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 [1]

<< zurück [2]
vor >> [15]

G

Godini, H. R., Khadivi, M., Azadi, M., Görke, O., Jazayeri, S. M., Thum, L., Schomäcker, R., Wozny, G. and Repke, J.-U. (2020). Multi-Scale Analysis of Integrated C1 (CH4 and CO2) Utilization Catalytic Processes: Impacts of Catalysts Characteristics up to Industrial-Scale Process Flowsheeting, Part I: Experimental Analysis of Catalytic Low-Pressure CO2 to Methanol Conversion [19]. Catalysts. MDPI AG, 505.


Godini, H. R., Azadi, M., Khadivi, M., Schomäcker, R., Gallucci, F., Wozny, G. and Repke, J.-U. (2020). Multi-Scale Analysis of Integrated C1 (CH4 and CO2) Utilization Catalytic Processes: Impacts of Catalysts Characteristics up to Industrial-Scale Process Flowsheeting, Part II: Techno-Economic Analysis of Integrated C1 Utilization Process Scenarios [20]. Catalysts. MDPI AG, 488.


Gomes, C. S., Repke, J.-U. and Meyer, M. (2019). Diauxie during biogas production from collagen-based substrates [21]. Renewable Energy. Elsevier BV, 20–27.


Gomes, C. S., Repke, J.-U. and Meyer, M. (2019). The effect of various pre-treatment methods of chromium leather shavings in continuous biogas production [22]. Engineering in Life Sciences. Wiley, 79–89.


Gomes, C. S., Repke, J.-U. and Meyer, M. (2020). Investigation of different pre-treatments of chromium leather shavings to improve biogas production [23]. Journal of Leather Science and Engineering. Springer Science and Business Media LLC.


Gomez, M.-T.-D.-P., Repke, J.-U., Kim, D.-Y., Yang, D.-R. and Wozny, G. (2009). Reduction of Energy Consumption in the Process Industry Using a Heat-Integrated Hybrid Distillation Pervaporation Process [24]. Industrial & Engineering Chemistry Research, 4484-4494.


Gomez, M. D. P., Klein, A., Repke, J.-U. and Wozny, G. (2008). A new energy-integrated pervaporation distillation approach [25]. Desalination. Elsevier BV, 28–33.


Grahl, F., Beitlich, N., Fechter, M., Speer, K., Herdegen, V., Eßlinger, M., Haseneder, R. and Repke, J.-U. (2019). Neuer stofflicher Nutzungspfad von Treberpresswasser aus Biertreber unter Einsatz von Membrantrenntechnik in Lebens- oder Nahrungsergänzungsmitteln [26]. Chemie Ingenieur Technik. Wiley, 1314–1325.


Guffart, J., Bus, Y., Nachtmann, M., Lettau, M., Schorz, S., Nieder, H., Repke, J.-U. and Rädle, M. (2020). Photometric Inline Monitoring of Pigment Concentration in Highly Filled Lacquers [27]. Chemie Ingenieur Technik. Wiley, 729–735.


Guo, M., Wang, S., Repke, J.-U. and Wozny, G. (2004). A simultaneous method for two- and three-liquid–phase stability determination [28]. AIChE Journal, 2571-2582.


Gómez, M. D. P., Carreira, P. R., Repke, J.-U., Klein, A., Brinkmann, T. and Wozny, G. (2008). Study of a novel heat integrated hybrid pervaporation distillation process: Simulation and experiments [29]. Computer Aided Chemical Engineering. Elsevier, 73–78.


H

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., DtextquotesingleAuria, M., Runowski, T., Casal, M. F., Becker, K., David, A.-L., Górak, A., Skiborowski, M., Groß, K. and Qammar, H. (2020). Recent Advances in Experimental Techniques for Flow and Mass Transfer Analyses in Thermal Separation Systems [30]. Chemie Ingenieur Technik. Wiley, 926–948.


Hannes, L., Mark, H., Johannes, S., Marcus, G. and Jens-Uwe, R. (2018). An advanced approach to design structured packing columns using miniaturized experimental set-ups [31]. Chemical Engineering Transactions. AIDIC: Italian Association of Chemical Engineering, 781-786.


Hausmanns, C., Zerry, R., Goers, B., Urbas, L., Gauss, B. and Wozny, G. (2003). Multimedia-supported teaching of process system dynamics using an ontology-based semantic network [32]. Computer Aided Chemical Engineering. Elsevier, 1453–1459.


Hausmanns, C., Wozny, G., Gauss, B. and Urbas, L. (2005). Die eupace. net-Guidelines [33]. Chemie Ingenieur Technik. Wiley Online Library, 1250–1250.


Henrion, R., Li, P., Möller, A., Steinbach, M. C., Wendt, M. and Wozny, G. (2001). Stochastic Optimization for Operating Chemical Processes under Uncertainty [34]. Online Optimization of Large Scale Systems. Springer, 457–478.


Herdegen, V., Felix, A., Haseneder, R., Repke, J.-U., Leppchen-Fröhlich, K., Prade, I. and Meyer, M. (2014). Sterilization of Medical Products from Collagen by Means of Supercritical CO2 [35]. Chemical Engineering & Technology. Wiley, 1891–1895.


Hoffmann, A., Ausner, I., Repke, J.-U. and Wozny, G. (2004). Aufreißende Filmströmung auf geneigten Oberflächen [36]. Chemie Ingenieur Technik. Wiley, 1065–1068.


Hoffmann, A., Ausner, I., Repke, J.-U. and Wozny, G. (2005). Fluid dynamics in multiphase distillation processes in packed towers [37]. Computers & Chemical Engineering. Elsevier, 1433–1437.


Hoffmann, A., Ausner, I., Repke, J.-.. and Wozny, G. (2006). Detailed Investigation of Multiphase (GastextendashLiquid and GastextendashLiquidtextendashLiquid) Flow Behaviour on Inclined Plates [38]. Chemical Engineering Research and Design. Elsevier BV, 147–154.


Hoffmann, C., Illner, M., Müller, D., Esche, E., Wozny, G., Biegler, L. T. and Repke, J.-U. (2016). Moving-horizon State Estimation with Gross Error Detection for a Hydroformylation Mini-plant [39]. Computer Aided Chemical Engineering. Elsevier, 1485–1490.


Hoffmann, C., Weigert, J., Budiarto, T., Esche, E. and Repke, J.-U. (2018). Demand-Response-Potenziale elektrochemischer Verfahren am Beispiel der Chlor-Alkali-Elektrolyse [40]. Chemie Ingenieur Technik. Wiley, 1166–1166.


Hoffmann, C., Esche, E. and Repke, J.-U. (2019). Integration of Design and Control Based on Large-Scale Nlp Formulations and An Optimal Economic Nmpc [41]. Computer Aided Chemical Engineering. Elsevier, 125–130.


Hoffmann, C., Weigert, J., Esche, E. and Repke, J.-U. (2019). Parameter estimation for thermodynamic models using an identifiability analysis and subset selection [42]. Computer Aided Chemical Engineering. Elsevier, 583–588.


Hoffmann, C., Weigert, J., Esche, E. and Repke, J.-U. (2020). Towards demand-side management of the chlor-alkali electrolysis: Dynamic, pressure-driven modeling and model validation of the 1,2-dichloroethane synthesis [43]. Chemical Engineering Science. Elsevier BV, 115358.


<< zurück [44]
vor >> [57]
------ Links: ------

Zusatzinformationen / Extras

Direktzugang

Schnellnavigation zur Seite über Nummerneingabe

Copyright TU Berlin 2008