direkt zum Inhalt springen

direkt zum Hauptnavigationsmenü

Sie sind hier

TU Berlin

Inhalt des Dokuments

Publications

Following the links below you find a continuously updated publication list of our group. In order to have an overview of our current publications please visit d|b|t|a's page on ResearchGate: Fachgebiet Dynamik und Betrieb technischer Anlagen

C

Godini, H.-R., Trivedi, H., de-Villasante, A.-G., Görke, O., Javso, S., Simon, U., Berthold, A., Witt, W. and Wozny, G. (2013). Design and demonstration of an experimental membrane reactor set-up for oxidative coupling of methane. Chemical Engineering Research and Design. Elsevier, 2671–2681.


Lausch, H.-R., Wozny, G., Wutkewicz, M. and Wendeler, H. (1998). Plant-wide control of an industrial process. Chemical Engineering Research and Design. Elsevier, 185–192.


Repke, J.-U., Ausner, I., Paschke, S., Hoffmann, A. and Wozny, G. (2007). On the track to understanding three phases in one tower. Chemical Engineering Research and Design. Elsevier, 50–58.


Thiele, R., Faber, R., Repke, J.-U., Thielert, H. and Wozny, G. (2007). Design of industrial reactive absorption processes in sour gas treatment using rigorous modelling and accurate experimentation. Chemical Engineering Research and Design. Elsevier, 74–87.


Wendt, M., Königseder, R., Li, P. and Wozny, G. (2003). Theoretical and experimental studies on startup strategies for a heat-integrated distillation column system. Chemical Engineering Research and Design. Elsevier, 153–161.


Bonart, H., Marek, A. and Repke, J.-U. (2017). Experimental characterization of stable liquid rivulets on inclined surfaces: Influence of surface tension, viscosity and inclination angle on the interfacial area. Chemical Engineering Research and Design. Elsevier, 226 - 232.


Wilhelm, R., Esche, E., Guetta, Z., Menzel, J., Morstein, O. v., Thielert, H. and Repke, J.-U. (2019). A Framework for the Experimental Characterisation of Novel Solvents in a Pilot-plant Scale CO2 Capture Process under Industrial Conditions Using a Data-driven Modelling Approach. Chemical Engineering Research and Design, 190–200.


Kapoustina, V., Guffart, J., Hien, A., Strischakov, J., Medina, I., Rädle, M. and Repke, J.-U. (2019). Influence of a single microstructure on local mass transfer in liquid film flows. Chemical Engineering Research and Design, 352–362.



Gerke, S. J. and Repke, J.-U. (2019). Experimental investigations of the fluid dynamics in liquid falling films over structured packing geometry. Chemical Engineering Research and Design, 634–643.


Godini, H. R., Azadi, M., Penteado, A., Khadivi, M., Wozny, G. and Repke, J.-U. (2019). A multi-perspectives analysis of methane oxidative coupling process based on miniplant-scale experimental data. Chemical Engineering Research and Design, 56–69.


Rosa, L., Pontes, K., Costa, G., Penteado, A., Esche, E. and Repke, J.-U. (2020). An equation-oriented novel approach for modelling the falling film absorber using rigorous thermodynamic and transport description. Chemical Engineering Research and Design, 179–194.


Hoffmann, A., Ausner, I., Repke, J.-.. and Wozny, G. (2006). Detailed Investigation of Multiphase (Gas–Liquid and Gas–Liquid–Liquid) Flow Behaviour on Inclined Plates. Chemical Engineering Research and Design, 147 - 154.


Sebastia-Saez, D., Gu, S., Könözsy, L., Repke, J.-U. and Arellano-García, H. (2018). On the effect of the Froude number on the interface area of gravity-driven liquid rivulets. Chemical Engineering Research and Design, 208 - 218.


Leuner, H., Gerstenberg, C., Lechner, K., McHardy, C., Rauh, C. and Repke, J.-U. (2020). Overcoming unwanted foam in industrial processes of the chemical and food industry - an ongoing survey. Chemical Engineering Research and Design, 281–294.


Leuner, H., Gerstenberg, C., Lechner, K., McHardy, C., Rauh, C. and Repke, J.-U. (2020). Overcoming unwanted foam in industrial processes of the chemical and food industry - an ongoing survey. Chemical Engineering Research and Design, 123–456.


Stünkel, S., Drescher, A., Wind, J., Brinkmann, T., Repke, J.-U. and Wozny, G. (2011). Carbon dioxide capture for the oxidative coupling of methane process – A case study in mini-plant scale. Chemical Engineering Research and Design, 1261 - 1270.


Kohrt, M., Ausner, I., Wozny, G. and Repke, J.-U. (2011). Texture influence on liquid-side mass transfer. Chemical Engineering Research and Design, 1405 - 1413.


Esche, E., Müller, D., Kraus, R. and Wozny, G. (2014). Systematic approaches for model derivation for optimization purposes. Chemical Engineering Science. Elsevier, 215–224.


Müller, D., Minh, D.-H., Merchan, V.-A., Arellano-Garcia, H., Kasaka, Y., Müller, M., Schomäcker, R. and Wozny, G. (2014). Towards a novel process concept for the hydroformylation of higher alkenes: Mini-plant operation strategies via model development and optimal experimental design. Chemical Engineering Science. Elsevier, 127–138.


Reepmeyer, F., Repke, J.-U. and Wozny, G. (2004). Time optimal start-up strategies for reactive distillation columns. Chemical engineering science. Elsevier, 4339–4347.


Misra, A., Souza, L.-G.-M. d., Illner, M., Hohl, L., Kraume, M., Repke, J.-U. and Thévenin, D. (2017). Simulating separation of a multiphase liquid-liquid system in a horizontal settler by CFD. Chemical Engineering Science, 242 - 250.


Obermeier, A., Windmeier, C., Esche, E. and Repke, J.-U. (2019). A discrete-time scheduling model for power-intensive processes taking fatigue of equipment into consideration. Chemical Engineering Science, 904–920.


Javso, S., Godini, H.-R., Arellano-Garcia, H., Omidkhah, M. and Wozny, G. (2010). Analysis of attainable reactor performance for the oxidative methane coupling process. Chemical Engineering Science. Elsevier, 6341–6352.


Reepmeyer, F., Repke, J.-U. and Wozny, G. (2004). Time optimal start-up strategies for reactive distillation columns. Chemical Engineering Science, 4339 - 4347.


Zusatzinformationen / Extras

Direktzugang

Schnellnavigation zur Seite über Nummerneingabe