membrane specific flux measurements in organic solvent nanofiltration. Chemical Engineering Research and Design. 148. 271--279 [doi] [www]

  • Groß, K.;Bieberle, A.;Gladyszewski, K.;Schubert, M.;Hampel, U.;Skiborowski, M.;Gorak, A. (2019). Analysis of Flow Patterns in High-Gravity Equipment Using Gamma-Ray Computed Tomography. Chemie-Ingenieur-Technik. 91. (7), 1032--1040 [doi] [www]

  • Kruber, K. F.;Grueters, T.;Skiborowski, M. (2019). Efficient design of intensified extractive distillation processes based on a hybrid optimization approach. Computer Aided Chemical Engineering. 46. 859--864 [doi] [www]

  • Kuhlmann, H.;Möller, M.;Skiborowski, M. (2019). Analysis of TBA-Based ETBE Production by Means of an Optimization-Based Process-Synthesis Approach. Chemie-Ingenieur-Technik. 91. (3), 336--348 [doi] [www]

  • Qammar, H.;Gladyszewski, K.;Gorak, A.;Skiborowski, M. (2019). Towards the Development of Advanced Packing Design for Distillation in Rotating Packed Beds. Chemie-Ingenieur-Technik. 91. (11), 1663--1673 [doi] [www]

  • Sasi, T.;Wesselmann, J.;Kuhlmann, H.;Skiborowski, M. (2019). Automatic synthesis of distillation processes for the separation of azeotropic multi-component systems. Computer Aided Chemical Engineering. 46. 49--54 [doi] [www]

  • Waltermann, T.;Sibbing, S.;Skiborowski, M. (2019). Optimization-based design of dividing wall columns with extended and multiple dividing walls for three- and four-product separations. Chemical Engineering and Processing - Process Intensification. 146. [doi] [www]

  • Waltermann, T.;Skiborowski, M. (2019). Efficient optimization-based design of energy-integrated distillation processes. Computers and Chemical Engineering. 129. [doi] [www]

  • Wojtasik, J.;Gladyszewski, K.;Skiborowski, M.;Gorak, A.;Piatkowski, M. (2019). Enzyme-enhanced CO 2 absorption process in rotating packed bed. Chemical Papers. 73. (4), 861--869 [doi] [www]

2018

  • Bertleff, B.;Goebel, R.;Claußnitzer, J.;Korth, W.;Skiborowski, M.;Wasserscheid, P.;Jess, A.;Albert, J. (2018). Investigations on Catalyst Stability and Product Isolation in the Extractive Oxidative Desulfurization of Fuels Using Polyoxometalates and Molecular Oxygen. ChemCatChem. 10. (20), 4602--4609 [doi] [www]

  • Scharzec, B.;Skiborowski, M. (2018). Improved modeling of membrane separation in integrated hybrid processes. Computer Aided Chemical Engineering. 43. 561--562 [doi] [www]

  • Wierschem, M.;Langen, A. A.;Lins, J.;Spitzer, R.;Skiborowski, M. (2018). Model validation for enzymatic reactive distillation to produce chiral compounds. Journal of Chemical Technology and Biotechnology. 93. (2), 498--507 [doi] [www]

  • Werth, K.;Skiborowski, M. (2018). CHAPTER 6: Organic Solvent Nanofiltration for an Intensified Processing of Renewable Raw Materials. RSC Green Chemistry. 2018-January. (55), 132--144 [doi] [www]

  • Waltermann, T.;Grueters, T.;Skiborowski, M. (2018). Optimization of extractive distillation – integrated solvent selection and energy integration. Computer Aided Chemical Engineering. 44. 187--192 [doi] [www]

  • Waltermann, T.;Benfer, R.;Schlueter, S.;Reinhardt, A.;Knoesche, C.;Gorak, A.;Skiborowski, M. (2018). Choosing the right model for distillation processes in packed columns: Theory and experiments. Chemical Engineering Transactions. 69. 367--372 [doi] [www]

  • Thiermeyer, Y.;Blumenschein, S.;Skiborowski, M. (2018). Solvent dependent membrane-solute sensitivity of OSN membranes. Journal of Membrane Science. 567. 7--17 [doi] [www]

  • Skiborowski, M.;Temmann, P.;Brandenbusch, C. (2018). Analyzing the link between GE-model parameter regression and optimal process design. Computer Aided Chemical Engineering. 43. 103--108 [doi] [www]

  • Skiborowski, M.;Recker, S.;Marquardt, W. (2018). Shortcut-based optimization of distillation-based processes by a novel reformulation of the feed angle method. Chemical Engineering Research and Design. 132. 135--148 [doi] [www]

  • Skiborowski, M. (2018). Process synthesis and design methods for process intensification. Current Opinion in Chemical Engineering. 22. 216--225 [doi] [www]

  • Skiborowski, M. (2018). Fast screening of energy and cost efficient intensified distillation processes. Chemical Engineering Transactions. 69. 199--204 [doi] [www]

  • Qammar, H.;Hecht, F.;Skiborowski, M.;Gorak, A. (2018). Experimental investigation and design of rotating packed beds for distillation. Chemical Engineering Transactions. 69. 655--660 [doi] [www]

  • Gladyszewski, K.;Skiborowski, M. (2018). Additive manufacturing of packings for rotating packed beds. Chemical Engineering and Processing - Process Intensification. 127. 1--9 [doi] [www]

  • Neumann, K.;Hunold, S.;de Beer, M.;Skiborowski, M.;Gorak, A. (2018). Mass Transfer Studies in a Pilot Scale RPB with Different Packing Diameters. Industrial and Engineering Chemistry Research. 57. (6), 2258--2266 [doi] [www]

  • Neumann, K.;Gladyszewski, K.;Groß, K.;Qammar, H.;Wenzel, D.;Gorak, A.;Skiborowski, M. (2018). A guide on the industrial application of rotating packed beds. Chemical Engineering Research and Design. 134. 443--462 [doi] [www]

  • Mackowiak, J. F.;Syringa, K.;Thomas, A.;Leimbrink, M.;Skiborowski, M.;Gorak, A.;Mackowiak, J. (2018). Absorption of carbon dioxide using enzyme activated amine solution in columns with random packings. Chemical Engineering Transactions. 69. 115--120 [doi] [www]

  • Leimbrink, M.;Nikoleit, K. G.;Spitzer, R.;Salmon, S.;Bucholz, T.;Gorak, A.;Skiborowski, M. (2018). Enzymatic reactive absorption of CO2 in MDEA by means of an innovative biocatalyst delivery system. Chemical Engineering Journal. 334. 1195--1205 [doi] [www]

  • Kuhlmann, H.;Veith, H.;Möller, M.;Nguyen, K.-P.;Gorak, A.;Skiborowski, M. (2018). Optimization-Based Approach to Process Synthesis for Process Intensification: Synthesis of Reaction-Separation Processes. Industrial and Engineering Chemistry Research. 57. (10), 3639--3655 [doi] [www]

  • Kruber, K. F.;Scheffczyk, J.;Leonhard, K.;Bardow, A.;Skiborowski, M. (2018). A hierarchical approach for solvent selection based on successive model refinement. Computer Aided Chemical Engineering. 43. 325--330 [doi] [www]

  • Kiss, A. A.;Geertman, R.;Wierschem, M.;Skiborowski, M.;Gielen, B.;Jordens, J.;John, J. J.;{van Gerven}, T. (2018). Ultrasound-assisted emerging technologies for chemical processes. Journal of Chemical Technology and Biotechnology. 93. (5), 1219--1227 [doi] [www]

  • Groß, K.;Neumann, K.;Skiborowski, M.;Gorak, A. (2018). Analysing the operating limits in high gravity equipment. Chemical Engineering Transactions. 69. 661--666 [doi] [www]

  • Goebel, R.;Glaser, T.;Niederkleine, I.;Skiborowski, M. (2018). Towards predictive models for organic solvent nanofiltration. Computer Aided Chemical Engineering. 43. 115--120 [doi] [www]

  • Wierschem, M.;Leimbrink, M.;Skiborowski, M.;Heils, R.;Smirnova, I.;Gorak, A. (2018). CHAPTER 10: Enzymatic Reactive Absorption and Distillation. RSC Green Chemistry. 2018-January. (55), 210--248 [doi] [www]

2017

  • Barecka, M.;Skiborowski, M.;Gorak, A. (2017). A novel approach for process retrofitting through process intensification: Ethylene oxide case study. Chemical Engineering Research and Design. 123. 295--316 [doi] [www]

  • Scharzec, B.;Waltermann, T.;Skiborowski, M. (2017). A Systematic Approach towards Synthesis and Design of Pervaporation-Assisted Separation Processes. Chemie-Ingenieur-Technik. 89. (11), 1534--1549 [doi] [www]

  • Wierschem, M.;Skiborowski, M.;Gorak, A.;Schmuhl, R.;Kiss, A. A. (2017). Techno-economic evaluation of an ultrasound-assisted Enzymatic Reactive Distillation process. Computers and Chemical Engineering. 105. 123--131 [doi] [www]

  • Wierschem, M.;Schlimper, S.;Heils, R.;Smirnova, I.;Kiss, A. A.;Skiborowski, M.;Lutze, P. (2017). Pilot-scale validation of Enzymatic Reactive Distillation for butyl butyrate production. Chemical Engineering Journal. 312. 106--117 [doi] [www]

  • Werth, K.;Kaupenjohann, P.;Skiborowski, M. (2017). The potential of organic solvent nanofiltration processes for oleochemical industry. Separation and Purification Technology. 182. 185--196 [doi] [www]

  • Werth, K.;Kaupenjohann, P.;Knierbein, M.;Skiborowski, M. (2017). Solvent recovery and deacidification by organic solvent nanofiltration: Experimental investigation and mass transfer modeling. Journal of Membrane Science. 528. 369--380 [doi] [www]

  • Waltermann, T.;Skiborowski, M. (2017). Conceptual Design of Highly Integrated Processes – Optimization of Dividing Wall Columns. Chemie-Ingenieur-Technik. 89. (5), 562--581 [doi] [www]

  • Waltermann, T.;Münchrath, D.;Skiborowski, M. (2017). Efficient optimization-based design of energy-intensified azeotropic distillation processes. Computer Aided Chemical Engineering. 40. 1045--1050 [doi] [www]

  • Neumann, K.;Hunold, S.;Skiborowski, M.;Gorak, A. (2017). Dry Pressure Drop in Rotating Packed Beds - Systematic Experimental Studies. Industrial and Engineering Chemistry Research. 56. (43), 12395--12405 [doi] [www]

  • Dreimann, J. M.;Hoffmann, F.;Skiborowski, M.;Behr, A.;Vorholt, A. J. (2017). Merging Thermomorphic Solvent Systems and Organic Solvent Nanofiltration for Hybrid Catalyst Recovery in a Hydroformylation Process. Industrial and Engineering Chemistry Research. 56. (5), 1354--1359 [doi] [www]

  • Leimbrink, M.;Tlatlik, S.;Salmon, S.;Kunze, A.-K.;Limberg, T.;Spitzer, R.;Gottschalk, A.;Gorak, A.;Skiborowski, M. (2017). Pilot scale testing and modeling of enzymatic reactive absorption in packed columns for CO2 capture. International Journal of Greenhouse Gas Control. 62. 100--112 [doi] [www]

  • Leimbrink, M.;Sandkämper, S.;Wardhaugh, L.;Maher, D.;Green, P.;Puxty, G.;Conway, W.;Bennett, R.;Botma, H.;Feron, P.;Gorak, A.;Skiborowski, M. (2017). Energy-efficient solvent regeneration in enzymatic reactive absorption for carbon dioxide capture. Applied Energy. 208. 263--276 [doi] [www]

  • Leimbrink, M.;Neumann, K.;Kupitz, K.;Gorak, A.;Skiborowski, M. (2017). Enzyme Accelerated Carbon Capture in different Contacting Equipment - A Comparative Study. Energy Procedia. 114. [doi] [www]

  • Leimbrink, M.;Limberg, T.;Kunze, A.-K.;Skiborowski, M. (2017). Different Strategies for Accelerated CO2 Absorption in Packed Columns by Application of the Biocatalyst Carbonic Anhydrase. Energy Procedia. 114. [doi] [www]

  • Kuhlmann, H.;Skiborowski, M. (2017). Optimization-Based Approach to Process Synthesis for Process Intensification: General Approach and Application to Ethanol Dehydration. Industrial and Engineering Chemistry Research. 56. (45), 13461--13481 [doi] [www]

  • Kim, T.-J.;Lang, A.;Chikukwa, A.;Sheridan, E.;Dahl, P. I.;Leimbrink, M.;Skiborowski, M.;Roubroeks, J. (2017). Enzyme Carbonic Anhydrase Accelerated CO2 Absorption in Membrane Contactor. Energy Procedia. 114. [doi] [www]

  • Wierschem, M.;Walz, O.;Mitsos, A.;Termuehlen, M.;Specht, A. L.;Kissing, K.;Skiborowski, M. (2017). Enzyme kinetics for the transesterification of ethyl butyrate with enzyme beads, coated packing and ultrasound assistance. Chemical Engineering and Processing: Process Intensification. 111. 25--34 [doi] [www]

2016

  • Barecka, M.;Jaberi, M.;Skiborowski, M.;Gorak, A. (2016). Debottlenecking of chemical processing through Process Intensification: Ethylene glycol case study. 22nd International Congress of Chemical and Process Engineering, CHISA 2016 and 19th Conference on Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction, PRES 2016. 2. [www]

  • Barecka, M.;Skiborowski, M.;Gorak, A. (2016). A methodology for process debottlenecking by process intensification: Application to ethylene oxide production. Computing and Systems Technology Division 2016 - Core Programming Area at the 2016 AIChE Annual Meeting. [www]

  • Dreimann, J. M.;Skiborowski, M.;Behr, A.;Vorholt, A. J. (2016). Recycling Homogeneous Catalysts Simply by Organic Solvent Nanofiltration: New Ways to Efficient Catalysis. ChemCatChem. 8. (21), 3330--3333 [doi] [www]

  • Dreimann, J. M.;Vorholt, A. J.;Skiborowski, M.;Behr, A. (2016). Removal of homogeneous precious metal catalysts via Organic solvent nanofiltration. Chemical Engineering Transactions. 47. 343--348 [doi] [www]

  • Kuhlmann, H.;Skiborowski, M. (2016). Synthesis of Intensified Processes from a Superstructure of Phenomena Building Blocks. Computer Aided Chemical Engineering. 38. 697--702 [doi] [www]

  • Leimbrink, M.;Kupitz, K.;Neumann, K.;Gorak, A.;Skiborowski, M. (2016). Improving the energy efficiency of carbon capture processes - Combining enzyme accelerated solvent systems and improved contacting equipment. Environmental Division 2016 - Core Programming Area at the 2016 AIChE Annual Meeting. [www]

  • Leimbrink, M.;Kupitz, K.;Neumann, K.;Gorak, A.;Skiborowski, M. (2016). Improving the energy efficiency of carbon capture processes - Combining enzyme accelerated solvent systems and improved contacting equipment. Sustainable Engineering Forum 2016 - Core Programming Area at the 2016 AIChE Annual Meeting. [www]

  • Skiborowski, M.;Bausa, J.;Marquardt, W. (2016). A Unifying Approach for the Calculation of Azeotropes and Pinch Points in Homogeneous and Heterogeneous Mixtures. Industrial and Engineering Chemistry Research. 55. (24), 6815--6834 [doi] [www]

  • Ulonska, K.;Skiborowski, M.;Mitsos, A.;Viell, J. (2016). Early-stage evaluation of biorefinery processing pathways using process network flux analysis. AIChE Journal. 62. (9), 3096--3108 [doi] [www]

  • Waltermann, T.;Skiborowski, M. (2016). Computationally efficient evaluation of energetically improved distillation processes for the separation of nonideal mixtures. Computing and Systems Technology Division 2016 - Core Programming Area at the 2016 AIChE Annual Meeting. [www]

  • Waltermann, T.;Skiborowski, M. (2016). Efficient optimization-based design of energetically intensified distillation processes. Computer Aided Chemical Engineering. 38. 571--576 [doi] [www]

2015

  • Leimbrink, M.;Kunze, A.-K.;Hellmann, D.;Gorak, A.;Skiborowski, M. (2015). Conceptual Design of Post-Combustion CO2 Capture Processes - Packed Columns and Membrane Technologies. Computer Aided Chemical Engineering. 37. 1223--1228 [doi] [www]

  • Recker, S.;Skiborowski, M.;Redepenning, C.;Marquardt, W. (2015). A unifying framework for optimization-based design of integrated reaction-separation processes. Computers and Chemical Engineering. 81. 260--271 [doi] [www]

  • Skiborowski, M.;Harwardt, A.;Marquardt, W. (2015). Efficient optimization-based design for the separation of heterogeneous azeotropic mixtures. Computers and Chemical Engineering. 72. 34--51 [doi] [www]

  • Skiborowski, M.;Rautenberg, M.;Marquardt, W. (2015). A Hybrid Evolutionary-Deterministic Optimization Approach for Conceptual Design. Industrial and Engineering Chemistry Research. 54. (41), 10054--10072 [doi] [www]

  • Werth, K.;Behling, P.;Hnida, A.;Skiborowski, M. (2015). Process synthesis of flexible and sustainable processes consisting of membrane separations and reactive distillation for the production of biodiesel. Innovations of Green Process Engineering for Sustainable Energy and Environment 2015 - Topical Conference at the 2015 AIChE Annual Meeting. [www]

  • Werth, K.;Neumann, K.;Skiborowski, M. (2015). Computer-aided process analysis of an integrated biodiesel process incorporating reactive distillation and organic solvent nanofiltration. Computer Aided Chemical Engineering. 37. 1277--1282 [doi] [www]

  • Wierschem, M.;Skiborowski, M.;Gorak, A. (2015). Continuous enzymatic reactive distillation with immobilized enzyme beads. Separations Division 2015 - Core Programming Area at the 2015 AIChE Annual Meeting. 2. [www]

2014

  • Recker, S.;Skiborowski, M.;Redepenning, C.;Marquardt, W. (2014). Systematic and optimization-based design of integrated reaction-separation processes. Computer Aided Chemical Engineering. 34. 417--422 [doi] [www]

  • Skiborowski, M.;Harwardt, A.;Marquardt, W. (2014). Conceptual Design of Azeotropic Distillation Processes. Distillation: Fundamentals and Principles. [doi] [www]

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