Prof. Dr.-Ing. Georg Fieg

(ehem. Institutsleiter des Instituts für Prozess- und Anlagentechnik)

AdresseTechnische Universität Hamburg
Institut für Systemverfahrenstechnik
Am Schwarzenberg-Campus 4 (C)
21073 Hamburg
BüroC 1.003
E-MailProf.-Dr. Fieg
Telefon++49 (0)40 42878-6111

Forschung

  • Modellierung und Simulation komplexer verfahrenstechnischer Prozesse
  • Verfahren der ein- und mehrkriteriellen Prozessoptimierung
  • Entwicklung und experimentelle Erprobung neuartiger Prozessführungskonzepte
  • Modellierung und Simulation von Festbettreaktoren mit trägerfixierten Enzymen
  • Auslegung, Entwurf und Konstruktion von Wasserstoffspeichern auf Metallhydridbasis
  • Optimierung von Wärmeübertrager-Netzwerken

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]

  • Lange, A. and Fieg, G. (2022). Designing Novel Structured Packings by Topology Optimization and Additive Manufacturing. 49. 1291--1296 [doi]

2021

  • Johannsen, J.;Baek, G.;Fieg, G.;Waluga, T. (2021). An innovative approach for fatty acid reduction to fatty aldehydes. Green Chemistry Letters and Reviews. 14. (3), 454--460 [doi]

  • Johannsen, J.;Meyer, F.;Engelmann, C.;Liese, A.;Fieg, G.;Bubenheim, P.;Waluga, T. (2021). Multi-enzyme cascade reaction in a miniplant two-phase-system: Model validation and mathematical optimization. AIChE Journal. [doi]

  • Meyer, F.;Johannsen, J.;Liese, A.;Fieg, G.;Bubenheim, P.;Waluga, T. (2021). Evaluation of process integration for the intensification of a biotechnological process. Chemical Engineering and Processing - Process Intensification. 108506 [doi]

2020

  • {Na Ranong}, C.;Hapke, J.;Fieg, G. (2020). Erratum to: Experimental investigation of exergy losses of a~PEM fuel cell system (Forschung im Ingenieurwesen, (2009), 73, 4, (193), 10.1007/s10010-009-0105-4). Forschung im Ingenieurwesen/Engineering Research. 84. (4), 387 [doi] [www]

  • Egger, L. S.;Fieg, G. (2020). Experimental Investigation of Decentralized Process Control for Reactive Dividing-Wall Columns. Chemical Engineering and Technology. 43. (5), 964--973 [doi] [www]

  • Engelmann, C.;Ekambaram, N.;Johannsen, J.;Fellechner, O.;Waluga, T.;Fieg, G.;Liese, A.;Bubenheim, P. (2020). Enzyme Immobilization on Synthesized Nanoporous Silica Particles and their Application in a Bi-enzymatic Reaction. ChemCatChem. 12. (8), 2245--2252 [doi] [www]

  • Engelmann, C.;Johannsen, J.;Waluga, T.;Fieg, G.;Liese, A.;Bubenheim, P. (2020). A multi-enzyme cascade for the production of highvalue aromatic compounds. Catalysts. 10. (10), 1--13 [doi] [www]

  • Harding, L.-S.;Fieg, G. (2020). Energy saving potential of reactive dividing wall columns with azeotropic reaction systems. Chemical Engineering Science. 227. [doi] [www]

  • Horsch, A. S.;Egger, L. S.;Fieg, G. (2020). Linear Model Predictive Control for a Reactive Dividing Wall Column. European Control Conference 2020, ECC 2020. [www]

  • Johannsen, J.;Engelmann, C.;Liese, A.;Fieg, G.;Bubenheim, P.;Waluga, T. (2020). Pilot-scale operation of a multi-enzymatic cascade reaction in a multiphase system. Chemical Engineering Transactions. 79. 25--30 [doi] [www]

  • Johannsen, J.;Meyer, F.;Fieg, G.;Waluga, T. (2020). Process for the Preparation of Fatty Aldehydes from Renewable Resources. Chemie-Ingenieur-Technik. 92. (6), 777--781 [doi] [www]

  • Rathjens, M.;Fieg, G. (2020). A novel hybrid strategy for cost-optimal heat exchanger network synthesis suited for large-scale problems. Applied Thermal Engineering. 167. [doi] [www]

  • Rave, A.;Kuwertz, R.;Fieg, G.;Heck, J. (2020). Modeling and experimental investigation of the spatial heat transfer in a plate reactor with meandering millichannels. Chemical Engineering and Processing - Process Intensification. 150. [doi] [www]

2019

  • Egger, L. S.;Fieg, G. (2019). Process control for energy efficient operation of reactive dividing wall columns. Chemical Engineering Research and Design. 144. 397--404 [doi] [www]

  • Egger, T.;Fieg, G. (2019). Operation, validation and model comparison for a reactive dividing wall column. Chemical Engineering Science. 207. 993--1006 [doi] [www]

  • Rathjens, M.;Fieg, G. (2019). Cost-optimal heat exchanger network synthesis based on a flexible cost functions framework. Energies. 12. (5), [doi] [www]

  • Rave, A.;Kuwertz, R.;Fieg, G.;Heck, J. (2019). Characterization of a Modular, Scalable Millistructured Plate Reactor. Chemie-Ingenieur-Technik. 91. (5), 602--606 [doi] [www]

2018

  • Egger, L. S.;Fieg, G. (2018). New process control concepts for energy efficient operation of reactive dividing wall columns. Chemical Engineering Transactions. 69. 541--546 [doi] [www]

  • Egger, T.;Egger, L. S.;Fieg, G. (2018). Scale and causes of catalyst activity loss in enzymatic catalyzed reactive distillation. Chemical Engineering Science. 178. 324--334 [doi] [www]

  • Egger, T.;Fieg, G. (2018). Dynamic process behavior and model validation of reactive dividing wall columns. Chemical Engineering Science. 179. 284--295 [doi] [www]

  • Egger, T.;Hiller, C.;Fieg, G. (2018). Experimental Studies of a Petlyuk Column and Validation of a Non-Equilibrium Stage Model. Chemical Engineering and Technology. 41. (4), 827--835 [doi] [www]

  • Ehlers, C.;Schroeder, M.;Fieg, G. (2018). Solution to Lestak’s heat transfer problem for dividing wall columns and implications for practical operation. Chemical Engineering Transactions. 69. 463--468 [doi] [www]

  • Harding, L.-S.;Fieg, G. (2018). Energy minimum design and systematic analysis of the reactive dividing wall column. Chemical Engineering Transactions. 69. 583--588 [doi] [www]

  • Harding, L.-S.;Schroeder, M.;Fieg, G. (2018). Hybrid Global Optimization Method for the Analysis of Integrated Reaction and Separation Processes. Computer Aided Chemical Engineering. 44. 1027--1032 [doi] [www]

  • Ratheins, M.;Fieg, G. (2018). Design of cost-optimal heat exchanger networks considering individual, match-dependent cost functions. 23rd International Congress of Chemical and Process Engineering, CHISA 2018 and 21st Conference on Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction, PRES 2018. 2. [www]

  • Rathjens, M.;Fieg, G. (2018). Design of cost-optimal heat exchanger networks considering individual, match-dependent cost functions. Chemical Engineering Transactions. 70. 601--606 [doi] [www]

  • Zimmermann, K.;Fieg, G. (2018). Global Optimization of Superstructures and Decision Support via a universally applicable Optimization Tool. Computer Aided Chemical Engineering. 44. 763--768 [doi] [www]

2017

  • Ajmal, M.;Fieg, G. (2017). Intensification of Lipase-Catalyzed Esterification using Ultrasound: Process Engineering Perspectives. Chemie-Ingenieur-Technik. 89. (10), 1367--1373 [doi] [www]

  • Egger, L. S.;Fieg, G. (2017). Decentralized process control of reactive dividing wall columns. Chemical Engineering Transactions. 57. 1693--1698 [doi] [www]

  • Egger, T.;Fieg, G. (2017). Enzymatic catalyzed reactive dividing wall column: Experiments and model validation. AIChE Journal. 63. (6), 2198--2211 [doi] [www]

  • Ehlers, C.;Egger, T.;Fieg, G. (2017). Experimental operation of a reactive dividing wall column and comparison with simulation results. AIChE Journal. 63. (3), 1036--1050 [doi] [www]

  • Ernst, P.;Zimmermann, K.;Fieg, G. (2017). Multi-objective Optimization-Tool for the Universal Application in Chemical Process Design. Chemical Engineering and Technology. 40. (10), 1867--1875 [doi] [www]

  • Hagedorn, A.;Fieg, G.;Winter, D.;Koschikowski, J.;Grabowski, A.;Mann, T. (2017). Membrane and spacer evaluation with respect to future module design in membrane distillation. Desalination. 413. 154--167 [doi] [www]

  • Hagedorn, A.;Fieg, G.;Winter, D.;Koschikowski, J.;Mann, T. (2017). Methodical design and operation of membrane distillation plants for desalination. Chemical Engineering Research and Design. 125. 265--281 [doi] [www]

  • Hartig, D.;Waluga, T.;Schmidt, C.;Fieg, G.;Scholl, S. (2017). Extended Elution by Characteristic Point Method for Characterization of Protein Ion-Exchange Adsorption. Chemical Engineering and Technology. 40. (10), 1940--1945 [doi] [www]

  • Kao, Y.-L.;Fieg, G.;Ward, J. D. (2017). Closed Operation of Multivessel Batch Reactive Distillation Processes. Industrial and Engineering Chemistry Research. 56. (13), 3655--3670 [doi] [www]

  • Liang-Schenkelberg, J.;Fieg, G.;Waluga, T. (2017). Molecular Insight into Affinity Interaction between Cibacron Blue and Proteins. Industrial and Engineering Chemistry Research. 56. (34), 9691--9697 [doi] [www]

  • Zimmermann, K.;Fieg, G. (2017). Development of a Diversity-Preserving Strategy for the Pareto Optimization in Chemical Process Design. Chemie-Ingenieur-Technik. 89. (10), 1297--1305 [doi] [www]

  • Zitzewitz, P.;Fieg, G. (2017). Multi-objective optimization superimposed model-based process design of an enzymatic hydrolysis process. AIChE Journal. 63. (6), 1974--1988 [doi] [www]

2016

  • Ajmal, M.;Fieg, G.;Keil, F. (2016). Analysis of process intensification in enzyme catalyzed reactions using ultrasound. Chemical Engineering and Processing: Process Intensification. 110. 106--113 [doi] [www]

  • Ajmal, M.;Rusli, S.;Fieg, G. (2016). Modeling and experimental validation of hydrodynamics in an ultrasonic batch reactor. Ultrasonics Sonochemistry. 28. 218--229 [doi] [www]

  • Ehlers, C.;Mohr, M.;Hiller, C.;Rix, A.;Fieg, G. (2016). Vorhersage der Trennleistung von FüllkÖrpern im Bereich der Rektifikation mit einem reduzierten Stofftransportansatz. Chemie-Ingenieur-Technik. 88. (9), 1283--1284 [doi] [www]

  • Rathjens, M.;Bohnenstädt, T.;Fieg, G.;Engel, O. (2016). Synthesis of Heat Exchanger Networks Taking into Account Cost and Dynamic Considerations. Procedia Engineering. 157. [doi] [www]

  • Schröder, M.;Ehlers, C.;Fieg, G. (2016). A Comprehensive Analysis on the Reactive Dividing-Wall Column, its Minimum Energy Demand, and Energy-Saving Potential. Chemical Engineering and Technology. 39. (12), 2323--2338 [doi] [www]

  • Schröder, M.;Fieg, G. (2016). Influence of Reaction System Properties on the Energy Saving Potential of the Reactive Dividing-Wall Column: Separation Properties. Chemical Engineering and Technology. 39. (12), 2265--2272 [doi] [www]

2015

  • Bohnenstädt, T.;Zimmermann, K.;Fieg, G. (2015). Optimisation of Process Parameters with Simultaneous Consideration of Energy Efficiency Measures. Computer Aided Chemical Engineering. 37. 749--754 [doi] [www]

  • Ehlers, C.;Schröder, M.;Fieg, G. (2015). Influence of heat transfer across the wall of dividing wall columns on energy demand. AIChE Journal. 61. (5), 1648--1662 [doi] [www]

  • Liang, J.;Fieg, G.;Jakobtorweihen, S. (2015). Ion-Exchange Adsorption of Proteins: Experiments and Molecular Dynamics Simulations. Chemie-Ingenieur-Technik. 87. (7), 903--909 [doi] [www]

  • Liang, J.;Fieg, G.;Jakobtorweihen, S. (2015). Molecular Dynamics Simulations of a Binary Protein Mixture Adsorption onto Ion-Exchange Adsorbent. Industrial and Engineering Chemistry Research. 54. (10), 2794--2802 [doi] [www]

  • Zitzewitz, P.;Fieg, G. (2015). Holistic analysis of three-phasic enzymatic reaction systems using continuous liquid-liquid phase separation [Ganzheitliche Analyse dreiphasiger enzymatischer Reaktionssysteme mittels kontinuierlicher Flüssig-Flüssig-Phasentrennung]. Chemie-Ingenieur-Technik. 87. (6), 746--755 [doi] [www]

2014

  • Bohnenstädt, T.;Brandt, C.;Fieg, G.;Dietrich, W. (2014). Energy Integration Manager: A Workflow for Long Term Validity of Total Site Analysis and Heat Recovery Strategies. Computer Aided Chemical Engineering. 33. 1819--1824 [doi] [www]

  • Bohnenstädt, T.;Fieg, G. (2014). A methodical approach for energy efficiency analysis based on existing process models. 21st International Congress of Chemical and Process Engineering, CHISA 2014 and 17th Conference on Process Integration, Modelling and Optimisation for Energy Saving and Pollution Reduction, PRES 2014. 4. [www]

  • Bohnenstädt, T.;Fieg, G. (2014). A methodical approach for energy efficiency analysis based on existing process models. Chemical Engineering Transactions. 39. (Special Issue), 1411--1416 [doi] [www]

  • Ehlers, C.;Fieg, G. (2014). Experimental validation of a flexible modeling approach for distillation columns with packings. AIChE Journal. 60. (11), 3833--3847 [doi] [www]

  • Lawen, J.;Yu, H.;Fieg, G.;Abdel-Wahab, A.;Bhatelia, T. (2014). New Unstructured Mesh Water Quality Model for Cooling Water Biocide Discharges. Environmental Modeling and Assessment. 19. (1), 1--17 [doi] [www]

  • Liang, J.;Fieg, G.;Jakobtorweihen, S. (2014). Molecular dynamics simulations of competitive protein adsorption onto chromatographic media. Computer Aided Chemical Engineering. 33. 937--942 [doi] [www]

  • Stegner, C.;Brandt, C.;Fieg, G. (2014). EVHE - A new method for the synthesis of HEN. Computers and Chemical Engineering. 64. 95--102 [doi] [www]

  • Zitzewitz, P.;Fieg, G. (2014). New laboratory setup for the experimental analysis of a heterogeneous enzymatic hydrolysis with continuous liquid-liquid phase separation. Industrial and Engineering Chemistry Research. 53. (40), 15590--15599 [doi] [www]

2013

  • Lawen, J.;Yu, H.;Fieg, G.;Abdel-Wahab, A. (2013). New unstructured mesh water quality model for coastal discharges. Environmental Modelling and Software. 40. 330--335 [doi] [www]

  • Liang, J.;Fieg, G. (2013). A combination of experiments and molecular dynamics simulation for the investigation of the ion-exchange adsorption of biological macromolecules. Computer Aided Chemical Engineering. 32. 25--30 [doi] [www]

2012

  • Brandt, C.;Fieg, G.;Luo, X.;Engel, O. (2012). New method for large-scale heat exchanger network synthesis. Computer Aided Chemical Engineering. 31. 695--699 [doi] [www]

  • Buck, C.;Fieg, G. (2012). Platform for the design of process control structures of dividing wall columns [Entwicklungsplattform zum entwurf von prozessf’hrungskonzepten für trennwandkolonnen]. Chemie-Ingenieur-Technik. 84. (11), 2005--2013 [doi] [www]

  • Krause, P.;Fieg, G. (2012). Applicability of a simple laboratory setup for the extractive hydrolysis using immobilized enzymes. Chemical Engineering and Processing: Process Intensification. 60. 77--85 [doi] [www]

  • Krause, P.;Fieg, G. (2012). Influence of the organic phase fraction in the biphasic organic-aqueous reactor feed stream on the enzymatic hydrolysis of FAME in a packed bed. Computer Aided Chemical Engineering. 31. 730--734 [doi] [www]

  • Liang, J.;Fieg, G.;Keil, F. J.;Jakobtorweihen, S. (2012). Adsorption of proteins onto ion-exchange chromatographic media: A molecular dynamics study. Industrial and Engineering Chemistry Research. 51. (49), 16049--16058 [doi] [www]

  • Liang, J.;Fieg, G.;Shi, Q.-H.;Sun, Y. (2012). Single and binary adsorption of proteins on ion-exchange adsorbent: The effectiveness of isothermal models. Journal of Separation Science. 35. (17), 2162--2173 [doi] [www]

  • Lozano, G. A.;Ranong, C. N.;{Bellosta Von Colbe}, J. M.;Bormann, R.;Hapke, J.;Fieg, G.;Klassen, T.;Dornheim, M. (2012). Optimization of hydrogen storage tubular tanks based on light weight hydrides. International Journal of Hydrogen Energy. 37. (3), 2825--2834 [doi] [www]

  • Niggemann, G.;Fieg, G. (2012). Validation of dividing-wall columns based on experimental data and dynamic simulations: Pilot-plant and production-scale columns. Industrial and Engineering Chemistry Research. 51. (2), 931--943 [doi] [www]

  • Vargas, M. A.;Fieg, G. (2012). Simulation study of alternatives for the efficient start-up of dividing-wall distillation column sequences. Computer Aided Chemical Engineering. 31. 750--754 [doi] [www]

2011

  • {Na Ranong}, C.;Lozano, G.;Hapke, J.;Roetzel, W.;Fieg, G.;{Bellosta Von Colbe}, J. M. (2011). Application of Danckwerts-type boundary conditions to the modeling of the thermal behavior of metal hydride reactors. Chemical Engineering Science. 66. (20), 4654--4662 [doi] [www]

  • Brandt, C.;Fieg, G.;Luo, X. (2011). Efficient synthesis of heat exchanger networks combining heuristic approaches with a genetic algorithm. Heat and Mass Transfer/Waerme- und Stoffuebertragung. 47. (8), 1019--1026 [doi] [www]

  • Buck, C.;Hiller, C.;Fieg, G. (2011). Applying Model Predictive Control to Dividing Wall Columns. Chemical Engineering and Technology. 34. (5), 663--672 [doi] [www]

  • Buck, C.;Hiller, C.;Fieg, G. (2011). Decentralized temperature control of a pilot dividing wall column. Chemical Engineering and Processing: Process Intensification. 50. (2), 167--180 [doi] [www]

  • Ernst, P.;{Vargas Gomez}, M. A.;Fieg, G.;Luo, X. (2011). Hybrid method for the heat exchanger network synthesis [Método híbrido para la síntesis de una red de intercambiadores de calor]. Ingenieria Quimica (Spain). 43. (491), 70--73 [www]

  • Krause, P.;Fieg, G. (2011). Experiment based model development for the enzymatic hydrolysis in a packed-bed reactor with biphasic reactant flow. Chemical Engineering Science. 66. (20), 4838--4850 [doi] [www]

  • Leipold, M.;Fieg, G. (2011). Enzymatically catalyzed fixed bed reactions - Modeling and simulation [Enzymatisch katalysierte reaktionen im festbettreaktor - modellierung und simulation]. Chemie-Ingenieur-Technik. 83. (3), 340--348 [doi] [www]

  • Niggemann, G.;Hiller, C.;Fieg, G. (2011). Modeling and in-depth analysis of the start-up of dividing-wall columns. Chemical Engineering Science. 66. (21), 5268--5283 [doi] [www]

  • Ranong, C. N.;Maus, S.;Hapke, J.;Fieg, G.;Wenger, D. (2011). Approach for the determination of heat transfer coefficients for filling processes of pressure vessels with compressed gaseous media. Heat Transfer Engineering. 32. (2), 127--132 [doi] [www]

  • Roetzel, W.;{Na Ranong}, C.;Fieg, G. (2011). New axial dispersion model for heat exchanger design. Heat and Mass Transfer/Waerme- und Stoffuebertragung. 47. (8), 1009--1017 [doi] [www]

2010

  • Ernst, P.;Fieg, G.;Luo, X. (2010). Efficient synthesis of large-scale heat exchanger networks using monogenetic algorithm. Heat and Mass Transfer/Waerme- und Stoffuebertragung. 46. (10), 1087--1096 [doi] [www]

  • Hiller, C.;Buck, C.;Ehlers, C.;Fieg, G. (2010). Nonequilibrium stage modelling of dividing wall columns and experimental validation. Heat and Mass Transfer/Waerme- und Stoffuebertragung. 46. (10), 1209--1220 [doi] [www]

  • Krause, P.;MacIas, R.;Fieg, G. (2010). Applicability of a countercurrent enzymatically catalyzed multistage extractive reaction process for the hydrolysis of methyl octanoate. Industrial and Engineering Chemistry Research. 49. (7), 3217--3222 [doi] [www]

  • Leipold, M.;Gruetzmann, S.;{Vargas Gomez}, M. A.;Fieg, G.;Luo, X. (2010). Optimal design of a batch distillation column with cyclic product collection [Diseño óptimo de una columna de destilación batch con recogida cíclica de productos]. Ingenieria Quimica (Spain). 42. (478), 144--151 [www]

  • Lozano, G. A.;Ranong, C. N.;{Bellosta Von Colbe}, J. M.;Bormann, R.;Fieg, G.;Hapke, J.;Dornheim, M. (2010). Empirical kinetic model of sodium alanate reacting system (II). Hydrogen desorption. International Journal of Hydrogen Energy. 35. (14), 7539--7546 [doi] [www]

  • Lozano, G. A.;Ranong, C. N.;von Colbe, J.M.B.;Bormann, R.;Fieg, G.;Hapke, J.;Dornheim, M. (2010). Empirical kinetic model of sodium alanate reacting system (I). Hydrogen absorption. International Journal of Hydrogen Energy. 35. (13), 6763--6772 [doi] [www]

  • Niggemann, G.;Hiller, C.;Fieg, G. (2010). Experimental and theoretical studies of a dividing-wall column used for the recovery of high-purity product (Industrial and Engineering Chemistry Research 49:14 (6570)). Industrial and Engineering Chemistry Research. 49. (23), 12331 [doi] [www]

  • Niggemann, G.;Hiller, C.;Fieg, G. (2010). Experimental and Theoretical Studies of a Dividing-Wall Column Used for the Recovery of High-Purity Products. Industrial and Engineering Chemistry Research. 49. (14), 6566--6577 [doi] [www]

2009

  • {Na Ranong}, C.;Hapke, J.;Fieg, G. (2009). Experimental investigation of exergy losses of a PEM fuel cell system. Forschung im Ingenieurwesen/Engineering Research. 73. (4), 193--203 [doi] [www]

  • {Na Ranong}, C.;Höhne, M.;Franzen, J.;Hapke, J.;Fieg, G.;Dornheim, M.;Eigen, N.;{Bellosta Von Colbe}, J. M.;Metz, O. (2009). Concept, design and manufacture of a prototype hydrogen storage tank based on sodium alanate. Chemical Engineering and Technology. 32. (8), 1154--1163 [doi] [www]

  • Cai, K.;Guan, X.;Luo, X.;Fieg, G. (2009). Optimization of large-scale heat exchanger networks by evolution of sub-networks. Huagong Xuebao/CIESC Journal. 60. (9), 2265--2270 [www]

  • Fieg, G.;Gao, Y.-M.;Luo, X. (2009). Modeling of separation process in a chromatographic column packed with porous adsorbents. Computer Aided Chemical Engineering. 26. 219--223 [doi] [www]

  • Fieg, G.;Hou, X.-R.;Luo, X.;Ma, H.-G. (2009). The optimal design of heat exchanger networks considering heat exchanger types. Computer Aided Chemical Engineering. 26. 659--664 [doi] [www]

  • Fieg, G.;Luo, X.;Jezowski, J. (2009). A monogenetic algorithm for optimal design of large-scale heat exchanger networks. Chemical Engineering and Processing: Process Intensification. 48. (11-12), 1506--1516 [doi] [www]

  • Gruetzmann, S.;Fieg, G.;Skogestad, S. (2009). Experimental and theoretical studies on the start-up operation of a multivessel batch distillation column. Industrial and Engineering Chemistry Research. 48. (11), 5336--5343 [doi] [www]

  • Krause, P.;Hilterhaus, L.;Fieg, G.;Liese, A.;Bornscheuer, U. (2009). Chemically and enzymatically catalyzed synthesis of C6-C10 alkyl benzoates. European Journal of Lipid Science and Technology. 111. (2), 194--201 [doi] [www]

  • Krause, P.;MacIas, R.;Fieg, G.;Gutsche, B. (2009). Method for determination of the reaction kinetics of an enzymatic conversion in a heterogeneous system. Computer Aided Chemical Engineering. 26. 1081--1085 [doi] [www]

  • Leipold, M.;Gruetzmann, S.;Fieg, G. (2009). An evolutionary approach for multi-objective dynamic optimization applied to middle vessel batch distillation. Computers and Chemical Engineering. 33. (4), 857--870 [doi] [www]

  • Leipold, M.;Gruetzmann, S.;Fieg, G. (2009). Model based optimisation of the design of a middle vessel batch distillation by using an evolutionary algorithm [Modellgestützte optimierung des designs einer batch-rektifikation mit mittelbehälter mittels eines evolutionären algorithmus]. Forschung im Ingenieurwesen/Engineering Research. 73. (3), 161--172 [doi] [www]

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