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TU Berlin

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Aziz Hassan, M.Sc.

Publications

A. Hassan; I. Özgen; R. Hinkelmann (2018). Using a simplex-type optimization method to calibrate a hydrodynamic model for rainfall-runoff simulations [4]. Proceedings of the 5th IAHR (International Association of Hydro-Environment Engineering and Research) Europe Congress - New Challenges in Hydraulic Research and Engineering, 12 – 14 June, 2018. ISBN: 978-981-11-2731-1_130, 1–2.


Matta, E and Duda, R and Scheer, C and Ma, Y and Zhang, Q and Hassan, A and Hinkelmann, R and Schellenberg, H and Schmid, A (2018). Water level predictions using neural networks in critical gauges of the Rhine River, Germany [5]. Proceedings of the 5th IAHR (International Association of Hydro-Environment Engineering and Research) Europe Congress - New Challenges in Hydraulic Research and Engineering, 12 – 14 June, 2018. ISBN: 978-981-11-2731-1, 1–2.


Tügel, Franziska and Haacke, Nasrin and Hassan, Aziz and Hinkelmann, Reinhard (2020). Investigating the suitability of the Green-Ampt model with tabulated parameter values from literature by using a 2D hydrodynamic rainfall-runoff model and field experiments with rainfall simulator [6]. First International Conference on Urban Water Interfaces (UWI). [Technische Universität Berlin, Urban Water Interfaces];, 30.


Tügel, F., Hassan, A., Wannous, M., Tröger, U. & Hinkelmann, R. (2020). Investigation of the Green-Ampt infiltration model in rainfall-runoff simulations with a robust 2D shallow water model [7].


Tügel, F., Abdelrahman, A., Hadidi, A. & Hinkelmann, R. (2018). Rainfall-runoff analysis of the Wadi Bili catchment in the Red Sea Governorate of Egypt [8].


Tügel, F., Hassan, A., Özgen-Xian, I., Hinkelmann, R. (2020). Is the Green-Ampt model suitable for hydrodynamic rainfall-runoff simulations in ungauged catchments? [9].


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