Order by: Author Year Journal Bibtex Type of Publication

U

• 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]
  
  

P

• Fieg, G. (1976). EXPERIMENTAL INVESTIGATIONS OF HEAT TRANSFER CHARACTERISTICS IN LIQUID LAYERS WITH INTERNAL HEAT SOURCES. Proc of the Int Meet on Fast React Saf and Relat Phys. 4. 2047--2055 [www]
  
  
• Gruetzmann, S.;Fieg, G. (2006). Improvements in configuration of a middle vessel batch distillation by means of rigorous dynamic modelling and simulation. Proceedings of the 15th IASTED International Conference on Applied Simulation and Modelling. 2006. [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]
  
  

J

• Fieg, G.;Wozny, G.;Jeromin, L. (1992). Design, analysis and realization of a state control system for an industrial distillation column. Journal of Process Control. 2. (4), 179--187 [doi] [www]
  
  
• Kruse, Ch.;Fieg, G.;Wozny, G. (1996). A new time-optimal strategy for column startup and product changeover. Journal of Process Control. 6. (2-3 SPEC. ISS), 187--193 [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]
  
  

I

• 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]
  
  
• Fieg, G.;Gruetzmann, S. (2004). An optimal startup procedure for industrial distillation columns: Development strategy and experimental validation. Inzynieria Chemiczna i Procesowa. 25. (3 I), 855--858 [www]
  
  
• Fieg, G.;Gruetzmann, S.;Temprano, M.;Kapala, T. (2005). Experimental investigation of batch distillation with reduced cycling of the products [Investigación experimental de la destilación batch con disminución cíclica de productos]. Ingenieria Quimica. 37. (429), 90--97 [www]
  
  
• Fieg, G.;{Temprano Martín}, M. (2007). Automatic exit control of rectification columns [Control de salidas para la operación automática de columnas de rectificación]. Ingenieria Quimica. 39. (445), 154--158 [www]
  
  
• Fieg, G.;{Temprano Martín}, M. (2002). Destilación batch con reflujo total. Ingenieria Quimica. 34. (392), 129 [www]
  
  
• Gruetzmann, S.;Fieg, G. (2008). Startup operation of middle-vessel batch distillation column: Modeling and simulation. Industrial and Engineering Chemistry Research. 47. (3), 813--824 [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]
  
  
• 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]
  
  
• 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]
  
  
• Kruse, C.;Fieg, G.;Wozny, G.;Jeromin, L.;Johannisbauer, W. (1995). Experimental Verification of the Equilibrium Stage Model for the Dynamics of the Multicomponent Distillation Considering the Effects of Energy Loss. Industrial and Engineering Chemistry Research. 34. (5), 1810--1822 [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]
  
  
• 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]
  
  
• 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-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]
  
  
• 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]
  
  
• 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.;{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]
  
  
• Niggemann, G.;Fieg, G.;de {La Torre Díaz}, M.;Luo, X. (2009). Start of a divided wall distillation column: Modeling and simulation of hydraulic performance [Arranque de una columna de destilación de pared dividida: Modelado y simulación del comportamiento hidráulico]. Ingenieria Quimica (Spain). 41. (470), 110--115 [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]
  
  
• Schneider, R.;Wozny, G.;Fieg, G. (1997). Investigations for process control strategies of a coupled, three-phase distillation plant with experimental verification. Institution of Chemical Engineers Symposium Series. (142 pt 1), [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]
  
  

H

• 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]
  
  
• 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]
  
  
• 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]
  
  
• Fieg, G. (1996). Some aspects of the dynamic simulation of mass separation apparatus with respect to its transferability to real plants [Einige Aspekte der dynamischen Simulation von Stofftrennapparaten im Hinblick auf ihre Übertragung auf reale Anlagen]. Heat and Mass Transfer/Waerme- und Stoffuebertragung. 31. (4), 205--213 [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]
  
  
• Kruse, C.;Fieg, G.;Wozny, G. (1995). Development and experimental verification of a simulation tool for distillation column startup [Entwicklung und experimentelle Absicherung eines Simulationsprogrammes für Anfahrvorgänge an Rektifikationskolonnen]. Heat and Mass Transfer. 31. (1-2), 25--31 [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]
  
  

G

• 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]
  
  

F

• 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]
  
  
• {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]
  
  
• {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]
  
  

E

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

D

• 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]
  
  

C

• Ajmal, M.;Fieg, G. (2017). Intensification of Lipase-Catalyzed Esterification using Ultrasound: Process Engineering Perspectives. Chemie-Ingenieur-Technik. 89. (10), 1367--1373 [doi] [www]
  
  
• 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. Chemical Engineering Transactions. 39. (Special Issue), 1411--1416 [doi] [www]
  
  
• 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]
  
  
• 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]
  
  
• 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, L. S.;Fieg, G. (2017). Decentralized process control of reactive dividing wall columns. Chemical Engineering Transactions. 57. 1693--1698 [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]
  
  
• 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]
  
  
• 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.;Gutermuth, W.;Kothe, W.;Mayer, H. H.;Nagel, S.;Wendeler, H.;Wozny, G. (1995). A standard interface for use of thermodynamics in process simulation. Computers and Chemical Engineering. 19. (SUPPL. 1), 317--320 [doi] [www]
  
  
• Fieg, G.;Gutermuth, W.;Kothe, W.;Mayer, H.?H.;Nagel, S.;Wendeler, H.;Wozny, G. (1995). Programmierrichtlinien FORTRAN und C der IK?CAPE. Chemie Ingenieur Technik. 67. (4), 479--481 [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.;Wozny, G.;Buick, K.;Jeromin, L. (1993). Sensitivitätsanalyse der Sprühtrocknung mittels eines Simulationsprogramms. Chemie Ingenieur Technik. 65. (11), 1372--1375 [doi] [www]
  
  
• Flender, M.;Fieg, G.;Wozny, G. (1996). Classification of New Product changeover Strategy (NPS) for different application of distillation columns. Computers and Chemical Engineering. 20. (SUPPL.2), S1131-S1136 [doi] [www]
  
  
• Gruetzmann, S.;Fieg, G. (2007). Integrale Analyse der Batch-rektifikation mit Mittelbehälter. Chemie-Ingenieur-Technik. 79. (10), 1613--1624 [doi] [www]
  
  
• Gruetzmann, S.;Kapala, T.;Fieg, G. (2006). Dynamic modelling of complex batch distillation starting from ambient conditions. Computer Aided Chemical Engineering. 21. (C), 865--870 [doi] [www]
  
  
• Gruetzmann, S.;Temprano, M.;Kapala, T.;Fieg, G. (2005). Command concepts to minimize the process time of cyclic batch rectification [Führungskonzepte zur Minimierung der Prozessdauer der zyklischen Batch-Rektifikation]. Chemie-Ingenieur-Technik. 77. (8), 1101--1102 [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]
  
  
• 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]
  
  
• Josten, H.;Fieg, G.;Gutsche, B.;Johannisbauer, W. (2004). Urea precipitation as a competitive separation process for difficult separations in oleochemistry [Harnstofffällung als konkurrenzfähiges Trennverfahren für schwierige Stofftrennungen in der Oleochemie]. Chemie-Ingenieur-Technik. 76. (11), 1700--1703 [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]
  
  
• 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]
  
  
• Kruse, C.;Fieg, G.;Wozny, G.;Jeromin, L. (1995). Algorithmus zur Reduzierung des Zeitbedarfs bei Anfahrvorgängen an Rektifikationskolonnen. Chemie Ingenieur Technik. 67. (4), 458--461 [doi] [www]
  
  
• Kruse, Ch.;Fieg, G.;Wozny, G.;Jeromin, L. (1995). Industrial realization of time-optimal strategies for product changeover operations of coupled distillation columns. Computers and Chemical Engineering. 19. (SUPPL. 1), 603--608 [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]
  
  
• 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.;Maschmeyer, D.;Sauer, J.;Wiederhold, H. (2008). Development of a sophisticated framework for complex single-and multi-objective optimization tasks. Computer Aided Chemical Engineering. 25. 695--700 [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]
  
  
• 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. (2014). Molecular dynamics simulations of competitive protein adsorption onto chromatographic media. Computer Aided Chemical Engineering. 33. 937--942 [doi] [www]
  
  
• Luo, X.;Fieg, G.;Cai, K.;Guan, X. (2009). Synthesis of large-scale heat exchanger networks by a monosenetic algorithm. Computer Aided Chemical Engineering. 27. (C), 729--734 [doi] [www]
  
  
• Luo, X.;Wen, Q.-Y.;Fieg, G. (2009). A hybrid genetic algorithm for synthesis of heat exchanger networks. Computers and Chemical Engineering. 33. (6), 1169--1181 [doi] [www]
  
  
• Neidert, M.;Fieg, G.;Ridinger, R. (1998). BatchMan - Ein anwendungsorientiertes Softwareprodukt zur Analyse von Batchprozessen. Chemie-Ingenieur-Technik. 70. (7), 846--849 [doi] [www]
  
  
• Numrich, R.;Möller, K.;Fieg, G. (1996). Simulation eines industriellen Fallfilmverdampfers zur Verdampfung von Mehrstoffgemischen. Chemie-Ingenieur-Technik. 68. (11), 1466--1469 [doi] [www]
  
  
• Ranong, C. N.;Höhne, M.;Franzen, J.;Hapke, J.;Fieg, G.;Dornheim, M. (2009). Model supported process engineering calculation of a metal hydride storage based on sodium alanate on pilot scale [Modellgestützte verfahrenstechnische berechnung eines metallhydridspeichers auf natriumalanatbasis im technikumsmaßstab]. Chemie-Ingenieur-Technik. 81. (5), 645--654 [doi] [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]
  
  
• 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]
  
  
• Remberg, C.;Fett, F. N.;Wozny, G.;Fieg, G.;Blaich, L. (1995). Entwicklung eines Beratungssystems zum Entwurf von Automatisierungskonzepten für Rektifikationskolonnen. Chemie Ingenieur Technik. 67. (7), 866--870 [doi] [www]
  
  
• Schneider, R.;Wozny, G.;Fieg, G. (1997). Optimization of an industrial three phase distillation column train with experimental verification. Computers and Chemical Engineering. 21. (SUPPL.1), S1131-S1136 [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]
  
  
• 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]
  
  
• Vargas, M. A.;Niggemann, G.;Fieg, G. (2009). Dynamic modeling and simulation of dividing-wall distillation column systems. Computer Aided Chemical Engineering. 27. (C), 639--644 [doi] [www]
  
  
• Wozny, G.;Fieg, G.;Jeromin, L. (1989). Modellgestützte Kolonnenregelung. Chemie Ingenieur Technik. 61. (6), 488--489 [doi] [www]
  
  
• Wozny, G.;Fieg, G.;Kratz, G. (1988). Ermittlung der Automatisierungsstruktur von thermischen Trennprozessen. Chemie Ingenieur Technik. 60. (10), 788--789 [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]
  
  
• 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]
  
  
• 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]
  
  
• {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]