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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

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Müller, D., Esche, E., Illner, M., Pogrzeba, T., Schmidt, M., Schomäcker, R., Biegler, L.-T. and Wozny, G. (2016). Dynamic Real-time Optimization Under Uncertainty of a Hydroformylation Mini-plant. Computer Aided Chemical Engineering, 2337 - 2342.


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Negi, D.-S., Sobotka, F., Kimmel, T., Wozny, G. and Schomäcker, R. (2006). Liquid-liquid phase equilibrium in glycerol-methanol-methyl oleate and glycerol-monoolein-methyl oleate ternary systems. Industrial & engineering chemistry research. ACS Publications, 3693–3696.


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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.


Ochoa, S., Ahrim, Y., Repke, J.-U., Wozny, G. and Ryook, Y.-D. (2007). Modeling and Parameter Identification of the Simultaneous Saccharification?Fermentation Process for Ethanol Production. Biotechnology Progress, 1454-1462.


Ochoa, S., Lyubenova, V., Repke, J.-U., Ignatova, M. and Wozny, G. (2008). Adaptive control of the Simultaneous Saccharification—Fermentation Process from Starch to Ethanol. Computer Aided Chemical Engineering, 489-494.


Ochoa, S., Arim, Y., Repke, J.-U., Wozny, G. and Yang, D.-R. (2008). Modeling and identification of the bio-ethanol production process from starch: Cybernetic vs. unstructured modeling. Computer Aided Chemical Engineering, 707-712.


Ochoa, S., Repke, J.-U. and Wozny, G. (2009). A New Parallel Tempering Algorithm for Global Optimization: Applications to Bioprocess Optimization. 19th European Symposium on Computer Aided Process Engineering. Elsevier, 513 - 518.


Ochoa, S., Wozny, G. and Repke, J.-U. (2010). A new algorithm for global optimization: Molecular-Inspired Parallel Tempering. Computers & Chemical Engineering, 2072 - 2084.


Ochoa, S., Repke, J.-U. and Wozny, G. (2010). Integrating real-time optimization and control for optimal operation: Application to the bio-ethanol process. Biochemical Engineering Journal, 18-25.


Ochoa, S., Repke, J.-U. and Wozny, G. (2010). Integrating real-time optimization and control for optimal operation: Application to the bio-ethanol process. Biochemical Engineering Journal. Elsevier, 18–25.


Ochoa, S., Wozny, G. and Repke, J.-U. (2010). Plantwide optimizing control of a continuous bioethanol production process. Journal of Process Control. Elsevier, 983–998.


Ochoa, S., Yoo, A., Repke, J.-U., Wozny, G. and Yang, D.-R. (2007). Modeling and Parameter Identification of the Simultaneous Saccharification-Fermentation Process for Ethanol Production. Biotechnology progress. Wiley Online Library, 1454–1462.


Othman, M.-R., Hady, L., Repke, J.-U. and Wozny, G. (2012). Introducing sustainability assessment and selection (SAS) into chemical engineering education. Education for Chemical Engineers, e118 - e124.


Othman, M.-R., Repke, J.-U., Wozny, G. and Huang, Y. (2010). A modular approach to sustainability assessment and decision support in chemical process design. Industrial & Engineering Chemistry Research. ACS Publications, 7870–7881.


Otte, D., Lorenz, H.-M. and Repke, J.-U. (2016). A Toolbox using the stochastic optimization algorithm MIPT and ChemCAD for the systematic process retrofit of complex chemical processes. Computers & Chemical Engineering. Elsevier, 371–381.


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Paschke, S., Repke, J.-U. and Wozny, G. (2007). Analyse heterogener Filmströmungen mittels einer neuen ?PIV?Methode. Chemie Ingenieur Technik, 1364-1364.


Paschke, S., Repke, J.-U. and Wozny, G. (2008). Untersuchungen von Filmströmungen mittels eines neuartigen Micro Particle Image Velocimetry Messverfahrens. Chemie Ingenieur Technik, 1477-1485.


Paschke, S., Thiele, R. and Repke, J.-U. (2009). Untersuchung des Stoffübergangverhaltens dreiphasig betriebener Fallfilmabsorber. Chemie Ingenieur Technik, 297-304.


Paul, A., Meyer, K., Ruiken, J.-P., Illner, M., Müller, D.-N., Esche, E., Wozny, G., Westad, F. and Maiwald, M. (). Process spectroscopy in microemulsionsÑRaman spectroscopy for online monitoring of a homogeneous hydroformylation process. , 35502.


Paul, A., Meyer, K., Ruiken, J.-P., Illner, M., Müller, D.-N., Esche, E., Wozny, G., Westad, F. and Maiwald, M. (2017). Process spectroscopy in microemulsions - Raman spectroscopy for online monitoring of a homogeneous hydroformylation process. Measurement Science and Technology. IOP Publishing, 035502.


Penteado, A., Esche, E., Salerno, D., Godini, H.-R. and Wozny, G. (2016). Design and Assessment of a Membrane and Absorption Based Carbon Dioxide Removal Process for Oxidative Coupling of Methane. Industrial & Engineering Chemistry Research. ACS Publications, 7473–7483.


Penteado, A., Esche, E., Wilhelm, R., Godini, H., Salerno, D., Tolksdorf, G., Merchan, V.-A. and Wozny, G. (2016). Modeling, Simulation, and Economic Evaluation of a Hybrid CO2 Capture Process for Oxidative Coupling of Methane. Computer Aided Chemical Engineering, 1231-1236.



Pogrzeba, T., Illner, M., Schmidt, M., Repke, J.-U. and Schomäcker, R. (2017). Microemulsion Systems as Switchable Reaction Media for the Catalytic Upgrading of Long-Chain Alkenes. Chemie Ingenieur Technik, 459-463.


Pogrzeba, T., Illner, M., Schmidt, M., Repke, J.-U. and Schomäcker, R. (2017). Microemulsion Systems as Switchable Reaction Media for the Catalytic Upgrading of Long?Chain Alkenes. Chemie Ingenieur Technik, 459-463.


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