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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]

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Forner, F., Meyer, M., Döker, M., Repke, J.-U., Gmehling, J. and Wozny, G. (2006). Comparison of the startup of reactive distillation in packed and tray towers [19]. 16th European Symposium on Computer Aided Process Engineering and 9th International Symposium on Process Systems Engineering. Elsevier, 137–142.


Forner, F., Döker, M., Repke, J.-U., Gmehling, J. and Wozny, G. (2006). Zeitoptimales Anfahren der Reaktivdestillation in Packungs- und Bodenkolonnen [20]. Chemie Ingenieur Technik - CHEM-ING-TECH. Wiley, 1284–1284.


Forner, F., Döker, M., Gmehling, J., Repke, J.-U. and Wozny, G. (2007). Anfahrstrategien für die Reaktivrektifikation in Boden- und Packungskolonnen [21]. Chemie Ingenieur Technik. Wiley, 367–376.


Forner, F., Brehelin, M., Rouzineau, D., Meyer, M. and Repke, J.-U. (2008). Startup of a reactive distillation process with a decanter [22]. Chemical Engineering and Processing: Process Intensification. Elsevier BV, 1976–1985.


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G., B., A., H., M., R. and J.-U., R. (2016). Analysis of the influence of turbulence on the heat transfer between spherical particles and planar surfaces [23]. Chemical Engineering Transactions. AIDIC: Italian Association of Chemical Engineering, 13-18.


Gabrisch, X. and Repke, J.-U. (2020). Modelling the two-phase flow of propane in a capillary tube: Determination of the two-phase viscosity based on detailed experiments [24]. International Journal of Refrigeration. Elsevier BV, 427–442.


Gabrisch, X. and Repke, J.-U. (2021). Modelling the two-phase flow of propane in a capillary tube: Investigating and modelling the metastable flow and hysteresis effect [25]. International Journal of Refrigeration. Elsevier BV, 126–135.


Garc'ia, L., Poveda, Y. A., Rodr'iguez, G., Esche, E., Godini, H. R., Wozny, G., Repke, J.-U. and Orjuela, Á. (2019). Adsorption separation of oxidative coupling of methane effluent gases. Mini-plant scale experiments and modeling [26]. Journal of Natural Gas Science and Engineering. Elsevier BV, 106–118.


Gauss, B., Hausmanns, C., Urbas, L. and Wozny, G. (2002). Multimedia in Learning Process Systems Engineering [27]. Proceedings of the 6th Int. Sci. Conf on Work with Display Units, 141–143.


Gauss, B., Jimenez, L., Urbas, L., Hausmanns, C. and Wozny, G. (2004). E-learning in process and chemical engineering - trends and challenges [28]. IEEE International Conference on Advanced Learning Technologies, 2004. Proceedings.. IEEE.


Gauss, B., Jimenez, L., Urbas, L., Hausmanns, C. and Wozny, G. (2004). E-learning in Process and Chemical Engineering-trends and challenges [29]. Advanced Learning Technologies, 2004. Proceedings. IEEE International Conference on, 872–873.


Gauss, B., Klein, A., Urbas, L. and Wozny, G. (2004). Learning by Troubleshooting - A Suitable Didactical Scenario for Online Experiments? [30]. Proceedings of INCOM. Elsevier BV, 557–562.


Gauss, B., Urbas, L., Hausmanns, C. and Wozny, G. (2004). The EuPaCE. net community survey on e-learning in process and chemical engineering in Europe [31].


Gerke, S. J. and Repke, J.-U. (2019). Experimental investigations of the fluid dynamics in liquid falling films over structured packing geometry [32]. Chemical Engineering Research and Design. Elsevier BV, 634–643.


Godini, H., Arellano-Garcia, H., Omidkhah, M. and Wozny, G. (2009). Analysis of oxidative coupling of methane in membrane reactors [33]. Computer Aided Chemical Engineering. Elsevier, 123–128.


Godini, H. R., Arellano-Garcia, H., Omidkhah, M., Karimzadeh, R. and Wozny, G. (2010). Model-Based Analysis of Reactor Feeding Policies for Methane Oxidative Coupling [34]. Industrial & Engineering Chemistry Research. American Chemical Society (ACS), 3544–3552.


Godini, H. R., Javso, S., Xiao, S., Arellano-Garcia, H., Omidkhah, M. and Wozny, G. (2012). Methane Oxidative Coupling: Synthesis of Membrane Reactor Networks [35]. Industrial & Engineering Chemistry Research. American Chemical Society (ACS), 7747–7761.


Godini, H. R., Gili, A., Görke, O., Simon, U., Hou, K. and Wozny, G. (2013). Performance Analysis of a Porous Packed Bed Membrane Reactor for Oxidative Coupling of Methane: Structural and Operational Characteristics [36]. Energy & Fuels. American Chemical Society (ACS), 877–890.


Godini, H., Trivedi, H., Villasante, A. G. d., 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 [37]. Chemical Engineering Research and Design. Elsevier BV, 2671–2681.


Godini, H., Xiao, S., Kim, M., Görke, O., Song, S. and Wozny, G. (2013). Dual-membrane reactor for methane oxidative coupling and dry methane reforming: Reactor integration and process intensification [38]. Chemical Engineering and Processing: Process Intensification. Elsevier BV, 153–164.


Godini, H. R., Xiao, S., Javso, S., Stünkel, S., Salerno, D., Son, N. X., Song, S. and Wozny, G. (2013). Techno-economic analysis of integrating the methane oxidative coupling and methane reforming processes [39]. Fuel Processing Technology. Elsevier BV, 684–694.


Godini, H., Gili, A., Görke, O., Arndt, S., Simon, U., Thomas, A., Schomäcker, R. and Wozny, G. (2014). Soltextendashgel method for synthesis of MntextendashNa2WO4/SiO2 catalyst for methane oxidative coupling [40]. Catalysis Today. Elsevier, 12–22.


Godini, H., Xiao, S., Kim, M., Holst, N., Javso, S., Görke, O., Steinbach, J. and Wozny, G. (2014). Experimental and model-based analysis of membrane reactor performance for methane oxidative coupling: Effect of radial heat and mass transfer [41]. Journal of Industrial and Engineering Chemistry. Elsevier BV, 1993–2002.


Godini, H., Fleischer, V., Görke, O., Jaso, S., Schomäcker, R. and Wozny, G. (2014). Thermal Reaction Analysis of Oxidative Coupling of Methane [42]. Chemie Ingenieur Technik. Wiley, 1906–1915.


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 [43]. Chemical Engineering Research and Design. Elsevier BV, 56–69.


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